Genetic Signatures To Predict Prostate Cancer Metastasis And Identify Tumor Aggressiveness

Abstract

The present invention relates to methods, systems and kits for the diagnosis, prognosis and the determination of cancer progression of prostate cancer in a subject. The invention also provides clinically useful genomic classifiers for predicting prostate cancer metastasis and identifying tumor aggressiveness. The methods, systems and kits can provide expression-based analysis of biomarkers for purposes of predicting metastatic disease and lethal prostate cancer in a subject. Further disclosed herein, in certain instances, are probe sets for use in predicting prostate cancer metastasis in a subject. Classifiers for predicting prostate cancer metastasis are provided. Methods of treating cancer based on tumor aggressiveness are also provided. The methods and classifiers of the present invention are also useful for predicting early prostate cancer metastasis.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS

[0001] This application is a continuation of U.S. patent application Ser. No. 15/977,249, filed May 11, 2018, entitled "GENETIC SIGNATURES TO PREDICT PROSTATE CANCER METASTASIS AND IDENTIFY TUMOR AGGRESSIVENESS", which claims priority to the U.S. Provisional Patent Application Ser. No. 62/505,665, filed on May 12, 2017, which is hereby incorporated by reference herein in its entirety.

INCORPORATION OF SEQUENCE LISTING

[0002] The material in the accompanying sequence listing is hereby incorporated by reference into this application. The accompanying sequence listing text file, name GENDX_001C1.txt, was created on Jul. 30, 2021, and is 531 kb. The file can be assessed using Microsoft Word on a computer that uses Windows OS.

FIELD OF THE INVENTION

[0003] The present invention relates to methods, systems and kits for the diagnosis, prognosis and the determination of cancer progression of prostate cancer in a subject. The invention also provides clinically useful genomic classifiers for predicting prostate cancer metastasis and identifying tumor aggressiveness. The methods, systems and kits can provide expression-based analysis of biomarkers for purposes of predicting metastatic disease and lethal prostate cancer in a subject. Further disclosed herein, in certain instances, are probe sets for use in predicting prostate cancer metastasis in a subject. Classifiers for predicting prostate cancer metastasis are provided. Methods of treating cancer based on tumor aggressiveness are also provided. The methods and classifiers of the present invention are also useful for predicting early prostate cancer metastasis.

BACKGROUND OF THE INVENTION

[0004] Cancer is the uncontrolled growth of abnormal cells anywhere in a body. The abnormal cells are termed cancer cells, malignant cells, or tumor cells. Many cancers and the abnormal cells that compose the cancer tissue are further identified by the name of the tissue that the abnormal cells originated from (for example, prostate cancer). Cancer cells can proliferate uncontrollably and form a mass of cancer cells. Cancer cells can break away from this original mass of cells, travel through the blood and lymph systems, and lodge in other organs where they can again repeat the uncontrolled growth cycle. This process of cancer cells leaving an area and growing in another body area is often termed metastatic spread or metastatic disease. For example, if prostate cancer cells spread to a bone (or anywhere else), it can mean that the individual has metastatic prostate cancer.

[0005] Standard clinical parameters such as tumor size, grade, lymph node involvement and tumor-node-metastasis (TNM) staging (American Joint Committee on Cancer http://www.cancerstaging.org) may correlate with outcome and serve to stratify patients with respect to (neo)adjuvant chemotherapy, immunotherapy, antibody therapy and/or radiotherapy regimens. Incorporation of molecular markers in clinical practice may define tumor subtypes that are more likely to respond to targeted therapy. However, stage-matched tumors grouped by histological or molecular subtypes may respond differently to the same treatment regimen. Additional key genetic and epigenetic alterations may exist with important etiological contributions. A more detailed understanding of the molecular mechanisms and regulatory pathways at work in cancer cells and the tumor microenvironment (TME) could dramatically improve the design of novel anti-tumor drugs and inform the selection of optimal therapeutic strategies. For example, methods that enable the identification of aggressive tumors would ensure that those patients are adequately treated for their cancer, while patients with low risk tumors could avoid unnecessary cancer treatment. The development and implementation of diagnostic, prognostic and therapeutic biomarkers to characterize the biology of each tumor may assist clinicians in making important decisions with regard to individual patient care and treatment. Thus, provided herein are methods, systems and kits for the diagnosis, prognosis and the determination of cancer progression of cancer in a subject. The invention also provides biomarkers that identify aggressive prostate cancer, clinically useful classifiers for predicting prostate cancer metastasis, bioinformatic methods for determining clinically useful classifiers, and methods of use of each of the foregoing. The methods, systems and kits can provide expression-based analysis of biomarkers for purposes of predicting prostate cancer metastasis in a subject. Further disclosed herein, in certain instances, are probe sets for use in predicting prostate cancer metastasis in a subject. Classifiers for predicting prostate cancer metastasis are provided. Methods of treating cancer based on tumor aggressiveness are also provided. The methods and classifiers of the present invention are also useful for predicting early prostate cancer metastasis.

[0006] This background information is provided for the purpose of making known information believed by the applicant to be of possible relevance to the present invention. No admission is necessarily intended, nor should be construed, that any of the preceding information constitutes prior art against the present invention.

SUMMARY OF THE INVENTION

[0007] The present invention relates to methods, systems and kits for the diagnosis, prognosis and the determination of cancer progression of cancer in a subject. The invention also provides biomarkers that define subgroups of prostate cancer, clinically useful classifiers for predicting prostate cancer aggressiveness and metastasis, bioinformatic methods for determining clinically useful classifiers, and methods of use of each of the foregoing. The methods, systems and kits can provide expression-based analysis of biomarkers for purposes of prognosing and diagnosing prostate cancer in a subject. Further disclosed herein, in certain instances, are probe sets for use in prognosing and diagnosing prostate cancer in a subject. Classifiers for prognosing and diagnosing a prostate cancer are provided. Methods of treating cancer based on prognosis and/or diagnosis according to the present invention are also provided.

[0008] In one embodiment, the present invention provides a method comprising: obtaining a biological sample from a subject; and detecting the presence or assaying an expression level in the sample from the subject for a plurality of target sequences, wherein the plurality of target sequences is selected from Table 1 or SEQ ID NOs: 1-1815. In some embodiments, the plurality of target sequences comprises a coding and/or non-coding target. In other embodiments, the coding target is an exonic sequence. In yet other embodiments, non-coding target comprises an intronic sequence, partially overlaps an intronic sequence, a sequence within the UTR or partially overlaps with a UTR sequence. In other embodiments, the plurality of target sequences comprises a nucleic acid sequence. In still other embodiments, the nucleic acid sequence is a DNA sequence or an RNA sequence. In some embodiments, the plurality of target sequences comprises at least 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55 or 60 target sequences selected from Table 1 or SEQ ID NOs: 1-1815. In some embodiments, the subject has cancer. In other embodiments, the cancer is selected from the group consisting of skin cancer, lung cancer, colon cancer, pancreatic cancer, prostate cancer, liver cancer, thyroid cancer, ovarian cancer, uterine cancer, breast cancer, cervical cancer, kidney cancer, epithelial carcinoma, squamous carcinoma, basal cell carcinoma, melanoma, papilloma, and adenomas. In yet other embodiments, the cancer is prostate cancer. In still other embodiments, the methods further comprise administering a treatment to the subject. In some embodiments, the treatment is selected from the group consisting of surgery, chemotherapy, radiation therapy, immunotherapy/biological therapy, and photodynamic therapy. In other embodiments, the biological sample is a biopsy. In yet other embodiments, the biological sample is a urine sample, a blood sample or a prostate tumor sample. In certain embodiments, the blood sample is plasma, serum, or whole blood. In other embodiments, the subject is a human.

[0009] In another embodiment, the present invention provides methods of diagnosing, prognosing and determining cancer progression of cancer in a subject comprising obtaining a biological sample from a subject; and detecting the presence or assaying an expression level in the sample from the subject for a plurality of target sequences, wherein the plurality of target sequences is selected from Table 1 or SEQ ID NOs: 1-1815, thereby diagnosing, prognosing and determining cancer progression of cancer in the subject. In some embodiments, the plurality of target sequences comprises a coding and/or non-coding target. In other embodiments, the coding target is an exonic sequence. In yet other embodiments, non-coding target comprises an intronic sequence, partially overlaps an intronic sequence, a sequence within the UTR or partially overlaps with a UTR sequence. In other embodiments, the plurality of target sequences comprises a nucleic acid sequence. In still other embodiments, the nucleic acid sequence is a DNA sequence or an RNA sequence. In some embodiments, the plurality of target sequences comprises at least 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55 or 60 target sequences selected from Table 1 or SEQ ID NOs: 1-1815. In some embodiments, the subject has cancer. In other embodiments, the cancer is selected from the group consisting of skin cancer, lung cancer, colon cancer, pancreatic cancer, prostate cancer, liver cancer, thyroid cancer, ovarian cancer, uterine cancer, breast cancer, cervical cancer, kidney cancer, epithelial carcinoma, squamous carcinoma, basal cell carcinoma, melanoma, papilloma, and adenomas. In yet other embodiments, the cancer is prostate cancer. In still other embodiments, the methods further comprise administering a treatment to the subject. In some embodiments, the treatment is selected from the group consisting of surgery, chemotherapy, radiation therapy, immunotherapy/biological therapy, and photodynamic therapy. In other embodiments, the biological sample is a biopsy. In yet other embodiments, the biological sample is a urine sample, a blood sample or a prostate tumor sample. In certain embodiments, the blood sample is plasma, serum, or whole blood. In other embodiments, the subject is a human.

[0010] In other embodiments, the present invention provides methods of determining a treatment regimen for a subject having cancer comprising: obtaining a biological sample from a subject having cancer; assaying an expression level in a sample from the subject for a plurality of target sequences, wherein the plurality of target sequences is selected from Table 1 or SEQ ID NOs: 1-1815; and determining the treatment regimen for the subject. In other embodiments, the expression level is increased or reduced compared to a control. In still other embodiments, the assaying an expression level comprises performing in situ hybridization, a PCR-based method, an array-based method, an immunohistochemical method, an RNA assay method, or an immunoassay method. In other embodiments, the assaying an expression level comprises using a reagent selected from the group consisting of a nucleic acid probe, one or more nucleic acid primers, and an antibody. In yet other embodiments, the assaying an expression level comprises assaying the level of an RNA transcript. In other embodiments, the method further comprises administering at least one cancer treatment selected from the group consisting of surgery, radiation therapy, immunotherapy, biological therapy, neoadjuvant chemotherapy, and photodynamic therapy after androgen deprivation therapy.

[0011] In other embodiments, the present invention provides kits for predicting cancer aggressiveness or risk of metastasis, the kit comprising agents for assaying an expression level of a plurality of genes, wherein said plurality of genes comprises one or more genes selected from Table 1 or SEQ ID NOs: 1-1815. In certain embodiments, the kit comprises agents for assaying an expression level of the genes listed in Table 1. In certain aspects, the agents comprise reagents for performing in situ hybridization, a PCR-based method, an array-based method, an immunohistochemical method, an RNA assay method, or an immunoassay method. In other aspects, the agents comprise one or more of a microarray, a nucleic acid probe, a nucleic acid primer, or an antibody. In certain embodiments, the kit comprises at least one set of PCR primers capable of amplifying a nucleic acid comprising a sequence of a gene selected from Table 1 or its complement. In other embodiments, the kit comprises at least one probe capable of hybridizing to a nucleic acid comprising a sequence of a gene selected from Table 1 or its complement. In yet other embodiments, the kits further comprise one or more control reference samples.

[0012] In one embodiment, the present invention provides a probe set for prognosing or diagnosing cancer in a subject, the probe set comprising a plurality of probes for detecting a plurality of target nucleic acids, wherein the plurality of target nucleic acids comprises one or more gene sequences, or complements thereof, of genes selected from Table 1. In one aspect, at least one probe is detectably labeled.

[0013] In other embodiments, the present invention provides methods for treating a subject with cancer, the method comprising: a) obtaining a biological sample from a subject having cancer; b) detecting the presence or assaying the expression level in the biological sample for a plurality of targets selected from Table 1 or SEQ ID NOs: 1-1815; and c) administering a treatment to the subject. In some embodiments, the treatment is selected from the group consisting of surgery, chemotherapy, radiation therapy, immunotherapy, biological therapy, hormonal therapy, and photodynamic therapy. In other embodiments, the cancer is prostate cancer.

[0014] In one embodiment, the present invention provides a method comprising: a) obtaining a biological sample from a subject; and b) detecting the presence or assaying the expression level in the biological sample for a plurality of targets selected from the group consisting of AC020571.3, ANO7, ARL6IP1P2, ASPN, AZGP1, AZGP1P1, DEGS1, ERO1LB, FBXL8, FMOS, FTH1P2, FTH1P8, GLB1L2, GLB1L3, GLYATL1P3, GMNN, HIF3A, INHBA, KIAA1210, KRT15, LIPH, LPAR3, LPGAT1, MIR4435-1HG, MKI67, MLLT11, MYBPC1, NADK2, NR4A1, NUSAP1, OR51A6P, PABPC1, PART1, PCAT14, PGM5P4-AS1, PICK1, PTTG1, R3HDM1, RNA5SP121, RP11-121G22.3 RP11-159H20.3, RP11-755011.2, RP11-770G2.5, RP11-923111.3, RP13-753N3.3, RPL31P57, SCIN, SESN3, SETP14, SLC22A3, SMC4, TIPARP, TMEM100, TNFRSF19, TOP2A, TPX2, TRIQK, VBP1, WFDC2, and XPO6. In one aspect, the plurality of target sequences comprises a coding and/or non-coding target. In some embodiments, the plurality of target sequences comprises a coding and/or non-coding target. In other embodiments, the coding target is an exonic sequence. In yet other embodiments, non-coding target comprises an intronic sequence, partially overlaps an intronic sequence, a sequence within the UTR or partially overlaps with a UTR sequence. In other embodiments, the plurality of target sequences comprises a nucleic acid sequence. In still other embodiments, the nucleic acid sequence is a DNA sequence or an RNA sequence. In some embodiments, the plurality of target sequences comprises at least 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55 or 60 target sequences selected from Table 1 or SEQ ID NOs: 1-1815. In some embodiments, the subject has cancer. In other embodiments, the cancer is selected from the group consisting of skin cancer, lung cancer, colon cancer, pancreatic cancer, prostate cancer, liver cancer, thyroid cancer, ovarian cancer, uterine cancer, breast cancer, cervical cancer, kidney cancer, epithelial carcinoma, squamous carcinoma, basal cell carcinoma, melanoma, papilloma, and adenomas. In yet other embodiments, the cancer is prostate cancer. In still other embodiments, the methods further comprise administering a treatment to the subject. In some embodiments, the treatment is selected from the group consisting of surgery, chemotherapy, radiation therapy, immunotherapy/biological therapy, and photodynamic therapy. In other embodiments, the biological sample is a biopsy. In yet other embodiments, the biological sample is a urine sample, a blood sample or a prostate tumor sample. In certain embodiments, the blood sample is plasma, serum, or whole blood. In other embodiments, the subject is a human.

[0015] The plurality of targets may comprise one or more targets selected from ACO20571.3, ANO7, ARL6IP1P2, ASPN, AZGP1, AZGP1P1, DEGS1, ERO1LB, FBXL8, FMOS, FTH1P2, FTH1P8, GLB1L2, GLB1L3, GLYATL1P3, GMNN, HIF3A, INHBA, KIAA1210, KRT15, LIPH, LPAR3, LPGAT1, MIR4435-1HG, MKI67, MLLT11, MYBPC1, NADK2, NR4A1, NUSAP1, OR51A6P, PABPC1, PART1, PCAT14, PGMSP4-AS1, PICK1, PTTG1, R3HDM1, RNA5SP121, RP11-121G22.3 RP11-159H20.3, RP11-755011.2, RP11-770G2.5, RP11-923111.3, RP13-753N3.3, RPL31P57, SCIN, SESN3, SETP14, SLC22A3, SMC4, TIPARP, TMEM100, TNFRSF19, TOP2A, TPX2, TRIQK, VBP1, WFDC2, and XPO6; TIPARP and TMEM100; SETP14, MLLT11, and INHBA; ANO7, NR4A1, PART1, PCAT-14, SLC22A3, and TIPARP; FBXL8, MKI67, NUSAP1, PTTG1, TOP2A, and TPX2; ASPN, AZGP1, KRT15, MYBPC1, PICK1, TRIQK, and WFDC2; DEGS1, ERO1LB, FMOS, GLB1L2, GLB1L3, GLYATL1P3, LIPH, LPGAT1, NADK2, and XPO6; GMNN, SESN3, SMC4, and VBP1; HIF3A; INHBA, R3HDM1, and TNFRSF19; LPAR3 and SCIN; LOC101927482, ARL6IP1P2, AZGP1P1, FTH1P2, FTH1P8, KIAA1210, MIR4435-1HG, OR51A6P, PGMSP4-AS1, RNA5SP121, RP11-121G22.3, RP11-159H20.3, RP11-755011.2, RP11-77062.5, RP11-923111.3, and RP13-753N3.3; ANO7, NR4A1, and PART1; PCAT-14, SLC22A3, and TIPARP; FBXL8, MKI67, and NUSAP1; PTTG1, TOP2A, and TPX2; ASPN, AZGP1, and KRT15; MYBPC1, PICK1, TRIQK, and WFDC2; DEGS1, ERO1LB, and FMOS; GLB1L2, GLB1L3, and GLYATL1P3; LIPH, LPGAT1, NADK2, and XPO6; GMNN and SESN3; SMC4 and VBP1; INHBA and R3HDM1; INHBA and TNFRSF19; LPAR3 and SCIN; LOC101927482 and ARL6IP1P2; AZGP1P1 and FTH1P2; FTH1P8 and KIAA1210; MIR4435-1HG and OR51A6P; PGMSP4-AS1 and RNA5SP121; RP11-121G22.3 and RP11-159H20.3; RP11-755011.2 and RP11-77062.5; RP11-923111.3 and RP13-753N3.3; ACO20571.3 and ANO7; ARL6IP1P2 and ASPN; AZGP1 and AZGP1P1; DEGS1 and ERO1LB; FBXL8 and FMOS; FTH1P2 and FTH1P8; GLB1L2 and GLB1L3; GLYATL1P3 and GMNN; HIF3A and INHBA; KIAA1210 and KRT15; LIPH and LPAR3; LPGAT1 and MIR4435-1HG; MKI67 and MLLT11; MYBPC1 and NADK2; NR4A1 and NUSAP1; OR51A6P and PABPC1; PART1 and PCAT14; PGM5P4-AS1 and PICK1; PTTG1 and R3HDM1; RNA5SP121 and RP11-121G22.3; RP11-159H20.3 and RP11-755011.2; RP11-770G2.5 and RP11-923111.3; RP13-753N3.3 and RPL31P57; SCIN and SESN3; SETP14 and SLC22A3; SMC4 and TIPARP; TMEM100 and TNFRSF19; TOP2A and TPX2; TRIQK and VBP1; WFDC2 and XPO6; TIPARP and TMEM100.

[0016] In one embodiment, the present invention provides a method comprising: a) obtaining a biological sample from a subject having prostate cancer and b) detecting the presence or expression level in the biological sample for a plurality of targets selected from Table 1 or SEQ ID NOs: 1-1815. In some embodiments, the method further comprises treating the prostate cancer in the subject according to a genomic classifier score based on the presence or expression levels of the plurality of targets.

[0017] In some embodiments, the present invention also provides a method of diagnosing, prognosing, assessing the risk of recurrence or predicting benefit from therapy in a subject with prostate cancer, comprising: providing a biological sample comprising prostate cancer cells from the subject; assaying an expression level in the biological sample from the subject for a plurality of targets using at least one reagent that specifically binds to said targets, wherein the plurality of targets comprises one or more targets selected from Table 1 or SEQ ID NOs: 1-1815; and diagnosing, prognosing, assessing the risk of recurrence or predicting benefit from therapy in the subject based on the expression levels of the plurality of targets. In some embodiments, the expression level of the target is reduced expression of the target. In other embodiments, the expression level of said target is increased expression of said target. In yet other embodiments, the level of expression of said target is determined by using a method selected from the group consisting of in situ hybridization, a PCR-based method, an array-based method, an immunohistochemical method, an RNA assay method and an immunoassay method. In other embodiments, the reagent is selected from the group consisting of a nucleic acid probe, one or more nucleic acid primers, and an antibody. In other embodiments, the target comprises a nucleic acid sequence.

[0018] In some embodiments, the present invention provides a system for analyzing a cancer, comprising, a probe set comprising a plurality of target sequences, wherein the plurality of target sequences hybridizes to one or more targets selected from Table 1 or SEQ ID NOs: 1-1815; or the plurality of target sequences comprises one or more targets selected from Table 1 or SEQ ID NOs: 1-1815; and a computer model or algorithm for analyzing an expression level and/or expression profile of the target hybridized to the probe in a sample from a subject suffering from prostate cancer. In some embodiments, the method further comprises a label that specifically binds to the target, the probe, or a combination thereof.

[0019] In some embodiments, the present invention provides a method comprising: (a) providing a biological sample from a subject with prostate cancer; (b) detecting the presence or expression level in the biological sample for a plurality of targets, wherein the plurality of targets comprises one or more targets selected from Table 1 or SEQ ID NOs: 1-1815; (c) generating a genomic classifier score based on the presence or expression levels of the plurality of targets; and (d) administering a treatment to the subject, wherein the treatment is selected from the group consisting of surgery, chemotherapy, radiation therapy, immunotherapy/biological therapy, hormonal therapy, and photodynamic therapy. In some embodiments, the present invention provides a method of treating a subject with prostate cancer, comprising: providing a biological sample comprising prostate cancer cells from the subject; determining the level of expression or amplification of at least one or more targets selected from Table 1 or SEQ ID NOs: 1-1815 using at least one reagent that specifically binds to said targets; generating a genomic classifier score based on the level of expression or amplification of the at least one or more targets; and prescribing a treatment regimen based on the genomic classifier score.

[0020] In some embodiments, the present invention provides a kit for analyzing a prostate cancer, comprising, a probe set comprising a plurality of target sequences, wherein the plurality of target sequences comprises at least one target sequence listed in Table 1 or SEQ ID NOs: 1-1815; and a computer model or algorithm for analyzing an expression level and/or expression profile of the target sequences in a sample. In some embodiments, the method further comprises a computer model or algorithm for correlating the expression level or expression profile with disease state or outcome. In other embodiments, the method further comprises a computer model or algorithm for designating a treatment modality for the individual. In yet other embodiments, the method further comprises a computer model or algorithm for normalizing expression level or expression profile of the target sequences. In some embodiments, the method further comprises sequencing the plurality of targets. In some embodiments, the method further comprises hybridizing the plurality of targets to a solid support. In some embodiments, the solid support is a bead or array. In some embodiments, assaying the expression level of a plurality of targets may comprise the use of a probe set. In some embodiments, assaying the expression level may comprise the use of a classifier. The classifier may comprise a probe selection region (PSR). In some embodiments, the classifier may comprise the use of an algorithm. The algorithm may comprise a machine learning algorithm. In some embodiments, assaying the expression level may also comprise sequencing the plurality of targets.

[0021] Further disclosed herein methods for using genomic classifiers for prognosing and/or diagnosing prostate cancer, wherein the genomic classifier has an AUC value of at least about 0.40 to predict patient outcomes. In some embodiments, patient outcomes are selected from the group consisting of biochemical recurrence (BCR), metastasis (MET) and prostate cancer death (PCSM) after radical prostatectomy. The AUC of the genomic classifier may be at least about 0.40, 0.45, 0.50, 0.55, 0.60, 0.61, 0.62, 0.63, 0.64, 0.65, 0.66, 0.67, 0.68, 0.69, 0.70 or more.

[0022] Further disclosed herein is a method for using genomic classifiers for prognosing and/or diagnosing prostate cancer, comprising determining the level of expression or amplification of at least one or more targets of the present invention, wherein the significance of the expression level of the one or more targets is based on one or more metrics selected from the group comprising T-test, P-value, KS (Kolmogorov Smirnov) P-value, accuracy, accuracy P-value, positive predictive value (PPV), negative predictive value (NPV), sensitivity, specificity, AUC, AUC P-value (Auc.pvalue), Wilcoxon Test P-value, Median Fold Difference (MFD), Kaplan Meier (KM) curves, survival AUC (survAUC), Kaplan Meier P-value (KM P-value), Univariable Analysis Odds Ratio P-value (uvaORPval), multivariable analysis Odds Ratio P-value (mvaORPval), Univariable Analysis Hazard Ratio P-value (uvaHRPval) and Multivariable Analysis Hazard Ratio P-value (mvaHRPval). The significance of the expression level of the one or more targets may be based on two or more metrics selected from the group comprising AUC, AUC P-value (Auc.pvalue), Wilcoxon Test P-value, Median Fold Difference (MFD), Kaplan Meier (KM) curves, survival AUC (survAUC), Univariable Analysis Odds Ratio P-value (uvaORPval), multivariable analysis Odds Ratio P-value (mvaORPval), Kaplan Meier P-value (KM P-value), Univariable Analysis Hazard Ratio P-value (uvaHRPval) and Multivariable Analysis Hazard Ratio P-value (mvaHRPval). The molecular subtypes of the present invention are useful for predicting clinical characteristics of subjects with prostate cancer. In some embodiments, the clinical characteristics are selected from the group consisting of seminal vesical invasion (SVI), lymph node invasion (LNI), prostate-specific antigen (PSA), and gleason score (GS).

INCORPORATION BY REFERENCE

[0023] All publications, patents, and patent applications mentioned in this specification are herein incorporated by reference in their entireties to the same extent as if each individual publication, patent, or patent application was specifically and individually indicated to be incorporated by reference.

BRIEF DESCRIPTION OF THE DRAWINGS

[0024] FIGS. 1A-B set forth data showing correlation of genomic classifiers with biopsy Grade Groups and NCCN risk categories.

[0025] FIGS. 2A-C set forth data showing correlation of genomic classifiers with diagnostic PSA, clinical stage and percentage of positive cores.

[0026] FIGS. 3A-B set forth data showing correlation of genomic classifier with pathological tumor grade and stage.

[0027] FIG. 4 sets forth data showing genomic classifier correlation with prospective RP and biopsy tumor specimens across tumor Grade Groups.

[0028] FIG. 5 sets forth data showing the distribution of genomic classifier scores among cases where tumor grading changed.

[0029] FIGS. 6A-C set forth data showing correlation of genomic classifiers with Gleason scores after pathological re-review in 1,694 biopsy samples.

[0030] FIGS. 7A-B set forth data showing genomic classifier scores for composite endpoint: High Stage Disease (LNI or pT3b) for biopsy samples.

[0031] FIG. 8 sets forth data showing AUC for predicting LNI for various genomic classifiers.

DETAILED DESCRIPTION OF THE INVENTION

[0032] The present invention discloses systems and methods for diagnosing, predicting, and/or monitoring the status or outcome of a prostate cancer in a subject using expression-based analysis of a plurality of targets. Generally, the method comprises (a) optionally obtaining a sample from a subject; (b) assaying the expression level for a plurality of targets in the sample; and (c) diagnosing, predicting and/or monitoring the status or outcome of a prostate cancer based on the expression level of the plurality of targets.

[0033] Assaying the expression level for a plurality of targets in the sample may comprise applying the sample to a microarray. In some instances, assaying the expression level may comprise the use of an algorithm. The algorithm may be used to produce a classifier and subsequently a classifier score. Alternatively, the classifier may comprise a probe selection region. In some instances, assaying the expression level for a plurality of targets comprises detecting and/or quantifying the plurality of targets. In some embodiments, assaying the expression level for a plurality of targets comprises sequencing the plurality of targets. In some embodiments, assaying the expression level for a plurality of targets comprises amplifying the plurality of targets. In some embodiments, assaying the expression level for a plurality of targets comprises quantifying the plurality of targets. In some embodiments, assaying the expression level for a plurality of targets comprises conducting a multiplexed reaction on the plurality of targets.

[0034] In some instances, the plurality of targets comprises one or more targets selected from Table 1 or SEQ ID NOs: 1-1815. In some instances, the plurality of targets comprises at least about 2, at least about 3, at least about 4, at least about 5, at least about 6, at least about 7, at least about 8, at least about 9, at least about 10, at least about 20, at least about 30, at least about 40, at least about 50, or at least about 60 targets selected from Table 1 or SEQ ID NOs: 1-1815.

[0035] Further disclosed herein are methods for prognosing or diagnosing prostate cancer. Generally, the method comprises: (a) obtaining a sample comprising prostate cancer cells from a subject; (b) assaying the expression level for a plurality of targets in the sample; and (c) prognosing or diagnosing the cancer based on the expression level of the plurality of targets. In some instances, the plurality of targets comprises one or more targets selected from Table 1 or SEQ ID NOs: 1-1815. In some instances, the plurality of targets comprises at least about 2, at least about 3, at least about 4, at least about 5, at least about 6, at least about 7, at least about 8, at least about 9, at least about 10, at least about 20, at least about 30, at least about 40, at least about 50, or at least about 60 targets selected from Table 1 or SEQ ID NOs: 1-1815.

[0036] In some instances, prognosing or diagnosing the prostate cancer comprises determining whether the cancer is aggressive or will metastasize. Alternatively, prognosing or diagnosing the prostate cancer comprises identifying the cancer as non-responsive to an anti-cancer therapy. Optionally, prognosing or diagnosing the prostate cancer comprises identifying the cancer as responsive to an anti-cancer therapy.

[0037] Before the present invention is described in further detail, it is to be understood that this invention is not limited to the particular methodology, compositions, articles or machines described, as such methods, compositions, articles or machines can, of course, vary. It is also to be understood that the terminology used herein is for the purpose of describing particular embodiments only, and is not intended to limit the scope of the present invention.

Targets

[0038] The methods disclosed herein often comprise assaying the expression level of a plurality of targets. The plurality of targets may comprise coding targets and/or non-coding targets of a protein-coding gene or a non protein-coding gene. A protein-coding gene structure may comprise an exon and an intron. The exon may further comprise a coding sequence (CDS) and an untranslated region (UTR). The protein-coding gene may be transcribed to produce a pre-mRNA and the pre-mRNA may be processed to produce a mature mRNA. The mature mRNA may be translated to produce a protein.

[0039] A non protein-coding gene structure may comprise an exon and intron. Usually, the exon region of a non protein-coding gene primarily contains a UTR. The non protein-coding gene may be transcribed to produce a pre-mRNA and the pre-mRNA may be processed to produce a non-coding RNA (ncRNA).

[0040] A coding target may comprise a coding sequence of an exon. A non-coding target may comprise a UTR sequence of an exon, intron sequence, intergenic sequence, promoter sequence, non-coding transcript, CDS antisense, intronic antisense, UTR antisense, or non-coding transcript antisense. A non-coding transcript may comprise a non-coding RNA (ncRNA).

[0041] In some instances, the plurality of targets may be differentially expressed. In some instances, a plurality of probe selection regions (PSRs) is differentially expressed.

[0042] In some instances, the plurality of targets comprises one or more targets selected from at least about 10, at least about 20, at least about 30, at least about 40, at least about 50, or at least about 60 targets selected from Table 1 or SEQ ID NOs: 1-1815. In some instances, the plurality of targets comprises at least about 2, at least about 3, at least about 4, at least about 5, at least about 6, at least about 7, at least about 8, at least about 9, at least about 10, at least about 20, at least about 30, at least about 40, at least about 50, or at least about 60 targets selected from Table 1 or SEQ ID NOs: 1-1815.

[0043] In some instances, the plurality of targets comprises a coding target, non-coding target, or any combination thereof. In some instances, the coding target comprises an exonic sequence. In other instances, the non-coding target comprises a non-exonic or exonic sequence. Alternatively, a non-coding target comprises a UTR sequence, an intronic sequence, antisense, or a non-coding RNA transcript. In some instances, a non-coding target comprises sequences which partially overlap with a UTR sequence or an intronic sequence. A non-coding target also includes non-exonic and/or exonic transcripts. Exonic sequences may comprise regions on a protein-coding gene, such as an exon, UTR, or a portion thereof. Non-exonic sequences may comprise regions on a protein-coding, non protein-coding gene, or a portion thereof. For example, non-exonic sequences may comprise intronic regions, promoter regions, intergenic regions, a non-coding transcript, an exon anti-sense region, an intronic anti-sense region, UTR anti-sense region, non-coding transcript anti-sense region, or a portion thereof. In other instances, the plurality of targets comprises a non-coding RNA transcript.

[0044] The plurality of targets may comprise one or more targets selected from a classifier disclosed herein. The classifier may be generated from one or more models or algorithms. The one or more models or algorithms may be Naive Bayes (NB), recursive Partitioning (Rpart), random forest (RF), support vector machine (SVM), k-nearest neighbor (KNN), high dimensional discriminate analysis (HDDA), or a combination thereof. The classifier may have an AUC of equal to or greater than 0.60. The classifier may have an AUC of equal to or greater than 0.61. The classifier may have an AUC of equal to or greater than 0.62. The classifier may have an AUC of equal to or greater than 0.63. The classifier may have an AUC of equal to or greater than 0.64. The classifier may have an AUC of equal to or greater than 0.65. The classifier may have an AUC of equal to or greater than 0.66. The classifier may have an AUC of equal to or greater than 0.67. The classifier may have an AUC of equal to or greater than 0.68. The classifier may have an AUC of equal to or greater than 0.69. The classifier may have an AUC of equal to or greater than 0.70. The classifier may have an AUC of equal to or greater than 0.75. The classifier may have an AUC of equal to or greater than 0.77. The classifier may have an AUC of equal to or greater than 0.78. The classifier may have an AUC of equal to or greater than 0.79. The classifier may have an AUC of equal to or greater than 0.80. The AUC may be clinically significant based on its 95% confidence interval (CI). The accuracy of the classifier may be at least about 70%. The accuracy of the classifier may be at least about 73%. The accuracy of the classifier may be at least about 75%. The accuracy of the classifier may be at least about 77%. The accuracy of the classifier may be at least about 80%. The accuracy of the classifier may be at least about 83%. The accuracy of the classifier may be at least about 84%. The accuracy of the classifier may be at least about 86%. The accuracy of the classifier may be at least about 88%. The accuracy of the classifier may be at least about 90%. The p-value of the classifier may be less than or equal to 0.05. The p-value of the classifier may be less than or equal to 0.04. The p-value of the classifier may be less than or equal to 0.03. The p-value of the classifier may be less than or equal to 0.02. The p-value of the classifier may be less than or equal to 0.01. The p-value of the classifier may be less than or equal to 0.008. The p-value of the classifier may be less than or equal to 0.006. The p-value of the classifier may be less than or equal to 0.004. The p-value of the classifier may be less than or equal to 0.002. The p-value of the classifier may be less than or equal to 0.001.

[0045] The plurality of targets may comprise one or more targets selected from a Random Forest (RF) classifier. The plurality of targets may comprise two or more targets selected from a Random Forest (RF) classifier. The plurality of targets may comprise three or more targets selected from a Random Forest (RF) classifier. The plurality of targets may comprise 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 20, 25, 30, 40, 50, 60 or more targets selected from a Random Forest (RF) classifier. The RF classifier may be an RF2, and RF3, or an RF4 classifier. The RF classifier may be an RF60 classifier (e.g., a Random Forest classifier with 50 targets).

[0046] A RF classifier of the present invention may comprise two or more targets comprising two or more targets selected from Table 1 or SEQ ID NOs: 1-1815.

[0047] The plurality of targets may comprise one or more targets selected from an SVM classifier. The plurality of targets may comprise 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 20, 25, 30, 40, 50, 60 or more targets selected from an SVM classifier. The plurality of targets may comprise 12, 13, 14, 15, 17, 20, 22, 25, 27, 30, 40, 50, 60 or more targets selected from an SVM classifier. The plurality of targets may comprise 32, 35, 37, 40, 43, 45, 47, 50, 60 or more targets selected from an SVM classifier. The SVM classifier may be an SVM2 classifier.

[0048] A SVM classifier of the present invention may comprise two or more targets comprising two or more targets selected from Table 1 or SEQ ID NOs: 1-1815.

[0049] The plurality of targets may comprise one or more targets selected from a KNN classifier. The plurality of targets may comprise 2, 3, 4, 5, 6, 7, 8, 9, 10 or more targets selected from a KNN classifier. The plurality of targets may comprise 12, 13, 14, 15, 17, 20, 22, 25, 27, 30 or more targets selected from a KNN classifier. The plurality of targets may comprise 32, 35, 37, 40, 43, 45, 47, 50, 60 or more targets selected from a KNN classifier.

[0050] The KNN classifier may be a KNN50 classifier. A KNN classifier of the present invention may comprise sixty or more targets comprising sixty or more targets selected from Table 1 or SEQ ID NOs: 1-1815.

[0051] The plurality of targets may comprise one or more targets selected from a Naive Bayes (NB) classifier. The plurality of targets may comprise 2, 3, 4, 5, 6, 7, 8, 9, 10 or more targets selected from an NB classifier. The plurality of targets may comprise 12, 13, 14, 15, 17, 20, 22, 25, 27, 30 or more targets selected from an NB classifier. The plurality of targets may comprise 32, 35, 37, 40, 43, 45, 47, 50, 60 or more targets selected from a NB classifier.

[0052] The NB classifier may be a NB2 classifier. An NB classifier of the present invention may comprise two or more targets comprising two or more targets selected from Table 1 or SEQ ID NOs: 1-1815.

[0053] The plurality of targets may comprise one or more targets selected from a recursive Partitioning (Rpart) classifier. The plurality of targets may comprise 2, 3, 4, 5, 6, 7, 8, 9, 10 or more targets selected from an Rpart classifier. The plurality of targets may comprise 12, 13, 14, 15, 17, 20, 22, 25, 27, 30 or more targets selected from an Rpart classifier. The plurality of targets may comprise 32, 35, 37, 40, 43, 45, 47, 50, 60 or more targets selected from an Rpart classifier.

[0054] The Rpart classifier may be an Rpart2 classifier. An Rpart classifier of the present invention may comprise two or more targets comprising two or more targets selected from Table 1 or SEQ ID NOs: 1-1815.

[0055] The plurality of targets may comprise one or more targets selected from a high dimensional discriminate analysis (HDDA) classifier. The plurality of targets may comprise two or more targets selected from a high dimensional discriminate analysis (HDDA) classifier. The plurality of targets may comprise three or more targets selected from a high dimensional discriminate analysis (HDDA) classifier. The plurality of targets may comprise 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 20, 30, 40, 50, 60 or more targets selected from a high dimensional discriminate analysis (HDDA) classifier.

Probes/Primers

[0056] The present invention provides for a probe set for diagnosing, monitoring and/or predicting a status or outcome of a prostate cancer in a subject comprising a plurality of probes, wherein (i) the probes in the set are capable of detecting an expression level of at least one target selected from Table 1 or SEQ ID NOs: 1-1815; and (ii) the expression level determines the cancer status of the subject with at least about 40% specificity.

[0057] The probe set may comprise one or more polynucleotide probes. Individual polynucleotide probes comprise a nucleotide sequence derived from the nucleotide sequence of the target sequences or complementary sequences thereof. The nucleotide sequence of the polynucleotide probe is designed such that it corresponds to, or is complementary to the target sequences. The polynucleotide probe can specifically hybridize under either stringent or lowered stringency hybridization conditions to a region of the target sequences, to the complement thereof, or to a nucleic acid sequence (such as a cDNA) derived therefrom.

[0058] The selection of the polynucleotide probe sequences and determination of their uniqueness may be carried out in silico using techniques known in the art, for example, based on a BLASTN search of the polynucleotide sequence in question against gene sequence databases, such as the Human Genome Sequence, UniGene, dbEST or the non-redundant database at NCBI. In one embodiment of the invention, the polynucleotide probe is complementary to a region of a target mRNA derived from a target sequence in the probe set. Computer programs can also be employed to select probe sequences that may not cross hybridize or may not hybridize non-specifically.

[0059] In some instances, microarray hybridization of RNA, extracted from prostate cancer tissue samples and amplified, may yield a dataset that is then summarized and normalized by the fRMA technique. After removal (or filtration) of cross-hybridizing PSRs, and PSRs containing less than 4 probes, the remaining PSRs can be used in further analysis. Following fRMA and filtration, the data can be decomposed into its principal components and an analysis of variance model is used to determine the extent to which a batch effect remains present in the first 10 principal components.

[0060] These remaining PSRs can then be subjected to filtration by a T-test between CR (clinical recurrence) and non-CR samples. Using a p-value cut-off of 0.01, the remaining features (e.g., PSRs) can be further refined. Feature selection can be performed by regularized logistic regression using the elastic-net penalty. The regularized regression may be bootstrapped over 1000 times using all training data; with each iteration of bootstrapping, features that have non-zero co-efficient following 3-fold cross validation can be tabulated. In some instances, features that were selected in at least 25% of the total runs were used for model building.

[0061] The polynucleotide probes of the present invention may range in length from about 15 nucleotides to the full length of the coding target or non-coding target. In one embodiment of the invention, the polynucleotide probes are at least about 15 nucleotides in length. In another embodiment, the polynucleotide probes are at least about 20 nucleotides in length. In a further embodiment, the polynucleotide probes are at least about 25 nucleotides in length. In another embodiment, the polynucleotide probes are between about 15 nucleotides and about 500 nucleotides in length. In other embodiments, the polynucleotide probes are between about 15 nucleotides and about 450 nucleotides, about 15 nucleotides and about 400 nucleotides, about 15 nucleotides and about 350 nucleotides, about 15 nucleotides and about 300 nucleotides, about 15 nucleotides and about 250 nucleotides, about 15 nucleotides and about 200 nucleotides in length. In some embodiments, the probes are at least 15 nucleotides in length. In some embodiments, the probes are at least 15 nucleotides in length. In some embodiments, the probes are at least 20 nucleotides, at least 25 nucleotides, at least 50 nucleotides, at least 75 nucleotides, at least 100 nucleotides, at least 125 nucleotides, at least 150 nucleotides, at least 200 nucleotides, at least 225 nucleotides, at least 250 nucleotides, at least 275 nucleotides, at least 300 nucleotides, at least 325 nucleotides, at least 350 nucleotides, at least 375 nucleotides in length.

[0062] The polynucleotide probes of a probe set can comprise RNA, DNA, RNA or DNA mimetics, or combinations thereof, and can be single-stranded or double-stranded. Thus the polynucleotide probes can be composed of naturally-occurring nucleobases, sugars and covalent internucleoside (backbone) linkages as well as polynucleotide probes having non-naturally-occurring portions which function similarly. Such modified or substituted polynucleotide probes may provide desirable properties such as, for example, enhanced affinity for a target gene and increased stability. The probe set may comprise a coding target and/or a non-coding target. Preferably, the probe set comprises a combination of a coding target and non-coding target.

[0063] In some embodiments, the probe set comprise a plurality of target sequences that hybridize to at least about 5 coding targets and/or non-coding targets selected from Table 1 or SEQ ID NOs: 1-1815. Alternatively, the probe set comprise a plurality of target sequences that hybridize to at least about 10 coding targets and/or non-coding targets selected from Table 1 or SEQ ID NOs: 1-1815. In some embodiments, the probe set comprise a plurality of target sequences that hybridize to at least about 15 coding targets and/or non-coding targets selected from Table 1 or SEQ ID NOs: 1-1815. In some embodiments, the probe set comprise a plurality of target sequences that hybridize to at least about 20 coding targets and/or non-coding targets selected from Table 1 or SEQ ID NOs: 1-1815. In some embodiments, the probe set comprise a plurality of target sequences that hybridize to at least about 30 coding targets and/or non-coding targets selected from Table 1 or SEQ ID NOs: 1-1815. In some embodiments, the probe set comprise a plurality of target sequences that hybridize to at least about 40 coding targets and/or non-coding targets selected from Table 1 or SEQ ID NOs: 1-1815. In some embodiments, the probe set comprise a plurality of target sequences that hybridize to at least about 50 coding targets and/or non-coding targets selected from Table 1 or SEQ ID NOs: 1-1815. In some embodiments, the probe set comprise a plurality of target sequences that hybridize to at least about 60 coding targets and/or non-coding targets selected from Table 1 or SEQ ID NOs: 1-1815.

[0064] The system of the present invention further provides for primers and primer pairs capable of amplifying target sequences defined by the probe set, or fragments or subsequences or complements thereof. The nucleotide sequences of the probe set may be provided in computer-readable media for in silico applications and as a basis for the design of appropriate primers for amplification of one or more target sequences of the probe set.

[0065] Primers based on the nucleotide sequences of target sequences can be designed for use in amplification of the target sequences. For use in amplification reactions such as PCR, a pair of primers can be used. The exact composition of the primer sequences is not critical to the invention, but for most applications the primers may hybridize to specific sequences of the probe set under stringent conditions, particularly under conditions of high stringency, as known in the art. The pairs of primers are usually chosen so as to generate an amplification product of at least about 50 nucleotides, more usually at least about 100 nucleotides. Algorithms for the selection of primer sequences are generally known, and are available in commercial software packages. These primers may be used in standard quantitative or qualitative PCR-based assays to assess transcript expression levels of RNAs defined by the probe set. Alternatively, these primers may be used in combination with probes, such as molecular beacons in amplifications using real-time PCR.

[0066] In one embodiment, the primers or primer pairs, when used in an amplification reaction, specifically amplify at least a portion of a nucleic acid sequence of a target selected from Table 1 or SEQ ID NOs: 1-1815 (or subgroups thereof as set forth herein), an RNA form thereof, or a complement to either thereof.

[0067] A label can optionally be attached to or incorporated into a probe or primer polynucleotide to allow detection and/or quantitation of a target polynucleotide representing the target sequence of interest. The target polynucleotide may be the expressed target sequence RNA itself, a cDNA copy thereof, or an amplification product derived therefrom, and may be the positive or negative strand, so long as it can be specifically detected in the assay being used. Similarly, an antibody may be labeled.

[0068] In certain multiplex formats, labels used for detecting different targets may be distinguishable. The label can be attached directly (e.g., via covalent linkage) or indirectly, e.g., via a bridging molecule or series of molecules (e.g., a molecule or complex that can bind to an assay component, or via members of a binding pair that can be incorporated into assay components, e.g. biotin-avidin or streptavidin). Many labels are commercially available in activated forms which can readily be used for such conjugation (for example through amine acylation), or labels may be attached through known or determinable conjugation schemes, many of which are known in the art.

[0069] Labels useful in the invention described herein include any substance which can be detected when bound to or incorporated into the biomolecule of interest. Any effective detection method can be used, including optical, spectroscopic, electrical, piezoelectrical, magnetic, Raman scattering, surface plasmon resonance, colorimetric, calorimetric, etc. A label is typically selected from a chromophore, a lumiphore, a fluorophore, one member of a quenching system, a chromogen, a hapten, an antigen, a magnetic particle, a material exhibiting nonlinear optics, a semiconductor nanocrystal, a metal nanoparticle, an enzyme, an antibody or binding portion or equivalent thereof, an aptamer, and one member of a binding pair, and combinations thereof. Quenching schemes may be used, wherein a quencher and a fluorophore as members of a quenching pair may be used on a probe, such that a change in optical parameters occurs upon binding to the target introduce or quench the signal from the fluorophore. One example of such a system is a molecular beacon. Suitable quencher/fluorophore systems are known in the art. The label may be bound through a variety of intermediate linkages. For example, a polynucleotide may comprise a biotin-binding species, and an optically detectable label may be conjugated to biotin and then bound to the labeled polynucleotide. Similarly, a polynucleotide sensor may comprise an immunological species such as an antibody or fragment, and a secondary antibody containing an optically detectable label may be added.

[0070] Chromophores useful in the methods described herein include any substance which can absorb energy and emit light. For multiplexed assays, a plurality of different signaling chromophores can be used with detectably different emission spectra. The chromophore can be a lumophore or a fluorophore. Typical fluorophores include fluorescent dyes, semiconductor nanocrystals, lanthanide chelates, polynucleotide-specific dyes and green fluorescent protein.

[0071] In some embodiments, polynucleotides of the invention comprise at least 20 consecutive bases of the nucleic acid sequence of a target selected from Table 1 or SEQ ID NOs: 1-1815 or a complement thereto. The polynucleotides may comprise at least 21, 22, 23, 24, 25, 27, 30, 32, 35 or more consecutive bases of the nucleic acids sequence of a target selected from Table 1 or SEQ ID NOs: 1-1815, as applicable.

[0072] The polynucleotides may be provided in a variety of formats, including as solids, in solution, or in an array. The polynucleotides may optionally comprise one or more labels, which may be chemically and/or enzymatically incorporated into the polynucleotide.

[0073] In some embodiments, one or more polynucleotides provided herein can be provided on a substrate. The substrate can comprise a wide range of material, either biological, nonbiological, organic, inorganic, or a combination of any of these. For example, the substrate may be a polymerized Langmuir Blodgett film, functionalized glass, Si, Ge, GaAs, GaP, SiO.sub.2, SiN.sub.4, modified silicon, or any one of a wide variety of gels or polymers such as (poly)tetrafluoroethylene, (poly)vinylidenedifluoride, polystyrene, cross-linked polystyrene, polyacrylic, polylactic acid, polyglycolic acid, poly(lactide coglycolide), polyanhydrides, poly(methyl methacrylate), poly(ethylene-co-vinyl acetate), polysiloxanes, polymeric silica, latexes, dextran polymers, epoxies, polycarbonates, or combinations thereof. Conducting polymers and photoconductive materials can be used.

[0074] The substrate can take the form of an array, a photodiode, an optoelectronic sensor such as an optoelectronic semiconductor chip or optoelectronic thin-film semiconductor, or a biochip. The location(s) of probe(s) on the substrate can be addressable; this can be done in highly dense formats, and the location(s) can be microaddressable or nanoaddressable.

Diagnostic Samples

[0075] Diagnostic samples for use with the systems and in the methods of the present invention comprise nucleic acids suitable for providing RNAs expression information. In principle, the biological sample from which the expressed RNA is obtained and analyzed for target sequence expression can be any material suspected of comprising prostate cancer tissue or cells. The diagnostic sample can be a biological sample used directly in a method of the invention. Alternatively, the diagnostic sample can be a sample prepared from a biological sample.

[0076] In one embodiment, the sample or portion of the sample comprising or suspected of comprising cancer tissue or cells can be any source of biological material, including cells, tissue or fluid, including bodily fluids. Non-limiting examples of the source of the sample include an aspirate, a needle biopsy, a cytology pellet, a bulk tissue preparation or a section thereof obtained for example by surgery or autopsy, lymph fluid, blood, plasma, serum, tumors, and organs. In some embodiments, the sample is from urine. Alternatively, the sample is from blood, plasma or serum. In some embodiments, the sample is from saliva.

[0077] The samples may be archival samples, having a known and documented medical outcome, or may be samples from current patients whose ultimate medical outcome is not yet known.

[0078] In some embodiments, the sample may be dissected prior to molecular analysis. The sample may be prepared via macrodissection of a bulk tumor specimen or portion thereof, or may be treated via microdissection, for example via Laser Capture Microdissection (LCM).

[0079] The sample may initially be provided in a variety of states, as fresh tissue, fresh frozen tissue, fine needle aspirates, and may be fixed or unfixed. Frequently, medical laboratories routinely prepare medical samples in a fixed state, which facilitates tissue storage. A variety of fixatives can be used to fix tissue to stabilize the morphology of cells, and may be used alone or in combination with other agents. Exemplary fixatives include crosslinking agents, alcohols, acetone, Bouin's solution, Zenker solution, Helv solution, osmic acid solution and Carnoy solution.

[0080] Crosslinking fixatives can comprise any agent suitable for forming two or more covalent bonds, for example an aldehyde. Sources of aldehydes typically used for fixation include formaldehyde, paraformaldehyde, glutaraldehyde or formalin. Preferably, the crosslinking agent comprises formaldehyde, which may be included in its native form or in the form of paraformaldehyde or formalin. One of skill in the art would appreciate that for samples in which crosslinking fixatives have been used special preparatory steps may be necessary including for example heating steps and proteinase-k digestion; see methods.

[0081] One or more alcohols may be used to fix tissue, alone or in combination with other fixatives. Exemplary alcohols used for fixation include methanol, ethanol and isopropanol.

[0082] Formalin fixation is frequently used in medical laboratories. Formalin comprises both an alcohol, typically methanol, and formaldehyde, both of which can act to fix a biological sample.

[0083] Whether fixed or unfixed, the biological sample may optionally be embedded in an embedding medium. Exemplary embedding media used in histology including paraffin, Tissue-Tek.RTM. V.I.P..TM., Paramat, Paramat Extra, Paraplast, Paraplast X-tra, Paraplast Plus, Peel Away Paraffin Embedding Wax, Polyester Wax, Carbowax Polyethylene Glycol, Polyfin.TM., Tissue Freezing Medium TFMFM, Cryo-Gef.TM., and OCT Compound (Electron Microscopy Sciences, Hatfield, Pa.). Prior to molecular analysis, the embedding material may be removed via any suitable techniques, as known in the art. For example, where the sample is embedded in wax, the embedding material may be removed by extraction with organic solvent(s), for example xylenes. Kits are commercially available for removing embedding media from tissues. Samples or sections thereof may be subjected to further processing steps as needed, for example serial hydration or dehydration steps.

[0084] In some embodiments, the sample is a fixed, wax-embedded biological sample. Frequently, samples from medical laboratories are provided as fixed, wax-embedded samples, most commonly as formalin-fixed, paraffin embedded (FFPE) tissues.

[0085] Whatever the source of the biological sample, the target polynucleotide that is ultimately assayed can be prepared synthetically (in the case of control sequences), but typically is purified from the biological source and subjected to one or more preparative steps. The RNA may be purified to remove or diminish one or more undesired components from the biological sample or to concentrate it. Conversely, where the RNA is too concentrated for the particular assay, it may be diluted.

RNA Extraction

[0086] RNA can be extracted and purified from biological samples using any suitable technique. A number of techniques are known in the art, and several are commercially available (e.g., FormaPure nucleic acid extraction kit, Agencourt Biosciences, Beverly Mass., High Pure FFPE RNA Micro Kit, Roche Applied Science, Indianapolis, Ind.). RNA can be extracted from frozen tissue sections using TRIzol (Invitrogen, Carlsbad, Calif.) and purified using RNeasy Protect kit (Qiagen, Valencia, Calif.). RNA can be further purified using DNAse I treatment (Ambion, Austin, Tex.) to eliminate any contaminating DNA. RNA concentrations can be made using a Nanodrop ND-1000 spectrophotometer (Nanodrop Technologies, Rockland, Del.). RNA can be further purified to eliminate contaminants that interfere with cDNA synthesis by cold sodium acetate precipitation. RNA integrity can be evaluated by running electropherograms, and RNA integrity number (RIN, a correlative measure that indicates intactness of mRNA) can be determined using the RNA 6000 PicoAssay for the Bioanalyzer 2100 (Agilent Technologies, Santa Clara, Calif.).

Kits

[0087] Kits for performing the desired method(s) are also provided, and comprise a container or housing for holding the components of the kit, one or more vessels containing one or more nucleic acid(s), and optionally one or more vessels containing one or more reagents. The reagents include those described in the composition of matter section above, and those reagents useful for performing the methods described, including amplification reagents, and may include one or more probes, primers or primer pairs, enzymes (including polymerases and ligases), intercalating dyes, labeled probes, and labels that can be incorporated into amplification products.

[0088] In some embodiments, the kit comprises primers or primer pairs specific for those subsets and combinations of target sequences described herein. The primers or pairs of primers suitable for selectively amplifying the target sequences. The kit may comprise at least two, three, four or five primers or pairs of primers suitable for selectively amplifying one or more targets. The kit may comprise at least 5, 10, 15, 20, 30, 40, 50, 60, 70, 80, 90, 100 or more primers or pairs of primers suitable for selectively amplifying one or more targets.

[0089] In some embodiments, the primers or primer pairs of the kit, when used in an amplification reaction, specifically amplify a non-coding target, coding target, exonic, or non-exonic target described herein, a nucleic acid sequence corresponding to a target selected from Table 1 or SEQ ID NOs: 1-1815, an RNA form thereof, or a complement to either thereof. The kit may include a plurality of such primers or primer pairs which can specifically amplify a corresponding plurality of different amplify a non-coding target, coding target, exonic, or non-exonic transcript described herein, a nucleic acid sequence corresponding to a target selected from Table 1 or SEQ ID NOs: 1-1815, RNA forms thereof, or complements thereto. At least two, three, four or five primers or pairs of primers suitable for selectively amplifying the one or more targets can be provided in kit form. In some embodiments, the kit comprises from five to fifty primers or pairs of primers suitable for amplifying the one or more targets.

[0090] The reagents may independently be in liquid or solid form. The reagents may be provided in mixtures. Control samples and/or nucleic acids may optionally be provided in the kit. Control samples may include tissue and/or nucleic acids obtained from or representative of tumor samples from patients showing no evidence of disease, as well as tissue and/or nucleic acids obtained from or representative of tumor samples from patients that develop systemic cancer.

[0091] The nucleic acids may be provided in an array format, and thus an array or microarray may be included in the kit. The kit optionally may be certified by a government agency for use in prognosing the disease outcome of cancer patients and/or for designating a treatment modality.

[0092] Instructions for using the kit to perform one or more methods of the invention can be provided with the container, and can be provided in any fixed medium. The instructions may be located inside or outside the container or housing, and/or may be printed on the interior or exterior of any surface thereof. A kit may be in multiplex form for concurrently detecting and/or quantitating one or more different target polynucleotides representing the expressed target sequences.

Amplification and Hybridization

[0093] Following sample collection and nucleic acid extraction, the nucleic acid portion of the sample comprising RNA that is or can be used to prepare the target polynucleotide(s) of interest can be subjected to one or more preparative reactions. These preparative reactions can include in vitro transcription (IVT), labeling, fragmentation, amplification and other reactions. mRNA can first be treated with reverse transcriptase and a primer to create cDNA prior to detection, quantitation and/or amplification; this can be done in vitro with purified mRNA or in situ, e.g., in cells or tissues affixed to a slide.

[0094] By "amplification" is meant any process of producing at least one copy of a nucleic acid, in this case an expressed RNA, and in many cases produces multiple copies. An amplification product can be RNA or DNA, and may include a complementary strand to the expressed target sequence. DNA amplification products can be produced initially through reverse translation and then optionally from further amplification reactions. The amplification product may include all or a portion of a target sequence, and may optionally be labeled. A variety of amplification methods are suitable for use, including polymerase-based methods and ligation-based methods. Exemplary amplification techniques include the polymerase chain reaction method (PCR), the lipase chain reaction (LCR), ribozyme-based methods, self-sustained sequence replication (3SR), nucleic acid sequence-based amplification (NASBA), the use of Q Beta replicase, reverse transcription, nick translation, and the like.

[0095] Asymmetric amplification reactions may be used to preferentially amplify one strand representing the target sequence that is used for detection as the target polynucleotide. In some cases, the presence and/or amount of the amplification product itself may be used to determine the expression level of a given target sequence. In other instances, the amplification product may be used to hybridize to an array or other substrate comprising sensor polynucleotides which are used to detect and/or quantitate target sequence expression.

[0096] The first cycle of amplification in polymerase-based methods typically forms a primer extension product complementary to the template strand. If the template is single-stranded RNA, a polymerase with reverse transcriptase activity is used in the first amplification to reverse transcribe the RNA to DNA, and additional amplification cycles can be performed to copy the primer extension products. The primers for a PCR must, of course, be designed to hybridize to regions in their corresponding template that can produce an amplifiable segment; thus, each primer must hybridize so that its 3' nucleotide is paired to a nucleotide in its complementary template strand that is located 3' from the 3' nucleotide of the primer used to replicate that complementary template strand in the PCR.

[0097] The target polynucleotide can be amplified by contacting one or more strands of the target polynucleotide with a primer and a polymerase having suitable activity to extend the primer and copy the target polynucleotide to produce a full-length complementary polynucleotide or a smaller portion thereof. Any enzyme having a polymerase activity that can copy the target polynucleotide can be used, including DNA polymerases, RNA polymerases, reverse transcriptases, enzymes having more than one type of polymerase or enzyme activity. The enzyme can be thermolabile or thermostable. Mixtures of enzymes can also be used. Exemplary enzymes include: DNA polymerases such as DNA Polymerase I ("Pol I"), the Klenow fragment of Pol I, T4, T7, Sequenase.RTM. T7, Sequenase.RTM. Version 2.0 T7, Tub, Taq, Tth, Pfic, Pfu, Tsp, Tfl, Tli and Pyrococcus sp GB-D DNA polymerases; RNA polymerases such as E. coli, SP6, T3 and T7 RNA polymerases; and reverse transcriptases such as AMV, M-MuLV, MMLV, RNAse H MMLV (SuperScript.RTM.), SuperScript.RTM. II, ThermoScript.RTM., HIV-1, and RAV2 reverse transcriptases. All of these enzymes are commercially available. Exemplary polymerases with multiple specificities include RAV2 and Tli (exo-) polymerases. Exemplary thermostable polymerases include Tub, Taq, Tth, Pfic, Pfu, Tsp, Tfl, Tli and Pyrococcus sp. GB-D DNA polymerases.

[0098] Suitable reaction conditions are chosen to permit amplification of the target polynucleotide, including pH, buffer, ionic strength, presence and concentration of one or more salts, presence and concentration of reactants and cofactors such as nucleotides and magnesium and/or other metal ions (e.g., manganese), optional cosolvents, temperature, thermal cycling profile for amplification schemes comprising a polymerase chain reaction, and may depend in part on the polymerase being used as well as the nature of the sample. Cosolvents include formamide (typically at from about 2 to about 10%), glycerol (typically at from about 5 to about 10%), and DMSO (typically at from about 0.9 to about 10%). Techniques may be used in the amplification scheme in order to minimize the production of false positives or artifacts produced during amplification. These include "touchdown" PCR, hot-start techniques, use of nested primers, or designing PCR primers so that they form stem-loop structures in the event of primer-dimer formation and thus are not amplified. Techniques to accelerate PCR can be used, for example centrifugal PCR, which allows for greater convection within the sample, and comprising infrared heating steps for rapid heating and cooling of the sample. One or more cycles of amplification can be performed. An excess of one primer can be used to produce an excess of one primer extension product during PCR; preferably, the primer extension product produced in excess is the amplification product to be detected. A plurality of different primers may be used to amplify different target polynucleotides or different regions of a particular target polynucleotide within the sample.

[0099] An amplification reaction can be performed under conditions which allow an optionally labeled sensor polynucleotide to hybridize to the amplification product during at least part of an amplification cycle. When the assay is performed in this manner, real-time detection of this hybridization event can take place by monitoring for light emission or fluorescence during amplification, as known in the art.

[0100] Where the amplification product is to be used for hybridization to an array or microarray, a number of suitable commercially available amplification products are available. These include amplification kits available from NuGEN, Inc. (San Carlos, Calif.), including the WT-Ovation.TM. System, WT-Ovation.TM. System v2, WT-Ovation.TM. Pico System, WT-Ovation.TM. FFPE Exon Module, WT-Ovation.TM. FFPE Exon Module RiboAmp and RiboAmp.sup.Plus RNA Amplification Kits (MDS Analytical Technologies (formerly Arcturus) (Mountain View, Calif.), Genisphere, Inc. (Hatfield, Pa.), including the RampUp Plus.TM. and SenseAmp.TM. RNA Amplification kits, alone or in combination. Amplified nucleic acids may be subjected to one or more purification reactions after amplification and labeling, for example using magnetic beads (e.g., RNAClean magnetic beads, Agencourt Biosciences).

[0101] Multiple RNA biomarkers can be analyzed using real-time quantitative multiplex RT-PCR platforms and other multiplexing technologies such as GenomeLab GeXP Genetic Analysis System (Beckman Coulter, Foster City, Calif.), SmartCycler.RTM. 9600 or GeneXpert.RTM. Systems (Cepheid, Sunnyvale, Calif.), ABI 7900 HT Fast Real Time PCR system (Applied Biosystems, Foster City, Calif.), LightCycler.RTM. 480 System (Roche Molecular Systems, Pleasanton, Calif.), xMAP 100 System (Luminex, Austin, Tex.) Solexa Genome Analysis System (Illumina, Hayward, Calif.), OpenArray Real Time qPCR (BioTrove, Woburn, Mass.) and BeadXpress System (Illumina, Hayward, Calif.).

Detection and/or Quantification of Target Sequences

[0102] Any method of detecting and/or quantitating the expression of the encoded target sequences can in principle be used in the invention. The expressed target sequences can be directly detected and/or quantitated, or may be copied and/or amplified to allow detection of amplified copies of the expressed target sequences or its complement.

[0103] Methods for detecting and/or quantifying a target can include Northern blotting, sequencing, array or microarray hybridization, by enzymatic cleavage of specific structures (e.g., an Invader.RTM. assay, Third Wave Technologies, e.g. as described in U.S. Pat. Nos. 5,846,717, 6,090,543; 6,001,567; 5,985,557; and 5,994,069) and amplification methods, e.g. RT-PCR, including in a TaqMan.RTM. assay (PE Biosystems, Foster City, Calif., e.g. as described in U.S. Pat. Nos. 5,962,233 and 5,538,848), and may be quantitative or semi-quantitative, and may vary depending on the origin, amount and condition of the available biological sample. Combinations of these methods may also be used. For example, nucleic acids may be amplified, labeled and subjected to microarray analysis.

[0104] In some instances, target sequences may be detected by sequencing. Sequencing methods may comprise whole genome sequencing or exome sequencing. Sequencing methods such as Maxim-Gilbert, chain-termination, or high-throughput systems may also be used. Additional, suitable sequencing techniques include classic dideoxy sequencing reactions (Sanger method) using labeled terminators or primers and gel separation in slab or capillary, sequencing by synthesis using reversibly terminated labeled nucleotides, pyrosequencing, 454 sequencing, allele specific hybridization to a library of labeled oligonucleotide probes, sequencing by synthesis using allele specific hybridization to a library of labeled clones that is followed by ligation, real time monitoring of the incorporation of labeled nucleotides during a polymerization step, and SOLiD sequencing.

[0105] Additional methods for detecting and/or quantifying a target include single-molecule sequencing (e.g., Helicos, PacBio), sequencing by synthesis (e.g., Illumina, Ion Torrent), sequencing by ligation (e.g., ABI SOLID), sequencing by hybridization (e.g., Complete Genomics), in situ hybridization, bead-array technologies (e.g., Luminex xMAP, Illumina BeadChips), branched DNA technology (e.g., Panomics, Genisphere). Sequencing methods may use fluorescent (e.g., Illumina) or electronic (e.g., Ion Torrent, Oxford Nanopore) methods of detecting nucleotides.

Reverse Transcription for ORT-PCR Analysis

[0106] Reverse transcription can be performed by any method known in the art. For example, reverse transcription may be performed using the Omniscript kit (Qiagen, Valencia, Calif.), Superscript III kit (Invitrogen, Carlsbad, Calif.), for RT-PCR. Target-specific priming can be performed in order to increase the sensitivity of detection of target sequences and generate target-specific cDNA.

TaqMan.RTM. Gene Expression Analysis

[0107] TaqMan.RTM. RT-PCR can be performed using Applied Biosystems Prism (ABI) 7900 HT instruments in a 5 1.11 volume with target sequence-specific cDNA equivalent to 1 ng total RNA.

[0108] Primers and probes concentrations for TaqMan analysis are added to amplify fluorescent amplicons using PCR cycling conditions such as 95.degree. C. for 10 minutes for one cycle, 95.degree. C. for 20 seconds, and 60.degree. C. for 45 seconds for 40 cycles. A reference sample can be assayed to ensure reagent and process stability. Negative controls (e.g., no template) should be assayed to monitor any exogenous nucleic acid contamination.

Classification Arrays

[0109] The present invention contemplates that a probe set or probes derived therefrom may be provided in an array format. In the context of the present invention, an "array" is a spatially or logically organized collection of polynucleotide probes. An array comprising probes specific for a coding target, non-coding target, or a combination thereof may be used. Alternatively, an array comprising probes specific for two or more of transcripts of a target selected from Table 1 or SEQ ID NOs: 1-1815 or a product derived thereof can be used. Desirably, an array may be specific for 5, 10, 15, 20, 25, 30, 40, 50 or more of transcripts of a target selected from Table 1 or SEQ ID NOs: 1-1815. Expression of these sequences may be detected alone or in combination with other transcripts. In some embodiments, an array is used which comprises a wide range of sensor probes for prostate-specific expression products, along with appropriate control sequences. In some instances, the array may comprise the Human Exon 1.0 ST Array (HuEx 1.0 ST, Affymetrix, Inc., Santa Clara, Calif.).

[0110] Typically the polynucleotide probes are attached to a solid substrate and are ordered so that the location (on the substrate) and the identity of each are known. The polynucleotide probes can be attached to one of a variety of solid substrates capable of withstanding the reagents and conditions necessary for use of the array. Examples include, but are not limited to, polymers, such as (poly)tetrafluoroethylene, (poly)vinylidenedifluoride, polystyrene, polycarbonate, polypropylene and polystyrene; ceramic; silicon; silicon dioxide; modified silicon; (fused) silica, quartz or glass; functionalized glass; paper, such as filter paper; diazotized cellulose; nitrocellulose filter; nylon membrane; and polyacrylamide gel pad. Substrates that are transparent to light are useful for arrays that may be used in an assay that involves optical detection.

[0111] Examples of array formats include membrane or filter arrays (for example, nitrocellulose, nylon arrays), plate arrays (for example, multiwell, such as a 24-, 96-, 256-, 384-, 864- or 1536-well, microtitre plate arrays), pin arrays, and bead arrays (for example, in a liquid "slurry"). Arrays on substrates such as glass or ceramic slides are often referred to as chip arrays or "chips." Such arrays are well known in the art. In one embodiment of the present invention, the Cancer Prognosticarray is a chip.

[0112] Data Analysis

[0113] In some embodiments, one or more pattern recognition methods can be used in analyzing the expression level of target sequences. The pattern recognition method can comprise a linear combination of expression levels, or a nonlinear combination of expression levels. In some embodiments, expression measurements for RNA transcripts or combinations of RNA transcript levels are formulated into linear or non-linear models or algorithms (e.g., an `expression signature`) and converted into a likelihood score. This likelihood score indicates the probability that a biological sample is from a patient who may exhibit no evidence of disease, who may exhibit systemic cancer, or who may exhibit biochemical recurrence. The likelihood score can be used to distinguish these disease states. The models and/or algorithms can be provided in machine readable format, and may be used to correlate expression levels or an expression profile with a disease state, and/or to designate a treatment modality for a patient or class of patients.

[0114] Assaying the expression level for a plurality of targets may comprise the use of an algorithm or classifier. Array data can be managed, classified, and analyzed using techniques known in the art. Assaying the expression level for a plurality of targets may comprise probe set modeling and data pre-processing. Probe set modeling and data pre-processing can be derived using the Robust Multi-Array (RMA) algorithm or variants GC-RMA, IRMA, Probe Logarithmic Intensity Error (PLIER) algorithm or variant iterPLIER. Variance or intensity filters can be applied to pre-process data using the RMA algorithm, for example by removing target sequences with a standard deviation of <10 or a mean intensity of <100 intensity units of a normalized data range, respectively.

[0115] Alternatively, assaying the expression level for a plurality of targets may comprise the use of a machine learning algorithm. The machine learning algorithm may comprise a supervised learning algorithm. Examples of supervised learning algorithms may include Average One-Dependence Estimators (AODE), Artificial neural network (e.g., Backpropagation), Bayesian statistics (e.g., Naive Bayes classifier, Bayesian network, Bayesian knowledge base), Case-based reasoning, Decision trees, Inductive logic programming, Gaussian process regression, Group method of data handling (GMDH), Learning Automata, Learning Vector Quantization, Minimum message length (decision trees, decision graphs, etc.), Lazy learning, Instance-based learning Nearest Neighbor Algorithm, Analogical modeling, Probably approximately correct learning (PAC) learning, Ripple down rules, a knowledge acquisition methodology, Symbolic machine learning algorithms, Subsymbolic machine learning algorithms, Support vector machines, Random Forests, Ensembles of classifiers, Bootstrap aggregating (bagging), and Boosting. Supervised learning may comprise ordinal classification such as regression analysis and Information fuzzy networks (IFN). Alternatively, supervised learning methods may comprise statistical classification, such as AODE, Linear classifiers (e.g., Fisher's linear discriminant, Logistic regression, Naive Bayes classifier, Perceptron, and Support vector machine), quadratic classifiers, k-nearest neighbor, Boosting, Decision trees (e.g., C4.5, Random forests), Bayesian networks, and Hidden Markov models.

[0116] The machine learning algorithms may also comprise an unsupervised learning algorithm. Examples of unsupervised learning algorithms may include artificial neural network, Data clustering, Expectation-maximization algorithm, Self-organizing map, Radial basis function network, Vector Quantization, Generative topographic map, Information bottleneck method, and IBSEAD. Unsupervised learning may also comprise association rule learning algorithms such as Apriori algorithm, Eclat algorithm and FP-growth algorithm. Hierarchical clustering, such as Single-linkage clustering and Conceptual clustering, may also be used. Alternatively, unsupervised learning may comprise partitional clustering such as K-means algorithm and Fuzzy clustering.

[0117] In some instances, the machine learning algorithms comprise a reinforcement learning algorithm. Examples of reinforcement learning algorithms include, but are not limited to, temporal difference learning, Q-learning and Learning Automata. Alternatively, the machine learning algorithm may comprise Data Pre-processing.

[0118] Preferably, the machine learning algorithms may include, but are not limited to, Average One-Dependence Estimators (AODE), Fisher's linear discriminant, Logistic regression, Perceptron, Multilayer Perceptron, Artificial Neural Networks, Support vector machines, Quadratic classifiers, Boosting, Decision trees, C4.5, Bayesian networks, Hidden Markov models, High-Dimensional Discriminant Analysis, and Gaussian Mixture Models. The machine learning algorithm may comprise support vector machines, Naive Bayes classifier, k-nearest neighbor, high-dimensional discriminant analysis, or Gaussian mixture models. In some instances, the machine learning algorithm comprises Random Forests.

Cancer

[0119] The systems, compositions and methods disclosed herein may be used to diagnosis, monitor and/or predict the status or outcome of a cancer. Generally, a cancer is characterized by the uncontrolled growth of abnormal cells anywhere in a body. The abnormal cells may be termed cancer cells, malignant cells, or tumor cells. Cancer is not confined to humans; animals and other living organisms can get cancer.

[0120] In some instances, the cancer may be malignant. Alternatively, the cancer may be benign. The cancer may be a recurrent and/or refractory cancer. Most cancers can be classified as a carcinoma, sarcoma, leukemia, lymphoma, myeloma, or a central nervous system cancer.

[0121] The cancer may be a sarcoma. Sarcomas are cancers of the bone, cartilage, fat, muscle, blood vessels, or other connective or supportive tissue. Sarcomas include, but are not limited to, bone cancer, fibrosarcoma, chondrosarcoma, Ewing's sarcoma, malignant hemangioendothelioma, malignant schwannoma, bilateral vestibular schwannoma, osteosarcoma, soft tissue sarcomas (e.g. alveolar soft part sarcoma, angiosarcoma, cystosarcoma phylloides, dermatofibrosarcoma, desmoid tumor, epithelioid sarcoma, extraskeletal osteosarcoma, fibrosarcoma, hemangiopericytoma, hemangiosarcoma, Kaposi's sarcoma, leiomyosarcoma, liposarcoma, lymphangiosarcoma, lymphosarcoma, malignant fibrous histiocytoma, neurofibrosarcoma, rhabdomyosarcoma, and synovial sarcoma).

[0122] Alternatively, the cancer may be a carcinoma. Carcinomas are cancers that begin in the epithelial cells, which are cells that cover the surface of the body, produce hormones, and make up glands. By way of non-limiting example, carcinomas include breast cancer, pancreatic cancer, lung cancer, colon cancer, colorectal cancer, rectal cancer, kidney cancer, bladder cancer, stomach cancer, prostate cancer, liver cancer, ovarian cancer, brain cancer, vaginal cancer, vulvar cancer, uterine cancer, oral cancer, penic cancer, testicular cancer, esophageal cancer, skin cancer, cancer of the fallopian tubes, head and neck cancer, gastrointestinal stromal cancer, adenocarcinoma, cutaneous or intraocular melanoma, cancer of the anal region, cancer of the small intestine, cancer of the endocrine system, cancer of the thyroid gland, cancer of the parathyroid gland, cancer of the adrenal gland, cancer of the urethra, cancer of the renal pelvis, cancer of the ureter, cancer of the endometrium, cancer of the cervix, cancer of the pituitary gland, neoplasms of the central nervous system (CNS), primary CNS lymphoma, brain stem glioma, and spinal axis tumors. In some instances, the cancer is a skin cancer, such as a basal cell carcinoma, squamous, melanoma, nonmelanoma, or actinic (solar) keratosis. Preferably, the cancer is a prostate cancer. Alternatively, the cancer may be a thyroid cancer, bladder cancer, or pancreatic cancer.

[0123] In some instances, the cancer is a lung cancer. Lung cancer can start in the airways that branch off the trachea to supply the lungs (bronchi) or the small air sacs of the lung (the alveoli). Lung cancers include non-small cell lung carcinoma (NSCLC), small cell lung carcinoma, and mesotheliomia. Examples of NSCLC include squamous cell carcinoma, adenocarcinoma, and large cell carcinoma. The mesothelioma may be a cancerous tumor of the lining of the lung and chest cavity (pleura) or lining of the abdomen (peritoneum). The mesothelioma may be due to asbestos exposure. The cancer may be a brain cancer, such as a glioblastoma.

[0124] Alternatively, the cancer may be a central nervous system (CNS) tumor. CNS tumors may be classified as gliomas or nongliomas. The glioma may be malignant glioma, high grade glioma, diffuse intrinsic pontine glioma. Examples of gliomas include astrocytomas, oligodendrogliomas (or mixtures of oligodendroglioma and astocytoma elements), and ependymomas. Astrocytomas include, but are not limited to, low-grade astrocytomas, anaplastic astrocytomas, glioblastoma multiforme, pilocytic astrocytoma, pleomorphic xanthoastrocytoma, and subependymal giant cell astrocytoma.

[0125] Oligodendrogliomas include low-grade oligodendrogliomas (or oligoastrocytomas) and anaplastic oligodendriogliomas. Nongliomas include meningiomas, pituitary adenomas, primary CNS lymphomas, and medulloblastomas. In some instances, the cancer is a meningioma.

[0126] The cancer may be a leukemia. The leukemia may be an acute lymphocytic leukemia, acute myelocytic leukemia, chronic lymphocytic leukemia, or chronic myelocytic leukemia. Additional types of leukemias include hairy cell leukemia, chronic myelomonocytic leukemia, and juvenile myelomonocytic-leukemia.

[0127] In some instances, the cancer is a lymphoma. Lymphomas are cancers of the lymphocytes and may develop from either B or T lymphocytes. The two major types of lymphoma are Hodgkin's lymphoma, previously known as Hodgkin's disease, and non-Hodgkin's lymphoma. Hodgkin's lymphoma is marked by the presence of the Reed-Sternberg cell. Non-Hodgkin's lymphomas are all lymphomas which are not Hodgkin's lymphoma. Non-Hodgkin lymphomas may be indolent lymphomas and aggressive lymphomas. Non-Hodgkin's lymphomas include, but are not limited to, diffuse large B cell lymphoma, follicular lymphoma, mucosa-associated lymphatic tissue lymphoma (MALT), small cell lymphocytic lymphoma, mantle cell lymphoma, Burkitt's lymphoma, mediastinal large B cell lymphoma, Waldenstrom macroglobulinemia, nodal marginal zone B cell lymphoma (NMZL), splenic marginal zone lymphoma (SMZL), extranodal marginal zone B cell lymphoma, intravascular large B cell lymphoma, primary effusion lymphoma, and lymphomatoid granulomatosis.

Cancer Staging

[0128] Diagnosing, predicting, or monitoring a status or outcome of a cancer may comprise determining the stage of the cancer. Generally, the stage of a cancer is a description (usually numbers I to IV with IV having more progression) of the extent the cancer has spread. The stage often takes into account the size of a tumor, how deeply it has penetrated, whether it has invaded adjacent organs, how many lymph nodes it has metastasized to (if any), and whether it has spread to distant organs. Staging of cancer can be used as a predictor of survival, and cancer treatment may be determined by staging. Determining the stage of the cancer may occur before, during, or after treatment. The stage of the cancer may also be determined at the time of diagnosis.

[0129] Cancer staging can be divided into a clinical stage and a pathologic stage. Cancer staging may comprise the TNM classification. Generally, the TNM Classification of Malignant Tumours (TNM) is a cancer staging system that describes the extent of cancer in a patient's body. T may describe the size of the tumor and whether it has invaded nearby tissue, N may describe regional lymph nodes that are involved, and M may describe distant metastasis (spread of cancer from one body part to another). In the TNM (Tumor, Node, Metastasis) system, clinical stage and pathologic stage are denoted by a small "c" or "p" before the stage (e.g., cT3N1M0 or pT2N0).

[0130] Often, clinical stage and pathologic stage may differ. Clinical stage may be based on all of the available information obtained before a surgery to remove the tumor. Thus, it may include information about the tumor obtained by physical examination, radiologic examination, and endoscopy. Pathologic stage can add additional information gained by examination of the tumor microscopically by a pathologist. Pathologic staging can allow direct examination of the tumor and its spread, contrasted with clinical staging which may be limited by the fact that the information is obtained by making indirect observations at a tumor which is still in the body. The TNM staging system can be used for most forms of cancer.

[0131] Alternatively, staging may comprise Ann Arbor staging. Generally, Ann Arbor staging is the staging system for lymphomas, both in Hodgkin's lymphoma (previously called Hodgkin's disease) and Non-Hodgkin lymphoma (abbreviated NHL). The stage may depend on both the place where the malignant tissue is located (as located with biopsy, CT scanning and increasingly positron emission tomography) and on systemic symptoms due to the lymphoma ("B symptoms": night sweats, weight loss of >10% or fevers). The principal stage may be determined by location of the tumor. Stage I may indicate that the cancer is located in a single region, usually one lymph node and the surrounding area. Stage I often may not have outward symptoms. Stage II can indicate that the cancer is located in two separate regions, an affected lymph node or organ and a second affected area, and that both affected areas are confined to one side of the diaphragm--that is, both are above the diaphragm, or both are below the diaphragm. Stage III often indicates that the cancer has spread to both sides of the diaphragm, including one organ or area near the lymph nodes or the spleen. Stage IV may indicate diffuse or disseminated involvement of one or more extralymphatic organs, including any involvement of the liver, bone marrow, or nodular involvement of the lungs.

[0132] Modifiers may also be appended to some stages. For example, the letters A, B, E, X, or S can be appended to some stages. Generally, A or B may indicate the absence of constitutional (B-type) symptoms is denoted by adding an "A" to the stage; the presence is denoted by adding a "B" to the stage. E can be used if the disease is "extranodal" (not in the lymph nodes) or has spread from lymph nodes to adjacent tissue. X is often used if the largest deposit is >10 cm large ("bulky disease"), or whether the mediastinum is wider than 1/3 of the chest on a chest X-ray. S may be used if the disease has spread to the spleen.

[0133] The nature of the staging may be expressed with CS or PS. CS may denote that the clinical stage as obtained by doctor's examinations and tests. PS may denote that the pathological stage as obtained by exploratory laparotomy (surgery performed through an abdominal incision) with splenectomy (surgical removal of the spleen).

Therapeutic Regimens

[0134] Diagnosing, predicting, or monitoring a status or outcome of a cancer may comprise treating a cancer or preventing a cancer progression. In addition, diagnosing, predicting, or monitoring a status or outcome of a cancer may comprise identifying or predicting responders to an anti-cancer therapy. In some instances, diagnosing, predicting, or monitoring may comprise determining a therapeutic regimen. Determining a therapeutic regimen may comprise administering an anti-cancer therapy. Alternatively, determining a therapeutic regimen may comprise modifying, recommending, continuing or discontinuing an anti-cancer regimen. In some instances, if the sample expression patterns are consistent with the expression pattern for a known disease or disease outcome, the expression patterns can be used to designate one or more treatment modalities (e.g., therapeutic regimens, anti-cancer regimen). An anti-cancer regimen may comprise one or more anti-cancer therapies. Examples of anti-cancer therapies include surgery, chemotherapy, radiation therapy, immunotherapy/biological therapy, photodynamic therapy.

[0135] Surgical oncology uses surgical methods to diagnose, stage, and treat cancer, and to relieve certain cancer-related symptoms. Surgery may be used to remove the tumor (e.g., excisions, resections, debulking surgery), reconstruct a part of the body (e.g., restorative surgery), and/or to relieve symptoms such as pain (e.g., palliative surgery). Surgery may also include cryosurgery. Cryosurgery (also called cryotherapy) may use extreme cold produced by liquid nitrogen (or argon gas) to destroy abnormal tissue. Cryosurgery can be used to treat external tumors, such as those on the skin. For external tumors, liquid nitrogen can be applied directly to the cancer cells with a cotton swab or spraying device. Cryosurgery may also be used to treat tumors inside the body (internal tumors and tumors in the bone). For internal tumors, liquid nitrogen or argon gas may be circulated through a hollow instrument called a cryoprobe, which is placed in contact with the tumor. An ultrasound or MRI may be used to guide the cryoprobe and monitor the freezing of the cells, thus limiting damage to nearby healthy tissue. A ball of ice crystals may form around the probe, freezing nearby cells. Sometimes more than one probe is used to deliver the liquid nitrogen to various parts of the tumor. The probes may be put into the tumor during surgery or through the skin (percutaneously). After cryosurgery, the frozen tissue thaws and may be naturally absorbed by the body (for internal tumors), or may dissolve and form a scab (for external tumors).

[0136] Chemotherapeutic agents may also be used for the treatment of cancer. Examples of chemotherapeutic agents include alkylating agents, anti-metabolites, plant alkaloids and terpenoids, vinca alkaloids, podophyllotoxin, taxanes, topoisomerase inhibitors, and cytotoxic antibiotics. Cisplatin, carboplatin, and oxaliplatin are examples of alkylating agents. Other alkylating agents include mechlorethamine, cyclophosphamide, chlorambucil, ifosfamide. Alkylating agents may impair cell function by forming covalent bonds with the amino, carboxyl, sulfhydryl, and phosphate groups in biologically important molecules. Alternatively, alkylating agents may chemically modify a cell's DNA.

[0137] Anti-metabolites are another example of chemotherapeutic agents. Anti-metabolites may masquerade as purines or pyrimidines and may prevent purines and pyrimidines from becoming incorporated in to DNA during the "S" phase (of the cell cycle), thereby stopping normal development and division. Antimetabolites may also affect RNA synthesis. Examples of metabolites include azathioprine and mercaptopurine.

[0138] Alkaloids may be derived from plants and block cell division may also be used for the treatment of cancer. Alkyloids may prevent microtubule function. Examples of alkaloids are vinca alkaloids and taxanes. Vinca alkaloids may bind to specific sites on tubulin and inhibit the assembly of tubulin into microtubules (M phase of the cell cycle). The vinca alkaloids may be derived from the Madagascar periwinkle, Catharanthus roseus (formerly known as Vinca rosea). Examples of vinca alkaloids include, but are not limited to, vincristine, vinblastine, vinorelbine, or vindesine. Taxanes are diterpenes produced by the plants of the genus Taxus (yews). Taxanes may be derived from natural sources or synthesized artificially. Taxanes include paclitaxel (Taxol) and docetaxel (Taxotere). Taxanes may disrupt microtubule function. Microtubules are essential to cell division, and taxanes may stabilize GDP-bound tubulin in the microtubule, thereby inhibiting the process of cell division. Thus, in essence, taxanes may be mitotic inhibitors. Taxanes may also be radiosensitizing and often contain numerous chiral centers.

[0139] Alternative chemotherapeutic agents include podophyllotoxin. Podophyllotoxin is a plant-derived compound that may help with digestion and may be used to produce cytostatic drugs such as etoposide and teniposide. They may prevent the cell from entering the G1 phase (the start of DNA replication) and the replication of DNA (the S phase).

[0140] Topoisomerases are essential enzymes that maintain the topology of DNA. Inhibition of type I or type II topoisomerases may interfere with both transcription and replication of DNA by upsetting proper DNA supercoiling. Some chemotherapeutic agents may inhibit topoisomerases. For example, some type I topoisomerase inhibitors include camptothecins: irinotecan and topotecan. Examples of type II inhibitors include amsacrine, etoposide, etoposide phosphate, and teniposide.

[0141] Another example of chemotherapeutic agents is cytotoxic antibiotics. Cytotoxic antibiotics are a group of antibiotics that are used for the treatment of cancer because they may interfere with DNA replication and/or protein synthesis. Cytotoxic antiobiotics include, but are not limited to, actinomycin, anthracyclines, doxorubicin, daunorubicin, valrubicin, idarubicin, epirubicin, bleomycin, plicamycin, and mitomycin.

[0142] In some instances, the anti-cancer treatment may comprise radiation therapy. Radiation can come from a machine outside the body (external-beam radiation therapy) or from radioactive material placed in the body near cancer cells (internal radiation therapy, more commonly called brachytherapy). Systemic radiation therapy uses a radioactive substance, given by mouth or into a vein that travels in the blood to tissues throughout the body.

[0143] External-beam radiation therapy may be delivered in the form of photon beams (either x-rays or gamma rays). A photon is the basic unit of light and other forms of electromagnetic radiation. An example of external-beam radiation therapy is called 3-dimensional conformal radiation therapy (3D-CRT). 3D-CRT may use computer software and advanced treatment machines to deliver radiation to very precisely shaped target areas. Many other methods of external-beam radiation therapy are currently being tested and used in cancer treatment. These methods include, but are not limited to, intensity-modulated radiation therapy (IMRT), image-guided radiation therapy (IGRT), Stereotactic radiosurgery (SRS), Stereotactic body radiation therapy (SBRT), and proton therapy.

[0144] Intensity-modulated radiation therapy (IMRT) is an example of external-beam radiation and may use hundreds of tiny radiation beam-shaping devices, called collimators, to deliver a single dose of radiation. The collimators can be stationary or can move during treatment, allowing the intensity of the radiation beams to change during treatment sessions. This kind of dose modulation allows different areas of a tumor or nearby tissues to receive different doses of radiation. IMRT is planned in reverse (called inverse treatment planning) In inverse treatment planning, the radiation doses to different areas of the tumor and surrounding tissue are planned in advance, and then a high-powered computer program calculates the required number of beams and angles of the radiation treatment. In contrast, during traditional (forward) treatment planning, the number and angles of the radiation beams are chosen in advance and computers calculate how much dose may be delivered from each of the planned beams. The goal of IMRT is to increase the radiation dose to the areas that need it and reduce radiation exposure to specific sensitive areas of surrounding normal tissue.

[0145] Another example of external-beam radiation is image-guided radiation therapy (IGRT). In IGRT, repeated imaging scans (CT, MRI, or PET) may be performed during treatment. These imaging scans may be processed by computers to identify changes in a tumor's size and location due to treatment and to allow the position of the patient or the planned radiation dose to be adjusted during treatment as needed. Repeated imaging can increase the accuracy of radiation treatment and may allow reductions in the planned volume of tissue to be treated, thereby decreasing the total radiation dose to normal tissue.

[0146] Tomotherapy is a type of image-guided IMRT. A tomotherapy machine is a hybrid between a CT imaging scanner and an external-beam radiation therapy machine. The part of the tomotherapy machine that delivers radiation for both imaging and treatment can rotate completely around the patient in the same manner as a normal CT scanner. Tomotherapy machines can capture CT images of the patient's tumor immediately before treatment sessions, to allow for very precise tumor targeting and sparing of normal tissue.

[0147] Stereotactic radiosurgery (SRS) can deliver one or more high doses of radiation to a small tumor. SRS uses extremely accurate image-guided tumor targeting and patient positioning. Therefore, a high dose of radiation can be given without excess damage to normal tissue. SRS can be used to treat small tumors with well-defined edges. It is most commonly used in the treatment of brain or spinal tumors and brain metastases from other cancer types. For the treatment of some brain metastases, patients may receive radiation therapy to the entire brain (called whole-brain radiation therapy) in addition to SRS. SRS requires the use of a head frame or other device to immobilize the patient during treatment to ensure that the high dose of radiation is delivered accurately.

[0148] Stereotactic body radiation therapy (SBRT) delivers radiation therapy in fewer sessions, using smaller radiation fields and higher doses than 3D-CRT in most cases. SBRT may treat tumors that lie outside the brain and spinal cord. Because these tumors are more likely to move with the normal motion of the body, and therefore cannot be targeted as accurately as tumors within the brain or spine, SBRT is usually given in more than one dose. SBRT can be used to treat small, isolated tumors, including cancers in the lung and liver. SBRT systems may be known by their brand names, such as the CyberKnife.RTM..

[0149] In proton therapy, external-beam radiation therapy may be delivered by proton. Protons are a type of charged particle. Proton beams differ from photon beams mainly in the way they deposit energy in living tissue. Whereas photons deposit energy in small packets all along their path through tissue, protons deposit much of their energy at the end of their path (called the Bragg peak) and deposit less energy along the way. Use of protons may reduce the exposure of normal tissue to radiation, possibly allowing the delivery of higher doses of radiation to a tumor.

[0150] Other charged particle beams such as electron beams may be used to irradiate superficial tumors, such as skin cancer or tumors near the surface of the body, but they cannot travel very far through tissue.

[0151] Internal radiation therapy (brachytherapy) is radiation delivered from radiation sources (radioactive materials) placed inside or on the body. Several brachytherapy techniques are used in cancer treatment. Interstitial brachytherapy may use a radiation source placed within tumor tissue, such as within a prostate tumor. Intracavitary brachytherapy may use a source placed within a surgical cavity or a body cavity, such as the chest cavity, near a tumor. Episcleral brachytherapy, which may be used to treat melanoma inside the eye, may use a source that is attached to the eye. In brachytherapy, radioactive isotopes can be sealed in tiny pellets or "seeds." These seeds may be placed in patients using delivery devices, such as needles, catheters, or some other type of carrier. As the isotopes decay naturally, they give off radiation that may damage nearby cancer cells. Brachytherapy may be able to deliver higher doses of radiation to some cancers than external-beam radiation therapy while causing less damage to normal tissue.

[0152] Brachytherapy can be given as a low-dose-rate or a high-dose-rate treatment. In low-dose-rate treatment, cancer cells receive continuous low-dose radiation from the source over a period of several days. In high-dose-rate treatment, a robotic machine attached to delivery tubes placed inside the body may guide one or more radioactive sources into or near a tumor, and then removes the sources at the end of each treatment session. High-dose-rate treatment can be given in one or more treatment sessions. An example of a high-dose-rate treatment is the MammoSite.RTM. system. Bracytherapy may be used to treat patients with breast cancer who have undergone breast-conserving surgery.

[0153] The placement of brachytherapy sources can be temporary or permanent. For permanent brachytherapy, the sources may be surgically sealed within the body and left there, even after all of the radiation has been given off. In some instances, the remaining material (in which the radioactive isotopes were sealed) does not cause any discomfort or harm to the patient. Permanent brachytherapy is a type of low-dose-rate brachytherapy. For temporary brachytherapy, tubes (catheters) or other carriers are used to deliver the radiation sources, and both the carriers and the radiation sources are removed after treatment. Temporary brachytherapy can be either low-dose-rate or high-dose-rate treatment. Brachytherapy may be used alone or in addition to external-beam radiation therapy to provide a "boost" of radiation to a tumor while sparing surrounding normal tissue.

[0154] In systemic radiation therapy, a patient may swallow or receive an injection of a radioactive substance, such as radioactive iodine or a radioactive substance bound to a monoclonal antibody. Radioactive iodine (131I) is a type of systemic radiation therapy commonly used to help treat cancer, such as thyroid cancer. Thyroid cells naturally take up radioactive iodine. For systemic radiation therapy for some other types of cancer, a monoclonal antibody may help target the radioactive substance to the right place. The antibody joined to the radioactive substance travels through the blood, locating and killing tumor cells. For example, the drug ibritumomab tiuxetan (Zevalin.RTM.) may be used for the treatment of certain types of B-cell non-Hodgkin lymphoma (NHL). The antibody part of this drug recognizes and binds to a protein found on the surface of B lymphocytes. The combination drug regimen of tositumomab and iodine I 131 tositumomab (Bexxar.RTM.) may be used for the treatment of certain types of cancer, such as NHL. In this regimen, nonradioactive tositumomab antibodies may be given to patients first, followed by treatment with tositumomab antibodies that have 131I attached. Tositumomab may recognize and bind to the same protein on B lymphocytes as ibritumomab. The nonradioactive form of the antibody may help protect normal B lymphocytes from being damaged by radiation from 131I.

[0155] Some systemic radiation therapy drugs relieve pain from cancer that has spread to the bone (bone metastases). This is a type of palliative radiation therapy. The radioactive drugs samarium-153-lexidronam (Quadramet.RTM.) and strontium-89 chloride (Metastron.RTM.) are examples of radiopharmaceuticals may be used to treat pain from bone metastases.

[0156] Biological therapy (sometimes called immunotherapy, biotherapy, or biological response modifier (BRM) therapy) uses the body's immune system, either directly or indirectly, to fight cancer or to lessen the side effects that may be caused by some cancer treatments. Biological therapies include interferons, interleukins, colony-stimulating factors, monoclonal antibodies, vaccines, gene therapy, and nonspecific immunomodulating agents.

[0157] Interferons (IFNs) are types of cytokines that occur naturally in the body. Interferon alpha, interferon beta, and interferon gamma are examples of interferons that may be used in cancer treatment.

[0158] Like interferons, interleukins (ILs) are cytokines that occur naturally in the body and can be made in the laboratory. Many interleukins have been identified for the treatment of cancer. For example, interleukin-2 (IL-2 or aldesleukin), interleukin 7, and interleukin 12 have may be used as an anti-cancer treatment. IL-2 may stimulate the growth and activity of many immune cells, such as lymphocytes, that can destroy cancer cells. Interleukins may be used to treat a number of cancers, including leukemia, lymphoma, and brain, colorectal, ovarian, breast, kidney and prostate cancers.

[0159] Colony-stimulating factors (CSFs) (sometimes called hematopoietic growth factors) may also be used for the treatment of cancer. Some examples of CSFs include, but are not limited to, G-CSF (filgrastim) and GM-CSF (sargramostim). CSFs may promote the division of bone marrow stem cells and their development into white blood cells, platelets, and red blood cells. Bone marrow is critical to the body's immune system because it is the source of all blood cells. Because anticancer drugs can damage the body's ability to make white blood cells, red blood cells, and platelets, stimulation of the immune system by CSFs may benefit patients undergoing other anti-cancer treatment, thus CSFs may be combined with other anti-cancer therapies, such as chemotherapy. CSFs may be used to treat a large variety of cancers, including lymphoma, leukemia, multiple myeloma, melanoma, and cancers of the brain, lung, esophagus, breast, uterus, ovary, prostate, kidney, colon, and rectum.

[0160] Another type of biological therapy includes monoclonal antibodies (MOABs or MoABs). These antibodies may be produced by a single type of cell and may be specific for a particular antigen. To create MOABs, a human cancer cells may be injected into mice. In response, the mouse immune system can make antibodies against these cancer cells. The mouse plasma cells that produce antibodies may be isolated and fused with laboratory-grown cells to create "hybrid" cells called hybridomas. Hybridomas can indefinitely produce large quantities of these pure antibodies, or MOABs. MOABs may be used in cancer treatment in a number of ways. For instance, MOABs that react with specific types of cancer may enhance a patient's immune response to the cancer. MOABs can be programmed to act against cell growth factors, thus interfering with the growth of cancer cells.

[0161] MOABs may be linked to other anti-cancer therapies such as chemotherapeutics, radioisotopes (radioactive substances), other biological therapies, or other toxins. When the antibodies latch onto cancer cells, they deliver these anti-cancer therapies directly to the tumor, helping to destroy it. MOABs carrying radioisotopes may also prove useful in diagnosing certain cancers, such as colorectal, ovarian, and prostate.

[0162] Rituxan.RTM. (rituximab) and Herceptin.RTM. (trastuzumab) are examples of MOABs that may be used as a biological therapy. Rituxan may be used for the treatment of non-Hodgkin lymphoma. Herceptin can be used to treat metastatic breast cancer in patients with tumors that produce excess amounts of a protein called HER2. Alternatively, MOABs may be used to treat lymphoma, leukemia, melanoma, and cancers of the brain, breast, lung, kidney, colon, rectum, ovary, prostate, and other areas.

[0163] Cancer vaccines are another form of biological therapy. Cancer vaccines may be designed to encourage the patient's immune system to recognize cancer cells. Cancer vaccines may be designed to treat existing cancers (therapeutic vaccines) or to prevent the development of cancer (prophylactic vaccines). Therapeutic vaccines may be injected in a person after cancer is diagnosed. These vaccines may stop the growth of existing tumors, prevent cancer from recurring, or eliminate cancer cells not killed by prior treatments. Cancer vaccines given when the tumor is small may be able to eradicate the cancer. On the other hand, prophylactic vaccines are given to healthy individuals before cancer develops. These vaccines are designed to stimulate the immune system to attack viruses that can cause cancer. By targeting these cancer-causing viruses, development of certain cancers may be prevented. For example, cervarix and gardasil are vaccines to treat human papilloma virus and may prevent cervical cancer. Therapeutic vaccines may be used to treat melanoma, lymphoma, leukemia, and cancers of the brain, breast, lung, kidney, ovary, prostate, pancreas, colon, and rectum. Cancer vaccines can be used in combination with other anti-cancer therapies.

[0164] Gene therapy is another example of a biological therapy. Gene therapy may involve introducing genetic material into a person's cells to fight disease. Gene therapy methods may improve a patient's immune response to cancer. For example, a gene may be inserted into an immune cell to enhance its ability to recognize and attack cancer cells. In another approach, cancer cells may be injected with genes that cause the cancer cells to produce cytokines and stimulate the immune system.

[0165] In some instances, biological therapy includes nonspecific immunomodulating agents. Nonspecific immunomodulating agents are substances that stimulate or indirectly augment the immune system. Often, these agents target key immune system cells and may cause secondary responses such as increased production of cytokines and immunoglobulins. Two nonspecific immunomodulating agents used in cancer treatment are bacillus Calmette-Guerin (BCG) and levamisole. BCG may be used in the treatment of superficial bladder cancer following surgery. BCG may work by stimulating an inflammatory, and possibly an immune, response. A solution of BCG may be instilled in the bladder. Levamisole is sometimes used along with fluorouracil (5-FU) chemotherapy in the treatment of stage III (Dukes' C) colon cancer following surgery. Levamisole may act to restore depressed immune function.

[0166] Photodynamic therapy (PDT) is an anti-cancer treatment that may use a drug, called a photosensitizer or photosensitizing agent, and a particular type of light. When photosensitizers are exposed to a specific wavelength of light, they may produce a form of oxygen that kills nearby cells. A photosensitizer may be activated by light of a specific wavelength. This wavelength determines how far the light can travel into the body. Thus, photosensitizers and wavelengths of light may be used to treat different areas of the body with PDT.

[0167] In the first step of PDT for cancer treatment, a photosensitizing agent may be injected into the bloodstream. The agent may be absorbed by cells all over the body but may stay in cancer cells longer than it does in normal cells. Approximately 24 to 72 hours after injection, when most of the agent has left normal cells but remains in cancer cells, the tumor can be exposed to light. The photosensitizer in the tumor can absorb the light and produces an active form of oxygen that destroys nearby cancer cells. In addition to directly killing cancer cells, PDT may shrink or destroy tumors in two other ways. The photosensitizer can damage blood vessels in the tumor, thereby preventing the cancer from receiving necessary nutrients. PDT may also activate the immune system to attack the tumor cells.

[0168] The light used for PDT can come from a laser or other sources. Laser light can be directed through fiber optic cables (thin fibers that transmit light) to deliver light to areas inside the body. For example, a fiber optic cable can be inserted through an endoscope (a thin, lighted tube used to look at tissues inside the body) into the lungs or esophagus to treat cancer in these organs. Other light sources include light-emitting diodes (LEDs), which may be used for surface tumors, such as skin cancer. PDT is usually performed as an outpatient procedure. PDT may also be repeated and may be used with other therapies, such as surgery, radiation, or chemotherapy.

[0169] Extracorporeal photopheresis (ECP) is a type of PDT in which a machine may be used to collect the patient's blood cells. The patient's blood cells may be treated outside the body with a photosensitizing agent, exposed to light, and then returned to the patient. ECP may be used to help lessen the severity of skin symptoms of cutaneous T-cell lymphoma that has not responded to other therapies. ECP may be used to treat other blood cancers, and may also help reduce rejection after transplants.

[0170] Additionally, photosensitizing agent, such as porfimer sodium or Photofrin.RTM., may be used in PDT to treat or relieve the symptoms of esophageal cancer and non-small cell lung cancer. Porfimer sodium may relieve symptoms of esophageal cancer when the cancer obstructs the esophagus or when the cancer cannot be satisfactorily treated with laser therapy alone. Porfimer sodium may be used to treat non-small cell lung cancer in patients for whom the usual treatments are not appropriate, and to relieve symptoms in patients with non-small cell lung cancer that obstructs the airways. Porfimer sodium may also be used for the treatment of precancerous lesions in patients with Barrett esophagus, a condition that can lead to esophageal cancer.

[0171] Laser therapy may use high-intensity light to treat cancer and other illnesses. Lasers can be used to shrink or destroy tumors or precancerous growths. Lasers are most commonly used to treat superficial cancers (cancers on the surface of the body or the lining of internal organs) such as basal cell skin cancer and the very early stages of some cancers, such as cervical, penile, vaginal, vulvar, and non-small cell lung cancer.

[0172] Lasers may also be used to relieve certain symptoms of cancer, such as bleeding or obstruction. For example, lasers can be used to shrink or destroy a tumor that is blocking a patient's trachea (windpipe) or esophagus. Lasers also can be used to remove colon polyps or tumors that are blocking the colon or stomach.

[0173] Laser therapy is often given through a flexible endoscope (a thin, lighted tube used to look at tissues inside the body). The endoscope is fitted with optical fibers (thin fibers that transmit light). It is inserted through an opening in the body, such as the mouth, nose, anus, or vagina. Laser light is then precisely aimed to cut or destroy a tumor.

[0174] Laser-induced interstitial thermotherapy (LITT), or interstitial laser photocoagulation, also uses lasers to treat some cancers. LITT is similar to a cancer treatment called hyperthermia, which uses heat to shrink tumors by damaging or killing cancer cells. During LITT, an optical fiber is inserted into a tumor. Laser light at the tip of the fiber raises the temperature of the tumor cells and damages or destroys them. LITT is sometimes used to shrink tumors in the liver.

[0175] Laser therapy can be used alone, but most often it is combined with other treatments, such as surgery, chemotherapy, or radiation therapy. In addition, lasers can seal nerve endings to reduce pain after surgery and seal lymph vessels to reduce swelling and limit the spread of tumor cells.

[0176] Lasers used to treat cancer may include carbon dioxide (CO2) lasers, argon lasers, and neodymium:yttrium-aluminum-garnet (Nd:YAG) lasers. Each of these can shrink or destroy tumors and can be used with endoscopes. CO2 and argon lasers can cut the skin's surface without going into deeper layers. Thus, they can be used to remove superficial cancers, such as skin cancer. In contrast, the Nd:YAG laser is more commonly applied through an endoscope to treat internal organs, such as the uterus, esophagus, and colon. Nd:YAG laser light can also travel through optical fibers into specific areas of the body during LITT. Argon lasers are often used to activate the drugs used in PDT.

[0177] For patients with high test scores consistent with systemic disease outcome after prostatectomy, additional treatment modalities such as adjuvant chemotherapy (e.g., docetaxel, mitoxantrone and prednisone), systemic radiation therapy (e.g., samarium or strontium) and/or anti-androgen therapy (e.g., surgical castration, finasteride, dutasteride) can be designated. Such patients would likely be treated immediately with anti-androgen therapy alone or in combination with radiation therapy in order to eliminate presumed micro-metastatic disease, which cannot be detected clinically but can be revealed by the target sequence expression signature.

[0178] Such patients can also be more closely monitored for signs of disease progression. For patients with intermediate test scores consistent with biochemical recurrence only (BCR-only or elevated PSA that does not rapidly become manifested as systemic disease only localized adjuvant therapy (e.g., radiation therapy of the prostate bed) or short course of anti-androgen therapy would likely be administered. For patients with low scores or scores consistent with no evidence of disease (NED) adjuvant therapy would not likely be recommended by their physicians in order to avoid treatment-related side effects such as metabolic syndrome (e.g., hypertension, diabetes and/or weight gain), osteoporosis, proctitis, incontinence or impotence. Patients with samples consistent with NED could be designated for watchful waiting, or for no treatment. Patients with test scores that do not correlate with systemic disease but who have successive PSA increases could be designated for watchful waiting, increased monitoring, or lower dose or shorter duration anti-androgen therapy.

[0179] Target sequences can be grouped so that information obtained about the set of target sequences in the group can be used to make or assist in making a clinically relevant judgment such as a diagnosis, prognosis, or treatment choice.

[0180] A patient report is also provided comprising a representation of measured expression levels of a plurality of target sequences in a biological sample from the patient, wherein the representation comprises expression levels of target sequences corresponding to any one, two, three, four, five, six, eight, ten, twenty, thirty, forty, fifty or more of the target sequences corresponding to a target selected from Table 1 or SEQ ID NOs: 1-1815, the subsets described herein, or a combination thereof. In some embodiments, the representation of the measured expression level(s) may take the form of a linear or nonlinear combination of expression levels of the target sequences of interest. The patient report may be provided in a machine (e.g., a computer) readable format and/or in a hard (paper) copy. The report can also include standard measurements of expression levels of said plurality of target sequences from one or more sets of patients with known disease status and/or outcome. The report can be used to inform the patient and/or treating physician of the expression levels of the expressed target sequences, the likely medical diagnosis and/or implications, and optionally may recommend a treatment modality for the patient.

[0181] Also provided are representations of the gene expression profiles useful for treating, diagnosing, prognosticating, and otherwise assessing disease. In some embodiments, these profile representations are reduced to a medium that can be automatically read by a machine such as computer readable media (magnetic, optical, and the like). The articles can also include instructions for assessing the gene expression profiles in such media. For example, the articles may comprise a readable storage form having computer instructions for comparing gene expression profiles of the portfolios of genes described above. The articles may also have gene expression profiles digitally recorded therein so that they may be compared with gene expression data from patient samples. Alternatively, the profiles can be recorded in different representational format. A graphical recordation is one such format. Clustering algorithms can assist in the visualization of such data.

Cancer Aggressiveness Prediction

[0182] In some embodiments, the methods and genomic classifiers of the present invention are useful for predicting aggressive prostate cancer. In some embodiments, the methods and genomic classifiers of the present invention are used to predict patient outcomes such as biochemical recurrence (BCR), metastasis (MET) and prostate cancer death (PCSM) after radical prostatectomy. In other embodiments, the methods and genomic classifiers of the present invention are used to predict patient outcomes such as distant metastasis-free survival (DMFS), biochemical recurrence-free survival (bRFS), prostate cancer specific survival (PCSS), and overall survival (OS).

Metastasis Prediction

[0183] In some embodiments, the methods and genomic classifiers of the present invention are useful for predicting prostate cancer metastasis following radical prostatectomy. In other embodiments, the methods and genomic classifiers of the present invention are useful for determining a course of treatment following radical prostatectomy.

[0184] The following examples are provided to further illustrate the advantages and features of the present invention, but are not intended to limit the scope of the invention. While they are typical of those that might be used, other procedures, methodologies, or techniques known to those skilled in the art may alternatively be used.

EXAMPLES

Example 1: A Genomic Classifier to Predict Aggressive Prostate Cancer in Humans

[0185] A genomic classifier to predict aggressive prostate cancer in human subjects was developed as follows. To build, validate and evaluate the novel genomic model, a total of 9,901 genome-wide expression profiles from assays of biopsy and radical prostatectomy (RP) tumor tissue specimens. This included genome-wide expression, treatment and outcomes data from 1,261 prostate cancer patients treated with RP in seven retrospective institutional cohorts. A second set of de-identified, and anonymized prospective RP cases with basic demographic and pathological data from clinical use of the Decipher RP test (n=6,739) was also part of this cohort. Finally, the third set of patient data included 1,694 prospective biopsy expression profiles with basic clinical data and 253 retrospective biopsy profiles with detailed clinical data at biopsy and pathological data at RP.

[0186] The retrospective RP data from 1,261 patients, as well as a randomly selected sample of 2,041 patients, which represents 30% of the prospectively collected RP samples, were used as a development cohort for the novel genomic model. The remaining 70% (n=4,698) of the prospectively collected RP samples, as well as 1,694 prospectively collected biopsy samples and 253 retrospectively collected biopsy samples (with known pathological variables at RP) were used as validation cohorts for the novel genomic model.

[0187] Affymetrix Human Exon 1.0 ST microarray (Affymetrix, Santa Clara, Calif.) data were obtained from the formalin-fixed paraffin-embedded biopsy and RP specimens described above. Microarray processing was performed in a CLIA-certified clinical operations laboratory (GenomeDx Biosciences, Inc, San Diego, Calif.). Microarrays were normalized using Single Channel Array Normalization. (Piccolo et al. Genomics. 2012; 100(6):337-344.)

[0188] The first step in the model development was to assign a metastasis score to a large prospective cohort of 1,539 patients into high metastatic risk and low metastatic risk using the validated Decipher signature (DV1). Next, these patients were grouped into high aggressiveness category (high DV1 and GS.gtoreq.8) and low aggressiveness category (low DV1 and GS.gtoreq.7). To select gene features for the novel genomics classifier (DV2), we processed a retrospective cohort of 545 patients treated with RP, who had long-term follow-up and clinical recurrence outcomes (metastasis vs. no metastasis) with an additional 400 prospective patients, for whom the outcome of interest was low aggressive disease (LAD) vs high aggressive disease (HAD). We selected genes that were associated with HAD, and/or metastasis (FDR adjusted p-value 0.05). From this process, a total of 172 genes were selected to train the DV2 model. Next, we trained DV2 on a total of 1,539 prospective samples (HAD: 269, LAD:1,270) using a GLMNET model with Elasticnet mixing parameters 0.5 and the 172 filtered genes. Model optimization and performance evaluation on training data was determined using 10-fold cross validation. DV2 generates scores from between 0 and 1, where patients with higher score will have higher probability of metastasis.

Statistical Analysis

[0189] All statistical analyses were conducted using R version 3.3.2 and all tests of significance were two-sided at the 0.05 level. The primary endpoint of the analysis is high stage disease, which is defined as pathological stage T3b or above or node positive at RP. The secondary endpoint is high grade disease, which is defined as pathological Gleason Grade Group 4 to 5. Analysis were performed in both prospective and retrospective biopsy sets. Age, pretreatment PSA (log 2 transformed) and percent positive cores were modeled as continuous variables, and clinical stage, clinical Gleason Scores were treated as categorical variables. NCCN risk category was calculated using clinical stage, clinical Gleason and pretreatment PSA. The association between the genomic models and clinical pathological features were evacuated using Spearman's rank correlation. The performance of clinical model, DV1 and DV2 were compared using area under ROC curves, univariable and multivariable logistic regression models. Firth's penalized likelihood method was used in the retrospective biopsy set to adjust for rare event.

Results

[0190] In the retrospective RP data set (n=545) 812 genes were differentially expressed between tumors of patients with metastasis compared to those without after a median follow up 17 years. We used about 30% (n=2,041) of the prospective RP data set to select genes and train the DV2 model. Using the composite endpoint, we identified 1,584 differentially expressed genes comparing tumors with high and low genomic-pathologic scores. We identified 172 genes from the intersection of these two selection steps. A subset of 1,539 prospective RP patient data were then used to train the final DV2 model, again using the genomic-pathologic endpoint in a generalized linear model (GLMnet). After training the GLMnet, the final DV2 model was comprised of 60 genes with non-zero weights (Table 1). In the training data set, DV2 achieved a 10-fold cross-validated AUC of 0.92 to predict high tumor genomic-pathologic score.

TABLE-US-00001 TABLE 1 Gene Targets AC020571.3 FTH1P2 LIPH OR51A6P RP11-159H20.3 SMC4 ANO7 FTH1P8 LPAR3 PABPC1 RP11-755O11.2 TIPARP ARL6IP1P2 GLB1L2 LPGAT1 PART1 RP11-770G2.5 TMEM100 ASPN GLB1L3 MIR4435-1HG PCAT14 RP11-923I11.3 TNFRSF19 AZGP1 GLYATL1P3 MKI67 PGM5P4-AS1 RP13-753N3.3 TOP2A AZGP1P1 GMNN MLLT11 PICK1 RPL31P57 TPX2 DEGS1 HIF3A MYBPC1 PTTG1 SCIN TRIQK ERO1LB INHBA NADK2 R3HDM1 SESN3 VBP1 FBXL8 KIAA1210 NR4A1 RNA5SP121 SETP14 WFDC2 FMO5 KRT15 NUSAP1 RP11-121G22.3 SLC22A3 XPO6

Correlation of Model Scores with Clinical Features of Prostate Cancer Tumors Sampled at Diagnosis and after RP

[0191] We first evaluated DV1 and DV2 in a prospective data set of 1,694 tumor expression profiles obtained from Decipher biopsy testing, which is representative of the spectrum of non-metastatic, localized disease observed in contemporary practice (Table 2). As depicted in FIGS. 1A and 1B, both models positively correlated with biopsy Grade Groups (p<0.001) and NCCN risk categories (p<0.001) as well as diagnostic PSA, clinical stage and percentage of positive cores (p<0.001) (FIGS. 2A-C). Similarly, in the remaining prospective RP data set not used for DV2 training (n=6,739) model scores were positively correlated (Spearman's rank correlation, p<0.001) with pathological tumor grade and stage (FIG. 3A-B). Expectedly, the model scores in prospective RP and biopsy tumor specimens showed highly concordant distributions across the tumor Grade Groups (FIG. 4).

TABLE-US-00002 TABLE 2 Prospective cohort for testing DV1 and DV2. Variables Prospective Biopsy Total 1694 Age Median (Q1, Q3) 67 (61, 72) PSA .ltoreq.5 451 (26.6) 5-10 663 (39.1) 10-20 219 (12.9) >20 93 (5.5) Unknown 268 (15.8) Clinical Gleason Score .ltoreq.3 + 3 659 (38.9) 3+ 4 569 (33.6) 4+ 3 232 (13.7) 8 141 (8.3) 9-10 93 (5.5) Unknown Clinical stage .ltoreq.T1c 898 (53.0) T2a 123 (7.3) T2b/c 121 (7.1) .gtoreq.T3 18 (1.1) Unknown 534 (31.5) NCCN risk categories Low 340 (20.1) Intermediate 856 (50.5) High 288 (17.0) Unknown 210 (12.4) Pathological Gleason Score .ltoreq.3 + 3 3 + 4 4 + 3 8 9-10 Unknown 1694 (100.0) Pathological stage pT2 pT3a pT3b pT4 Unknown 1694 (100.0) Surgical Margin Negative Positive Unknown 1694 (100.0) Extracapsular Extension Absent Present Unknown 1694 (100.0) Seminal Vesicle Invasion Absent Present Unknown 1694 (100.0) Lymph Node Involvement Absent Present Unknown 1694 (100.0) Adverse Pathology (pT3b.sub.+/LNI.sub.+) 0 1 Unknown 1694 (100.0)

Genomic Classifier Scores Predict Presence of Higher-Grade Disease Upon Pathological Re-Review

[0192] In the prospective cohort, independent pathological review was performed in order to select tumor tissue among the prostate needle biopsy cores submitted for the Decipher genome-wide expression assay. We evaluated the distribution of DV1 and DV2 scores among cases where tumor grading changed (FIG. 5). This analysis showed both genomic models were not only positively correlated (p<0.001) with independent histological review, but both DV1 and DV2 assigned higher scores to patients who were upgraded and lower scores to those were downgraded upon re-review

[0193] The clinical impact was particularly pronounced in tumors from patients submitted for testing with an initial diagnosis of Grade Group 1 (Gleason 3+3) disease and available independent histological review. Of this subset (n=534), upgrading was observed in 157 (29%) of cases, including 13 that were upgraded to primary pattern 4 or higher (Grade Group 3-5). When these cases were assessed by DV1 and DV2, we found the DV1 model showed median scores of 0.39, 0.46, 0.59 in GG1, GG2, and GG3-5 patients, respectively (FIG. 6A). The median scores for the DV2 model in GG1, GG2, and GG3-5 patients were 0.05, 0.08 and 0.25 (FIG. 6B). The corresponding AUCs for predicting any upgrade among the Grade Group 1 tumors were 0.61 and 0.63 for DV1 and DV2; compared to 0.59, 0.55 and 0.58 for age, PSA and percent positive cores, respectively (FIG. 6C). In MVA analyses adjusting for clinical risk factors for up-grading, each 0.1 change in DV1 and DV2 scores were associated with 29% and 30% increased odds of up-grading on re-review (Table 3). Similarly, among patients initially diagnosed with Gleason 3+4 disease, both models were significant predictors of up-grading to 4+3 or above in both UVA and MVA analyses (data not shown).

TABLE-US-00003 TABLE 3 Logistic regression model for predicting upgrade to GG2-GG5 in prospective biopsy GG1 subset UVA MVA Models variables OR CI P-value OR CI P-value (A) DV1 Age 1.04 (1.02-1.07) 0.002 1.04 (1.01-1.07) 0.005 log(pre-op PSA) 1.24 (0.98-1.58) 0.07 1.13 (0.88-1.45) 0.332 % positive cores 1.01 (1-1.02) 0.026 1.01 (1-1.02) 0.019 DV1 * 1.27 (1.14-1.42) <0.001 1.29 (1.15-1.45) <0.001 (B) DV2 Age 1.04 (1.02-1.07) 0.002 1.03 (1-1.06) 0.024 log(pre-op PSA) 1.24 (0.98-1.58) 0.07 1.13 (0.88-1.44) 0.347 % positive cores 1.01 (1-1.02) 0.026 1.01 (1-1.02) 0.03 DV2 * 1.33 (1.17-1.52) <0.001 1.31 (1.15-1.49) <0.001 * per 0.1 increment of the model scores

Prediction of Higher Stage Disease at RP and Metastasis Post RP from Analysis of Diagnostic Biopsy Specimens

[0194] Next, we evaluated the performance of the classifiers in a retrospective multi-institutional cohort of 253 men with Decipher biopsy data who were treated with RP and had detailed clinical and pathological data available for analysis. Demographic and clinical characteristics of this patient cohort is provided in Table 2. The median patient age at RP was 63 years (interquartile range [IQR] 57-68) with a median pre-treatment PSA of 6.60 ng/mL (IQR 4.75-11.95). At initial diagnostic biopsy, 56% of patients had Grade Group 1 and 33% clinical stage T1 disease. Accordingly, pre-treatment NCCN risk groupings classified 42% and 28% of patients as harboring low- and intermediate-risk disease, respectively. Pathological analysis of the RP specimens revealed, only 29% remained with Grade Group 1 disease and due to up-grading, 38% had Grade Group .gtoreq.3 (i.e., Gleason score 4+3 or greater) disease in the prostatectomy. Similarly, tumor pathological staging showed that 46% had extra-prostatic extension, 14% had seminal vesicle invasion and 19% had lymph node involvement. The composite end-point of high-stage disease, defined as the presence of seminal vesicle invasion or lymph node involvement was present in 21% of patients. With a median follow up post diagnosis of 7.85 years, 27 patients developed metastasis and 10 died of prostate cancer.

TABLE-US-00004 TABLE 4 Patient Characteristics Variables Study Cohort No. patients (%) 253 (100.0) Age at RP Median (Q1, Q3) 62.6 (57.2, 68) Pre-Operative PSA Median (Q1, Q3) 6.6 (4.75, 12) Biopsy Grade Groups Grade Group 1 141 (55.7) Grade Group 2 38 (15.0) Grade Group 3 27 (10.7) Grade Group 4 31 (12.3) Grade Group 5 16 (6.3) Clinical Stage T1 142 (56.1) T2 81 (32.0) T3 or higher 10 (4.0) Unknown 20 (7.9) NCCN Risk Groups Low 90 (35.6) Intermediate Favorable 29 (11.5) Intermediate Unfavorable 39 (15.4) High 72 (28.5) Unknown 23 (9.1) Follow up time for Censored Patients (years) Median (Q1, Q3) 7.85 (5.48, 10.9)

[0195] We next assessed the ability of the genomic classifiers to predict the presence of lymph node involvement (LNI) upon final pathology at RP. As observed in the prospective cohorts, in the retrospective biopsy specimens both models had higher scores on average to predict patients with higher grade and stage disease (p<0.001) (FIGS. 7A-B). The AUC for predicting lymph node involvement (LNI) was 0.74 and 0.77 for DV1 and DV2 models respectively (FIG. 8). Similar results were obtained for the high-grade, extra-prostatic extension, seminal vesicle invasion (SVI) and a composite end-point (SVI or LNI). Using logistic regression, we found that every 0.1 increase in DV1 and DV2 model scores were associated with 18% and 40% increased odds of lymph node involvement at RP in MVA (Table 5). These data support the observation that there are many clinically lower grade patients at diagnosis that harbor high clinical-genomic risk disease which can be detected using the genomic classifiers described herein.

TABLE-US-00005 TABLE 5 Lymph Node Invasion. UVA/MVA Tables UVA MVA model variable OR CI p OR CI p Model 1 BX Grade Group 2 (ref: Grade 1.99 0.45-8.74 0.363 0.82 0.17-4.00 0.805 Group 1) BX Grade Group 3 (ref: Grade 5.27 1.41-19.75 0.014 2.53 0.60-10.65 0.206 Group 1) BX Grade Group 4 (ref: Grade 5.57 1.57-19.69 0.008 1.53 0.36-6.50 0.566 Group 1) BX Grade Group 5 (ref: Grade 18.04 4.76-68.43 <0.001 6.88 1.62-29.18 0.009 Group 1) Clinical Stage .gtoreq. T2 (ref: Clinical 6.38 2.45-16.61 <0.001 4.52 1.55-13.16 0.006 Stage < T2a) Decipher* 1.66 1.30-2.12 <0.001 1.43 1.10-1.88 0.009 Model 2 BX Grade Group 2 (ref: Grade 1.99 0.45-8.74 0.363 1.01 0.21-4.87 0.986 Group 1) BX Grade Group 3 (ref: Grade 5.27 1.41-19.75 0.014 2.71 0.64-11.43 0.174 Group 1) BX Grade Group 4 (ref: Grade 5.57 1.57-19.69 0.008 1.73 0.41-7.24 0.451 Group 1) BX Grade Group 5 (ref: Grade 18.04 4.76-68.43 <0.001 6.62 1.55-28.22 0.011 Group 1) Clinical Stage .gtoreq. T2 (ref: Clinical 6.38 2.45-16.61 <0.001 3.98 1.35-11.75 0.012 Stage < T2a) Decipher V2* 1.48 1.26-1.75 <0.001 1.28 1.06-1.54 0.010 Model 3 Partin Table 1.09 1.05-1.13 <0.001 1.08 1.04-1.13 <0.001 Decipher* 1.66 1.30-2.12 <0.001 1.57 1.22-2.04 0.001 Model 4 Partin Table 1.09 1.05-1.13 <0.001 1.08 1.04-1.12 <0.001 Decipher V2* 1.48 1.26-1.75 <0.001 1.42 1.19-1.69 <0.001 Model 5 Decipher + NCCN Low Reference Reference 1 -- Decipher + NCCN Intermediate 13.84 1.71-111.72 0.014 Decipher + NCCN High 48.47 6.20-379.22 <0.001 Model 6 Decipher + NCCN 2.37 1.68-3.33 <0.001 -- *Decipher and Decipher V2 reported per 0.1 unit increase

Prediction of Future Metastasis

[0196] Finally, we evaluated the models for their ability to prognosticate the development of postoperative metastasis and BCR. Both models were significant predictors of distant metastasis. The addition of the genomic classifier models to clinical risk factors increased the AUC for predicting metastasis for DV1 and DV2 respectively. Similar results were observed for the prostate-cancer specific mortality end-point. Multivariable analysis further demonstrated that the prognostic information in the GC models is independent of clinical risk factors.

[0197] These results showed that genomic classifiers of the present invention are useful for predicting presence of higher-grade disease in prostate cancer subjects. These results further showed that genomic classifiers of the present invention are useful for predicting metastasis in prostate cancer subjects. These results suggested that the methods and markers of the present invention would be useful for diagnosing, prognosing, determining the progression of cancer, or predicting benefit from therapy in a subject having prostate cancer. The results showed that the subtyping methods of the present invention may be used to determine a treatment for a subject with prostate cancer.

TABLE-US-00006 TABLE 6 Univariate Analysis of Target Genes coef exp. coef. se. coef. z Pr . . . z . . . AC020571.3 -1.018756 0.361043799 0.375053027 -2.716298565 0.006601635 ANO7 2.728934592 0.065288812 0.407289095 -6.700239767 2.08078E-11 ARL6IP1P2 0.211639304 1.235702092 0.157938082 1.340014397 0.180240664 ASPN 0.734576998 2.084600016 0.289962212 2.533354234 0.011297672 AZGP1 -1.081098477 0.339222692 0.227282585 -4.756626977 1.96854E-06 AZGP1P1 -1.259174028 0.283888413 0.447362548 -2.814661249 0.004882867 DEGS1 0.815286842 2.259823792 0.272577955 2.99102267 0.002780449 ERO1LB 1.958519505 7.088824322 0.431696059 4.536801915 5.71137E-06 FBXL8 -1.902271331 0.149229285 0.527510253 -3.606131483 0.000310796 FMO5 -1.562260035 0.209661693 0.801119597 -1.950095892 0.051164691 FTH1P2 0.940180631 2.560443872 0.276199928 3.403985792 0.000664102 FTH1P8 0.197938579 1.218887527 0.207877904 0.952186721 0.341002294 GLB1L2 -4.026340996 0.017839485 0.847895107 -4.748631004 2.04798E-06 GLB1L3 -5.550073036 0.003887173 1.064791391 -5.212357164 1.86456E-07 GLYATL1P3 -0.620320485 0.537772062 0.23410423 -2.649761971 0.00805485 GMNN 2.092700107 8.106774799 0.551073019 3.797500574 0.000146162 HIF3A 0.252313025 1.286998838 1.03815061 0.243040868 0.807973738 INHBA 2.684983887 14.65796519 0.765096464 3.509340344 0.00044922 KIAA1210 -1.02505771 0.35877576 0.853948067 -1.200374764 0.229993825 KRT15 -1.670025537 0.188242258 0.626029324 -2.66764746 0.007638436 LIPH -3.364385361 0.034583266 0.944887437 -3.56062027 0.00036998 LPAR3 -0.844270997 0.429870621 0.436019683 -1.936313953 0.052829261 LPGAT1 1.220418809 3.388606616 0.389461365 3.133606872 0.00172672 MIR4435-1HG -0.367725003 0.692307538 0.604570586 -0.608241637 0.543027223 MKI67 6.792362118 891.0157626 0.946815078 7.173905732 7.28861E-13 MLLT11 0.81044494 2.248908393 0.732562253 1.106315452 0.268590006 MYBPC1 -1.152171977 0.315949788 0.249798588 -4.612403886 3.98039E-06 NADK2 0.470137995 1.600215 0.636159807 0.739024991 0.459891822 NR4A1 -1.596285011 0.202647956 0.265223126 -6.01864941 1.75878E-09 NUSAP1 4.415561211 82.72825585 0.707849482 6.237994554 4.43216E-10 OR51A6P -1.959242252 0.140965197 0.66373524 -2.951843046 0.003158834 PABPC1 0.755077881 2.127777231 0.278842085 2.707905018 0.00677094 PART1 -2.421642916 0.088775647 0.651032126 -3.71969803 0.000199461 PCAT14 -0.397683215 0.671874834 0.089040775 -4.466304519 7.95823E-06 PGM5P4-AS1 -1.064105371 0.345036396 0.529431364 -2.009902402 0.044441519 PICK1 -3.052693795 0.047231521 0.94395319 -3.233946162 0.001220925 PTTG1 5.054760024 156.7669056 0.720961903 7.011133323 2.364E-12 R3HDM1 1.124121147 3.077510979 0.688704174 1.632226417 0.102631798 RNA5SP121 -0.159834272 0.852285025 0.28514785 -0.560531219 0.575117152 RP11-121G22.3 0.54826177 1.730242842 0.289930617 1.891010254 0.058622975 RP11-159H20.3 1.086933391 2.965167109 0.387286134 2.80653836 0.005007695 RP11-755O11.2 -2.21597345 0.10904731 0.708352751 -3.128347348 0.001757923 RP11-770G2.5 0.656284161 1.927616298 0.511472642 1.283126615 0.199447721 RP11-923I11.3 0.012186678 1.012261238 0.387323413 0.031463831 0.974899637 RP13-753N3.3 0.391755198 1.479575464 0.350940795 1.116299967 0.264293756 RPL31P57 -0.723295796 0.485150661 0.142803819 -5.064961152 4.08484E-07 SCIN -3.777998567 0.022868415 1.097206642 -3.443288093 0.000574687 SESN3 0.677784496 1.969509438 0.24823972 2.730362794 0.006326466 SETP14 0.630624885 1.878784237 0.289203892 2.180554631 0.029216374 SLC22A3 -2.210758134 0.109617512 0.47027084 -4.701031715 2.5885E-06 SMC4 5.768903761 320.1865391 0.88769243 6.498764174 8.09824E-11 TIPARP -2.217536636 0.108876982 0.550632508 -4.027253394 5.64322E-05 TMEM100 -2.882377174 0.056001479 1.005740682 -2.86592481 0.00415793 TNFRSF19 -2.416480569 0.089235122 0.696215197 -3.470881677 0.000518753 TOP2A 4.112985372 61.12893806 0.454912893 9.041259181 0 TPX2 5.182498017 178.1272206 0.647974958 7.997991208 1.22125E-15 TRIQK 1.167161854 3.212861116 0.384612581 3.034642943 0.002408206 VBP1 0.783207999 2.188481664 0.471928306 1.659591065 0.096996747 WFDC2 -1.140244348 0.319740884 0.746624189 -1.527199849 0.126711324 XPO6 0.374919547 1.454874361 0.425155032 0.881841962 0.377862276

TABLE-US-00007 TABLE 7 Target Sequences SEQ ID Affy NO. Gene Probeset ID Sequence 1 MLLT11 2358694 TCGCCAGGCATTTCGGGGCAAAACGAAGCGGAGCCCCCCAAA CCCCCAGACCTAACCAAGTTCAGAGATTCGCAGAAGCACGCC CCCCACCCCAAATTTATTGTGCTCTACCCAAAATGGAATAGGA CTAGGTTTATTTACCCATTGTGAGGGTAGAGAGGCGAGTCTGG AGGAGCAGGGATTGGGAGAAGGGGTGGAAAAATACTCTGATT CTTAAAAATACTTTGTAACCTAAAGTCCTTAAATTGTGGAAGAA AGGAATACTCCTCCTTTCCATTGTAGTCTAGAGTTAAGATTTCA AATCCATAAATTAGAGGACCTAAAATTAGAGGGCAATTAACTG CTCATTCATTGGGCCCCCAGTCAGCACGGGGGTGCTGGAAGA GATCGGGAATAATAGCGCAGACCAATGAGCCTAGGGAGATGC TTTCATCGTCTCTCCTTCCCTCAAGTGTTCTGGAACCTATCATT TGAATTAGCCGAGTCAGGCAGGAGGGGGCGGGGAATCCTTC CGCCCTTCTTAGGAGGGGCTGCATTGCAGGGGGAGAGTGAA CTGACAGACTCAGTCACTGAAGAGGGAAAAGGAGTGAGAAGA CAAAGCCGTCAAAGCCCCAACAGCTTTGTATTTCTCCAGCCCG GCGCAGA 2 MLLT11 2358695 GGGACCCTGTGAGTAGCCAGTACAGTTC 3 MLLT11 2358696 AGAACTGGATCTGTCGGAGCTGGAAGGCCTGGGTCTGTCAGA TACAGCCACCTACAAGGTCAAAGACAGCAGCGTTGGCAAAAT GATCGGGCAAGCA 4 MLLT11 2358697 GTGATGGCCTCCTTGAGTACAGCACCTTCAAC 5 MLLT11 2358698 TGGAGAGCTCCCATTGCCAGCATCCA 6 MLLT11 2358699 TCAAGCAATGGAGTACTGGGTCACAGGGATTCCTCCTTTCCCC CCCAAATATTAACTCCAGAAACTAGGCCTGACTGGGGACACCT GAGAGTAGTATAGTAGTGCAAAATGGAAGACTGATTTTTGACT CTATTATAATCAGCTTCAGAGATTCCTTAAACCTTCCTAATTTC CTGCTCCAGGGCAGTAAACACAAATATTTCTTCAAGGGGTGAT GAAAACCTCGGAAGTTTTAATTTGAGGTTATCTGCTACGAAAC AGTATTTCTAAAAGGCTAAAGTGATAAGTCTCTTGCTTTTTTTT GATCCTGCTCTTATATTCTTTTTTTTCCTCAGAGAAATCAGGAG GGTAGTTAGAGGTATAAAACAGGAGGAAATATTATGGAAAATG AAAATAGGGAAAATAATTGAATCATTTTAGAAGTAGCTAATTTC TTTTCTCAAAAGAGTGTCCCTTCTTCACACCTACTCACTTTACA ACTTTGCTCCTAACTGTGGGTTGAAAACTCTAGCTAAAGAAAG TTATCAAATCTTAACATGCATTCCTACTATTATGATAGTTTTTAA GGTTTCAATTCAATCTTCTGAACGGCATAAGTCCTATTTTA 7 DEGS1 2382361 GGGAGCGCGCCCAGCATCGCTTGGGCCTCCTCCACCCGCTC AGGAGGGGAAACAGGAGAGCCGGGAGCACAACAGCCTCGCG CGCCCGCCGCCGCCTCAGCCTTAGGGGAGGCCACTACGCCT CTGGTTACATTTCTTG 8 DEGS1 2382362 TAGTCAGGACAGGATAAACAGTCGCTATATTAAGACCATGTAC GTGTCCCTAGACCTAGTTCT 9 DEGS1 2382363 TCCGCCCACGCCTCCGTCTCCTCCGCGCTCCGCCACAGCCG GCCGACACCACACCAGCCGGGGAGCCGCCG 10 DEGS1 2382364 CTAGTCTGCAAGCCACCGCTGTCGCC 11 DEGS1 2382365 GACTTCGAGTGGGTCTACACCGACCAGCCGCA 12 DEGS1 2382366 GTGAGGGCCAGCGGGCGCCCCGTTAT 13 DEGS1 2382367 GGGCCCTGCGCGGTCGTGGGCGCCGGAGGCCC 14 DEGS1 2382368 CGGAGCCGCGCAGCTCCGACCCTTCCGCGAAGAGGCGCAGG CGCGTCCCCGAGCGCGGGAGTCCCCGCCAGGCCCACGCCG GCCGGTTGGGGCGAAGGGTGTCCCCGGCTGTGCCAGCCTTG AGTAGATCTTTTCGCTAGAAGATTCCTGTGCCCTCAGGTGGGC GCCCTTTCCTCTCACCACTCCCTCTCCTCCGGAGCGGGCC 15 DEGS1 2382369 TTGGGGCTGCCTGAGTGCTAGGCAGGGTGTGGTCCTGGGCAT CCTTGGGCCTACCAGCGAGCCCT 16 DEGS1 2382370 GGTCTCAGATGATGCGCCTGCCATGGCCTCCCAAAGTCCTGG GATTACAGGCGTGAGCCACCCTGCCAGGCCACATATGATATA TTTTATCAATGCCTTATCTACATGTTACATAGGAATAATCTAGC GTCCTACCTGTGTAAAAACCAACTCTGGAATACTGAAACTGAG CTACT 17 DEGS1 2382371 TTGATGAAACCTGATCCCAATTTGATATGGATTAT 18 DEGS1 2382372 TCTGGAAGTTATCAATACCGTGGCACAGGTCACTTTTGACATT TTAATTTATTACTTTTTGGGAATTAAATCCTTAGTCTACATGTTG GCAGCATCTTTACTTGGCCTGGGTTTG 19 DEGS1 2382373 TGGCCAGGCTAGTATTTTGTCAGTCCAAGCAGTTCATTAAAAA AAAAAAAAACAAAAAGAGCAAGAATATAAATACTGCATCTTCCA GCCTACTTTTACAAAGGGTTCACTCTTGGGTCCTTAAGCTTAG TGGT 20 DEGS1 2382374 CTGGAGTTTCCTGGATGGGTGCAGT 21 DEGS1 2382375 GCTGAATACTATGACAACCTCCCTCACTACAATTCCTGGATAA AAGTACTGTATGATTTTGTGATGGATGATACAATAAGTCCCTAC TCAAGAATGAAGAGGCACCAAAA 22 DEGS1 2382376 ATATCATTAGTGCCAAAGGGATTCTTCTC 23 DEGS1 2382377 AAGAGCTCGGTGATACCAAGAAGTGAATCTGGCTTTTAAACAG TCAGCCTGACTCTGTACTGCTCAGTTTCACTCACAGGAAACTT GTGACTTGTGTATTATCGTCATTGAGGATGTTTCACTCATGTCT GTCATTTTATAAGCATATCATTTAAAAAGCTTCTAAAAAGCTATT TCGCCAGGCACGG 24 DEGS1 2382378 AAGCTATTTCTAGTTTATTTCACTATAAAGTTTTGCTTTATTAAA AAGCTAATAAACAGCTATTAATCAC 25 DEGS1 2382379 CTATATAATATGGTAACTTGGGTACCGGGGGAACTTTAAAATTT CATCTCAAAAATAATTTTTAAAAAGCCTGAGGTATGATATAGCA TAAAAGATTGAGATGAAAATATATTTCCCTGTAAGCTGAATTAC TCATTTAAAAATTTTAACTTCTATATGGGACCCGAATTA 26 DEGS1 2382380 CTGCTGAATCCTGTACAGCCTTACTCATAAATAA 27 FTH1P2 2384397 ACTTTGCCAAATACTTTCTTCACCAATCTCATGAGGAGAGGGA ACATGCTGAGAAACTG 28 FTH1P2 2384398 GAAAAAAGTGTGAATCAGTCACTAC 29 FTH1P2 2384399 TACCTGAATAAGCAGGTGAAAGCCATCAAAGAAT 30 FTH1P2 2384400 TCTGGCTCGGCGGAATACCTCTTAGACAAGCA 31 LPAR3 2420617 TTCACGGGCCACCTAGACTTTCCAGTCTAGGACTAGAGCTGTA GCAATGATCTGTTGTGCTGTACAAGAAAAGAGAAAGAGGTGTT CATTTGAGAACAGATGTTTTTATACATCAGAGTAAAAGCTGTAT TGAAGAGCAGGCTGAATCCCTTCCATATAGAATGAAATATGAG CTTGACCCCAGTCCTTATCTTCAGTTACCTCCATACCAACTGG TGGCATGTTGGATTTAGCATGTAGAATAATTTCCCATCTCTTAT TTTTCCCAAGGTTAATGGCATCCTTCTGGTACCTGGCTTACAT GTGAACTGAATTT 32 LPAR3 2420618 TATATATATTCCTGTTTTTACTGATTTTTATTGATTTTGTTCAAA 33 LPAR3 2420619 TTACCTGTCTCTAACAAAGCCCATGTACAGTGTTATTTGAGGTC TCCATTAATCACTGCTAGATTTCTTTAAAAAATTTTTTTTCATAG TTTAAAAGCATGGGCAGTAAAGAGAGGACCTGCTGCATTTAGA GAAAGCACAGAAACGGGAGAGGTTCGGCGGGTCCCTGCTTGT CCTATGAACTGCTCAGAGCTCCTGTCAGTCCAGCTGGGCCTT CTGGGTTCTGGCACCATTTCGTAGCCATTCTCTTT 34 LPAR3 2420620 CAGTCTGCAATAAAAGCACTTCCTAA 35 LPAR3 2420621 GGTTCTGCTCCTCGACGGCCTGAACTGCAGGCAGTGTGGCGT GCAGCATGTGAAAAGGTGGTTCCTGCTGCTGGCGCTGCTCAA CTCCGTCGTGAACCCCATCATCTACTCCTACAAGGACGAGGA CATGTATGGCACCATGAAGAAGATGATCTGCTGCTTCTCTCAG GAGAACCCAGAGAGGCGTCCCTCTCGCATCCCCTCCACAGTC CTCAGCAGGAGTGACACAGGCAGCCAGTACATAGAGGATA 36 LPAR3 2420622 ATGGGAGAGCTCCAGTGGAGAAGGC 37 LPAR3 2420623 ATGGTGGATCGGCAGTACAGCACTGTTAGCGCAG 38 LPAR3 2420624 TCCATGCCAAATGTGATCTTGAACTTGA 39 LPAR3 2420625 TCAGCGTCAGGGAAACCTGGCAGCAGTTAATGAGGCCTGGCC ATGGCTGTAGGCCAGGTTGGGAATCAGGAAGGGTAGATGCAT CCTC 40 LPAR3 2420626 ACTGGGAGAACTAGTGAAGATGCTGAGGTGACACAGCAGACC CAGGTTGTTCTGGAGGCTCTACCTGAGTTTGCATGCAGCTTAG AAACTAAAACTGTGTCTTCTCAGTTGCATGGAGTGGACTCTCA GAAGGACATAGAGATTGTC 41 LPAR3 2420627 GACTCCTTATCACCAGGCTCGAGCACTAGCAGGAGGGACACT GGTGCTACGTGGCAGAGACCTTCTTCCAGTTATCTTAGCAACT GGTGGATCCCAGGGACTCCCCTTAGAGTTTCTACATTATTGGG CTTTCAGAACTGGACTCACCAATGAGTCAGGGAGACAGTGTTC CTGCTCTCTATCTGTGCTGAGTCTGCCTATCTGGGCCCATGAC AAGGCTTATGATA 42 LPAR3 2420628 ATGCAGGCCCAATTAAATAGGCCTGTGGCCAGTCTTCAGCCC ACAGCTGAACTGCCTCATCTGGCAAGAAAGAGCCCATGTAGG ATCTTGAGTGT 43 LPAR3 2420629 TGTGGCGGAAAGATCCCATTACCTCAAAGAATCAATACTGTTG AGAGATTTGACCAAGTTCACTTTGTAAATTACTGCAGCATTGTG GCTGCAGCTCTGGACCTTCTAGTTCCTGCTTCTTCTAGTGGGT CCCAACTTCTTGC 44 LPAR3 2420630 TTGTTTTCAGGGCAGGCCGTCAATCGGTGGGTGCAAAAATGC AGTTGCCACTCAGTTGCTGCCCCTACGCTGCTGTTTGACA 45 LPAR3 2420631 GAAGGCAAAGTAGCAGTAAGCAACGAAACGATAGCTCAAGTT CTCATGCTAGGAGGAAATGGGTGA 46 LPAR3 2420632 ATACAGCATGATAGAGACAAGGATTCCAAAATCCTAGGTGGAG AGAACAGGACCCTTTGTGAGACAGTCATGGTCACA 47 LPAR3 2420633 CCTCATCATGGTTGTGGTGTACCTGCGGATCTACGTGTACGTC AAGAGGAAAACCAACGTCTTGTCTCCGCATACAAGTGGGTCC ATCAGCCGCCGGAGGACACCCATGAAGCTAATG 48 LPAR3 2420634 ACACTGCTCATTTTGCTTGTCTGGGCCATCGCCATTTTTATGG GGGCGGTCCCCACACTGGGCTGGAATTGCCTCTGCAACATCT CTGCCTGCTCTTCCCTGGCCCCCATTTACAGCAGGAGTTACCT TGTTTTCTG 49 LPAR3 2420635 TTCTAATTCTCTGGTCATCGCGGCAGTGATCAAAAACAGAAAA TTTCATTTCCCCTTCTACTACCTGTTGGCTAATTTAGCTGCTGC CGATTTCTTCGCTGGAATTGCCTATGTATTCCTGATGTTTAACA CAGGCCCAGTTTCAAAAACTTTGACTGTCAACCGCTGGTTTCT CCGTCAGGGGCTTCTGGACAGTAGCTTGACTGCTTCCCTCAC CAACTTGCTGGTTATCGCCGTGGAGAGGCACATGTCAATCATG AGGATGCGGGTCCATA 50 LPAR3 2420636 ATGGACAATAAATTCTTAAGCAACAAAAGAAAATACTGGGTCA CAAGCAACTGGGTAGCTCTGATGGA 51 LPAR3 2420637 AGGAACTAGTTATCCTGTGGAGATCTGGACGTCTAACTATTTG GACAACACTTACATTGATTGTCACTATCATATAACTAAGAAAAT AGGTCATTTTGGCAAAAATTTTTTCTTTGTCTTTAGAATTTGAAA CTTTGAGGTTTTGATTTAATTACATATGACACTCCTCTTGTCTA AACCTTTCAATTGCATTTATCAACTACCACTCTTTTTTTTTTTAT CAGATCAGACCTATTTTAGATATCTTGCTGTTCTGCAAGATATT TGTTAGAACAGGCCTGCATATGTTTTCTATGAATGGAGACTGA ATTTAAAACATTAAAGTATGAGATTGTTTTTCATGTGTGTTCAC CGGAATCTGTTTAAGAAACTACAGCATGTTAACTCTCCATCTCA TTTTTCAGAAACACACGTGCACAGTGGAAGAAATGCACACACA GCATTGTAGCCAGGC 52 LPAR3 2420638 GGGCTCGGCGGCGCGGGTGAACGTGAGCG 53 LPAR3 2420639 CTGGAGAGGAGGCGCTCCGCCCGCCCGCCGCGTCCTCCGCT GCTTCTCCGCGCCCGGCTGGAGCCCGGCGCCCGGTCGCCCC GTCGCGCTCGACCCCGAGGGCATGCGGCA 54 FMO5 2433231 TTGGCAGTGCAATCAGCCTTTGCTAATGGGACTATTCCTTTTAA TCTGGTAGCTGCAGCTTCATACTCAGGAGCAAGTCTCTTG 55 FMO5 2433233 GTCTGAGAAATTGTCCCGGAATAAAGGGGCCTAAGGAGACAT AACATCTAAATGTAATGTAGTATCCTGGATGGACTCCTGCAAC AGAAAAAGAACTTTAAGTAAAAATTAAGGGAATATTAATAAAGT ATGCATTTTGGTTAATAATGTATCAATATTGGTTTATTAGTTGTG ACAAATGTACCAGAGGAATGTAAAATGTCAACAATAAAGGAAA TTGGATGTGGGGTACATGAGAATGCTGTACTATTTTTGCAACT TTTCTTAAATCTAAAACTCTTATAAAATTTAAAAATAAAAAGAAA TGTGGAGTTATTATTATTATTTTTTGGCTCAGGATTTGACCCAG AGCTATGGTCTGGCAGA 56 FMO5 2433234 CCAGTTTTTCTCATGTCGTAAAGTGTAGTTCTGAAAAACAGAG CAAATGAAATGCAAAGCAGGTACTTGGGTTTACATCCCAGTGC CACTGATGATTCTGTTTTCTCATCTGTGGAAGTTTCACTGTTCT TGTTTCATGGAGAAATTAACTAAGTGTCAGCTGTCAGGCACAC TGAACTCAGGTGATGTTCATTAATAGCTGTTGTACAATATGTTT

GTATTTGGATTGCTGCTTATTACTTAACAACAGGATAAACCTGA ACAATGGAAAAGACCAACATTAGAGAGTATTATCTTTCCAAATA CACACACCTGTAAGAGAACTGGAAATGTGAGAACTACAACTTC TTCTTATTTAAACATTTGAACAATTGCCGGCCCTTTCACCGAAT TTACCTGTGGAATGCCTTTTGAGAGTTAGAGAACTGAGAACTG GTATTACTTTTCAGGTCTTTTGCTTTCCCTAATCCTTGTGATAC TGGAGATTTATCATCTATTAAAATGGACCTAGTATTTTTAAATCT GCATATCAAAAGCAAATTGAATGTCTCTTGCTTCCTTTTAATTT CTTTTAACATATAAATTTCTCTTTTAGCATGTAAATTTGTTGAAT TAACAGCCCTTTGATAATATAATTCCTAGTTATCAGCAATAAGT ACACCAGTTTCTTTTTTAAATTAGGAGTATGTAATTCTAAATTAA TTGATTCTCTCATTGTACATATTATATGCAAGGTTACAAAAAAA AATCAATGGTTAATGATTTTTTAGCTCAACCAAGCTAAAAGATG TGAACAAGAAATTGAACTCAAAACAACTTAAGATACAAAGCTCT TGTTACTGATAATGTCTAATAATATTCATCAATTTACCATATCTT GCTCTTATATTAAAATGTTCTATCATTTTCCTAATTATTTTAAAG TCGATTACAAAAATATATATATATTCTTGTAGTGCCAGAAAATT GAATACATTAATAAATGGGGTAGAATAGATGAATCTCCCATGA AGAAGAATTCCAAATAATTTATGAACTCTGCCCTCAAGGATATG GAGCAGAACTTCCTACTTCTCTAGTGTGAGCTGAATAGTGACT TCCTTCCAAAAATTACATATGGAAAGGGGGAAAATAACTTTGTA GTGGAGAAATCTGATAAACACTATCTCGGCTAGGTTATCAAGA 57 FMO5 2433235 TCCTTGTGGTAATCCCTAGACTGGGAGCTCAGGTACTCTTTTA GTCATCTTTGTATGTCTTTAGCAGAGTTCTTGACATGTGGTAG GTGCTTAATAAATGTTTGTTGTTTATCAAATTTTATGGTAGGGA GAGTAAGTCAGCATCGGTATAAAATCGCTTACTCCACGTAACT CTTCTTCTGATAGGG 58 FMO5 2433236 TCTTTGCTATAATTATAGCTTACTTCTAG 59 FMO5 2433237 GTAGTTCTATGACTTCAACAATGACAATAG 60 FMO5 2433238 GCCAACGCCATACCATTCAGGGAGACTACATAGATACCATGG AAGAGCTTGCTGATTTGGTGGGGGTCAGGCCCAATCTGCTGT CTCTGGCCTTCACTGACCCCAAGCTGGCATTACACTTATTACT GGGACCCTGCACTCCAATCCACTATCGTGTACAGGGCCCTGG AAAGTGGGATGGGGCTCGAAAAGCTATCCTCA 61 FMO5 2433239 GATGGCAGAAATATCTAAAGCTCAAGAGGAAATTG 62 FMO5 2433240 GTCTAAAGACATTGCCCTCACAGAGTGA 63 FMO5 2433241 TTCACGGAGACAGCTGCCATATTTGAGGATGGCTCCAGGGAG GATGACATTGATGCTGTTATCTTTGCCACAGGCTATAGCTTTG ACTTTCCGTTTCTGGAAGATTCCGTCAAAGTGGTCAAAAACAA GATATCCCTGTATAAAAAGGTCTTCCCTCCTAACCTGGAAAGG CCAACTCTTGCAATCATAGGCTTGATTCAGCCCTTAGGAGCCA TTATGCCCATT 64 FMO5 2433242 AAACTATTGACCTGTGGCCTTATCATATCACACACAGAATATTA TTGTTACTTGAGAAATCATATATGCACTCCTCAAACAACACTCT TCCTTCACTCCTCCAACACTCTCCCTTTCAGTGCATCCAGGGT CCAACTTCAGATCTGATCTTGATCTGTGCCAACCTAGTATAAAT TAGACCTTTTCCAAACTTCATGCATAGACCAAGGGGAAGATTA 65 FMO5 2433243 TGGGAGTGCAGGGATAGTGGCCAAAGCACAAGAATAAGGACT CTTCACACTGGCTAATAGTAAAGCCACCTCTACCCATACATTA AGAA 66 FMO5 2433244 TCGTGTAGGGGACTACGGATATCCTGCTGATGTGTTGTTCTCT TCTCGACTTACACATTTTATATGGAAGATCTGTGGCCAATCATT A 67 FMO5 2433245 TTCAAAGGGCAGTACTTCCACAGTCGAGACTATAAGAACCCAG AGGGATTCACTGGAAAGAGAGTCATTATAATTGGCATTGGGAA TTCTGGAGGGGATCTGGCTGTAGAGATTAGCCAAACAGCCAA GC 68 FMO5 2433246 ATGAATGTCTTTGATGGAGTCATGGTTTGCACTGGCCATCACA CCAATGCTCATCTACCTCTGGA 69 FMO5 2433247 AAGGTCTCAGGACATATAGGGGTCAGGAGAAGAATAGGCATT TAGTGCATGGAGTGTCATAAAAGCACAGGAGAAGCCCAGGCT TTACTCAGGTGTTACAGTGCCTTAGGACCTGGACCAAGAGAC CTAGTGACTTGCACTTTTCTAGAAGAGGAGGGTACATTAGCCT GCCAACACTATGTTATTTTTTTCTGTCTTGTGGAAATTTTCTCAT TCTGACTACAGCCCCAAACAGTTCTTATTTGTGGAGTATGAAA ATCAAATATCCCTGCATGGGTCCTATTATGTGATA 70 FMO5 2433248 GAAAAGGAGCCCTATAGCTCAGTCACTTAT 71 FMO5 2433249 TGGGCCCGTAGAAGCACATAGTGTTTCCTTAACCTAAGTAGGG TAACCCATATTTATTATTTTTTATAAAGCTAAAAATCATAACACT ATCCTGTTTCACAGCCTCTTTCTTTATAGTTCTTTGTAAAATGG GTATTTATGGGAGCCAAAGGGAGATTCATTTATATAAAATGAG AGCCACTGAGGTGTTTTTCTACCCTA 72 FMO5 2433250 TGCACATGTATTTATCCTACCCAGGCAAAAACTCCATTCTTTGT CCTCCTTTGCTCCTCAAAAATATTCAAGGGACAGTCTCTCTTTC ATATATTTTGGCTGCAGATACAGGAAGCCACCTGGCAGAGTGT TTTCATTACCTTCATTTCACATTATTTGATTGCAATAAACAGATG AAGGGAAATGTTTTCCCCATTACAGAAGGGAACTGATAGGTAT GGGAACTTTAAAACTCTCTGGTTCCACAACTTGTCCATTACTG CTTAGCCCTTTTGTACTTTCTGAAGTACTTTCCAATATATTTGTT TACATGAACATCATAAAAACCCAGTAAAGTATAGCTCTTGGGT AGTTAACTCTGGTGTAGAGGGGAGAACATGGAATTGCAGAATA AAAACCTGAATTCTGGTGCTTGCCCTACCACTAACTAACTTAG ATGTTAGACAAGCAATTTCCTCAATTTCAATTTTTAAAAATTTTC TTGTTTGTAAAACAAGATGATTGTACCAGATCACTTCTGTGGTT CCTTCCTGCTCTAAAGTATTCTAGGACTTTTCTATAATTTCTGA TCACGACCATAAAAGAATTTTATGGTCAGATATTTCTGACAGCT GGCAAAAAGCCCAAACCTTCTGCCTTCTGATCATCCTGCTAAG 73 FMO5 2433251 AATTGTGTGGGTATCTTTGTGTTTGAAGTTGTTTGCCAA 74 FMO5 2433252 AGGAAGGGCCAGTATTTACAAATCAGTGATCATCAATACTTCT AAAGAGATGATGTGCTTCAGTGACTATCCAATCCCAGATCATT ATCCCAACTTCATGCATAATGCCCAGGTCCTGGAGTATTTCAG GATGTATGCCAAAGAATTTGACCTTCTAAAGTATATTCGATTTA 75 FMO5 2433253 GAGCGGGCTCTCTTCCATCAAGTGCTGCGTAGAAGAAGGCTT GGAACCTGTCTGCTTTGAAAGGACTGATGACATCGGAG 76 FMO5 2433254 GCGACACTAACAGGTGAAGATCTCGGGAGACC 77 FMO5 2433255 TGAGATCCGGTACCGCAGCAGAGCACTCTCAGCTCTGGGTCT TGCAGGCGCAGGGCTCCCCCATGCCAGCAGAAAGATTTCCTC TGGTGAAGAGGACCGTCGAATCTGTCCTCCTCAAGACACCTCT TGTACAGAATTTATTCGAATGCCACGGCCAAGGTCTTCCTTGA AA 78 FMO5 2433256 AGCCCACGTTTTATTCCCATCGAGGGAGGGAGAATGGGTGCC GCTGAGTGGGCGGGGGAGTGGTCCCTGAAAGGAGGTGGAGT GCTACAGCCCCTCCCCGTTGGCTCTCGCTGTTTGTCCGTTGTT GGTTTATACTAATTTGACAACAGCCGCCTGTTGAGTCTCCTCC AGATCGCAGCTGAAGGATCTGTTGAGCGCTTCAGGAAAGGC 79 FMO5 2433257 TCCGCCCACGGCAGGAGCGAAGGAAGGCCCTGGCGCGGGC GGGTAAACTGCCCACCGGGCGGCCCACCCGCTGCGCCCCCG GCCCGCAAGAGGCAGTCCCAATAGGTTGGCCCGCCTGGCCG AAGTCCGCCCGGAGCCCGCTCACCTGTCAGCC 80 FMO5 2433259 CTGTCCTTGGTGTATAATTCCTACAACTGGAACTGTTTGTGCAT CTTACTTAAATTTATCAGTTAATATTAGGTATTATGAGTTCCCCT TGGCCTTAACCCCTACTCTTATCAAAGAAACATGTTTAGAAAAT GAAGCTTATCTTCCACAGGACTTTAGGCATAAAATGTGATTA 81 FMO5 2433261 GCTGGTGAAAAGGAGTAGGTTTGGA 82 FMO5 2433263 GTAGTAGTATTCTAAGAATCGCGTGATGTTTTCTTA 83 FMO5 2433264 AATGTTGGATTAGATACTGAGGCTGTAGTCCCTGCTGTAACGG ACATGTTGGAAGCTGGTGTTCTAGATACTTACCTGGGAAAACA CTGGTCTATCAAACTCGCTGCTAATGCTGCAGTCACTGTACTT AGAGTGGGTCAGGTAATC 84 FMO5 2433265 GAAGTAATCTCTAAACTTTATGCAG 85 FMO5 2433266 ACTGGCAGAAATACTCTGGAGAAAACTCTGG 86 FMO5 2433267 AGAAGTTTGCTGAGGCGTTTGAAGCTATTCCC 87 FMO5 2433268 ATATGATGTTAGTGAAGCTAAACTCAAAATGGGATGTCTGAAG ACTCTGTAAAACAGT 88 FMO5 2433269 AAATAGCAGTGTACTCTTGTCCTTTTGATGGCATGATAACAGA AACTAAG 89 FMO5 2433271 GAGATACTCAGGTGGTGGTTTTTAAGCATGAAAAGGAAGATGG CATCATTTCTACCATAGTACTTCAGGGCTCTACAGACAATCTGA TGGATGACATAGAAAGGGCAGTAGATGATGGTGTTAATACTTT CAAAGTTCTTACAAGGGATAAACGTCTTGTACCCGGAGGTGGA GCAACAGAAATTGAATTAGCCAAACAGATCACATCA 90 FMO5 2433273 AATGAAGTATTTCTGGCCAAGCTTATTGTTCAGGCATGCGTAT CTATTTTTCCTGATTCTGGCCATTTCAAAGTTGATAACATCAGA GTTTGTAAAATTCT 91 FMO5 2433275 GTACAGCATATGGACGAAATGGAATGA 92 FMO5 2433277 AATTCTCTCTTTGACATGGGCTTTCTTTTTAAGAACCCAAGGCA TTGTTTTGTAGAGAGTCTCTAAATTTAGACTTGCATAATTTTTTT CCTTTATTATATTCAGGTTAAATGTTTTTGACACATATACTACAT AGGACATGTTGATCTTAGTGGGTCACATCAAGAACCACATTAT GTCAGTTTATCTCACAGTAATAATGCTAAATTTGACCACTTAGA TAAGGTGGTATAGATACCATCAAGTTTCTCCACTATAAAGATAT TTTTTCCCGTTGAAGTTAATCAGTGGGGTGA 93 FMO5 2433279 CACAGTGAGGAGGTCTATGCAAACCTACCCCAAAGGCTGAGG AAGCTGAGAGGCTGAAGAAAGAAGCTGACAGATTCAGTTTCTT AGAAACATTTCATAGGGACTTATGAACAGAAGCCATGTCTGTC TCAGGCAGTGGTGAGACAAGATGGTAGATCCCCATACCATTAT CTCCTGACCCAGGGATGATATACCACAGGGGAGGGGCACACA TACTTCAGAGCGAATGGGTAGGAGTTTGCCCTAAGGGTGGGA TTTACAGTAAGTACATACTATTAAACAACAGATTAACTGGAAAT CTCAGAGGTATTCCCGAAACCAGGGTTGATCAGAAGTCA 94 FMO5 2433281 CAGTTCTTTTTGCATGATACCCAACAACAAA 95 FMO5 2433283 GGACCCATGGCGAGAGCCATCTTTAATATCATTGGCTTGTCAA ATGGGCAGTTCTAAGGGAGCTTGGCCTTACCTGCTCTGGGGA ATTGCAGGTTGCCACATAACA 96 FMO5 2433285 CCCAACAGAGAATAGGGATACCTGCACATAGCCCTTCAGTGC CAGTGGCAAATATAGGGCTTCGTTTCATTACCTCAGTTGGCAA CATGGTGATTGGTGCTAATA 97 FMO5 2433287 TTCATTCTAGTATATAAAAAAGCAAATGACTGGGTGCAATGGC T 98 FMO5 2433289 CCAGGTATGCTGTAGAATATCCCTCAGTTGGGATTTATCTTATT TTTTTCTCATGGTTAAATTGGGGTTATGACTTTTGGGGAGGAAT ATTATAAGGTGCCATTCTCCTCACCTCCCATCAAGGGTACATA CTATCCACATTATACCCACTGTTTTTTTTTTTTTTTTTGGAAACT TAAAACTCATTTTATGTTATTATAAGTAAGAAATTAGCATTCAAT ATATGCCACAATATATCTTTGTTGAAGTGTAAGTTTGTTCCACT TTTCTATTTTTCATTTTCCAACTTTTATTTTAGGTTCGGGGGTAC ATATGAAAGTTTGTTACAAGGATAAATTGTATGGGGCTGGTAT AACTGCTAGCCATATGCAGAAGATTGACACTGGATCCCTTCCT TTTGCCATATATG 99 FMO5 2433291 AGCTCGATGGGATCCGCATCGTGTGCAATCACCACCAGCTGA GTCTTCTTGTTCTCCACCAAGGTGGTGATTGTGTTAACCCCTG CTGGAAAGACGGGTGGTGTCTCGATGGGGGTATCCCCTTTGC TAGCAGCTTTCTTCTCAGTCCAGGACAACAGTCTCTGCTTCTT CTCTTGTTTTGTCTCTGGTCTGTGCTTGTGGGCCCGCGTAAGC AGTCAGTAGCTGTT 100 FMO5 2433293 CGTCTGATTGCCTGAACTGCCCGTCAAGGAGGTGGCATGTGT TCATCATTCATTTATTATTTAATCAACATCGACTATCATGTGTCA GACACTCCGCTGGGCCCTGGGGGTTCTAGAAGTAAGACTTGT TCCGTGCCCTCCAGTGATTCACGATAAGATCAAACTGTTCTTG TTCGGTTTACCTAGTGATAAATTGATTTAGTCCCTGAAATCCCT TTCTTACTGCCTGTGACCTGTAGGCCAAAATTGGGAACCTCTG AATAGTAGTAAATTAAAATCACCAAAGACGTCATTGTGGCAGT GGGTATCTC 101 LPGAT1 2454486 GACCACTGGGTCTTGGGAATCAGTAGGGGCTGTATCCAGCAC ACCACTGCCCCATCCTTTTTTTCTTAACTATTAGTGTTGAATAA ACTTCTCATAGTTAATCTACTTGCTGAACTCAGGAAATTCCTAT CACTGACCCTGGCCAGGGCTTTAAAGGGTAGGAAAAGCATTA ATGTCAGTCCTACACAGCGAACTTTTGATTTAGAAGAATGTGA CAGAAAGAAAACATTTACTGAAATACATGGGAAGCTTGCATAT TTCTAAAGTTGTCTTTATACTTTTCATTTCTCAAAGCTAAGTAAA CTGTGGTATAGGCATCTCTAAGATGTTAGCATTTAAAACATCAA TTGTTTTATTGATGTTTAAACAATTGTTTAAATCCCACTGAAAAA TTTAAATATTAAAATATCTTGCACAGTCTACCAAATGAGTTAAAT CGTTACAGTCGTGTCTACCTCTTATTTTTCTATCTGTATTTAGG CTGCTGTTTTGGTGAGATTCTAATTTCTTTTTCCCCTGGAACTA CTTTCTGTGGAAGACAAGGAACAGACTGGGGACAGAGGCCTG AAAACAAATTGGAAGCACTCAGAGATCTATTGCTGACCAGCCC TATTCCTCATGAGTTG 102 LPGAT1 2454487 CTCCAGGGTGACAAATGCCAATAGATATGTGAGTTAATTTTTTT AAATATCTCCGTGAGTTGTAAATAGATGTGTATTTGATCTGCCC TATCCTTCTTTGATTCTTTAACATGTTCTCTCTCTTCTGTTTGCA AAATATGTTTGAAAGCATTGGTAGTGCTTTCCTTATCAGTAACT GGAGTTCTCCTGCTTGCACTAGAGAAGGTAAAGAGAGAATCA GTATTCTTATATGGCAATCTGGGGAAGCAGCAATATGCCACTG TACAAAACTGAAGAAAAGTTCCTAATTTGTACTTTGTGAAGGGA

GATGAAAGGACGTTTAAAGTATATATATTTTGTCAAGAGGAAA GAAGATAAAACTATGCCAGTTTTATATCAATAGCTTGTAGAAGC TCAGCTCTTCTTGGTCTTGGCTAGACTGCCTAGATTCCCACAG CAGACAAGGTTGAGAATCCATTGCTGGAATCTTGGTATTGATG AGTTACAGTGATGGAACATGTGCTTGGCCACAGGCAGGTCCA GTCACTGCAAAAGTGACCAAGCCAGCAGGTCACCCTTAACTTC AGAAACAATTATTGGTGGTGAACTGTACTTAAATTGCAGAGAA ACCTGTAAGTAATGGAAGGTAAAGAAAAATTACAGAATGGAAA ATAATATTTTGGGCAAGCAAACAAATTCACTGAGAATTCCAAAA GTATATTAAAAAAGAAGATAGCTATGAGTTCAGATCTATCTTAT TGGTCTTTAATATTACAACCAATCCTTAACTTTCCACTATAAAG GAAGGATTACTAGATTGATTACTTTCTGGATAGATAATCTGGTA ATAAATGATAGGTAAATCAAAAATTACTTTTATTTAGGAGTTTG AATTCTTACTCTCATCAGACATTTTTTTTCTAGGGACGCTTACT AATTAAATGATTTAAGTTGTTTCTTAGGGGTTTTTTGCCTATATA TTTATGACTGTGTTAATGAGTAGTGAAATGATGCGGAAAGACA GCTATCAGGAAGAGGAAATACAGAAGCCTGAATAATCTATGGG TTAGAAAAGCATCCCTGAATAATCAAAAATTGGCAGTATTGGC ATTGTTCTCAAGCCTTTTTATGAAAATGAAATCTGAAATCACCA AATGTAAACCTGGGAACATTATTCTAGTGTTGCTGTCTTGGATT CATGTTAAGAAGCGTCTTCATTCTTTGCTCATGTTGCCCACTTC TTGTGGATTTGTCTGAGTGTTTTTTGACAATCACTTCCTTAAAG ACTCTTCTGAACTAGTTGGACCTGGTTAATC 103 LPGAT1 2454488 GGTCACCGTAGGAGTTCAGACTTTCTTTCATAAGTGTGCATTA TTTTACATGTGCAAATCAGAATATATTTAAAAAAAAGCAAAAGA AATTCAATGGATGGATTAATATTTATCCCCCTTTGGGATATTTT AAAATCTACTAAAATGAGGATTAGTAATATAATGACCTGCTAAT ATATTTTAAGAACATGTTTTAAAAAGATACACTCTATCACATATT TAAGCAAACATCACATTTGGAGAAGAGGAAATCATAAAATCAT CCTAGAAGACTATCTGAGAGAAATTCTGTTGCCACCAGTTATA CTTGACAATTTAGTTGAAGCTCAGAAAGTTATATTCATCCCTCT TAGCTGTAGTCTATATTAGGGCAGTTCTCTAGAACGCCCACAT TTCCACCAACTCAGTAAACTTGAGGGGAGCTGGTTGGCACCT CGTGAAGAACTCTTTCCCTGTCGTTTGCAGTAACAAACTCCAG TCTGTTGCAGTAACAAACTCCAGTCTGTTGCAGTAACAAACTC TAGAATATTGACATTCTCTGTGGGGGAAAAGCAGTGTCCACTG GACCCCTTCTGGTACTGGATGTGTTCTTTACAAAGGCTAGCTC AGTCCAACACTGTGTTTACATACACTCGTGCTTTTCCTTATCTG ACTTCTCATTTTGTATCAGAGGCATATCATAAATTGATAATTTTG CAAAATGCACTTTTTTGAGATGCAGATATAGCAAAGGATTAGTA ATATAGCCTGAAAACAAATGGGAGCATAGCAGTGTGTGAGGTT CTCGAGAACTGTCTTGTCTCTGTGTGTTTATTTGCCTGCCAGT GCTCTCCAGCGCCATCCTGCCCTGGACACCACCCTGACGTGA TGCCTCTATTGCAGCTCAGAGGCTTTATTTTTTCCATTTTGACA TTGGCACTAAATGCATTTGGGGATGGTTAAAACAAATTACTATA GAACATTTAAATGATCAGTTTAAGGGGAAATAGGCTAGTTTATA GAAAAATAAGAGCTAGTGGCTTATAATGGTGACAGGTTCTCAT GTGGCACCCCTAGGACCTGTGCAGACAGTAGTCTGTTGAATC ATTACATCAAGGAGCTGCCCCTGTCAGGGTGAGTGTAATTAG GAACGATACCAGCACATAAGGCTCCCCCCAATCTCTTCCAGTT GCTTTTTCTTTTTTCTTTTTTTTTTAGACAGGTCTTACTCTGTCA CCCAGGCTGTAGTGCAGTGGCATAATCTCAGCTCACTGCAGT CTCTGCCTCCCGGGTTCGAGCGATTCTCCTGCCTCAGCCTCC CGAGTAGCTGGGACTACAGGCACCCACCATCATGCTTGGCTA ATTTTTGTATTTTTAGTAGAGATGGGGTTTCACCATGTTGGCCA GGCTGGCCTCGAACTCCTGACCTCAGGTGATCTGCCCACCTC GGCTTCCTAAAGTGCTGGGATTGCAGGCGTGAGCCACCACGC CCGGCCTCCAGTTGCTTTTGAAGAGGGTAAAGTCAAGTTTCTA TTTCTAGAAAACATTTTTTAGAAATTTGTTGCGATGTTTGTACAA TTTACCTCATAAGAGAACCACACCCTTCTCCAAAAGTGCTGGT ACTGCATCAGTGAGATGAGTAGGGTTTTTGTTTGGGATTGTAA GACTATTAAGATCCTAGTAAGTCAGTGGTAGTTTACTGTGATGT GAGCATTGTAGATTCCCCCGTTGTCACTAATCACACAACAATTT TGAGAAGTAGGCTATAAAACAAAAAAAGGTTGCTGTTTTCTATT TTTAAATAAACCAAAAAAAAACAGAAAAGATGTGAATTTTCCCC AGTTATGTGGGAAAGGTAAAGCAACACCAAATAAAAGCCCACA GCAGCTTCATCTTTACGATAACTCAGTGCATATGTGAAAGAGA ATGATGCATTAACTGAAATACCTCATTGAATATTATACTACTAC TGGTAAAATGCAGAAGACAGTGTTAATGTGTTTGGTTTGGGGA CTGGTTGTTATAAAATGCAATTTTTTTTTAAATCTAAGCATTTCA TTATGTGTTCTACAGTGTCGGTGAATAAATGAAACCAATCTCAA TTTAGAGGTATGGATGATGACAGAAAGCCCAATAGAAGCTTAA TGATGCTTCTGTTTGAGGCCCAGCAAGCACCACTAAATTACTG GATGAAATGAAATTGTTCACTTGAGGGATTAGTCAACCATCTG GGGGAGAAGTTGCTCACTGTCAAATACAGCATGCACGGTCCT AGCTGATAGACCTTTTCCTCATTGCTACAGCAAGCCACAGGGT AGAGTGACCAGTTCTCCTATCCAAAAATAAATGCGAACATGCA TACATAAATGTGGCTGAGGGCCACTTTTGCCATCACTGTGC 104 LPGAT1 2454489 GTACAACATCATTCAGTATTTTTACCATTGCCTGTTTT 105 LPGAT1 2454490 GACCCTCAGCAACTTGTGGATATTTCTCATACAGTCTTTTGCAT TTTTGTCAGGCTATATGTG 106 LPGAT1 2454491 TTCCAATTAAAGATGTACCCCTGGAGACTGATGACCTTACCAC TTGGCTCTATCAG 107 LPGAT1 2454492 CTAATGGACCTGAACTCTTGAAAGATAAAGACTAAAGCAAACA CAAGAAGGTGACATGGAGGACCAGACTATACAGGGCAAGGTC TGCTTCTAGAATTCCTAATAGTACATGGGGGTTCATTAACCTTT TTCTCTCCTCTTGTGAATGTTTAAAAATTTCCATTATAATTTAAA AAACTTATTATAAACATAAGATATTGTAGCAATAATACAATAATA GCATACTATAAAAAAGACTGAGAACAATAGGAGCTCTTTA 108 LPGAT1 2454493 CAAGGTCACGCAACTGGCAAGTGGTAGAGTCAGGATTCAACC CCAGGCAGTCTGCCCAATAGCTTTTTTTTTTTTTGAGACAGAAT TTTACTCTTGTTGCCCAGGCTGGAGTACAGTGGTACGATCTCG GCTCACTGCAACCTCCGCCTTCCAGTTTCAAGCTATTCTGCCT CAGCCTCCCGAGTAGCTAGGATTACAGGCACCTGCCACCACA TCTGGCTAATTTTTGTATTTTTAGTAGAGACGAGGTTTCACCAT GTTGGCCAGGCTGGTCTCGAGCTCCTGACCTCGTGATCTGCC CACCTCAGCCTCCCAAAGTCCTGGGATTACAGGTGTGAGCCA CCGCACCTGGCGTGATAGTTTGTATGCTTAATCACTAGGCCAC ACTG 109 LPGAT1 2454494 GAGGAGATGTAAGCCTAGCATTATATG 110 LPGAT1 2454495 GGCCCTAATTGGTTATGAGCCCATTGCTACACCCCAATACTTG TCATGAAGAGAATGATATATGATGACAGGTCTGACATGGGTTT TTAATGAGAAGGGTGCCAAGACTACCAGAATTGGCTGAGTGAT AATAGATTGGCAGACATTTGCTTGGGATAAATTTATTTTGTTTT TTAAAGAAAAGCTAGATAATCCTTTCCCTTGGTGAGAGGATTC CTGC 111 LPGAT1 2454496 TGTTTGTCAGCTCACATTTTGGAGTCTTGACGTAAAAATTCAAA TGCTCCAACTCCAGTATAGGGGGTGCCAGCTGCTAAGTATTAT TTTACATTTTTTTTGAAAGTGTAATTTCATCTAGTGCTTTTAAAT CTGACTATGGATTTTGGTAGTATATTCTCTATTTAAGAGCACAT TCTGAATTACTGATAATAAGAATGTTCATTTCTTGAAAATTAGG AGCTAGTTTTTCATTTGGGTAGCTATTGGTATTGTAAAGGTTTA TTTCTGGTGTATATGTATTTACTTATTTAAATCCCACAAGCACT CCTCTGATTTGATTTCAAGAGGACTGGTATTCAATGTATTTAAT CCTTTGCCATATTAGGGGATTAGTCATTTTAATATTTTAATCCTA TGGTGACCAATCAGAGTAATA 112 LPGAT1 2454497 GCCTTTTAGCCTTACTATGTTTCCATGTGAAAGACCTCAACCC GTGGCAACTACCAAGGACA 113 LPGAT1 2454498 ACAGCAAATCAAAAGGCCTCCAGTGGATAATAGATACAACGAT AGCTTATCCCAAAGCTGAACCTATAGATATTCA 114 LPGAT1 2454499 CAGAGATCGAAAATGGATTGTTTTGTTTCCAGAAGGGGGCTTC CTCAGGAAGAGGCGAGAAACAAGTCAGGCATTTGCCAAGAAA AATAACTTGCCATTTCTTACAAATGTTACTCTGCCAAGGTCTGG GGCAACAAAA 115 LPGAT1 2454500 TCTTGAGAACTTAATAGCTATCTTAATCATAATCAGTTCACTTC AGCAAACTGACTAACAAAATGTCTTACATGTTTTGCATTTGGGA TACATTTGATCTAAAGACTGAAAGCATACTAATTATTTTGAGGA GTTTCTGTAATTTTGTTGGCTG 116 LPGAT1 2454501 GAGAAGGCAGCGGAACCAACAATTAGAAAGCTTAGCAGTCTC AGGGATCCGAAAAGCTAGCTGAGCACCTTACCTCATTTCCAGC TTTAGGAAATAATTGAATTTACAGTGTAGTGTAACAGTTGATTC TAATGATGATCATCAGGCATCAAGAAGAGGGGC 117 LPGAT1 2454502 GATGTGGTTGATGGATCATATTTTT 118 LPGAT1 2454503 TTCTCTATGCTGATAGGCAGTCTGCACTAAGTTGAGCATAAAT ATGGTGACCTCCTGGGAGCAGTGAACAACTAGGTCACACAAG AAGGGTGAACC 119 LPGAT1 2454504 CGAGGCCATCCAGGACAACAGGGTGAA 120 LPGAT1 2454505 GCAACAGGAGATGTGTGCACACTGAT 121 LPGAT1 2454506 ACACAGTAGGCATAGGGCTCTTTTAGTTACTAGTGATTCCAAA AGTGACTTTAATCCCATTACTCAGGATCTCTATGGTACTGTCAA TTAGATCTTCCTCATTTTTGCAACATGTTTACGTAGCATTAATG ATATTATTGTTTCATAAGTGAGAAAATGAAGACACAGAAGGATA AAATAGTTTGTTGCATCAGCTTGCGGGCATAATAAGCAACCTT TCTTCTCTCTGTTAATTCTGTTTTGTAGGCCAGTATAATGGCTT TAGTGTCACTGTTGTTAAGGAGTTTTTGATGGGTTGTTTCTATT TTCTTTTTGAGATGTGAACTGTCCAGATTAATTCTAATCTATAA CTTTTGGGAAAAGTATATTGATATACATGTTAGAATGTGTGTGT GTATGTGTGTGTGTTGTGTGTATGTAGTAGATGATAACCTTTAG CTTTGGTTTTCAATAAGAATTTTAAAATTTATTACAATTAGAAAA TTTTTCCTCCAGTTTTTATTCAGTTGTCCTTTTTCCCTTTGGAAA TAGTGGACCTGACCCAATTCTTTTTTGAGAATTCATTTCATAGA GCAGCGTGTTAGAATATTTTTGTTCTTCTAATCAAGTGCAGTGT AAGAACTGTAGACATCCATAATTTCTTTTCTATCCCTTGGTTAA GATATTAGCTTTATTACTATATTTACTGGTCCTGGAATAGCAAG GCATAATCTGAGGAGCATAGCTACTTCATCTGTGTAATAAATT GCTCTTTCACTACAAACATTTTAATACTGATTTTGTTGGTCATTT AACTTTCTAATAGTGGTCCTTAAATTATGCTCTAAAAGAAGAAT ACCATATATATTGGAAATTAAATTTGTTGTTGAATAAAATTAGAA TTATTATAAAATTCAACACGACCTTATTGCTACCTCAGGA 122 LPGAT1 2454507 CCTACTTCCTAACTATGTAAGTTTGAAAACAGTGCTTAACCTTT TGTGCCTCATTTTCCTCATTTGCATATTGGGGATGATACTATCT GCATATTTGGAATTTTGTGAAGATTAAATCAGAAAATAATGTAA ATTATTTTCTATTACTAAGTACTAGTGCATGGCACATAATAAAC ATTCCATAAATGTTAGCTATTAAGATTATTATTTATATATCTATTT AATAATATCTGCTACTATTATTATTTTAGTTATGTAACCCCTCCA AAAGCTACCTCTTGAGCCTTGCTTTCTCAAATTTTAACCTCTTA AAATTTAAGAGTCAAAGGGACACTGACCATGATTTCCTAGTGT GTACAATG 123 LPGAT1 2454508 CCTTGTTTCAAGCTGGAAGTGGGGATAACATAGAGCCCTTCAC ACATCTGCTTTTCTCATCCCCTTCAACTGTCTGTTCTTGTTTTA AGAGTGAGAGATTAAAATGTTGATTTGTAGCCAAGCAAGTGGC TGTGGCTTATCAACATTGAGCCTCACTGTAGGGTAATCTTATT GGAATATTTCACTGGGGAACCCCAAATGTCAGTATTTTTAGGT CTTTCCTCTTGAGGTGATCAAATTCCCTA 124 LPGAT1 2454509 GGTGAAGTGTCCAAGTCTTTTCTTAATTTTTTTAATTGGGTAGT TTGTTCTCTTAATGCTGAGTTTTGAGAGGTTTTTTTTTTTTTTTT GAGACGGAGTTTCGCCCTTGTTGCGCAGACTGGAGTGCAATG GCGTGATCTCAGCTCACTGCAATTTCCACAACCCTGCCCGGG TTCAAGTGATTCTCCTGCCTCAGCCTCCTGAGTAGCTGGGATT ACAGGCATGTGCCACCACACCCGGCTAATTTTGTATTTTTAGT AGAGACGGGGTTTCTCCATGTTGGTCAGGCTGGTCTCGAACT CCCGACCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGC TGGGATTACAGGCGTGAGTTTTCTATATACTTGGGATATAAAC CCTTTGTTGGATATGTGATTGCATATTATTTTCTCTCATTTTATT CTCTTAACAGTGTCTTTTCCTCATTAAAATGTTTACATTTTGATA AAGTCTAATTTATTGATTTTTTTAAAAAAATTGGGCAGCCCCCA AGCCAGAATAGGTTGAGAGAGACTCCCCAGTTCATTGATGTTA TTTTCTTTTATGGCTTGTGTTTTTCATGTCATGTCTAAGAGTACT TTGCCCA 125 LPGAT1 2454510 GGTCTGATTTGTTACCTGATGCTCACAGAGTACT 126 LPGAT1 2454511 TTTCTTTAGTAGGAAGTGCTGTACAGATATCTCACGTTGAGGA AATGCTTTATATTGCCTTTGTCTTAATATTTCAAGGGCAAACCA AAAGAGATACTAGCTTAACTAATGATCCACTTCTGCATGCTTTA TTTGGATCTAGGATAAATCAGTACCCCACCCCCCGGAGTTTAA GTGATGATTGGTA 127 LPGAT1 2454512 CATTTTATCCACACACGCAAGAGAAG 128 LPGAT1 2454513 GTAAGAGTGAGAACACTTTTCTTTAA 129 LPGAT1 2454514 AGGTTTGCCTTCATGGTCGTCAACAACCTGGTTGCTATTCCAT CCTACATCTGCTATGTAATTATACTTCAGCCCCTTCGAGTGCT GGACAGTAAGCGGTTCTGGTATATCGAAGGAATCATGTATAAA TGGCTTTTAGGAATGGTAGCTTCCTGGGGATGGTATGCTGGAT ATAC 130 LPGAT1 2454515 CCTTGCCCTCTGGTCGGAAATCTCATTCTCTTCATCCCCAGTT CCTTGGCTTTTACCTCTTTCTGGCTTTTGCTCCCTTCCCCCTAC TCCTGTCCTTCCTCTTTTTCGCATTATAACCCCCTACTTTCTTC CTCTCACCTTGTAAGCTTTTTTTCTAGGCCCCCCATTTTTTTTC TTAAAAAAAAAAGGGAAACAAAAACCCTATTGCTACAAATGAG AATTTTGAGGGTAACTCTTCGCTAGAGCCAGAGACCTTTTAAA GGAATGCATCGGTGTGCAGGAATCGTGGTGGTGAGGAGACTG AGGTCCTCAGTATCTGGGAAATCTTATTGAGGGGACCCTGTTT CGGTCATGTCACTTGTGTCTTCAGTTTGGAGATCCTGAGGTTG TCTGAAGCGAGTGGATCTATTTTTCTAAGTCCAATAGACGACC GCAGTGAGACACGGTGCGGGGACGGCCACCGATTACTGAAT GGGAATTGTGTTATCATTTGCTAAATATATTGTGACATACTTCG TGCCTCGGTGAACAGCTC 131 LPGAT1 2454516 CAGCCGCGAGGGGAGTAGGGCGCCAGCGCGCCCGCTCGCG CAGCGCCTCGGGCCGCTTGGGCCGCCACCGCGTCCATGACC GCGACCCCTCGGCGGG 132 LPGAT1 2454517 CCTTGGGGACCGAGTCTCGGCGCCGCCGGGGAACGGGCGC GGGCCGCGCCACAGCCGGAGCGGGGCAGGGCCCCGCCACC GCCTTCTTCCGCCGGCCCCGCCGCCGGCCATGCATTCTTCCG

GCTCCTCT 133 LPGAT1 2454524 TGAGGCCAGTAAGCCCAAGAACTTAAATGAACATTCTTATACT TTAGTTTGCATTCTCAGAGCTGGGGAACTGTCTGTAGGCACAG AAGATGGAAAAGGGATTTTCTGGTCTGTTTCTGACTTTAAGTTA CACATTTTAAAAAGTACTCTGAAGACACTGGGGTTTGTTCATCC CCGGCTTGCTACTAAAGTAGTAATG 134 LPGAT1 2454525 TGCCAAAGGAATTCTGCTCAGCAGATTAAGTATGTTCATGTTTT AGAATAAAAATTGCCAAAACTTTGTTGAGAAACCACTTATGAG GAAACCTTAAATACTAATTAGGAAGCTAAAAATTGAATATTGGT ATATTGGTATAGAATGAATATATATATATATATATATCTTTTTCC AAATTATGACATTCCGTGTAATATGAGTGAATTACTCAGCTCTG CTGATGAGGACTTATGTTG 135 ERO1LB 2462330 CTATGCAATCCTCGAACTCAGTGTGCTTTTCCCTGACAGGATA TATAAAAAGGTAGATTAGGTCAACCCTCCTTTAAGCTTACTCTC CCCTCACCTTTTCTTTTCACTGTATATAAACGGTACTTTCTGTG ATTCATACCAACAGAGGACTTTCTGTGATTCATACCAACAGTC CTAAACTGTCATTTTCTAAATCTGGGATTTAAAATCTTTAGACA ATATTTAAAATCTTGATTTTTTTTAAATGTCAGCAGATACAATTT GGAAGATTGCATCTGTGTAGAAGTAATGCAGGTACAAGATCTA GAGTTTTTCCTTAGACTCTTTAGTCTTTTCTGAATTAAAGAATAA GTGCTCTTAAATCCATATTTTATCCTGTCAAAGTCTGAAATGTG TTCATTGATGATTTGGTGACATCTAAAAAATTGTATTTAGTTGG CTTGGCTCACCCCTCTTAAAAATACTTAGCCATCTCTTGGTGG GATGTGGTGGGGGTATTAAGGTCTCAGAGTTATTTATTTTCTC ACCTAATTTCAAACCTTTATAAACTTGGGGTTTTGTTGTTGATG GTGGTAGTATTTTTTGTTAAGTTGTTTAAAAGGCTGACTTGATT GGAGCCTCCTCTACTTTTTCTTGAGGGTTGCAAGTATTGTATG GTGGGGGAGGGGGGCCTTAAGGCAAACTGTCTAAAAAGTGAC TATCCAATTAATTTAACTAGTAAATTAGTAAGAATTATTCTTAGT ATTCACTCAGAGTTTAAGATGTGAAAAATCTGCACTTTGTTTAT CACTCTAAATGTAAAGAACTTTTTGATAGTGTTATTTCACCACT CCCTCAGTTAAAGGCTATTATTTAAACTGTTTACTGGAGAAAAT CCTCGCTCATGTCCATTTATTGTTTTTTTCTGTACTGTGATTTGT TTCAAGCTTAGGAAAACTAGTATATTAGAGTATGTTCTAGGAAA TTAAAAGATCTGGTTAGAGTAAAAAGTTCTTTTTAAGGTTCTTA ACTAATTTTTTCACAACTAAGAAAATAAATGAAGTATTCTTAGG CTGAAATTCATCTTATTTTATCATAAATTAGATTGTAGGGGCAG CCTACATTTTTGTGTATGTGTTTTTATTTCTTAAATGATTGTGTG AGCCTGGTGACATTTTATGGTTCTTGTGATCTAAACTGTTTTTC CAATTCACATCTTTTGTCGTGAAGTGATATTATACTAGAGTACT GTTTGCATTGTAAAAATGCTTTGCTGGTGCTCTGGCATTTTGTC TTTATCTCATCACCTAATTTAAAAACCCAGCACTTGATAATATA ACTGACAGAAATGATTGTACCCACTGATGAAGTAATGAAAATG AAGAAAAGGAAAATATTCCTTCCTTCAATGGCGTAAGTTTATTT TTTACTTAAGTGGCATCTATGTAAGTTAGACAAACTATATATTA AAATTGGTAAACTTTGAATGTTTCTCCTGTTTTGATTCTTAGATT ATGAGGAGGATCAGACAGAATAAGACTCCACACTTTTGAAATT TGATAAGTCAAAACGTTTTATTTTGACATTTTTAACATTGTGAAT TATTCGATATTTGTAATCTCTGTATGTATATGAAACTCTGCCAT GTTTTTCAACTTTGCCTATGTGCCACTGTA 136 ERO1LB 2462331 CTAGGGAACAAATGTTGCTCAGGGCTGGTGTCAGTGAGAAAA ATTTATCAATGCTTTTTAATGTGTTTTTACCCTTGCCTCACTGTG TGTGTGTCACTTTCTATAATATAAAGAAATACTATAATATTTCTA GAATCTGGAACTGTCACCATGATGAATGGCCCTTTCAATGCAT AGTTACAGAAATTCCTGAAGATTCCCCAGGACTTCAATTTCATT GGTTTTTATTTGCAGTTTTTAGTTGCTGTAATTGTTGCTGTTTC CAGTCTAAAGGACCTC 137 ERO1LB 2462332 AGAGACATAAAGTGACTGTGGAAAGCCTTTTAATTATGGACAT TCATCAGAAAGACACTAATCTGACTTCAAGAATTCTGAACTATT AA 138 ERO1LB 2462333 TTTAAAGTCTTATTACAACACAGTA 139 ERO1LB 2462334 GTACTAACTTAGAGAGGCCTTAATGCTGACAAGTCAGTTTCTC TACAGGTCATAGGAAAAACTAAGTTTCCAATTGCCAGTGTTTTT CAGTTTGCTGCCTTAATTTTGTAAGGGAGATATTCTTCTAATAT TCTTTTTGCTTGGCTATAACTTGTTCAACTACAATAGCAGGAGT AAGGAATGTGTGATTGAGAAGGTGATAAAAGAAAATTAAAACC TTCATCTGCTCCTTATTTTTCTTAAATTTTCATTACTATTTTTTTC TTTTCTCACCTTTTTCCTGCACTATGCTCTTTATTTCTGAAGCTC AGAGGTCATTTTTCTTTCACTCATTTCTACATGATTTACTTCTGT ATAGAGACATATAATTTGCTTGCTTGTTTATATCACCAGTGG 140 ERO1LB 2462335 AGGAACTGCCCTGAAGATATTATTCTCTGAAAAAGAAATCCAA AAGCTTCCAGAGAATAGTCCATCTAAAGGCTTCCAACTCACCC GACAGGAAATAGTTGCTCT 141 ERO1LB 2462336 TGTGTCTATGTTTCTATTGATACAATACCAGATTCATTTGTGAA GTTGGTGGTCATTACGAACCGAGTATATCCGTATTTTACATATG 142 ERO1LB 2462337 ACATTTCAAGAATATCTCCCGTATAATGGACTGTGTTG 143 ERO1LB 2462338 GTCCTTTCCCATGCACTTTGATGAGAAATCCATGTTTGCAGGT GACAAAAAAGGGGCCAAG 144 ERO1LB 2462339 TTTATACTTGATTGAGCTTCGAGCTTTGTCAAAGGTGGCTCCAT ATTTTGAGCGCTCAATTGTCGATCTTTACACTGGAAATGCAGA AGAAGATGCTGACACAAAAACTCTTCTAC 145 ERO1LB 2462340 GGAGAAAAGAGTCTTCTATAAGCTTATATCGGGACTTCATGCT AGCATCAATTTACATCTATGCGCAAATTATCTTTTGG 146 ERO1LB 2462341 TGTCATATACTTTTAGGGAGGAAGCTACAAAATAAAATTCAATT TCTTTTGGTCCCCATCCATGACAATTTGAATATTCTAGCAAGAA TTCCCAATTAGGGAACGAGAACTCAAAAGAATTATTTTTTCTAG TTAGAGGCCACGTGCTTC 147 ERO1LB 2462342 AGCATATTTTTGTAAGGTCTAGGATTT 148 ERO1LB 2462343 GAGAATCATTCTACACATGGCTAGAAG 149 ERO1LB 2462344 AGAGGCCATATTTTTTAGTACGTTGGGTACTAGACTTTTCCTGT TGGCACTTGAGGTGTTTTGAATCACAAGTGATATAATGATAAAT GATCCTTACTATATGTTGAATGAATTAATTTGTTAGACGTTTTCA TTTTTGTACAAAGTATGAAGACTCTCAGGAGGCAAAGTAATTC CCCACCGTCTAGTTTATCCCTAGACTCCTTACTCAGCTCATCT GAGTGTTCGGTTTTTC 150 ERO1LB 2462345 TTTGTTTGTTTCAAGTGTGGAGGAAATTTTTTGTAACAATCAGA ATTTGATTTTTCCTTTATGGAATTCAAAAGAAAGTATTCCTG 151 ERO1LB 2462346 CCTGGCCAAAATGTGCAAATCTTATACTCTTTGACCTGTATTCT GATTAAGAGGACTCATTTGCAGGGCGTCTACTCAGTGACCAA GGTTTGTGATATAATTAATAGTTTAACAGTTTTAATCTCAAAAAA TAGTATTGGGATCTGAGCTATGTAAGACATTT 152 ERO1LB 2462347 GCCTCGATCTGTTTATCGTCCTTTAAATCCTCTGGCGCCTAGC CGA 153 ERO1LB 2462348 AAGAAGGAACGACTGATAGAGGGTCGGGAGAGGCCGGGTGC TGTGGCTCACGCCTGTAATCCCAGCACTTTGGGAGGCCAAGG TGGGTGGATCATCTGAGGTCAGGAGTTCAAGACCAGCCTGGC CAACATGGTGAAACCCCGTGTCAACTAAAAATACAAAAAAATT AGCCGGGCATGATGGCAGGTGCCTGTAATCCCAGCTACTTGG GAGGCTGAGGCAGGAGAATCACTTGAACCCGGGAGGCAGAG GTTACAATGAGCAGAGATTGCGCCACTGTACTCCAGCCTGGG TGACTAAGTGAAACTCTGTCTCAAAAAAAAAAGAGGGTGGGGA GGGGAGTATTTGTTTCTATTGGAATAAAATTATACACTATAAAA GTTAAAACATTCTATGTTTGGGTATTATGCTTTCTTT 154 ERO1LB 2462349 GCTGCTCAGTATGTAGACCTATTGCTGAACCCAGAGCGTTACA CTGGCTATAAAGGGACCTCTGCATGGAGAGTGTGGAACAGCA TCTATGAA 155 ERO1LB 2462350 CCTGCACAACAAAGTAAGACCACTTTTCTTAAAAAAGAACAAT GAAAAACCTGATATAATTGATTTTCCTCTTGTGATTTTTTAGCTC CCTTAAAGTATATTTTAAATCATCATGGTTTAATATCTGAATCAT GGTTTTTCTTCTTTATTGGTTATTTGGTTGGTTTTCTTGGGAAA AGAGGTTGGTACTAGTCCAATTTGCACGTTTGTAGAGGATTCT A 156 ERO1LB 2462351 CTGGGGAGGACTCTAATTCGACTTCTCCACAGCCCTTTTTCCA 157 ERO1LB 2462352 CAAAGAAGCTTTCATTGACTGGGCAAGATATGATGATTCACGG GATCACTTTTGTGAACT 158 ERO1LB 2462353 TGCTACTAGTAGTGTATCAGTTATCTGTTCTACAACTTCTCCAG TGATTGGTACTATGATTTTTAAACAGCTTTACTTTGAGGTATAA TGAAATATGATACACTGCATATAAAGTATACAGTTTGATGTTTT GACATGTGTCCACCCATATAACATCATCACAATTAAGATACCAT AGGTTGGGTG 159 ERO1LB 2462354 ATGATCTAGGGACTAGGCTTAAGTCATTGGAAGATTTTGGGGT AAATTGCCAGTTTATATTCTTTGTCATTTTTTTCTCCATTGGGTT GGATTTTAAAATTATTACTGATTTGTAAGCATTCTTTATATAATG TGATAATTCTTTGTTGGCTGTGTTGTTAGGATTTGTCCTTTAAT TTTGCATATAGTTTTTTGTTGTTGAACAGAAATTATTCTTTAAAC TTAAAAAATTTAAGTATAATACACATATGGTGGAATAGAAAATT CTTAAGTGTAAAGGTCAATGTAACTTTACAAAGTGAACCCAACT CTATAGCCACCATCCAGAGCATTATACTTGCTGTCCAGATTAC CATGTGTACTTTCCTAGTCATTATCACCTTCCAAAGTTAACCGT GATTTTGAGATACTGACAGAGATTAGTTTTAACTGTTTATAAAT AGAATGATATAGAACATATTCTGTTGTATCTGGCTTCTTTTTGT TAACATGTGTCTGAGATTCATTCATGTTTTTGGGCATAGTAATG TTTAATTCTTTTTTATTGGCACATAGTATTCTATAGTAAGAATGT GCCATGTTTCCATTCTGCTCTTGATAGCTTATGCTTTGGGGCC ATTTC 160 ERO1LB 2462355 GAGCAAGCTAATAAACTGGGAGCAAT 161 ERO1LB 2462356 TTCCGGTTGGAATAAAAGCTGGGCATTCTAATAAG 162 ERO1LB 2462357 ATGTTCCAGCTACATGCACTTCTCCCATTGGTAAACCCTAGATT AGATTGGTAAACTCTAGGTTAATCGTGTGGGCCAAAAAAAGCT TTCTAGTAATCCAAAATTGCCTACACTTTGTTAGAGCAGAAG 163 ERO1LB 2462358 TAATCTGAAGCGACCTTGTCCTTTCTGGGCAGAAGATGGCCAC TGTTCAATAAAAGACTGTCATGTGGAGCCCTGTCCA 164 ERO1LB 2462359 GGTTGCATACTGAGCACTACTTTAGCAAGCCTGGCCAGGAAT GGTCTCTCTGCTTAGGTGTGATATGTGAGAGAGACTTGAATGC GGCGAAAGAGTGAGCCGTCATAAGATCTGGAGGA 165 ERO1LB 2462360 ATGAGAAGTGCTGTCCCTTCCATTCGTGGTGGCAG 166 ERO1LB 2462361 GCAGCCTCAGTGGAAACCTCAGGTAAGCCTGTGGGGAATTCT TAAGATGGAATAACCCTTCCGAGTTAGTCGTCCCCATTTGGCA CGAGAGGTATAGGCCTTTATATCTCTCCATCAGTTGGTCATTG GATGAAGGCCACCAGAGGAAATAAGGATCCAATCTTGGGTAA GGTGGTTCTTTTCACCCAAGCTTGTCTACCTGCAGCATTTCCA CAACTGAGGTAATTACATCCCCTTTATTCCTGAAGGGTGATCT GAGTAGTATGTTACAGTGTCTACCACAGTCCACTCGTTGCACC ATGTATTTC 167 ERO1LB 2462362 TCCTACCTAATGTGAAAGAGCCATGAGAAGGTTTGGGGAAAG AACATGCCAGGGAAAAGATGTAGAATACCAAGTAAATGGTCTT GAGATAGAAATAAGCTTGGTGTGTTGAATAGGCAGAAAGCTG GTATAGCTGGAGTGAACGAGAGGGAGAGTTGGAAATATAGGT AGGCACCAGATTTAAAAAACAGTAGGACCGTATTGACCATGTA AGGATGCTGGATTTTATTTTAAGCAGGATAAGAAACTACTGAA GGGATTTTTGTGCAAAAAAGACTGTAAGGGTAGAAGACAAGAA ATAGAGGAACCATTTAGGAGACTCTTGTGTTAGTTCAGATAAA AACAATACAGATTTGCAATAGAATGCTGCAGCTGAAAAATGTA GAAAATGATCAAATTAGGGTTGTACACAAAAGGCAACACCAGC AAGCTTTTCTGATGAATTGAGTGTGACGTATGATATAGAAATGA AATCAAGGATGATGCCTAAGTTTTGAGTGCACATATACAAGCA CAAATGTACATATATGTAAAATCATGACCAAATAGATTTTATTC CAAGAATGCAAGGATGATTCTTGCATTGATGTTGATAATCATCA AAATTCAATATGTGCTCCTGATTTTTAAAATAATAAGAATGATG TATATTTCTTAACATGATGATTTCAGTCCTAACATCAGCATAGC TAACACGTCTTGCATATGGGGAAACACTAGAGGAATTCTCACT TAGGTCAGGAACCAAGACAAGGATACCCACTATCTGCATTAAC TG 168 ERO1LB 2462363 GGAACCACTGGGATTTTGTATCAAATTAACTATTTTCCCATATT TTCCAAACTTTATGTAAGAGTTATATTTCTGTCCAGGTACGGTC ATATGACCTGTTGGACCAAAAGAAGGAAGGACACCTTGGTTGA CAGTCTCATTTGCATGAGTAAAAGTGGAGTCATTGTTTCCCAA AGGGAAATTAGGGACTGTTACAAAAGAAGGAATAATGGAACTT GGATAGGCAAAAGTGACAATGTGGTTCTTGGCTACTCAACAAT C 169 ERO1LB 2462364 CCGTTCCTGAAGTACTGCAATACCAGGTCGATGCGAGGAGTG GATGGAGCAAGCTCCTATTCCATCTCCCTACTCCAAAAATCCA TGTAATATATTGTTCTCGGGTAGAGGACATATCAGGTATTAACA GATACTTCACTTGATCTTAGCCAAAAGGCCGAGAAGCCATTGG AGAGACAGGTGCTTCTTTAAATTTCCACCACTAAATCTATAAAT CTAAGTGCATTTGTAGCTGCTTTCTCTTGTTTCTTTTCTACCAT AACATTGAACTATATGAAATTTTTACTTTTATATTTCAAAAATGG TTGAACATGCCAGTTTCATATTGCTCAATGTAATACAGTGGGG GAAGTGTTTCTTGTATCAAAAACCATCTCTTCACAAGTGGTCCA GTTCACA 170 ERO1LB 2462365 GTTCTGGATGATTGCTTGTGTGATATTGACAGCATCGATAACTT CAATACCTACAAAATCTTCCCCAAAATAAAAAAATTGCAAGAGA GAGACTATTTTCGTTATTACAAG 171 ERO1LB 2462366 CTGAGCTGTGTCTGCCAAGTGGCATCGCCAG 172 ERO1LB 2462367 CTGACCGTCCAGTGCGGGAAACATCTGCGAACCGCCCGCAG GGTGGGGGGACGGCGACACTCCGGGTAATGGCAGTCAAAAG AGGAAGATGGTGACGGTCCCCCTGAGCTGTTTTCGTTTTTTCC TCTCGGATGTGTTAAGCGGCTGGGAGTGTGGCGGGAGATGG GACGGGCATGAACCACCTCGGCTGTCTTGCGAAGGGAGCGA GCGCCCAGAGAAACGGTGACGTCCTT

173 ERO1LB 2462368 ATGAGCCAAGGGGTCCGCCGGGCAGGCGCTGGGCAGGGGG TAGCGGCCGCGGTGCAGCTGCTGGTCACCCTGAGCTTCCTGC GGAGCGTCGTCGAGGCGCAG 174 MIR4435- 2492489 TGTCAACTCTGTGTTGGAGCCAGTAGGGAGCTCTGTGGGTCC 1HG TCGAGCAGGAAAATCCCATGGCTTAAGCAGTGTTTCAGGAAG ACTGGGATGTTAGGCTCCGGAGCTCTGAGCAAGTCAGATGGG ACTGGGAGTCATAAGAAGGCTTGACTGTGGCTAGTGATAACC A 175 MIR4435- 2492490 GTGAGGACCTCTGATGGACCAGGAAATTGGAATTCTGCCTGG 1HG GAGGCAAGCCCATGGAGGCCCTGATCTGCTTGGACAGAGAGT AGCTCCCTTCACCTGTAAAATGAGAGTGAACGAGCTGGTG 176 MIR4435- 2492491 TCACAGCATTCCTGTAAAAGGTATGAGGTTCGCCCTGATTGGA 1HG CCAGCCGAGGTCACATGCCTACACATGAGCCAATCACAGTGG ATAAAGGACTG 177 MIR4435- 2492498 AAATTGACATTCCAGACAAGCGGTGCCTGAGCCCGTG 1HG 178 MIR4435- 2492499 TGTGAAGACTGGACTTAAACAGCTACACCACCAGAAGCCGAG 1HG AGAG 179 MIR4435- 2492501 AGATGCTAATCCAGCGTGCGTCCTGACAGAGGTTGAAGGGGG 1HG CTTCTCAAGTCCCAGGTCCAGCTTGGTGTGGTTCAGCTACTCA AGAGACATCTGCTGCTAATGGATGAGCAGTCAACCTGGACGC AGG 180 MIR4435- 2492502 CAAAAGGAAGGTGTCGGCAAGATCGTTTTTTTCTGAGAGC 1HG 181 MIR4435- 2492506 TGAAACAGGAAGCTCTATGACACACTTGATCGAAT 1HG 182 MIR4435- 2492507 CACCTCTACCTGTTGCCCGCCGATCACAGCCGGAATGCAGCT 1HG GAAAGATTCCCTGGGGCCTGGTT 183 MIR4435- 2492508 TATTTTGGTCATGGGCTGGTCTGGTCGGTTTCCCATTTGTCTG 1HG GCCAGTCTCTATGTGTCTTAATCCCTTGTCCTTCATTAA 184 MIR4435- 2492509 AAAGGCTGCAGTCACCAGCATCTTTTCCAACCTTAATGAACTG 1HG TATCCTCAAAAGAACACTATCAGACTG 185 MIR4435- 2492510 GCTCTGCCGACTTCCAGTTCTGGAACAAGATGGTTAAACTCAT 1HG TTTTCCCTGCTCTGCTCCTCTAAATACAACTAAGTACCTTGGAA ACTATTCAGCAGACAATGATAAAGGGCTCTGAAAGCTAGAAGA AAAGGTGTACTTGCAAGAAACCTCAGGACT 186 MIR4435- 2492516 GCTTCTGCAGTTTGCCTTGGAGTCTGGGCTGT 1HG 187 MIR4435- 2492517 TAAGAATGTAGATGCCGGTTGCACCTTCTGTTGTCTTGGAAGA 1HG GACTGCAGTGCTTGGCTGGAAAATAAGCTGCTCGGGACTCCT CTGAGA 188 MIR4435- 2492518 CCTACCCATGAGGAACAAGCCTGTGGGGGGACTGATATTATC 1HG ACTTCTGTCATCAAGAAATAAGGCCGCAGGCATCCCTGAATAT AGAGCATTTATTAATCGAACTGTGAAAATGAAACACAGACAGT GATGACAGCTGGAAGTTGGCCAATGTCCTGTTGTCATATTGCC CTCAGCCTAGGGACTGGCCTGTGGCTCACTGACCCTGTCTCC CACTCTCCACCTCTCATCAGCAACTGGACCTGGTGCACCTGGT CTACCTCATGTCCAGTGTTTTCCGCAGTACCTGACTGGTATCC CCACCCTTGGTTGTTGTGTGGTGAGCTCGTCCCTATGTTGGCA AGTTACTTAATTCCTAGGTGTCCCGCCTTCCTCACTGTAAAA 189 MIR4435- 2492530 CCCTGGCATCATATTGGGACTTGTTAAGGGCTGAATTGTGTCC 1HG CATCCCAAATTCGTATGGTGCCACCCCAACTCCAGTACCTTGG AATGTGACCGTATTTGGAGAAAGGGTCTCTGAAGAGGTAATTA AGGTAAAATGAGGTCATATGGGTGGCCTCTAATTCAATATGAC 190 MIR4435- 2492538 TTGCTGATATACTTACAAACTGGTAAACAATGCTCTTTAATCAA 1HG CAATTCATAATCTGGGTCAGCGATTTTTATCTCCATATTTGCTC ATACTGTATGACATCAATATTTTATATTGGCTTGCCCATAACTT A 191 MIR4435- 2492544 GCCAGTTCGCCTTTCGCTTTCTAAAATCATCTTGCTGGAGAGA 1HG ACGGTTATCAAATCCCATCCACTGCCCATGTAAAATAAATACC ATTCAGAAAAGCGTGGCATGGATGGCCATACTTCTGATGGGTT TATAACTGTAGATTGCATACGATCCCAACGTGAAGCCTGAAAT ACGACATTCAACGTCAGGCTTATTCCAGGCTACTGCTGTGGCT ACTTTTGTAATTCAACCAGTGGGGCGTTTTAGGCTAACGTATAT TGCCTCTAAGCTGATAAGCATTTTCCTGATCCCAGGCCCCTTC TAAAATTGAACACACACGTTCAGCTGGGGACACCTA 192 MIR4435- 2492546 TCAGTTTTGTGCTTACAGTCCCGCA 1HG 193 MIR4435- 2492548 TGGGAGGCCAAGGTGGGCGGATCATGAGCTCAGGGGTTCAA 1HG GACCAGCCTGGCCAACGTAGTGAAACCCCGTCTCTACTAAAA ACAAAAAAATTAGCTGGGCATGGTGGCGCACACCTGTAGTCC CAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTG GGAGGCAGAGGTTGCAGTGAGCTGAGATCGCTCCACTGCACT CCGGTTTGGGC 194 MIR4435- 2492552 CTGGGGACACTATGGCCCCATCCTAGCCTGGTG 1HG 195 MIR4435- 2492554 GAAAAGATTTTTATTCGTGTCTACATCAGTGTGAAAGGCTTCAT 1HG CCTGG 196 Ml R4435- 2492556 TGGACTTCTCTTTAGCTGGGGTGGTGGCTGCTGGAGAGGGCC 1HG CTGCTTGCTCATCTCTGCCAGCTTCCCAGTCCCTGCAACCAGC AGTGGCCAGCCTCTGGCCACCCCCATGAAAGCACATAAAAGG GTTGGGGA 197 MIR4435- 2492558 GGGAACAAAATGTCTGCTCAAACCATGACAAAATTGGCCACAA 1HG TTTGCCGATTGGGCTGATAACAAAAG 198 MIR4435- 2492568 AGGTCGAGGCACTGTCCTAGCTTGTGACCTGCTCCCATACCTA 1HG TTTTCTCAGGGTGGAAGCAGACGCTCCAACTCCCACA 199 MIR4435- 2492569 AGACCCAAAGCCTGTAGGAAGTATAGCAGGCCTCACCCAATA 1HG CCCTGCAGTT 200 MIR4435- 2492571 CCTCAAGAGAACATGGAGTCCTTTG 1HG 201 MIR4435- 2492573 TCAGTGGCCTCCGAGTAACCCACCTGCTCCAGTCTGCAGATTT 1HG CCATCTCACTGAC 202 MIR4435- 2492575 CAAAGGCTTCTCTTGCTGGCTGAGAATTGTTGGGGAGCTCCCT 1HG GCCCACGGAGGGC 203 MIR4435- 2492577 GGGTTCCTGTCGGAATCTTGGAGCTCATCCCCCAAACTTGAGA 1HG TT 204 MIR4435- 2492581 AAATGCTTAGGGAGACAGTTCACAGATATATATGTACTTCACA 1HG GGGCACAATTTAATCCATAAATCAATCATGGATCACTGCTAAA GAAAACAAAATATGCTGCCACTAATTTGCCACCACCCTGTGAG CATGATTGGATGATGTTTA 205 MIR4435- 2492583 AGGCAGCCTTTTCTGTCACAACACAACGCTGAGCCGGCAGCC 1HG TGGCTCTGTCAGGATCTGGGGCTCCAGCGCCCGAGAAGCCCA GCCTCGCCGGCGGCCAAGTTCACCGCGAGGCC 206 MIR4435- 2492584 CCGAGGAGGCGGAGCATGGAACTCGACAGTTAAAACATTTAA 1HG GAGA 207 MIR4435- 2492590 TGGCAGCTCCATCTACACAGTGTCGGGCTAGGCATGGGAGCA 1HG TTCTGGGCCAGGAGAAAGGGGATTGGATCCTGGATGGTGGGA ACCGCAGGTGTCCCCCTCCACGTGCCTGGGTCCAAGACTGCT CTGCTCTGGACCTTCTACGCCTTCAGAGGTACAAGTTGCAGTG CTACCCTTGCTGAACCTACAACCCTGTTCAAGTGACAACTTCT CTGAGTCTCATACGAGGATATTGAAAGAACCTTCTGCACAGGG CTGTTGTGAGGATTAACCGTAATAATACAAGAATATCTGGCAC TTGCATTCAGCAACTCACCGCTTACTTGTTCAACCAGGTAAAA AGGTTCTGATCCCAGTGTTGCAGGACAGAAAGACCTCCCCCT CTGTAGCTGCAGATGTGACCCAGCACAGAAAAAATGGCAGGT GAAAGACAGGCAGGAAGAGCAACTAAGAAGGTGGGAGGCAC CTCCATAAGATGCCTGAGGCCATGGGGATGACCGTTCACAGA GCTAGTCCCTCGAGCAATGTGTTA 208 MIR4435- 2492591 TGTGGCTCCAAGTTCCGTAGGACTCACTAGTCTTTTTTTCCCTA 1HG GAGGGTCTTGCCATTGAGAGGCAGGTGATGTGCTGTTTCAGA AAACAAAATTGGGACATGTCCTGATATGACATCCATCAAATATA TACAGATAGGTGTCACAGCCCCCGAAAAAGCTTATCTCTTCTA GGCCACACATAGCTATTTCCTCCAACTGTGTCAGACATTACAA AGTTTCTAGCAATCAAAACAAGTCAAATGCCATTCTCAGGACC CGTTGGAGGATTTTTTGCTTTGTTTTGGCTTTGTACGGTATCCA TACCATTTTCCAAATTCTTTTGTCCTTACATATTTTGTTTTTCTTA AAAAAAAAAAAATCACCTATAATCCCATCACCAGACAAAACCAC TAGAAAGAAACCAACATTTTAGCCATGTTTTTCTGTATATAAAA AAAGTGTGTGTGGAATTTTTCATAACAATATTGGGACCATGAC ATCTATCACATTTTTTATTAGGAAATGGCCTTCAACAATATGCA TTTAACAATATGCTTGATGTCTGTGTAATATTTCATCTAACAAAT ATATCATGATTTATTTAAGTATTCCCTGATTGCTTGCTTCTAACT AGAAAAAACAATTTTTCTAAGTGTCACCACTGGGTTAGAGTAAT CTCAGCCAATCCTCCTAATAGCACTGTGAGACCAGAGTTATGA TAATCTTCAGTTAATGGACAAGGGACATGATGGTGTGGAAGGA TAAATAAACTACCCAAAGACAACTAGCTAGTGAGACCAGCATG GACAGTCAAGCCCAGTGCATGTAATCTGTGCTCCCCTGCACT GTTGCTCATATACTTGGACCCTTGC 209 MIR4435- 2492593 CAACCCAGGGTCCTTGCAGAGAGATTGATCTGCCAGCAGTGG 1HG CATCAGCAGCAATAGTAGCAGCAGCAAAGCCCTGGACAGTCC TGGCCCCCAGTCCACAACTTAGACACAGCACATGGCCTAATTC ACCCACAGAAGCAGCCACTGTGAAGCCCTGTGTCTCCCCAGA CTCCATCCAGTGGCATAAGGAGACCCAGGCCCTGCAGCTTCC TCCCCATCATGGAAGGCTGTCCATCTA 210 MIR4435- 2492595 ACTTAAAATAGGAGTGAGGTGAGAGGGGCAGCTGGGCTCATG 1HG GACGTCAAGTGGACAGTTTCTCAGCTGGTATTTCCTATATTTC CTGTTTTGGACAGCAGGTTCCTGCCCTTCTAAGCTGGGGGTA GGGGTGAGGGAGTGTATGTTAAAAAGCTCTGTGGACTTGCT 211 MIR4435- 2492597 GGTATTACCTGATCCCAACTTGGCACCAAAAGACAGCCAACAT 1HG AGACTCATTCCTCCTGCTTCCTGGTGAGCCTGGTATTCTCCTC CACTTCCACTGACAGACATGTAGGGTGACTGGGTGGTATCAA CAATAGGAACCACATCATAACAGGCAGCCTAGTTTGGGAAGC ACTCTTGGTCTCCGTAGGCCTGAGACTCCTTTTGCCCATCTAG AGG 212 MIR4435- 2492601 AGACTGACCCTACAATAAATGCTTAAGAGAGTCCTACATCTGG 1HG AAGCAAAAGGGCTATATTCACCATCATGAAAACCCTAAAGTAT AAAACTCATTGGTAAAGCAGACACACAAATAAGAAAGAGAATG GAACCACATGTTATCATTACAGAAAACCACCAAACTGCAAAGA TAAACAAAGGAAAGAAAGAAAGAAAGAAAGGAAGGAAGAAAG GAAGGAAGAAAAAGGATTATTTAAAATTATCAGAAAACAATTGA AATGACAGGAATAAGACCTCACCTATCAATAACAACTTTTTTAA ATGGCTTAAATTTCCCAGTTAAAAGATATAGACTGGCTGAATG GATTTTAAAAGTGACCTAACTCTATGCTA 213 MIR4435- 2492603 AGAAGCTTGTTTTGAGCTCATTCAATATGCATCAGGTGGCGGT 1HG AACATCTGGAG 214 MIR4435- 2492605 AGGGTGCTGGTTCTGAGCCAACTTTGCATGGAAGGCCCAGCA 1HG GACCACGCTCATTACTTACAGCCAGCATCATCGGGGAACTCC GGCACAGA 215 MIR4435- 2492607 GCGGCCCTAGTCCACTCTCATGATGCCTCCATTAATCCCCCG 1HG GTCAGGGACCTTCCAGCCCTGCCCACAGCAGTCGATGCCTTC AGTGCATCTCAGTCTTCCACCC 216 MIR4435- 2492609 TCAGGTCATCCGCTCCATGGAGGTCCCCGTTCCTACCTTGGC 1HG CTTGCCTTTCCCCCTGCATGTAACCTTGGTGAACTTTTCACAA GAGTCTGCGCAGTCT 217 MIR4435- 2492610 TAAGCAGATTAATGCCGAGGAAAAGCCTTGGTGA 1HG 218 MIR4435- 2492612 CCCGTGGAGAGAGCCCCGCTGGTGAGGAAGCACGGGGACCC 1HG TGCTGCAGGGCTGGTGGAGGGCTCCTTCTGCAGACTTCTGAG CTTGGAGCACAGATGGG 219 MIR4435- 2492614 CTGGCTCCTGCACTACTATGGCCTTTTGGCTC 1HG 220 MIR4435- 2492616 TTCCAAGGTCTCACAAGAGTTTGCCTCCTCTCATTGCCATGTG 1HG AAGACCTCTGTGGGGGAACAATGCATGGGTTCTTGGGGTATT ATAGGGGACTACAGAGAAGTGTCACCTCCACCCAACAGCCTG ATTCAGTCTACTCCTCAGGAGGAACACAAAGTGGTCTCTCTAG TGCCATGAAACCCCAAAAAGTGTCAACCAGTATTAAAGGCCTG CCTGATATACAACCCTCGA 221 MIR4435- 2492618 ATGAAGCTAGGCCCCCCTGTCCTGACAGCTTTCCACCCCTTCC 1HG CTGCCCCTCTCACCCTGCTTTCCAGGGGCAATGCACCTCCCC ACTTCT 222 MIR4435- 2492620 CCAGACACCACTGGCCTACATCAAACTCCAGGCCACAGATGG 1HG AAATAGGACTGAGATCCCTGGACCTGGG 223 MIR4435- 2492621 AGATCAGGTGGATTGAGGATGTCACTGCCATCCCCTCCAAAA 1HG GCACCTGCAGGAAGGGGGTTGCCATGGTCACCATCTGTGAAC AGGACTCCTCAAAATGTTT 224 MIR4435- 2492622 TCAAGGTGGCCTTGCGCTTCACCGAGGAGGTGTCATTACCAA 1HG ACGTGCTGGACATTGGCTACCTACGGAAGAAAGATTAA 225 MIR4435- 2492624 CCTTCCTACCTGGTAGTAGCACTGACATCCTCTTCATCCACTG 1HG GAAGCTTCCAGATCCTGGCCCCCACAACCCATTCTCTCCCCAT

AGGGCTTCCACAGAAACACAACGTGTACTGTGTGCCAAATGA CT 226 MIR4435- 2492626 TTATACATGGCCTCACTGTTGGGGAGGCAGTAGGGAGTGTTG 1HG GAGACCAGGGTCAGGACTAGGGCTAGGGCAAGGCTAGGAAG GTGCCCAGGATGCATGTTTTAAG 227 Ml R4435- 2492628 TAAGAAAAGGATCGTGGTGGTAGCAGGAAATAAGACAGAAATT 1HG TTCCATGGGGGCTCCAGGTCTGAA 228 MIR4435- 2492636 GTCTTTTCTTGAACAGGAACTTGCATACTCAAAAACAACA 1HG 229 MIR4435- 2492638 GATCCCGTGGAAACACAGCACCGGAGGATATGGGATAAGAGA 1HG CAACAGAGAGGAGTGGTGCTTCCTGAATTTAGGAAACATAGCT GCTACTTTGGGCCCTCTAGATACTTGAAAGAA 230 MIR4435- 2492639 AGGGAAGCCAGGTTGTTCATGGACATTCAGTGGAAGAATTAA 1HG GGCAATTAAATGTTAAGTTTTGCAGGGCTGGTCGACAAGAGAA 231 MIR4435- 2492640 GTGTGTATTCTCCATTGGTCACAATGCAC 1HG 232 MIR4435- 2492642 GACAAGAATAACTCCCCACTGGGACTGGAGGAGAGGAAGGCA 1HG CATGGGGGCCCTTGGCAGGGTGG 233 MIR4435- 2492643 TCAGTCACGTCTGCGCCAGAGCTTTGATGACCCACCTGTCAG 1HG CCACACTAAGGGCCCTGCCATGAATAAGGCCTCCGTCACTGA GGATCCTGTACCCCTCTGCCATAAACTCAGTGACCTGACTG 234 MIR4435- 2492645 GAACTCCCACTGTATAATTGCTAAACACAATGACAGCTATAATT 1HG GAGGCACTGAAGGAAGGTCAGGGGAGCCCAGGAGGGCGGG GCTGCTGCTGCCTGCTGAGCTGGGAGGGTTGGTGGCACCCC TTGCCCTGGGTTGCCATAGCAGATATCATAATCAATTACGGCC GTCTTTCATGAGGAACCTGGATCTTTCCCAAGGAATC 235 R3HDM1 2507381 AGGGGCGGGATTCTGCCAGCCGCGGCTGCCGCTGGAGCCGG TGTCCGGGCTGGTGATGGGGTTAATTCCCTTTCGTAAGACTCT TACTTGC 236 R3HDM1 2507382 CTGCCTCCGCGGCTGCTCTTGCAGCCCCAGGGACTCGGGAG CCAGCCACAGCAGGCCTGCCAAGAGCGTGGTACTGCTCTCTC GTGTGGCTGGCGCCGGTGCCCCGGGCTCCCCCGGCCGCCCC ACGGCCGCATCCCCTGGCCTTGCACCAAGAGAATTTTCAGCTT CGACCGGTTGG 237 R3HDM1 2507383 CCCGGGATCAGATTTACACACGTTTTGATTCCTGAGCCTTAGG CTGCCAACAAATCTTTGTGGGCTTTGAAGTTTTTTGGTGTTTTG TTTTCTTTTGTTGCTGTGACTAGGTGCAAAGGGTG 238 R3HDM1 2507384 TTGGGTTCTGAGGAAACATCTGAGTTTTGATCATTTCTTCAGG GTTTGAGAAGACTATGGTGGCTTAATGATCTTCTGTATTCCATA ACTAGTACACCTAGTTACAGAATTGACATAGATACATTCAGGT CCTGGAGGAAATTTGTGGTATCTATTAAAAAAATGAAAATTGCC AGTCATGTAGTAGTCACC 239 R3HDM1 2507385 TATTATGCAGAAGATGTGCATTGCCATGCCTTGCAAGTAATAG GGTTTTTTTTCTTCTTTTTTGAACTGGTACTTTAATATACCTAAT TACATCCATTTGAGTTAGTATTAAGTTTTAATTTCTCAGAAATAA AGTAGTGAAAATTGGTAGCAGTTTTGTTTTTCCCATTCTTGAGA ATATTACAGTGATAAACAAGGCTTGATAGGTTTGTAAAATACTA TTGCTATTTGAATTAAAAAATTTCACTATTGACTTTCCATATTCT ATTGTAAATAAGTTGGGGAATTAGTGTGTCAAGGGGGTGTGGT AACAAATGGTAATGTAATTTTCAAATTGCTATTGCAGCACCAAA CCACAGA 240 R3HDM1 2507386 TGAGACGTTAGCATCAACATGACTGTATATCATTTCCAGAATTT AATTCAATTAGTTATTGGCTGAGGGATGAAATAGAGATGAAAC TAAATCCTGGCCTCAAACTAGTTTTGTACCTTATTTTCCAGCAA TTTGGTTTTTTTATATCTAGATTTTATCTTTACTATTTTCCCTCAT CTTACCCATTCTTAGTCTCCATACACACCTATTAACTTTAATTTC CTTTTCTGAGAATTTTGAAAGCCCTATAGTTTATGATCTTTTTTC CCTCTTTGCCTTGTGAATTTTATATTTGTGAGTTTTTTCCAAATT TCTACCTGTCAGCTCACTTCTTTAGGCAAGGTGTAAGGTTTTT GAGCCCCCTTATTTCATTTTTTATTTTTTTAAGAGACAGGGATT CACCCTGTCACCCAGACTGGAGTGCAGCGACAGGATCATAGC TCACCACAGCCTTGAACTCTGAGGCTCAAGGGAGCTTCCCAT CTTATGCTCCCAAGTA 241 R3HDM1 2507387 GTGTGCAGTGGACCGGTGAACATCACCACCTGAGCTCTGCCT CCTGTCAGATCAGCGGTGGCATTAGATTCTCATAGGATTGCAA ACCTTACTGTGAACTGCGCATGCAAGGGATCTGGGTTGCGTG CTTCTTATGAGAATCTAATGCCTGATGATCTGAGGTAGAACAG TTTCATCCCATAACCATCCTCCTCACCGCCTGCACCATCTGGG GAAAAATTATTTTCCACCAAACAGGTCCCTGGTGCCAAAAAGG TTGGGGACTGCTGCTCTTAGGACAGAAAGAAAGAAGTTCCATA ACTAGAGTAAAATATCACCTTACAGTATGAGGTAGCTTA 242 R3HDM1 2507388 GCAATCAGAACACCTACAGCATTTATCAACTAAGTTCACTGTCT TATATGGGTGTGATTTGTGGTCCCCTAAAACAATTACAGTGGT AAAGATCACTGATTGCAGATCACCATCACCAGACATAATAATG AAAGAGTTTGAAATATTGCAAGAATTACCAAACTATTACACAGA GACATGAAGTGAGCACATGTTGGGAAAATGGTACTGATCGATA TGCTTGACTCAAGAGTTGCCACAAA 243 R3HDM1 2507389 AAGTGATAGGATTGTTGCCCACCCAGGACGTTATGGATTCACT CAGCATTCATTCATGAAATATTCGTTGATAATTTACTATGTGCC GTGTACTGCCTATATAAAGCAGAGAGTACTTGCCCTTATGGAT TTTATTTTCTAGTGAGTGAGACAAA 244 R3HDM1 2507390 AGAAACTAAATCACTGCCTTGTACAATAAAAAGCTCTATGTTGG GGTGATCAGACCCAACACCAGGTCATGGGGGCGATGAGTCC GGTGGAGTCAAAGGAATGAGAAAAAGACAGTTTGAGAGAGAA AGTGGGACCGGGGAGCCTACGCTATTTATTG 245 R3HDM1 2507391 TGAAAATTGGGCCTTAAGCACATAAAAAGTTTTAAGTTCATACA GAGAAATAAGCTCACGCCTGTAATCCCAACACTTTGGGAGGC CAAGGTGGGTGGATCACCTGAGGTTTCTCAACCTCGAGACCA GCC 246 R3HDM1 2507392 GCACTTCTCTGACTATAGTTTTTTATATGACTTTGACTCTCAGA ACCCTGGTAATTTTTTACGTAGTCTCCAGAAATAACATAAAATA ACTTAGATGTTGGCAAGTGTGGAGAAAGGAGCCCAAAATGTAA TGCAAGCACTAACAGATGAAC 247 R3HDM1 2507393 ATGCCTTGGTCGTTTTGTGTCCCTGGGCTGTTGGCAGTGTGAC TCTGCTACAGAATACCACTTGGGGAGATCAGCTTACTCAGTAC AGGGTG 248 R3HDM1 2507394 CAGATCTTTCTTCACATCGTGCAGGTAACGTATGAGCATTGTC TGATGGATCCTTACAACATTCCTGTATGCTTTTGGAAAGTATGA TCTTTGTTTAACAAAATGGGAAACAGAGGCACATGCTATACCC AGCTATCACAGAAAACAATAGTTAGAATCCAGAAAACATACTC ATCTGGTTTAGTGTGTTGCCCA 249 R3HDM1 2507395 AGCAGGCACTCCCAATGCCAGACTAATCAGCTGG 250 R3HDM1 2507396 GAGCTCTATAGAGGAGCAATGCAGAGCATCAGTTTACAGGTA CTATGGAA 251 R3HDM1 2507397 AATCTTGCCATACTTGCACAGCTGACCAAC 252 R3HDM1 2507398 ATTCAACTGCTAGAGAATGTGAAGTTTCACATTTTAAGCCATCA AAGAACCATTGG 253 R3HDM1 2507399 TGTGCCAAAACAGTCCTGAATGTTCGTGTTGGCCTTAATGAAC CACCCCTTAGTGACTCAGTCACCATTCTCCACAAGCCCTACAG CCATCCCGG 254 R3HDM1 2507400 CCTCAGCTGCAAACTATGTAATACTGCTTTTATGGGGATTAAAT GAATTAATACACTTAAAGCATTGGGAGTAGTGCTTAGTAAATAA TAAATAACTCTTTAAGGGTTTGCTGTTAATATTACCAGTTTCAC AGCACATATTGCAATCAGTTATTATCTTGTATATTTTGTCTCTG CACTAGAATGTAAGCATTTTAGGTTCTAGGATCCCATCTGCTT GGTTCACTCATGTATCCCTATTACCTAGAACAGTGCTCTGTAC ATAGTATCCAGTCTG 255 R3HDM1 2507401 GCGCCCAGCCTAATACTAAGCTTCTAATCTTAA 256 R3HDM1 2507402 GTCCATTCCAGTCCGGGAATCTACAGTGGTGACAAGGACATG GGACTCCTCCTGCCAGATTACAGATGGTTCACTACAGTTGACA TCCTGGCTGACAACTGTGAAAAAGAACCTTGGATTATTTTATTT TATTTTTGTGGGACACCACAATCCCAAATCC 257 R3HDM1 2507403 GCTTCAAGCTCCCTGTAGAATTCGAAAATAAC 258 R3HDM1 2507404 GATGTCTGATACTGTTACTGTAAAAGAT 259 R3HDM1 2507405 AAGTGAAAGATACAACCAGAGTTGAAAATCTTATCAAATCAGA AAACTATGGGAAGATTTTGGTAGAGAAGAATGAACATTGTATT GAGAACAATATAGATTTGCAG 260 R3HDM1 2507406 TCATACAAAACTCACTTCTCAAAATTC 261 R3HDM1 2507407 TCAGTCAGGAAACGAAGCAAGGCTTGGGCTGAGTGAATTTTCT ATTCTACAGGGTATCCAAAGAGGTCCTTTGTTGGCATTTAACA GGCCGGTGGACTTGGTCTGGAGCATCCCGGATTGCTTCTCGC ACCTGTCTGG 262 R3HDM1 2507408 CAACAAGGTGGGTCCAAAGTAGTCAGACTTCTTATGTGGCAG CTCAGGGGTCCCAGAGAGAATGTTCCAAGAAAGCCAAGCAAA GCTGCAAGGTTTCTTTTGACATAGGCCCAGAAGTTCCAGAACG TTACTTCAGCTATC 263 R3HDM1 2507409 CATAGCGACTGTAACGATTTGGAAGGAGGGA 264 R3HDM1 2507410 CAATGCCACGCTTCTTCGACAATGAAGGCAGTACATAA 265 R3HDM1 2507411 AATCTTAGCTATTTCCTGTTTGTCAAACAAAGATTAAAAGCATG TATGTGGCAAAGCGTGGTGGCTCCTGCCAGCACTTTGGGATG CCGAGGCAGGAGGTTTACCTGAGCCCAGGACTTTGAGACCAG CCTGGACAACACACGAAGACTTTGTCTCTACAAAAATAAAAAT AAAAAAATTATTCATGCGTCACGGTACATACCTGTA 266 R3HDM1 2507412 CGGCCATTGCAGTCATTTGGACAGAC 267 R3HDM1 2507413 CAAGCTCAAAGTTAAAGCTAGTTCGGAGCCTTGCAGTGTGTGA AGAATCTCCACCACCCCCTGCACCAGAGATATCACAGGAGAA CCA 268 R3HDM1 2507414 TGAGTGTAAGGAAGTTGCCAGTGTCTTTGGTAAACAAGACAGA GAGTGCAAAAAGCAAGTGTTTGTCATCCTAGTAAAAACTGCCA GTGTGCATCATTTACCCTATATTATGAACACAAATTTTAACTGG TATGATGAATTAAGAAGA 269 R3HDM1 2507415 AATTCAGATCCAGTTAACACAATCATTTGAGAAAGAAGAGAAG CCCTCAAAAGATGAAGCAGAAAAAGAAAAGGCCAGTGATAAGT TGCCCAGAAAA 270 R3HDM1 2507416 ATTCCAGTCAAGAATACACTGATTCAACTGGCATAGATCTACAT GAATTTTTAGTA 271 R3HDM1 2507417 CCTCTATAGATGCAAACGTTTTTAAGTTATCCACATAGACATTT TTTAACTGTACGGTTTAATGGTTTTTAGTATATTCAATATACAGA TAGGAGCACTATCACCACAGTTATAGAACTTTTTCATTGCCCCA AAAGAAACCCCATACATTGTAGCTATTCCTATGCTAATAATAAT AGTAATACTGATATTGGATGATCCCAACCCTAATCTGTTTTCTG TTTCTGTAGATTTCCCTGTTCTGGACATCTCATATGAATGAAAT TATATAATGTATGGTCGTTCATGACTGGCTTTTA 272 R3HDM1 2507418 ACAGTTTTGTGAGTTCAGGTCAGGAGATGAGGCTGGAGCTGG ATGAAGACCAGCTCATGCCTGCCTTGTACATATGTTTAGTTCTA AGAACAGTAAGAAACCCATGACAGATTTAACAAAGGGAGTGAT GTGTGATCACATATGTGTTCTTAAAAGATTGTTATGCATGTTTC ATGTAGAATAGATTAGGGAAGATCAGGGAAGATACAGGGAGA CAATATACTCCTGCTGTAGTAGTCAAGCCAGAAATCCTGTTGC CTGGATCCAGGGTTGTGGCAGTAGAAAAATA 273 R3HDM1 2507419 CTGATGTGTAGACTTTCAGGTGACCAAAGCAGGGGCTACCAG TTCTTCTATTGAAATTGAGAATAATCTGCATAGTGTTTATTTTAG GGAATCATTAACCTCTTGGCCTCGTTTTCTTGATCTGTAAACTT TGGAAGACAAAACTGAATGATTTGTAAAGCTGCTTTTAGCTTTA AGTTTCTGTAAGTTACATTTTTTTTTTCACATGTATATGAAATTT CCAATTAGCACAGGAAAATTCTAGAGCCATGTTATGGGTGTGT GAGCAGGGAGGTCCTTTGGGGAGTGATACCATTAATTTGTTGC AGCTAAGAGAACTAAATAAGACCCTAGTGATCTAAAGGAGCAC ATACAGGTACTCCCTAGAGTCCTTATTTATTTTATATGTTGGAG GTTTTTGGTTCACTTAGATTTTTATGGGAAAATTTAAAAATATAT AATGGCAGTTTATAGAATGGGTTGAAATATCCTCTTCTTCTAAA TTAGCGATATAATTAATACTTCTCTGCCATAGTCCCATCTACAT ACTAGTATTAGATTCCCATAGAAGTATTCCTGTTGTTACTGGCA TTGCATGTTCTTTAGAATACTGTTTCTATGGAGTTCAGCATGAT AACAAAGTCCTGAGCCTAACTAAAGATGTCTGT 274 R3HDM1 2507420 ATGCTGCTGAAATTGGAACAAGAAATTTTAGATTTCATTGGTAA TA 275 R3HDM1 2507421 GACATCTTACCATAGGATGCTATTACACAGAGTAGCCGCTTAC TTTGGATTAGACCACAATGTTGAT 276 R3HDM1 2507422 TGGGAAGTCTGTCATAGTAAACAAAACTAGCAA 277 R3HDM1 2507423 CTCCAGCCTTGAATCAGTGGTGTTATGGATGTCAACAACCCAG TGTCCACTGGGGTGTCTCAATGGAGCGGGAAGTTGGCGATTA CAGGGCAGTAAATTCAGGCATCTATAA 278 R3HDM1 2507424 AACCTTGTGTTTGTCCTCTAGATCACAGTGGAACTTGCAACATT TCTGTGGAAGAAAGATGAGTCCACTATAAAATGTATTGCTAAG ATTTCATAATCGTTACTTTAGGTCACAACTTTGACTTCTATAAAA GAACATCTCTTTTCTAACCTGTTCCAGTTAATGTTAGCAAACCT GTGCCCTACTGTAATTTAAAATTAATGGATGCACTTTGAAGTAG

TCTGTAAGTTTTTAGCTAATTGAATGACAAAATATTTTATTACTT TCAGGTATAACACCAAACTAGGTACCATAGGAGTAGCATAAGA TACGGCACTGCACTTTCCTTGTCCCAGCATTTTTTCGTAGGTTT AGACGAGGCAGTACAGGCTTTGGGTCTAACTGACCTGAGCTC CAACTATGGCTTAATCATATGCCTGCCTTTGACCTTGCATATTT GCTTAAGCCATTTGAACCTCGGTTTG 279 R3HDM1 2507425 AAGGATGATAAAGGTGAAGACTTTCAGAAACGTTATATCCTCA AGAGAGATAACTC 280 R3HDM1 2507426 CTAGAACAATTGTAGGATTTGTATAGGTGCAAGACATACTATA CCAGTAGTTCATTTGCCTAAAA 281 R3HDM1 2507427 GAGAATACGTTTGAAAGATGACAGAAGAAGCAAATCTATAGAA GAAAGAGAAGAAGAGTACCAGAGAGCCAGAGACCGAATATTT TCCCAAGA 282 R3HDM1 2507428 TTACGTTGTAGGGTCTCAGTCTCCCTTTTATCTATTGATCACAT TTATTTTTAATCACATTTGTTGCACATAAGGTCATCTTTTAGAAA TATTGAGATCAGTTTTGCTTGTGTTATTAATAGTTTATAAAATAC TACATTGCAGTAGTTATATAAAATTTTACAAAAGTTGGAAGCAG GTAGACTACAGGAGTCATTAAAAGAATGTTCTCCAGTCTATATA GTTTGTGTGATTTTTTTTCCCCAGACTTGTGACAGACTTGAGAT TTTTATTAATAGAAATTGCTCCACTGTCTACAAAATCATATACTC TAGATGCTACTTGTTAGTTGACTTTCTTTGACAAATAATTTATTT CTTCTTTTGAAATAAAGCTAATTGATTTTGTAGGTTAATATCTGT TTTCTTCTTCATAAGTGATTATATAAGATAGGCTTTCTAAATGG CTAATTATTTTATGCATATATGCCAGAAGAGAATCAATTTGTTTT TTGTCAACATCTACTAAGCATCTGTCCTGTAATATGTGTTA 283 R3HDM1 2507429 CCTGTGTTCCCAAGAGAATTACATTATTGACAA 284 R3HDM1 2507430 ATGCCAGTAGTACCCAGCAGAGGCGCCAGATATTTAG 285 R3HDM1 2507431 TGAAGTACTCGGAACCACGACCCTGGAGCAGCACAGATTCAG ACAGCTCTCTTCGAAACCTGAAACCTGCTGTAACCAAAGCCAG CAGCTTCAGTGGAATCTCAGTCCTGACAAGAG 286 R3HDM1 2507432 GCAAAAGCATAGGCAGGCTTTCAAAA 287 R3HDM1 2507433 TCCGGAGCACTTAAGGGGTAATATGTTTCTTGACATGAGGATT CACTCTCTGTCCTGGACACAGATTTACAACCATCAATTACCATA AAAATTCTTCTCTATTGTGACATAAACTTAATTAGGTAGGTTCA ATGAAACATTATCTCTTGATTGAATGCCCATAGGTAATTGGAAA TTCTTTATTACTTATTCGTAGTTGGTAGAAGGCATGGTTTCTCA CCTAGGATTATTTA 288 R3HDM1 2507434 AATCAGCTGGGCGTAATAGCACGTGTCTGTAG 289 R3HDM1 2507435 TAGGGTCATCTACAGGCTCTCTTTCTCACATCCAGCAGCCTCT TCCAGGTACAGCTCTCAGCCAGTCTTCTCATGGCGCACCTGTC GTCTATCCAACTGTCAGCACTCATAGTTCTCTTTCCTTTGATGG TGGCCTAAATGGGCAAGTCGCATCTCCTAGCACTAGCTTCTTT TTGCTTCCCTTGGAAGCGGCAGGCATAC 290 R3HDM1 2507436 TGATCTCTGGTTTTTGACAACAGTATTACAATACATTTAACTTTT TTAAGATGACCCTTAAATTACATTTGACCGCCTTCACCCAAATC TGCTCCACCAATTTTTTCTCCAAATTATTTAGCAGTCAACAAAT ACCCAGGACAACTTGTTTTTAGTTATCTATAACTGTCACACAAA TTATCAGTATACTAATTGATTAAAATAATTTTACTTTAGAGTACT TTTTCTGCTTGATAGCTATAGACTAGTATAGTCTTCTCTCCCAA ATA 291 R3HDM1 2507437 ATGGGAGTCCAGTTGTGTATAATCCTCCTATGACTCAACAACC AGTTAGATCCCAAGTGCCTGGACCTCCA 292 R3HDM1 2507438 AACAACCAGCAGCTAATCACATTTTCTCACAG 293 R3HDM1 2507439 GTTGACTTGCCTTTACATATTTGGGACTAAATTCGCTAATTATA ATTGAGATAGCCTAAGTATCTCTTAGAACTTTAATATTCTGCCA CTAGTGATATTCCACTCACTACTCATAGGAAAAGAGATAACTTC AAAGGTTTTTCCCCTGATAAATACTGAAAATATGTTGGAAAGAA GGGAATTGTTTTAATCATATGAGCCTGTCTGGTGAGTATTTTAT CCCTATTTCACAACAGCAAGAAATGGACAACAGGAGAAATAAA AACAAAACTGTGATTGTTCATTGGCCCAATGAGCAAAGTGAGT TGTTTTAAGATTCCACAGATTAAGCAGTTAGAAGAAACTGAGAT AGGCTGCTCAGGTTCTGCAAGGTACTCTTC 294 R3HDM1 2507440 GAAGAAGTATGATGATAAACTTGAACTG 295 R3HDM1 2507441 TTGTGGTAAAAGTGCAACTCAAATCATTATTATCTATCTATGAT GTCATAGACAAACAATGTCTATCTTAGTTGACATAGAAGTTCTC TATTTAAATTATTGCCTGAACAATCTTAATTCCATTAGTTTATCT AACATTTTTAAAGTATTGTCTCTGAAGACAACATGCAGAGATAT TGTTCAGAAGGAGATGCATGAATATACATTTTAACTAAGAGTTT TCATCAAGTGAGATTCCCTGGGTTCCTCATCTACTTGCTTATGT GGCTGTCTACAAGTCACTTAATT 296 R3HDM1 2507442 TCTGCAGTCCTCTTCACAGCCTGTTCAGTACTCTACAGCCCCT TACCCATCCCCGTTCCTGCCAGTCTCACCCACC 297 R3HDM1 2507443 GATAACCTAGGGTCTCAGTTTAGCCACATGAGTCTTGCTCGCC AGCCATCTGCTGATGGTTCTGACCCTCATGCCGCCATGTTCCA GTCCACTGTGGTTCTT 298 R3HDM1 2507444 GTTATATCATGACAGCAGCCCCTCCACCACATCCTCCTCCACC GCCACCACCACCACCTCCTCCTCCTCCCCTACCACCTGGGCA GCCAG 299 R3HDM1 2507445 CCTACTGCTGGATATCCTGCCTCTGGTCATC 300 R3HDM1 2507446 ATGGTTATTAGTTGGGTTCTGCCTCTTTATACAGTGATTGGAGT GTCATTAGACCCTTTAAATTTAATATATTTTTGACATGGTATGC CATGTCATACCAGATTCAGGTATGCCACATTGCTATTTTTTTAT TTGCCCTATCTGTATTTTATTCTACTTTCCTGCATTTTATATTAT TTGAACTTTTTTTTTTTATAATATTGAATGCTTTACGAATTTCCG TGTC 301 R3HDM1 2507447 TAGCCTTAAGGTAATATAAGCCATATTTTAAATAATTTCATGCA TGATGTAAAGTTTTGACTGTAACCTGTCACATGAGGTCAGGTG TGGAGTTTCTTTTTGAGTACTGACATGACATGATGCTTTTGGCA TCATGTTGGTACTCAGAAAGTTAAAGATTTTGGAGCATTTCAGA TTTTGGACATTTGGATTTTTAAAATACTCGCCCAGGCTCA 302 R3HDM1 2507448 ATGCCAGCCTGTTATTGCGCTCCAG 303 R3HDM1 2507449 GCCACTATCACTCCAGCCAACCTCAGTATCGCCCAGTCCCTTC TGTTCATTACAATTCACATCTAAACCAACCA 304 R3HDM1 2507450 GTCTCTCAGGATCTCGAATATGTTCATACATATGAGTTTGCAAA CCAATGAGATTAAAAGAGTGAGCAAATCTTAGCATCCTCTGGA AAATACCACAGTGTCACGTCTACATGCTAAAGGGTTGGGAGCT GTACTGGGAATATCTTAAGCAGTTTGTTAAGTGGCTGCCATCT CTTACTGCCATTGAGATTGAAACTGTCTTTGCAGCCTGATAAAT CACCTATGG 305 R3HDM1 2507451 AAACAATTTTGATCTCAGTGTATAAAACTATCTTATTGATTTTTT AATGAACTCATTTCTCTGTATGCTTCT 306 R3HDM1 2507452 TCAGCCTTTTATAACTCTAGGAGTT 307 R3HDM1 2507453 AAGTTTGTAGCTTCACCATATACATTTAATATTTTGCAATAATTG GCCTTGTTC 308 R3HDM1 2507454 AGCTGTTGGATTCGGGGCCGTAGCACTGTCTGAGAGGTTTAC ATTTCTCACAGTG 309 R3HDM1 2507455 AGCATGACATCAAACGGACCTAATACACCTAAATGCATTTGAA GCTACTTGGTCTCGGTTCTTACCAACGATATAATTTAATTTTTTT TTCCAAACGATGATGTTGTTGCATACCTGTGGAAAGCAAAATG ATTCTGTGAAACTATACTTTTAGTTTTGCAACCATTTGATAACTT CAAAGATTATCAATGTATTATATCTTTAGTCTTAGCTTTCCAGAT AACCCAGA 310 R3HDM1 2507456 TAACCTGCCGCCACTGAAATCTGGAGCCAAATATATCTGGTAA GTACCCACAGATTTCCTTGAGTTGTATAGACTCTTCCATGGAAT AGTTCTTTAAATAGCTGTGAGCAATAAACTCTGTGTGACTGTTT TTGTTAGAATTGGTTTTTGTATATGTATATGTTTATTTCAGGCAC AGGAGTGAGAGAAGAGGGGATGAGAGATGAGAAGGGATAATC AAGTGTGATGGCAATTGCATCTCCTTCCAAATACACCCATGGG GCTGGCTTTAGTTGAACTTGCCCACCTACTAAAATAG 311 R3HDM1 2507457 TCGCCCATAAAACGTAGCAGCTCTCCTTGCACAAAATGTGTCC AGGTTAAAGCTGGCACTGCCCTGCTGAGTAAAGTCTGACTTCT TGGCAAAGCAGCCTGACTTTGTGGAGAAGACAGCCAGTATCT ATGAAAACTCTGCTAGACTAATCTTGTATAGACTCATCTGGAAT GTGGCAACAGACTTTTTGAGCAAAAGCAGCCTCCGAGGCAAA ACAGCAAAACTAAAGCCCAAAGGGAACATTGGAGATTCACTTG GAAATACTCAGGCTGAGAGACAGAACTGTGGGATGTGGAACC TGAAATAGTGTCACTATTTGAGCCAGTTCTTCTCCTTCCCAATT GTCTTTTGTTATGTTTTAATATTTTTAGAGATGGAGTCTCACTGT TTTGCCTAGACTGGAGTGCAGTGGCCCTTCCTAATTGTTTAAT ACAATTTATGCGTATAATCTAATTATAGTAAGGCAAGGAAGTGT AACTTTGAAATACATCAGTAGTAAACCACGCATCTTGCGGGTA GTGGACAAACCA 312 R3HDM1 2507458 GCCTGAGCGATAGAGACTGCATCTGAAAACAAACAAACAAAAA GAATAAGATACCATTGGAAATTTACTCATGCAGCTTTCATGAT 313 R3HDM1 2507459 ATGAATTCAGAGCAGGATTTAACTCATTGTACCATTACAG 314 R3HDM1 2507460 TACCAAGGAATAGTTGGAGTTCAGCAACCCCAGAGTCAGAGC CTAGTCAGTGGCCAACCCAACAGCATTGGAAATCAGATTCAAG GAGTGGTCATCCC 315 R3HDM1 2507461 CCATCAGACTTATCAACAGCCTGTTATGTTCCCTAATCAGTCTA ATCAAGGATCTATGCCCACAACAGGAATGCCTGTTTACTATAG TGTCATTCCACCTGGTCAACAA 316 R3HDM1 2507462 AGTCTTTGGAATTACCCGCAGCTTGGACCCAAATGAGGCAGAT AAACTTGAAATAAGGTAGATGTAAGCTGACAGTAGTGATTGGT CACCATGTGACAAACTAGCATTGATCTGTTCCAAGTATAGAGT ACCAATGTGAGAAATTGAATGAGTTGTACGTGAAGCAGGGAAT GTGTATTCTGTCAGACTCATCTTGGTACATTTTGGA 317 R3HDM1 2507463 CAGGGTCTTGATCCATACAGTCTTACTATGTTTTAGATGCTAAA TGGACTCTAGTAGCCTTCATTTTATTACAAGATTATAAGGAATA AGATTCCTATAAGAACACAAAGTGAGTCTTTGTTTTGAAAAATG TCTTACTTAGCTTGGGTTGCTTAGCAAAATTGTTTTCTTACAGA GGTTCCTTGTGTAGAAAGGTAGAATTTGAATTATTATGTCTACT TTCAGCTCATCCTTTCAGTTCACTGAGGCAACTTTGTGTTTGGA TTGGATTGTGTTGTTACTTATCATTATGAAGATTGAGCACAGCC TGATACAAGTCAACATATACTGTCACTTTAAGCGAGCAAAGTA CTAGTCAGGGACACTAATTTTACAACAACTCATGAGATTTTTCT CAGTCCTTAGTGTGGAGAGAAAATTAGTTTGATACCAGCAGCC TTCAAAAGTGGGCAAGTGAGTTGGATATCTTCAAAATGCTCTC ATTTTTACCGGTTCTTCTCCTATTTTCCCTTTCATTTTCACTATT TTTATCTTGAAATTCAAAACGATAATACCTTTGTCTTTGATCTAT ATTCTCAAAGGGGTAGCATACAGACAGGAACTTGAAAAGACTA TAGCCTTTTTTTAAGAACCTTTAAAAAATGTTTCACAGAATCTTT ATGAAATTATGAAAAAGAAAACCTACTTTTAAGTCTTTTTCCCTT TTTTCTGTCCACAGTCTGTTTTTCCTCATTTTTGTATCCTAGTAT TTCTCTAGTGTCCCTTTTGTCCTACTTGTGATACCTCTCTTG 318 R3HDM1 2507464 TTTTGGGTGGCAGATAACATTTTACTTAATTGGGGTTCAAAGTT AGTGTTCTTTGTCATCAAGTTGATTTCAGATGTTCATCTGTAAA AACCATTCTTAGCTTGGAGGCAATACAGAAGCAAGCAGTGGTC TGGGTTTTGCCTATAGGCCATAGTTTGCCAACTCCTGTACTAG ATGGTTGATAGCCAGCAAAAAAAAAAGACAAAGAGGCAGTGG TCACAAATGAAGACCAACAACTTAGGAAAAAGGAGTGTGGAAG CCAACATACAAGGAGATTT 319 R3HDM1 2507465 TCAGCCGACTTAGAAGCAATACAAGCCAGAAGACAGTGGAGC AACATCTTTATTTGAAGAAGTGAAAGAAAGAAAACTTGCATTCT ATACCTGTAAAAATATTTTTCAGAAACAGAGATTTCAAACACAC AAAAGCTGAATTAATTGCCAGCCACCTCGCACTGTGAGAACTG TTAAAGGAAGTTT 320 R3HDM1 2507466 AGGCAACTTTGGTGAGGCTTTATGGTGTGCATATACATAAAAC TCTTTAAATTATATACTTTATGTGTGGTTTATTTTCTATAAATTAT ACCTCAGTAAAACTATAAAATAATCTGAGTCTTAAATTTTTTCTT AGAGACTGGTTCTTGCTGTCATTTAGGCTGGAATGCAGTGGTG TGATCCTGACTCACTGAGGCCTCAACCTCCTGGGCTCAAGCA ATCCTCCTGCGTCAGCCTCCCAAGTAGCTGGGACTACAGGTG CACGCCACCACACCTGGCTAATTTTTTAATTTTTTTTAAAGATA GGATCTCACTGTATTACCCTGCTGGTGTCGAACTTTTGGGCTC AAGCAATCCTCCCACCTCAGTCTCCCAAACTGCTGGGTTTACA GATGTGAGCCACCTTGCCTAGCCTTCTTTTCTAATAGTTTAAAC AAAGACTAGTTTTGGATAAAGTGAAAAGAAATACTGTAAAACTA ACAAATTATTAAAAACAAGAGTAAGAATTTGTGAGGTTAAGATA GGCCACAGGGCATTTAATGGAGGAATAAAGGTAGACTTGAAC TAACTGTAAAACCTGTTACAGAGTCATATTGAAATGTTAAAATT TAATCAAAAGTGTTTTTTTCAAAAAGCAAATGACTAAAAACTCC TTTCAGCCAGAGGTGAGAGATCGGGGGGAAACAAAAAAACAA TAAAAAGAAAGTCCAAATACCTATGTTGCACCAGCCTGACCAA CATAGTGAAGCCCCACCTTTACTAAAAATACAAGAAATTAGCT GGAAGTGGTGGCATACTCCTGTAATCCCAACAAAATACATGTA AAACCTTTATGCCCAAAACCATCTTGTGATGTGGAAGATTTGTA CTCCCTATGGTTTATATCTTAGAACAGATGTCAGAAAACTACAG CCCACAATCAAAGAATGGTTTTTAAATTTGTAAAGGATTATTAT TTTTTAACTCCTAAGTGACCATGTGTTACTCAGAGTTAAAATAT ATACTAGCTGGCTCTTGCAGAAAAAGTTTACCAGCATCTGCCT TAAAAAAACCTTGGCAGATAGGTATCAGAGACATGTTTATGAA TGTTTGTAGCAACAATGTTTAGCCTAATACTGGAAGTAATCCAA ATAAAATGGAATAGAATGTGTAAGTATATTTTGATGTATTCATTT CAGACACTACTATACAACAAAGAAAATTACTAAAGTACAACTAC TTGTATCCAATTGGTTGAGTCTCACAGA 321 R3HDM1 2507467 GTTGGACAAAGTGGGTCACGCCTGT 322 R3HDM1 2507468 AGGCAGGGATGCTTCTAAGATACTAGCAATGTTCTGTTTCCCA

ATCTGAATGAAGTTACATAGATAATTATTTTGTTATTATACTTAA TTTAAACTGTAATATATTTCTAAGCACTCTATATTCGTCTGTTCT CGCATTGCTATAAAGAAATGCCTGAGACTGAGTAATCTATAAA GAAAAGAGGTTTAATTGGCTCACAGCTCCGCAGGCTGCATAG GAAGCATAGTGGCTTCTAGGGAGGCCTCGGGAAACTTCAATT ATGGCAGAAGGCAAGAGGGAAGCAGGCACGTCTTACATGGCT GGAGCCCGAGGAAGAGAAGAGTGGGGGGAGCACCACACACT TTTTAAAGAACCAGATCTCATGAGAACTCACTGTACAGTACCA AGGGGGAATGGTGCTAAACCATTAGAAACCACCTCCATGATC CAGTCACCTCCCAGCAGGCCCCACCTCCAGCGTTGGGGATTA CATTGTGAATGAGATTTAGGTGGAGACACACATCCAAACAATA TTACACTCAGATAGATAGATAGATAGATAGATAGATAGATAGAT AGATAGATAGATAGATAGATAGATAGATAAGATAGATAAGATA GATTGATTAGATAGATTAGATAGATAGATAGATAGATAGATAGA TTAGATATTCCAAACCCCAAAAAATAGCAAAATCATTCGAAGAG AGGCCTAAATATATAGAAGACTTTAGGAGAAAAAAAGCTAACA GAATGGGAGGAGAGGAATTGAAGACAATAAATAGAGACAGCC TTTGAAGAGAATTGCTTTCATAAGGATAAGCGTTGAATTGGATT CGTATATGGAGAGGATGAAGTCAAGACAGAGGATCCTTTTTTG ATTGAAAGATAGATGCATGTGTTTGTATGCTGAAGGGAAAGGC TTAGTAGATACAGAAGATTTGCCTCTGCAAGGGACAAGAGAGA GAGTTGTAAGGTCCCCAGGGAGGGTGAGAGCCACCACAAAAA TGGAAGCGGGTTAGCCTTAGATAACAGTGCAGAGGATTTCAT GGGCAGTAAACGAGGACAAGGAGAGTATAAGGATACAGATAT GGGTAGATGGATAGATATGGCAGCAAGAGAAATTCTCTTCTGA TTGCTTTGCTTTTCTCAGTGAATTAGTCAAGATATCAAGTACAT TATCAGAGTAGAAGAATGTTCTAAAGTTTTGTAAATGTAGAAAT CCATTACAGCTATATTAAGACTAATATTCAAAGGAAAGAAGCAA GATACAGGGGAAATGTGACAAGTATGCCTAATAAAAGCTTATT ATATAGAACATTTTTATCACTTCTCTATGTTCTAAGATGGTAACA GTGAGACTACAAGTAAATAATCCATAGAGATAAATTGTTACTCG AAGAAAACTGATAGTAAGTTTTCACATGGGAAAATGTTGTCTTA CCAGCAATCCAAAAAATGAGAATTAAGGCAACTTGAACACAAA AAGTAGGCTAAAACATATAGTTAGCAATACTGTGCATAGAGAC GTTTAAACATTACTGGTTGCTAGGCATATCAAGCCCATTTTTCT ATAAATCAGTCGGGATATTTAACAAAATGCAAAATTGCTGTACT TTTAAATTCTACCTCTAAAATTTTATCACAAAGATAATCCACCC CAGAATTTAAATTGTGGCTAAACAAATTATAACAGTGCTATTAT TAACATAAGAATCCAAATAAAAAGATGCAAAAAAAAAAACATGG AGTAACCTGGTAACCTTTGAATAGTTTAAATTTTCTTCTCCATTT ATTTTTCTGCTAGGCTGATTAAGTTTAGCTTAAGTCATAGTGAG ATTTACTTAGTTGTCACAGACCGTTTCTCAGATAGTGGGACCA GTGAGTTTTAAAGGTGTTTGTTCTGTGTTAATTGCTCCAGTATC TTCAATTCAGAAGAATAAATGTTTGATATTCAGGCTGCTATAGT TCACAAATGGATTTTATTGATGACTTACAGCATTTTAAGTGAAT AGAGCACATGTCTATTAAGTAATATTATTAAGTTCAGGAAGCTT GCTTAACTGCCATTGACAATAAGATGTAGGGTGGTTTAAAAAG GCAGAAAACCAAATGACTTAACACACCTTGACAACTGTTCATA AATTTTCAAAGACATCGCTTCTAGTAGTCACTAAAAGCTGTAGT AGATGTATGACTTGCTTTTCAAATGAATCAATTATTGCTTGAGA AGAATACACTTGTTCCTATTCTCCCATCTAAAAAATAATTTGAA ATAGCAGCCATGAAATATTTACAAAAACATAAAGAGAAAAGAC ACATGATGGCAGTTTATTTTCATGTGGAATTTCCCATGCTATTA ATTTTCCTAAGTCTCGACCTTTTGTGGGTGA 323 R3HDM1 2507469 CAGGAGCATCAGAGACATCTTTGTG 324 R3HDM1 2507470 GGTATATATACCCTCACCACAAAAAATATATATAAAATGGAAAT TACTATGACTTTGAGAAAGCTTATGAGGCAGAAAGTTGGTGTT TTCTTCCAGAGACTACAAGCCTAGTTGAGCATCTGACCTGCAA ATGAATTGGTTATT 325 R3HDM1 2507471 TCTTCAGTAGGTTACCTGCAACATCCAGGATCAGAACAAGTAC AATTTCCTCGAACCACTTCACCATGCAGTTCCCAGCAGCTTCA AGGCCACCAATGT 326 R3HDM1 2507472 TGATGATGCAGCTCAGTGTACCAAACAATCCACAATCTTGTGC CCACTCACCCCCGCAGTGGAAACAAAACAAATATTACTGTGAT CACCAGAG 327 R3HDM1 2507473 TGATACCTGATACCAGTGGGACATTTTACTTGACAAATTGGCC CTGTTACTTGAATAGATGGCATTTTGAAATAGGAGCTTGGTCT GTTATACATTAAAAGAGACTCAAGAGGTATAATATCAGATATAA TGTATGGATCTTATTTGGATATTGAATGATCAAAAGACATTTTTT AAGGCCAGGCGCAGTGGCTCATGCCTGTAATCCCAGCACTTT GGGAAGCTAAGGCAGACCTGGAACGCAGGAGTTCGAGACCA GCCTGGGTAACATGGTGAAACCCTGTCTCTATAAAAAATACAA AAAATTATTCGGCCATGGCAGTGTGCA 328 R3HDM1 2507474 GGCCATCTTGGCTATGCCAGAAAGTAAGGAAGGGATGGAAGA AAAATAGGGACGTCTTGAAGAATACAGGATCAGGAGTGGAGG TTTGGGGCATAAAACAATGATAGAAATGAATGATCATCCATAG AATAAAATAAGAATTCATGAGTCCATACTGATAAAAATCAATAA ATGGAAAATGAAACTGTCTTACCTTAGTGTAATATAAAGTGATA AATGTAGAATCGTGAAATTAAAAGATCACCACCAAGAAAACCA TCAGGCAAGAGTCACCACTAGAGGCTACAAAA 329 R3HDM1 2507475 AGCCCTCAACTCAGTAGCCCCATTATTTCACCAGCTCAGTCGC CAGCACCAGCTCAGCTGTCCACCCTGAAAACTGTACGTCCCT CTGGACCACCACTTTCCATCATGCCCCAATTTTCTAGAC 330 R3HDM1 2507476 GAGATTCCAGGTATCCATTACTTGGCCAGCCACTGCAGTACAA TCCTCCTGCTGTTCTGCACGGACACATT 331 R3HDM1 2507477 AAGACAACTAACCTCCTAGGCTTTGTTGCAGAACATCATAGCT CCCTCAGAGT 332 R3HDM1 2507478 TGAAGGACAGGAATGCCACTGCCACAGGCAGAATCCAGAAGG CCTGGGACTGATTTTCTTCTGCCAGAGTGCAAAACCCAAACTA 333 R3HDM1 2507479 CATTATTAACGTTGTTTCTCAACTATTTGTGGGTTTTCAG 334 R3HDM1 2507480 GAAGGAGACAAGCTAAAAAAGCTGCATCCA 335 R3HDM1 2507481 GAAGGTCTTGGAAATTACTGAACTACCAGATGGAATAACTCGC ATGGAAGCTGAAAAGCTTTTTGGGGAACTCTTTAAAATTGGCG CCAAGATCCGGTGGCTCCGGGACCCCCAGTCCCAACCACGTC GTCACCCCCTCTGCTGTGGCAGTGGGGACAACACTGCCAACC CTGAACGCTCTAAACCCAGTGACTTG 336 R3HDM1 2507482 GACTCCTAGGATGTGTGTTCATGGCATTATAGCTTTTGAAGAA AGGCCAGTGATCCAGCAAAGGGGGAAAAATATGCATTTCACC CCACATGACTAGGAATCCACATCAGAATGATACAGAGTTAGCA GGTTTTTCTAAGGAAATGCCATTCAAATGCCTCCTAACTTTTAT AGTTATTTTGTTTTATATTTCTAAATTCTTGTATCAGATCCAAAG CTCTATTGTACAGCAAATTATTCTTCAAAATGATTATAACCAGTT GCACCCTGTATTTCTTTTTGCAGCCAGCACAATGTGACCCAAC TTAAAATTTGGGGGAAAAAGAATGCAGGAGTGAAATAACCAAG TCAAAACCATGTACTATCTCCTTGGGGGTTAGGGATGCTAAGA AGAGCCCACAAATAGAGGATTACTCTTCCCCTGAATCTCTAAA CTCAGAAACAATTACCAAAAAATACATAACTCTTCCTTGTAGGG CCCTTTCCTTATTCATTTAGGTAGTGTGAACATTAAGTATAAAA TAAATTATGTTCTTAATGCCTCTTAAACCACTTACATTCAAAGG GGAACAGAAATCATTCTAAGCAGGAAAATACTTCCACTTTTTTT TTTTCAAGTATCTCTCTAATAACTAAATGCCACTTATTTGCATTC TCCTTGTGGATTTTTTGTCACCTAAGGAAATGCATTTGATGAGT GCTGGAAACTTCTTAAGTGCTTTACAGTTTGTTTTCATTGTTTG CAGCGGATCACTGGACATCAAAGATTCATTGCACTTATGAACA AGGAACCTTCTTTTCAATTTCTGTGTAATTTGCAAGGCTGTACA ATGTGTGCTGATGCAAGCC 337 R3HDM1 2507483 TCAGTTCAAGAGAATAAATGTTTAC 338 R3HDM1 2507485 ATCTTCACTGCTGTTCAACATTATAATGGAGGTATTAACCAATA TAGTTAGATACATCGATTTAAGGCATAAGAATGGGTAAAGAAG AAAGACTATCTCTGCAGATTATATGATAACGGGTTGAGCATCC CTAATCTGAAAGGCTCCAAAATTCAAAACTTTTTAAGCAGTCAC ACGATGCACAAAGTAAA 339 R3HDM1 2507486 AGGTACAGTAGTTTCTTGTTGGAATAA 340 R3HDM1 2507488 TTGTTGAGAAAAGGTTACCCTCTGACAC 341 R3HDM1 2507489 GCCTAGACAACATAATGAGATTCCATCTCTATAAAAAAATTAAA AATTAGCCAGGTGTGGTGGTATACACCTGTAGCGCT 342 R3HDM1 2507491 TGACTCTCCGGGTCACGACGTTAACCAAAAAATAAGACAAAAA GAGAATATATTCTATATGATTCTAATTATATGAAATCCAGCTGC AGACAAACTAATCTGTTATGTTAAAAATCAGATAGTAGTAGAGA TGGGGTGTGGAACTGACTGGGAAGGGACTGGAGGGAACTCTT CCAGGGATGGAAATGTTCTTTAAGGGGGTGGGGGAACAGGGT ATGGTTACACGGACTTTTACAGTTGTTAGAATTCATCAGATTCA ACACTTAGAATGTTTATTTTATTGATTGTATTGTATGTTAATTAT ATCTCAATTTCCTTAAAAACTTACACACACACATATGCATGAGT CAGCCCACACATGTAGAAGA 343 R3HDM1 2507492 ACAGTCTGGTATGAATGCCGCAGGAGGAACACCTAGCCCAGC CTATTAGGAGGGGTCTTTGTACTGCTGACTATAATCTTATCTC 344 ACO20571.3 2521178 AAGGCAACTGGTCTGATTTTTCAGGTAAGAACATATGAGAGGC AGGCTGAGACCAATTTTCTACCAGGCCAGCTAATTCATCACAA TGACAAGCTATGGGTCATATGCTTTCAGGAACCAGACACTGGA ACATGTCGTCTGATGTAC 345 ACO20571.3 2521179 GAATCCAATGGGGAGTAAGAGAAAGTCCCTTTTCAAGGAGCT 346 ACO20571.3 2521180 CATGTGTTCGGAGACAACCAGAAGCAGCAATGCTCAAAACCA CAAAACTCTGGATTGCCGACTCTGCACATCCTGGTTCCTCTAG ATACAGTTCAGTGGCACATTCACAAATAAACGTTTTCAAAAACT GCCCTCAGGCAGTTCTAGAGAAATGCTTTGACTTGCCTAATGG TATAATGTCAAGAAAGGAAGACGAGCACTGATCATTCATACTC ATTATTACAGTCACAGGGCACTGTCTGACTTGACAGATACAGC CGAGCAGTTAAAAGGTTATGGGAATTTAAGTCCATTATGGTCA TACGATTCTTATGGACCCAGAGATATGAAATTAATCAGCCACA TGTGTAGGGACAAAGTT 347 ANO7 2536218 CCCGTTTTGCCAGCCCAAGACTAGGAGCCACGGCACCTGTCC T 348 ANO7 2536219 CGGGCACTCACTGGATGGACAGACAGACGCCTGCTGTGCCA GGCCTGCCAGACGCTCCCGCCCCGGCACTGGTTTCTTCCTGG AGCTCGTGGCTGGCTAGGGGGTTCTCCATGTGCTCATGGCCA GGAGAGTCTGCCGAGCCAGCCCAGCCCCATTCTACTCCGAGT CGAGTCTGTA 349 ANO7 2536220 ATGCTGCGGCGACGGGCCCAGGAAGAGGACAGCACCGTCCT GATCGATGTGAGCCCCCCTGAGGCAGAGAAGAGGGGCTCTTA CGGGAGCACAGCCCACG 350 ANO7 2536221 CCAGGTGGACAGCAAGCGGCCGCCTGCAGAGCTGGGAGTCC TGCCAAGCCCCGGATC 351 ANO7 2536222 CTGAAGCTAGACAGGCAGCAGGACAGTGCCGCCCGGGACAG AACAGACATGCACAGGACCTGGCGGGAGACTTTTCTGGATAA TCTTCGTGCGGCTGG 352 ANO7 2536223 TGACCCATGACCTTGCCGCATGAGGCCTGAGGGCATGGTGTC CAGAGTCCCAGAGCAGATCAGGCCCCAAAGTCCTGCTGGACC CCCCAGCCACCGTGAGCTCCTCCGTGTGGCTAGGGAGCTGCT GTCCAGAGGCGGAGGTAAACATTGATCCCTCCTGCACACTCA GCTCTCTCATGGAAGTCGGAGCCCTCAGGGTCACCTGAAAAC TCT 353 ANO7 2536224 TTGCCATTCACCTGTCCCGTCTCCAACATTAAAGCTT 354 ANO7 2536225 TGTCGAGGCCCGGTTGGCTTTCAGAGGCGTATCCATGGGAGT AGGTGTCATGTATCAAATAGGAGATTCAAAGTCAGCTGTTACC ACGGCTACAGAAATGCCAGTCTTTTCCTAAGAGTGCGAA 355 ANO7 2536226 AGGACGGGAACACCACAGTGCACTACGCCCTCCTCAGCGCCT CCTGGGCTGTGCTCTGCTACTACGCCGAAGACCTGCGCCTGA AGC 356 ANO7 2536227 AGTTACCCAACCAGGCCTCCAACTGGTCGGCCGGCCTGCTGG CATGGCTGGGCATCCCCAACGTCCTGCTGGAGGTTGTGCCAG ACGTACCCCCCGAGTACTACTCCTGCCGGTTCAGA 357 ANO7 2536228 CTTCCTCGGGAGTGACAACCAGGACACCTTCTTCACAAG 358 ANO7 2536229 TATGGCCACGAGAAGAAAAACCTGCTTGGGATCCACCAGCTG CTGGCAGAGGGTGTCCTCAGTGC 359 ANO7 2536230 TTCAAGACGCCCCCAGAGGGCCCGCAG 360 ANO7 2536231 GCTCCACGCCTCAACCAGCGCCAAGTCCTTTTCCAGCACTGG GCGCGCTGGGGCAAGTGGAACAAGTACCAGCCCCTGGACCA CGTGCGCAGGTACTTCGGGGAGAAGGTGGCCCTCTACTTCGC CTG 361 ANO7 2536232 CTTCCTGGTGTTCTCAGACATACCC 362 ANO7 2536233 GGCAGCAAGGACAGCTTCGAGATGTGCCCACTTTGCCTCGAC TGCCCTTTCTGGCTG 363 ANO7 2536234 CCGGCTGTTCGACCACGGCGGCACCGTGTT 364 ANO7 2536235 CTGCTGGAGTACTGGAAGCGGAAGAGCGCCACGCTGGCCTA CCGCTGGGACTGCTCTGACTACGAG 365 ANO7 2536236 CGAACCCCATCACGGGTGAGGACGAGCCCTACTTCCCTGAGA GGAGCCGCGCGCGCCGCATGCTGGCCGGCTCTGTGGTGATC GTGGT 366 ANO7 2536237 TGTGCCTCGTGTCTATCATCCTGTACCGTGCCATCATGGCCAT CGTGGTGTCCAGGTCGGGCAACACCCTTCTCGCAG 367 ANO7 2536238 CATCGCCAGCCTCACGGGGTCTGTAGTGAACCTCGTCTTCAT CCTCATCCTCTCCAAGATCTATGTATCCCTGGCCCACG 368 ANO7 2536239 GCCAGAACGTGACTTTCTCACTCACTGACACACATGGCCCTCA TTTCTATT

369 ANO7 2536240 AAATGCACCGCACCCAGACCAAGTTCGAGGACGCCTTCACCC TCAAGGTGTTCATCTTCCAGTTCGTCAACTTCTACTCCTCACCC GTCTACATTG 370 ANO7 2536241 CCAGGCAACTACCACACCTTGTTTGGAGTCCGCAATGAGGAG 371 ANO7 2536242 TCTTCCATTCGAGCTTTGATTTGCAGCAATTCCTCCCACCACC GGCTATTTCCATCGCCCAGCCAGGG 372 ANO7 2536243 TGGAGGCTGCCTGATCGAGCTGGCACAGGAGCTCCTGGTCAT CATGGTGGGCAAGCAGGTCATCAACAACATGCAGGAGGTCCT CATCC 373 ANO7 2536244 TGGTGGCAGAAGTTCCGGCTTCGCTCCAAGAAGAGGAAGGCG GGAGCTTCTGCAGGGGCTAGCCAGGGGCCC 374 ANO7 2536245 TGTGAGGGTCTGTTTGACGAGTACCTGGAAATGG 375 ANO7 2536246 GAGCAGGTTTCTGCCCCAACGCCTGCCCTGAGTTAGTTCCTG AGCTCACCGAGCCGGAGAAGGCCCGTGACCAGCCAGAAGCA CGGAGCGCAGGGC 376 ANO7 2536247 TGAGGGCGGACGGTGGCGGAGAGCCCGGCCGTGACCC 377 ANO7 2536248 CTGCAGTTCGGCTTCGTCACCATCTTCGTGGCCGCCTGTCCG CTCGCGCCGCTCTTCGCCCTGCTCAACAACTGGGTGGAGATC CGCTTGGACGCGCGCAAGTTCGTCTGCGAGTACCGGCGCCC GGTGGCCGAGCGCGCCCAGGACATCGGCATCTGGTTCCACAT CCTGGCGGGCCTCACGCACCTGGCGGTCATCAGCAA 378 ANO7 2536249 CTTCTCGTCCGACTTCCTGCCGCGCGCCTACTACCGGTGGAC CCGCGCCCACGACCTGCGCGGCTTCCTCAACTTCACGCTGGC GCGAGCCCCGTCCTCCTTCGCCGCCGCGCACAACCGCACGT GCA 379 ANO7 2536250 AGAGTATCCTGTTTGGGAAGAATTCCCATTTCAGGCACCCTCG ATGAAGAGCCAGGCCAGGAACATGGGATGAGAGAGCGAAATG GTGGAAAAAGGGGAGATAGGCTAATTCCAGA 380 ANO7 2536251 CCTGGCTGCGCGCACTGAGTCCTGTGTCTGCTG 381 ANO7 2536252 GTATCGGGCTTTCCGGGATGACGATGGACATTATTCCCAGAC CTACTGGA 382 ANO7 2536253 TCCCATCCATGGCATGAGGCCCCGACCCTGTGCTTTGCCTAAT TCGAGCACGTG 383 ANO7 2536254 TTGGTCAAATCAGAGCTCTTCTCTGCACCTGCGTTTTCCCTGC CTGGCCTCATCCCTGGGTTGTGGTGTGGACATTGTGGGTGTC TCCACAGGAGCCCCAGGGCCACGAAAGCTGGGGTGGC 384 ANO7 2536255 CTGGCCCTGTGAAGGCCACTCTGGGCGTTTGGGTG 385 ANO7 2536256 ATGTGGTTTTCTCCGTTGGCCGCCTCCTGGACCTCCTGGTGC CTGACATCCCAGAGTCTGTGGAGATCAAAGTGAAGCGGGAGT ACTACCTGGCTAAGCAGGCACTGGCTGA 386 ANO7 2536257 TGAACTGTACAGCCCAGTCTCGGCCCTCCCCCCAGCCCTCTC CCTATCCTTGTCAGTGGCTGCTCTACCTCCGGACACTGAGTCA CAT 387 ANO7 2536258 ACGGAACAAAGGATGAGCAGCCCGAGGG 388 ANO7 2536259 CGTGCACTCCCTGAGGTCACAGGGCCCTGCCCAGCCGCCCA CTGTGCCTCGTGGCCATGGCCTGCTCCTGGCCCTAGTCTGAC TTGTCCCTGC 389 ANO7 2536260 GCTCCCACTGGACACCCTTCACGGTTCCCAAGGCCAGCCAGC TGCAGCAGTGACGCCTGGAAGGACATCTGGTGGTCCTTAGGG GAGTGGCCCCTCCTGAGCCCTGCGAGCAGCGTCCTTTTCCTC TTC 390 ANO7 2536261 TGTGTGAACCGCTGGCTGCTGTTGTGCCTCATCTCTGGGCAC ATTGCCTGCTTCCCCCCAGCGCCGGCTTCTCTCCTCAGAGCG CCTGTCACTCCATCCC 391 ANO7 2536262 TTCGAATGTTTCAGAGCGCAGGGCCGTTCTCCCTCGTGTCCTC TGGACCCACCCGCCCCTTCCTGCCCTGTTTGCGCAGGGACAT CACCCACATGCCCCAGCTCTCGGACCCTGCAGCTCTGTGTCC CAGGCCACAGCAAAGGTCTGTTGAACCCCTCCCTCCATTCCC AGTTATCTGGGTCCTCTGGATTCTTCTGTTTCTTGAATCAGGCT CTGCTTTCCCCCTAGCCACTACAGGCAGCCTCTGACAGTGCC GCTTTACTTGCATTCTGCAGCAATTACATGTGTCCTTTTGATCC TTGCCCAACTTCCCTCCCTCTCCCAGCTCCTGGCCCCTGGCC CAGGGCCCCTCTTGCTGTTTTTACCTCTGTTCCTTGGGGCCTA GTACCCAGCAAGCACCCAAATGGGGGAGGTTTTGGGATGAGA GGAGGAAACGTGTATACCTGTAACATCTGGTGGCTCTTCCCCC AGAAGTTTGTGTTCATACATAATTGTTTTCCACGCTGGATCATA ATGTGACGTGCAGTTCTGCCCTGTGCTGGGGAGCCACATGAA GCTTCCCCTGGCTAACTTGCTACCCCGCAGCAATCCCAGTGT GGCCGTCTGCTTGCTAAAAAATG 392 FTH1P2 2545844 TCACTACTGGAACTGCACAAACTGGCCACTGACAAAAATGACC C 393 MIR4435- 2570866 GGAAGTCCAGCCTTACCAACTTGTGAACCTTGTCTGAAGGGA 1HG GCCAGGGCCTGCCAATGGAACCACCTCCAGGAGCTGCAACTG CTGTTGTCATTAATACCATTGTGTCTATTTTTTGAGAGAGATAA ACTTTTCATGGTGTTACATTTTGGAAAAAAAAAAAAAAGACTAG GTGAACAGTCAGGTAGGAAAGCAGCATAACAGTCCCTTAAATT CTGATCATGTAGGACATTCTTCTTTGCCCTGGGCCTGGGAAAA TGCAGCATGTTCCAGAGCAAAAGTCCTAATGAGGGGAACTAAA CCAGTGGGACCCAAACCAATGTCCTGGCTCACTGAGGACCCG TTAGAACCAAATCTCTGGGTGTGGACAGGCTCCCATACTTTTC AAAAATTCCCCTGATGACTAATGAACAACCAGAGGTAAGAACC AGTGGCCCAGAGGAATAACCAGCCCAGCTGTTGTACGAGCTC GCTAAGCTGGCTCAGGTCAATGTTGAATTCTCTGCTAGGCAGC TCCTCATAAGAACTGGCAGAGATGGTTCTTACACAACAACAGG TGACAACTCCAGACTCTGCCGGAAGTTCCAGGATCTGGGTTC CCGGACAATGCATGACAC 394 MIR4435- 2570867 GGTTATCTTTCCTCCACTCGAGGGATTGAAGCTAGGCTGTCCC 1HG ACGGCACCGGGCTCGTGGC 395 MIR4435- 2570868 CAAAGCCACGCATGCAGAGAGGTTACCAGTGTCCATCCAGAC 1HG GCCCACTTCACAGACAGGTAGCCAAGCGCCAGAGCCCGGCTA TTGTAGCCCTAAGTG 396 MIR4435- 2570869 ACATTCTGGATGAAAGAAACTACTCAAAAAGAATGTTTACTGTA 1HG TGATTCCATTTTTATGTTTAAGAACAGGTAAAATTAACCTGTGA TGACAGACATCAGAGTCATGGTTACTCCTGAGGAGAGGGGTT TACTAGATGGGACA 397 MIR4435- 2570870 CCTCTCAGATCACCCAGGAATTCTACTCCTAGGTTTTTCTCAA 1HG GGAGAAGTTAAGTGCAAATATCCATCAAAATGCTCATAAATTTT ATTTGTAATAGCTAAAAACAAGACACAACTCAAATACCTATTAA ATGTTTATCTAGACACAATCCAAATGTAATACAGTCATGCTCTG CACAATCATGGTCCCATGAAATTATAATGGAAGGAAAAATTCC TATCACCCAAGTGCACACTGTTTATAAAGTCCACAGCGGTGT 398 MIR4435- 2570871 GCACAAATGGTATTCTGTATCTGAAAATTGTTTGGATTAACTTT 1HG TGATTCTTGCCTGGTTAAAGAATTACAATTCTTACCTCAGATCA TGCTTAAACTATC 399 MIR4435- 2570872 TCTGGAAATGTAACTACTATAATGGACCTTACAAATGCACAAAT 1HG GGGGCCGGGT 400 MIR4435- 2570873 GCGAGTGTTCTCATTGCATTCGTGACCCCATTGATCTTGCAAC 1HG AGCCCCATGCATCAGTTATTGCCATTATACCATTTTACCGATAA GGAAACTGTGGCAGGGAGGGGTCAAGCACCTTGGGTATTTGA CAGCAAAACCAAGGCTTGGTGGTATCATAAAACTTCCAAGTAG TAATTCACAAAGGTGACTGGGAAATGGAAGTGACCAGAAATCT TTGCACTATGAGGACAAGTTCATGACCCTGATACATTCTTGTC CAGGTAGTATAGCTCCAGA 401 MIR4435- 2570874 CTACTGCATTTCTGTCACTCGCTGAAAAGGACACTCTGTCAGA 1HG AAATCTTCTAGCAAACTTCAAAGGGCAAAATCACCCCTTGTTA CTGATAAAGCCCAGAGAGCTTCAGCAGCTAACATTCCCTGGA CAGGGCACAGCAAGGATTTGAACCTAGGTCAGTCTGGCCAGA ACACCCACAAGCTTTCCTTAACTCAGTGTGCTATCTCCCCACG ACTAGGTCACTACTGCTTTATAATCACCTTTGTAGCCACCAGT GGATTTTGCTCATCAGTATTTTTCAGGCAATTGATACTTTAGAT ATTCAGCTGCAAGACGTATGCAGTTTTCATTGACATCTTTTGGA GAAACTGACAAACCTGGACTTGACTTAATGCCTTTGGAACCTT CCAAGATGTTATATAACTCTAGATAGAAGGCTGGGCCTCCATG ATGTCAGGAATGTTGCATTCTTATTTCCCCATAGATAAACCCAT TTGTCCACAAAGTCAAGGAGTCAGGCAGAGGCCCTTGCCATG GGGCTTTTTAGGATAAAGCAACAAGCCTGGACTTTGCTCTACA ACAGGGTTTTGCATAGGGAGTGGTATGACCAGATCCCTCAAG AA 402 MIR4435- 2570875 GGTGGGATCACTCAGATTCTACAGATATTAAAAGGATAATAAG 1HG GAAGTATTGTAAACTTTTATGCCTATAAATTTTAAAACTTAGATA AAATGGATAAATTCCTGGCAAGGCACAATCTACCAGAGCCCAC TCAAAAAGAAAGAAAGAACCCAGACAATCCTCTATTTACGGAA TAAATTGAATGTTTAGTTTAAAATGTATGCATGAAGAAAATTCC CGGTTGACATGGCTTCACTAGTG 403 MIR4435- 2570876 CAATAATATAAAGGTCAGAAGGGGAGAAATGGAAGTATCCTGT 1HG TGTAAGTTTCTTATGCTATACGCGAACTGGTATAATATCATTTG AAGGTAGGCTATAATAAGTTAAAGATGTGTTCTGTTAATCCTAA GAAATATGAAAATAACACAATAACAAAGAGTTACAGCAAATAAG ACAACAAAAGAGATAAAGTTGGATCATAAAAATA 404 MIR4435- 2570877 CAAAGGTTTCTGCTCAAGGGTTTCTGCTGCAGTAATTTGTGAT 1HG TCTAAGTATTTTCTTGTCAGTCTTTCCAATTTAAGGGGCAGTAA ACCTCACTTCTCTGATGGATCTAAGAGTTGTTAATTAATCAGTT TGTTCAGCCTTTTATTTGTTGTTAGGATGTAGTGACAACTTCCA AGCTCCTTACGTACTGGATTGCAAACCAGAAGTCAAACTATTC CTTAGAAATGAAGGGGAAGTAAAGTCATTTTCAGATGACAGGA TACTAAAAGAATATGTCACCAGAAGACTTGCCCTTAAGGAATG ACTAAAGCA 405 MIR4435- 2570878 GCCACTGCTTTGCTGAGTCATTCTACTATGCAGCCCCTCAGAC 1HG ACAAAGCCCGGCGGCCACCTGCCCACAGAGGCACAGAGGGC CAGCCAACTGCAAGCACGGAACTTCAGGATCTTGCTTTTCGG GTTATTTTCACTACTGTAATTTTTTTGTCCTTAGGTAAAAAGGAT AATAATTGTGGAAAATTATGTCCTTAGGTTAAAAAGATCCTGGA TCATGCCAGATATTAAAATATGGATAAAATTGGCATGATCTTGG AATCTGAACAGAAAAGAAGCTGCTTTTAGCTGTTTTCAACTGTT TTTAGCTTTTCTGTCTAAACAGCTGTTTA 406 MIR4435- 2570879 CTTAGCTGACATTACTTTGATCATGAACTTTGTTGCCT 1HG 407 MIR4435- 2570880 TCGCTGGGGTATGACCATTCCCCTGGCCTTCCTATCTTCCCAT 1HG CTATGCCCAACATGGCTGCCAAGGGGATCTGTCCTAAATGCA AAGTTAGCCATGCCTGCCC 408 MIR4435- 2570881 GGGGAGGATAAAATTTGGAGCAAGATTCTCAAGGAAGCAACA 1HG AGATCCTAAG 409 MIR4435- 2570882 TCTTGGACGAGCCTGAGGATGTCTACAAGTGGAAGAA 1HG 410 MIR4435- 2570883 TGGAGGAGGATCCAAGGCTCAGAAAGAGAAGGAG 1HG 411 MIR4435- 2570884 TGCCTATTGTTCTGGATCATTTTGAGAAAAAAAAAGAGATACCT 1HG TGAAGAAAGATGAAGACAAAATATGGAAGGGTGCTGAATTTAC AAAAAGCCTAAGGGGAAAAAACTCAAATGTCCCTCAGGAGTG GAATGAGTAAACAAATCATGGCGTGTTCACACAATGGAATGCT ACCTACCAATAAAAAGGAATGAACTGCGGATGCACACAGAAAC ATGGGTGAATCCACTAGGCATCATGTTG 412 MIR4435- 2570885 CAGCCATTTGCAGAGCATTGGAGTAAGTTTTACCTTCATCCCT 1HG TAGATGTGAATTTGTTATCCTCACTGTGACAATCCCTTATCACA TGGCTTTTAGAAGGATTCTCAAAAAGCTAGACTCTCACATTCAA CTTTGCAATTGCCTGGCTGGGTGTTACGTTTCTTTGCCTCCTA TTAGAGACCCTATCAGCATCTAAAACTAGCGTTGTTTGAGGAT GTTGGAGCCAACGGTTCTTTGCCAGATAGAACTTTGTGTGTCC AAATAAATGGTTCAAAATCATCAAGCAAATAAATACCCTGGAAT AAGAGAAGCCTCATGAGGATTTGACTCCAAATTGACTTCCTCT GTTCTGCAGTAAGAAGTTAGGAATTAAACCAAACCTTGCCTGA GGTTCAGGTATACTCAAAAGCAATGAGGTGTGGCTCAGGTGT GCGCTGGCAAGGTCACTGTGAAGTTCAGCCAGAGGCTTTGCA AGCCTGGGCCTGAGAAGCCAGACCTCTTAGATCCAGAAGGGC CAATGGAGCTGGGCTGGCCTGCTGCCACTCACAGGCAGAGA CTCTGCCAGCAGAAGGGACTCTGCTGTCAGAGCTGGAGGGCA GCGGACCACATGGCTGAGGCCCAACCACAGGTCTCCTGACTC AAAACCTCTTCCCAGGGCTTGTCCTCCTCCCTAAATATATGTG CCCCAAATTGTCACCAGATCTCGGGAAAGCACTGGCTTT 413 MIR4435- 2570886 GAGGTAGACACTATTCCCAGCTGGATACTCTCAATGTTGAGGA 1HG TATAGATGCACAAACCAATGCAGGGAGGCCTCCAGGAGCCAC TGGAGAAGAAATCTTCAGATCCTACCAGGCCCATAGCTGTTGC CTTTGTGGGCTCCTGGGTTAATTTCCACACATCAGTGGCCCAC CTTATGATATCCTCCCTGCATGCCACACTCCCGGCCATGCTCT GTGGACAGCCATTATTTCCAGTAATTGCTAATGGGAGCCAGTC TCCAAAGAGTAATGAATCAGAGGTGTTCCTTGGAATGTGTTAC ACTAGGACTTCGCCGATCTCACAGGCTCCTTTCCAGATGAGCT GACTGTAATCTCTGGGAAGCTGGATCTGGAGGAACAATGGGA TGGGATTTGCGGTGACCCTTCCTGCCCTTCTTGAGCAGCTTGT GAACCAGAAGATGTGCCTGGAGAGAAAGCCTCATTTGGGGAA GTGCAGTAGTC 414 MIR4435- 2570887 CAGATCTCAGCTGCCGAGTGGAAACCCCATTCTCACACCATA 1HG GCTATGGGACTGGGGGAAAGGGGAGGAAATAACTAAAGAGTA AGGAATTGGGGGAGGCTTTGAGGTTTGGATGTGACAGGTAGT TTGCATGTAGTTGGAATGCAGTAACATTGGTCCACAAGGTT

415 MIR4435- 2570888 GAGCACGTGATCACTTCTCACAACTAATGGAGCCAAGATTCTG 1HG TCCTTATGGCTCCAGAGACCTCTTTTTTTTCCCACTGTACCACA ACACTCACCAGGACTGGAGTGCCACCTATGACCTCATTGCATA ATGGATGGCTTGTCCTCA 416 MIR4435- 2570889 TTAAAGATCTGTAGGCTTACTAGCCATGACAATGATGACAATA 1HG ATGATGATGAAAATGACATCATCATTACCAATAGCTACTGCCAT CTATTGATCCCATAACATGTGATCATATC 417 MIR4435- 2570890 AGTCATGTAGTTTGAGCACTCCAGATTTATTTTCCTAATTCAAG 1HG ATTGTTATAGATACGCTAGATTCTTTGCATGTCTATATAAATTTT AGAATCAATTTGTAAATTTCTACAACAGATTCCTGCTAGCATTA TTACTGGGATTGCAATAACTCTACAGATCAATTTGTGGAGAAC TGACATCTCAACAACATTGAGTCTTCCAATCTGCAAACATGATA CTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTG TCTTCTTTAATTTCTTTCAATAATTGTTTAGTTTTCAACATAGAG ATCTTGTCCATCTTTTGTTGTTTATTCATGAGTATTTTATGCTTT TTGAAGATACTGTAAATAAAATTGTTTTTCTAATTTCATTTCCCA AATTCTTGCTGCTGATATATAAAAGTATAATTGATATTTTAATAT TAACCTTGTATCCTGTGACCTTGTTCAATTGATGTA 418 MIR4435- 2570891 GCTCAGTTTGCTTATCCGTTCTCCTGTTGATGAACATCTGATGT 1HG TTGCAGTTCTCCTCTCCGTGAGTCTTCTTGTAAACATAATTTTC ATTTCTCTTGGGAAAAACCCTAGGAGTGGTACTGCTGGGTCAA GGGGGTAGGTGTTTGTATAGCTTTATAAGAAGTTACCACATCC TTACTAATATTTGGTGATAGCTATTCTTTAAGTTAAAAGTGTAG AGGCATCTCGTTGTGGTTTTAATTTTTATCTCCCAAATGAGTAA TGATAAGTGTCTCTTCATATACCGAATGGCTA 419 MIR4435- 2570892 CTTGCAGGCCCTGTGAACATATATACTTCCTGGTGGGAAGAGC 1HG AAGGGAGCCTCTGGTGGAAAGCAGCCCCAGGGTCCAAGAAC CACACAGCCCTGCATTAGGGCCCCCAGGGAGGGAGAAGACC AAGGTCATGCTTTTGAACCTGGATGCCAGAAGAGAACAGCTGT GGGGAAAAGCATGCCTGGAACCAAGAAAAACATGTTTACCAG GGGCCATTCCTCACACCAGCTGCAGGCAGGGTCAGGAAAGC CACAGGCTGCACTGTAGTTGCAACCTTGCATGCGGACGCAAG GCTCAGAATGTTCCTCAAAGATCCTAAAATGTTCCCAGAGTCA GGCTGAGTCCATTCA 420 MIR4435- 2570893 CACTACAACTGGCTGTCGGTCTCCC 1HG 421 MIR4435- 2570894 ATGTGATGGCCAAGGGAGCTTCATCAATCATGGCATCTCAAG 1HG GGAGCTGGAGCAGATGAGGAGGAGATGGAGGTCCCAGGAAG GGCTGTGATCTGCCTGGGGTCCCACAATGGGAAAC 422 MIR4435- 2570895 CTCACACAGGCAGTTAGCCAAGGCCTGATATGCAGAAAGTGC 1HG 423 MIR4435- 2570896 ACCCAGGGAGGATAGCACATGTCTTCGGCTACACTGGTGAAG 1HG GCATCGTGCCTGCTCCACAG 424 MIR4435- 2570897 TGCAGCTGATACCCAGGATGTATTATTATTACTGTGACACAGT 1HG GAATCTAAAAGAGG 425 MIR4435- 2570898 CTCAAGGGAGATTGTATGAGACTCCTATAGGGTAGAACCTACT 1HG CTGAAAGAACTCACCTCAATTAAGCTTGATTGGAGTAAAAGCC AAGGCTAGACACCTAAGCTTC 426 MIR4435- 2570899 CTCAGAAACCTGTAGATCTCTATGA 1HG 427 MIR4435- 2570900 CCCTAATGACTAATTGTTTTGAGCA 1HG 428 MIR4435- 2570901 TCCCTCATAATGTCTGCTCTGTGTCACTATGTACCCTCCCCTG 1HG TCCTCCATTCCCCACACCAAGAGTATTATGAGTATTAAATGCC ACGTGGGCAGGTTCCCCAGGCAATGAGGGGGTGGGCCTGTC AAATGCAGGCCATGCAGAATGCCGCAGGGCGGGAGACGGGT GAGCCAAGGGAGCCGAGAGTTCCAGATAACAGAGTGCACAGC AAATGCCATGGCCCGCGTCCAGCAACCAGGAGAAACAGAACT GCTGAGCTCAGAATAGGCCAAGGCCGC 429 MIR4435- 2570902 GAACTCCCACTGTATAATTGCTAAACACAATGACAGCTATAATT 1HG GAGGCACTGAAGGAAGGTCAGGGGAGCCCAGGAGGGCGGG GCTGCTGCTGCCTGCTGAGCTGGGAGGGTTGGTGGCACCCC TTGCCCTGGGTTGCCATAGCAGATATCATAATCAATTACGGCC GTCTTTCATGAGGAACCTGGATCTTTCCCAAGGAATC 430 MIR4435- 2570903 CTGCAGGCTGGAGGCTTAGCCACTTCTCAGGAGGAGCCTAGA 1HG AAGGATATTGGTCGCCCAGCTGCTGAACCTGCCCCAGCATCC TTGAGGGTCTTGAAAATCTATTTTATGCTGGGCACCTG 431 MIR4435- 2570904 ATGCACTATGTAGCCCATGAGAAGGAGACCAACTCCGAGGAG 1HG CTGAGAGTGAGAGGAGACTGCATTCTCAGACACAATTGTCCA GACACTTCCTTTAAAAACTACACGCCAATGCCCAATAATGCT 432 MIR4435- 2570905 CGGGACACATATGGGAATACAATTACAGCAAAGCCGGCAAGG 1HG CTCAGTGAGGGGCAGAGGGCCTGGCCACATGAGGAGCCAGT GCTGTGGGCAGGCCCGGGTCTGAGTGCTGGCTGTGTGTCCT GCACAACCACATCTCCCAGAGTGCATTCGTCACCATCCACTCC AGATGCCCCTTGAACAAATGAATTTCACAGTTGCAAAAGGCTG AAAAATGCTCTGTGACCTGGCACCCCCTTGGGGAACCACAGT GCATTAAAGGCTCT 433 MIR4435- 2570906 TTGTGATTTTCGTTCCTGAATTCATAGAG 1HG 434 MIR4435- 2570907 GGTGCCCTGCAATGTTAAGCAAAAAAAAAAAAAAAAAAAAAAAG 1HG ACTTTGGAAATAGAGTTATGGAGCCAGGATGGGTCTTGAGTTA GCCTCACTCTTTATTTCTTTATTCAAGGAATGGTTGTTCAGGGC CAGCGGCTCAGCCCTGGGAGCACTGACTGCTTCAAGACACAG ACTCCTCTGGGATGCCAGGCAGAGTCTGCTCCTGAAGGCAGA CTCCACTCTTCATGGGG 435 MIR4435- 2570908 CCTCACCTTTGCAGGAGACTCTCAATTTCTCAGTCCACATCAG 1HG CTCTCAGACCACCAAAGCAAGGGTTATTTTTCTAAAAGACATTT GTTCCCATTGCTCCTCTGACTAAAGTTCCTACTATGGGACATTT GCCCTTGGCACTCAAGGACCTTGCAATCAGGCTGAGAACCTC AGGTTCTCAAACTCAAGACCATGGGGAATGTAATAGGTGAATC AGGCAGGTGAAGTCCAGGACTC 436 MIR4435- 2570909 CAGGATGACTCAGAACCCGCGTATGAATGCTGTCTATTCATGG 1HG GTCCAGGCTTTTGTTAAAGTCTGGGCCTGCA 437 MIR4435- 2570910 TGTTGAGTGCTAGCTGTTGTTGAGTGCTTGTCCTGCCTGGGCC 1HG CTGTTTTTAGCCTTTGATGTACATTTCTCCATTTAACTTCCACAA TAGCCCTATTAGGCAGCTAGTATTATT 438 MIR4435- 2570911 CAGGGCTTCCTTCAACTCAGGGTTC 1HG 439 MIR4435- 2570912 CCCGTGGAGAGAGCCCCGCTGGTGAGGAAGCACGGGGACCC 1HG TGCTGCAGGGCTGGTGGAGGGCTCCTTCTGTAGACTTCTGAG CTTGGAGCACAGATGGG 440 MIR4435- 2570913 TCAGGTCATCCGCTCCATGGAGGTCCCCGTTCCTACCTTGGC 1HG CTTGCCTTTCCCCCTGCATGTAACCTTGGTGAACTTTTCACAA GAGTCTGCGCAGTCTTCTTGTAAGCAGATTAATGCCGAGGAAA AGCCTTGGTG 441 MIR4435- 2570914 TTCTCTCCCGACAGGAGCGGCCAGGACAGGGAGCAGAAGGT 1HG GACTGCTGTGCTGCCTGGAGCTCTTCTGTCCGGAGGTTTAGT 442 MIR4435- 2570915 ACTCCGTACAGAGAGCGTTCCAGCC 1HG 443 MIR4435- 2570916 AGAATCAGTTGTCTCCCAGGCGGGG 1HG 444 MIR4435- 2570917 ACAAGGGCGGTGCATCAAGACCACA 1HG 445 MIR4435- 2570918 CGGCCCCCAGATATCTGAGGAAGGCTGAGC 1HG 446 MIR4435- 2570919 AGACTGACCCTACAATAAATGCTTAAGAGAGTCCTACATCTGG 1HG AAGCAAAAGGGCTATATTCACCATCATGAAAACCCAAAAGTAT AAAACTCATTGGTAAAGCAGACACACAAATAAGAAAGAGAATG GAACCACATGTTATCATTACAGAAAACCACCAAACTGCAAAGA TAAACAAAGGAAAGAAAGAAAGAAAGGAAGGAAGAAAGGAAG GAAGAAAAAGGATTATTTAAAATTATCAGAAAACAATTAAAATG ACAGGAATAAGACCTCACCTATCAATAACAACTTTTTTAAATGG CTTAAATTTCCCAGTTAAAAGATATAGACTGGCTGAATGGATTT TAAAAGTGACCTAACTCTATGCTA 447 MIR4435- 2570920 GGTATTACCTGATCCCAACTTGGCACCAAAAGACAGCCAACAT 1HG AGACTCATTCCTCCTGCTTCCTGGTGAGCCTGGTATTCTCCTC CACTTCCACTGACAGACATGTAGGGTGACTGGGTGGTATCAA CAATAGGAACCACATCATAACAGGCAGCCTAGTTTGGGAAGC ACTCTTGGTCTCCGTAGGCCTGAGACTCCTTTTGCCCATCTAG AGG 448 MIR4435- 2570921 ACTTAAAATAGGAGTGAGGTGAGAGGGGCAGCTGGGCTCATG 1HG GACGTCAAGTGGACAGTTTCTCAGCTGGTATTTCCTATATTTC CTGTTTTGGACAGCAGGTTCCTGCCCTTCTAAGCTGGGGGTA GGGGTGAGGGAGTGTATGTTAAAAAGCTCTGTGGACTTGCT 449 MIR4435- 2570922 GAGCCCTTGTTCAGTGATCCTATGACTTGTCAGCTCAGTGAAT 1HG TGCTCTGACTCTTACTGCTTTCATTTATGAAATGGAGACAATAA CCCCTCTCTCATAGGAAGGGTAAGACCAGAAGAGCCTACACT ATGGTTGGAATAATATTTGTATACAGTGATCAAGAGAATGTTCT CTGAAACCAGACTCTCTTTAAATCTTACCTCTATCACTTATTAG TTATATGGCTAGCTGTTAAATGAGGTCAAAAGAGTGTGTTCTTC ATAAAACTATACAGAAGATTAAATTAATTAAAACATGTACAGTC CTTTTAAAAAAGATCAAGTGAAACAGCATACATGAAAGTGCTTT CAGCACGCTGAGAATAACAATAGCAATGGCTAGAGATTATGGA GCACTCCCCACTGCCAGCACCAGGGGAACTTTGTACCTACAA CTTTTTACTTAGTCCACATAACCATGAATTCGTCTCATTTATGTA GACCGGGAAACA 450 MIR4435- 2570923 CAACCCAGGGTCCTTGCAGAGAGATTGATCTGCCAGCAGTGG 1HG CATCAGCAGCAATAGTAGCAGCAGCAAAGCCCTGGACAGTCC TGGCCCCCAGTCCACAACTTAGACACAGCACATGGCCTAATTC ACCCACAGAAGCAGCCACTGTGAAGCCCTGTGTCTCCCCAGA CTCCATCCAGTGGCATAAGGAGACCCAGGCCCTGCAGCTTCC TCCCCATCATGGAAGGCTGTCCATCTA 451 MIR4435- 2570924 TTCTTTTTGTCTCCCATATACGCTG 1HG 452 MIR4435- 2570925 GCTCTGCCGACTTCCAGTTCTGGAACAAGATGGTTAAACTCAT 1HG TTTTCCCTGCTCTGCTCCTCTAAATACAACTAAGTACCTTGGAA ACTATTCAGCAGACAATGATAAAGGGCTCTGAAAGCTAGAAGA AAAGGTGTACTTGCAAGAAACCTCAGGACT 453 MIR4435- 2570926 GACATAGAATCAACCAAAATGGCCATCAGTGATAGACTGGATA 1HG AAGAAAATGTGGTACATATACACCATGGAATACTATGCAGCCG TAGAAAGAAACGAGATCATGTCCGTTGCAGGGACATGGATGG AGCTGGAAGCCATTATCCTCAGAAAACTAACCCAGGAACAGAA AAGCAAACACCACATGTTCTCACTCATAAGTGGGAGCTGAAGA CTGAGAACACATGGAACCAGGGAGAGGAACAACACACACTGA GGCCTGCCACTGCAGGTGGGGGTTCAGGGGAGGGAGAGCAT CAGGAAAATAGCTAATGCATGTCAGGCTTAATAAGTAGGTGAT TGGCTGATAGGTGCAGCAAACTGCCATGGCACACGTTTACCT ATGTAACAAACCTACAAATACTACACATGTA 454 MIR4435- 2570927 TGTCTTGCTGGCCTGAAATCGAGTACGCAGCCCGGGGTGATC 1HG AGGGTCTCCCGGCCCGGATGTGTGAGACTTGCTTCCCCTGGG CAATAGGCGATACGATGCTTTAGGAGGAAGGTGTCTCTCCCTC CTAAGCCCCGGAGGGGAGAACTTCCAAAGACAGAAAACCACA GGCTTCCTGGCACAGAGCTTTCCCTTTATCAGCTAAAGCAGAA TCTTTTCTGGCCTTAACCTGGCCCCTTCCTCTAACTGCAGGCA GAGAGGCAGACAGAAAAGCACTTGCTGAAACACAAAGTTTTGT TCTGTCCTCAACGAACTGTCTAGAGCTGATTGCTGATAGTCGT GGTGCATTATGCCTTCCTGGTTTTCATTTAATTGGGCACCACG CTGCCTTTCAAGACGCCTTAAAGGAACCAACAACCAAATCCAA GAGAGCTGGACAGACCATTGAACACACAGTAGGCTGTGTCTC GTGGCTTTCGTTGTCTGGTGCCTCAAAGAAAACACCAGAAAGA TTGTTTCTAAGCTAGAGCCACCCCAGATTGCTTAAAGTGCAAA GCTCACTGCTGTTGGGGGTACCCTTGTGAGACACTGGAAAGC TGGTTTTACCGTGGCCCTATGAA 455 MIR4435- 2570928 CCGAGGAGGCGGAGCATGGAACTCGACAGTTAAAACATTTAA 1HG GAGA 456 MIR4435- 2570929 AGGCAGCCTTTTCTGTCACAACACAACGCTGAGCCGGCAGCC 1HG TGGCTCTGTCAGGATCTGGGGCTCCCGCGCCCGAGAAGCCC AGCCTCGCCGGCGGCCAAGTTCACCGCGAGGCC 457 MIR4435- 2570930 GACTCTGAAACTACCCGGCTCTGCAGAAGCACGCTGGGCCCA 1HG GGGGCTTCTAGACTGACAGC 458 MIR4435- 2570931 AAAGGCTGCAGTCACCAGCATCTTTTCCAACCTTAATGAACTG 1HG TATCCTCAAAAGAACACTATCAGACTG 459 MIR4435- 2570932 GAAAATTCCTATCCCACCAGCAAATCAGCCCG 1HG 460 MIR4435- 2570933 CTCCCAGATAAAGAGATCAACACGGGACAG 1HG 461 MIR4435- 2570934 GGGTTCCTGTCGGAATCTTGGAGCTCATCCCCCAAACTTGAGA 1HG TT 462 MIR4435- 2570935 CAAAGGCTTCTCTTGCTGGCTGAGAATTGTTGGGGAGCTCCCT 1HG GCCCACGGAGGGC 463 MIR4435- 2570936 AAACTTTAAGGAAGACAACTGTGCATTCTC 1HG

464 MIR4435- 2570937 TGGAACATACGTTCTTGTGAACATAGAGAGTGGCATTTTCTTAT 1HG GTCGATGTAATGTGAACAACTCCTGGTCACC 465 MIR4435- 2570938 TTGGTACATGCCAGCACGGTCTGTG 1HG 466 MIR4435- 2570939 GATTCACTGTGCGAGGACCCACCTGACACC 1HG 467 MIR4435- 2570940 GTAAGGTGACCAATGGCTGGCTGAAG 1HG 468 MIR4435- 2570941 TCCGAGCTGTCACGTGGTTTATACA 1HG 469 MIR4435- 2570942 TCAGGTTTGCTGGGAGGAATCCAGAA 1HG 470 MIR4435- 2570943 CCACTCTAGGCAGGACTTTCATATCCTTTATCTAACTGTCACAT 1HG GATGGGGTGACATGTTGATCCCCCCACAGCCTGGATGATAGA AATATTTGTGGTTTGATATGCGTCAGCGCTTATGACTTTGGCAT A 471 MIR4435- 2570944 GGTCATATTTCACGTCTGCCCTGTA 1HG 472 MIR4435- 2570945 TGCTTTACAAACACTGACTCCTCAACACACGGTCATCTCTAAA 1HG AGAAAGGGTGTTTGGCAGTTCCTCGACAGTTCTGGAAAGGCT GCCTTACTAGAAGCAGAGTCA 473 Ml R4435- 2570946 TATTTTGGTCATGGGCTGGTCTGGTCGGTTTCCCATTTGTCTG 1HG GCCAGTCTCTGTGTGTCTTAATCCCTTGTCCTTCATTAA 474 MIR4435- 2570947 CACCTCTACCTGTTGCCCGCCGATCACAGCCGGAATGCAGCT 1HG GAAAGATTCCCTGGGGCCTGGTT 475 MIR4435- 2570948 TGACAGACACTGAAAATCACGACTCATCCCCCTC 1HG 476 MIR4435- 2570949 TGAAACAGGAAGCTCTATGACACACTTGATCGAAT 1HG 477 MIR4435- 2570950 AGCGGCAGAGCAGTTATTAACAGAATCACAGTCTTTCTGGAGC 1HG TGCTGTCAGTCCTGTGCTGTCCTCAGGGCCTTTGCTTGGTCAG GGGCCCCACTTCTTATCCACCCTTCCCTCTACCTCACCGAGGC TGCTAGGCCCAGGTGTATTGTGATTATTTGATGCACCTGGGAG GCCATGTCTCCCGGGGAGTCTCAGGACCTCATTGGGCTGGAA TTCCACGGGGATCTCTCATTGGGTCTCTTTGGGCCTTTGGAGA GGGGAGTGCAGGGCACCACCTGGGCGAACACCTGTGCCATC CTGTAAGTCCTTGTGTGACTCTTCATCCAAGTCAACAGGGGC 478 MIR4435- 2570951 CGTGGACCCGGCTATGTCTGACTTTGTGCTG 1HG 479 MIR4435- 2570952 GGGAACAAAATGTCTGCTCAAACCATGACAAAATTGGCCACAA 1HG TTTGCCGATTGGGCTGATAACAAAAG 480 MIR4435- 2570953 GTGTGTACTAATCACTCAGACAGTG 1HG 481 MIR4435- 2570954 GAAAAGATTTTTATTCGTGTCTACATCAGTGTGAAAGGCTTCAT 1HG CCTG 482 MIR4435- 2570955 CTGGGGACACTATGGCCCCATCCTAGCCTGGTG 1HG 483 MIR4435- 2570956 TGGGAGGCCAAGGTGGGCGGATCATGAGCTCAGGGGTTCAA 1HG GACCAGCCTGGCCAACGTAGTGAAACCCCGTCTCTACTAAAA ACAAAAAAATTAGCTGGGCATGGTGGCGCACACCTGTAGTCC CAGCTACTCGGGAGGCTGAGGCAGGAGAATTGCTTGAACCTG GGAGGCAGAGGTTGCAGTGAGCTGAGATCGCTCCACTGCACT CCGGTTTGGGC 484 MIR4435- 2570957 TTGCTGATATACTTACAAACTGGTAAACAATGCTCTTTAATCAA 1HG CAATTCATAATCTGGGTCAGCGATTTTTATCTCCATATTTGCTC ATACTGTATGACATCAATATTTTATATTGGCTTGCCCATAACTT A 485 MIR4435- 2570958 CTGTGCCAGTCAAGCCTGGCCTGTGGCTGTGACACCTGCATT 1HG ACCCCAGATGGTTGCCTGACCTAGGCCTGTCCTTCTATCTGCT TTGTTTTTATGTTGATTACTAGGTGAAGCACAGTGTTAAAAACG GGAAGAAAAGGCTAGGAATGCAGTTATGGGAGTGTGAGGCTG GGTTGGAATAGGTGGGAGAAAGTCCAGGGCTGAGTGTGTGGA CCCTGCTCTAGGGATCTGACCGGCTCAAGCTCCCAGGCCATT AAACAAAGTTG 486 MIR4435- 2570959 CTGTTGCCATTTGAACAAGTTGTTAAGAAAATCTGCCATGTTTT 1HG GCTCTTTTTTAAAAGGAATGACTTTAATAACCATAGCAACACTT ACTCAGTTTTGTGATCCACTCCAAGATTATGGGAGCAAGAACA GATACTCCTGAAAGCAACCCTCACCTCCTCCCCCGCCCCCTG CCCTCAGCAAGTCCTGGCCTGTGTGAACTGAAGGGTTTGGAA GCTCTGGTTTCTAGGAGTGCCCAGAAGCTAGAAAGACTAGGG TGTACTAGTTATTGAGGGGCAGTTGTC 487 MIR4435- 2570960 AAAGGCATTTCTGATTTAATTAAGAGTTG 1HG 488 MIR4435- 2570961 ATGAAGGAGGAGTCGTCTACACTTGTAAAAA 1HG 489 MIR4435- 2570962 TCCTTGAGTTAAAGAAATTTGTGTC 1HG 490 MIR4435- 2570963 TAATCCAGTGCTCAACATATTTTTGTTGAATAAAAGCACAAAGA 1HG GATTCATGAGAAGAGGGAAATGTTGCATACTTAGGGTAGGAG CAAACCACAGAGGTCTTTCTCAGCCTGGGCAAAGAATGTCAAC TCTGTGTTGGAGCCAGTAGGGAGCTCTGTGGGTCCTCGAGCA GGAAAATCCCATGGCTTAAGCAGTGTTTCAGGAAGACTGGGA TGTTAGGCTCCAGAGCTCTGAGCAAGTCAGATGGGACTGGGA GTCATAAGAAGGCTTGACTGTGGCTAGTGATAACCAATGAGCA CTGGAAACATGGAGGGGAATCTTTCCTCCCTTTTATATCAGGG TTCTCTCCTAGAGGAGCAGGTGAGGACCTCTGATGGACCAGG AAATTGGAATTCTGCCTGGGAGGCAAGCCCATGGAGGCCCTG ATCTGCTTGGACAGAGAGTAGCTCCCTTCACCTGTAAAATGAG AGTGAACGAGCTGGTGTCTAAGGAATTCAGAATCCCCCCCCT GGAGTTCCACAGGGTATGTGGGATTTTAGGGGGACCAGGGTG TCCCCAGTGCAAGAAGGAGGCTCCCACCAAGGGGCTGCAGC ACTGCAGATAACCCCCAGGGGTATGAAAAGAGGCTGAACTGG GGGCCTCCACAGTCAGAATCCATCCATTGACCCAGGATG 491 MIR4435- 2570964 CCCTGGCATCATATTGGGACTTGTTAAGGGCTGAATTGTGTCC 1HG CATCCCAAATTTGTATGGTGCCACCCCAACTCCAGTACCTTGG AATGTGACCGTATTTGGAGAAAGGGTCTCTGAAGAGGTAATTA AGGTAAAATGAGGTCATATGGGTGGCCTCTAATTCAATATGAC 492 MIR4435- 2570965 TTTCCATTTCCTAGTAGGGCCAGTC 1HG 493 MIR4435- 2570966 TATGTGCATTAGTTTGCTTGGACTGCTATAACGAAATACTACTT 1HG GGTG 494 MIR4435- 2570967 GAGCTTTTAGAGAATATGGGCCAGAAACAGGAAGGAGTCAGG 1HG ACCTGATAACGGGAACCAGCGGACAGTGAACGCAGTG 495 MIR4435- 2570968 GTGAATACAATATTCTCCTTTTGTTTTCACTTTTCCTAAAAGTTA 1HG AATCAAGGTTCAAAAGAAAATCGAGG 496 MIR4435- 2570969 AGATGCTAATCCAGCGTGCGTCCTGGCAGAGGTTGAAGGGGG 1HG CTCCTCAAGTCCCAGGTCCAGCTTGGTGTGGTTCAGCTACTC GAGAGACATCTGCTGCTAATGGATGAGCAGTCAACCTGGACG CAGG 497 MIR4435- 2570970 TGTGAAGACTGGACTTAAACAGCTACACCACCAGAAGCCGAG 1HG AGAG 498 MIR4435- 2570971 AAATTGACATTCCAGACAAGCGGTGCCTGAGCCCGTG 1HG 499 MIR4435- 2570972 CTTAGTCGTGTGTACATCATTGGGAATGGAGGGAAATAAATGA 1HG CTGGATGGTCGCTGCTTTTTAA 500 MIR4435- 2570974 AATCCCATGGTCTTCAATTTGGTCATTTAAAAATAATCTACAAG 1HG GTATACTGTTTTT 501 MIR4435- 2570975 CACCACTCTATTTAACAGTGCTGGAAATATTAGCCAGCAAAAC 1HG AGATAAAGAAAAATAAATAAATGGCATAGACTGGAAAGATTCAT AGTTGGCACAATTATGTATATATAAAATCCTCAGGAATGTACAC TTTACATACTAGAATTTAAAAGTAAGTTTAGCAACTGTGTTAGT TCGTTTTCATGCTGCTGATAAAGACATACCTGAGACTGGACAA TTTACAAAAGAAAGGTTTATTGGACCTATAGTTCCACATGTCTG GGGAGGCCTCACAATCATGGCGGCAGGCAAGGAGGGGCAAG TCACATCTTATGTGGATGGCAACAGGCAAAGAGAGAGCTTGT GCAGGGAAACTCCTGTTTTTAAAACCACCAGATCTCATGACAC CCATTCACTGTCAGGAGAACAGCATGGGAAAGACCCACCCCC ATGATTCAATTGTCTCCCACAAGGCCCCTCCCATACCACATGG GAATTATGGGAGCTACAAGATGAGATTTGGGTGGGGACACAG AGCCAAACCACATCAGCAACATGTCAGAACACAGAAAAAATGT AAAATATCACTGTATTTCTATGTACTAGTAGTGAACTGTCAGAT GTTAAAATTCAATTGCTTAGAATGGCATCAAAAATATGAAATAC TGGCCAGGCGTTATGGCTCTTGCCTGTACTCCCATTGCTTTGG AAGGCTGAGGCGGGTGGATACCTTTGAGGCCAGGAGTTCAAG ACCATCCTGAGCAACAGGGCAAAACCTTGTCTCTACTAAAAAT ACAAAAAATTAGCTGGGCATGGTGGCCTGTACCTATAATCCCA GCTACTTGGGAGGCTGAGACACAACAATCACTTGAACCTGGG ATGCAGAGGTTGCAGGGAGCTGAGATTGAACCACTGTACTCC AGCCTGGGGAACAAACTGAGACTCTGTCTCAAAAAAAAAGAAA GAAATACTTATGGGTAAATCTGACAAAATAAGTGTAAGACCTG TACACTAAAAACTACAAAACATTGCTGAAATAAATTAAAGAAGA CCTAAATAATCGGAGAGATATACTTTGTTTAAAGGTCAGAAGT CTCAGTATTGCTAAAATGAGAACTCTTCCCAATGCAGTGCTAA TCAAATTTCTAGCAGGCTTTTTGTAGAAATTGAAAAGCAGATTT GAAATTCATATGGAAGTGCGAACAAAACC 502 MIR4435- 2570977 CCACCATGTGATACCACTACATGTATTTTAGAATTGCTAAAATT 1HG AAGAAGACTGACCATATGGGGTGAGGATATGGAGGAAATGAA ATTCTCATACAATGCTATTGGTAATGTAAAATCAAACTACCACT TTGGA 503 MIR4435- 2570979 GCTTGAACCAGGAAACTGGATATCATCTTAA 1HG 504 MIR4435- 2570980 ATGTTTGGGAACCCAACAATTAATGCAG 1HG 505 MIR4435- 2570982 CCCGAATGTATCTCCCAGATGTCCAGAATACGCCATCTGCAAA 1HG ACTGAACTCATCCTCTTTCCCCAGAATGTATCTCCCGGATGTC GAGAATACGCCATCTGCAAAACTGAACTCGTCCTCTTTCCCCC GAATGTATCTCCCAGATGTCCAGAATACGCCATCTGCAAAACT GAACTCGTCCTCTTTCCCCCGAATGTATCATCTCCCAGATGTC CAGAATACGCCATCTGCAAAACTGAACTCATCCTCTTTCCCCA GAATGTATCTCGCGGATGTCCAGAATACGCCATCTGCAAAACT GAACTCGTCCTCTTTCCCCCGAATGTATCTCCCGGATGTCCAG AATACGCCATCTGCAAAACTGAACTCGTCCTCTTTCCCCAGAA TGTATCTCCCGGATGTCCAGAATACGCCATCTGCAAAACTGAA CTCGTCCTCTTTCCCCCGAATGTATCTCCCGGATGTCCAGAAT ACACCATCTGCAAAACTGAACTCGTCCTCTTTCCCCCGAATGT ATCTCCCGGATGTCCAGAATACGCCATCTGCAAAACTGAACTC GTCCTCTTTCCCCCGAATGTATCTCCCGGATGTCCAGAATACG CCATCTGCAAAACTGAACTCGTCCTCTTTCCCCCGAATGTATC TCCCGGATGTCCAGAATACGCCATCTGCAAAACTGAACTCGTC CTGTTTCCCCCGAATGTATCTCCCGGATGTCCAGAATACGCCA TCTGCAAAACTGAACTCGTCCTCTTTCCCCAGAATGTATCTCC CGGATGTCCAGAATACTCCATCTGCAAAACTGAACTCATCCTC TTTCCCCCGAATGTATCTCCCGGATGTCCAGAATACGCCATCT GCAAAACTGAACTCGTCCTCTTTCCCCCGAATGTATCTCCCGG ATGTACAGAATACGCCATCTGCAAAACTGAACTCGTCCTCTTT CCCCCGAATGTATCTCCCGGATGTCCAGAATACGCCATCTGCA AAACTGAACTCGTCCTCTTTCCCCAGAATGTATCTCCCGGATG TCCAGAATACGCCATCTGCAAAACTGAACTCGTCCTCTTTCCC CCGAATGTATCTCCCGGATGTCCAGAATACGCCATCTGCAAAA CTGAACTCGTCCTCTTTCCCCCGAATGTATCTCCCGGATGTCC AGAATACGCCATCTGCAAAACTGAACTCGTCCTGTTTCCCCCG AATGTATCTCCCGGATGTCCAGAATACGCCATCTGCAAAACTG AACTCGTCCTCTTTCCCCAGAATGTATCTCCCGGATGTCCAGA ATACTCCATCTGCAAAACTGAACTCGTCCTCTTTCCCCCGAAT GTATCTCCCGGATGTCCAGAATACTCCATCTGCAAAACTGAAC TCGTCCTCTTTCCCCAGAATGTATCTCCCGGATGTCCAGAATA CGCCATCTGCAAAACTGAACTCGTCCTCTTTCTCCCGAATGTA TCTCCCGGATGTCCAGAATACGCCATCTGCAAAACTGAACTCG TCCTCTTTCCCCCGAATGTATCTCCCGGATGTCCAGAATACGC CATCTGCAAAACTGAACTCGTCCTCTTTCCCCCGAATGTATCT CCCGGATGTCCAGAATACGCCATCGGCAAAACTGAACTCGTC CTCTTTCCCCAGAATGTATCTCCCGGATGTCCAGAATATGCCA TCTGCAAAACTGAACTCGTCCTCTTTCCCCCGAATGTATCTCC CGGATGTCCAGAATACGCCATCGGCAAAACTGAACTCG 506 MIR4435- 2570984 ATGTCCAGAATACGCCATCTGCAAAACTGAACTCGTCCTCTTT 1HG CC 507 MIR4435- 2570986 AAAGAGATTCTCACTTAGAGACATCATAAGGAAACTACTGAAA 1HG ACTAGGAACAAAGGAATTATCTTCAAAGCAGCAATGAAAAATG ACATTATTTATAAAATTACAATTATTTAAAGGGTTGTAGATTTCT CATCAGAAACCATAGAGGCCAGGCCGGGCGCTGTGGCTCAC GCTGTAATCCCAGCACTTTGGGAGGCCGAGGTGGGCAGATCA CTTGAGGTCAGGAGTTCAGGACCAGCCTGGGCGAAACCTGG GCAAAACCCTGTCTCAACTAAAAAATAAGAAACTTAGCCAGAC GCAGTGGTGTGTGTCTGTAGTCCCCGCTACTCAGGAGGCTGA GGCAGGAGAATCGCTTGAACCTGGGAGGCAGAGGTTGCAGT GAGCCGAGATCACACCACTGCACTCCAGCCCGGGCGACAGA GCATAGAAGCCAGAATGCAATTGAACAACATTTC

508 MIR4435- 2570988 TCAGTCACGTCTGCGCCAGAGCTTTGATGACCCACCTGTCAG 1HG CCACACTAAGGGCCCTGCCATGAATAAGGCCTCCGTCACTGA GGATCCTGTACCCCTCTGCCATAAACTCAGTGACCTGACTG 509 MIR4435- 2570989 CCCACATTCAAAAGGCTTGCCCGAGAGGCCT 1HG 510 MIR4435- 2570991 TCAAGGTGGCCTTGCGCTTCACCGAGGAGGTGTCATTACCAA 1HG ACGTGCTGGACATTGGCTACCTACGGAAGAAAGATTAA 511 MIR4435- 2570992 CCAGACACCACTGGCCTACATCAAACTCCAGGCCACAGATGG 1HG AAATAGGACTGAGATCCCTGGACCTGGG 512 MIR4435- 2570993 ATGAAGCTAGGCCCCCCTGTCCTGACAGCTTTCCACCCCTTCC 1HG CTGCCCCTCTCACCCTGCTTTCCAGGGGCAATGCACCTCCCC ACTTCT 513 MIR4435- 2570995 TGTATTTGGCATCTACCATATCTTTGCATC 1HG 514 MIR4435- 2570997 CACACATAACTCTGGGCGTAAAGTGAGTAAAAATATGAGACTT 1HG AGAAGAATATTTCATCATGGTATGCTGATTGGGGATTTCACTTA CTGA 515 MIR4435- 2570998 TCACTACGATTATCTGAATCTCATA 1HG 516 MIR4435- 2571000 TCACCCTTGACATCCGCAGAATCCACCCTCCT 1HG 517 MIR4435- 2571001 AGTCCTGGGGAACTCTCATCTGGAAAAAGGCGCTCATGACAG 1HG GTGGTGCCAACCTTCCACGGATGCTTTTCAGCA 518 MIR4435- 2571019 TTCAGCGCCGAATTGATGAGGACAC 1HG 519 MIR4435- 2571021 ATGGAGAAACAGGCGGCCCAGCCAGGCCCTTTCACTGCCCGT 1HG GATGGA 520 MIR4435- 2571023 TCCACCAGACTGATGACACTTATTCCACTTGGTTCCCAGAACT 1HG AAGAG 521 MIR4435- 2571025 GGGCATTTGGACTCTAACCGGGACAACCTAGTGGCCGGGCAG 1HG GGGATGCAGGCACCACAGGTCACAGTAGTTTGCTACGAGTGT CAGCTTTT 522 MIR4435- 2571027 CCTGTGGGAATCCATAAAGAATTGATTCTCATCCCCCAGAAGT 1HG GAGATCCCGCTTGTGTCATCA 523 MIR4435- 2571029 CTGGTGCACCTGGTCTACCTCATGTCCAGTGTTT 1HG 524 MIR4435- 2571031 TCCTGCAGTTCCAATGTGAGCAGCAGTTGTTTCCAAGGCTAAC 1HG AATTTCACGCCAACTAGAAGCCTCCACAAGTCAGGTGCCAGG CATTTCTAAGCCAGTAGAGCAGCTCCGCTTGTTTCTC 525 MIR4435- 2571033 CTTGGCTGGTGGATCTCGGGTTAAAATCGACTTAGGATGCCC 1HG CCCTTAT 526 MIR4435- 2571035 GCTTCTGCAGTTTGCCTTGGAGTCTGGGCTGT 1HG 527 PGM5P4- 2571794 TGAATTTATATTACCGAGTGGAGGGTCACATG AS1 528 PGM5P4- 2571795 AGTAAATCCATTTGCTGATTGCAATA AS1 529 PGM5P4- 2571796 CTCTTGTGTAAAAATCTAACTCATCTCGCTGAATTTCCTGATTT AS1 AAAAGTCTAATTCATTTCACCAAA 530 PGM5P4- 2571797 CCAGACGTACAGAGGCTGGGAGCCATTGTGGTGTGCTATATT AS1 GATGACGGCAGCAGTGGG 531 PGM5P4- 2571798 TTGTGTATCTGCGTTCCTTTCAACAAGTGTGACTTCCTCAATGG AS1 CATCATTCGTGAGCGTAACACAGAGCTCAGC 532 PGM5P4- 2571799 GAGCTGAAATCGACCAGGGGGTTCTTATCCAACAG AS1 533 PGM5P4- 2571800 GCCTACCTAAAATATTGAATGCTGTTAATAAATCTCCTGAGGC AS1 CAGCATAAGAAGGTGATGGGCAAAACTAAT 534 PGM5P4- 2571801 CTTAGAGGGCCCCACAGTTGTTTGCTG AS1 535 PGM5P4- 2571802 TGGTTACAATGGTACTTTCAGCCTGTCCGAATTATGTATTGCC AS1 CCTCCCCTTTTTATTAATAACATTGAAGTGTGATGGGACAACCA CTGAAGCCGTCAGTTGAAACCTGCTGGGACTTTTTAGCCATTC TCTTCAACATAAAGAATGGGTGTTTTTGGAGGGGGTGAGAGG AATGGGGAAATGTTGTCAAAGAGTACAATGTTTTAGTTGAGAC AGGAAGAATATATTTTGTTGAGATCTACAGCACAGCATG 536 PGM5P4- 2571803 TGTGCTAGGTTTCTTTGCATGTACC AS1 537 PGM5P4- 2571804 AGCCTCCTCCAAAACAGCACACTTTCCG AS1 538 PGM5P4- 2571805 TTTCTCCCGCCCACCTTCTCCGCTGCCAGACCGCCCGAGCTG AS1 CCCTCAGTTTCTCCCCAAGTTGGACTCACTTTCGGGGTGTCCC ACAAGCCCGATCCCAGAGCCTGCT 539 PGM5P4- 2571806 CGACCTCGACGGCCGTCCTGCCGAAGTACCTGCCGTCGCTGC AS1 CCACCCCCGTGGTGCGGCCCTGACGGTCGCGCAGGTCGACG GACGACAGCGCGCTCCGGATGAAGTTGGGCGGGTAGCT 540 FTH1P2 2590365 AGACTGTGATGACTGGGAGAGCGGGCTGAATGCGATGGAGT GTGCATTACATTTGGA 541 RNA5SP121 2602465 CATAGTACTCTGAACATGCCCGATTTCATCTGT 542 FTH1P2 2629711 TGACAAAAATGACCCCCATTTGTGTGACTTCATTGAG 543 SETP14 2648928 ATGAAACAGACAGACTTAATGAACAAGCCAGTGAGGAGATTTT GAAAGTAGAACAGAAATATAACAAACTCCGCCAACCATTTTTTC AGAAGAGGTCAGAATTGATCGCCAAAATCCCAAATTTTTGGGT AACAACATTTGTCAGCCATC 544 SETP14 2648929 TTTGACGAAACGTTCAAGTCAAACACAGA 545 SETP14 2648930 GAGGTCATCAAAGATGATATCTGGCCAAACCCATTACA 546 TIPARP 2649130 GCGTACAAGGCCCACGAAATAGTCGGCCGCCGCAG 547 TIPARP 2649131 ATAAGTCCACCGCACAGAACTCGCGCGCCTCCCCTCGAACGA ACGCGCACGCGCGCGCAGGGGGCGGGTCTTCTTCCCGACAC CCACTGA 548 TIPARP 2649132 CTCCGCCTCCGCGACGGGCCGTCGGGAGGAGGCGACCGGAA GCCACTTAAAGCAGAGATCGAGGTGACAGGCGAGCTGGCTG GACTCGGA 549 TIPARP 2649133 CGCGGTCGAGGCTTTCTGCGTTCGCGGCGGCGGAATGGCCC 550 TIPARP 2649134 TCTGTGGTCCCTAGACGTCGGCTCCCGCCCTCGGCGCTGATC TCCGGCGCGGGCACTGCTTTCCACTCGGCTCCTGTCGTCCGT TCTCTCAGG 551 TIPARP 2649135 GGGCGCGTCTATGCGGCCTCCCCCGCGGGCCGACCCCGGGT GCTCTGAGGCGCCTAGGAGC 552 TIPARP 2649136 GGCACGGCAGCTACGGGAGCCTTCCGGCTACCCCGCGTTTC GGGCTGCAG 553 TIPARP 2649137 CATTAACTTTGAGAGCGCACAAGTCTTCGTCTTCCTCCCCGCC GCCGCGGGAAGCGCTCGCCGCCTTTCCCCCGCGCTTCGCGG CTCAGTTCTGCGAGCCCCCAAGACCCGTTGGACGCTCCTCGG G 554 TIPARP 2649138 CTCAGCTGCACTGCGCGGAGTTGGCGCGGCCCGGGACCAGG AGCTGAGCAAACCGCCGCGGCCAACAGGAGGCGTCACTCGG ACCCGGGCTCGGCGCCGGGGTGTCGCGCGGCGGCGGGCGG GCAGGCTTTGGAGCGGCAGTTTTTTCGGAAAGTGC 555 TIPARP 2649139 ATGATCATCTTCCTTCCTTTCCTCGTAG 556 TIPARP 2649140 GATTTTTAGACTCTGAGGAGCAGTTGGAGCTAATCCACATT 557 TIPARP 2649141 CAGACTGTGTAGTGCAGCCTCCCTCTCCTCCTGATGACTTTTC ATGCCAAATGAGACTCTCTGAGAAGATCACTCCATTGAAGACT TGTTTTAAGAAAAAGGATCAGAAAAGATTGGGAACTGGAACCC TGAGGTCTTTGAGGCCAATATTAAACACTCTTCTAGAATCTGG CTCACTTGATGGGGTTTTTAGATCTAGGAACCAGAGTACAGAT GA 558 TIPARP 2649142 GGGGACCAGATACCGGAAGCCCATCCTTCCACTGAAGCTCCA GAACGAGTGGTTCCAATCCAAGATCACAGCTTTCCATCAGAAA CCCTCAGTGGGACGGTGGCAGATTCCACACCAGCTCACTTCC AGACTGATCTTTTGCACCCAGTTTCAAGTGATGTTCCTACTAGT CCTGACTG 559 TIPARP 2649143 GTATTTATAACAACTTGTAGAACTGTTG 560 TIPARP 2649144 AAAACTTTGCAGAACAGCGGCTCCCACTTCACCTTCATGAAGC AAATTTCCAGTCTGCTGAGTACTTCAG 561 TIPARP 2649145 AAGTTGACTTGTGGTCATTGCAACCTGGTTTT 562 TIPARP 2649146 ATAACGGCATGTTGAGCCTTGCTGAGAGATTCACAAACAAGCT GGAGCAGCCCAGGTTCACATGGTTACCACATTATTTGGCTAAA GCTATTAATCTCTGTGGTCAGGCCTGTAAAGCTGGTCTATCTG TGCAGATTGCGCATAACCAGGAAGT 563 TIPARP 2649147 GCCTTCTATCCCAGCTGTTCTTACAGAAATTAAGTTTCACTTTC TCATCAGGCTATGGTTGAGAAGTATGTCTCATTTATAGTGCCTT CTGTGATCTTAGGACATGTGACTA 564 TIPARP 2649148 TGTGATTTCAGACAGCATCCTTCTCACTAACTTGCTGCCTTCTT GGAATAAGAATTTCCAAGATGTCTCAGGAGGTACCAAGGGAG CAGCAACAAGGCCTAATGATCACTTCTTCAAGAATTTATCCCA AGAAATGCATTGTATCTTAAGTTGGGGAACACTTTTACCTACTC AAAAATCTTTTGAGGTATTCAGATAAATCCATGATCTGAGTTTT ATGTTAATAGTTTTACAGTGTCATAGTGTGGTAATTAAGTGTAG AATTTTAACCTCTGAGGCTGGGCGCAGTGGCTCACGCCTGTA ATCTTAGCTTTTTGGAAGGCTGAGGCAGAAGAATTGCTTGAGA CCAGCCCAGGCAACATGGCGAAACCTTGTCTCTACAGAAAAAT ACAAAAATTAGCTGAGTGTGGTGGATCATGCCTATAGTCACAG CTACTGGGGATGCTGAGGTGGGAGGGTAGTTTAAGCAAGGGA GTTTGAGGTGGCAGTGAGCCTAGTTGGCACTATT 565 TIPARP 2649149 GGACAAGAATTTTGGGCAGATTTGAATGCC 566 TIPARP 2649150 TTTGACCAACTACGAAGGCTGTCCACACCACCCTCTAGCAATG TCAACTCTATTTACCACACAGTCTGGAAATTCTTCTGTAGGGAC CACTTTGGATG 567 TIPARP 2649151 TGTCATTCGATTGATTGAAGAAGCCAACTCTCGGGGTCTGAAA GAGGTTCGATTTATGATGTGGAATAACCACTACATCCTCCACA AT 568 TIPARP 2649152 GGTGGGGTTCCCACACAAGCTCCTCCACCTCTTGAAGCAACTT CATCATCACAAATTATCTGCCCAGATGGGGTCACTTCAGCAAA CTTTTACCCTGAAACTTGGGTTTATATGCATCCATCTCAGGACT TCATCCAAGTCCCTGTTTCTGCAGAGGATA 569 TIPARP 2649153 ATGAAAAGTTCAAGACGGCCGGGCGCAGTGGCTCAAGCCTGT AATCCCAGCACTTTGGGAGGCCGAGGCGGGCAGATTACGAG GTCAGGAGATCGAGACCATCCTAGCTAACACGGTGAAACCCC GTCTCTACTAAAAATAGAAAAAATTAGCTGGGCGTGGTGGCGG GCACCTGTAGTCCCAGCTACTCGGGAGGCTGAGGCAGGAGA ATGGTGTGAACCTGGGAGGCGGAGCTTGCAGTGAGCCGAGA TTGCGCCACTGCACTCCAGCCTGGGCGACAGAGCCAGACTCC GTCTCAAAAAAAAAAAAAAAAAAGTTCAAGAATCAAGAGAGCTT TATTGTAGCCAGTGTCAAATGAGGAACATAATAGTAAACATTTG CACAGAATTTATGTTC 570 TIPARP 2649154 CAGGAAAATGTTTGGCCGTGACAGGATAATAAATG 571 TIPARP 2649155 GACCCTCGAGTCTGTGGAAAGCATGC 572 TIPARP 2649156 TCCAAAGGAGTCCACTTCATGTTTCTGGCCAAAGTGCTGACGG GCAGATACACAATGGGCAGTCATGGCATGAGAAGGCCCCCGC CAGTCAATCCTGGCAGTGTCACCAGTGACCTTTATGACTCTTG TG 573 TIPARP 2649157 TACCCTTATTTTGTTATCCAATATGAAGAA 574 TIPARP 2649158 GCTTGGGCCTGGTAGAAGTTTGACCAAATGGAATGGAGGCTG TGAGCAATGTGAGGATTCTATTTATTTATTTACGTTTGATAAAA CTTACTGGAACTAGTACTACCATGCGTATTCCCTGTCCAAAGC ATCACTGCTTTGGTATAGTATAAGTTCATGAAATTCTGGTGGGT AGAAAGAAATTTTTATTTCTATCAGCAGTACTAAAATGTATCAG CCAACCAGAGAACATCAGTGACTTTAACTTCTGCAGAGTTTGC CCCAGAATTCAGAGTTCTATTTAGAGGAAGTTAAAACAACAAC AAAAAACAACCATTTGAAAAATTTTTGTCACCAGCAAAACTTTT CACTAATTAGTGATATGAAATGTGATTTTTGTGTTGTTAAACTT CAGCTTTGGAAAACTCAGTCTCTTTCATTATCATCCATTCCAAT TTGAAGGAGTTGGGCAGCTAATTTGGTTAAAGGCAGTCTTGAG GGTTAGAAGTATTACTTCCTTTTCGGGTTCCAGACCTAGCTTG

575 TIPARP 2649159 AAACTTGGAAATTGTGCCAGTGGTCCAGCTGGAGCACAACGT TTGGTGA 576 TIPARP 2649160 TCAGAGAGGTAGCAACTAGGTAAACTCCTTATAAAAAGCAAAT ACCTGGATTTACAAAAGTGAAAGTAGTTGTTCACAAAAGAATTC GCCATGGAATTCTTTCAGTTACCAAGCTCTCCTGGTAATGTTT GTGGTTATATCATTTACACAAAACTTTTCAGGAACTTCTGTGTT GTTTAAGCAAGATGTATCTGTACTGATGTCTCAGTGAATCAGT CTGTTTATTAAGCACTTATCAGGGCTTCCACACACTTATTTATT 577 SMC4 2650205 ATGCGCAGGAGCGACAATAAGATGGCG 578 SMC4 2650206 GCCATTTTCGAGTGAAGGACCCGGAGCCGAAACA 579 SMC4 2650207 GTGGGTACTACACAACCGTCTCCAGCCTTGGTCTGA 580 SMC4 2650208 GCCAGCGTCCGACTTGAAGTTGCTAGTGGTTAGTCCCAGCCT TCGCCCTTCGCGGTCCGACCGCTGAGAGGAGGGAGACTTCGT TATGCCCCGGGCCGTCAACGGCGCCAGGAGCTAAAGGGCGG GCAGACGAAAGCGGGCGGCGAGTCGCCAGTTAGTCTTCACC GCTCTGGAGAGAGTTGCTAGCCACGGGATCCTGACCCGGACA CGAACTCGTTTCTCCACGTCGGTGCGCGCTTGCATCCCTGGC CCCGAAAGCGTGGGAATGTCCGGAAATGCTGGCGTATGGGA GTTCCTTA 581 SMC4 2650209 GCACGTCTAGATTTTCCCACTTACATAG 582 SMC4 2650210 AGTCCTGCCTTCTTGCCACTCGTGTCTTTCGATGGCTCCCTTC CCGAAGTCCCGCTGCCTCTAAGCGGAGTGTTAAGCGGGGCTC TCGGAAGCCGGTGGACCGAGATTT 583 SMC4 2650211 GGCGGGCGCGGTGTAGCGGCCCGCGGGCTGACTTGCTCCCG GCTGTCCC 584 SMC4 2650212 ATGCCCCGTAAAGGCACCCAGCCCTC 585 SMC4 2650213 CCCTGACGGCGCCAGCAGCGACGCGGAGCCTGAGCCGCCGT CCGGCCGCACGGAGA 586 SMC4 2650214 CCTCCGTGGTGTTAGATTGCCGTTAAAGAGAAGACGATAATTT ATTTGAAGCCACTGTAGCTTTTGTGAGTCCAGGAGTTGGGTGA CATTATTAAACCCTCGTGGCAGTGTCGCTGAAGTTCATGAGTT TCCAAAATGAAGGTTCCAGGTGCTCAGCGGTACGGAGAATTG CATCTA 587 SMC4 2650215 TGAGGAACTTGATAATAGAAGTTTAGAAGAG 588 SMC4 2650216 CCAGAACTTCAAATCCTATGCTGGGGAGAAA 589 SMC4 2650217 CGCTTTTCCTGTATTATCGGGCCAAATGGCAGTGGCAAATCCA ATGTTATTGATTCTATGCTTTTTGTGTTTGGCTATCGAGCACAA AAAATAAGATCTAAAAAACTCTCAGTATTAATACATAATTCTGAT GAACACAAGGACATTCAGAGTTGTACA 590 SMC4 2650218 TTGAGAAAGGGACCAAAACAGCATGGAAAAGTATCAATTCTTT GCTAAGTTGGGTTATTAATGAGAACTACTGGCAGTTTGTGTGC ATGTTCAATTGAAGTTTTTAATCCATAGAATTAGTTTCAGTATGA AATGAGTGAATTTTGAAGTAGGCCTATGACTTAATACCAACAAT T 591 SMC4 2650219 AAGGGGATGATTATGAAGTCATTCCTAACAGTAATTTCTATGTA TCC 592 SMC4 2650220 AACGGCCTGCAGAGATAATACTTCTGTCTATCACATAAGTGGA AAGAAAAAGACATTTAAGGATGTTGGAAATCTTCTTCGAAGCC ATGGAATTGACTTGGACCATAATAGATTTTTA 593 SMC4 2650221 CTGTAGCAGCACATCATGGTTTACATGCTACAGTCAAGATGCG AATCATTATTTGCTGCTCTAGAAATTTAAGGAA 594 SMC4 2650222 GTAAATATTGGCGTAGTGAAATATATATTAAACACCAATATTAC TGTGCTGCTTTAGTG 595 SMC4 2650223 GTGTTTGATTTACCTAAGCACCTAGTTAATTTAATCTTTGTAAC ACTTTGGATGGTTAACTTAACCTTTACTCAAGTTGGTTTTTGTT TTGTTGAAAATGACTTACTTGGTGGAACCACTACTACTGAAAG AACGAAACTTTGATATTACATTGTTAAGTATCAGAGCTGTTACA GAGCAAGTCCTTTTAAAGAGATGTAAAAATTAAGTACCTGTGC CAAACTGATTTTTATTAGAAACCCTGTTTTCTTTAAGTAAAAGTA TATTCTACCAGCATGGCTTGG 596 SMC4 2650224 TATCCACAACTAGGGTGAAGGTGGTGGAGAGCAGCAAGGAAG CTACCTCTAACCAACCAGAA 597 SMC4 2650225 CTCAAAGAGTGGTATAACTGGATCATAATATCCTTGTTTGCCAC TCAAGAAAGTGTTCCATAACTTAAGATAACAGTGGTGGGAAAA ATCATTTAAGACCTTGTTTCATATGCTTTAAGATACAAGAAATA GAGATAACACTGGGAACATATGAAACTTTGTCAGCATCAGATA ATAGTGTTGTAGCGACTTGAAACATTTTTTGTCTGTGATTGTGC CAGTCACTATTTGTGACTTGGATTGAACCTTGATATGACTTTAA ATTCAGGTTGATGTTTTAAAATTATTTCTGAAATATATTGAGCTT ATTGCCCTAAATTAAAACTATATTCTGTAATTTTACATGAGTTAT GTAAGTTTTCTGAAGAAATAAGGAGGAATCCTTTAGGCACAGA CTGTCAATCTACAGATT 598 SMC4 2650226 ACTCTTGGCTTTATTATTTAACTGCTCCCAATTCTCACTTAAGA TTGATTTAGCTAAACATACAC 599 SMC4 2650227 GAACAAATTGCTATGATGAAACCAA 600 SMC4 2650228 AGATATAATTGGTTGTGGACGGCTAAATGAACCTATTAAAGTC TTGTGTCGGAGAGTT 601 SMC4 2650229 GGAGAGAAAAACATAGCTATCGAATTTCTTACCTTGGAAA 602 SMC4 2650230 GTAAGTGCCTTGATTGATATTACCAATTTTTATATTAGTTTTTAA CCATTAAGTCAAAGCCCTTCTCT 603 SMC4 2650231 AAGGAATTATGTGGTGAACTTATCCAATGTGAGGACTATCTGG CTGTGACACCTGTCATCCCGTTGATCACCAGGGTTGAATTTAT TAAA 604 SMC4 2650232 TTATGAGTTGCAGAAACGAATTGCTGAAATGGAAACTCAAAAG GAAAAAATTCATGAAGATACCAAAGAAATTAATG 605 SMC4 2650233 GATAATTGTATTACATGTGTATTTATATATAAAGTTACTTCTAGC ACATTGTGAGTGTAAGACATTTGCCAGCATATCAAGTGGTG 606 SMC4 2650234 CCCTAGTGGCGTAGCACAGTAACAAACAATAAGCATTTGGCTT CACAGTTTAATCTTTTAGTAGTCCACAAATCTGATAGAGGGATA GGATTTGGGTTTTTCTAGATAGATTTTTAAGGGTTTTATCATGT CCCTACTTGATGCCATTTTTCAATGACACTAGTATCTCTAATTA TTTTTAAATAAAAAAATTTGTATAGTAAGTTTATTGTATAGTAAC TTGTAAGTATATTCGTAAAAGGTAAAACCAAAATTTTACTCCTA TGGTAAAATTTTTATATACCTAGACATTGTAGTCACTGGAAAAT GTGTTATTTTCCCTCCAACTTAGAAAGGCAAAATAGCTGTCATA ATCAAAAATACAGGTGCTTCTTCAACTATGGGGAGAGGGATCA TCTTGGAATAAGGAGAGTTTTAGGATCCTGCCTTATTAAGAGC CTGGACATA 607 SMC4 2650235 ATTACAAAATTTATTGAGGAGAATAAAGAAAAATTTACACAGCT AGATTTGGAAGATGTTCAAGTTAGAGAAAAGTTAAAACATGCC ACGAGTAAAGCC 608 SMC4 2650236 TCCGTGTAGTCAGAGCATATTTATAGCTAAAGAAGAATAATTAC AACCTGAAATCAGGAGAGAAGGATGACAGACCTGAGGCCCTG CCAGAGACAGTTTTCCTTCATAAGAGGTCAGGTGTTTGTAGAA GTAGTTTTACTATTAGATTGAGAGAATATAGAAATTACAGTGAA TAGTCGGGAAAATACTTGTTAAAGCTAGCTAATTTAACTCTGAT TATAAAGAAAAGAAGAACTAGAGGACCCTGAGAAATGCCTTTA AATA 609 SMC4 2650237 GCCAAGAGTAACAATATCATTAATGAAACAACAACCAGAAACA ATGCCCTCGAGAAGGAAAAAGAGAAAGAAGAAAAAAAATTAAA GGAAGTTATGGATAGCCTTAAACAGGAAA 610 SMC4 2650238 TGAAACCTGAACTGGTAAGTTTGGACTTTTAATGTCCAACATTC CTAAAACTAGTCAACCTAGACTTAGATGACTATTCTTTTAATTC CTGCTGA 611 SMC4 2650239 GTCAATGGATAATGCAGTAGCTTTCATGATGGGATACTTCATA GTTAGTGGATTTTCACTGTTTGCTTATTTAATATATATTGAGTAC TCATGTGCCCTGCACCCCATGTTAATGACAAAGCTAGGCCTCA AATGTCTTTATTCCTCAGCGTAATGATCGATCTCACAAAGCTCT TGTGAAATCAGTTGGGAAAAGACTATGTACAGTGAATATTGAC AACTAGGCAAAAACTGAATCTAGTCCACTTGTGAGAA 612 SMC4 2650240 AAGCACGTTCAAAGATGGATGTAGCCCAGTCAGAACTTGATAT CTATCTCAGTCGTCATAATACTGCAGTGTCTCAATTAACTAAGG CTAAGGAAGCTCTAATTGCAGC 613 SMC4 2650241 AAAGAATGAGGTCAGCATTTCAGTATTCCATATGTGAACTGAG ACTATCAAGAAACTATATTATCCCCAGAAGCACCATATAGTAAG TAAATCACCACCACCACCCCACTGTAGAAATAATTTAAACAAAA GAAAGTTTGTGTTTCTTTAAATCTTAAGTATAGACAATTTAAAG ATAAATAAAAAACAAGTGTATATGTATTTATATAATGAATATACA AACAACTATCTTAATGTGTTTTGGGTTTTGAATTTATGGATGTA GTTTCTTTGCTTGCATTCCAAAATGTTATAAACTAACTAAGATG TATAGCTTATCGGTGCCTGTCCCCCATCCTTGAGTGAATTAGA TGTCTAAGGAATTTCGTAAACTTTAATCTCCAAAGATCTCCAAA ACCTCAGTA 614 SMC4 2650242 AAGAGCTCATTAGCAATGAATCGAAGTAGGGGGAAAGTCCTT GATGCAATAATTCAAGAA 615 SMC4 2650243 TGACAACCATATTTCAAGTGTCACTGTATATAAAATAAGATTCA TTTTGTTTGTTTTAAGGCACATTTATTTTTAAACATTTTGCCCTT ACAGTTTCTTGTTTACTTAGCTTTAGATAAATACAATTATTTCAT ACATATCAAGAAAAATACTAGTAATGTCACACAAAC 616 SMC4 2650244 GGGGACTTAGGAGCCATTGATGAAAAATACGACGTGGCTATAT CATCCTGTTGTCATGCACTGGACTACATTGTTGTTGATTCTATT GATATAGCCCAAGAATGTG 617 SMC4 2650245 GGCTGTATGGGCGAAAAAGATGACCGAAATTCAAACTCCTGAA AATACTCCTCGTTTATTTGATTTAGTAAAAGTAAAAGATGAGAA AATTCGCCAAGCTTTTTATTTTGCTTTACGAGATACCTTAGTAG CTGACAACTTGGATCAAGCCACAAGAGTAGCATATCAAAAAGA TAGAAGATGGAGAGTGGTAACTTTACAGGGACAAATCA 618 SMC4 2650246 GAAGAATGGGTTCCTCACTTGTTAT 619 SMC4 2650247 CAGTTGCAAAACGACTCTAAAAAAGCAATGCAAATCCA 620 SMC4 2650248 GTGAACGAGAAATGAGGAACACACTAGAAAAATTTACTGCAAG CATCCAG 621 SMC4 2650249 GGAACTTGAAGCTAATGTACTTGCTACAGCCC 622 SMC4 2650250 TACTGGCCAGGCTTTGTTTTAGGTCCTACTGATAGAGCAGTAA ACAAAAATAAAGTCTCTTCCCAGGGAGCACACATGTAAGATGG CACATATTTGAGTGGAGGCCCAAAGAAAGTATGAGTGCTAACC CATGTATGTTTGAGAAAAAAGCATTCCAAGAAGAGTATAAAGG AGCAAATACAAAGGCTGAAGCAGGAGTATGCTGGGAACACAA ACCATTGTGGCTGGAATAAAGGACGGAAGAACCCAGATTCTCT GAGGCCTTCACCCACACTCCCCTTTCCCTGCAAGCACCCACA ACAATGGCTTTGATGGTACCTGATGGTCAATTGAGAAGCCAAA ATGTATATCTGTGCTATTAATGGCAACATTTTCATGGAGAGACT GCAAGAGTCTATATGTGTTTCATCCTTATTTGAAAAGGAATCCT TGACTTTGTTAGGAGCTCTATATATCTCCTCTCATAGAAATGCC ATATATTATCAGGAGACTGTTAATATCTCATGTGGAGGACCCA TTTGTGCAAGCATA 623 SMC4 2650251 ACTTTTACTCTTCGTTGTCACAGGAAGGAACGCTAATTCATCTT ATATCCTCCACTTTGTTTTAATGTGGAGAACTGCGAAGTTATGT TAGCAGAAGAAAATAACCACAATTTCTTCATTGTGGGCAAGTT AATATTGAGTTAGGCACATAGTGTATCTAAGGCTAAAAATCATT ATGAACTCAGTAGTCAAGGAAGTGCCCTAAGAAAAAGTTGTAA AGATATTTTAAAAGAAGCTGAGAACATGAAGCCATTAAGAAAT GGTGTGTTTACAGCCGAGCTAGTGTGTTTAACTTT 624 SMC4 2650252 GCTGAGGTTAAACGCTTACACAATACCATCGTAGAAATCAATA ATCATAAACTCAAGGCCCAACAAGACAAACTTGATAAAATAAAT AAGCAATTAGATGAATGTGCTTCTGCTATTACTAAAGCCCAAG TAGCAATCAAGACT 625 SMC4 2650253 GTAGAGTATGCATGTTACCCTAACTTGTTTTCCCTTTCCCTGCC TTCACATTGGAAAGGGGGTTACTATGTAATGTTCCATAAAATGT TTCTCTTACTGTTAATTTATTGAACCTGTCTGACACATTACCTAA TGGGACTTCCATGACGGAAAACCTATAATGAACATTTATCCTAT GGCCAATTAAAAAGGCTGGTAAACAGGTATGCCATA 626 SMC4 2650254 TGTCTTGCGTACAGAGAAAGAAATAAAAGATACTGAGAAAGAG GTGGATGACCTAACAGCAGAGCTGAAAAGTCTTGAGGACAAA GCAGCAGAGGTCGTAAAGAA 627 SMC4 2650255 TCCAGAAAGAACATCGCAATCTGCTTCAAGAATTAAAAGTTATT CAAGAAAATGAACATGCTCTTCAAAAAGATGCACTTAGTATTAA GTTGAAACTTGAACAAATAGATGGTCACATTGCTGAACATAA 628 SMC4 2650256 AAGAGATTTCGGTTCTAAGCCCAGAGGATCTTGAAGCGATCAA GAATCCAGATTCTATAACAAATCAAATTGCACTTTTGGAAGCCC GGTGTCATGAAATGAAACCAAACCTCGGTGCCATCGCAGAGT ATAAAAAGAA 629 SMC4 2650257 ATTTTCCCTATCATAATCTTTTCACAG 630 SMC4 2650258 TATGAAGATCTTCGGAAACAAAGGCTTAATGAATTTATGGCAG GTTTTTATATAATAACAAATAAATTAAAGGAAAATTACCAAATGC TTACTTTGGGAGGGGACGCCGAACTCGAGCTTGTAGACAGCT

TGGATCCTTTCTCT 631 SMC4 2650259 GTTCATTGGCTTTAGTATTTGCTCTTCACCACTACAAGCCCACT CCCCTTTACTTCATGGATGAGA 632 SMC4 2650260 GTGATTTACCTGTTATTACTTAATGT 633 SMC4 2650261 GCACAGTTCATAATAATTTCTCTTCGAAATAATATGTTTGAGAT TTCGGATAGACTTATTGGAATTTACAAGACATACAACATAACAA AAAGTGTTGCTGTAAATCCAAAAGAAATTGCATCTAAGGGACT TTGT 634 SMC4 2650262 TTCAAGTTGATTCAGTGTATTACTGATTTTTTTCTATTTGTAAAG GATTATGAGTTGTATAAAATACATACTCCCTAAACTAGA 635 SMC4 2650263 CAAGGTTGTGCTATCAAGGCTCAGCATACCTTCGTGGGCCTTT GATTTACCAACACTGGAAATGCCTGCCAACTAATCTTGGATAG ATTCTTTAAGGCATTCCACTTAGCTTGCCAGTTGA 636 SMC4 2650264 GCCTAGGCTATCTCGTAAGTTGAAAAATATCCCACTATAGTTG CTTCATGAGTATGAAGTAAGATGGCCTCTGATTTACACTGGTT CAATTTACAAATTTTCAACTTTATGATAGGTTTATCCGGGTACT AAATGCATTTCAACTTGATAGTTTCAACTTATGATAGGTTTACC AGGATGTAGTCCCACTGTTGAGGAGCATCTATTTAGGGGTTAA TTACTTTAGTAATAAGTGGAAAGTAAGATACCTTGAGTAATGTT TGCCTATAAAATTGTCAGCGTATTTTTACACTATTGGCTCAAGA ATGTTATAATGCTAAGGGACATAAGTTGGCAACCACTTGGTTTT TGGAAGGACTTTCGGTATTGTATTAGAAGTCTGCCCTAGCTGT TAAATTTCTGG 637 SMC4 2650266 GATGTAACTATTTTGCTTTGTAAATATCCTGCCTTTAA 638 SMC4 2650267 TGTTTCTTAATAGCTGTACTCTATCTCTTCAGTAAGTAATTTGC CAGGAGAAATACAATGTTTTTAAGGAATATTTTTGTCAGCGTAA ACTGTTAAACACTGAATCCCAACTTTTAGCTATCTGAAAAATGT ATACTTAAATAATACATTATGGCCATTTGACTCAAATGTAAGTT 639 LIPH 2708858 TCTCTTTCCTGGTAAGCAGGGAGTCAAAACAATAGCAAGAAAA TGCCAGAAATAGAATTTCTACTACTTTGTAAACTCTAGGCTCGT GGGTCTCCTAGCTCTCAGTACCTGGCTCACTGTAGGATGGGT AGATGGGTGAATGAATGGATAAAGAAAGGAAGTTTGTTCACCG GAGAGGAGATGAATTTCAGTAAGTTTCATGTAACAGTGATCAG GAGAAATA 640 LIPH 2708859 GGCTGTCACCTATTTTGCCAACACGTGAATTCAAAACATGAAC CGGTTTGCTTTTGGAGAATCTGAAGACTCCAGTTTGAGGAATC CTTTGCTTCCCTGGAGGTAGATGCTGTCTGCAAATCTAGAATG ACAGCAGGAGTCCAGTCAAGAGGTCCTGTCAGGCCAAGGCCA GAAAGAAGGGAGGACAATCCCTGGGGCCAGATGCCCAGTGT GAGGGGAGGCATGATCTGTCCCATGGCTGTGGCCACTGCAG GAAGGTCTGTGAAAAGGAGGTGACAGGCCCAGTCACCTCCTC TTCACCCAAGTGATTGCTCCTTCAACTGCTATCTGTGAAAATAG CCTTTGTTATGAAGAAATTGACTCTCTCTCTCTTTTTTTTTTTTT GGAGTTGCCTAGGCTGGAGTGCAATGGTACGATCTCAGCTCA CTGCAACCTCCACCTCCCAGGTTCAATTGATTCTCCTGCCTCA GCCTCCTGAGTAGCTGGGATTACAGGCATGTGCCACCACACC CGGCTAATTTTTGTATTTTTATTAGAGACAGGGTTTCACCACGT TAGCCAGGCTCGTCTCGAACTCCTGTCCTCAGGTGACTACCC GTCTCGGCCTCCCAAAGTGCTGGGATTACAGGCATGAGCCAC CACACCCGGCCAAAAATGGATTCTCTATG 641 LIPH 2708860 CTGCTGGGACTAGATAGTGGATGAAGAAAGAAGGACGAGGAA GCCGTGGGGCAGCCTCTTCACATGGGGACAGGGGATGGAGC ATGAGGCAAGGGAAGGAAAAGCAGAGCTTATTTTTCACCTAAG GTGGAGAAGGATCACTTTACAGGCAACGCTCATTTTAAGCAAC C 642 LIPH 2708861 TCGGGCTGTTTGCTCAGGGAAGGCAAGAAAGCCACGTGCTGG CCCTCTGCCTT 643 LIPH 2708862 CAAGGCTTTTTTCAGTAGCGTCCTATGGATGTCACATTGTACAT CAAACAACCTTGTGATTATAAAACGATCCTGGGAAGGAGCCCC TAACTAGGGCAAGTCAGAAATAGCCAGGCTCGCAGCAGCGCA GCGCTGTGTCTGCTGTGTCCTGGGGCCTCCCTTGTTCCGACC TGTCAATTCTGCTGCCTGTCACGCGGGTGGTTCTGCCCATCG CGGCTGCGGGTCAAGCATCTTCAAGGGAAGGACGGACTGGA GGCCTCACCGTGGACTCAACTCTGCATTC 644 LIPH 2708863 GCCTCAGCTGTGTCGGTATGATCTTGTCCTGATGGAAAACGTT GAAACAGTCTTCCAACCTATTCTTTGCCCAGAGTTGCA 645 LIPH 2708864 CTCTAATAGGCCCAAGGTACAAGCTCAGGATTCTCCGAATGAA GTTAAGGTCCCTTGCCCATCC 646 LIPH 2708865 TCAGAAATATCACCAAGTGAGTCTACTTGCAAGATTTAATCAAG ATCTGGATAAAGTG 647 LIPH 2708866 CTTTGTGGATATTATAACATGGAACAAGAATGTAAGAAGAGGG GACATTACCATCAAATTGAGAGA 648 LIPH 2708867 TATTATGCTGATAATTGGAAAGACCATCTAAGGGGGAAAGATC CTCCAATGACGAAGGCATTCTTTGAC 649 LIPH 2708868 ACCACCAGAGGTCTGTATACCTGTACCTGTCTTCCCTGAGAGA GAGCTGCACCATCACTGCGTATCCCTGTGACTCCTACCAGGAT TATAGGAATGGCAAGTGTGTCAGCTGCGGCACGTCACAAAAA 650 LIPH 2708869 CTGGGCTACAAGGAGCCATTAGGAAACATAGACTTCTACCCAA ATGGAGGATTGGATCAACCTGGCTGCCC 651 LIPH 2708870 CTGCACCCGACCTATATATACATTTCTAGGTCCTCATTTTCTAG AAGTAGTTCCAATCTTTTTACCATCCTAGCTCTCAAATATTTAAA GATTTTATCTACTAAGTAAACATTCATTTTTTCCTGTATCCTATT TATTAGTTATACAAATGCAAATAGAGGCTCAGAAGCACCAGGC AATTAAAGGGTTGCAGC 652 LIPH 2708871 CCTGCAGGCCCTTTATTCAACGGGAAACCTCACCAAGACAGAT TAGATCCCAGTGATGCGCAGTTTGTTGATGTCATCCATTCCGA CACTGATG 653 LIPH 2708872 TGATGACATTTACATGATCGGAGTAAGTCTAGGAGCCCACATA TCTGGGTTTGTTGGAGAGATGTACGATGGAT 654 LIPH 2708873 TTACAATGATGGACCTCTTGAAATTCCA 655 LIPH 2708874 AGGCTGATGCTCTACACAAGGAAAAACCTGACCTGCGCACAA ACCATCAACTCCTCAGCTTTTGGGAACTTGAATGTGACCAAGA AAACCACCTTCATTGTCCATGGATTCAGGCCAACAGGCTCCCC TCCTGTTTGGATGGATGACTTAGTAAAGGGTTTGCTCTCTGTT GAAGACATGAACGTAGTTGTTGTTGATTGGAATCGAGGAGCTA CAACTTTAATATATACCCATGCCTCTAGTAAGACCAGA 656 LIPH 2708875 TATTCATCAGTTTGTTGTGCTTGTCAAGA 657 LIPH 2708876 CTCACTGTGAGCAAAATCCCACAGTGGAAACTCTTAAGCCTCT GCGAAGTAAATCATTCTTGTGAATGTGACACACGATCTC 658 PART1 2811146 TGCAATGTCAGCTATTTAGGACAGAAACATCCAAGGCCGTGTC AGAACTCAATTACGACTACATATGCATTA 659 PART1 2811147 ACGCCAACTATAGGACTCGTGCTTCTCGTACGCTGGGCTATAA TCTATGAAACTGAGCTCCAG 660 PART1 2811148 CCTCATAACAAGTCTAACTGGCTCTGGAAA 661 PART1 2811149 ACAGATGAGATATTCTACACATTAATCTACTTATCTGGAATCAC TTT 662 PART1 2811150 CACAGCTTCCTTGTCGGAGGGGAAAAGGACAGGTGATCTGGG GAAAACGCAGCTACACCTGGAGCAAGGTCTCTTCCCGGCTTG GCAATCTCAGCTGTGCCGGCGCTAC 663 PART1 2811151 CTGCTGCCTTCGGTGACTATATGAGAATGGAAACTTCTAAGGA AGCCAGGTTGTTAGAATTGTTACCCCCTTTACTCAGAGATAAC ATAGATTATCCAGGCTGA 664 PART1 2811152 AATTTTCAACACAGACTCCCTGCTTCTCA 665 PART1 2811153 TGTTCAAATCTCCATTTGTTGACAGACAAAGCCAACAATACTCT AAACTGAGGCCTGCAAGTCATTTCATT 666 PART1 2811154 TTCACCTCCTACAACTCCGAAGAAAACCCTTACTGTCCAAGAC CGTCACCAGCAACCATCCGCAGTCATTCAAGTGGAAGCTTTCA CAGCTTTTGTACATTCTCTGTGTCAATATACAACTGAGTTACAG ACTGTCCC 667 PART1 2811155 CATCAGGACTTGTATTAGCAGGTTCTGGCTAGAGAGACTATCT CCTGTCATCACGATCAATTAATGTTTTCTGGTGATCACATCAGG CCCTATCTAAGAAGCTCATGGTATACAAGGGTCACCCAAATAG CTGAGTGCAGTCCTTGCTCATATTTCCTTCATCTTAACCCCGC AAACAAGAATTAAGATGATCCCAATAAAAGAAAAATTGCTCAG GAAACTGAACCTTTTTCTGAACCAAGCACTGTCAGCAAATCTC AGGTATTAGAGCAACTATGGTTGATTGAAAAGTGTCTCAAAAT CTGGGCCAAGAATGATTGCTAGGTCCATAAGCTAATTTGTCTG GCCTTGCCATTTACGTAAGCC 668 PART1 2811156 TGGGATGGCCGTTCAGGAAATCTTCTGTTTGCTTTGCACGCTC CTGAGTATAGGACAAAGCGCTGTTGTTTAAGAACATAAATAAC AAAAGCTTTGTTCTTCCAAACCGAGAGGGAAACTGTAGATCTA TCCAAAATGACTTGGTCTTAAACTGCCTAAGGATGACAAGAAT GAAATATTATTTTAGGCTGCCCATCAGCATCCGTCTCTCAATCT CCTGTCTTGGCTTCAGAAAACAATGACTCAATATGGTCTTTTTC TGACACATTGCAGCCTTAGGA 669 PART1 2811157 TGCTCTTCTTGGTCCCACTCAAATGGGAAGTTCTGCTCGAGGC CAGAAATAGAAAACAGGAAGTCAACAGAACTGATTTTCCTAAC TGCCCAAATGCAAATCACCACACTCCGTTATGGATGAGAATT 670 PART1 2811158 TTGCCCTCACATACACATAAGTTTGTCATTGTTCTTCAGTTCTT TGGGTAATCTCTTCCTAGAAACTGCATCTAACAAATAGACCAC ATCCCCAAATTCCATCATGTCCAAAAAGAAGCACGGTATTTCC ATCAACACCCCAGCTGCCATCACCAAGCCAACTCGCCTGACTT CCATTCACTTACTAGCAAACATTTACCAAGTATCTGCCATGTTC ATTTTGTCAATGAGAATGACATGGGACTTGTTCCTCTAGGAGA TCACAGTCTA 671 PART1 2811159 CCTGCTGCCCAATAACCTGATGTTGTCACTCTCATATTTAAAAC CCATAAGTGCTGCCGGGAGCGGTGGCTCACGCCTGTAATCCC AGCACTTTGGGAGGCCGAGGCGGGCGGATCACAAGGTCAAG AGATCGAGACCATCCTGGCCAACGTGGTGAAGCCCAGCCTCT ACTAAAAATACAAAAATTAGCTGGGCGGGGTGGCACACACCT GTAGTCCCAGCTACTTGGCAGGCTGAGGCAGGAGAATTGCTT GAACCCGGAGGCAGAGGTTGCAGTGAGCCGAGATTGCACTAC TGCACTCCAGACTGGTGACGGAGCGAGACGCTGTCAAAAAAA CAAAACAAAACAAAAAACATATCAATGCTGATGAACCAAGTGC AAAGCCCTGAGCTTGGCCAGGCAACATAGCCTGGAAACCTGA CTTTTAATCCTTACTTTGCTCTATTCCCCCAACATACACACACT TCATACACCACACCTAAAAGAGACTTCCCACAGTTTTCCAAAA ATGACTCACATTTATATTTCCTGTTTTTCCCTTTGCCCACCCTG CCCTCTCTCCCTCTGCCTTCATTTTTTTAATTAACCTCTGGAAC TCAGGTGCTCCTGCTCCAAGGTTTAGGTCAAAAGTTACCTCCT CCATGAAGCTTTCTCTCATTCTCCCACAATGTGTGAAAGCCCC ATTCTCAGATTTGCTTAGTTGTGCATTTGTATATTCTACCTTGC ACTACAGTCATTTGTATATTTATCTTATGGTTTCTGTGCCTTAG GAAAGGTACACTGTCTTAATCATCTTTGTTCAATACAGTGCCTA GCAGAGTGCCTCAAGTATAATATGTGCTCAATAAATAATAGAT GCATTTTTCCATGCATATTTTCTACTATATCGAAGTGGAAAATA TATCCATGTGATATAGTGAAAAATATCTCATGAAGAGAGATACA GTGAGGAAAATATCTCATGAAGACCAAAAAGCAGAAATCCAAG TTTTTTCTTTTCATTACTATCATCAGTGATTATTAATTTTATGTGT CAACTTGGTTGGGCTTAGGGATGCTCAGATAGCTGGTAAAATA TTATTTCTGGATGTGTCTCTCAGGGTGTTTCTGGGGGAAATTA GCATTTGAATCAGTAGACTAAATAAAGAAAATCTGCCCTCACA AATGTGAGCCAGCATCATCCAATTTATTGACAGTTTAGATACAA CAATAAGGCAGAAGAAGGTGAACTCTCTTTCCTTGAGCTGGGA CATCCATCTTCTCCTGCTCTGACATTGGAGTTTCTAGTTCTTGG GACTTCAGATTCTCCCCTGAAGTTTCTCAGGCCTTTTGGCATC AGACTGGAAGTTATGCCATTGGCTCCCCTGGTTCTCAGACCTT TGGACTCAGACTGAATTATACCACTGGCTTTCCTGGTTCTCCA GCTTCAAGATGACATATTGTGAGACTTTTCAACCTCCATAATTG CATGAGCCAATTTCCACAATATATCTCCTCTTATGTATCTATAT ATTTCCTATTGGTTTTGTTTCTCTACAGAATCCTAATAGATCATC TAATTGTTTATCTAACAAGTATTTTCCTCCCTAGACAATATGTTG GGCACTAGGGACACAAAAATAAAAACACAGACATCTGCACTCA ATAAACTTACATTCAATATCAGAGAGATTGGCACAGAATACAAA TAAAATGAGATACATGCAAAATAATATGAATTGCAAAATTACGG CAATTCACCACCAACTAGGTGTGTGACCGTGGGAAAATCACAC TGTGAGCTAAATATTAGCAAGTTTAAAATGCAAAATCAGAGGC AGTCTATGAATTGGACTTTGCTAATGGCCTCCTTTGCTGATGG ATGGCACATTGGTGTTAGAAAGTGCTTATTTTTGCAAAGGTCC ATTATTGATGCTTTAATTCTAAGGAAATTATGTAGGCAGAAACT AAAGAAAGGTTAAAAAAACAGCAGCTAAAATTGATACTTAGAC AATAAAAAACTAATTATAAGTGATTTATCAGCACCACTAGATAA CTACATTGGTGAAATTTAAGGCCATGAAATGCAGGACAAGCCT CGTAGGAAGCAAGGTCCCAGTGGATGAGATGCTGTCCTCTGG GCTCCTAACCTTCCACCACTAGTATTCACCATATCTGATTGGAA ATGTGTGCATGTGAGTCGGCCTCCCCTCTATGATGTGAGTAG GGACCTATTTTTGCTCATCTCTGTATCCTCTACACACGATGCTT GG 672 PART1 2811160 GGAGCTAAAAGAAGAAATAGTCAAAATTTTCTAAATGAG 673 PART1 2811161 CTGCCTTGTACTTCATGCAGGTTGAACAGAAATGTTTTCTGAG CATGTATTGTTACAGCCCTCTGAGATGGTATAAAAGAATGAAA GAAGACACGACCTGCCTTCCAGGAGTTTCACA 674 PART1 2811162 AGGGAAAAGCATTTCTAATGGAGGAGATGGCTGTGGAGAGGA GAGG 675 PART1 2811163 ACCTTCCACCCTTTCACTATGAAGGACCCTCACCA

676 PART1 2811164 AGATTGCATATGTATTGGGAAGCTCCTGGG 677 PART1 2811165 TCCACTTTCCTGTGAGGTCAAATGCGGTAAAGGGATGCTCCAA CCCTACCCTCCATGTACCTGCCTTTCCTGTGATTCCGAAGAAG GGGTGG 678 PART1 2811166 CTATTAATTAATCCAGAGAAGTGTGTTGCTATAAAATATTCTGT GAAGCATTTTCACTTATT 679 PART1 2811167 TTTGAAGAACTAGAGAAAATCATCAT 680 PART1 2811168 GGGATTTGCTGGCATTGATTTCCCAGGATGGCAAAGTGCTAAG AACTAAACCTTTAAAGCTAACAAAATGTACTGATGTCTTTGCAA AGTATCCAAGACCAACAAGAAAGTAATTTCCCACCTCACCCTA CCACCACCCAGAAAAGGAGCACAGAGATGGGGAAGAGAGTG GCTGCATCTGGCATCCAGCCAGAGGAGTCCGTGCAGGGATTC T 681 PART1 2811169 GATGATGCAGCTCCCTCAAGTATCACATGAAGATAGTGG 682 PART1 2811170 CAGCAATGTATGAGGTCCAAGGACCAGGACCAAAGGGAAAAA CAGCCATCTCACCAGACACCTGCCTACGACCAGATGCGTCAT CTCCAATATTAGCTAACTCCCTGGAACCTGGACTCA 683 PART1 2811171 GGCCTCTCAATCAATTACAAAACTGAGAATTCTGACAGTTTTGT GTATTTCCTCTTTGCATGTGATGTATATGTGTGTATTTGTATATA TTAACCATTTTCCTTTTTCTCTCTTCATTATTTTATGAAAGTTGT TGAATATAAACTCTACAATTTAGCCTTTAGGTAAGAGAATATTC AGTGGGACTTTGATTTGAGGAGTATTTAAGACAGCCAGATGAG ACTACGATAACTGTTGGAACTGTGTGTCTCCTCATTTGGGGAA AGGGGTGAGAACTCTGCATTTCTCTGAAGAACAGAGTTGACTT TGTGTTATACAGAGTTCAAATATATATATAAAATGGTGCATGTG GAAGCTAAGAAGCCAAAGGAGTTCACCAAGACAGTTATCAATA TATTGCCTCTCCGCTCCAAATCCACCCTTCTTTGCCCTGTTCC ACGATACTAATCTGGCTCCTCGGTCAGCCAGTGCAATGTCATC TGTTGCTGGTAGAGTGTA 684 PTTG1 2838202 TTAAACCAGGAGTGCGCCGCGTCCGTTCACCGCGGCCTCAGA TGAATGCGGCTGTTAAGACCTGC 685 PTTG1 2838203 GGCTTAGATGGCTCCGAGCCCGTTTGAGCGTGGTCTCGGACT GCTAACTGGACCAACGGCAACTGTCTGATGAGTGCCAGCCCC AAACCGCGCGCTGCTCGGGACCTTAGAGCCTCTG 686 PTTG1 2838204 TGTTCCGCTGTTTAGCTCTTGTTTTTTGTGTGGACACTCCTAGG ATAGAAAGTTTGGTATGTTGCTATACCTTTGCTTC 687 PTTG1 2838205 GCACCCGTGTGGTTGCTAAGGATGGGC 688 PTTG1 2838206 TATACAAGGCTGCAGTCGGATACACTGGTATTGTGGACGTGG CCTGGAGCTGGACGAGACATTTAGTGTACTTTTTGGGCAATTG GAGTCGTTTGTTATTGGTCCTTTTTCATTTTTAATATCTTAATGA GATGATTTAAGGAAGTTACTGAATCTCTGCTATTAGGCCTATC 689 PTTG1 2838207 GATCTCAAGTTTCAACACCACGTTTTGGCAAAACGTTCGATGC CCCACCAGCC 690 PTTG1 2838208 GTAAGTGTTGGCTATAAAGACACTGTTTAAACACTTAAGCACTT TTGACTCTTAAAATGACTATTGGCATCATCCTACGTAGCTTTCT TC 691 PTTG1 2838209 CTGCCTCAGATGATGCCTATCCAGAAATAGAAAAATTCTTTCC CTTCAATCCTCTAG 692 PTTG1 2838210 ATGAGACTGTCTGAATCTGGGTTGCTTTGGACAAGTGTACTTG TTGATGGAATTATTTGCAAGGTATCATCTTAGGTCAGGAGGGG AATAGGAACAAAGATGTAGAAGACATTGTTCCTGTCTGTAAAA GCTTATCACCTAGAGGAGGTAAGATGTATTCATGAACATTGAA TAAGTCCCATTGTGGACAGTCTTTCTCACAAGGCTT 693 PTTG1 2838211 CTGAAGAGCACCAGATTGCGCACCTCCCCTTGAGTGGAGTGC CTCTCATGATCCTTGACGAGGAGAGAGA 694 PTTG1 2838212 CTGTTGCAGTCTCCTTCAAGCATTCTGTCGACCCTGGATGTTG AATTGCCACCTGTTTGCTGTGACATAGATAT 695 PTTG1 2838213 TCTTAGTGCTTCAGAGTTTGTGTGTATTTGT 696 NADK2 2853389 TTATTCTGTGCCCTGTTGACTTCATTCACTGTTAACATTTGACA TAGAATGATTAGTTATTAAATCAGGGTGAAGTGCTTACCTGGT CAGTGTAGGCTCTTCAGATAATTTTGACTTAATATTTTTGATAC TCCTTGTGCATTTACATTC 697 NADK2 2853390 TCTTAAAGTATCTGCGTAGACATTCATAGCAAAGAATTTATGAC ATATCAGATAGAAATACATTAAAATGTAGTGTTTTCCCAGAGAT TGATCTGGCTTTTTTTTTTTGATATACATAAGATACCACTTTATA AAGAAGCTCCATACTATAGAACCTCCCCTAACAGGCTTAAAAT ACCTTCTTTTTTTTTTTTTTTTTTTTTGAGAACGGAGTCTTGCTT TGTCACCCAGGCTGGACTGCAGTGGCATGATCTCGGCTCTGC AACCTCCATCTCCCAGGTTCAAGCGATTCTCCTGCCTCAGCCT CCCAAGTAGCTGGGATTACAGGCAGGCACCACTATGCCTGGC TAATTTTTTGTATTTTTAGTAGATATGGGGATTCACCATGTTGG TCAGGCTGGTCTCGAACTCCTGACCTTGTGATCTGCCTGCCTC GGCCTCCCAGTATTGGGATTACAGGCATGAGCCACCATGCCC GGCCTTAAAATGCCTTCTTAAAGGAAAAATGCCAACTCCATCC TTAATCTCAAGGAAATCTGATTGTCCAAATAGATCTGTTAATAT GTAACATATTAATAGGTAACTTGCTGTGTAAAATTATAAGCCAT ATTTTAAAAGGTTTTAAAAATACTTATTGTGCTCCATTTGTGATA TAATTTCTAACATTTCTGCTCTGTGATGGGGGTTTATTTGTAAG AATAAGAGGCAAAGGAATGTTAGCATAGCAAAAATGTGTTTGA ATGAGTTAACCTTTTAATCGCAACCCTATGTGA 698 NADK2 2853391 TGCCAAAAGATCCTGTCGTTGCATAATCAAACAGTTGGTATTCT CGTGCCGTTGTTCAAAGTCATGTGTTTCTTTCATTTGGTGCTGA AAATTTCTGTTCAATCATTGACAAATATTTATTGAACACCCACT CTGTGCCATGTAAAACTATGTCAGGTGCTGGATATGTTGATGA ATGAAACAGACTCTATCCTTATACAATTTGAGTCTTGTGGGCTC AGAAGTAAATTCTGTGAAAGCTGGACGGATAGTCGAATTGAGT GCTCTTA 699 NADK2 2853392 CCTCCTAATTGTGGGATTGTCAGAACTGAACACATATCATTTGA TTAGTGCATATTTTTTATAGTACCTGAAAACCAAGATTTTGAAA AAATTTTCAAGACAGAGAATTTTGATAAATCCTGACATTGACCT AATTGACATAGGTAAATATGTTTGTATATGTGCTAATAATTTTCT AATTTCGGAACACGATGATGTTATGACTATTGATT 700 NADK2 2853393 CTACCAGTCGTAAAGTGACATTTTTTGGTTATTGTTGAGACTGC TTGCCCGTGGGCTCAGAAGTGAGATTTGCATTATTCTTCTGTT GGATTCTGATAGAAAAAAAGACATTCACTGTATAAGAAAATGG ATGGACTGAACCAATTAGAATTGATACCAGTGAAATTTTTATAT TGCTTACAATTGGTAACCAAGAGTGCTGATA 701 NADK2 2853394 TGTTCGTTCTCGTTGTTGGGATGCCTGTATGGTTGTGGATGGA GGAACTTCTTTTGAGTTTAATGATGGTGCAATTGCTTCGATGAT GATCAATAAAGAAGATGAGCTTCGAACTGTGCTTCTTG 702 NADK2 2853395 TCACTGCTCTACAGTCCGGAAGAACCAAAAATACTTTTCAGTA TTCGAGAACCAATAGCAAATAGAGTTTTCTCAAGCAGTCGTCA GCGTTGTTTCTCCTCAAA 703 NADK2 2853396 GAGAATTAGTGCTGTTAGAGAAAGAATACTTATGAAGAAATCT G 704 NADK2 2853397 GAAATTTGAGTCTTCCATTGAACAGAGAATTGGTAGAGAAA 705 NADK2 2853398 CATTCAATATTAACAGGGTTGCAACT 706 NADK2 2853399 ATGAGATTTCAGTTGATGATGGTCCATGGGAAAAACAGAAGAG TTCAGGGCTCAATTTGTGTACTGGAACAGGATCAAAGGCCT 707 NADK2 2853400 AATGTCTTATTCTTGGGCTGTAGCAGTGGACAATTTAAGAAGA AGTATACCCACTCTAAAGG 708 NADK2 2853401 GCTGAGAGCTAGCTTTGCTTTATAATTTTGTACTTACTAAAAAA TTAAATAACTTATAAATGGAGGAAAACTTGGATCAGTTGATAGA TTTTGGGGGAGTTAGTGAAATTTCTTGAGGGGATTTTCAATCG AATGCTTTTATTTTCTGTGGCAGTAATGATCTGGTTGGTTTATC TCATAAATAACTGATGCTGCTGCTTTTTGTGTTCTTTGATGTCT CACCTTATGTTTTTACTAAGTAAGGACAGCAATGGATTGGCTTC TGATGC 709 NADK2 2853402 CCCAACTTCTGCCAGTGAGAGCACTAAATGAAGTCTTCATTGG GGAGAGTCTGTCATCCAG 710 NADK2 2853403 CATTTGCTGCTTAAATCCAAAATAGTTCTCTT 711 NADK2 2853404 TGGAACTGGAGAACACACTTTTTTAGCTCATCACATGGCTTTT GGCAGAAGGCTTCAGTTCCTCACCATGTTGGTCTCTCCAAAGG GTTGTTCATGTTATCTCTTCCTC 712 NADK2 2853405 TGGAGGCAGAGAATCAGGTTATACCTTGAAGGGACTGGCATA AACCCTGTACCTGTGGACCTTCACGAGCAGCAGCTAAGCTTG AATCAGCACAATAGAGC 713 NADK2 2853406 GCTATATCTAGCTCAGTATCTTGGACTTTATGGGTTCTTGATAG AGTTTGACTTAATTTAAGTTACTTGGGAGATTTTGTACAAGCAC ATTAGGTGTTTCCGTTATAATTGAAAAGAGAATAAATATTCAAA TCTGTCATTGATAAGGAAGCTATAGG 714 NADK2 2853407 AGGGTCATTTATGCCTGCCCGTTCGATATACACATTCCTTTCC AGAAGCCTTACAGAAGTTCTATCGTGGTGAGTTCA 715 NADK2 2853408 GCTGCTGGCAGCGAGTAAAGTCTTGGACAGACTTAAACCAGT TATAGGGGTAAACACTGATCCAGA 716 NADK2 2853409 GGAATTGAGGTTCGTCTAGTAAAGAGGAGAGAATATGATGAAG AGACTGTTCGATGGGCAGATGCTGTCATAGCTGCAGGAG 717 NADK2 2853410 TACAGTGGACTTCTTGAACGACATCATATTCACACCAAAAATG 718 NADK2 2853411 AAGCAAATCCAAGTGGAACAAAGGTCATCTAACCGCCTCTACA AGTATTAGTTTATCTTTGGTCATCAAGTAGCCATATGCAGTGTG TTAAAAAGTCATCAAGGCTGAGGCA 719 NADK2 2853412 ATTAACACTAATGATTTTGAGCCATAAGATTATATTTGA 720 NADK2 2853413 GAGGCTTTTGGCTAGGCATTAAATTTTGGCACAGGCTGTCTAA TCTATTATAGTATATCTTGGTAAGTTAACATCTATTAATTAATTT TCACAATAGCCAAATGCTTCCTCAGCTTCTCTTTTGTGAGAACA TAACGAAAATTACAAAGCAAGGACAAAACTATTTAAAAACTCTT AACCCAGTATTCGTAGGCAA 721 NADK2 2853414 ATGTATCTTATTTTCCTGGGGCTTGCCGAGAGCCAG 722 NADK2 2853415 CATCTCAAGCCAAAGTTCCCTAACAGTCAACGC 723 NADK2 2853416 CCCATTGATTGACCAGTGACTTATTTTGTGATATCAGATTTCTG GTCAAACATTTTACCTCTACTGTCTCATGACCTTTCAAAGGCCA GTAAAACTATTATTACAATTTACTTGCATCATTAAGAGATGTAG CTGTTGGCAAATGTGCAATTGCTATTAACAGGGTCCTTGACAC AAATTAGAACTCTAGATGAAACAAAACTGACTTGGAAAGGATTT TGACACCAGAAACATACCTCATTGGTCAAAAAAAGGTTTTATTT AAAGCTCTTTTTCACCTGTCACCAGGGATGGGGAACTGAATAA GGAAAAAAAATTTTAATGTAGAACAAATAAGAAGTCAGCAGTTT CTGCCCTCCTCTCCATCATTCCAGGTCTCACAACTCGGCAACC CTTTTACTGG 724 NADK2 2853417 GAAAAGGAGAGTGCCCGGTGCTACCATGA 725 NADK2 2853418 GTACGTTATTAAGGAGAAATGTCAGGACAAGGGGCTGGTATA CTGGGTAGTGTGTGAA 726 NADK2 2853419 GCCTTTTCCTTGCTGGAACGTGGTCGTTGGACACTACGAGCTT GTTTTAAAAGCACAGGTCTTTGGTGCTAAGAAGGAAA 727 NADK2 2853420 ACTGCGAGGCCTAGGGCACTCCGGAAAGTCCTTCAGC 728 NADK2 2853421 CGAGCAGCAGCGGTACCGTTACGCGGAGCTCTCG 729 NADK2 2853422 GGCCCACGATGACTTGCTACCGAGGCTTCTTGCTGGGCAGCT GTTGTCGCGTGG 730 NADK2 2853423 CCGGCGGTAGGGAGCTGAGGCAAGGGGCCCGAGCCCAAG 731 NADK2 2853424 CCACTAGCTGGGGCCTCCATTTCTTCCCCGCCCACCTTTCTCC CGCGTGGGGTCTCCCGTTTCCCAATCGCCACGCTTTCCCCGC CTTCGTCAACGCCTGGGTACGTCCCCCTAGCCGCGTGGGCCA CGCACGTCCTGGCACTTAACCTCTGCCCGTCCGGCGCGAAG 732 RPL31P57 2858553 AAAGAGCTCCGGAAACTTGCCCTGAAGGAGATGGGAACTCCA GATGCACACTTTGATACCAGGCTCAACAAAGCTGTCTGGGCC AAAGGAATAAGCAACGTCTCATACTGTATCCATGTTCGGTTGT CCAG 733 GMNN 2898603 TCAGTTGGTCACGTGGTTGTTCGGAGCGGGCGAGCGGAGTTA GCAGGGCTTTACTGCAGAGCGCGCCGGGCACTCCAGCGACC GTGGGGATCAG 734 GMNN 2898604 CTGTGGCCTTTTGCGAGGTGCTGCAGCCATAGCTACGTGCGT TCGCTACGAGGATTGAGCGTCTCCACCCA 735 GMNN 2898605 AGGCGCACAGCCTCTAGACGACTCGCTTTCCCTCCGGCCAAC CTCTGAAGCCGCGTCCTACTTTGACAGCTGCAGGGCCGC 736 GMNN 2898606 GTTGGGAGGTGAGTCGAGGGACTGCCCCATTGGCTG 737 GMNN 2898607 ACTGCCCGCCCCCTAGCCTGGCGCTGGGCCTCCGGGACAAG TTGGCTGGGTCCGGGCTTGGGGACTGCA 738 GMNN 2898608 TTGCCTCGACCTTCCAGCACTTTGGTGATCATGCAGGTGATCC GCCTGCCTCGACCTCCCAAAGTGCTGGGATTACAGATGTGAG CCACCACGCCCGGCCTTTCCTAAGCTTTTTTGTTTGCACATGT

GTGTGCACGCGCCAGGACACAAGGTAAAATGTATTAATGTTAG AAGCCACTGCACTGAGTAAAGGCATGGCCACAAAAATTAGGG ACATCTATCGACGAGGCACAGGCGCAGACACGGCAGGGGCC AATGGGTAGTGGGCAGTGGGCAGTGGGCAGTGGAGCAGCAG TTCAGATGCTGAGTTTGGCCCAGTGGTCTAGTCAACCGCATTA CATA 739 GMNN 2898609 CAGGAAAGTTAAGATGCTGCTCTTTAGGATGGACCTGGGCATA CCCTAGTATCTGTTTATTTTGCTTTTTCTGGTGACTATTTAATCC AGGACAATATGTTTAGAAATTTTAAACCAGTTTTAGAAATTGGT TTAAAATACATTAATTTCATTTTTTCAGCTATAATTATTATGTGT GTATATATGTAAAATATAGATATCAAGAGTCATTAACTTTAGTC ACCTTAGTC 740 GMNN 2898610 TCTTCTGTGCTTCACCATCTACATA 741 GMNN 2898611 ATGAAGCAGAAACAAGAAGAAATCAAAGAGA 742 GMNN 2898612 TGTAGAAAGCATGGGGCTAAAAGTATTTTGACATAATTTATCCA AATTTAGCCTGGCTATAATTTCTGTAAGCCTTGAGTTAGTCAGA GGATGAGTAACAATAGAGAACATTTTTAAAAAACTAATTACGGT TGAATATTAAGTCTGACCCAA 743 GMNN 2898613 GCACTGACATTTTAGCCACCTTCTAATGAATGGGCTTGAAGCA GAACTGCTTCTACTATCAGGTAATGGTTGAGGGGGGATGTCTA TTACACATGTACTTTGTTTTGTGTAAAGTATGTTCTGGAAAGTT ACATTCTTTTGGTGAGTACATGTAAGTATTTGAGGGATATTCAT GATTTAAGGAGGCCTGAAATGAATCTTTTTGATTAGGGAAAGA AATATTTTGCAGTGTAAATGATTAACCATTTCTTCCAGTTTACCT GTTTGGTGAGTTCATACCATAAATGTTACGATGTTTGGTTTTAT AAAAGAGTACCTGTAAGTTTTTAGTTTCTGTGTGGAAGATTTTT TCAGAGAGAATACAGATAGCCTTCTTGTATTAGAATTTTGTCAT ATGTGGTTTGAAACTGTTCATTGGAGCTGAGGAATTTTGTTAC GTTTGTTTTAACTAGATATGATTAACAAAATGACCATAGCAAGA GCATGCATTGAAATGAGAGAAGTTACGTGTGTTTGTGTCTAGT TTGGGTAATATGATTCATTCTTAAGAATTCTTCAAACTTTATTAT AATTTTTGGAAATAACAAGTTTGTCAGTTGATTAAACCAGTGTC TTGTTCATAGGCGACCTTACGCAATTATATAGCA 744 GMNN 2898614 AATAGTTCTGTCCCAAGAAGAACTCTGAAG 745 GMNN 2898615 CTGCATCTGGATCTCTTGTTGGAAGAGAAA 746 GMNN 2898616 TTCAGCTAAGCTCTTGACCCCAGTCTAATCCAAAATAATTGTTG CAAATAAAATTCCTAAAATGTTACTATATGTTTTGGTAGAATTTT TAATTGTATAACTTTTTTAAAGATCCAGAGATGTGAAAAAGTTA GATATGCGTACTCTTTTT 747 GMNN 2898617 TGACCACTTAACATCTACAACTTCCAGCCCTGGGGTTATTGTC CCAGAATCTAGTGAAAATAAAAATCTTGGAGGAGTCACCCAGG AGTCATTTGATCTTA 748 GMNN 2898618 TTATGAATTCTGCCAATTACTGTAA 749 GMNN 2898619 TGCTGAAGGTCACAGTAACATTTGGACTCATTTTGAATTGCCTT GAAGACAGGAAGAAGAGAAATAGATGGTAGGATTTTTATTAGG CAAAATTAGGAAAGGTTGACTGGATAGAAATAAAGCAGCTCTT TAAAAATATTGTAGATTGAAGAGCAGGATTTGTGACACTCATAT CTGATTAGG 750 GMNN 2898620 GTGGAACACATTATCCTTGTAACCCTCTGCGATACATG 751 GMNN 2898621 TAAAATAACTGCGAAGAAATCCCAAACTTTATTACATTTGTTGT TTGAACTTTATTATATTTGTTGACAGTGGTATTA 752 GMNN 2898622 AGAAAAACGGAGAAAGGCGCTGTATGAAGCACTTAAGGA 753 GMNN 2898623 GAATCCCGTTGTGTTGAGAGTCAATTCTATGCTGCATGTCCTC CATGTTATATACTTGGAG 754 GMNN 2898624 AAAGGACAATGAAATTGCCCGCCTGAAAAAGGAGAAT 755 GMNN 2898625 TGAATGGTGAACCTCTGGATAATTTTGAATCACTGGATAATCA GGAATTTGATTCTGAAGAAGAAACTGTTGAGGATTCTCTAGTG GAAGACTCAGAAATTGGCACGTGTGCTGAAGGAACTGTATCTT CCTCTACGGATGCAAAGCCATGTA 756 GMNN 2898626 TGCCGAAGTTTACCTCCACTAGTTCTTTGTAGCAGAGTACATA ACTACATAATGCCAACTCTGGAATCAAATTTCCTTGTTTGAATC CTGGGACCCTATTGCATTAAAGTA 757 GMNN 2898627 GTGAATAGGATTTTCTCAGTTGTCAGCCATGACTTATGTTTATT ACTAAA 758 GMNN 2898628 TTGTGTATAACTTAGAATAATGAAATATAAGGAGTATGTGTAGA AA 759 SLC22A3 2934522 GGCTGCGGCCGGCACAGCGCCAGGGCGAGTGAGGCGGGTG GCGCGGGGGAGGCGGCGGAGTAAAGAGAGGCCGCCGGCTG GGTCCGCGGGTCACTCCGAGGCGCGG 760 SLC22A3 2934523 CTCCTTCGACGAGGCGCTGCAGCGGGTGGGCGAGTTCGGGC GCTTCCAGAGGCGCGTGTTTTTGCTGCTGTGCCTGACGGGCG TCACCTTCGCCTTCCTCTTCGTCGGCGTGGTCTTCCTGGGCAC GCAGCCCGACCACTACTGGTGCCGCGGGCCAA 761 SLC22A3 2934524 CGGCCAACGACAGCGCCTCCGCCACTAGCGCTCTCAGCTGC GCGGACCCACTCGCCGCCTTCCCCAACCGCTCGGCTCCCCTT GTGCCGTGCCGCGGCGGCTGGCGCTACGCCCAGGCCCACTC CACCATCGTCAGCGA 762 SLC22A3 2934525 GAAGCCGGCGGGAGAGGACGATGCTGGCTCCCAGGCGGACA AGCCGCGTGTGA 763 SLC22A3 2934526 TTCCGGATTCGCTTATGGTCTCCAGGGTCAAAGGAAAGGGCG AACCAACGTTTGAAGGCAGCAGCAGCTTTTTTCCAGTTGCCCA AATGGTTACTCAAAATGCAAGGGGACA 764 SLC22A3 2934527 GTGCACGAGAACGTCCCATCCAGGGACCCACGGATACTTCGT TCCTGCCAGGGTCTCCTTTGGGCCGACAGAGTTGTCTCTAATT GAGTGCAGGCAGCCCCGGAGCCCGCCGAGAGCTGAGGCTGG GCTGGGCTCCCGGGGACTCGGGCAGCTATTTCAGGCAGACG C 765 SLC22A3 2934528 GAGGGAAGTGACCTGGAAGCGGAGCAGAGGTCGCAGCTGGC CCCTGCTGGGCCTAGTCTCGCTTCTGTCGTG 766 SLC22A3 2934529 GCGTGTGCCCAGCTTAGATCCACCTGCAGCTGGCTCTGAACG CTGGATG 767 SLC22A3 2934530 GCTCAGTGTCTTCCGCTGCTGTCTC 768 SLC22A3 2934531 GTGGTGTTCTTGTCATCCTGGAAGCCCTGCCTTGGGCCATGC CTGAAATGCACTAA 769 SLC22A3 2934532 TGACTCATGCGCATGGCATCAAGGCAGCCATGCCCAGGCCCA GCTCTTACCTCTGGGGAAGATAGACAGCTGACAGGTCAGGAC ACAGACTTTGGTGGCAACTGCCCGAGCACCCACATAGCAAGT TGCCGAGGCCAGGGGCATGCAGAGCCAGGAAAACCTGGGAA GATGCATAAACAGGCCCAGCC 770 SLC22A3 2934533 CTGACACCTTGCGTGGGAGACACTAACAGGGAGAAGAGCTGA GCCTCCCCCAGCCTTCTGACCTACAGCACCATGTGATCATGAA TATGTGTTATTCTAAGCCACTAAGTTGGTGGTAATTTGTTATAT AGCAATAGAAAACAGATGCATTAAGTTTGTCTACAATGCCCAT GCCTGCAGTCATATTCTTTGGCTTCCTAGAAGGTGACCAGC 771 SLC22A3 2934534 CCACTGATTTCATGACCTAACTAGAAAAACTTAGACTCGCTTTT GGCCATGGAGACATACATTTCCAACAAAATTTTACTTCTGCATA ATAATTATTTCTTAAAATTTATTACATCTTATTTTTTTATCAATTA TGATCTAAAGATAATTGTAATTATAACCCAAGCAGAAAAAATCC AATATTTAGAGACTTATTGCCACAGGAAAATTTTAAAAATTAAA TGTCAATTTATATATGTAACTTATTGTACATAGAAGTATGGTGA CAAAACCTATAAAATATTTTCTACACGAAATACATTACATTAGA ATAAAAGTCTGTGGAAATGAAAATAAGAGCTCAAAGAGAAAAA AATTGATGTCAAATTTCAGACTATTAAAGAACAGTCTGTTTATA GCAATTGGACACCTGATAGCATATAATATTC 772 SLC22A3 2934535 TGTCTGTGTCAATGCGTGGATGCTGGACCTCACCCAAGCCAT CCTGAACCTCGGCTTCCTGACTGGAGCATTCACCTTAGGCTAT GCAGCAGACAG 773 SLC22A3 2934536 CCAAGTGCGTAGTATCCCAAGTATGTAAAACTGGTTCAGCATT CTAAAGTCAATTAATGTCATCCATCAATCACATCGACAAACTAA GGAAGAAAAAATGACATGATCATATCAATAGATACAGACAAAG TATTTGTCAAAATCCAACATCTATATATGACAAAAGCTCTCAGT AAACTAGAAATATAGGGGAACTTCCTCAACTTGATAAGGAATG TCTATTAAAAAAACTACAGTTAACATCATACTTAATGACGATAA ACTGTACAGAAGCTTTCTCACTAAGATCAGAAACAAGCCAAAT ATGTCATCTCTAATAACTTCTTTTCAATGCCATGCTAGAAGCCC TCGCTAATACAATAAATAAGACAAGTAAAGAAAATAACAGGTAT ACTGATTGGAAAGGAAGAAATAAAAACTGTCTTTGTTCACAGA TGTCATGATTGTCTATGTAGAAAATCAAAAGAATTAACAACAAC AACAACCAAAAAAAAAAACTCCTGAAACTAATAAGTGAGTATAG TGAAGTTGCAGGGTACAAGGCTAATACACAAAAGTCAACTGCT TTCCTATGTACCAACAATGAACAAGTAGGATTTGAATTTAAACA CATAATGCCATTTACATTAGCACCACAAGAATACACAACACTTA GATATAAATCTAACAACATATGTACAAGATTTATGTGAGGAAAA GTGCAAAACTCTAATGAAAGAAATTAGAGATGATCTAAATAAAT GGAGAGATATTCAACATTCATGGATAGGAAGACTCAATATTGT CAAGATGTCAGTTCTTCCCAACTTGATGTATATATTCAATACAA TACTAATCAAAATCCTACAGAGTTATTTTGTGGATATTGACAAA CTAGTTCTAAAGTTTATATGTAGAGACAAAAGACCCAGAATAG CCAACGCAGTACTGAAGGAGAAGAACAAAGCCAGAGGACTGG CACTACTTAACGT 774 SLC22A3 2934537 ATCCTGCCTTGGTGTTGGCGTCACTGGGGTTGTGGTGGCCTT TGCACCAAACTTCCCTGTGTTTGTGATCTTCCGCTTCCTGCAA GGTG 775 SLC22A3 2934538 TGACAGAAATAGTAGGTTCGAAACAAAGGAGGATTGTGGGAAT CGTGATTCAAATGTTCTTTACCCTTGGAATCATAATTCTCCCTG GAATTGCCTACTTCATCCCCAACTGGCAAGGAATCCAGTTAGC CATCACGCTGC 776 SLC22A3 2934539 CCCGTTGGCTGATTACTCGGAAGAAAGGAGATAAAGCATTACA GATCCTGAGACGCATTGCTAAGTGCAATGGGAAATACCTCTCA TCAAATTACTC 777 SLC22A3 2934540 GGAAAAATCATAGGACATATTAAAGAAGAAATGATTATGAAGC TCTATTAG 778 SLC22A3 2934541 CGGAGAAGGTTAGAATGGATTTGAAAGAATGTGGTTGGATTCA AAGAAGCCCTAGGAGACCCAACAAGTCAGCATTTTTCTCTTGT GAAAAGAACCACCTGCCAACCCCAGCCTGTTCCATTGCTGAC ATCAGAGG 779 SLC22A3 2934542 CATTTGCCAAGGTTTCTGGCTGGCCTCTGGCTTTGTTGAAGAG ATAGCTAGCACTAGCAGGGAGAAA 780 SLC22A3 2934543 AGGCTCTCTGAACATACAAACAGTATAACTGTTGTTCACTAAAT GGAAAAATCCCAAAATCAAAAACCAATGCAAAACAGTGAAGTG GCTTGAGCTCCTAGGAGGTTAGGTAGAAATTAAAGAGAATCAG TGGATGGGTAGAATTTTAAGCAGTAGGTAGTTACCCAATGTAG AACGAGGATTAGCTTAGACACCTAGTCTGG 781 SLC22A3 2934544 CTGCCCATTCCTCCCGTTTTTGTATGGGATATACTCATAGAGA ATA 782 SLC22A3 2934545 GATGAATGGTGCCAATTCTACCAGCAAAGCCTTCATCTT 783 SLC22A3 2934546 TGTCATTCAACACCGAAAGATATTGAGGGGAGGATGTTCTCCT ACACCTTTAATTGAAATGGAAATTCAATTTAAAGGTGCTTTAAA GAATGAGATTGCAGCCTTGGAGCAGGCTAGGCAGACTTGTGG GATGCCTCATCAGA 784 SLC22A3 2934547 ACCTGGTTCTTCATCTGGTCCTGAGTCCTTGCCCATTCTACTG TGGCTCTGGCCCTGCTTCATTCCTGCCTGATTCATCCTCAGAA GGCAGGTTTCTGTCCTGTCCCTACACATC 785 SLC22A3 2934548 AATTACTGTGCTTCTCGACTGTGGATAAATGAGAAAATACTCCT CTCTGTGAACGCGCTCCTTCGTGGAGACAGTAATGAGTACAA CTTCCAGAGCTCTGCGCAGCCAGCAACCCTGGCAGGAGTCCC TGTGTTATTCATAACCCAGAGCTGTGTTGCCATGGCAGTACTG CTTGCTAGACCTTGGACCCA 786 SLC22A3 2934549 GTGTGCTACTGGCTTATGGCTGATACGTAAGAGAATCTCATCT ATCTCTAAATGTTCTGCCTTAAGCCGCACAAAGGA 787 SLC22A3 2934550 TGTGCAGAAAATATTCTGCAAATCAAGAACCAGAAAA 788 SLC22A3 2934551 AAATGGAGGAAATTCCGAGATGACAGTGGTTTTGGTTCT 789 SLC22A3 2934552 GCTCTTTGAGAATGTAGTCGGGACTTGCCCCAGTCACCCTTGC CCTGAGAACTCAGTGACTGGGGCTAATGTCACCCTGGCTGTC C 790 SLC22A3 2934553 GGAGACACCTACCAGGAATCTAGTGGGACAAGGTTTCAGGGA TCCTGGAATCCTGCCCACACCCAACAGCTGGAACAGTTCCCT CAGCTGGCGAGTGGACAGGTGGTCT 791 SLC22A3 2934554 GATGTTAAAGACCATGTTCCCATAGAAATAATTCCCAAAGCATT CAGAAGACTGAGAAGAAGTGATGATAAGAATTGTTCTGGGCA GGAGTGT 792 SLC22A3 2934555 TTTCAAAAATTGCCGAAGTACTACAG 793 SLC22A3 2934556 ACTAACCTCTGCAGTTTAACCTTGAGCGATACCTTTTCCCATGA ATAG 794 SLC22A3 2934557 AGAGTGTCGATACTAGGCAACAAGCCTCTGAACAGATAGTGTT

ACCCGGAACATCACCCTTTTCTCCCTTTGCTTCAAATCAAAACC AGCATCCCCCATTTAGACAGCATAAAAGGTATG 795 SLC22A3 2934558 CTTCACTGAGACACAAGGAAACTTTTGGGGATCATGGAAAGG GTCCGTACCACGGTTGTGGTGGTGGTTATAAGACTATATATTT GTCAAAAGTCTTCAAAGTGTGCACTTAGAATTGCTGAAGTTTAT TGTACATAAATTACATGTAAATATCATAAAGTGCATGTAAATGG T 796 SLC22A3 2934559 CAGATGAGGAAGTTAGTAATCCATCCTTTTTAGATCTGGTGAG AACTCCCCAAATGAGGAAATGCACACTTATTCTTATG 797 SLC22A3 2934560 CGCAGTGGTGTATCAAGGACTTGTCATGCGCCTGGGAATTATA GGGGGCAACCTCTATATAGACTTTTTCATCTCGGGCGTGGTG GAACTGCCAGGAGCTCTCTTGATCTTACTAACCATTGAGCGCC TTGGACGACGCCTCCCCTTTGCGGCAAGCAATATAGTGGCAG GGGTGGCATGCCTTGTCACTGCGTTCTTACCA 798 SLC22A3 2934561 TATTTGGTAAATTCAGAATTGTACCCAACAACATTACG 799 SLC22A3 2934562 GTTTCGCTCTGTTCAGGTCTGTGTGATTTTGGGGGAATCATAG CCCCATTTCTGCTCTTTCGGCTAGCAGCCGTGTGGCTAGAACT ACCTCTGATCATCTTT 800 SLC22A3 2934563 TTCTTAAGAGCCTTCATCTACATTCTTTGTACTAAAAGAGACCT ATAATAATTGTTAGGTTCAATAATGATAATGATAGTCATTTATCT TATTATAATAACTATTTCATTGATAATTATGATATTAATTTCATCT TATTATAATAACTATTTCAGTTTTGAGAGCCAATTCAGTTATAAT GAATGGTTTTAATTTACTTTATATTAAAGGGTGCTGATAAATAAT GTTCAATTAGCATTCTTTGGGTTCTGAGTTAAATGCTGTGA 801 SLC22A3 2934564 CAGAAAGTGCTACTGTCCAGCAAAGACAGAGTAGTCCAGGAG ACAAGACAC 802 SLC22A3 2934565 ATGACCTTCAGGACTGCAGCCCACAGCCCAGTGGCAGGCAG GCGGGGCCTGAGACTGCGAGGGGAGACAGCCGAATTTCTAA AAACTCAGCGACAACAGAATGTGATAACTGCT 803 SLC22A3 2934566 TTCAAAGCAAGAGGATGCCGCATCCTCAAGCACCTGGTGCTA GAGGATGGAGTGCAGTTGTGAGCTGGGCCTGAAGAGAGGTG GTGCCAGGGCAGGGCAGGGACTGGATCCGGAAGGGCCTCAA GGACATGCCAAGGCTTTGCTCTTTATACACACAGCAGTGGAAA GTGACTGGACAGTTTCACCCTGAGGTGGACAGAGCTGGCCTT GCATTGTAGAAACACAGATATGCAAGTGGGTTGGAAGGACCC CCCAGCATCGTCCCTCTGATGGTAGATATGCAA 804 SLC22A3 2934567 TTTGTAAGCCAGTCATCAAGCACAGATATCATCAAAAAGTAAA GAATATGAAATATATGAGAAATAGAGGCAATAAATGCCCAACA CTCATCAGTCCCTAATTCAGCTACTACACCTTCAGTATTACCTG TGCTCCTGAGATTGTGTCTGCTGCATCTTTATGGTGGAAGCCC CATTGATGGGGCTCCTGCATCACTTCCCAGTGGCCCAGGCAG GGATGTTGTGTCAGTAGCCTGAAGGGCCCACAGTGGGAGCAT TTAAACCATGCACATTGGCAGATGCTGCCAATCAGGGCTTGAT TGCCCAAAGAGGGTTGTTAGGCATTTACCAGC 805 SLC22A3 2934568 ACTGGAGGAAGGGTTGATCCCTACAGTGAGGAGCCCAAAGAG ACAGGCCTAGGAGAAGGCTGGTCCCGGAGTAGACACCAGGA CAAGCTTTCCACTGTAAG 806 SLC22A3 2934569 AGGGGCAGGTAAGTGAGAGTGTCAGTGAGCGGGCGCAGAGG GGACTCCC 807 SLC22A3 2934570 TGGACCCTAAGAAGGAACTCAGTCA 808 SLC22A3 2934571 TATACAGGGGCCGTGGTGCTACTCAGGGTTTGAGGAAGGGAG AGAACCTTTGAAGCTGTGGTAAGGGAGAGCTGGGGCATTGAT CTGGGATGCAGAGGTTGCTGTGGTTGAGAGCTACTCCAGTGA GCAACATGATGGCTTCAGAGTGAGCAGGCCCCATGGGAGAG GGCCCAGCTGTGTCTTCCTGGAGCGGTAACACCTT 809 SLC22A3 2934572 GTATCCTGGCATCCATCTGTGGTGGCCTTGTGATGCTTTTGCC TGAAACCAAGGGTATTGCCTTGCCAGAGACAGTG 810 SLC22A3 2934573 GTACTGTACAAAATTCAATGCACCCTAA 811 SLC22A3 2934574 CCCTCCAGAGCTAGATAAGAGTATGCATTGTTTTTTTTAATGTG GTTGTGAAGAGAGAAGCATTTTCACATAAGGTGCTAAGACTCA GAAGTGATCTAAAGGCAGGAACTGCTGATGTGGGAAAGTGGA AATTGCTGGGACATACAGCAGCAGGGGATTAACAGTGTGGCT TACTCTACAGAGTGAGGATGCGTCAGGTCTGTCTAGATGGAAT GGCATAGGCAGGTTTTCAAGACTGACTACAAAGTGAAATGTCA CTGAACAACATGTTATAGTATTTATAAAAAACTAAAACCAAAGG TGTTTTCTCTCTGCAGCTGGATAGGAAGACAGATGACACACAG ATGATAGATAATAGGTAGATGATAGATAATAGGTAGATGGATG ATAGATAGATATAATAGATGATAATCATAGATAGATAAGTGATA GTAGATAAATGATAAATAATAGATGATAGATGATAGATAGATAC AGATAGATAAATAGACAGGTAGATGATAGGTAATGTCTGGATA GATAGGTGGATAGATAAATAGATAATAGATGATAGATAATAAAC ATTAGTAGGAAGATAGAGAGATTGAGTTTTGGAGGGGGGTGT TTAAATAGGGTATAAGTAAAACTAATACCCAGCCAATATATTAA CATGAGGAGTAATGTCAAGAAAAATTCACATTACACAAATTCTT TCTAATTGTTTGAAATTTTTTCATTAAAACATAGAGATATGAATA TGAGAATGTATAGTACAAGATGTAAAATATTAATATGTGCCCTC TGTGGACACAAATGGGCTGGGAAGAGGGGTAGGGAAGGGAG GACCATCACTTTCTTGCCAGAGACTTCCATACTGTTTGATTTTC TTTAAAAATTAGAACACGTAGTCTTGTGTTGCTTGTGTAGTTTT AAAAAATGATGTAACAGCTAATTTAACAACTAAAAAGCAATCTT AATAATGACTTAGGAATTAAGAACATGGAGCTCTAAATATTTTT AATATATAAAAAATCCTGAGGAACAGCTTTCTTCCCTTTGATTC TATTCCACTGACTGCCTTCTGTTTACACAATGAGAGTGATGCTT TCATTCTTTATCCCCAAACCAATCAGGATCAGATTTGCAAACTC ATCAGGAAAAAATGGAAGAAAAGGGAGTCCTCTGAAATCAAGA CTTTTCTACTGCTTCAGTAACATTAAAAATAAACAGCTAGGAGA GGTTTTTTTGTTTTTGTTTTTGTTTGTTTTTGGCTTGGGGAGTG TGGGTGGAAGGGGGTTGTCTAAATGGTGTGCAAGGAAAATCA ATACCCAACTAACATATAAACATGAAGGATTATACCAGCAAAAA TTTAAGGTACCCAGATTCTTTCTAATTTTTTTCTGTTTATAATTT TTCATAATGAAAAGTTGGGTACATTAATTAATTATACCTAGTCT CTATACATGAAAAAAAATATAGTAGAAGTATGGTTTACAGTGCT ACAATTTAAGCACATTAATTGTGATCCATGGTTATTTACTCTAC AAAAATTACTTAGTGCTAAATTACTAAAACTTGCTAGCATTTCC CTTTTAAAAATCACACTGGATTATTTTATCGTTTCTGCTGGTTTT TGTTCATGTTAACAGCTCATTTCCAAATATATGTTAATTCAGTA GAAGTTCATAAAGAACTTAAATGCTATAATGCTAACAAACCCCT GTATCAGAGGAACCAGCCCCCAATATTTCAGCATAGGTTCTAT TTTCCATAAGTGTTGGCCAGCTGAGAAATAAAAAGAGTACAAA GAGAGGAATTTTACAGCTGGGCCGCTGGGGGTGACATCACAT ATCGGTAGGACTGTGATGCCCACCTGAGCCTTAAAGCCAGCA AGTTTTTATTAAGGGTTTCAAAAGGGGAGGGGGTGTAAGAACA GGGAGTAGGTACAAAGATCACATGCTTCAAAGGGCAAAAAGG AGAACAAAGATCACAAGGCAAAGGGCAAAAACAAACATCACAA GACAAAGAGCAAAAGCAGAATGACTGAAAAGGGTCTATGTTCA GCGGTGCATGTATTGTCTTGATAAACATCTTAAACAACAGAAA ACAGGGTTCTAGAGCAGAGAACTGGTCTGACCTCAAATTTACC AGGGCGGGGTTTCCCAATCCTAGTAAGCCTGAGGGTACTGCA GGAGGCCAGGGTGTATTTCAGTCCTTATCTCAACCGCATAAGG CAGACTCTCCCAGTGCGACTGTTTATAGACCTCCCCCTAGGAA CGCATTCCTTTCCCAGGGTCTTAATTATTAATATTCCTTGCTAG GAAAAGACTTCAGCAATATCTTCCCTACTTGCACATCCATTTAT AGGCTCTCTGCAAGAAGAAAAATATGGCTGTATTCTGCCCGAT CCCACAAGCAGTCAGACCTTA 812 SLC22A3 2934575 CCACATTCCTGTAAATGTGGCAGGAATAAGAAAACCCCAGTTT CCCGCTCTCACCTTTGA 813 SLC22A3 2934576 TGTGCCTTGCAGAGATGCACGTGTG 814 SLC22A3 2934577 ATCTGGTCAAGGGACTAAGCTCCTAGCTGACCATTCATTCTGA AGATTGCATGGAGGATGAACATCTGGGAATCCTGTTAATGAGA AGGCTGAATCACAGGCACCTGGGCCAAAGGGTGTGAGCATTC ATGTTCTCTGCTCACCTTGGTTTCCGCACACCTTCGCAATGTG AACAGGTCAGGAGTCCCTCCCGTCCACCTCCTCTGTAACAGC TGGGGTTCCAGGCATGGTTTAGGCCCTGTTCCAGCAATAAGA ACCAATCTGCTGTACAATCTGAGGACTTGGCTCTGTTATTTACA AAATGATGCTGTGGTTCTGAGATTATTTGGGACATTTTTGGCTC TCCTTTAGTGGACACCTAGAGCCACAGATTCCCTTCTTTACTAA ACAAATCCCATGGATTCTGATTTCTGGGTCTTAGGATTTTAAAA GTGAAGGGATATTTTTCTTATATTTGTGAGTTCAGTTCCGATGG TGCCCGTGGTCAAAAGCGAAAA 815 SLC22A3 2934580 ATTGCTGACTCATGGCTGTATCTGGCCTAATATTGTTCTGGTTA ATCCATCTCTGACTCATGGCCATATCTGGCCTAATATTGTTCTG GT 816 SLC22A3 2934582 GTGGGTTCTTGTGACTGTACCATTCA 817 SLC22A3 2934584 GCAAACAGCAATTAATTAGCTAATAGAACAACAAAAGGCCCCA TATCCTGTAGCCAATTGAAGATCTGAGTTTAATCAGACCAGTG CTTCAAAATGGGTAGAGCCTTG 818 SLC22A3 2934585 CTGTCCTTTGCATGTGAGTTTCTGCTGGATCCTTTCAT 819 SLC22A3 2934586 TGCTGGCTACAATTTGGAACTGTGCAGTTTAAATATTTATTTAT TTTGTTTTGTTTTTACTCTTTCTAATTTGGATATTAGGTTTTGCT TCATCTGTGTTTTTTTTCTCTTACTCAGTCAATAACCATATCTCC AAACTAAATTAACGTTACTAAAGTGGGGAATTTCCCCTTCCTAT ATTCTCATAAGTGATTGAGCATCTGTCCTCATATAGGACTTGCT GCCTTGGAGGGGAGGGGCCAGACCTGGGAAAAAGAGGAGCC ATGAATAACTCTGCTTCCTACATTTGGCTTCTTCTCTTCCTCCA TATCCATGATTTATATATGTGAAGGAAGAACAAGAAATAACTTA ATAGGCCATTTGTCAATGAGAGTACAGTGTAGGAAGGGTGGA AAGTGAATATAAAATCTAGATTGGGGCTTCTGGTTTCCTGTTCA GCCTATAAGGAGCTTAGAATTTGCCACTCAGTCTTGACAACAA GTAAAATGCTGAACAAACTGAAAAATCAATAATTCTTCTCAGAT CCATAAGAGAAGTGAGATTACAGGGCAAACTACTACCTTCAGC ATCACCCCGCACCCCCAACCCCACTAAATAGAAAGACAGGAG AATACAGAGAATCATAACACAGGCGCAGAAACCTCCTTGAGAG AGCCAGGGTAGATAAACATGAACTGTAATTGATGAATTCCTGG AGGATCACTGTGGATGACCTGAAGGATTAAAAACTCTAGAGG GACTCACTCAAAGGAGGGCCCAAGCTTTTGTGATTTTTTTTTTT TTTTTTTTTTTTTTTGCCACCTGAAGCTCTACAAGGTTCCAAAG GTGAATATTAAGGAAAATCCCTCATGCTCTGGCAGCCAGAGG GGAAAAGGAACAATTTTGAAATATGCCAGAATATCGTTCTTAAC AATGTCTGCCCTCAGGAGAAGATGTTTAACCAGAGCCTAATCT TCTGGGGTTTTCTGAGAGCCTCATTGATCTGGGGGAAGGGAA ATACCAACTCCAGCCCCTTCTAGCCTTCCAAGTGGAGAAAGAG AAACACCAAATTCTAGCCTCCTCTAGCTTTCAACTTGGAAGAA GGGAAATACCCAGCTCCAGCCCCCTCTAGCCTTTCTCCCCTA GTTCAGAGGAGAGGGATAGAGAAGCATTTGTGAAGTTCACCG TTTAGAGACATAGGTTC 820 SLC22A3 2934587 ATTAATGGCAGACACCACAGATCCAGGAAACTCAAAGGAAATC AAGCAAGATAAACATAAAAAAGTATACCTAGTTATATCGTAGTC AAACTACAGAAAGCCAAAGATAAAGGAAAAATTCTGAAAGAAG AGTGGGGGGATAATGTCTTACTATAGTAAAAGAGCAATGATAA AAATTACACCCTACTTCTTTTCAGAAACCAGGTAAGCAAGAAG AAAGTGGAATACTTAAAGTGTCAAGAAAAAAAATCCAATCTAGA ATTCTATACTGTGCAAAGTTATCATTTAAAAGTGAAGGAGAAAT AAAGACTTTGTTAGACAAAAATTGAGGGAATTTGATGCCTTGTA ATAAATGTTAAAAGAAATTATTTAGAGAGAATGAAAATGATCTA GGTTAGAAATCCAGATCTACATAAA 821 SLC22A3 2934588 AGGTACTCATACTACTCATGAAGTGATACAGTGTTATTT 822 SCIN 2990412 CATATGGAGACCTTTTCCCTACAAAACACTTTTTTGAGAATTAG CAAAGCATGGTGG 823 SCIN 2990413 TGGATGACTATTTGGGTGGCAAGCCAGTGCAGAATAGAGAAC TTCAAGGATATGAGTCTAATGACTTTGTTAGCTATTTCAAAGGC GGTCTG 824 SCIN 2990414 CCCTCCACACGTGTTCAGTTAAAGTGTGAGGAATACCCTCCCC AGACAAACATCACAGATTTCCGAAATCAAACACGCTCCAGCAA GTGTTCTGCACACCCCACTG 825 SCIN 2990415 GGCGTGGCATCTGGATTAAATCATGTTCTTACGAACGACCTGA CAGCCAAGAGGCTCCTACATGTGAAGGGTCGTAGAGTGGTGA GAGCCACAGAAGTTCCCCTTAGCTGGGACAGTTTCAACAAGG GTGACTGCTTCATCATTGACC 826 SCIN 2990416 AAGCTTTTTCATTTATTCGTCCAGCAGCATCT 827 SCIN 2990417 GTTAGTATAGAAACAGCACTCCTCTTCTAAAAAGATAC 828 SCIN 2990418 GGTGTGGTTCCTCGTGCAACAAATATGAACGTCTGAAGGCAAA CCAGGTAGCTACTGGCATTCGGTACAATGAAAGGAAAGGAAG GTCTGAACTAATTGTCGTGGA 829 SCIN 2990419 TGGCTTCCATATGGAATGCCGAGTATGTCAGCCTG 830 SCIN 2990420 TCTTAGGGGAAAAGCCAGAGCTTCCAGATGGAGGTGATGATG ATGACATTATAGCAGACATAAGTAACAGGAAA 831 SCIN 2990421 GGGCTGCCAAACAAATTTTCGTATGGAAA 832 SCIN 2990422 GTAAAGATGCTAATCCCCAAGAGAGGAAGGCTGCAATGAAGA CAGCTGAAGAATTTCTACAGCAAATGAATTATTCCAAGA 833 SCIN 2990423 CCAGAAGGAGGTGAAACACCAATCTTCAAACAG 834 SCIN 2990424 GCTTCGGGAAAGTTTATGTCACAGAGAAAGTGGCTCAAATAAA ACAAATTCCCTTTGATGCCTCAAAATTACACAGTTCTCCGCAG ATGGCAGCCCAGCACAATATGGTGGATGATGGTTC 835 SCIN 2990425 CGTGTAGAAAACAATGGTAGGATCCAAGTTGACCAAAACTCAT ATGGTGAATTCTATGGTGGTGACTGCTACATCATACTCTACAC CTATCCCAGAGG 836 SCIN 2990426 TGCGTTCCTGACTGTTCAGTTGGATCGGTCCCTTGGAGGACA 837 SCIN 2990427 GGCAAAGAGCCTGTTCACCTACTGAGTTTGTTCAAAGACAAAC

CGCTCATTATTTACAAGAATGGAACATCAAAGAAAGGAGGTCA GGCACCTGCTCCCCCTACACGCCTCTTTCAAGTCCGGAGAAA CCTGGCATCTATCACCAGA 838 SCIN 2990428 TCCTGAAACTGCCACAAAATAGTGGCTACATCTGGGTAGGAAA AGGTGCTAGCCAGGAGGAGGAGAAAGGAGCAGAGTATGTAG CAAGTGTCCTAAAGTGCAAAACCTTAAGGATCCAAGA 839 SCIN 2990429 AAAAAGACTACCAGACCTCACCACTACTGGAAACCCAGGCTG AAGACCATCCACCTCGGCTTTACGGCTGCTCTAA 840 SCIN 2990430 AAGAGATTCCAGGAGAGTTCACCCAGGATGATTTAGCTGAAGA TGAT 841 SCIN 2990431 ATTTATTTGGATTGGCAAAGATGCTAATGAAGTTGAGAAA 842 SCIN 2990432 GTAAGCTCAATCGATGGACCATTATAGCAGTAACCGGGCACC ATTATGACCGAGTGTCTGGCTTGCTCTTTGCCACCATGTCTTA CAAAAATAC 843 SCIN 2990433 GAGGACACCAATTGTCATCATAAAACAGGGCCATGAGCC 844 SCIN 2990434 ACAAGGCAGTTATCTCATTGCTGTTTTGGGAGAGGAACGGGA AAAGCTTTTTGCTTATTTGTCTTTTGAAAATTAAGGCTGGGCGC GGTGGCTCACACCTGTAATCCCAGCACTTTGAGAGGATGAGG TAGGCGGATCACTGGGGTCAGGATTTCGAGACCAGCCTGGCC AACATGGCGAAACCTCGCCTCTACTAAAAATACAAAAAAATTA GCTGCGCGTGGTGGTGCACGCCTGTAGTCCCTGCTACTTGGA AGGCTGAGACAGGAAAATTGCTTGAACCCAGGAGGCTGAGGT TGCAGTGAGCCAGGATTGCGCCACCACACTCCAGCCTGGGCA ACAGAGACTCTGTCTCAAAAAAAAAAAAAAAAAAAATTAACCTC AACCAAACGCCTATTTTTTAATGCTTAGTTTTGGCTTGAAATTC TTCTTCACCTGGAGTTTTCTTACGTTAATACATTAAAATAACCT GAAGGAAACTTTCGTTATGGGCCAATATTAGCTCTTATGGAAA CTGATTTATATCTTTTTTATGACCTTTCAAAAGTAAAATACTATG CATAATCTAGAAAGATTTGTCAGATAGGAAATTTTATAATGCAT TAGCCATTAGTCAGAGTTGTTTTTTAACATGCCAGAGAAAAAGT TGTAATGCCTTGGAAGTTATTCTCTTTTCTATAGATTGTGTTCA AAAGATGTGTATACTTGCAATAAGGTTTATGTTAAGGTGGCTTT AACAATTGGTTGCTA 845 SCIN 2990435 GAATTGTATTGTTATCCACTTAGATACATGTACATGTACAGTAC ATGTTTAATA 846 SCIN 2990449 AAACACTATAAAGTGGCGGCGAATAAGGTTCCTCCTGCTGCTC TCGGTTTAGTCCAAGATCAGCGATATCACGCGTCCCCCGGAG CATCGCGTGCAGGA 847 SCIN 2990450 CCGACGCACCAAGGCCGGCGAGGGGAGGGCGTAG 848 SCIN 2990451 TTATTTGTTGCTTTCGGGCACTGGCTTATTTTCTCTATGATTGC GGGAATTATTGTTCTGGGCTTCTTTAAAACAG 849 SCIN 2990452 GATTCTACCCGCACCATGCTGCTTGTGGGTCTGGTAGACAAAA ACTCCGCTTCATTCGGAAGCTGGCGTCCTCAG 850 SCIN 2990453 CTACATCTACATCTTTATGGTATTCTCA 851 SCIN 2990454 TTAGGGTTCGGATCCCAAATCGGCAGAAGAATGACA 852 SCIN 2990456 GCGGGAGCTATACCACGAAGAGTTCGCCCGGGCGGGCAAGC AGGCGGGGCTGCAGGTCTGGAGGATTGAGAAGCTGGAGCTG GTGCCCGTGCCCCAGAGCGCTCACGGCGACTTCTACGTCGG GGATGCCTACCTGGTGCTGCACACGGCCAAGACGAGCCGAG GCTTCACCTACC 853 SCIN 2990458 GTTCTACTGTTGTATAGTGCTATGTGGTGAATACAGTTAACAAT AATTTATTGTATATTTTTTCAAAGCTAGAAAAGGATTTCGAGTG TTCCCAGTACAAATAAGTGATAACTATTTGAGGTGATTGATGTG CTAATTACTCTGATTTGATCATTACACACTTTATACTTGTATCAA AATATCACTCTGTAGCCAATAAATATGTACA 854 SCIN 2990459 TTTGTTAGCCATTAAAGCAGTTTGAACTTATCCTACCCATCCTC TTTTCCATCCCTCAGGAGTAGGGGACATATATGTAATATTGTA GCCTGGGGGTGGGGAGTGAGGATGAGGATGGATGTGTGAGT CTGGTTTGTACTCATCAGTCCTCACTAATCTATAACCTTCGTTG AGGTGTAGTCATTCCATTAATTCTTGAGCTTTCGGCTTTGGCCT CTGTTC 855 SCIN 2990460 AGCCACTACTGCATTCTTCTCAGGAACTCTGCTTTGTTTTTCCC AGACTACCCTAGAATTGTGGGACACGGTATCCTCATCGTACCA GTGCCCCTTGGCCCAGTGGCTTGGATGCTACCCTCAGTCATTT CTGCTCTAATGCTTAGGCTCATGGAGGGGTGTAGGACAAATC AATTGGAAGGGAAGTGTGCTGGGCTCTTCTCAAAGATTGATTG CTTTGGGTTAGATTTCCTACTTTTTTCAGTCTTCTTTTTTACTTT TTGAACCAGACAAACTAGTCTTACACCACCTCACATTCTTGCCT ACTCTGTGTTTCCTGCAAGATACACTCCAGCCCCTAAGACCCA CACCGTACTGCTTAAGATG 856 SCIN 2990462 AGCTGCTGTCCCTTAGTATTGAATATCTCTATTTTCTTTTAATCA TAGAATTCACTGATATTTTAGCAGATAATGTGGCCGTCCAGGC AGGCATGAGATTTCTCAGCCTTACTTCAACTTGATTATGACCAT GTGACCCAATTCTGACATTTGCCTAAAGGAAAATTTACCTAAAA AGGCGTTTTCTTGCTATGGCA 857 SCIN 2990463 TTCTGAATGCATCACGGCAAAGATGCATGTACTCATGAAGCAT AAAATTAAAAATATGATACATTCACTACATGAAAATATGATATAC GGTTTTTCTTCAGTATCCGCGGGAGATTGGCTCGAGGAACCC CATGGATACCAACATCCTTGAATGCTCAAGTCCCTTATATAAAA CGGCATAGTATTTGCATAAAACCTATACCATTCTCCTG 858 AZGP1P1 3015108 ATGGTGTCTGTCCTGCTGTCTCTGCTGCTGCTTCTGGGTCCTG CTGTCCTCCAGGAGACCCGAGATG 859 AZGP1P1 3015110 TCATGCCTTGCAGGAAAGGTTTGGTTGTGAGATCCAGAATAAC AGAAGCACTGGAGCATTCTGGAAGA 860 AZGP1P1 3015111 AGATGTTCTTCACGGTGGAAACGGCACTTACCTGACCTGGTTG TTGGTGCATGTGCCC 861 INHBA 3047577 GAGGCAGCCCTTTCTTATGCAGAAAATACAATACGCACTGCAT GAGAAGCTTGAGAGTGGATTCTAATCCAGGTCTGTCGACCTTG GATATCATGCATGTGGGAAGGTGGGTGTGGTGAGAAAAGTTT TAAGGCAAGAGTAGATGGCCATGTTCAACTTTACAAAATTTCTT GGAAAACTGGCAGTATTTTGAACTGCATCTTCTTTGGTACCGG AACCTGCAGAAACAGTGTGAGAAATTAAGTCCTGGTTCACTGC GCAGTAGCAAAGATGGTC 862 INHBA 3047578 CTTTTACTCTGAACTAGGTGGGCGCATTTCAAAAATTCGGATG GGAAAAAGCCTGGAAATTCCAGTGAATATTCAGCAAGGCCCTC TTTCATTGTACAGGGATCAAATTTCCTCCTCTTTTTTGTGCCCC CTCCCACTTCTACAAGTTATCCCCTGTGGGGAAAACAGGATGA TAATCAAAACTCTGGGCTGATGTTTTTCCAACTTAGTGTCTATT GGAATCAATCTTAAATCAGAAGCTTTTTCAGAAAAATAATATTT AGGCCAGAATTAGAGTTGAGTGTATTTTTTAAAAATGATTAAGG CTTGGTTGTGAGAAATATTACCTGTACCAGCTGGGAAAAATAA TGTCATCACTAACTAAAAGATAATTAATTTGAGAGAAAGTGTTA AGAGAGGGAGAGTAAGGAAGAGAACAGTTAAGAGGAGGCAG AGGTGAGGGCAGTAGTAAAAATCTCTAAAATTTTAATTTACAGC CAAAATTCTTCATGTGTAAATTTGTATTGATTCAGATGCAGAAA TGAAAAAAAAACACCTTTGTTTTATAAATATCAAAGTACATGCT TAAAGCCAAGTTTTTATCTAGTTTATTCTAGTACTTAGCTTGCC TGGAATA 863 INHBA 3047582 TGGAAAAAATCCTTAGCCAGGGCTCAGAGATGAAGCAGTGAA AGAGACAGGAATTGGGAGGGAAAGGGAGAATGGTGTACCCTT TATTTCTTCTGAAATCACACTGATGACATCAGTTGTTTAAACGG GGTATTGTCCTTTCCCCCCTTGAGGTTCCCTTGTGAGCCTTGA ATCAACCAATCTAGTCTGCAGTAGTGTGGACTAGAACAACCCA AATAGCATCTAGAAAGCCATGAGTTTGAAAGGGCCCATCACAG GCACTTTCCTA 864 INHBA 3047583 TATCATGCCAACTACTGCGAGGGTGAGTGCCCGAGCCATATA GCAGGCACGTCCGGGTCCTCACTGTCCTTCCACTCAACAGTC ATCAACCACTACCGCATGCGGGGCCATAGCCCCTTTGCCAAC CTCAAATCGTGCTGTGTGCCCACCAAGCTGAGACCCATG 865 INHBA 3047584 GGAAAAGGAGCAGTCGCACAGACCTTTCCTC 866 INHBA 3047585 GTGAGCAGTGCCAGGAGAGTGGCGCCAGCTTG 867 INHBA 3047586 TTGCTCTCTGAAAAAGTAGTAGACGCTCGGAAGAGCACCTGG CATGTCTTCCCTGTCTCCAGCAGCATCCAGCGGTTGCTGGAC CAGGGCAAGAGCTCCCTGGACGTTCGGAT 868 INHBA 3047587 AGACGCTGCACTTCGAGATTTCCAAGGAAGGCAGTGACCTGT CAGTGGTGGAGCGTGCAGAAGTCTGGCTCTTCCTAAAAGTCC CCAAGGCCAACAGGACCAGGACCAAAGTCACCATCCGCCTCT TCCAGCAGCAGAAGCACCCGCAGGGCAGCTTGGACACAGGG GAAG 869 INHBA 3047588 GGCTGTCATTTGTTGACCCCTATTCAAGAGGGTCTGTCACAGA AGACTCCTGCTTGCCTGAAATTTACGAGTGCATGTAAATG 870 INHBA 3047589 CTGGAACTGAGTGGTTGCTAAATTCAACTGCCCTGACAATGTG GGGATTTCCTGTCCATTAGCAGCGATTGCTATTTGACATATGTT TCTGGTGCCCATTAATCTGCCCTGTAATGGGTCAGAGGCAAAA ATGGGGGATTCAGAGGTACTAGGTGGCTCTCTTAATTTAATAG AACTCAATGCTAAGGACGCCTCTATTTGTTAATAAGTAATCAAG TCATTGGCTACTTTCTGCTAAACACTAGACTATGATAGTGACCT TAGACCCCGGGCATTCTAAACCAGGCTGGCA 871 INHBA 3047590 CAGATTTGTGCATGGGATACATGTACAGCAGACAGTTGTAAGG AGGTCCACGGTCATGGAAAAGA 872 INHBA 3047591 GCTGGATTTCCGTTAACTATAGAAATCCAGGCAGGGAGATCCT CCCAGGGAGTTGCAA 873 INHBA 3047592 AGAACTTGAAACTGTGCCTAAAATTTATAG 874 INHBA 3047593 GCCCTTGCCTCAGTGAATTTACCACTATCATAATCACAGTGTG CAGAGTGTGTTAAATTAAGAACAGAATCCACAGTACGCAATGC 875 INHBA 3047594 ATGAGGTCGGAGTCAGAGGAACTCCCCTTACCAC 876 INHBA 3047595 CTCCAGGCTAGTTATCCAAGGCTTGGGAGGTTTCCCTCGGCC TTCTCCTAAGGCCTTGGCAGGACCCTGCCACCCTAAAATCAAC TGCTGATTGCCTTTTTAGATTTAAATGATTAAGCTCTGCTTATG GGAATCTTCTTCTCTTTTATTTTGTTAAGAAACAAACAACAACA ACAAAACCCACACCAATTCTTAGCAAAGGGGAATATCGAATTC AGATTTTGAAAAAATAAGTCATCATGCTTCCTAAAATAAGACAG CTTCTCCCTCTAACTGCTCTCTCTGCTCTGGTATTCTATCTA 877 INHBA 3047596 AGGATGTACCCAACTCTCAGCCAGAGATGGTGGAGGCCGTCA AGAAGCACATTTTAAACATGCTGCACTTGAAGAAGAGACCCGA TGTCACCCAGCCGGTACCCAAGGCGGCGCTTCTGAACGCGAT CAGAAAGCTTCATGTGGGCAAAGTCGGGGAGAACGGGTATGT GGAGATAGAGGATGACATTGGAAGGAGGGCAGAAATGAATGA ACTTATGGAGCAGACCTCGGAGATCATCACGTTTGCCGAGTC A 878 INHBA 3047597 TGCTTTGGCTGAGAGGATTTCTGTTGGCAAGTTGCTGG 879 INHBA 3047598 CACACAAAAAAACCTGCGCGTGAGGGGGGAGGAAAAGCAGG GCCTTTTAAAAAGGCAATCACAACAACTTTTGCTGCCA 880 INHBA 3047599 CCTTCTCTCTTACTCGGAGACAGTCAGAACTCTCCTCCCTGAC AGCCACAAACC 881 INHBA 3047600 GTGCCAATACCATGAAGAGGAGCTCAGACAGCTCTTACCACAT GATACAAGAGCCGGCTGGTGGAAGAGT 882 INHBA 3047602 TTGGGGCATCTTGAAAGTGTCACTGCAGTATAGCAATCTCTCT CAGGTAATATAGAGATAAAGGGAATATAATAAATTGACCTGTTA TTTATTATCTTTTTCATACCTAGGACATTCCGAGGCTTAATATAT TTCTGAAGCCTACAGCCCTGATAAACATCAATCCCACGTCAGT TTCCAGCAGTCTCATCTCCCCACACCCTTCTGCAATGAAAGCT AATGTAAAAGAAAGAAATATGCACTGCTTAATAAGTCAGAATAC AATAGAACTTGTAAAATGTACCTGCATATAAGGTAGACATTAG GAAGACTTGAATCTCTCTCTTCCCCCTGTTCTCCTGAGCATTAT GGCAACAGCATTT 883 INHBA 3047604 ATGCCTTTAGGGGTTACACGCTCTCTTCCGTGAATAATGGGGA AGAGCGGCCACAAGAGGGCGCGTTCCAAAGACTTTTGCTCCT TGTCAGTGTATCCAGGGAAAGGCAGTTGCGCGTACTGGAAGC CCCTGTCTGTAGCGCCCTAATCTTGGTGATTATCAGTTACCGC CTGCTC 884 INHBA 3047606 GAGGGTTGCTTCCTGTCTTTGTATACCAACCTCCACACATGAT GGATTCAATGACAGCTCGTATCCAGTTGCCTTTAACCATGTCA TATGACTAAGTATACCTATGCCTTTGACCACTTTTAACCGCACT ACCGTTACTAGCAATATGCCCCTCTTTCTGACTTACTGGACTT G 885 INHBA 3047608 ACCAGGGCATCTTTCCGGGGGTGCAGATAGCCTGCTGGCTGT GTGGCTTCCCCTTGCAGGAGAAGCCCTGGTGTCCTACAAGCT TCCCAGTTTGGCTCTCTCAC 886 INHBA 3047610 AGTGACAGTCATTTTTACCTTTAGAAAATGTCTATAAGTGCACA GGCACCACATTCAAGACAGGGAAGAGCTACTTTGGGGGACAG TTGTCATTGAACCAGCAGTTACTT 887 INHBA 3047612 AGCCGGAGGAAAGCCGCGGCATTTTCGGGTGCTAGGGGAGC AGA 888 INHBA 3047613 ATTAGGTGATGGTAGCGGACTAGCCGACGGAGGGCAGGCAG GGGAGGGGGAGAGGACTTTACAGAAAAGGAATTCTCGGTCGA GCTCTGCCTGGAGATGACTGGCTTACACTTACTAAACCCAGCG GGTCA 889 INHBA 3047615 ATTGATGTTTCTGGAGCTGAAACCCCAAAGGTGTTAGGTTACT

TGTAACAGAAAAAGTCTTACAAATAGTTGTTTTGGAAAAGGGG ACAGTATATATAATTCAGAAAGCATTGTTAACCTGTGCAAACTG TAATTATAACTTAGTGTCACAATTTTCTTGCCCTCTTCCCCTTG CACTCAGATCTTATCTTGTAGTAATGATATTTATTAACTCTTTCC ACCTAAACTGCATTGCTTGACTGTAATGCTATGAACACACTAG GTG 890 AZGP1 3063591 CACAGTCAATGGATCCACAAGGCCTGAGGAGCAGTGTGGGG GGACAGACAGGAGGTGGATTTGGAGACCGAAGACTGGGATG CCTGTCTTGAGTAGACTTGGACCCAAAAAATCATCTCACCTTG AGCCCA 891 AZGP1 3063592 AGCCCCTCGTGGTGCCCTGGGAGGCCAGCTA 892 AZGP1 3063593 TCTTCACAATGGAAATGGCACTTACCAGTCCTGGGTGG 893 AZGP1 3063594 GGCAAGAGGGAAAGCGTCAGCCTTCCCTGATATTCTGGAAAG TCTCCCGGGGCTGGGGGTGGGCAGGTACAGAGCTTCGAGCT CTGCTGATCGCTGACATCCAGGG 894 AZGP1 3063595 AGGGTAACACTGTCTGTAAGAGGCAGAGCTGGGACTCAAATT CCAGATTTCAGATTCCAAATCCCATCGTTTTTTATCTCTACAAT GATGCCTCCCATCTGGGTGGTGGAGAGAAGGGAGGCGTGTA AAATGTCAGCCCCAGAAGGACAAGAGCAAGCCAGTGTGAGCG GAATTGATGGCTGCAAGCTGAGACTTGGATTGGAGACGTAGT GAGACTCAGGATTGTGCAGTGCTGCAGGGAAGTGGTTGCTGG ATAGAGGCATGGGCTGAACCAAGCAGCTGGACTGAGACTGGG GGACAGAACTCCAAAGCCCACTGAGATGTGGGAAAACATGGA GAAGCACACGGAGCATTCACAACTTATTGCCGTCAGAGTC 895 AZGP1 3063596 GAGCCCAGAATAAAAGACGATCTCAGGCTAGGAGCTCAGGCA ACATCTTAGTCCGGTCTCATCTGTTCCTGGATGTCCCTCAGAC CCCCAGCTTTCATCTTTTAGGATTTATTCCTTCCCTGGGATAAT ATAATTTGTGGTCCAAAAAGAACATCATCAAAATTTCAGGCAGA ATGGGCCAGGAAG 896 AZGP1 3063597 CCAGTCTACGTGCAGCGGGCCAAGGCTTACCTGGAGGA 897 AZGP1 3063598 TGAGATCGAGAATAACAGAAGCAGCGGAGCATTCTGGAAATAT TACTAT 898 AZGP1 3063599 GATTTCGCCATATCACCCTGGCTGGTCTGGAACCCCTGGGCT CAAGCGATCCACTCGCTTCAGCTTCTCAAAGTGCTGGGATTAC AGGCATGAGCCACAGCGCCCAGGCTGTAGCTCTCTTAAGGAG GAACATATCTCATCTGAGACAAACCTGAAATGCCAAACCAAAC TGAGTTAGCCCCTCTCTGTCTGTTGTATATATTGGAGTAATAAC CTATTTGTCTTGATAAAGGGATTGCATGCTTGAATTGCAAAAAC CTTTATTTCTTTTGGGTTGCCCAATGTGCAAGACTAAGAGT 899 AZGP1 3063600 CATACGATGCAGACCCAGGAAGGGCCACCTGCGCTATGGTCA GAGGA 900 AZGP1 3063601 GGAGACCCTGAAAGACATCGTGGAGTATTACAACG 901 AZGP1 3063602 ACACTGGGCTGTCCAAGCATGTTGAAGACGTCCCCGCGTTTC AGGCCCTTGGCTCACTCAATGACCTCCAGTTCTTTAGATACAA CAGTAAAGACAGGAAGTC 902 AZGP1 3063603 TGCTGCTTCTGGGTCCTGCTGTCCCCCAGGAGAACCAAGAT 903 AZGP1 3063604 CCCGTCCTGGCACTCCCATTGGCCTGTAGATTCACCTCCCCT GGGCAGGGCCCCAGGACCCAGGATAATATCTGTGCCTC 904 TRIQK 3144581 GAGTCTGTCACAGTTTCTTTGTGTAA 905 TRIQK 3144582 GCCGGTGTTATTTACTAGATTCTTCCCTTTGAACTCACAGACTC AAGAGACAGACCAAGAGTTCTTATATACTCACCACAGCGGACC AATCCAAGTGGCATTTTTAGGAAAGGTTGCAGCATTTAATGCC ATGTGGTATGTCTGTTCGTCAAGTGGGTGGCAAGGGAATATCC AAGCTGGCATTTTGGATATGATGGGCCTTTTACTTTCCTGAGT GACATGCCACATGTCAAGAAATACTGCTCCCCACCCCCCCACT CCCATCACATTTACGTGAACAATTTTCATTTAGTTATTTCCCGT TCCATATGGTGTTAAAACAGTCGTATTAAATAAAGATTATTTCT AGTTTTCAGTGGTAATTTAAATGAGAGGATATGTAATAATTGCT TATTAGATACTTATCCAAATGAAATATAACAGAGTTTACAGTAC TTAAAATGGCTGGTTATGGTCTTGGAAATGTTTGAAAATTCATT ATCCTGAAAAAAACTTTACCATTCTGTTTTACCCTTGAGGTATT TTTTGGGGAAAAATGTTTTTGATAACTATTAATCTAAATATAGTA TAATTATAGGCAAATTTCACTGCCTAGTTTTATTGATATCCTGA GTCTACAGCTAGTCCATTCGTATGACTGATTGATTTATGATAGC TCCAGAGAACCATAAATTTCAAAGGCTAAACTCTCTGATTTTAG TAAATAGTAGGTAAAGTGACACAATATATGTTTACACAACACTG TTTTCATGAAATGCAAACTTTGCAAAACTCACATTAACTGGGAA GCAGCCAACCCTCTGTAGAGAAATCCCAGATTGGGAGTCTGG TTTGAATCTTTGAAGACAGAAAGGTGATATCCGGCCTGCTGTT TTAAAGGGACCACACTTTTGAATACCTACTGGTGTTTGGCAGA AATCTGAGACTGGCACCAGACACAAATTTTAGACATGGGTATC TTCCCTCCAGTA 906 TRIQK 3144583 TGCTTTGACAGCCACCCTATACATGGTACATTTAGATGAAATG GGAACCAGATCCTAAATTTTTCAAATGTCATTGCCAATTTATGT GTATAATTCCATCACTTCCTGATGAGTAAGTCTATTTTTGTTCT ATATACATCATAAGTTAGTATATATTCTTATTTACAGAAACATGC TCAAATCACATTCAGAAAGAACAAAAAGTCATGGGAAATTTTTT ATTTTACAACAAAGCCCTGCTTTCTTTCTGGACGTATTTTACAT CATTAGAGAGACTATCTGCACATACATCTACCATAATCTTTTTC CTTCTTTGCCAACTGTTCAGTGCACATGTGCTGCATCAGAAAT GGCACCTGGATGACAGAAGCTCAAAGAGTCACATATGTCTCTA AAATAGAGTTCTTTTCCTCTTGGGCTGTCTGAACTGGTGTAAAT AGAAGCTCAGTTGATCTTGGTTTTAATTAACTTATTACTCTATTA ATATAACCTTGGAATTCTATTCTAATTATGTTGTTCTGGCTGCT TGTAGTATCAGTTCGCCCCTCTTGTTAGGGAGATATGTAACAA TCTGTCATTTAATTGAGCAGTCTTTTTCACATAACAGTAATAGC AAAAATCCTACCTACTCAGAATCATCTTCTTAGGTTGTCTCCTA AATCTGAACAATACAGTTGTTTTATAAAATTACATTTTGTCTCTT GAGATTTAATCAATTAGAACTCTTTAGGGAGAAAATAAATAATA GAAGAAAATATATGCCTCATATTTCATATGTAATTATCTGTTGAT ATAATTTTTCAATGTATTTTGTATTTGTGGGAGCATAATGACCT GTACATTC 907 TRIQK 3144584 CTCACCACGGATGTTGACCCTGATCTGGACCAAGA 908 TRIQK 3144585 GAAGTTGGCCTTGTACTTGCAGCTATATTGGCACTACTACTGG CTTTCTAT 909 TRIQK 3144586 GCCAAGGTATTACTACCAAGCTGTAACAGCTGTTGAACTGCCA GATGATATATTTGGTTGTCTTCCAGAATTTGCTATTATGATCAC GAAACACTGCCTTCTTTTCGCTCCTGATTG 910 TRIQK 3144587 TTTACGAGCAACCAAATTAAAAGCAG 911 TRIQK 3144588 AAAGGAGGCATTACAAGTGATATTTCAGAAATAAAAAATACAA GCTACTTTGGGTAACTGAATGCCAATAAATTAGTTAACCTAGA GGAAATGGATAAATTCCTAGACTCATACAACTCACTAAGATTG AACCATG 912 TRIQK 3144589 ACCTGATGAGCAAAATGGCTGAACAGAATCCTCTAGCGATCAT CCCCCCACAGGAACACCAAACTGAACAACTATTCACACAAAAC AAGCACCTTCATAAGAAGCAAAAAACAGGTGAACCGGTACCTG GCTTTAACATCGTATTAAGGAAAGAGGCACTGAAGAGGATTTG AAAGACAATCTTGAGTCACCTATACCACCCCTTTCCCGTACTT CACCTTTGGCCATGTGGTGTTAAGAGACAATCTGTGCACTTGC ATGAGGGAGAGTGCAGTGATTGTGGGAATTTGCCTTGGAACT CAGTGCTGCCCTGTCACAGTGGAAAGCCACACAGGGAAGAAC TTAGCTGGTGCCCACA 913 TRIQK 3144590 CCTCCTAACTATGCATGTACCTTTCACATTTTATTGCAAAACTA TTAGGCTATAATAAGAACATGCATCAAGCAGGGACACCAATAT CTTGCCTGGCATTTAATTATCAAAAACACCTGTGCTACAATAGT ATATTCACGTGTATAATTCTTTATATGTAGACATTTAAGTGCTTG AATTATTTAAAAAATCTACTGTCTGGATAAAACTTCCATA 914 TRIQK 3144591 GCTACTATAAAACTTCCTGTTGATCAGTACAGAAAACAA 915 TRIQK 3144592 TTGCTTGTGACATGACTAGTTCTTGTCTGACTTCATCTTCATCT TGTAATGCCTTACTAGAAGGAATGAGGAACAACTTGCAGACAC CAGTTTGAAGAATACTTACGACTGTAACATTGTATTCTATGAAT AATGACATATTGTAATTGAGGCTAGGAAATAGAGTCTGTGCTA GGAAGAAAAGGAGAATATGAATGTGGTAATCAGGTTGTACTCT CTGCTGCAATA 916 TRIQK 3144593 AAACAAGTTGGTTGGATAGCTGTCCTCCATGCAGTCATTCATG ATCCAGGCTGTCATCATCTTCATCACTCATGTTCAGAGTTACC CTAGAGGTCATCTCCATTTCATCCAGATAAATGAGTATGCAAG GAACGTTTTTA 917 TRIQK 3144594 CTGCTGGGATGTTGGCTTAAATGACTAGAAAGGAATTGGGGG AAGCATAATGAGTAACCATTTTGGCAGATAGCCTCAGTGATTT GCTTTAAGAAAAAATTAAGCATAGTCTGTAAAGGCAAAAAACAA AACTAAATTGAAAAGGGAATAATATCTTGAGTGTTTATTCATTT AATCCAACTTCTCTCCTAAAATGGAGTGGTATCTTCCCTAGCC ACACACA 918 TRIQK 3144595 GCTAATGTCTCCCTGGATTTCTTGGGAGTTTGCTATCTAACCAT CAAAGCAATAGAAATGAATGATGATTACTGCAAGGCTTTGAAG AACAAAGAAAAGTCAGAACATTTTAAAGGTTCTACATGTCTGA GTC 919 TRIQK 3144596 ATGGGGACTCCTCCATTTACCAAGGCTACAGCTGACTCCTGGA GAGGCCTGAGTACTCATTGCAGTTT 920 TRIQK 3144597 CCTTTTGTTTGATTAAGCTCTTAGCGTGCAGTG 921 TRIQK 3144598 CAGTCTGAAGGTTTGTCGGGTAATAGTCAAGTGGATATGAAAC TGCCCTTTGTGAACCTCAG 922 TRIQK 3144599 GGGAAGCAACGTCAATCAGTGGTACTGGAAAATGAGT 923 TRIQK 3144600 TTGGTGTTTGCCTCATTTGAGCCTGGTTTGAACAGTTGGCCAC CTTTGGCCAAAACTCAGTGATTGGCACAAAAGTCGGTTGCAGT CTGTTTACACATGGAAAGGTTACAGTTTACTGTGCACAGAGAA ACCATTAGGTCACATTTAGAATATATAAGGAGGCAGCATTGGG CTAAACTTGACAATTGCTTATT 924 TRIQK 3144601 CGATTAGAGATTAAGTTGCCAGCTTTAAAAATGGGGACTAGTG TGTAAGCCTTTTGTATGTACATATGTACATGCACTAAGTATGTA AATACATACATATTGTGAGACTAGGTTCTCACAGTAAATATCTG ATAAAAATCCCTGGGGGAGGGGAAAAGGAACCATTTTGAAATA CACCACAGCACTCTGTTCTTAAAAAGGTCTCTCCTCAAGAGAA ACTAGTGTATATAAAAAACTTACTTTCTAAATGTAACTGTTACTC TACTAATCCAGAGTTTCAAACATGTGTGAACAATAAGATAGCAT ACATAATTTGGCATTTTAAAAGTTATCCAAAGATACTTTTGTAG AAGCCACTTAGC 925 TRIQK 3144602 TTTTCTGGCAATGAACCTGGGTTCCAAGCATAGGTTTTTCTTAT GGAAGGCAGTTTTACAATAAGGAAATGTTTTTACTTGTATTTAT TTTGTGATATTTCAGCAAATCCAAATAAATGTAGTAACATTTATA AAGCTATACATTTATAACTGATTTATTTGTTAAATATTTAGTATT ATCAATTGTCTGTTAAAGATTTGTTGCTACATTAAATGCTTGGT CTGTCTTGATGTTCAGTACATTATTATACTTTGGTATATTGCAAT ATTTTGATAATTATGTATTGGTTTTAGTCACTGTTCCTGCATATT AAGTAATAAACAGATTAATATCATCATAAAATATCATTTACTCAG CAATATTTCTTAGTAAATTGATACATCCATTTTTCTTATGTATTG TGGAGAGAGGAAATATGACATAAAATGGAAGAATATGGGCCTC TGTTTATCTCTGACCTCATCGCTTACTGTTCTTTCCCACTCCTC ACTCTACTCAAAGCCTTTAAATAGCTCTCCATTTTACTCAACAT CAAATCTAAATAAAGCTCTTAAACTGGTCTAAATGTCTCTACAG TACTTGAACCTTTGTTATTTCTCTAATTTCATCTTCAACTCTGCT CATCGTTATTCTCTTGCCCTGGGCATACTGCCTCCCTTTTTGTT CTCTGAACGTGCCAGGCATTTT 926 TRIQK 3144603 CAGGAATGCAAGCACTGCTACCTAACTAAAGACCTTGGCTTTG GAAACATCTTACCCCTTGGCAGCTCTCCAGAGTTTAGACTTGG CAGCATCAAAGAC 927 TRIQK 3144604 TCTTCCAACGTCAAAGCCAGCAACATTGCAGCAATCTGACTTA TTTTGTTGTCATGTCTCCTGACCACATCTGGAAGGGTTATCTAC TTTTGAAGACACATCCAGATAATTCAGGACAATCTGTCCATTTT GAGGTTCTTC 928 TRIQK 3144605 GGAGCTTGGTGTATTCCTGAATCCATCAGATGTTGGTGTCCGC GTGGATGACTAGGAAAAGGGGATTGGAGATTAGGTTTCTTCTA CTTGGAGTTCTCTGCTGCTTGTTTGAGCTTAATAAGCCTCCTG AAGAAGTTGAAGCAATTTATTGCTAGAGGAGCCCCAATGTATA ATCTCCCTTTCATTCTCTACTGTGGAGAGGTGTGCTAAACCTG TAGAGCTGTTTTTGCTTCACTCGGCTCATACTTAATG 929 TRIQK 3144606 CCGGGAATGAAAGCGGGCGCACCTCTTTAGCGAGCCCTAAAG CGTTTGGGAGACGATCGTTCCGTCCCTGGGAGCGGCACTTGG TGGGGCTGGGCGGAGGGAGGCTCTGCAAGAGAAACCCGGAG TCCG 930 TRIQK 3144607 CCTGAGTGACAGAACCGTGGACAGCAACATTTCCCACAGGAC ACGAAGTTTGTCGGCCCTTGCCTTGGCAG 931 TRIQK 3144608 GATGTCCAGCAGCTAGTAGATGTAGAAGTGCTGTTTGTTACTG GGTATGTCCTTGCTGTCAGGGAAGTGCACCTGTTTCAG 932 TRIQK 3144609 GCTAAAACTGGTAAGGTGCCCATGGGTTCCATGGAACCTCCA CATCCATTTACAAAGCCCTCTAGGAAGACTGGGCTAGTTGCTT TCTTCAGCTTCAGTATTATGG 933 TRIQK 3144610 ATACACCTTAAGCAACCAGGTATCCTTGATTGTGGGAGTTCCT TGGAACATGAGCAGA 934 TRIQK 3144611 TAACCTGGACTTTCATAAAACTGGCATATCTTCTGTTTTACATG GAAAATTATTTTATCTTAAGTTTCCATTTAGTTGATTAAAAATAG GGTTATGAATGTTAAATAAGTGATGATTTATTGCAAAGGAAATA TGTTTCGAAAGGTCGAATA 935 TRIQK 3144612 GAGTCCCCTGGTCTTTACATATTAAAAATATTAGGCTGTCCTG

GAAATGTTGTCTTATTTGTCTGACTTCACCACTAAAGTATGAGT CCCTTAAGGTTGTCATTTCATTTTTGTAGTCCTTATGCCTAAAA TAGCAACA 936 TRIQK 3144613 TATCCTGCTGGTGAGTTTGGGAAAAGGAATTGGATCGGGGCA TGCAGCGTCTCCTTATCTGCAAACAGGCCTGCCGGTGGGAAT CATGGTACTGTTCCCCAGCAACACAACATTAATTTCAGAGGGA GATGCTCTGCCACTACAGGAGTG 937 PABPC1 3146782 TGACACCGCCATGAAAACGATCAGCACCGTCGAATCCTCACG CCCCACTCAAGTTCCTTGATTGCTTCAATAATGTCCTCCGTAG CAAAAGGATCTAGTTCAAAATCGGGAGTTACATTTCATTGTCAT GCCTAAAACGTAAGAATTGCTCATTCACTTTGGAGCAGTTCTT CAGTCTATCCTTGATTTTCATGACCTTGACACTTTTGAACATTA TAGACCAGTTATTCAATAGAATATCTTTCAATCTGGGTTTGTCC GATACCTCTTTATTATTAGATTGAAATGATACATTTTGGTGGAA CTATCACAGAATTGACATTGCATTCTTCTCATTACATCCTGTCT GGTGGCCTG 938 PABPC1 3146783 AAAGGAATCCTAGTGACGAGTTGTCTTGAAAGAGAAGAAAAAA AGTTAAAAAACAGAAGAAAAAGGAGATCTTTAACCGTGCTGGG TATAAAATTCTAAGTCAGGATACTTTTCTTCCTTTGAGCATCTTT GACTGCCTGGGGAATATCAGACATTCTTTTAGTGGCCTTGTGA TCATTTTGCTGAGCTTGTTCATATTCCTGTTC 939 PABPC1 3146784 GCATCAAACTGAACCGCGACTTGTCCAAAGTCACATAGTAAGT GGAGGTGGAACTGGGCTTTAAATCCAAGCCTACATACAGACTA GAGTTCACACTTTTAGGCTTGGCATAAACTGCCTATAAACTATA AAAAAGTAAAACTCCATAAAATCTCAGGTACTTGGACTACCTTC AGTCTGA 940 PABPC1 3146785 AGTATGGGTGACTATTCTTTACAAATCCATTTGTGATGCAGTG GTAATTTGGTGGCACTGCAATTATGGCCAGCAATGAAGATTAT AAAATAATTGCCTGAGGAACCAAGCTCATGTGCACTAAAAAGA AGCAGG 941 PABPC1 3146786 CTGCACTTGGCCCTACACCGATGAATTTTT 942 PABPC1 3146787 TGCTGAGCCGACATAAGAATCTTTTATGAAAAATGTACTGTTAA GTTCAGGGGGTCTATTGGTTTTATGTAAAAGGCACAAGACAAT TCCTGTAGTGCATTTTATGAGTTAAGGTTTCCATACGGATTATT GAAACAATTTGTTACATGTATTTGTTACATGATCTTAATATTTCA TGTACAAGACTGACACCCATCCACTTTTGAAGATAAGCCAGTT TATGGGGTTTTTTTTTTTGCGGGTAGAGGTTGGGTCTCCCTAT TTTGTCCAGGCTGGTCTCGAATTCCTGGGCTCAAGCATAAGCA TAAGGC 943 PABPC1 3146788 CCTTATGTACCGAGCAAATGCCAGGTCTAGCAAACATAATGCT AGTCCTAGATTACTTATTGATTTAAAAACAAAAAAACACAAAAA AATAGTAAAATATAAAAACAAATTAATGTTTTATAGACCCTGGG AAAAAGAATTTTCAGCAAAGTACAAAAATTTAAAGCATTCCTTT CTTTAATTTTGTAATTCTTTACTGTGGAATAGCTCAGAA 944 PABPC1 3146789 TGATCAGGGACCATGAAAAGAAACTTGTGCTTCACCGAAGAAA AATATCTAAACATCGAAAAACTTAAATATTATGG 945 PABPC1 3146790 CAACCTGGAGTGCATTGACGCGATCTCGGCTCACTGCAACCT CCACCTCCCAGGTTCAAGCAATTCTCCTGCCTCGGCCTCCCG AGCAGCTGGGATTAACAGGCCCATGCCTGCCACCGTGCCCAG CTAATTTTTGTATTTTTACTAGACTTGGGGTTTTGCCATGTTGG CCAGGCTGGTCTGGAACTTCTGACCTCAAGTGATCCGCCCAC CTCGGCCTCCCAAAGTCTTGAAATTACAGGCGTGAGCCACTG CGCCCTGCCAGATTTTGTATAGTAATATATATATAAAATGACCT GTCACAGGTTGGCTTTCATAGTTTTACCTTTCCTTTTTGGGTGG TGCCCTTGGGTCTCTACTACTGTCTTTCATCACTCCCAAGAAAT TGAGTAGTGCAGCCAGGATCAGGACCAGGGATTGGCAAATGT TTTTTGTAAAGGGCCAGATAGGAAATATTTTGGGCTTTGAGGA CTGTGTTATCTCTGAAATGATCTTGTTCCAGTGTTACCATGTCA AGAC 946 PABPC1 3146791 ATGAAGCTGTAGCTGTACTACAAGCCCACCAAGCTAAAGAGG CTGCCCAGAAAGCAGTTAACAGTGCCACCGGTGTTCCAACTG TTT 947 PABPC1 3146792 GTACAGTTGTAAAGTCTGCATAATAACCTGTGGCGCTATTTATC CCCATTTTATAGATAGGTAAACTGAAACAGGCTGAATAATTTGC CAAATGCTCACACAGCTCTTAAGTGGCAGAGCCTGGCTTCAAA TCCCATCAGCTCCAACAGCCATACTCTCAACTGCTGCTGCTTT CTCTAGTGGAGAAAGAGAAATATTTTTCGAGTGTGGGGAGGA CAAGGAAAGAGTAGTGCAGGGGAGCGATTCATAATTCT 948 PABPC1 3146793 GCCATGCACCCTACTCTTGCTGGTA 949 PABPC1 3146794 TCCTCAAGAGCAAAAGCAAATGTTG 950 PABPC1 3146795 AATGGGTCCACGTCCTGCAGCTGCA 951 PABPC1 3146797 TGCAAACCTCAGATCGAAGAAGACAGCATAAACACTTTTCACT CAGTAAGTTTTCCCAGTTAATGTA 952 PABPC1 3146798 TCAGGTATATTTATAAGTGTGGGCGGCAAACCACCC 953 PABPC1 3146799 AACCGTGCTGCATACTATCCTCCTA 954 PABPC1 3146800 CAACCAGAACCATGAAGGTTTTCGTATTTGGTCATT 955 PABPC1 3146802 TTATGATGGAGGGTGGTCGCAGCAAA 956 PABPC1 3146803 CTGACCTGGCTAGGGTAATGCATATGTGTAGTTTGCCCTTAAT AATTGGGTATTAAGGAAAAATTGTGAACTCAATGGGTAAATAC AAGATGATTAAGCATTAACAGGGTTTAGTTATTTGATTCAGTGA TTTATAATTGTCTAA 957 PABPC1 3146804 GGAGTACGATAGAATTTATTCCTGAATGTTTTTGTCTTCAGTGT GTTCCCTGGATATTGTTTAAATTGAGTGTTGTGCATCAGCATAT TTTGAATGTATGAAGCATGCATGTTTTTCTGTTTCTTGAGACAG GATCTCATTATGTTGCCCAGGTTGGAGTGCAGGGGCATGCCA CAATCACAGCTCACTGCAGCCTCAGCCTTTCCTGGGCTTAAGC CAAGCTTGTCCAACCCGCTGCTTGCAGGCCACATGCGGCCCA AGAATGCTTTTA 958 PABPC1 3146805 GATGATGGTATTGATGATGAACGTCTCCGGAAAGAGTTTTCTC CAT 959 PABPC1 3146806 TTATGTTGGTCGAGCTCAGAAAAAGGTGGAACGGCAGACGGA ACTTAAGCGCAAATTTGAACAGATGAAACAAGATAGGATCACC AGAT 960 PABPC1 3146808 TGCCTTGGCCCATACATCTTCTAAATTTCTGTAATCAAATGTGA TTTTTAACCTTTTCTGCCCCACTTGCCTGAGATACCACCCGCC TCAGTTACCTGTCTCTCCTACTTTAGAGGGAGTTAGGGGAAAA CATGTCTTCAGAAATAAATGCTTCCTCTTCCAGGTAGTTCACCT GTGTCTTTAAAAAGAATTTTTTTTCCCTGTCTTTCAAATTCCTGT ATTACCTATGTCTTACCAAAGAGTCCAACTATGTATTCCTTCCA CTCCTGTTGAAAGTCGGGTAGGCCAAGGCTTAATAAATACTTG TTTCTTAATTGATACAAAGAAAATCAAATTGGTCTTAGCACAAT AGCTCATGCCTGTAACCCTAGCGCTTGGGGAGGTCAAAGAGG GAAGATACTTGAAGCCACAAGTTTTAGACTAGCCCGG 961 PABPC1 3146809 TTTGTTGGACGATTTAAGTCTCGTAAAGAACGAGAAGCTGAAC TTGGAGCTAGGGCAAAAGAATTCACCAATG 962 PABPC1 3146810 TTAGAGTACACGATTGGGAAGTTTAAATTTTTATTCTAGGAGAT GGCAAAGAAAGCGCAAGCGCCACTTTAAAATGACGATGAAAG CTTTTTAATTTGATAGAGGTCTTTTTATTGGCATGGTACACATG CACTTCCACTCATTTGTATTGATGGGAGTGATCCCTTTAACCCT AGGTTAGCTAGAGAAGA 963 PABPC1 3146811 GTTATAAATATCTAGCTAATCATATTTTGAATCTTATTTTTAATA ATTCCAAATCCATTCATTTTAAGTTAATATTTGTCAGGGAGAAG TTAGATGCACATAAGATAAAAGAATAAAAACATTTTAAAGATGA ATAACAAAAATTCATGTAGTTGTACTGGAGTGAAAATTAATAAG CTAATCTTGATTTTTACAATTGAATTTTCTACACAGTAAGTGTAA CATACA 964 PABPC1 3146812 TGAAAATGGTTCCAAGGGCTATGGATTTGTACACTTTGAGACG CAGGAAGCAGCTGA 965 PABPC1 3146813 GCTACATTTAGTTTAGTGCTTGAAATAGGAACTGTGCAGTAAT GGATATCTTTATTTCACAAATATCCAGGTTAGATGGCTAACAGA TTGTCTCTCAACA 966 PABPC1 3146815 GGAGCGTGCTTTGGACACCATGAATTTTG 967 PABPC1 3146816 TTTAGGAAATGGACTAGTTTTCATATAATATTGTTAGTTATTAGC AATGAAATGACCAATTTTAGCAAGTAGTTGGGAAGAAGTTAAA ATATTTAAATCTATAAACTACTTCCAGCTTGTAGATAAATCTGTT GCGTAATGTC 968 PABPC1 3146817 AGGCAGGATGTATCAATGCATGTCAGATGGGGGTAGATAACTT TGGGGCAGGTTATCACAACCTAAGAGTTGGTGGAGAAAACAT GGGAATGAATTCTAGAGACCACAAAATGAAAACTTGAAAGTGT TACTCTTTCTCAGCTTAACGTTTTTAAATCCAAAAAACAATTTTT ACATTTCTTGGGATTCGAAGAGTTGAACTTCAGGTTGCCGTGG TTACAGTGTACAGTATATATTATCAGTCTGTACCAGTAGACCAG TACCCTAACTACTGAAAAGAATATGGCAGTTTTCCATTTGTCTA GTTTCTGTATGTACAATTTACTATCCAATTAATTACTTAAGTGGA TTTCTTGTTCTTTTTTAAAAACTTATTGCTACATTGATAGGCAGA ATAGCTTCTGAAAGTGACCAGTTTTCAATTTCATAGGAAGAGG TGACTCATTGAAAAATAGCTCAAGCAAAGTCAGCTAAAAAAAA AAAAAAACTAGGGAAGCTGAGTAGGTGTGGTCAATTGATAATG AGCTAACAGCTGATTATCACTATATTCTAGAAACTGGAACTTTC ATTTATAAAAAAAGAGGTGGCCGGAAAATTCATCCTGTC 969 PABPC1 3146818 TGTGGCAGCCGACCACTTTGAAGGCCAGTTTTCTCAGGCAACT TAGACCATTTTTAGTCAAATTTTATCTTAGATTCACAGTACTGG TGGTTTTCGAGTATATTATGTTACCTTCTGAAATAGTTCCTGTC GTTTTGAGGGGCTTTTCTTTATAAAATAGTCAACTTTGGCTATA AAATGTTACTTTAGTGTAATTCCAACTGGACCAGTCTTATCTGT AGCATGCAAGAAGTTCAAGTTTCTCTTTTATTTTTAAAAGTGGC CCATGATACCTGTAAATC 970 PABPC1 3146819 CTACGAGAAGTTCAGCCCGGCCGGGCCCATCCTCTCCATCCG GGTCTGCAGGGACATGATCACCCGCCGCTCCTTGGGCTACGC GTATGTGAACTTCCAGCAGC 971 PABPC1 3146820 GTCGCGGCCTGTGGCCCTGCGGGCAGC 972 PABPC1 3146821 CCCGGCACTCGCTCTCCTCCTCTCACGGAAAG 973 PABPC1 3146822 GATTTTTGTCCCTCTGCGCTTGCTCCCCGCTCCCCT 974 PABPC1 3146823 TCGCTCCCCGCCGGCAGCCGGCAGCCAGCGGCAGTGGATCG ACCCC 975 PABPC1 3146824 CCAAGAAGGAACCAAGAGACCGAGGCCTTCCCGCTGCCCGG ACCCGACACCGCCACC 976 PABPC1 3146825 GCTGGCTCCATCTACGCACGTTTCGGAAACCGGGCCCGGAGG GGACCACGCCCGCTCACCCGTGCCCGGCGTCCCCCGGAGCT GGGGCTAGAGGAGCCGGGCCGGCCGCAGCGGGAAGAGGCC ACAGGCGGCCGCGCACGTGGGGGGTGGTTAGCGCGGAGGA ACCCGGAAGCCCTTTGCACCGCCCACCGCCGCGGTGACGGG TTAACGCTCCTCCTGGTGGAGGCAGGGGCGGGCGGGGCGGA AGGCGGGGACGCCTCAGCCAACACCCCCGAGGACCGCCCGC GAGCCGTCCTCCCCACCCCCACGGACGCGACGCAGCGCGGG CTCCGCTTCCCCGGCCGCGGCGCCTGCGCAAAAGCCCCGCC CCTTCGCCCGAGCCCCACCCCCACACCGCAGCCTCCACCGC CGCCACCTCTCCCTTCCTCTCTGCTCTTTCCTCCTGTTTTCTCT TCCCTCCTCCCCCTGGCCTCCGCGTCTCCTCCTACTCCGGCG CTGACGCTCGCGTAGGGGCCCTGGCGTCAGACGCGCGGGGG CGGGGCGAGTGCGGCGCGGGGTATAAGTAGAGGGTGCAGGA GGCGGTGCTTCCCCTTCTCCCCGGCGGTTAGTGCTGAGAGTG CGGAGTGTGTGCTCCGGGCTCGGAACACACATTTATT 977 PABPC1 3146826 AGGCACCGCTTCTGCGGCCGACGCGCGTGGCGGCGGTGCCG GCTGGGACTCGTAGTGCGGTCCGG 978 PGM5P4- 3159288 ACTATGTTGTGAGCCTGCGAAAGAAGTTTGTGTG AS1 979 PGM5P4- 3159289 ATGGAAAACTGGGAGCCGCCTTGGAATCTACAGGGCCGG AS1 980 PGM5P4- 3159291 CGACCTCGACGGCCGTCCTGCCGAAGAACCTGCCGTCGCTG AS1 CCCGCCCCCGTGGTGCGGCCCTGACGGTCGCGCAGGCCGAC GGACGACAGCGCGCTCCGGATGAAGTTGGGCGGGTAGCT 981 PGM5P4- 3159293 AGCCTCCTCCAAAACAGCACACTTTCCG AS1 982 PGM5P4- 3159294 TGGTTACAATGGTACTTTCAGCCTGTCCGAATTATGTATTGCC AS1 CCTCCCCTTTTTATTAATAACATTGAAGTGTGATGGGACAACCA CTGAAGCCGTCAGTTGAAACCTGCTGGGACTTTTTAGCCATTC TCTTCAACATAAAGAATGGGTGTTTTTGGAGGGGGTGAGAGG AATGGGGAAATGTTGTCAAAGAGTACAACGTTTTAGTTGAGAC AGGAAGAATATATTTTGTTGAGATCTACAGCACAGCATG 983 PGM5P4- 3159295 GCCTACCTAAAATATTGAATGCTGTTAATAAATCTCCTGAGGC AS1 CAGCATAAGAAGGTGATGGGCAAAACTAAT 984 PGM5P4- 3159296 TTGTGTATCTGCGTTCCTTTCAACAAGTGTGACTTCCTCCATG AS1 GCATCATTCGTGAGCGTAACACAGAGCTCAGC 985 PGM5P4- 3159297 GCTCTGAGAGGCTCTTCCTAATAGAACTGCTGCTTCAGTTTAG AS1 CTTGAAAAAGCCCACACCCAGTTCCTAATGACAAACATCTGAA CACCGGGTCTTCCCACGAGCAAGACCATGCTATGCCTCCTGC TCGCTCTGTTCTATAAGCAACCCACAGATTGCTCCCTGTGAAG A 986 PGM5P4- 3159298 AGTAAATCCATTTGCTGATTGCAATA

AS1 987 PGM5P4- 3173158 ACTATGTTGTGAGCCTGCGAAAGAAGTTTGTGTG AS1 988 PGM5P4- 3173159 TGGTTACAATGGTACTTTCAGCCTGTCCGAATTATGTATTGCC AS1 CCTCCCCTTTTTATTAATAACATTGAAGTGTGATGGGAAAACCA CTGAAGCCGTCAGTTGAAACCTGCTGGGACTTTTTAGCCATTC TCTTCAACATAAAGAATGGGTGTTTTTGGAGGGGGTGAGAGG AATGGGGAAATGTTGTCAAAGAGTACAGTGTTTTAGTTGAGAC AGGAAGAATATATTTTGTTGAGATCTACAGCACAGCATG 989 RP11- 3175548 CCTCAATGGGAACCCTGGTGCAGAA 159H20.3 990 RP11- 3175571 GTGCGGGGTGGTGGCACTGTCAGCAGGGACCACTGGGAAGT 159H20.3 TGAGGATGAGGACATCAAAAATAAC 991 RP11- 3175573 AAAGGTTACCAGTTCACCAACTGTGCTTTACGGTGAAAAACA 159H20.3 992 RP11- 3175574 CCACCATGACAGATGACCTGGCAGGTTATG 159H20.3 993 SETP14 3190668 AGAACAGCAAGAAGCGATTGAACACATTGATGA 994 5ETP14 3190670 ATATAACAAACTCCGCCAACCATTTTTTCAGAAGAGGTCAGAA TTGATCGCCAAAATCCCAAATTTTTG 995 SETP14 3190675 AGTGGTGATCCATCTTCGAAGTCCACCGAAATCAAATGGA 996 5ETP14 3190678 AGAGAGCTTCTTTACCTGGTTTACTGACCATTCTGATGCAGGT GCTGATGAGTTAGGAGAGGTCATCAAAGATGATATTTGGCCAA ACCCATTACAGTACTACT 997 PGM5P4- 3208467 GGGAGCAGCATTCCACCAGACCCTGATTTAGCAAGATATTTCC AS1 GTATCATTCCCCCAACCAGCTGGAA 998 PGM5P4- 3208469 CCAGACGTACAGAGGCTGGGAGCCATTGTGGTGTGCTATATT AS1 GATGACGGCAGCAGTGGG 999 PGM5P4- 3208471 TTGTGTATCTGCGTTCCTTTCAACAAGTGTGACTTCCTCAATGG AS1 CATCATTCGTGAGCGTAACACAGAGCTCAGC 1000 PGM5P4- 3208473 CTTAGAGGGCCCCACAGTTGTTTGCTG AS1 1001 PGM5P4- 3208475 TGGTTACAATGGTACTTTCAGCCTGTCCGAATTATGTATTGCC AS1 CCTCCCCTTTTTATTAATAACATTGAAGTGTGATGGGACAACCA CTGAAGCCGTCTGTTGAAACCTGCTGGGACTTTTTAGCCATTC TCTTCAACATAAAGAATGGGTGTTTTTGGAGGGGGTGAGAGG AATGGGGAAATGTTGTCAAAGAGTACAATGTTTTAGTTGAGAC AGGAGGAATATATTTTGTTGAGATCTACAGCACAGCATG 1002 PGM5P4- 3208476 AGCCTCCTCCAAAACAGCACACTTTCCG AS1 1003 PGM5P4- 3208477 AAAAATGAGCAGGTGCGGGATGTGCGCAGAGTCGGAGAAGA AS1 GTCCAGGGCGCCCGGAGTGGCTCCAGGAACGACGGAAAC 1004 PGM5P4- 3208478 ACTATGTTGTGAGCCTGCGAAAGAAGTTTGTGTG AS1 1005 ASPN 3214846 TCATGTCTTAGAGCCCGTCTTTATGTTTAAAACTAATTTCTTAAA ATAAAGCCTTCAGTAAATGTTCATTACCAACTTGATAAATGCTA CTCATAAGAGCTGGTTTGGGGCTATAGCATATGCTTTTTTTTTT TTAATTATTACCTGATTTAAAAATCTCTGTAAAAACGTGTAGTGT TTCATAAAATCTGTAACTCGCATTTTAATGATCCGCTATTATAA GCTTTTAATAGCATGAAAATTGTTAGGCTATATAACATTGCCAC TTCAACTCTAAGGAATATTTTTGAGATATCCCTTTGGAAGACCT TGCTTGGAAGAGCCTGGACACTAACAATTCTACACCAAATTGT CTCTTCAAATACGTATGGACTGGATAACTCTGAGAA 1006 ASPN 3214847 CTAATTCAATTGCAAGAGTGGGAGTAAATGACTTCTGTCCAAC AGTGCCAAAGATGAAGAAATCTTTATACAGTGCAATAAGTTTAT TCAACAACCCGGTGAAATACTGGGAAATGCAACCTGCAACATT TCGTTGTGTTTTGAGCAGAATGAGCGTTCAGCTTGGGAAC 1007 ASPN 3214848 TGACAACTCTTAACTGGCTGGAAGGGGCCACAGATTCCTTGG AGAATCTAATAAAGATTTAGATCTTCCCAAGAACAAAAGTTTTC ATCTTCCAAGGAGCTTGAGAACAAAACTGGGCAACAAGCCACT CTGCCTCTTCTCTTTTTCTTTCCGGTGTATCTTTAAACAAGTTT CGTTCACTGTACTCCTTTGAGATACAAACCATCAAAATGAATGT AATATAGGCAGGTGCTAATCTCAAGATCACAACTTTTGCTTTGA CTTTTCCAAATGCTGCATTTGGATGTCTGTTTAGCCAGTGACTA CAACTTGAGTCCGTCCTCTCTCAAGCTGCCCCATCCCTGATGT CATTTCTGCTTAATTTGCTCCACAACTCTGCTTCCAGCTTCTGG TCTCTCTTAAATC 1008 ASPN 3214849 ACATTCTACTTGTGTTCAGTAGATATTGGTATTTTTCTTCAGTTT TTATAACACACTTTAGCACACCTCAAGCAAAGACCAAGTAAGC AGCAAGGGTGATTCAAACATAATGACTCTCCAGGTTGCATGAG GTG 1009 ASPN 3214850 ATCACAGATATCGAAAATGGGAGTCTTGCTAACATACCACGTG TGAGAGAAATACATTTGGAAAACAATAAACTAAAAAAAATCCCT TCAGGATTACCAGAGTTGAAATACCTCCAG 1010 ASPN 3214851 TAGGACAGGCTTATATTCTAACTAGTTTGCGGTGTTTTCAGCTA ACTCTATCACACCTAACCATCTGTGTAAGACTTGATGCATT 1011 ASPN 3214852 GCTTACCACCAACTTTATTGGAGCTTCACTTAGATTATAATAAA ATTTCAACAGTGGAACTTGAGGAT 1012 ASPN 3214853 GATAAATGATATCACATGGAAGCTGTCAGCCAAATCCACAAAA GGAGTGTCTCAAACAAATTAATATGGAAATAAATCAAAAGAAG AGGGAGAAAAAAGGAGGGAGTATGTTGTACATTAAGAGAGATT TCAAGAGCGATAAGAACCAAATGTATTCTGTAAACTTCATTTAA TCCTAACTTGAACAAATCAACTGTAAAATGACGTATTTGAGA 1013 ASPN 3214854 CCGGTACAAAAGTGTGCTAACATTTGTCAGCAGTTACTGAGCT TCTGCCAAATTCACACCTCTGCTCGTTTTATCCTAGAGGCTAC ACTTCAATCTTCTCTCTGGTTACCCACCTTCCCCATTTCCTAAG GGACACAACAGTTCCCTCAACTTCTACAAGTCCTCTCCCAGAG ATTA 1014 ASPN 3214855 CCCAGGCATTTAGCCACAGTTTGAGGTGAAGCCTATGAGCCC AGACTGGGCAGCCCCTGGCTCTGGCAGGAATGGACATGCCAT TCAAGGCAAGGCATTTTGTACCCAGCTTCTTCCCAGGTGTACT GTGAAGACTAATGGGCCAATACACAGAAAGGTCTGAGGACAA CATCCAGCACGTAGGAAGTGACCACCTGTGACATAATCATTAC CAAGATGAGCACTGTGCTCTTTATCATGGCTTTGTGTGACCCA AGGCTAGCACCTCAAGTAGAATGCTCCTTAAGTCTGCCAGATG ACCAGTGTTCTAACCCATTACTTCCAAGCTCCCTGTCTGATGA TTAGCTGCATA 1015 ASPN 3214856 TAATAATGGGATAGAGCCAGGGGCATTTGAAGGGGTGACGGT GTTCCATATCAGAATTGCAGAAGCAAAACTGACCTCAGTTCCT A 1016 ASPN 3214857 CCTGAACAACAACAAGCTAACGAAGATTCACCCAAAAGCCTTT CTAACCACAAAGAAGTTGCGAAGGCTGTATCTGTCCCACAATC AACTAAGTGAAATACCACTTAATCTTCCCAAATCATTAGCAGAA CTC 1017 ASPN 3214858 AATACTGGTAAATCAAATCCACTTCC 1018 ASPN 3214859 ATTCCATTTGATACTCGAATGCTTGATC 1019 ASPN 3214860 ATGGGTCTTAAGCTTTACCTGTGGAATTCTCATGAGAAAGAGA TTAAGATGCAAGTACTGTTTGAGAAAACTTGTTCATGTAGAAC GACTGTGGA 1020 ASPN 3214861 TGCTATTCTGACAATTTAAAGGATGGAAAAAGTCTCATTGAAAT TTCAAAAATAATCTGAGTGTATAAGTTTTTTTCATTTAAGTTTTT AGGTGGAAAGTACAGCAAACCCCAAAGTACATCCAAACTTATT TTTAAAATTAAGAAAATCAAAGGAAAACTAAGGGAATGTTGTCC ATAGAACATTTCCTTCTCTTCCCCAGTTAAATCAAAGCATTTAA TTTTAATTCCCTTCAGAGAGAATGGACATCACATGCAGTTCTAT CTCAGGGTGCTAGCAGGTTGAGACTGTACTTTTCAGTAAAACT CCATGATAACAAAATAAGCTGCATGTCTAGAACAATGAAATGA GTTATAGAAAGCTTGTGAAATCTCTAATCTA 1021 ASPN 3214862 TTTGATCTGTTTCCAATGTGTCCATTTGGATGTCAGTGCTATTC ACGAGTTGTACATTGC 1022 ASPN 3214863 TGTGCTCCTATTATTCCTGGCTTTGTGCTCTGCCAAACCCTTCT TTAGCCCTTCACACATCGCACTGAAGAATATGATGCTGAAGGA TATGG 1023 ASPN 3214864 TCCTAGACTGGTCTTCTACACTAAGACACC 1024 ASPN 3214865 GAAGTTTGGGGATATCACAGCTATATTAAATGAAACAGTAAATA TATTTTTCAATATTTAAAATATTTTCTAATGTGTATTTAAAATGTG TGAATTACTGAAATGTCAATTTTACTTATACATTTGAATATTCAT TTTTTTCCTTGATAAATGTCTTCCTTATTATAATGAAATGGCACT GAAAAGTTCAAATGGAAATCTATTCAATTCCAAGAAAGAATACT TATCAGCAATAGTTTAGCTAGCACTATATTCAATATGAAAGATT AGGAAATTTTCACAGCATGTATACAGTCAGAATTTAACACTTTC AAAGATTTCCTTTGTCTACTCCCAAAGTAAATTTCTGATTAAATT TTAGATTAAAAAATTTAAGCAATGTATTCAATATTCTACTCCCTA GTAATCTAAATAGCGCACAGCATTCTTTCATGTTAATCTATTCA GAGGTGTGGCACCCAGGAAACA 1025 ASPN 3214866 TGGACTAATCTGTGGGAGCAGTTTATTCCAGTATCACCCAGGG TGCAGCCACACCAGGACTGTGTTGAAGGGTGTTTTTTTTCTTT TAAATGTAATACCTCCTCATCTTTTCTTCTTACACAGTGTCTGA GAACATTTACATTATAGATAAGTAGTACATGGTGGATAACTTCT ACTTTTAGGAGGACTACTCTCTTC 1026 ARL6IP1P2 3242825 GGAAACGCCTCTTCACACTAAAGGAAGAA 1027 ARL6IP1P2 3242826 TGACTTCCTTACTATTGCTTCCTGGACTAA 1028 MKI67 3312496 ACTCGTGAGCACATCTTTAGGGACCAAGAGTGACTTTCTGTAA GGAGTGACTCGTGGCTTGCCTTGGTCTCTTGGGAATACTTTTC TAACTAGGGTTGCTCTCACCTGAGACATTCTCCACCCGCGGAA TCTCAGGGTCCCAGGCTGTGGGCCATCACGACCTCAAACTGG CTCCTAATCTCCAGCTTTCCTGTCATTGAAAGCTTCGGAAGTTT ACTGGCTCTGCTCCCGCCTGTTTTCTTTCTGACTCTATCTGGC AGCCCGATGCCACCCAGTACAGGAAGTGACACCAGTACTCTG TAAAGCATCATCATCCTTGGAGAGACTGAGCACTCAGCACCTT CAGCCACGATTTCAGGATCGCTTCCTTGTGAGCCGCTGCCTC CGAAATCTCCTTTGAAGCCCAGACATCTTTCTCCAGCTTCAGA CTTGTAGATATAACTCGTTCATCTTCATTTACTTTCCACTTTGC CCCCTGTCCTCTCTGTGTTCCCCAAATCAGAGAATAGCCCGCC ATCCCCCAGGTCACCTGTCTGGATTCCTCCCCATTCACCCACC TTGCCAGGTGCAGGTGAGGATGGTGCACCAGACAGGGTAGCT GTCCCCCAAAATGTGCCCTGTGCGGGCAGTGCCCTGTCTCCA CGTTTGTTTCCCCAGTGTCTGGCGGGGAGCCAGGTGACATCA TAAATACTTGCTGAATGAATGCAGAAATCAGCGGTACTGACTT GTACTATATTGGCTGCCATGATAGGGTTCTCACAGCGTCATCC ATGATCGTAAGGGAGAATGACATTCTGCTTGAGGGAGGGAAT AGAAAGGGGCAGGGAGGGGACATCTGAGGGCTTCACAGGGC TGCAAAGGGTACAGGGATTGCACCAGGGCAGAACAGGGGAG GGTGTTCAAGGAAGAGTGGCTCTTAGCAGAGGCACTTTGGAA GGTGTGAGGCATAAATGCTTCCTTCTACGTAGGCCAACCTCAA AACTTTCAGTAGGAATGTTGCTATGATCAAGTTGTTCTAACACT TTAGACTTAGTAGTAATTATGAACCTCACATAGAAAAATTTCAT CCAGCCATATGCCTGTGGAGTGGAATATTCTGTTTAGTAGAAA AATCCTTTAGAGTTCAGCTCTAACCAGAAATCTTGCTGAAGTAT GTCAGCACCTTTTCTCACCCTGGTAAGTACAGTATTTCAAGAG CACGCTAAGGGTGGTTTTCATTTTACAGGGCTGTTGATGATGG GTTAAAAATGTTCATTTAAGGGCTACCCCCGTGTTTAATAGATG AACACCACTTCTACACAACCCTCCTTGGTACTGGGGGAGGGA GAGATCTGACAAATACTGCCCATTCCCCTAGGCTGACTGGATT TGAGAACA 1029 MKI67 3312497 ATGAGCGCACGGATGAATGGAGCTTACAAGATCTGTCTTTCCA ATGGCCGGGGGCATTTGGTCCCCAAATTAAGGCTATTGGACA TCTGCACAGGACAGTCCTATTTTTGATGTC 1030 MKI67 3312498 AGGAACAACTATCCTCGTCTGTCCCAACACTGAGCAGGCACT CGGTAAAC 1031 MKI67 3312499 ATTTGCTGGGTCTGAATCGGCTTCATAAACTCCACTGGGAGCA CTGCTGGGCTCCTGGACTGAGAATAGTTGAACACCGGGGGCT TTGTGAAGGAGTCTGGGCCAAGGTTTGCCCTCAGCTTTGCAG AATGAAGCCTTGAGGTCTGTCACCACCCACAGCCACCCTACA GCAGCCTTAACTGTGACACTTGCCACACTGTGTCGTCGTTTGT TTGCCTATGTCCTCC 1032 MKI67 3312500 GGACAATGTGTGTGTCAAGAAAATAAGAACCAGAAGTCATAGG GACAGTGAAGATATTTG 1033 MKI67 3312501 GTTCAGCAAACGAAACTCATGTAGCAATAACCTCTTCAGATAC AGAATTCTGGCAAGTACAGCTGTCCAGACAGACCCTCTTCGG CACAAACTAGGAAGCTTCAACTG 1034 MKI67 3312502 CAGAAGAGTGCGAAGGTTCTCATGCAGAATCAGAAAGGGAAA GGAGAAGCAGGAAATTCAGACTCCATGTGCCTGAGATCAAGA AAGACAAAAAGCCAGCCTGCAGCAAGCACTTTGGAGAGCAAA TCTGTGCAGAGAGTAACGCGGAGTGTCAA 1035 MKI67 3312503 GAGCCCGGAAACCCATACCTAGAGACAAAG 1036 MKI67 3312504 TATCCCTGCGCTCCAGACGCCAAAAT 1037 MKI67 3312505 GAGCAAAGTACCAAGGCATTACCTTGA 1038 MKI67 3312506 AAGAGGCTGCGCTGCATGCCAGCACCAGAGGAAATTGTGGAG

GAGCTGCCAGCCAGCAAGAAGCAGAGGGTTGCTCCCAGGGC AAGAGGCAAATCATCCGAACCCGTGGTCATCATGAAGAGAAG TTTGAGGACTTCTGCAAAAAGAATTGAACCTGCGGAAGAGCTG AACAGCAACGACATGAAAACCAACAAAGAGGAACACAAATTAC AAGACTCGGTCCCTG 1039 MKI67 3312507 CCCGTGCTCTAGAAGACCTGGTTGACTTCAAAGAGCTCTTCTC AGCACCAGGTCACACTGAAGAGTCAATGACTATTGACAAAAAC ACAAAAATTCCCTGCAAATCTCCCCCACCAGAACTAACAGACA CTGCCACGAGCACAAAGAGATGCCCCAAGACACGTCCCAGGA AAGAAGTAAAAGAGGAGCTCTCAGCAGTTGAGAGGCTCACGC AAACATCAGGGCAAAGCACACACACACACAAAGAACCAGCAA GCGGTGATGAGGGCATCAAAGTATTGAAGCAACGTGCAAAGA AGAAACCAAACCCAGTAGAAGAGGAACCCAGCAGGAGAAGGC CAAGAGCACCTAAGGAAAAGGCCCAACCCCTGGAAGACCTGG CCGGCTTCACAGAGCTCTCTGAAACATCAGGTCACACTCAGG AATCACTGACTGCTGGCAAAGCCACTAAAATACCCTGCGAATC TCCCCCACTAGAAGTGGTAGACACCACAGCAAGCACAAAGAG GCATCTCAGGACACGTGTGCAGAAGGTACAAGTAAAAGAAGA GCCTTCAGCAGTCAAGTTCACACAAACATCAGGGGAAACCAC GGATGCAGACAAAGAACCAGCAGGTGAAGATAAAGGCATCAA AGCATTGAAGGAATCTGCAAAACAGACACCGGCTCCAGCAGC AAGTGTAACTGGCAGCAGGAGACGGCCAAGAGCACCCAGGG AAAGTGCCCAAGCCATAGAAGACCTAGCTGGCTTCAAAGACC CAGCAGCAGGTCACACTGAAGAATCAATGACTGATGACAAAAC CACTAAAATACCCTGCAAATCATCACCAGAACTAGAAGACACC GCAACAAGCTCAAAGAGACGGCCCAGGACACGTGCCCAGAAA GTAGAAGTGAAGGAGGAGCTGTTAGCAGTTGGCAAGCTCACA CAAACCTCAGGGGAGACCACGCACACCGACAAAGAGCCGGTA GGTGAGGGCAAAGGCACGAAAGCATTTAAGCAACCTGCAAAG CGGAAGCTGGACGCAGAAGATGTAATTGGCAGCAGGAGACAG CCAAGAGCACCTAAGGAAAAGGCCCAACCCCTGGAAGATCTG GCCAGCTTCCAAGAGCTCTCTCAAACACCAGGCCACACTGAG GAACTGGCAAATGGTGCTGCTGATAGCTTTACAAGCGCTCCAA AGCAAACACCTGACAGTGGAAAACCTCTAAAAATATCCAGAAG AGTTCTTCGGGCCCCTAAAGTAGAACCCGTGGGAGACGTGGT AAGCACCAGAGACCCTGTA 1040 MKI67 3312508 GGAGAACTCTTAGCGTGCAGGAATCTAATGCCATCAGCAGGC AAAGCCATGCACACGCCTAAACCATCAGTAGGTGAAGAGAAA GACATCATCATATTTGTGGGAACTCCAGTGCAGAAACTGGACC TGACAGAGAACTTAACCGGCAGCAAGAGACGGCCACAAACTC CTAAGGAAGAGGCCCAGGCTCTGGAAGACCTGACTGGCTTTA AAGAGCTCTTCCAGACCCCTGGTCATACTGAAGAAGCAGTGG CTGCTGGCAAAACTACTAAAATGCCCTGCGAATCTTCTCCACC AGAATCAGCAGACACCCCAACAAGCACAAGAAGGCAGCCCAA GACACCTTTGGAGAAAAGGGACGTACAGAAGGAGCTCTCAGC CCTGAAGAAGCTCACACAGACATCAGGGGAAACCACACACAC AGATAAAGTACCAGGAGGTGAGGATAAAAGCATCAACGCGTTT AGGGAAACTGCAAAACAGAAACTGGACCCAGCAGCAAGTGTA ACTGGTAGCAAGAGGCACCCAAAAACTAAGGAAAAGGCCCAA CCCCTAGAAGACCTGGCTGGCTTGAAAGAGCTCTTCCAGACA CCAGTATGCACTGACAAGCCCACGACTCACGAGAAAACTACC AAAATAGCCTGCAGATCACAACCAGACCCAGTGGACACACCA ACAAGCTCCAAGCCACAGTCCAAGAGAAGTCTCAGGAAAGTG GACGTAGAAGAAGAATTCTTCGCACTCAGGAAACGAACACCAT CAGCAGGCAAAGCCATGCACACACCCAAACCAGCAGTAAGTG GTGAGAAAAACATCTACGCATTTATGGGAACTCCAGTGCAGAA ACTGGACCTGACAGAGAACTTAACTGGCAGCAAGAGACGGCT ACAAACTCCTAAGGAAAAGGCCCAGGCTCTAGAAGACCTGGC TGGCTTTAAAGAGCTCTTCCAGACACGAGGTCACACTGAGGA ATCAATGACTAACGATAAAACTGCCAAAGTAGCCTGCAAATCT TCACAACCAGACCCAGACAAAAACCCAGCAAGCTCCAAGCGA CGGCTCAAGACATCCCTGGGGAAAGTGGGCGTGAAAGAAGA GCTCCTAGCAGTTGGCAAGCTCACACAGACATCAGGAGAGAC TACACACACACACACAGAGCCAACAGGAGATGGTAAGAGCAT GAAAGCATTTATGGAGTCTCCAAAGCAGATCTTAGACTCAGCA GCAAGTCTAACTGGCAGCAAGAGGCAGCTGAGAACTCCTAAG GGAAAGTCTGAAGTCCCTGAAGACCTGGCCGGCTTCATCGAG CTCTTCCAGACACCAAGTCACACTAAGGAATCAATGACTAACG AAAAAACTACCAAAGTATCCTACAGAGCTTCACAGCCAGACCT AGTGGACACCCCAACAAGCTCCAAGCCACAGCCCAAGAGAAG TCTCAGGAAAGCAGACACTGAAGAAGAATTTTTAGCATTTAGG AAACAAACGCCATCAGCAGGCAAAGCCATGCACACACCCAAA CCAGCAGTAGGTGAAGAGAAAGACATCAACACGTTTTTGGGA ACTCCAGTGCAGAAACTGGACCAGCCAGGAAATTTACCTGGC AGCAATAGACGGCTACAAACTCGTAAGGAAAAGGCCCAGGCT CTAGAAGAACTGACTGGCTTCAGAGAGCTTTTCCAGACACCAT GCACTGATAACCCCACGACTGATGAGAAAACTACCAAAAAAAT ACTCTGCAAATCTCCGCAATCAGACCCAGCGGACACCCCAAC AAACACAAAGCAACGGCCCAAGAGAAGCCTCAAGAAAGCAGA CGTAGAGGAAGAATTTTTAGCATTCAGGAAACTAACACCATCA GCAGGCAAAGCCATGCACACGCCTAAAGCAGCAGTAGGTGAA GAGAAAGACATCAACACATTTGTGGGGACTCCAGTGGAGAAA CTGGACCTGCTAGGAAATTTACCTGGCAGCAAGAGACGGCCA CAAACTCCTAAAGAAAAGGCCAAGGCTCTAGAAGATCTGGCT GGCTTCAAAGAGCTCTTCCAGACACCAGGTCACACTGAGGAA TCAATGACCGATGACAAAATCACAGAAGTATCCTGCAAATCTC CACAACCAGACCCAGTCAAAACCCCAACAAGCTCCAAGCAAC GACTCAAGATATCCTTGGGGAAAGTAGGTGTGAAAGAAGAGG TCCTACCAGTCGGCAAGCTCACACAGACGTCAGGGAAGACCA CACAGACACACAGAGAGACAGCAGGAGATGGAAAGAGCATCA AAGCGTTTAAGGAATCTGCAAAGCAGATGCTGGACCCAGCAA ACTATGGAACTGGGATGGAGAGGTGGCCAAGAACACCTAAGG AAGAGGCCCAATCACTAGAAGACCTGGCCGGCTTCAAAGAGC TCTTCCAGACACCAGACCACACTGAGGAATCAACAACTGATGA CAAAACTACCAAAATAGCCTGCAAATCTCCACCACCAGAATCA ATGGACACTCCAACAAGCACAAGGAGGCGGCCCAAAACACCT TTGGGGAAAAGGGATATAGTGGAAGAGCTCTCAGCCCTGAAG CAGCTCACACAGACCACACACACAGACAAAGTACCAGGAGAT GAGGATAAAGGCATCAACGTGTTCAGGGAAACTGCAAAACAG AAACTGGACCCAGCAGCAAGTGTAACTGGTAGCAAGAGGCAG CCAAGAACTCCTAAGGGAAAAGCCCAACCCCTAGAAGACTTG GCTGGCTTGAAAGAGCTCTTCCAGACACCAATATGCACTGACA AGCCCACGACTCATGAGAAAACTACCAAAATAGCCTGCAGATC TCCACAACCAGACCCAGTGGGTACCCCAACAATCTTCAAGCC ACAGTCCAAGAGAAGTCTCAGGAAAGCAGACGTAGAGGAAGA ATCCTTAGCACTCAGGAAACGAACACCATCAGTAGGGAAAGCT ATGGACACACCCAAACCAGCAGGAGGTGATGAGAAAGACATG AAAGCATTTATGGGAACTCCAGTGCAGAAATTGGACCTGCCAG GAAATTTACCTGGCAGCAAAAGATGGCCACAAACTCCTAAGGA AAAGGCCCAGGCTCTAGAAGACCTGGCTGGCTTCAAAGAGCT CTTCCAGACACCAGGCACTGACAAGCCCACGACTGATGAGAA AACTACCAAAATAGCCTGCAAATCTCCACAACCAGACCCAGTG GACACCCCAGCAAGCACAAAGCAACGGCCCAAGAGAAACCTC AGGAAAGCAGACGTAGAGGAAGAATTTTTAGCACTCAGGAAA CGAACACCATCAGCAGGCAAAGCCATGGACACACCAAAACCA GCAGTAAGTGATGAGAAAAATATCAACACATTTGTGGAAACTC CAGTGCAGAAACTGGACCTGCTAGGAAATTTACCTGGCAGCA AGAGACAGCCACAGACTCCTAAGGAAAAGGCTGAGGCTCTAG AGGACCTGGTTGGCTTCAAAGAA 1041 MKI67 3312509 AACAACAGTTGAAGGCATCCCTGGGGAAAGTAGGTGTGAAAG AAGAGCTCCTAGCAGTCGGCAAGTTCACACGGACGTCAGGGG AGACCACGCACACGCACAGAGAGCCAGCAGGAGATGGCAAG AGCATCAGAACGTTTAAGGAGTCTCCAAAGCAGATCCTGGAC CCAGCAGCCCGTGTAACTGGAATGAAGAAGTGGCCAAGAACG CCTAAGGAAGAGGCCCAGTCACTAGAAGACCTGGCTGGCTTC AAAGAGCTCTTCCAGACACCAGGTCCCTCTGAGGAATCAATGA CTGATGAGAAAACTACCAAAATAGCCTGCAAATCTCCACCACC AGAATCAGTGGACACTCCAACAAGCACAAAGCAATGGCCTAA GAGAAGTCTC 1042 MKI67 3312510 TGCAAACAGGTCAGGAAGGTCTACAGAGTTCAGGAATATACA GAAGCTACCTGTGGAAAGTAAGAGTGAAGAAACAAATACAGAA ATTGTTGAGTGCATCCTAAAAAGAGGTCAGAAGGCAACACTAC TACAACAAAGGAGAGAAGGAGAGATGAAGGAAATAGAAAGAC CTTTTGAGACATATAAGGAAAATATTGAATTAAAAGAAAACGAT GAAAAGATGAAAGCAATGAAGAGATCAAGAACTTGGGGGCAG AAATGTGCACCAATGTCTGACCTGACAGACCTCAAGAGCTTGC CTGATACAGAACTCATGAAAGACACGGCACGTGGC 1043 MKI67 3312511 CCCAGTGAAGGAGCAACCGCAGTTGACAAGCACATGTCACAT CGCTATTTCAAATTCAGAGA 1044 MKI67 3312512 TGGCCTCTAGATCCTAGCAGGGAGGCCTATGGGTCTCAGGAG CCCGTCACCAGCCTCCGTGCTCCAGAGCTCACGTGTGGGGTC TTGTTAGGAGGACCCAGA 1045 MKI67 3312513 TAAAAACGTAGTCTTAGATCTTATAAATCTTTTGACTCTACTGTT TTTTACTGTGTTAATGTTTGTTTTGCTAACTTTGTTTATCTGCTG 1046 MKI67 3312514 CGCAAACTCTCCTTGTACCATAATAATAGGGAAAGCTCATACT GAAAAAGTACATGTGCCTGCTCGACCCTACAGAGTGCTCAA 1047 MKI67 3312515 AGCCTGTGGGCGAAGTTCACAGTCAA 1048 MKI67 3312516 CATGGGCAGATGTAGTAAAACTTGGTGCAAAACAAACACAAAC TAAAGTCATAAAACATGGTCCTCAAAGGTC 1049 MKI67 3312517 AAGAGAGTGTCTATCAGCCGAAGTCAACATGATATTTTACAGA TGATATGTTCCAAAAGAAGAAGTGGTGCTTCGGAAGCAAAT 1050 MKI67 3312518 AAACAAGAGTCAGGTTCAGAAATCCATGTGGAAGTGAAGGCA CAAAGCTTGGTTATAAGCCCTCCAGCTCCTAGTCCTAGGAAAA CTCCAGTTGCCAGTGATCAACGCCGTAGGTC 1051 MKI67 3312519 CCTTTGAAAAGAAGGCGTGTGTCCTTTGGTGGGCACCTAAGA CCTGAACTATTTGATGAAAACTTGCCTCCTAATACGCCTCTCAA AAGGGGAGAAGCCCCAACCAAAAGAAAGTCTCTGGTAATGCA CACTCC 1052 MKI67 3312520 GGACAGATGTGCTCTGGGTTACCTGGTCTTAGTTCAGTTGATA TCAACAACTTTGGTGATTCCATT 1053 MKI67 3312521 TTGAGAGGAAGATCCAAAAGGATTCCCTCAG 1054 MKI67 3312522 GAAGCTTTCAACTAGAAATCGAACACCAGCTAAAGTTGAAGAT GCAGCTGACTCTGCCACTAAGCCAGAAAATCTCTCTTCCAAAA CCAGAGGAAGTATTCCTACAGATGTGGAAGTTCTGCCTACGG AAACTGAAATTCACAATGAGC 1055 MKI67 3312523 CCAGCGTTAAATTAGTGAGCCGTTATGGAGAATTGAAGTCTGT TCCCACTACACAATGTCTTGACAATAGCAAAAAAAATGAATCTC CCTTTTGGAAGCTTTATGAGTCAGTGAAGAAAGAGTTGGATGT AAAATCACAAAAAGAAAATGTCCTACAGTATTGTAGAAAATCTG GATTACAAACTGATTACGCAACAGAGAAAGAAAGTGCTGATGG TTTACAGGGGGAGACCCAACTGTTGGTCTCGCGTAAGTCAAG ACCAAAATCTGGTGGGAGCGGCCACGCTGTGGCAGAGCCTG CTTCACCTGAACAAGAGCTTGACCAGAACAAGGGGAAGGGAA GAGACGTGGAGTCTGTTCAGACTCCCAGCAAGGCTGTGGGCG CCAGCTTTCCTCTCTATGAGCCGGCTAAAATG 1056 MKI67 3312524 AGCCAGCACGTCGTGTCTCAAGATCTAGCTTCT 1057 MKI67 3312525 GGCTCTCAGATCCACCCTAAGTATCCACCAGCCAAGAGGGCG CACATGCCAAGTGGAGCCTCAGTTCATCGACAGGTCCTATGG CCCATTTATGAGAAAACTGATGACGCAGTCAGTAGTTCTGA 1058 MKI67 3312526 TTCAGAATGGAAGGAAGTCAACTGAATTTC 1059 MKI67 3312527 CCAACACAAGTAAATGGGTCTGTTATTGATGAGCCTGTACGGC TAAAACATGGAGATGTAATAACTATTATTGATCGTTCCTTCAG 1060 MKI67 3312528 TGTGACATCCGTATCCAGCTTCCTGTTGTGTCAAAACAACATT 1061 MKI67 3312529 GGCTCCTTGTGGCAATAGGAAAATGGGACAGAAAGTCTTCCT GCCTGGAATTCGAGAACGTTTCCTCTTATATTGCTGTCCTGTTT GGTGG 1062 MKI67 3312530 CCTGAGCCTCAGCACCTGCTTGTTTGGAAG 1063 MKI67 3312531 CCCACGAGACGCCTGGTTACTATCAA 1064 MKI67 3312532 TTTGCTTCTGGCCTTCCCCTACGGATTATACCTGGCCTTCCCC TACGGATTATACTCAACTTACTGTTTAGA 1065 MKI67 3312533 GACTCGGTGGGAGCCGCTAGAGCCGGGCGCCCGGGGACGTA GCCTGTAGGGCCACCGGGTCCCCGTCAGAGGCGGCGGCGG GAGCAGCGGGGACTGCAGGCCGGGGTGCAGCGAACGCGAC CCCGCGGGCTGCGGCCCGGTGTGTGCGGAGCGTGGCGGGC GCAGCTTACCGGGCGGAGGTGAGCGCGGCGCCGGCTCCTCC TGCGGCGGACTTTGGGTGCGACTTGACGAGCGGTGGTTCGAC AAGTGGCCTTGCGGGCCGGAT 1066 GLYATL1P3 3331888 ATGGCTCTCTGTTTCACATCAATCACGGGAACCCCTTCAACAT GGAAGTGTTGGTGGACTCCTGGCCCGAGTATCAGATGGTTAT TATCCGACCTC 1067 GLYATL1P3 3331891 TGCGTTACATCAAGCGCTGCCTAGGAGCCCTGCCAGCAGCCT GTATGCTGGGCCCAGAGGGGGTCCCGGTCTCATGGGTAACCA TGGACCCTTCTTGTGAAATAGGAATGGGCTACAGTGTGGAAAA ATACCGAAGGAGAGGCAATGGGACACGGCTGATCATGCGATG CATGAAGTATCTGTGTCAGAAGAATATTCCATTTTACGGCTCTG TGCTGGAAGAAAATCAAGGCGTCATCAGAAAGACTAGTGCACT AGGTTTCCTTGAGGCCTCC 1068 GLB1L3 3357343 ATGGACGATCTAGGAAACTTTCAGGGAGCTAAGGTGTCGGAG AGCAAAGTATCCTT 1069 GLB1L3 3357345 GTCCCGCTACTTCGTCACCAAAGCGCCCGCCGCGCTCGCATC TGCTGTGAGGCTGTGCTCGGGCCGCTCCCGCCGAGGGAACG GCCCTCCCAAGGCTCTGCGCCCCAATTCTCGCTCGTTTGCCA AGA 1070 GLB1L3 3357347 TGTCGACCCAGGTTAGGAAGCCCGAGGTCGGGGCGTTACCC CAAGGGCCCTCCCGCTTCCCCTCCGAGGGCAGAGAGGCGTC CGCGCCCGGACGCACTGCGGGAACACCTGGAGCGCCGGCG GAGCTCGGCTGTCCCCGCGGGAGGGAGCCCGACGCGCATCC TTGGGACCCGGACCCGGCGCCCGCGCCTCGGGACGGATTTC TGCCTCGGCTGCAGGCGCAGCGCGCAGACCTGAGCCT

1071 GLB1L3 3357348 CCTGGAAGAGAATGGCGGGCATCTTTTTCCTGCCATTTATCTC ATCAGGTTTTGCTCCTCGGTTTAAGCAGGAAGAGAACTTCATG CTTGGAAGAGCGCATCCG 1072 GLB1L3 3357349 GCTGAAGAATCGATCTGTGGGACTTGGAACTGAAAGCACAGG TCGGGGTAAGCCCCACTTCACACTGGAGGGCCACAAGTTCCT GATCTTCGGGGGCTCCATCCACTATTTCCGGGTGCCCAGGGA GTACTGGAGGGACCGCCTGCTGAAGCTGAAGGCCTGTGGCTT CAATACTGTCAC 1073 GLB1L3 3357350 ATGTTCCGTGGAACCTGCATGAGCCAGAAAGAGGCAAATTTG ACTTCTCTGGGAACCTGGACCTGG 1074 GLB1L3 3357351 GCTACTGGGGGTGGATTAGCAACCAAA 1075 GLB1L3 3357352 CCCGATGGGGCTGTGCAGAGGCTCTGAGGCTGGGAGCAGCT CAGGCCACCGACCTG 1076 GLB1L3 3357353 CCTCATCCTGGGCCGTCGTGGGAGGGGCTGACGATGTGGAC CTCCCTAG 1077 GLB1L3 3357354 CCTTCGTCCTGATGGCCGCAGAGATCGGGCTGTGGGTGATTC TGCGTCCAGGCCGCTACATCTGCAGTGAGATGGACCTCGGGG GCTTGCCC 1078 GLB1L3 3357355 CTGGCTCCTGCAAGACCCCCGGTTACTGTTGAGGACAACCAA CAAGAGCTTCATTGAAGCAGTTGAGA 1079 GLB1L3 3357356 GCGCCCAACAGCATTGCCTTTTTTATGGTGTACCCAGACCTCA TGCACTTGATAAGAAACGCCTTCATTTTTACCATGGCAACCTA GAGCACACAGTCA 1080 GLB1L3 3357357 AGAAGCACAAATGCCGTTCACAGGCACATGTATGCAACGAGG AAAGCTAATTTACAGGCATCCCATTGAACTGTGGGAAATGCTA GGAAACTTTT 1081 GLB1L3 3357358 TAAGTGAAATGTAATGCCCCATACCTCGCATACCTTGCACTAA TTT 1082 GLB1L3 3357359 TCATCGCGGTGCAAGTGGAGAATGAGTATGGCTCATTCA 1083 GLB1L3 3357360 AGAAGAGGGATTGTGGAGCTTCTCTTGACCTCTGATG 1084 GLB1L3 3357361 GTGAGAAACATGTGCTGAGTGGCCACAC 1085 GLB1L3 3357362 AGCCAGCCCGTGTAAATCTTGAACACACTGCAGAGAAAACCAA GTGCATCTCGATACCTCCCTTTCCCGTGTCCACTGGGATGGAT CCTGGAGTTCGATGTTACAATAAATGAGGACTCAAGGTTAAGG CTCAGGGCCACTCACAGCTCCCTATCTTGGCCTTGCTCCTGC CGTCTTTAAACACAGCAGCACTGGAGCTCCTCTGTTCTCAGGA CGCCTTTCCATCTCCCATAGTTTTTCTGTGGCAAGAAATCTGC ATTGGTGCTGCGCCTGGCTTGGGATCAGGGCCATCTCCACTA ACTTGGGAAA 1086 GLB1L3 3357363 TGTTGGCCGCCATCAATTTGCAAAAACTTCACCAGGATACTTT CAATCAGCTTCATA 1087 GLB1L3 3357364 CTGGTATTCCGTGAAAACAGGTTTGACAAGAAGACCGCAGGTT TTCACC 1088 GLB1L3 3357365 GGAGGAGGGAACCCTGCTTGTGTCACCTCCGCTTGTGGATCA CGTCATGGAGATGAGTGGG 1089 GLB1L3 3357366 ATACTGTCTTGGAGATCAGCCTGCCTTTCATTCTGCTAGGCCA TGTGGGATTTTGTGTTCCCCTCGTCTGGAGTTAGGCTGGTTGT GGGGTTTGTTGTTGCTGTGTTATCCTTTGTGCATCATGGGCTT CAAATGTTTCTGGTGGTACCTTGTGTCAAGGGCAAGTGCTGGT TTGGCAGAGGTTGTTTTCTCTGTGTCTGCATTCCCCTCTGAGT CTCGCCTTTGCATTGAGTCCCACAGAGAATCTGTTGCTTGCGG ATCTCTCAGCTATAGTATG 1090 GLB1L3 3357367 CTCTCAGATGCCTCACAAGCAGCAAC 1091 GLB1L3 3357368 CCATAATTTTGTCCTTCTAAGCTTCTGATGCACTGAATTATGTA AAGTGCATTCCCTTCACCAGCTTGTGCACCCTATTCTGTAACT GATA 1092 GLB1L3 3357369 CCTTCTGATTATGGAATACTGGGTCGGCTGGTTCGACAGATGG GGAGATAAGCACCATGTTAAAGATG 1093 GLB1L3 3357370 ACATGCTGTGTCTGAATTCATCAAATATGAGATCTCCT 1094 GLB1L3 3357371 CTTTGGTTTCATGAACGGGGCCACATATTTCGGGAAGCACTCG GGCATTGTCAC 1095 GLB1L3 3357372 GTCGCTGGTGTAGTAGCCTCTCCAGC 1096 GLB1L3 3357373 GAGGCTCCGGAAGCCTGTTCTGGCACCACTGGGTTCTTGA 1097 GLB1L3 3357374 CCCAACAGGCTGTCATTGCAGTAGACAGGGCTTTCCGGGACT TAGAGCTCCGCTTCACACATCTGGTATACTGCCCTGTTGGCTT GAACCTCTGAAGAGAGGCAGGGTAGGAACGGTGACTGCTGTA AAGGCACAGACCTGCACGGCCGGGCGATACAGACTGAGCAA AGAAAAGAGTACCCGTTGAAGGGGTGTCCACTCTTTTGGCTTC CCTGGGCCACACTGGAAGAAGAAGAATTGTCTTGGGCCACAC ATGAAATACACTAACACTAATGATAGCTGATGAGCTTAAAAAAA AAACACAAAATGTTTTAAGAAAGTTTATGAATTTGTGTTGGGCT GCATTCAAAGCCATCCTGGGCCGCCTGTAGCCCATGAGCTGT GGGTTGAACAAGTTTGCATTAGAAAGTGAAGAAGTGGGGGCA AGCCCAGTGTCATGGCTTGACACTGGAAGCCAGTGGAAGGTG CCCAGGAAGAGTTGTGGGGAATGTCCTTAGACTGGCATC 1098 GLB1L3 3357375 GCAGTGCTCACGGAGGCTGGAGATTACACA 1099 GLB1L3 3357376 GTACTCAGCACCCATTTAACTTACGGGCCAGCCCTCCTCAT 1100 GLB1L3 3357377 TGTGGGCAGCAGTTACACCAAGCTCCTGAGAACAAGGGCAAC CTTAACTTCGAACCCTGGGGTTAAAATCTGTGTGATTTTTTAAA ATCAGGGTTTCTAAGCATTTTATAAGCCTCAGTTTCTTCACTGA AGCATAAAGATAGTAACCTTGGTCTCCTGTGATGACTGCGAAG ATTGAGTTACTCTTTGTAAAGCTCTTATACCATGGATGACATAG TA 1101 GLB1L3 3357378 AAGGCTGTGTATCCCCCCGTGAGACCGTCGCTGTACCTCCCG CTGTGGGACGCCCTATCCTACTTAA 1102 GLB1L3 3357379 GACTGTGTGGTCCTTACGGAATCCACGTAGGAAAAGCTGCTG AGCTGGAATCGGGAGACTAGCTTCTGCCCGTGCTTCACCAGC AGCTGGGCCTGAACTTCCTGGGTCACTGCTCCCCCTTTTCCAT CAGCCTTCCTGTCCTATTTTGAAGAAAGGTGAAAGCTGTTTGG AACTGAAACTGTAGCCCTTGGATTCACATTGGTTTTACCTCTG CTATCACTATTTTAGAGAAAAGGTAGTGACTGGTACACTAAAG AAACTACATTTATTTAATGTAACTAAATTTAATTTAATGAAATAA ACATTTGCTTGGTGCCTCATTCATTGCTAGACTTCAACTATTTT AGAATACAATTTATTTACTCTTTTTTTTTCTTGAGACAGGGTCTT GCTTGGTGGCTGTGGCTGGAATGCGGTGGCACAATCATGGCT CACTGCAGCCTTGAACTCCTGGGCTGAAGCAATCCTCCGGCC TCAGCCTCTTGAGTAGCTGGGATTACAGGAGGGCACCACCAC GCCCAGCTACATTTTTAAGTTTTTTGTAGATGTGGGTCTCACTA TGTTGCCCAGGCTGCTCTCAAACTCCTGGCCTCAAGTGATGCA CCTGCTGCGGCCTCCCAAAGTGCTGGGATTACAGGCGTGAGC CCCTGCGCCCCATCCATTTCCTCTGTTAATCAGTTCTTAGGATT ATAACGATTGCTCCCTCATCACCATGCCCTGCATTTCCCTGAG TTTCCTTCCTGGGCAGTGGAGACGTAAGCACAGAGCAGTGTC ACATGGCATCTGTTTC 1103 GLB1L3 3357380 CCAGTCAGGTCGCGTCAGCCCGTCAAC 1104 GLB1L3 3357381 GCGGCCAGTCCTACGGGCTTGTCCTGTATGAGAAGTCCATCT GCTCCGGAGGCCGCCTCCGTGCCCACGCTCATGACGTGGCA CA 1105 GLB1L3 3357382 GTTTTTGGATGAGACAATGATAGGGATTCTGAATGAGAATAAT AAGGACCTGCACATTCCTGAACTCA 1106 GLB1L3 3357383 CCTGGTGGAGAATCAAGGACGAGTCAATTTTTCATGGCAAATA CAGA 1107 GLB1L3 3357384 TGTCAGCATCAATAACTCTTCCCTGGAGGGCTTTACCATCTATT CCCTG 1108 GLB1L3 3357385 CAGGGCCCGGCCTTCTACTGTGGGA 1109 GLB1L3 3357386 TTATGGATTTGTGTTCATCAATGGACGTAACCTTGGGCGATATT GGAATATTGGGCCTCAGAAAACACTGTACCTTCCTGGAGTTTG GCTTCATCCAGAAGACAATGAG 1110 GLB1L3 3357387 AAGATGATGAGTGGCTCAGATATCAAATCTACAG 1111 GLB1L3 3357388 CCACTCCCGGCCGTGAACATATTTTTTGGGTTGCTGGAGTTCA TCTATAAGTCATTTTTGAGGAATAAGATTTATGTTAAGACTATC AAACACAGTGTTGCCTACAATAGCAAAAATGTGAAAATAACAA CAACAACAAAACAGCAGAGGAATTGTTATGTATTTTGTAGTCTA TCTATATGATGCCTATTTTTAGGCTTTAAAAAGTCTTCAAAATCT TTAATGACTGATTTATCTAGTTAAATGCTTAATCCTTAGCAGGC TCTTATTCTTTAATTAAACGTGCCTTTGAGTAGATGTG 1112 GLB1L3 3357392 GGTCACCGAAGCTTCTCTGAAAATGTGACATCTCTGAGGAAG GTGGAACATTAATCATCTCTAGCAGTGCATAGGCCCTCTCTAT GGCATTGTCAACTAAGCACTAATAATAGTCAGGGGACAACATG CAGCGATAGCCAAGAGCATGGATCTTGGAGCCAAAGAGATCA GGTTTTAATCTCAGCTCTGCAGCGCTAGCCATGCGCTAGCTTC ATGCAGGCTTCCTTCA 1113 GLB1L3 3357393 CCACTATCACCACCATCACCATCAA 1114 GLB1L3 3357395 TGAGATCTCATAAACTTTCAGATCAAAAT 1115 GLB1L2 3357398 AGCCGCGAGCCCCAGCCAATGAGCGCCGGCGGGCCGGTTGC CCAGGCGACCAGTGCGCGGCTCCGCCCCCCGCGGCGAGGCT CCCGCGCGCGGCTGAGTGCGGACTGGAGTGGGAACCCGGGT CCCCGCGCTTAGAGAACACG 1116 GLB1L2 3357399 CACGTGGAGCCTCCGGCGGAGGCCGGCCCGCACGCTGGGA CTCCTGCTGCTGGTCGTCTTGGGCTTCCTGGT 1117 GLB1L2 3357400 CCCTCCAGCCGTCAGAGCCCTCTCAGACGCACCCCATCGCGG CCCCGTCCCCACTGCTCCGCGGAGAGCTC 1118 GLB1L2 3357401 CCTCTGGGAGGCGCCTTATTCCGCAG 1119 GLB1L2 3357402 TGACCCTATCTTTCAGGTCAGCACTTTCCATATTCAAAACCTCC AGTGGGAAGCCGACCGGCAGTATCGAATGAACTGA 1120 GLB1L2 3357403 CAGGTAGAACAGAAGCTCAAGGAGCTCTGA 1121 GLB1L2 3357404 CGGCGGTCATCGTACTCCGGATGTTCACGGCACTCCGGATGT TCTGCTGTGCCCGGTTGCATGGATCCTGGCCTATCTGTGTCTG GTCATACTCTGCATGGCA 1122 GLB1L2 3357405 TGCCGAGAGGCGCTTTCTCGCGGACCGGAGCCTTCGACGGC C 1123 GLB1L2 3357406 TGAAGACCTGGAATCGGGTGGATGGGTGGACGCCGCCAACG CAGAC 1124 GLB1L2 3357407 TCTCTGCTCCTGCGGTCGGGCGGCTGCGACCGTGCCGGGGC TCGGAGGTACCGTGTGAAGTCGCTGTCGCGCGTGGCCGC 1125 GLB1L2 3357408 CCTCCATGCCGAGTGCTGTGCTTGCTGCCGGCTGCAGCCTC 1126 GLB1L2 3357409 GGCGGAGGGGAGCTTTTCCCAGCCACCTGGACGCAGGCGCC CTCGAGAGAGAAATGCCGAGGACCTGCGAAGGGGCGAGGAA GCCGATCTCTCTGCGGCCCGGAG 1127 GLB1L2 3357410 TCCCTCTGCGGCTCCGCCATCGACAGCTGGGGCTGCAGGCC AAGGGCTGGAACTTCATGCTGGAGGATTCCACCTTCTGGATCT TCGGGGGCTCCATCCACTATTTCCGTGTGCCCAGGGAGTACT GGAGGGACCGCCTGCTGAAGATGAAGGCCTGTGGCTTGAACA CCCTCACCA 1128 GLB1L3 3357411 ATGTTCCGTGGAACCTGCATGAGCCAGAAAGAGGCAAATTTG ACTTCTCTGGGAACCTGGACCTGG 1129 GLB1L2 3357412 CACCGACCTGGTGTGGGAGTCCCCG 1130 GLB1L3 3357413 CCTCATCCTGGGCCGTCGTGGGAGGGGCTGACGATGTGGAC CTCCCTAG 1131 GLB1L3 3357414 CCTTCGTCCTGATGGCCGCAGAGATCGGGCTGTGGGTGATTC TGCGTCCAGGCCCCTACATCTGCAGTGAGATGGACCTCGGGG GCTTGCCC 1132 GLB1L2 3357415 GGCAAAAAGCTCACAGACATAGGTCTGGTTTGTTTCTGTGTTC CAGTTCCCATTCTGTACTGAATTGTGTTCCAGTTCCCATTCTGT ACTGAATTTCCTTTTCAGGAAAAGCAGCACCCAGAGGGGATC GCTTTCAGTGATGCTGCAGTGAGTGCCCTCACGTAGCCATGC ATG 1133 GLB1L2 3357416 GGGGCATAGCTTCTGTCTCCACTACCCAGGGCCACTTCTCAG GCACTGATCCATCCAGCC 1134 GLB1L2 3357417 CCTGACCCTGTTTAGGACTTCCAGACCAGGGCAAGAGGAGCC TCAGAGCCTTTTGTTAGAAAATATGTGTCTTCTCAGAACCTGAA GTGAGAAGGAAGAGCCCTGACTCCAGCTTTGGAACCAATCCA CGCTGCTGTGTTCCTCTGGGGAGTTTGGGATCATAGCAACAG GGTGGAGGGAGAATTCAACTCTTGCTCACCTGCTGCTCTGGG CTGTGCGCCACTGATGCCAAGGCGTTAGCCACGTTGGCAAGG ATGGGGACTGCCTCCTGCTCAGCCCCTCGCAGTCTCTGTCAG GCTTGTTTTTTGGGGTGACGCTAGAAGGTTGTGTCTCCTCCTT

CCACAGCCTCAGTGATTCCTAACCCTTTTGACTTCACTTTTTGA AATGGGATCACAGAGCAAGTTGTTGAAAACTAGGCCTGGAGT CCTGTGAAAAGCTTTTC 1135 GLB1L2 3357418 GGACAACTTACAAGGGCTTCACCGAAGCAGTGGACCTTTATTT TGACCACCTG 1136 GLB1L2 3357419 ACAAGCGTGGGGGACCTATCATTGCCGTGCAGGTGGAGAATG AATATGGTTCCTATAATAAAGACCCCGCATACATGCCCTACGT CAAGAAG 1137 GLB1L2 3357420 ACCGTGGCATTGTGGAACTGCTCCTGACTTCAGACAACAAGG ATGGGCTGAGCAAGGGGATTGTCCA 1138 GLB1L2 3357421 GTAACTGCACTTGTGTTGGGCCGTGGGGGCTGGCGGCGGCC CTGGGCTGGCTGTGCACGCTCCCGCTGTGGG 1139 GLB1L2 3357422 TGTTCTCAGCATATCAGCCTCCGTGTGCCTCTGAAAATGTCGT CCAGATTACCCTATCCTGCTGAACGCCAGGCATCTCTGTCACA CTCAGAGTGAAGCGCAGGTTCTGGGAATGACCTCGAAAGGCC TCTCCACTTGGCCTCCAGGACCTAGCTGAGCTCACCTCCTGCT CCTTCCCTTTGCTCACACCGTTTCACCCTCTTTACTGTTCCTCC AACATCCAGATCCCCAGCCTGGGGGGCTTTGCTCTTCTTCCA GAGAGCTACATGGCTGTTCTCCGAAGTTAGCGAGGCTTTCTGT AGCACCACACTTG 1140 GLB1L2 3357423 GTAGTTTATTTATGTCATTCATCTGTTTCACCCAGCAGTACTCT TGGCGGGGCTT 1141 GLB1L2 3357424 AGCAGCGCCTAGCTGGCACCCAGGGAGTGAAGGTCCATGAAT GGCGAGGAAAAGGCTTTTGTCCCCAGGCAGAGTCAGTCAAGG ACCCAGACCTCGTGTCTCCGGCATGGGGAGGACCAGCAGTG ATCCCCACGGCT 1142 GLB1L2 3357425 CTCCCGGTTTCAGGCCTTGCAAGGAAGCCCGGGAGCCGCCA CTGCTTTTCCCTGTGGCCCTCCCACCTCCAGGCACCCACCTG CGTGCCCCTGTTGCCACCTGCTGCCCGGAATAACTTCTTTTTT TTTTTTTTAATTAAAAAAATTAAATGGTCTAAAAGTGAAATAATC GAAAATGTTGGTAGAGAAATACAGTGTTGCCTACTCTTCGTTA CATTCTCCAGAAATGACCATTTTCAACTCTTTGACTTTTTCTTTG GATATTTTCCTTCTTATTTCCAAATACTGTGAACATACAGCCCT GCATCGTTTGCTTTAAAAGTTCTGCCTATTGGCCGGGCAGTGG CTCAGGCCTGTCATCCCAGCGCTGTGGGAGGCCGAGGCGGG CGGATCATGAGGTCAGGAGATCGAGACCAGCCTGCCCAACAT GGCGAAACCCTGTCTCTACTGAAAATACAAAAAATTAGCCGGG TGTGGTGGCGGGCACCTGTAGTCCCAGCTACTCGGGAGCTGA GGCAGGAGAATCCGTGAACCCGGGTGGCGGAGTTTGCAGTG AGCCGAGATTGCACCACTGCACTCCAGCCTGGACGACAGAGC AAGACTCCGTCTCAAAAAAAAAACAAAAAACAAAAAACATTATC CGAGCGTGGTGGCGGGTGCCTGTAATCCCAGCTACTTGGGAG GCTGAGGCAGGAGAATTGCTTGAATGTGAGAGGCAGAGGTTG CAGTGAGCCCCGATGGTACCCCTGCACTCTAGCCTGGGTGAC AAGAGCAAAACTCCGTTAAAAAAAAAAATTCTGCCTATTGACTT CTTGTTCCAGTAGGTGATGAGTGTTCTTTCCTGCCAGCATGGC TGTTCAGCCCTGATAGGCGCCAGCGTGGGCCTCGCGGATGTG TATGACAACG 1143 GLB1L2 3357426 CTGCTTGGCTGCATCCCGCGTGGAATCCTGCTTCCTGGAGTT CCAGGAAACAGGATGTTTCTTGGTGCTCCGTGGCTTCCCG 1144 GLB1L2 3357427 ACTCCGGCTCCCGAGCGTTTCCTGGGTCTTCTTCCTCCTCGC CCCCGGCCAAGTTCCTCAGGGAGCCCGCCCTCCCCTTCTCGT GCTGCTGCGCATCCGGGGAGCGGCCCAGTTAC 1145 GLB1L2 3357428 CAGCTCGGGCCCAGGGTTCTCAGGCAGG 1146 GLB1L2 3357429 TCTTGGCCACCATCAACTTGCAGTCAACACACGAGCTGCAGCT ACTGACCACCTTTCTCTTCAACGTCCAG 1147 GLB1L2 3357430 CTGCTCAGCGGCCTATGGGAATTCTGAATGCCTGTCAGCGTG CTCAGCTTCCCCAGCGCAGGGAGCTGGACTCAGGGCTGATG GCCTCTGGCCCCCCGCCCATGCCACTGTGTGCCTGCAAGGCC CGCTGCCCAGAAACACCTCTGAGGGCTGCTGTGTAGGCTGAT GCAGTGTGGACATCACCCACTGCCCTGAGAGAGGGGCCCTTT TGGTGCACTCCTAGAGGACTCGACTTTTGTGGCCTCAACTAGC TCCAGACTTGCTCCCAGGGATTGAGGGGGGAAGGAAAAACTT CCCTGTCCTATACTACACAGGCATCCGACCTTAACCTGTGAGG 1148 GLB1L2 3357431 CTCTGGGCTTCTGCAAACGTGGCAGAGTGGAGCATGGTCCCA GGAATGATCTTGGCCTCCTTGGG 1149 GLB1L2 3357432 CAGAACCTGCACCATGAATAGCTGTGC 1150 GLB1L2 3357433 AACTGGTGTGCAGGCGAATTTGGCCCTCACCTATGCCC 1151 GLB1L2 3357434 ACTGGACGGGGTGGTTTGACTCGTGGGGAGGCCCTCACAATA TCTTGGATTCTTCT 1152 GLB1L2 3357435 GTTTTGAAAACCGTGTCTGCCATTGTGGACGCCGGCTCCTCCA TCAACCTCTACATGTTCCACGGAGGCACCAACTTTGGCTTCAT GAATGGAGCCATGCACTTC 1153 GLB1L2 3357436 CTTCGTGTCTTTGGCAATAGAGTACCT 1154 GLB1L2 3357437 CAGTCATGTTACACTCCCAGAGGAGGGA 1155 GLB1L2 3357438 ATGCTGTGCTGACAGAAGCCGGCGATTACACGGCCAAGTACA TGAAGCTTCGAGACTTCTTCGGCTCCATCTC 1156 GLB1L2 3357439 TCTCAGACCCCTAAAGAGTTACTTCCTTACTGTCCCACCTCGA CCCCAGTTGATCTGCGTGCAAGAATATCCTAGACA 1157 GLB1L2 3357440 ACCTTCTTCCCAAGATGCCGTATGAGCCCTTAACGCCA 1158 GLB1L2 3357441 CTCTGTGGGACGCCCTCAAGTACCTG 1159 GLB1L2 3357442 GTGAGTGCTGTGGGCAGTCATCGGGAG 1160 GLB1L2 3357443 AACCTGCCAGTCAATGGGGGAAATGGACAGTCCTTCGGGTAC ATTCTCTATGAGACCAGCATCACCTCGTCTGGCATCCTCAGTG GCCACGTGCATGATCGG 1161 GLB1L2 3357444 GTAGGAGCTTCTCTTCTAAATTCCTGTGACCTTCTG 1162 GLB1L2 3357445 GTGTTTGTGAACACAGTATCCATAGGATTCTTGGACTACAAGA CAACGAAGATTGCTGTCCC 1163 GLB1L2 3357446 GGTTACACCGTGCTGAGGATCTTGGTGGAGAATCGTGGGCGA GTCAACTATGGGGAGAATATTGATGACCAGCGCAAA 1164 GLB1L2 3357447 AATCTAGCTAAATGTGGGTGGTTTCA 1165 GLB1L2 3357448 TTAATTGGAAATCTCTATCTGAATGATTCACCCCTGAAAAACT 1166 GLB1L2 3357449 CTGGCCCGCACCCAGGTGTGAACGCCTCCAGGGGCCAG 1167 GLB1L2 3357450 GTTCGGCCTGGACAAATGGAGTTCCCTCCCAGAAA 1168 GLB1L2 3357451 ATGAACACCCTTCCCCTCTGTTTCAA 1169 GLB1L2 3357452 TGGCCAGAACCTTGGACGTTACTGGAACATTGGACCCCAGAA GACGCTTTACCTCCCAGG 1170 GLB1L2 3357453 CCTGTTCCCCATGACGCCCTGCCCACCTGCCGTCCCAGGGAG CCTTCG 1171 GLB1L2 3357454 GACAGACGTCAGCTGCCCTCCCAGCCGGGCCCTCTCTCCACA 1172 GLB1L2 3357455 TCATCGTTTTTGAGGAGACGATGGCGGGCCCTGCATTACAGTT CACGGAAACCCCCCACCTGGGCAGGAACCAGTACATTAA 1173 GLB1L2 3357456 TGCCAGTGGGAGACTGCCGCCTCCTCTTGACCTGAAGCCTGG TGGCTGCTGCCCCACCCCTCACTGCAAAAGCATCTCCTTAAGT AGCAACCTCAGGGACTGGGGGCTACAGTCTGCCC 1174 GLB1L2 3357457 CCCTGCTCTTGTGCCGAGGCTGTCGGGCTGTCTCTAGGGTGG GAGCAGCTAATCAGATCGCCCAGCCTTTG 1175 GLB1L2 3357458 AAAAGTGCTGAAACGTGCCCTTGCACTGGACGTCACAGCCCT GCGAGCATCTGCTGGACTCAGGCGTGCTCTTTGCTGGTTCCT GGGAGGCTTGGCCACATCCCTCATGGCCCCATTTTATCCCCG AAATCCTGGGTGTGTCACCAGTGTAGAGGGTGGGGAAGGGGT GTCTCACCTGAGCTGACTTTGTTCTTCCTTCACAACCTTCTGA GCCTTCTTTGGGATTCTGGAAGGAACTCGGCGTGAGAAACAT GTGACTT 1176 GLB1L2 3357459 GAAATCCTCACCCTGCGTCTTCCCAAGTTAGCAGGTGTCTCTG 1177 GLB1L2 3357460 GTGAGTCCTGGCAGAAGCCATGGCCCAT 1178 GLB1L2 3357461 CCCAGCTCACATGTGAGTCCTGGCAGAAGCCATGGCCCATGT CTGCACATCCAGGGAGGA 1179 GLB1L2 3357462 GTGAGTCCTGGCAGAAGCCATGGCCCAT 1180 GLB1L2 3357463 TCTGCACATCCAGGGAGGAGGACAGAAGGCCCAGCTCAC 1181 GLB1L2 3357464 GTGAGTCCTGGCAGAAGCCATGGCCCAT 1182 GLB1L2 3357465 TCTGCACATCCAGGGAGGAGGACAGAAGGCCCAGCTCACA 1183 GLB1L2 3357466 AGAGCAGCCCTCCTTCGAAGTGTGTCCAAGTCCGCATTTGAG CCTTGTTCTGGGGCCCAGCCCAACACCTGGCTTGGGCTCACT GTCCTGAGTTGCAGTAAAGCTATAACCTTGA 1184 GLB1L2 3357467 AGCTGTGTATGAGCTGGTTCCGTCAGAAAGTGATGGAATGGA AGGGAACCTTCCTGCAAATCCTCCTGTAAGGTGGAGAAGCCC CTTGGATCACACTTCCACGCAGACCTG 1185 GLB1L2 3357468 AGCAGGCTGAGCAACGCTTGTTCCGCCTGGTGGAGAGTTCGT TCTTCTTGGGCCCGGGGAGCTGCATGTCAGGGTGTTGCTGCT TCGCTCAAGGGTCACTTATCACGGAGGCCTCTGTGGTCACCC TACAGAGCACTGAC 1186 OR51A6P 3360298 TGATGTTTTCTTGCTAGTGCCACCTCTTATGAATCCCATTGTAT ATTGTG 1187 OR51A6P 3360299 CTTCTATGCGCCCGTCATTGCTTTGGCAT 1188 OR51A6P 3360300 AAGCTGGCCTGCTCCGACAACACTGTCAACTTCTTCTATGGTT TCTTTCTTGCCCTCTGTATGATGTCAGAAAGTGTGTTCATTACT GTGTCTTATGTGCTCATCCTGAAGACGATCATGGGAATTGGAT CCCATAGGGAGCGGCTCA 1189 OR51A6P 3360301 TGCTGTTAGTACTCCCATTTCCTTTCACTCTTACAAGGTTGACA TATTGTAGGAAAAGCCTACTCTCTCATTCCTATTGTCTCCATCA G 1190 OR51A6P 3360302 TTTTGACCGGTTTTGGCCATATGCCACCCTCTGAGGTACATAT CTGAGGTACTGGTGAGCTGTATCCTCACCAGTGCCAGAGTTG CCAAAATG 1191 OR51A6P 3360303 TGGAGCATGCCCATATATGGATATCTGTCCCCATCTGCCTCAT GTACTTGGTAGCCATCCTAGGCAATTGCACAATCCTCTTTGTT ATCAGGACTGAGCCCTCACTCCATGCACCCATGTACTATTTCC TTTCCATGTTGGCTGTCTCTGATCTGGGCCTGTCCCTCTCCTA CCTACCCACTATGCTGAGGATCTTTGTATTCAATGCCACAGGA ATCTCCTCAAATGCTCGCTTTGCTCAAGAATTCTTTATTCATGG ATTCACAGATATGGAGTCCTCAGTG 1192 FTH1P2 3375656 AAGCTGCAGAACCAACGAGGTGGCCGAATCTTCCTTCAG 1193 RP11- 3377879 AGGTGCTGGTCATCATTCTGTCCCATTTTTTGCCACTGTGCTA 770G2.5 AGGCTTTTGACTCAACCAAGAAAAGGGCCGGTCTTCCAGCCT GGCCCTGCAAGAGTGTCCTAGTGCTTCAGGTAGTGGATGGGC ATCGTCATTCGTCCCACCTTCCTGCCCCCTAAAGCCCCAGGA GGACACACTCTCAGCATCAGGCCAGCTCTCCGGGTCACTGGG GCTTGGCTCAACAGGATGTGCAGGGCAGAGCCGGGAGGGAA GAGCAGAAGATGCCATGGGCTGTTCGCAGGAGCAGCCGTCC AGGGCGCCGCTGGAGGAAGATCTTCTAGTGGCTGTCTCAGCA CGTACAAAGAA 1194 RP11- 3377880 CAGAGCTTCATGACGGCCTCGGATTGGCAGTCAACCCAGGGA 770G2.5 TACAGAAATGTAAACAAAAACAGAGCTTCCAGATAACATTACT GTGTGCTATGTGACTTTCAGAATACAGCAGCGTCCCAGACACT CTAAAGTCAAGTGAAACAAGAGATTTTAGAATCAATCTATACAC ATTTCAGAGGGCAGTCCAGG 1195 SESN3 3387255 TCTTCTCTCCAGCTAGGTGCACTTGAGGTTGTTCATAAATGTAA AATTATGTCAGGTTTCTAACATGGGACACTGCACACAGTTGTC TGACCTGATGAACCATCCCATTTGAAAGTATAGATTATTATTAT TTCTTGTAGTATTTGGTTGTTTTCCATCTCATTCATGAACAACT CAACCTGATAGTAGTATCCAATAAATGCCTTTCAGGGCTCAGG AATGAATTGACATCCTAGTTAAGAAATGAGACTTAATAATGGAG ACTGAATGAGGCGGTTTGTATTAAATTATATGCCATGAAGTGTT CATTTTAGCTTTAACCTAATTATGACTGTACCACCATGAAGTAC AGAATGAAAAATTATATATATGGGGGGGAAACAGAATGAATAT CTGATTCTTTTGAATGCTTGTGGAAATCTTTGAGATCGTGCAG GGCATACCACAAAATAGCCTTTAGAACAGATACCCAATTTTAC AGTTCATAGGACAACATCAAACATTAGTAAGTCTAAATAAGATG AATAGAATTTTTGTTATGTAAATTTTGCTAGAACAGTCTATTTTC TTGCACCCCTCAAGTTAACCTCTTAAAAAAATGAATGTATAATT TCTACCGAAAGAATATCAGAGAGAATCTCTCTGGCCTATAGTG TTAAAATATTGTTCACAAATCCTGATTAGTTAAGTGCATACATT ATGAAACTTACAGAATAAAACTTATTATACATCTCTTTCTTAAAT TAATATCTTTACACATTTTCAACTGGCTCCCCAAGTCTGATAAG GAAGGATTAAAAGAAAAAAGAAATGTATTAGTTGGGTGGCCAA GGAGTTTCCTTTGTAATGTTGAGAGACTTCCGCTTTCTGAATTT CGCTGGTTCTCTAAGGTAAAAGAGTTAAATAGTACCCTTGTTC ACCAAGGAAAGTGATCCAAACTATATATCTAGTGCAGATATTTC CTTTGCATTATTTAGTCTTCTCTGGAGAGAAAATACAGTTTCCC

CTTCCTCTTTCTCTTCACATTTACTCTTTTCAACCCAAAATAAGA GACATAGAAAGCAAACCACAGCCAGTTTGGCATCTTCTCAGTG CTACTAGTA 1196 SESN3 3387256 TGACTTGTAACCCTTCAGTGGAATGGGAAATTTCTG 1197 SESN3 3387257 TGGCTTAGTTAGCAGACCTAGAATCTGCCCAGGTGAGACCTA GAACAAAAATAGCTGGGGTGAAATGGATAAGAGAGGTAGAGG TATATGTCAAGGCAGAGCCCTATGAGGAAGGAAGAGTTTTCAA AGAATATGAGGAACATAGTGCTGAGAGTGTGGCTGCCTTCAG CACCGTACACCTAATCTAGAGAAAATATTTCCCATGTGGGAGG TCCTGTCTGCATTCAGTCCACCCTTTTCTGCCTGCTTCTTCCTC CAAGTGCCTCAACCTCTACATGCTCACTCTCCTCCCCTTCCCT CAGCCCATCTTGGTCTAAGCAGCTTTCACAATCCAAACCAAAC ATCACCAGCCACCCGCTGATAAGTCACCAGCATTTACTTTCCT GAGTTACTTTTTCTCCATTCATTGAGACTATGGATTCATCCCAA CTCCTTCTAAATCCCTCAACCATCCAGCTATATTTTGGCTAACC TTTGCCCTAGACACTCTACCAGATGTTAATGCAGTATCAAGTG TAAATTGTGTCACCCTATTCTGTTCTACCCTTTTCCCTGCTGCC GAAATATCTTGCTCTCCTCTACCTCATCCCCAAAGAGCCTATAA ATTCAGAGTATCCAACCTTTTCATGGATTCACTCACTGTTGTTC A 1198 SESN3 3387258 CGCTGTTGAACCAAGCTGCTCACTGGACACATATTTGTGTCCC CAGGAGATTATTTGTCAGGCACTGTTTTTTATTTGTTTGTTTGT TCATTTATTGTTGTTTTACTGCTATTGGCGATAACATGAAATGT GATACAGCTATTGCCCATAATTTAATGTGAAATTAATCATGATG AATTCTATAGCATGCTACTGAAATGCCAAATTCAGCTATTTTCT TTCTCTTCTAAAATGGAAGTTTCAGTTTTCCATATCAGATGTAT ATAAGTGGAATTATAACACAATCCTATCACTGACAGTAATCCTC AGTCACCTTAAATAATCAGTGCTCACAGTGCTGCTTACAGTTC ATTTAGTTGGCACATATAAACCTGTACCCACACAAGACTGACC AAAAATTTTCTTTGCACATTTTTCCTTTCTCATAGTTTTTTTCTAT ATTTCGTTAAGCAAAGGAAGGTTAATATGCCTATTTTTCCTGTT AGGCTTTTAGAAATTATTTTCCATGACTTTTGTTCTTATAATAGG TTAGACAGTTTATTTTTCAAAGGTAAAAATTGTGTTTCTATGCAT TAATGTGATTGAACTACAAAAACAGAGTGCAATATGTTCAAAAA ATACTCAACTAAACTTTCCCCCTGTCATATCACTGCAAAAGTGT CCTTTTAAACAGAGCCATAAAGAAATTTTTTTCAAATTTCTTTAT TGCACAGGCTTTTTTCAGTTTTACCTTTCTGGGATTGAACAATG TTCCTTTCATAATGCCAAAGCATTCCCTTCCCCAGAAAAATCTC CTTGGACAACTGGTTTAAAAACGTTATTAAGTCATAGGGGAGG AATAAGCGGCCAAAAAGTCACATTTTTGCATTGGTTTACGTTG CTTGATTAGACTATCTTCAGAGAGCACATTATGTGTTTATAGCT TTAATTTGTATTATGTCAATGAACCAGTGAAGTGCCTAAAGAGA TGCTTACAACTATCCAGTAGGACACAACTGCACTGCTTTTTAAA CACTTTTTGGTTAGTTAAGGGTGACTTGAATTGTACACATACAT GCTAATTTTTGAAAACTTATCCATTTTTCATAGTAAATAATATAG ATAAAATTTTCTGTTAGAGTTCCCGCAAATATTTCATTTTAGACT TACTTGTGATATAAGATTTAACTTTTCTTTTGTGAAAGAATCGT GAACTAGTGTTTCATGAAATCATTTTCCTCTTCCATTTATCATC CTCCTCTGGTACAATATATTGGGTTGCTTTCTTTTAGATTTTGT TCCAGATAGGAAAACAAATATGACTGTATACTTATTAACATAAG GTAGTTCTGCATTTTTGGATTCCAGGATCCTGTTTGAAATCTTC CATGTGAGGAAAAAATTACTAATATTTTTAAAGACAGGGTGGTT TATTTAAAGAGATTATTCAGAGAACTTGTGCCATATCTCGTCTG TTTTATTGCATATGCCATATGTTAACTTTTATTCAATATTACATT ATGTAGATATGTAATACAAAGAAAATATTTAGGAGAATGGCAAA ACACAAATGGCAACATAAATGTCCATTTGACTTACCTAACTTCA CAACTTTCAAGTTGAGGATGTCATTTATTCTTGAATTTGTTTTTT TACTAGATGCTTTCAATTAATAGCCCTATATTTTTGTGCAGGCG AACTGTATAACAGGATAAAAAATGATTTGTATGTATTGAAAAGG AGGAGAAATTCTCACAGAACACCATATGAGCTTTAGACCAAAA GGGGAAACAAGGTTTAAGTAACTAAAATGGCCACTTAGTTTGT GTTTATTTTTTTCCCTGGAAATGTAAGTAGTTGGAGTTTAGGCT ATGGAAATATTAGTGCCTTTAATAGATCTCTTTCCTTGCAAAGT TTCTTTTTAGCTCAGCATTGATCTATCTTATCAATAGGAAAATAA GTTGACTTGGAACTATAAACAAAAACAACACCATATATTTATGA ACCTCAGTGAACCAGCCTAGAAAAATTGACTTCTGCAGGTGCT AAAGCACCTACTAATACGCAGCATGCACAGCATTTCAGGTTGT GAATACCATTTTACAACGAGTTTGCTGTTAACTCTCTTTATCCA ATGCAAACTTGAAATTCTGATGCGGTTTTCCAGGGTGGTATTTT TTCAGAGTATTGAATTTACTATTTAGTAATTTATAGTATAGCTTT TTATATTAAAATGTGATATTTTTAAAAGAGATATCTGGTTCAATT GGTATAATGACGTGATTATGCAATATGCTGATCTACACCTTGC GCTCACATTGTGCCAAACTTAAATGTGCAAGTGTACGTGAGAA AAGCACATGTGAATGTGAATTCTTTAATTCTTTGCTTATTATGTT AAAATTAGTCTTCATAGTCCACTGATGTGTATGCTTGAATAATG TCTATTTACTTTGGAATTTCAAGATTTCCAGCTTCAATGGTAATT TATAATTTCTCAGATCACCTTAAGAAATATTGAGATACTCTCCC ACCTGAAAATAATCTGTTCTTTAACCCACCTGACTATGGGAGT AGCCAGGCAGGTGCCTCACTGGCTTCTTCAGACGAGGCTTCC TCAGGTGGATATATGACTATTAGGGGAAAAGAGGCTTTTGAGA CAGCTTATTACCTCCTTCCCCTTTTTGAACTAAGTACATTGTCT CAGTCCCAGTATGAATTTGTCCCATTTGGGGTATTTTTAAAATA AAAGATGGCTAACATGGAATCTGGGGCATAGCCTTGGCCTTTA ATTATGGTTGTAAGCCCAAATAATGGCAGAGAAACACAGGGCT GTTTTTACAACAGAAAACTCAATATAAGTTTTATATAAGAATCCT ATAAAATTTGAACCAGAGCTCCTATTTAGTTGTTATAATGTCTC CTAAAGATCTTAAATGCTTCTAAAAGCTAATTATTATTCCAGAG CAACTTTTTCCTTTTCCCCCTTATAAAGTTTTTTTTTAAATCCAA AATCTTAGATTTCTGTGCCACAGCAAAATAAAATGATCAACAAT TAAAGATCTGTACTTAAAATAGTACACCATTTTTAGTGGAGGGA GGGTGCATGCCTATATGATGGTAAGATTCTTTTGAACTCTAAG GACAATTCCTCATGGAAAAAATAAATTTCAGTGCATATTATAAA AATGATTTGCACTGTGTTAGCAAAATAAGGTGTTTTAGGTTGTA TTTTAAAGACAATTCTAAATCATTTCTCTGGAAAGCAAGACCTT AAATTCTTCTCTTTAATAGAACTGCTTTTATGCAAAGAGATGGT CTTAACATGGACTAAACAGTACATAACAATAATGTTTGTTATGT AAATAGTATATCACATTTGCTTAGTAGCACAATTCAACAGCAGG CTGAAAGTCGTGGCTCCTCTGCTCAGATTGAGTTTTAAGTTAC CTAATTTATGTAATCAGAATCTATTCTAGGTGGCCGTCAACGTA AACTGTGTTTC 1199 SESN3 3387260 CTAGTGTCAAAGTTTAGCCGTTTGTTTTTTTTTTTTTGTTTTTTG CGGCTGTAATGTGCAATGATGTGTTTTATTTTCCTTGATGCTTA ACATTACTAACAATTGCAAAAATAATACTGAGGAGCACTACTTT GCATTGTTTGTAGTTGGAGTTTTGGATACTGATCATAAATCATG AATCTGGCGTATTAATGCTTAAC 1200 SESN3 3387261 TACTTTTAATGGAAGCACGAATGCAAGCTGAACTTCTTTATGCT CTTCGTGCCATAACTCGGCATTTGACCT 1201 SESN3 3387262 TATGGCTTCAGTACCTAACAGATTTTTTGAAGTCTTAGAGCCAC TCACATCAGGTAAATACCCATTTTACATCCAGCATTTCCCCTTG ATGGGTCTTTATCCCATATTTATATGTTTGCTCTAGATTTTCTTC CTTTTCTAGATTGTATCTAGAAATTCTCTTTACTCTTCAGGAGA ATATATCCAACCACATATCCAACTGGTATAAATATATCAAAAGA ATATAATATTAAAACATATTTTTATAGTAAATTTTGAAAACTTGT GGATACCCATTTTAACTTATCAGCCGAGATGTAACCCCGAAAG AAATGTTCTGCAGAATTTTATCTGAAAGACTCTAGGGAAGCTAT GTATGTCTA 1202 SESN3 3387263 GTACGTGTTTCAGTATTAAGCATTATACCATAG 1203 SESN3 3387264 GAAGCCTGAAGGTTTACATTAAGACAGTGACCTGCTATCCTGA GAGAACTACAAAACGCATGTATGATAGTTACTGGCGGCAGTTC AAACACTCAGAAAA 1204 SESN3 3387265 GGTTCTCCCTGGTGAACAGACTTTATTCTGACATTGGACATCT TCTTGATGAAAAGTTTCGGATGGTCTACAATCTCACATATAACA CTATGGCCACCCATGAGGATGTTGACACAACCATGCTGCGCA GAGCTTTATTTAACTAT 1205 SESN3 3387266 TGACATGATTATAACATCTGATGTCTCTCGATATATTGAAGACC CTGGTTTTGGGTATGAAGACTTTGCCAGACGAGGAGAAGAGC ATTTGCCAACATTCCGAGCTCAG 1206 SESN3 3387267 CAGTGGTGTTAGTAAGATACAGTTAATTTATTTCTTAAATGGAT ATTTCTTCCTGTATTAATGAAACAAAAAATAGATAGTAAGTGTG TAGTATAGTACTTGGTATATGGTAAGTACTCAGTAAACACCGT CTCTTTTCTTTATATGTAATGAAGTTTGTTAAGAATTTTAATAAG ATTTATCTGAAATTGGGTAACCGGAGCACTTAATCTTTCCTG 1207 SESN3 3387268 TTGACCAGCGTTATAAAGTATTCCAGATTCTATGTAAGGATTCT AAGAATAGTTTTTCAAGTCTTTTGAAGAAAATAAATGTTTAAAG TATTCTACAGGGGTCATATTCTGTAGCTTGGTAACAGGGTTAA CTAGCTTTTACTGTTTTTTGTATTTTCAGTTACGCATTCCATTAC TGCAACAGAATGTTTCCCGTATTATGTCAGTAACTACTTCTTAG GGGCAGAATAATGCAGATAATGAACAAAATACTATTTCTTTTGA GTACAGACTTTGAAATATTTGTTTAGATAGAATTAAAGCTAGAG TTTTAGATTTAATAATCAGAATGCTAATTTTAACTTCTTAAGATA AATTTAGGAAAAAAGTATTTGTGGATTGAGGGACCTTTGTACAT TTC 1208 SESN3 3387269 TTTCAGTCTCTACCTTCTTGGAACTTTAAGCTGGGACTACAGC CTTCAAAAGTGAATTTTGACTAGAAAGTCTTGGACCTTAGCCA A 1209 SESN3 3387270 CTCTTCTATCTTACCCTCATGCTATTGCTTTCCCTCAGGCTGGT TCATCCTTGAATGTATTTCAGATTGAGTTGAGAGAAACTTTCAG CTTTGTAGTTCATACTCTATCCTGGATA 1210 SESN3 3387271 GGATTCTCTAAGTGAGCTAGAGGCCTTAATGGAAAGGATGAAA AGACTTCAAGAAGAAAGGGAAGATGAAGAGGCGTCTCAAGAA GAAATGAGCACTCGTTTTGAAAAGGAGAAGA 1211 SESN3 3387272 TGGTCTCTGCCTGAACTGGTACATGCTGTGGTCCTCCTGGCA CATTATCATGCTTTGGCAAGCTTTGTTTTTGGTAGTGGTATCAA TCCAGAGAGAGATCCAGAAATCTCCAATGGATTCAGGCTAATA TCAGTCAACAATTTCTGCGTTTGTGATCTTGCTAATGACAACAA CATAGAGAATGCATCTCTTTCAGGCAGCAACTTTG 1212 SESN3 3387273 TTTTAAAGACTGGAGGTATTGCTGAGTGGTTGAATGGTTTGGA ATATGTGCCACAAAGACTGAAAAATCTTAATGAAATTAATAAGC TGCTAGCACATCGACCTTGGCTGATCACAAAAGAGCACA 1213 SESN3 3387274 GTGCTTATTTTCCTATGTTCACATAACACCTTCCTCACTTATTCT TTCTCCCTTCCAAAATAGGCATGTGTCCTTGTGTGTGTATAGA GCTAAGTATAATTTATGGACATAAGAACTGAAGAAGCCTATGG CCTTTTGGATACCAAGTGTCTTGGGTATATTTGGA 1214 SESN3 3387275 GAATACTCTACATCCGGTCGTCTGGACAACATCACACAGGTCA TGAGTTTACACACTCAGTACCTGGAGTCTTTCTTGCGGAGCCA GTTTTACATGTTGCGCA 1215 SESN3 3387276 TCTGTTTCCAGTATGAGCAACTGCATAATTTCAGTGTCTGTTAA TATCAAATGAATATTCATTTGCTTCAATAGTGGCATAATTTATT 1216 SESN3 3387277 GACAAGAGGACCAAGTGCCTTTATTCCAGA 1217 SESN3 3387278 AGTGAGCGTGCCCTTGATACTTTTCTGGGGACTGTAATGTAAG CAGAAATTGAGACAAGGGTCCTTGGAACTGGCTGATAGTTTTT TTTCTTCCTAATTTGCCCAAATAGGACAAATAGGTTGATTGGTT CAGAGCATTTCTGCAATTACACTAAAATGCTTGGTTCTGGGATT GAGTAGGTGTGACCATCAAATGAATAACTCTGTGGAGCAGTCA TTTAACATTTCAAAAAGTTATAAAAATGTCTGAAAATGCAATTTT AAAAAAGCAAAACCAAATGAGTCCAGAGCAGCACTGTCCGGT AGAACTGTCTGCAGTGGAAGATGGAAATGTCTGCGCTGTCCT GTAGAGTACACGTGGTCCTATG 1218 SESN3 3387279 CGGAGAAGAGCTAGCGAGTTCTCTAGATAAAAAAGATTCAGGA GGCAGTTGCATGGGTTGCTCATTTTCGTATCCTGTGCCCTTAT TTTTTCCTTCATCTGCTCCATCGTCTTCCCTACAATATAGTCAC CATAACAAATTTGAGTAGAATTTTGTTTTGTGTAAAGAATATGG TAGCCATAGAAGAGAACATTGA 1219 SESN3 3387280 TAAAAAGTAGTAATGTTGGCCGCGCGTGGT 1220 SESN3 3387281 CCATTATCTAGGTTGCACATTTGTGAAAGCATCAGTATATGATG CGTTCCATGGTTGGGATCTAATGATACCCAGATCAAGCCATGA CATAACTAGTGCAGTGTGCAAGATTCAAGCCCTATTC 1221 SESN3 3387282 AGGTGGTACCTGATGCAGGAATATGTGAGTGTTGGTGTTGGA GAGTGTTGTGAGAGGAAGATTATTCAGCAGAAACAAACCCTTC CTCTGATGAGCAGAAGTGGTGGAT 1222 SESN3 3387283 TGGCGAGATGTGGTTCTGCTATTTATTTTAAGTTAGAACTCTTA TTCTGAGAGTTTTCCATAGAAACACAGTAAGATATGTGGTTAA GTTCCAGAGTACTGTTAATATTACAGGTATGTTCAGGCATTTGT TAATTAGCCTAGAAACCTAACCACTGGGTATAACGTTTCCAGA GGAACATATATCCTGAAATTCAAGTAACCGCTTCACTAGAGAC TGTCTTTCCTAACTTGTTTACTCAGCATTAAAAAGGTAATGATT TTGGCAAAAAAAAAAATATTTTTCAATATGTTTACTCCAAGGAT GTGCTTGTCGGTTGTGCTGTGTCTAATAGGAAAACTGTGTTAA TGAAGTTCCATCCAATATTTAGGTAGGAGTTGAATGAAGAAAG AGATAAAGTTGGGTAATAATAAGCAGGGTGTTGGGACAACTGA TGGCCAATATCAAACTGGCTTATCCTTGTTCACTTTGTA 1223 SESN3 3387284 AAAGATCACATTTACCTCATGGGTAACTAAAGCTGGGTTTTGT GGAAGATCATTGTAATTATCTGAAACTGTGACTCTTACTTCCTT TTTTTTTTGGAGTCTCACTCTGTCACCCAGGCTGGAGTGCAGT GGCGCCATCTTGGCTCAGTGAAACCACCGCCTCCCGGGTTCA AGCGATTCTCCTGCCTCAGCCTCCTAAGTAGCTGGGATTACAA GCACCCACCACCATACCCAGCTAATTTTTTATATTTTTTGTAGA GACGGGGTTTCACCATGTTGGCCACGCTGGCTTCGAACTCCT GACCTCAAGTGATCTGCCTGCCTTGGCCTCCCAAAGTGCTAG GATTAAAGGCACGAGCCACCCAGCCCGGCTGTGACTCTTACT TTCAAAACACATTTTATAATATCTATAATGACAATAGCTTCTACT GAATACTACTTATGTGCTAAGCATTTAAACTCTACATATGTTAT CACATTCAAGCATCACAATTAACCTGCGATGAATTATTACTCAC AGTTTATGGATAAAGAAACTAGGGCTCACAGGGC 1224 SESN3 3387285 TGTGCAGGTCTTGAATTACAATTTGTTCTGCTATCTTTGTACAG ATATTTGAATTTTTTTTTGTTACTGTGTCATGTATGAGAAAGATT GTCATTGATTGTGAAGGAACTGGCTTTTTAAAAAGAATTCCTTC CATATTTACTTAAGTTAAATGTTTACTTGTGAGAACACAAATTTA TTGTTATCAGTAGTTGTAACTTTATTACTAAAATACTTGAAAGTT GCTTGGTATATTTATATGCTTTATAGTTCAGGTTCAATAGAAGA TTTAATTTGTAAAAAGTGTTCTGCTGCTTC

1225 SESN3 3387286 GTCGGCCGCCGCCAACTACCTGCTCTGTACCAACTGCCGGAA AGTGCTGCGGAAG 1226 SESN3 3387287 CCCTCCGCCCGCTCTCGCCTCGGCG 1227 SESN3 3387288 CGTCTCCGCCGTCGCTGGGGCAGCTGCCGCGGTGGTCGCCT CTGGCAGTGCCGCTAGCTTTCAGGCAGTCGCCTCTCCTCCCG ACATCCCGCCTTGA 1228 SESN3 3387289 GCCAGTAGGCGATGCAAGTTATCTCTGGGGCCCGGAGGACAC GAGTGAGGACCGGGCACCAATCAGGTTCTCGCTCTGCGCCG GCCTTTGTTCTCACTCGGGAGCAGGTTGCGGGCGTCTAGCAT CGGGAACCCGCATTCGACTCGGACGCGCATTGCTA 1229 NR4A1 3415226 CAGGAGGGCCCCCTGCGCTAATCTGCCCTGGCAGCAGCGAG CTGGCACGCCCTGGGTGCATCATCCGGTGTGCTCT 1230 NR4A1 3415228 GACCCGCCGGGCCAGATCCCATCTCTGGCGACGCGGAGAAA AATCTGGAAGCCGTCGTCGGA 1231 NR4A1 3415230 CCGCGCGGCCGGAACTGCGGGCGGGG 1232 NR4A1 3415231 GGCGCCCCTGCGGTGCAGAGCAGCTCAGGGCCGGCTGGTGC GCGACCCCGGAAAGCGGG 1233 NR4A1 3415232 AGTCCAATAGCCAGTGAAGGCCTGGTCCTGCCCT 1234 NR4A1 3415233 GCCTCCACCATGGACAGAGGCCAGGCCCTGC 1235 NR4A1 3415234 GCCCTGAAGGCAGACGGGATAATGTGGTTGGCCAAGGCCTGT TGGTCCATCCAGAGTG 1236 NR4A1 3415235 CCCAGGGTCACGCTCATGCTGGGGCTCCCGTCAGCTGACTAT TTTG 1237 NR4A1 3415236 GTCAGGTCCAGTCAAGAGGGCCCAAAGTG 1238 NR4A1 3415237 CCAACCAATCTTGGGATTCTCCCTTCGTGCGGTTGTCTGGGAC CTTTTTCCAGGGTCAAAGCAGATCGTGAGGAGGAAGC 1239 NR4A1 3415238 ATTTGGATGTGGAGCCTCTCCTTTCCATTGTGAACTGAATTCTA CCAGCACTGGGCCTGGTGATGTCTGCATTAGGCAGATGAGGA AGCAGTCTTGGAGAGGACAAGGGACTGGCCTCAGGTCACACA TCAGGCTTGCTAGCTCCTGGACAAAGATGCCTCTGATAGCTCT TCCATA 1240 NR4A1 3415239 CCTGCCCTGGGCTACTTACTACTGAGGATGCACAAAGGATCTT CCCACCACGGACTAGGAGACAGTGCCCTTGTCCTCATGTTGTT CACATACTGGTCGGTGAGGGATGGGTCTGAGTACATGATAAA TCCCTGGGCCCCATAAGATTTGACTAGGAGGGGTAAGGGCCT GGTGAACTGCTCAGAAAATAAACTGTGTTGTCAGCAGGAGGA CCCCTTTCTACTATGAGATATTGCATTCCCTGCTAATCATACTT GTGCTCTATCTGTTGATAGAACAAATACATAATGAGAAACAGC CACTGTGCTTTCAGAAGAACACACTTGAAAGAATTTGTTCTCAA TAAATTACATCTGCATCTGGATCCATATGAAGAAATACGTTCCT CTCATTCAGGCGTGGCTATTT 1241 NR4A1 3415240 ATGGCCAAAGCTCGACGGGCGGCCTGCGTCAGTGGCGC 1242 NR4A1 3415241 GGCTCGGCCGGGGAGTCCCAGTGGCGGAGGCTACGAAACTT GGGGGAGTGCACAGAAGAACTTCGGGAGCGCACGC 1243 NR4A1 3415242 GACCAGGGACCAGGCTGAGACTCGGGGCGCCAGTCCGGGCA GGGGCA 1244 NR4A1 3415243 TTCCCTTCGGGGAACGTGCATCTGTTTTTAGGAGCGGTGCATG AAGGAGATGGGTGTACGCGCGGGCAGAGAGGATGTTGTAGG GCCGGCATGC 1245 NR4A1 3415244 TGTTGGAGTCTTGGGGCGGTGCTGCCTAGAGGATACCTCCCA ACCATTCCAGCTCCAGATGCTGATCATCCCTATG 1246 NR4A1 3415245 TGAGGCTTGTTCAGCAGAACAGGTGCAAGCCACATTGTTGCC AAGACCTGCCTGAAGCCGGATTCTCC 1247 NR4A1 3415246 TGTCCTAGTGCAGGCAGATGTGGCCACCCTCACCTCTCGCAG GGTGCTGCATGCCTG 1248 NR4A1 3415247 GTACTGTTGTCCATTCTCCTGAGAGTCCAGGGGGCTGTGGTC TCCTTCCTCCCCCCTTGCCCTGTCCCCAGCAAATGGCCTTTAA AGGTCTGGAGCCAGGTTACCGATGAGGAGGCCTAGGTTCCCT TCCTCTTTGCTTCTGGGAGCATCTCGAGCAGTGCAGAGTGGC TTCCCAGCCCCAGATGGCAGGATTGGGGTGGGTTTGGGATCT GCTGCCTTTGCTCAGTGTGCAGGGTTGGGGTGGAAATGGGGG ACAGGCTAGGGCCTCTGCATTAGGCTGCCTTCTTAGGCAGGT GGGCTTTCACTTCCAGCTCCTCTTCCATTTTCACGATGTCCTTC TTCCTAGGCACTGCGAGGGGAGGAGAAAAGGGGCTTTGCAGA GGCCTGGGAGTATTCCCAGGAAGTGCCTGGTTGGCGAAACAA CCAGGGAGCTGCTCCTGGGAGCTGGGCTGAGGCTTTGCTGG GCTGCCTCTCCCACTCACCCTTCTCCCGGCCCCCACCATGCC TTCCCCATGGGGGAGGGGCAGGGGGCTGGAGGAACACAGCT TCCCCCTGTTCTAGCAGAGAAATGCTGGCTGTATGCCTCCCCT AGGGTTCCCAGGCTGACTAGGGTGTGGCTGGCCTTCTGATGG AGCCCACTCATGCTGGGCCGCTGCCCAGGGGCTTTGTGGCAC CTAGGTCGAGATGGTACTCAGGCCAGGGGTCAGGATTCCTGG GTGCTCTGGTCCCGGTGCCTCTGTCTCATCTTTAGGCTGGGAT TCCTGC 1249 NR4A1 3415248 TCCAAGCCCAATATGGGACACCAGCACCGAGT 1250 NR4A1 3415249 GACCACCTGGCAAGCGACCCCCTGACCCCT 1251 NR4A1 3415250 CCAGCTTCAGCACCTTCATGGACGGCTACACAGGAGAG 1252 NR4A1 3415251 CTCGGCCTCCTCCACATCCTCGTCCTCAGCCACCTC 1253 NR4A1 3415252 GACTTCCAGGTGTACGGCTGCTACCCCGGCCCCCTGAGCGG CCCAGTGGATGAG 1254 NR4A1 3415253 GGCTCCTTCGGCCACTTCTCGCCCAGCCAGACTTACGAAGGC CTGCGGGCATGGACAGAGCAGCTGC 1255 NR4A1 3415254 AGAGAGCTATTCCATGCCTACGGCCTTCCCAGGTTTGGCACC CACTTCTCCACACCTTGAGGGCTCGGGGATACTGGATACACC CGTGACCTCAACCAAGGCCCGGAGCGGGGCCCCAGGTGGAA GTGAAGGCCGCTGTGCTGTGTGTGGGGACAACGCTTCATGCC AGCATTATGGTGTCCGCACATG 1256 NR4A1 3415255 CGCGCAGCCCCAGGTGGGGCCTTTTGTTGGAAATGGAGAGA GGCTGGCCTCATCCCATTGGGACCTGTGGTCTCCC 1257 NR4A1 3415256 GAAGCTTTCATTTGCCGGGACACTCGGGCCCATGGGATTGCA CAGAGCTGGAGGGAGGGGTGAGATAGGGGCAGATAGGAGCT GCAGGGGTGCCTGGCGAGCCTCTGGTTTTCCTCTGCTCCTCT GCCTGTCCTCTCCCAACTCAAGGTTCTAGTGGGAAGGGGTGC CCCCAGGCTCTCATGTTCCTGGCGTGAGATGAAAGGATCCCT GCGGAGGGTTTGGTTCTTGAGGGCTGGGGGTGGACTTGGGA ACAGGCTGTGTGTTTGTCCCAGCGATGGTGCCTGCTTAGCTTC CCGTCCCCACCCCCCAGCCCCTTGGCCCTCTCCTGTCTGCCC TAGGGAGAAGGCAGGTGGACAAGGGCCCATGAAAAAATACAG GTGTCTAGACTGCCAGGGAGACCCTGGCCCCCAGTAGTGTGT CCTGGGGACTTCCTCAGAGCGAGAAACCTCCCCCAATGTCTT CAAGACTTTTCTCTCCCCCCGCCCAACCCCGTCTCTCCCTCCC TTGCCACCCAAATGTTAGAAAAATAGCTGTGAACAGAGAGCGC TTTTGTCTGCAATGGCAGCAGGATCTGGACGGTCCCCTCCCC TAAGTTCCCCCCTCCCCACCCCACACTCTGACAGCTTGTTCCG TGTTGCCC 1258 NR4A1 3415257 GCACAGTGCAGAAAAACGCCAAGTACATCTGCCTGGCTAACA AGGACTGCCCTGTGGACAAGAGGCGGCGAAACCGCTGCCAG TTCTGCCGCTT 1259 NR4A1 3415258 CCCAGCGGGGCAAGGGTAGGCTTGAGTGGAGTGGGACCAGC AGGGCCCCCAGGCTTCTGCCCTGGAGGACCCAGAGGAGGGC ACGTCTTATTTCCACCCCACCTCTGAACCCCAGGCCTTGGAGG GAGGCAGCCTACACCTGCCTGGATTGTGAGGGTGGTGGCAG GGGGAGGTTCCTATAGGGTACCTTGGATCTCAGGGACTCTGG GTCCTAGGGACTCGGTGGGGCGCGTCTCAGCAGTGGTGTGC ACGGCTTGGGCTGAGAGGCC 1260 NR4A1 3415259 TTGTCCGAACAGACAGCCTGAAGGGGCGGCGGGGCCGGCTA CCTTCAAAACCCAAGCAGCCCCCAGATGCCTCCCCTGCCAAT CTCCTCACTTCCCTGGTCCGTGCACACCTGGACTCAGGG 1261 NR4A1 3415260 CCCAGCACTGCCAAACTGGACTACTCCAAG 1262 NR4A1 3415261 CTTTGTGCGTGTTAGGAGAGCTACCCCCTCTGGAAGGACTGA ATGAGAAAGGAGGTTTAAAAAAGAAAGAAAGAAAAGCGACTCC CTCCAGTTCGACAGATCAAAGAGAGGATCCCCCTCTCGGCTG ACCAGATGGGAAAATGCACCCCCTCAGGCAGGTGGCCAATTA GAA 1263 NR4A1 3415262 GGGATGTACAGCAGTTCTACGACCTGCTCTCCGGTTCTCTGG A 1264 NR4A1 3415263 GTCATCCGCAAGTGGGCGGAGAAGATCCCTGGCTTTGCTGAG CTGTCACCGGCTGACCAGGACCTGTTGCTGGAGTCGGCCTTC CTGGAGCTCTTCATCCTCCGCCT 1265 NR4A1 3415264 CTTTCCCTGATACACCTGCCTGTGAACCACCCTGATCGCTCTT CGTGCC 1266 NR4A1 3415265 CTAAGCCAGGCGAGGGCAAGCTCATCTTCTGCTCAGGCCTGG TGCTACACCGGCTGCAGTGTGCCCGTGGCTTCGGGGACTGGA TTGACAGTATCCTGGCCTTCTCAAGGTCCCTGCACAGCTTGCT TG 1267 NR4A1 3415266 TCAGATGTACAGCTAATCCTGTACCCTTCC 1268 NR4A1 3415267 ACCGGCATGGGCTGCAGGAGCCGCGGCGGGTGGAGGAGCT G 1269 NR4A1 3415268 GAACCGCATCGCCAGCTGCCTGAAGGAGCACGTGGCAGCTG TGGCGGGCGAGCCCCAGCCAGCCAGCTGCCTGTCACGTCTG TTGGGCAAACTGCCCGAGCTGCGGACCCTGTGCACCCAGGG CCTGCAGCGCATCTTCTACCTCAAGCTGGAGGACTTGGTGCC CCCTCCACCCATCATTGACAAGATCTTC 1270 NR4A1 3415269 TGCACATGCGCACTCTCATATGCCACCCCATGTGCCTTTAGTC CACGGACCCCCAGAGCACC 1271 NR4A1 3415270 CTGGGCTTGAGCTGCAGAATGACTCCACCTTCTCACCTGCTCC AGGAGGTTTGCAGG 1272 NR4A1 3415271 GGGTGACCCCACGATTTGTCTTATCCCCCCCAGCCTGGCCCC GGCCTTTATGTTTTTTGTAAGATAAACCGTTTTTAACACATAGC GCCGTGCTGTAAATAAGCCCAGTG 1273 NR4A1 3415272 ACCCTCCTTCCACATGTACATAAACTGTCACTCTAGGAAGAAG ACAAATGACAGATTCTGACATTTATATTTGTGTATTTTCCTGGA TTTATAGTATGTGACTTTTCTGATTAATATATTTA 1274 RP11- 3424282 GTGTAAAAGTGTGAGACAACACATTTCTGTTGTTTAAGACACA 121G22.3 CAATCTGTGGTACTTTGATACAGCAGCCCTGACAAACTAATAC ATGGGGTGTCTCATTGTAGTTTTAATCAGTAACACCCATTATGA ACTGAAAACGTCTGCTACTT 1275 RP11- 3424283 CAAGAGGTGACCATCAGCAAGCCCAGGAGAGAGGCCTCAGAA 121G22.3 GAAACCAGACCTGCTGATTCCTTGATCTTG 1276 RP11- 3424284 CAACTTGAATGCTTCCTGATTAAATATATACAGGAGTGATTTCA 121G22.3 GAGGAATTT 1277 RP11- 3424285 CCATTAAGACTAACCGTTTTTGCTGGAGCTGCAAGATTTTCCAT 121G22.3 TTCTTCATGAGTCACCCAAACGTTGCCTGAAGGCTAGTG 1278 RP11- 3424286 GTGGCTCTTGAACAACACAGGTTTGAACTGCATCATTCCACTT 121G22.3 ATACACAG 1279 RP11- 3424287 ACTCCTGAGACAACATGACCAATCTCTCCC 121G22.3 1280 RP11- 3424288 CGTACTTTCAACATAAAGACGACGAGGATAAAGGCATTTATGA 121G22.3 TGAACTACTTCCACATA 1281 RP11- 3424289 GCTTACTTTATTGTACGAATGGAGCATATATGTGTACATATAAA 121G22.3 ACACATAATACATGCTTATCAACTATTTGTGTTATCAGTAAGGC TTCCAGTCAACAGTAGGCTCTTAGTAGTTAAGTCTTGGGAGAG CCAAAAATTCTAGCTGATTTTTTGACTGTGTGTGGGGGGTCAG CACCCTTAACTCCTATCTTATTCAAGGGGCTATTGTATTCTAAA TTGTCTTTTAGCTTGAGTCATAATCCAGGTATAGTG 1282 RP11- 3424290 GCAAAATACAGTGCCAAGAGCTCTGGACCACAAATCAGAAGA 121G22.3 CCTGAGCCCTAATTCCTTTCCA 1283 RP11- 3424291 TTTGTTCGTCGCTTGCCAAAATAGCAGCGAACTCTCTGTCAAA 121G22.3 CTGCAACTCATTTTATCGGAGCAAAAACT 1284 RP11- 3424292 GAAGCAGCTGATCGCTAATATCTGATGGCTAATATGCTAAATT 121G22.3 TCCCTGTC 1285 RP11- 3424293 GAGGCAGTGCAGCTTGTGTTACAACTCAAAAGAGTAATACTCT 121G22.3 GAAAAAAGAAAAAAAAAGATGGCGCTGAAAATAAACATGTTCA GCAGCCATTGTGATTCAACTTACCCAGATGTGCTTTTCATGAG ATGGAGAAGGACGGATGGAAAAGAAAAGCACACAAATGTTAAT GGATACAGTTCAATCCAAAGAAAACCATGGAATAAAACAAGAG CATTATTTAAGATGTGAGAAAGCTCAGGTATGAGAAAGACATG GTGCCATTTTGTATTTCATCATGACACACATACTCACTGCGTCG AAAAGCATAGTCA 1286 MYBPC1 3428597 GCGAATGCAACTTTGACCCTAAGAAATCCTTTATGCAGGTGGA

GACACAGCTTCTTCAACCAATGAAAGAAATAATATCTGGCTTCT TGAATAGTTTCATGGTGCCACCAACAAAAACTATCATAGACCA ACAATGGCAAGATGGCATCGGCAAGAATGAGCTG 1287 MYBPC1 3428598 CCAGAATCTCATCGTGCAGGCTACAAATAGCAGCTGCAGCTG CAGACCAAGGGCTGGCCTTTACATGTCCATGGTGCAAAAGGA CTCCTG 1288 MYBPC1 3428599 CAACTGCTTGTCACACCGACCTGCACCATCTCTCGCCTGCCTG TGGGGTTTCTGTCAACTAGTCGTGGAGGGAAG 1289 MYBPC1 3428600 ATGCCAGAACCCACTAAGAAAGAGG 1290 MYBPC1 3428601 AGTATCCCCGAATCAAACATGAATGTTGAAGTCAACTACCCAG ACTGAAG 1291 MYBPC1 3428602 TACACACTAACTTTAATTTGGAATACAGTAAATATTGTATTAGT GTGTCATATATTTACTGAATTAAAAATTAAAATTGGTTGGGCAT GGTGGCTCATGCCTATAAACTCAGCACTCAGGGAAGCAGAGG CAGGTGGATCACCTGAGGTCAGGAGTTTGAGACCAGCCTGGC CAACATGGTGAAACCTTGTCTCTACTAAAAATACAAAAAATTAG CTGAGCGTGGTGGTGGACCCGTGTAATT 1292 MYBPC1 3428603 TGCCAGGGGACGGTTATGGATTTCTTGGCAGCAAGGAGAAGC GGCTTTTGTGCAGGGAGGAACAGCCTGCCAGTCAACTATATTT ATGGAGCACCTGCTGTGTGGAATCTGAAAAGGAGAAGGAGAA GGGCCTTGTCCTCAAGAAGCTTGTGATCAAAGGGAGAAGAAA AGTCCCCATCTACTGT 1293 MYBPC1 3428604 TGAACAACGGCTTTGAATGCGAACCTGGGGAGTGTAGACCTA ACCAAATAATAAT 1294 MYBPC1 3428605 ATTTGGCACGGGAAATGCTATGCTCTTTGTTCATGTGGATGCC TTTACCTACTTGGAAATAGTATGTTCTTTAACAGAAGTTTCTTT GTCAGACTTCATAGCCAGACTGCTCTGTAATAACCAGA 1295 MYBPC1 3428606 AAAATGAAGTGCCAGCCCCAGCCCCACCCC 1296 MYBPC1 3428607 CACTCACACACGTTTGGGCTGCAAATACAGAGGGTCCATCCC AGCATGATTTGGCCTCCACGGGTGCTGTGAGCTGTGAGCTTT AACCTAACTCCTACTGAGAAGTTGGATGGTGACCATTGTGATA AGTTGAGAATAATAAAAATAATACACTGTGTTTATATAATCCTC TTGTGTTAATCTAATTTGGATGGCACTTCATATATATTAGGGGG ACAATTCTTATGAAACCTTTCAAATTATGTAAAAGTTATTATGTC CGCATTTTACAGTGTGGAGGCTGAGCCTCCATCCAAGGGGCT GAAGAATTTGTGAGGCTTTTTCCTATATAGTGAAGGTCAAACA AACCCACATCTTCTTTATGAGAGTGGGGAGTGGATCCATCTCT ACCCTG 1297 MYBPC1 3428608 CTGGCAACAGGAAATGAGTACAGAGATCCAGTGAGACCCTT 1298 MYBPC1 3428609 AAAAATATGCTTGTACTTTCTACACAG 1299 MYBPC1 3428610 AGAGAAGGAGGCCGGAACTACACCAGCAAAAG 1300 MYBPC1 3428611 TCTGCAAGTCCCAATCAGTATAATGACAAATGGTGCATTGCTA AGTTTCCATTACATGTATTTCTAAAAGAAAAACAACAATGATAA AAATATCACAAGCACTTGTTGAGATGCCAGCAAATTAATTGGT AGTTTCCAAGTTTCGACATGCATGCTA 1301 MYBPC1 3428612 GACACTACTGTTGGGTGATCTAGACGAAGACTATTTCATGATA CTCTGAAGCGCTGCATTCATATGTATTCCTTCATGGTCTAAAAC AACTGTGCATGTCCTCCAAATAGTCTTAACATTTAGTAGACTTT GAAACTACTCACCTATCAAATTTTTGCTTAAAAAACAGATTGCC GGCCAGG 1302 MYBPC1 3428613 GCACAATGTTGTGGAATGTGAATGCATGCATATTAGTTCAGGA GAAAAAATTCAAAATGAACTAAGTTTGGGAG 1303 MYBPC1 3428614 TGCTAACAGGAAACAATACCGACGTTCTTTTTCTTATAGCATTT GTATTATAAAAAGCACAAAGCTCCAGCCCACTGAA 1304 MYBPC1 3428615 ATGAAGTCTTTTCTCCTTGACTTTTTACTCCTATTTCTTG 1305 MYBPC1 3428616 GAAGAGGAAGTCTCCCCGCCTAGCGCCTTGCCT 1306 MYBPC1 3428617 GCTTTCATACTTGGAGCTCTACTGATTTTCCATCCAAGCCAACT TGTAGGGTTTTTTCCTTCCTATCACCAGAGGAGACAGGGTTTA GGGGAATCCAAGAAGGTTGAAGTCAGCACT 1307 MYBPC1 3428618 TTTGGGTAGTCGGGCCCTGGAGAGAAAAGATTCAG 1308 MYBPC1 3428619 GAGCTCATTTCTTGAAGCTGTATTGATTCTAATCCTTGTCTTAT TCAGATTGTAGTTTTTACGGCAATCTTTCATTACGTTTCCTCTT ACAAGAAAACTAATGTATTGAGAAACAATTAATTTTGCATGATA CACACGCATTCAAGGATCTAGCCAAAAATACCACAGGTTTGTT CTATCATTTTTA 1309 MYBPC1 3428620 ACTGGCCACCATTGTTTACCTGTTAGGGGACAGGCAAGATGG GGAAGCAAAGGAATTATTGCCATCAAAGAGAGAATAACAGCTT ACCTGGAAAGTTCCACTATTTCTAAGAATTACATAATGTTCATT TGCCCCATCATGGAAGAGATACCCCTGTAAGAATGGGAATCT GTTCCCCTCTACTGATGGCTGCTGGGGGCAGAAAGAATGATG TTGTATTTATCTAGGTTTATTAGACAAAGAAAAGCTACAGCGTT GGTGAGAACAACAAATCCAGGTAAGACTGCCTAAGAAGAGCC TGGCCCTGAAATAATCCTTTT 1310 MYBPC1 3428621 TGGACCCTTGTCGAAACTCCTCCTGGGGAGGAACAAGCCAAG CAGAATGCCAACTCCCAGCTGTCCATCT 1311 MYBPC1 3428622 AGCAAAACAAATGACGCTTGTTAAAGAGCAAGCTGAATCCCTT ATGCTTCTTCTAG 1312 MYBPC1 3428623 ATCACCTTCATAGCCAAAGTCAAGGCTGAAGATCTTCTGAGAA AACCCACTATCAAATGGTTCAAAGGAAAATGGATGGACCTGGC CAGCAAAGCCGGGAAGCACCTTCAG 1313 MYBPC1 3428624 CATTTGAGATGCAGATCATCAAGGCCAAAGATAACTTTGCAGG AAATTACAGATGCGAGGTCACCTATAAGGATAAGTTTGACAGC TG 1314 MYBPC1 3428625 TCTACTGGGACTACTCCAAACATTGACATCAG 1315 MYBPC1 3428626 AGGATGCAGGAGAACTTGACTTTAGTGGTCT 1316 MYBPC1 3428627 AGTGAGACATTGTGGCCTGGAAGTCTTTCAGACACCCACTCA GAGAAGTCAAGTTTAAAGTGGATGTTCTTCAGAGAATTTTTCAT TTCTGAAAATGTGTTTTGCTTATAGAATATAACAGAGTTGACTA GAAAGAGAGAAACAACTGCATACTAATCTTTTAAAGCCTTTAAC AGTTGCTTTTAAACTTTCTTTTTAAATGTTTCATGACTCTTCACC TATTTTTTTTTAAATGGGGACGAAGAGATATGAAAACTGAGACA TAAGACAAATACCTAGAAACCTCTAAGACTGCACATATGATTTG GTAGAAGTCTGAAGGTATACACATTGTAAGAGGCAGACCTA 1317 MYBPC1 3428628 ATAGATACACTTTTGTGGGAGGAAAAATAGTGGTAAAAACATG GACTGGAGTCTCAGCTCTACCATTTACTAATTATGTGACTTTGG TCAAATATTTGACCCCTCTGAGACTTGGATTTCACATCTGGAAA TGTGAAGAATAAACACTACTTAATAGAATTATTGTGCAAATTAA ATTAAGTGTAAAAAGCTTGGTTCACAGTAGGTGGCAAATAAAT ATGTACTTCCTCTAAGGAAATGTGTCATTTTCTCTAACATAGTT TATATTCATAAGGAGACAACA 1318 MYBPC1 3428629 CTCTGTACAACGAAAGATCTTCCTGCTCTGAACAAAGCCAGCT TACTTCAAATAGACATTAGCTAAATCAGATTAAATCTTTTGGGC AGCATCCTGTTATAGGAATTGACCTGTATAAATACTTGTAAGTT GTACTCTACATAAAATTTCTATAACTGTTATACTCTTCACTAGG ATCACCAAGTTATTGAAATTTTGATGTAGATGAAAATACAGTGA GTATTATACAGGTCTATCCCGAGGCTTGGAAAAGAATCAGAAG TGCCTACAGAAATTTGGCTTTTTCTCCTCACTGTAACTTAACAT AGCCATGCAGACAGGGTCATGTGCAGCCACCATGGTA 1319 MYBPC1 3428630 CAGTGAGTACGAGAAGATCGCCTTCCAGTATGGAATCACCGA CCTGCGCGGCATGCTCAAGCGACTCAAGCGCATGCGCAGA 1320 MYBPC1 3428631 CTTGATCCTGCATATCAGGTTGACAAAGGAGGCAGAGTGAGG TTTGTTGTGGAGCTGGCAGATCCAAAGTTGGAGGTGAAATGGT ATAAAAATGGTCAAGAAATTCGACCCAGTACCAA 1321 MYBPC1 3428632 TACATCTTTGAACACAAAGGATGCCAGAGAATCCTGTTTATCA ATAACTGTCAGATGACAGATGATTCAGAGTATTATGTGACAGC CGGTGATGAGAAATGTTCCACTGAGCTCTTCGTAAG 1322 MYBPC1 3428633 TGGTCACCAGGAGCTGTTGGCTTCTTCTCCCAGGGATAATGAT CAAAGTGA 1323 MYBPC1 3428634 AGCCTCCAATTATGGTGACCAAACAGCTGGAAGATACAACTGC TTATTGTGGGGAGAGAGTGGAATTAGAATGTGAGGTGTCTGAA GATGA 1324 MYBPC1 3428635 TCCCTGGTCCAAAATCAAGATACCGAATTAGAGTTGAGGGTAA AAAACACATCTTGATCATAGAGGGAGCAACAAAGGCTGATGCT GCAGAATATTCAGTAATGACAACAGGAGGACAATCATCTGCTA AACTTAGTG 1325 MYBPC1 3428636 TGACACCTCTGACTGATCAGACTGTAAATCTTGGA 1326 MYBPC1 3428637 CCTGTTCAGGAGAGTGACCGTCTAAAGGTGGTTCACAAG 1327 MYBPC1 3428638 TCCACAAGTTAGTGATAGCCAATGCCCTCACTGAAGATGAAGG TGATTATGTATTTGCACCTGATGCCTACAATGTTACTCTGC 1328 MYBPC1 3428639 AGGAAACAAGCTTCGTCTTGAGATCCCCATCAGCGGAGAACC ACCTCCTAAAGCCATGTGGAGCCGGGGA 1329 MYBPC1 3428640 GGCAGTGGCCGGATAAGAACAGAATCTTACCCTGATAGCAGC ACTCTGGTCATTGATATAGCTGAAAGAGATGACTCTGGTGTTT ACCACATCAATCTGAAAAACGAAGCTGGAGAGGCACATGCAA GCATCAAGGTTA 1330 MYBPC1 3428641 CTGATCCTCCAGTGGCACCGACTGTGACAGAGGTGGGAGATG ACTGGTGTATCATGAACTGGGAGCCTCCTGCCTACGACGGAG GCTCTCCAATCCTAG 1331 MYBPC1 3428642 AAGAAACAAAGCTCCAGGTGGATGAGGCTGAATTTTGATCTCT GCAAAGAAACAACTTTTGAGCCCAAGAAGATGATTGAAGGTGT GGCCTATGAGGTCCGCATCTTTGCAGTCAATGCCATTGGCATC TCCAAGCCCAGTATGCCCTCCAGG 1332 MYBPC1 3428643 CCTCCTACTCTTCTGACTGTGGACTCTGTCACTGACACGACTG TCACGATGAGGTGGCGCCCCCCAGACCACATTGGTGCAGCAG GTTTAGATGGCTATGTGCTAGAGTATTGCTTTGA 1333 MYBPC1 3428644 GTGCCTCAGGTCAGAAGCCACAGTCTGCACAGAGCAGGCTGT GCTCTCCTGAGGAACCCCCCTAACACCGTTTGGTCTCTTCCGT CACTGCTCTGAGGACAAATCTCTTTGCACACTTTGCATACTTTA CTAACAGAGAATGCTGACTGCTGATACGATATTATTC 1334 MYBPC1 3428645 GTACATCAGCAAAACAGTCTGATGAA 1335 MYBPC1 3428646 TCTGATTGACAAGACGAAGTTCACCATCACAGGTCTGCCAAC 1336 MYBPC1 3428647 TGCGTGTGAAGGCTGTTAATGCAGCTGGTGCCAGCGAGCCCA AGTACTATTCTCAGCCCATTCTCGTGAAGGAAATCATAG 1337 MYBPC1 3428648 ACCTCCAAAGATTCGCATTCCAAGACACCTGAAGCAAACCTAT ATCCGCAGAGTTGGAGAAGCTGTCAATCTGGTTATACCTTTCC AG 1338 MYBPC1 3428649 AATAAAACCAGAAGTGGCAACAAGGCAG 1339 MYBPC1 3428650 ATAAACATTCGCAACTCTGAGACTGATACAATCATATTTATTAG AAAAGCAGAGAGGAGCCACTCTGGGAAATATGATCTGCAAGT CAAAGTGGACAAATTCGTGGAGACCGCATC 1340 MYBPC1 3428651 CCAAATTGTGAAGATTGAGGATGTCTGGGGAGAAAATGTCGCT CTCACATGGACTCCACCAAAGGATGATGGAAATGCTGCTATCA CAGGCTATACCATTCA 1341 MYBPC1 3428652 CTTTCTCTGGTTCATCAGTAGCAAAAGG 1342 MYBPC1 3428653 CCAACTGGGGCTATGGAGAAGTGATGTGGCAGAGCAGAAAGG AAAAGACCTGTGGAGCCACAGAGCTGGTCTTAAACCCCAGCA TTGCTACTTAAGACCACATGTATAAGGACCACACGTGACCACA ATCACT 1343 MYBPC1 3428654 GGTTTACTGTCATTGAGCATTATCATCGAACCAGTGCCACCAT TACTGAATTGGTCATAGGGAATGAATATTACTTCCGGGTCTTTT CTGAAAACATGTGTGGCCTCAGTGAGGATGCCACCATGACTA AAGAGAGTGCAGTGATCGCCAGG 1344 MYBPC1 3428655 TCAGAGGCACCCATGTTTACTCAGCCTTTGGTTAACACCTATG CCATAGCTGGTTACAATGCCACCCTAAACTGCAGTGTG 1345 MYBPC1 3428656 GTACCATGTTCTTCTATCACATCAGTTAAAGTCCCTGTCTTGTA 1346 MYBPC1 3428657 CACTACACTGTCTGCGATAGGTTAAAGTAAACAACAATTACAC TACACTGTAAGACAGAATATGAATGTGCTTTGATAAGGGTACA GTGTGCTAAGAAGGGAGCTATCATATCCAGTTGAAGAGATTAG AAAGGTTTCAAGGTTTCATGTTTGCATTTGAAAAGAACAACGAA TTAATGAATATCGCCCATAGAGATGTACATATCCCTGGGTGCA AGACAGAAAGTACCCTAGAATTGGGAAAATTTATGAACTTCTTT TTTTCCTGTATATACCTTGATCAGAAATAGGGAAGTCGTC 1347 MYBPC1 3428658 CACTGGCTTTGATGGTCTATTAATATGCCAATTACAGATATGTT TTGACCTAAGTTTCTTCA 1348 MYBPC1 3428659 GGATGATCCAAGATACAGGATGTTCAGCAACCAGGGAGTCTG TACCCTGGAAATTCGCAAGCCCAGCCCCTATGATGGAGGCAC TTACTGCTGCAAAGCAGTCAATGACCTT 1349 MYBPC1 3428660 GCCTTACTATTGAGATAACCCTTACAAATTTAAACATTTTTAGC

TGCTTTATTGGCTTTAAATGATTAAGTTCATAATTGCAAGTCAT CTGGTTTCTAAACTGCTAGCCTTATTAGTTCCAAAGTATTGTTG ATGCTTTTG 1350 MYBPC1 3428661 TATATCAAGGAGTAAATACCCCTGGACAACCAGTCTTCCTGGA G 1351 MYBPC1 3428662 TTATATCCCACTGGATATTCTACTTTCCGTTCCATTCCTCTTAC ATGAAAATGCACCTTGCATGTAAAGCTTGACTTTCTCATTTGCT TTTAATTGTACCCCTTAGCAGCTCATGGCATACAGTGCTTATG CCATGAACAAGGAAGGCCAAATTATTCAAGGATATTAAG 1352 MYBPC1 3428663 TGTACACTAACACTTTGTCTATTGTCTATGTTTTTCTTTTGTTGA AAAACACGATATATATATGTTGTAGGGTTTTGGTTTTTGTATTT GTTTTAAGCTAATGGTTTGGAAGCTCTT 1353 MYBPC1 3428664 GTCATAAGCCATACCAAGCCTGTGGAGTATGGCATGATTTTCA TTACATAATCCAATGAAAATAGACTTATTTTAAATCCCTAACTTT GTAGTTTTAATTTGTATTTCACTATCTTGAAATTAACAGCTAGTA CTTATCCATCACAGCAGTCTCCTACTGACATGAAGCAAGTTGT TGAATGCAGTAGAGCATGAATGAAAGCATTTAATGTAGACAAA AATGGGTGATACCCAAGCATTCTGAATTATTTGCATCAAGGAA TGGACATGTACATAAGTGGCATCATTTCTACCAATATGTGACTT GAGTTGTTTTTTTAAAAAAAGGAGAATGACTTTCTCAAATTTGC ATTAAAGAAGTTTTTAAGAATGTTCAAATGGCATGCTGCTTTGT CTGGACGTGAATTTATTAGCAAGTAGTAAAGCACTTCACTAAA GGACCATGAATTTTTGTGGTTTCATGGATTCTCTCTTGAAGGG TACTTTTATTTTTTTAATATAATTCAGAAACTCAGAAGGTAGGTA TGAAATATTGGTAGGTGTTTCTCGCACCTTCAGAAAGTATTGG ACCGGTCTTATTATTATAATTTTAACAAAATATTTCCAATTTTTG TGCTTTTGACATGCATAAATGACCAAAGTTAAAGGGAGTAGTT TTTATCTTTTCTAATGTGCTTGAATCGAAACTCTCTGTGCCTAA TTAAAAAGAACATTAACAAACTGGAAGCAGATCTTCCCACTGA TCCATAATGTGGTATGCATTTATTCTGCTGTTCAGTCAGAACAT TTAAATCATCTATGAGGAATCACAAAACCTCTCAAAGAGCAATA AATACTTTCCAACCACTTGGGAATTTAAATGAAGATTGAACAAT AGTAGGGGAAAAACTGCTGTGGTTCTACTGGGAAC 1354 MYBPC1 3428665 AGACTCCTCTTGCAAGGCGTACCTCCAAACATAATTGATTCGT ATCTGCGAGACTTACACTCAAGCAATC 1355 MYBPC1 3428666 TGGCTACTGTCTCTCTGCACTCTGCTGCTTTGAAATCTGGTTG AAATGAGAAAAAGCATTTTCTGTTTTCCCACCAGGCCCCCAAG TGTGGTCTTTTTCTTTCCTCCTAATGTTGAAGAGA 1356 RP11- 3454981 GGCTGCGCTGCTCTTTGATTGGCTTCGTTAATATTTGGCAAAG 923111.3 CATTGCCACTTACCCACTCAGCGAAGATGCACAAAAACGTCAT CACTGATTCTTTCAGTTCGATGCCTGTTAACTGCGGGTGTAAA CTGCTGGTGATGGTGTCATTTACTACCAAAGAAGTGTGGAGCA GGATGGGTGAGAGAGTGAGTGAGTGAGCAGGTGGAAGGACA GTGGGTGAAGGATAAAAAGGTGGGAAACATTTTTTTTTTAAAA AGTGAAACTTCAAATACAGCGGAGGTGGCTTCTTTCCTATGAG GCTGGCTGATGGGTGCCAGATACCAAGGCCCATGTGTTACTG AGGAGACAGCCTGCTGGGCTGGGGTCAGGAGCTAGCGGAGG GAAACGGTTAGATCTCAGAAAAATCTCATCACTATGCCCTAGT AGCTTAATGACATCACTAGCATGAGCACATGGTGTACTTGGCG GGATCTT 1357 RP11- 3468066 TCACCGGCTGTCACATAATACTCTGAATCATCTGTCATCTGAC 755011.2 AGTTATTGATAAACAGGATTCTCTGGCATCCTTTGTG 1358 RP11- 3468067 ACCAGAAGACTCATTAGGATCCATAATAGCTGCCAGTGTAGAG 755011.2 GAGCCTCAGTTACTTTCACTTTGATCATTATCCCTGGGAGAAG AAGCCAACAGCTCCTGGTGACCACAATAAGAGATTTC 1359 RP11- 3468068 TGTGTGAAACAAGGATTATCCAGTAAAATCTGTTGGGTTTCAA 755011.2 AGCTATAACTAGAATAATTATTTTTGCAAGATAGTGCTTGGCTT GAGTCAAAACATGAGGCATTTGTACTCAACAGGTTCTCTTTCT CCC 1360 RP11- 3468069 GAGCCACCTGCTCGCACTCAAGATGAATCAGGTGCAACTGCT 755011.2 AAGAGTGGATATTACCCCCATGTAGGCTCTTGAAGCACATTAG TAAGAATATCATTTAATGCATTTTAAAGATAACTATGATTCTCTA TTAGAATGAACAATCTACACTGTACCAATTACTACAAATCCTGC TGTGTAATTTACTGTACCTTTCAACATAACATTTCATTTTAAGAT TTAAAATTTCTAGTTTTTAATTTTAAGATTACTCACAAGGAACCT G 1361 RP11- 3468070 TAAGCCACACCCATTTACATCTGAGGTCACAACTACTCATCAG 755011.2 ATTTTGAATAATCCTCTTTCTACTGCTTCACAACAGTTCACAAG CCACAACA 1362 RP11- 3468071 TCTGTTCTTATCCGGCCACTGCCTTCCATAATAGCCTAAGAAG 755011.2 TGG 1363 RP11- 3468072 CTTGACATGTCAGCTTGATTCTAGAAGTGCGTTTACCTGGAGG 755011.2 ACTTACCCACAACTTTAACCTTGATGCTTGCATGTGCCTCTCCA GCTTCGTTTTTCAGATTGATGTGGTAAACACCAGAGTCATCTCT TTCAGCTATATCA 1364 TNFRSF19 3481420 CACTGATCAGATTACAGGCATTTCATCTCCCTGCTCGTCTGCC TTTGATCTGCATGGTTAATTTTATTTTCCTGGATTTGAAGTTTC GTCTGGGCTTGTGCTGA 1365 TNFRSF19 3481421 GTAAGTACTGCAAAGAGCTCAGCATGTTGCAG 1366 TNFRSF19 3481422 ACACTCAAATGAGGGAAAGTGGGAACTATAGTGTTTGTTCCCT CAGCATCTGAGGGGGACTGCTTTCAGGACACCCTCTTGGATA CCAAAATCTGCAAATGCTCAAGTCCCTTACAAAAAATGGTATAA ATTTGCATATGCTCTG 1367 TNFRSF19 3481423 CGTTGCCGGGCTACGGGAGAGCGCGGAGCCCTGCGCTGGGA GGTGCACGGTGTGCACGCTGGACTGGACCCCCATGCAACCC CGCGCCCTGCGCCTTAACCAGGACTGCTCCGCGCGCCC 1368 TNFRSF19 3481424 GGGTTATCTTCTAGTCCACATGTCACATAATATGTACCTTTATT TACCTTTTAAACTGAAGTTTTAAAACCTGGGTTTTAAAAAGAGA ACAACTACCCATCAGCAATTACAGAAGACAAAGGAACTTGTGT GTCTGAAGACTGAGTGTTATTTAGCAGCTCTTTGGTCAGCTTG GATTGGTCACATATGTGGAAACTGGGAAATAATAGGGGCTACT TACACTGGAGAAGAACACTACAAATGGTGTAAAGAGTGGTTTT GGAATGTATCCAGACTTCCTTCTAAAATAAAAATTTAAACAGCT GTGTTTGAGAGATGGGTATGCACAATTCTTGTAAGAAAGACTG TGTAGATGTTTGAGGTCCCCTTAGTCCCTGATGCTACCATTGT TCC 1369 TNFRSF19 3481425 TTGTCTGTATTAGAGCACTACCTTCAAGAAATGGGGTTCTGAC CTGGATTTGTGCTACCACAGTGACTTGCATT 1370 TNFRSF19 3481426 AACTCTCCAACAATAAATACATTTGATAAGAAAG 1371 TNFRSF19 3481427 TAAAAGTGCTACTAGAACAAGAGAA 1372 TNFRSF19 3481428 GTGGAGAAGGTTTGTACAGAATTATATGCATCAAAAACAATGT CC 1373 TNFRSF19 3481429 AGACTGTAGACAGCAAGAATTCAGGGATCGGTCTGGAAACTG TGTTCC 1374 TNFRSF19 3481430 TAGCTCAGCAGATCCAACTCCCATGG 1375 TNFRSF19 3481431 CCCAGCCTCCCGATTGGGAGACACCTCCCAGCAGGGGTCGC CAGACACCTCATACAGGAGAGCTCTGGCTGGCATCTGGTGGG TGCCCCTTTGGGACGAAGCTTCCAGAGGAAGGAACAGGCAGC AGTCTTTGCTGTTCTGCAGCCTCTGCCAATGATACCCAGGCAA ACAGGGTCTGGAGTGGACCTCCAACAAACTCCAGCAGACCTG AAGCAAAGGGCCTGACTGTTTGTAGGAA 1376 TNFRSF19 3481432 GTCTTCTCAAGGATTCGGGGAAGTACTGCGTACTTCCTTCAAG CTTTTAAG 1377 TNFRSF19 3481433 ATGTGGCTTCGGCTATGGGGAGGATGCACAGTGTGTGACGTG CCGGCTGCACA 1378 TNFRSF19 3481434 GCAAGCCCTGTCTGGACTGCGCAGTGGTGAACCGCTTTCAGA AGGCAAATTGTTCAGCCACCAGTGATGCCATCTGCGGGGACT GCTTGCCAG 1379 TNFRSF19 3481435 TTATAGGAAGACGAAACTTGTCGGCTTTCAAGACATGGAGTGT GTGCCTTGTG 1380 TNFRSF19 3481436 ACGCAACACAGGCAGAGCCAAGGGGACGCCTGGCCTTTTGA 1381 TNFRSF19 3481437 GTACCTGCCTGCTAAGGAACAGACCCACCTGCCTGCTGTGGT TGTATTGCCAGAAGTGTTGGATTCACATCTTGGCTGCGCTTTG TACTGATGGTGTAACCTTGGGCAAATAGTCTCCCCTCTTTGAA CCTCTGTTTACTCTGGAAAATGCCCAAGTCTGCAGATTTTGGA TAGAACTAAATGAACTAGTAGTCCAGCAACATGATA 1382 TNFRSF19 3481438 TCGGCCATACCCTGACCCAGATGTGTTCTTTGGAGGGTCTGCT GCTTTGGAGTTGTCCTGGACGGGGAGGATCTCATGGTGCATC TGGCTCTGATGTTTGTCTTCTGGGGCTTCACCTCCCCTGGTGG GTGAGCACTGAAGGGTACCGGAAAGTGGGTTCCATGGAGTTT TGTGCCTGA 1383 TNFRSF19 3481439 GCAGCTCAGATGGGGGCCAGGTGCTGTGGCTCACGCCTGTAA TCTTACTACTTTGGGAGGCTGAGGTGGGAGGATCACTTGAGC CCAGGAGTTCAAGACCAGCCTGGGCAACATAGTGAGACACCA TATTCACAAAAAATAA 1384 TNFRSF19 3481440 CCTCTGCATGATGAGCCCACAAAGCCAGTGCCTAAAGGACTA ATTAAGGGCTCCATTTACTGA 1385 TNFRSF19 3481441 TGGTATTTATGGTAATTAACATACAAAACAGCTGTACTTACAAT CCGGCAAGTGCCAAAGAGG 1386 TNFRSF19 3481442 GTCAGGCCCCCTGGAAGATTTGGCCAGCAGGGCAGTGGTCTG CGTGCCC 1387 TNFRSF19 3481443 CCGGCCCTGGAGGGAGCGGGCGACA 1388 TNFRSF19 3481444 TCCCTAAGTGAAGCTGACCCACACATAACCCACACCC 1389 TNFRSF19 3481445 GTGGCTTCTTGCTGGACCTAGCTTAACGACGAGCCTG 1390 TNFRSF19 3481446 TCCAACTCCTACCTTGGGAGAGAATGACAGTGAACCAAACAAG TAAAGTAT 1391 TNFRSF19 3481447 GGAGAGCACAGCCAGGCCACAGTGGCC 1392 TNFRSF19 3481448 CAGCAGATCTATTGGAGTGTGCCTGGCAGCTGGTTCTGCAGG AGCTCACCTGCCCTAATAGAATGTTCAGGCCCTTCTG 1393 TNFRSF19 3481449 ATGCAGTCACCTCCACAGAATGCCCCCCGCCCCTGCCCCAGG ACACCCAGACGTTGCTCAGCATGCTTACTGCCCCCACGTCTG ATCACAGTGGCCCGTCATGCAGACACCAAGACCAATGGGAAG GCGGAGGACCCCGAACATCTCTGTG 1394 TNFRSF19 3481450 GGTGCCTGCCAGCTTCGCCATAAACACTGCATCTGCAGTTGTT CAGAGCATGCTGACCCCATTCC 1395 TNFRSF19 3481451 GTGCCAGCAAGGTCAACCTCGTGAAGATCGCGTCCACGGCCT CCAGCCCACGGGACACGGCGCTGGCTGCCGTTATCTGCAGC GCTCTGGCCA 1396 TNFRSF19 3481452 GTAAGAGACAGTTTATGGAGAAGAAACCCAGCT 1397 TNFRSF19 3481453 GTAAGTTTTGAGCTCATTACATTTCTTAGCATTTAGGGGAAGG GCATTTATTACTATTGTCGTGCAAGTGTTCCACAAGAGACTTG GCTGAGACAAGCACCAGTGAGTTGTGAAAGAACGCA 1398 TNFRSF19 3481454 AGCTTTGTAAGGAGACTTACAAGGCTGTGATGTCCCTGCGCCA CTAGGCAAAAATAAA 1399 TNFRSF19 3481455 GGTCTCTGCGGTCACAGGACATTCAGTACAACGGCTCTGAGC TGTCGTGTTTTGACAGACCTCAGCTCCACGAATATGCCCACAG A 1400 TNFRSF19 3481456 TGCGCTTGCTCCCATCCATGTGCTGTGAGGAGGCCTGCAGCC CCAACCCGGCGACTCTTGGTTGTGGGGTGCATTCTGCAGCCA GTCTTCAGGCAA 1401 TNFRSF19 3481457 GGAGATGGTGCCGACTTTCTTCGGATCCCTCACGCAGTCCAT CTGTGGCGAGTTTTCAGA 1402 TNFRSF19 3481458 AGCTCAACGTCTTTGGATTCAAATAGCAGTCAAGATTTGGTTG GTGGGGCTGTTCCAGTCCAGTCTCATTCTGAAAACTTTACAGC AGCTACTGATTTATCTAGATATAACAACACACTGGTAGAATCAG CATCAACTCAGGATGCACTAACTATGAGAAGCCAGCTAGATCA GGAGAGTGGTGCTGTCATCCACCCAGCCA 1403 TNFRSF19 3481459 GTAAGGCAGCGACTGGGTTCCCTGTGA 1404 TNFRSF19 3481460 TGACTTACAGTAGATCAGAACTCTGTTCCCAGCATAAGATTTG GGGGAACCTGATGAGTTTTTTTTTTGCATCTTTAATAATTTCTT GTATGTTGTAGAGTATGTTTTAAAATAAATTTCAAGTATTTTTTT AAAAAACTAACACAGCTAATATATAAGAGCAAAGTGGACAGCT GCATTCTTTTATTCCTCTTTGTAAGTACAACCACTTAGCACAGC 1405 TNFRSF19 3481461 ATGTCATTCTGTATCCTGGCCTGATTATATCAGAGAC 1406 TNFRSF19 3481462 GAACTTTTAGGGGATTCTATAGACAAAACATTTTTTAGCTTTGG AGGGAAAAAATTGGTTTCATTCTCAAAACGGGGGAATGGAGAA GTAAGAGAAGGGAGACGAGTGAATGAAGGAAAAACAAATTAG GCAGTTAACACATACAAAGTATCTACCTCTGAGCTCTGCCTGG AGTTAGGAAAGGCTGTTCACTGATCTTGTTCTTTTGAGCCATC CA 1407 TNFRSF19 3481463 GCCTCTCTTGTTAGGAGATCATCTGAAGAACTAGGGTTACGGT GCTGCCAGCTGACTAATGACTGTTTTTCAGTTTTGTCAGGAAA CAGAATTACCACTCACCTTAATTTTGTAGCTTGTACCCAAGTTT

GTGATGTCAATTGCCAAGACTAAGGAATGAAACGTCTTCATAC GAGGTCATCCCGGAGCCAACTCATTGCCTGCTTT 1408 TNFRSF19 3481464 TTGTCGTGCTCCTTCCAATTGTGTAAGATTAGTTAGCACATCAT CTCCTACTTTAGCCATCCGGTGTTGGATTTAAGAGGACGGTGC TTCTTTCTATTAAAGTGCTCCATCCCCTACCATCTACACATTAG CATTGTCTCTAGAGCTAAGACAGAAATTAACCCCGTTCAGTCA CAAAGCAGGGAATGGTTCATTTACTCTTAATCTTTATGCCCTG GAGAAGACCTACTTGAACAGGGCATATTTTTTAGACTTCTGAA CATCAGTATGTTCGAGGGTACTATGATATTTTGGTTTGGAATTG CCCTGCCCAAGTCACTGTCTTTTAACTTTTAAACTGAATATTAA AATGTATCTGTCTTTCCTAGTATGTTTTTATCTTCTCATGTATTA TCCATGGTTTTCTCTGTTTGTGACAGATTAGTAAAATTTAATGA GCCCTCTTTCTTGTGGCCGTTTCTCCATAGTTTTAGGTTTTGAT ATGTGTTTACTAGCTTGCCTGTGTCTGGTACATCTCATGACCT CAATTCCCTCACCTGAAATAGGAAATGAGAATGTTTCATTGTA GCCCCAAGCGGTCATGTCAACCTAGTGCCTAGTCATAATTAAT TGACTTTTCCTGTATTACTTCTTTTTTTAAGTATAAACCAATGAT CCTTTGGTAGTCAAGAACTCTTAGGAACATTGCCTTTTGGACA TGTAAAATATTTAGGATTTGACCACACAATGGCTATGAAAATGC AAGTAGTTTCCTCGCGTGACCTCACCATGATTCACATACGTGC CACTGTTTGAAATCTGGTCTGTTTGCATTTCTGTTATGACAGAG AGATGATGTTTGCATTTCTGTTATGACAGAGAGATGATGAAAG TAGGCAGGGCTGTGTTCCTTTGTGTAGCCTGTATATATTTTCC ATATGTAGAGCCCTGATTAACTTCAAGGACAAACACTGGCTGG AGAAAGCCAGACTGATGGGAATGAGACTTTGGCCAAAAATCC CAAAACATCATTTTCAATCAGTAGAGAAGTGCTTAGGGTTGAA AATTGATTTCATTTGCTACTGAATTTGGTAAATCCTGGGTAACT TTTATCAAGATGAAGACATTTTACCCTACCTACTCTAGAAATAT ACAACAATGTTATATTTTACACTCCTTGGAAACATTTGAGGAAA AAAATGCAATTTGCACTTCACTTTGTTGGAATATCCCATAGCAC TCAATAAACTCAGCTGCTAGAGTGCCGATGTCA 1409 LPGAT1 3512095 GACCTTTCTTTGTGTTATCTGCATGTTGTAACGTGTGATAAGAA TGAATGTAAAGGCTGTGGCAACTGTAATTAATTTTTGTAAAGG GCTGGTCACACGTGGATCTGGTTTATGAATG 1410 DEGS1 3579471 GACTTCGAGTGGGTCTACACCGACCAGCCGCA 1411 NUSAP1 3590391 CAGGGATTTGAACCGCGCTGACGAAGTTTGGTGATCCATCTTC CGAGTATCGCCGGGATTTCGAATCGCG 1412 NUSAP1 3590392 CTGGACTCCCTCAAGTACAGTGACCTGCAGAACTTAGCCAAG AGTCTGGGTCTC 1413 NUSAP1 3590393 TTAAAAGCCTTGAAAGGCTACATTAAACATGAGGCAAGAAAAG 1414 NUSAP1 3590394 TCTTGTGATGAGACTGAGATACAGATCAGCAACCAGGAAGAA GCTGAGAGACAGCCACTTGGCCATGTCACCAAAACAAGGAGA AGGTGCAAGACTGTCCGTGTGGACCCTGACTCACAG 1415 NUSAP1 3590395 AACTGAAAATAAACCACCTATGCCAAAATTGGCATACTTTTATG GAGATTTCTTTT 1416 NUSAP1 3590396 AAATAAGTAATCCCACTGAATTCCAG 1417 NUSAP1 3590397 TCAGAGCTACTGCAAAAGTTCCTTCTCCACCAGACGAGCACCA AGAAGCT 1418 NUSAP1 3590398 ACAGAGATTCAAAGGTACCTTCAGAA 1419 NUSAP1 3590399 CCATTGATCAATATATTGAGAGAAA 1420 NUSAP1 3590400 CAGCCCATCAATAAGGGAGGGGTCAG 1421 NUSAP1 3590401 TGTGGCTTCTACTCCCATCAGCCAACGACGCTCGCAAGGCCG GTCTTGTGGCCCTGCAAGTCAGAGTACCTTGGGTCTG 1422 NUSAP1 3590402 CTAAAGATAATGAGCATAAGCGTTCACTGACCAAGACTCCAGC CAGAAAGTCTGCACATGTGACCGTGTCTG 1423 NUSAP1 3590403 TGCTTGGGACACACAAATTAAAGACCATCACGGGGAATTCTGC 1424 NUSAP1 3590404 CCCATTCAAGTTGACAACTGAGGCAACGCAGACTCCAGTCTC CAATAAGAAACCAGTGTTTGATCTTAAAGCAAGTTTGTCTCGTC CC 1425 NUSAP1 3590405 ACCATGGGGGCAATCTAAAGAAAATAATTATCTAAATCAACAT GTCAACAGAATTA 1426 NUSAP1 3590406 AGCAACGGAAGAAACGCGAGCAAGAACGAAAGGAGAAGAAAG CAAAGGTTTTGGGAATGCGAAGGGGCCTCATTTTGGCTGAAG AT 1427 NUSAP1 3590407 CCCACTTTAGTCACGAGATCTTTTTCTGCTAACTGTTCATAGTC TGTGTAGTGTCCATGGGTTCTTCATGTGCTATGATCTCTGAAA AGACGTTATCACCTTAAAGCTCAAATTCTTTGGGATGGTTTTTA CTTAAGTCCATTAACAATTCAGGTTTCTAACGAGACCCATCCTA AAATTCTGTTTCTAGATTTTTAATGTCAAGTTCCCAAGTTCCCC CTGCTGGTTCTAATATTAACAGAACTGCAGTCTTCTGCTAGCC AATAGCATTTACCTGATGGCAGCTAGTTATGCAAGCTTCAGGA GAATTTGAACAATAACAAGAATAGGGTAAGCTGGGATAGAAAG GCCACCTCTTCACTCTCTATAGAATATAGTAACCTTTATGAAAC GGGGCCATATAGTTTGGTTATGACATCAATATTTTACCTAGGT GAAATTGTTTAGGCTTATGTACCTTCGTTCAAATA 1428 NUSAP1 3590408 TACATAGCCCTATCGAAATGCGAGGATTAATGCTTTAATGCTTT TAGAGACAGGGTCTCACTGTGTTGCCCAGGCTGGTCTCAAAC TCCACCAAATGTACTTCTTATTCATTTTATGGAAAAGACTAGGC TTTGCTTAGTATCATGTCCATGTTTCCTTCACCTCAGTGGAGCT TCTGAGTTTTA 1429 NUSAP1 3590410 ATGGCCGCTTCAGACCCACAGCAAAGATTTTTGATAAGGCATG ACTCCTAAACGGATGAATGAGTGCCCCATTAGAGCCAAGATTC TTTTAT 1430 NUSAP1 3590411 CTTGAATCCGTGAGGCAGATGTAGTGAGCAGAG 1431 NUSAP1 3590413 TAGCCAAAGTCTAAGCAGAAGCCCCTGCGACCATTCCAACACT GACAGAACATTCCTCTGCCTTGTTTTACGGATACATTGGGGAA ACTTAAGGATGAGAACTTTAGAAATGGTATTTCTTGGAAACCC ACTTGCTTGTAAATCAGTGGT 1432 NUSAP1 3590415 TGGTATCTGGTGTTAAGGCAGTGCCGAATGGAGGGCAGGAAA CACATTTTTAAATATTTATGGATTTATGTATTTTTCTCATAAAGA CAGGGTCTCCCTATGATTCCCAGGCTCTCCTTGAACGCCTAG GCTCAAGTGATCCTCCCACCTCAGCCTCCCAAAGTGCTGGGA TTACAGGTGTGAGCCACCAGATTATATTTATTTCTATTCGCTGT ATTTAATTCTTAACCCCATGTTTATTTTACATAACTTCCCTATTT CTCAAAAAGAATTTAAGGCCTATTCTCAAAATAATG 1433 NUSAP1 3590417 TTATGAACCATTAAGACAAATTAGACCAGGCATG 1434 NUSAP1 3590419 CCCAGGGCACCTACATATCCAGATAGACATAAATTCCTCACTC CTAAGAAAACCAGGCTTACAAGGCGTCAAGGCCCTATAAAGA GGAAAAACCCAGGACGGTCCTTAGAGGCTTCCTTCAGCATGA AAACCAAGTTAAAGCCAGAGCTCATCCTGGGTTGCAGCAAGT CATGGTTGGGCCCA 1435 FBXL8 3665216 GCTGCTTCCCGTCCGCTGTCCTCTGC 1436 FBXL8 3665217 GGGCAAAGCCCATCTGGTCCGCCGAGCAG 1437 FBXL8 3665218 ACAGCTGCCAGACTTCGGTAAATCAAGGGGGCGCCCCCTGGA GACCAGAATTTTCTGGTACCCCTGGGGATCCGGCTTCAAGATC GCTGCTACCAGTGGGCACTCAAAACGGGGTGCCCATGGGTCC CAGGTACAAGCCCGGCCGAACGTATCTGAAGCCCCAGGAAAC ACGTGGCACAAATTCCGGGAGAAACTGTTAGCCCGGAAGATA 1438 FBXL8 3665219 AGCATTTGTACACCTAAGCTCGGTCTTCCTGCAACACTTTGCG CCTTCCCGACCTCAGAGACGTCCGTCTC 1439 FBXL8 3665220 AGCTATTGGGAGTGGCGGATCCTCCCACCCC 1440 FBXL8 3665221 TGGCACTCATCTTCCGCCACCTGTCCCTGAGAGACCGTGCTG CCGCCGCCAGGGTCTGCAGGGCCTGGGCCGCCGCTGCTACC TGCAGCGCCGTGTGG 1441 FBXL8 3665222 ACTTCCCACGGGTCACTCAGCTAGGGAATGGCAGAGGCAGAA TTCGAACCTAGCAGTCCGGAGGCCATGCCAAGACTCCTTAGA GACAGCTGAGAAAGCCCAGTTCCTAAAATATCATTGGCTCTCC ATGTCCAGGTTTCATCCTGTGGCAGACGCCACTGAAATCTTCT AAAAGGATAGGATGCGAGTTCCCTCCTTTGGGGCAACA 1442 FBXL8 3665223 AGGCCTTTTCTGCACGGCTCTAACC 1443 FBXL8 3665224 AGTGCCGCGGAGAAAAACCGCTCTTCGACGCGGGCCGCGAC GTCCTGGAGGCTGTGCACGCTGTATGCGGGGCGGCCAGCCA GCTACGCCACCTCGACCTGCGGCGCTTGTCCTTCACACTGGA CGACGCGCTGGTGCTGCAGGCGGCGCGCAGCTGTCCCGAGC TCCACAGCCTTTTTCTGGACAACAGTACCCTAGTGGGCAGCGT GGGTCCCGGCTCAGTGCTCGAGCTACTGGAGGCCTGCCCGC GCCTGCGCGCTCTCGGCCTGCACCTAGCCAGTTTGTCGCACG CCATCCTCGAAGCA 1444 FBXL8 3665225 GCGCCCCGAGTGCTAGTGCCTTCTTTTGGGATTGTTGCCCCC CGGGTCTTTACCGAGTTGGGAACTGTGATGGCATCGGGACCA GTCCTGGGCGCCCTGAGACCACTCGCTGCTCT 1445 FBXL8 3665226 ACACTGCCCCCCTCTCTTGCCTCCA 1446 FBXL8 3665227 GTGAGTGTGAAATAAACAAATCCTGCAGTG 1447 ARL6IPIP2 3683039 TGACTTCCTTACTATTGCTTCCTGGACTAA 1448 XPO6 3686340 ATGGGCCTTGGTCACACTCCTTGGCTTCTCCCACCGCAAGCA ACGCTGCCTGCCTCTGCCGCTCCTCCACATCTTGCCGCTGCC CAGCAGAGCTGGCTTCTGGGTCCACCTGAGCACTGGACGGTG CTCCCAGGGCGTTGGAGCAGGCGGAGGGGTGTGTGGCCAGG TACTAGGAGGCACCAGGAAATCCCGCGGGGTGGCCCATGCA GACCAGGCGCACGTGGCTCATGGGGCAGAATTGCCAAGGAC AGCTCACGACAGTGCCACCTT 1449 XPO6 3686341 AATGTGCACAGGCTGGTCAACGACCTGCGCTACTACAGACTC TGCAACGACAGCCTGC 1450 XPO6 3686342 TTAGTCTCAGCCATGGAGGTCCCGAGTTCCTGGCTCTGCAGC CCCTCCATTTGTCTTGGCATCTTTGTTCATACCCAGGACCCTG CCGTTCTCCCTCCTGGGTGATGAGCCCCGGTGGGGCCAGCAT TGGAGTGTGCCCAGGCTTGCATTCAGGCTGAGATGGTTGGTG CTTGGGAGCTGCACTTCTGGGTCCCCAGGGTTAGAGGTGGGA CCCAGGTTCCCCGGCTGTCTTGGGCTCTTTCCAGACCAGCCC CAGCTCAGCTTGGGCTGAGTTGCTGCCAGGTCCTGGGAGGAG CCCTCCTAGTACTCACCCTCTTGTCCCACTGCTGCCACCTGTG CAGGGACTGTCAGGTGGGCTGTCCCCACCCGTGCAGCACCTC GGTGGGAGCTGGGTGCTGCTGGCTCTTGGTGTCCATGAGGC CATCTTGTTGGAGCCTGACAGTGCCTGGGACCTCCTTCCCCAT GGGGCTCACCTGTTCTCTTCTTCCTGTGTCAGGTGACCAGGC CTCTCTCTTGCCTGATAGGAACTTCTGGGAACTTTTCCTTGTAC CGTTTTATACTTGATGAAATTAGGAAAAGAAATCGCTTTCTCCC TGGTCCTCTTGGGGTTCTTGACCTGAGTCCTCTGTGAAGCAGC TTGTCCACGGCTCCACCGTAGTGCTCAGATGCACACACTGCT CTCACTGGTGCAAACCTGGCCGCCTGCTTTCCTCATTTGCCAC GTGTGGCAGGGAAGCTTTTGCTTAGACTCATCCTGTTCTCCTT TGTCTTGGGGTCTTCCTTTTCTTGGGACTTGTTCTCTCCTAAGC CTCTTCCAGTTCACTTCAGCCCCTGGATATGTTTTTTCCTTTTT CTAGAGGCCAGATCCTAATACTTAATGATCAGCTTCTAACGAC ATCAATATCAGTCAACTTTTTGATTTAAAGCTGTGGTTTCAAAA TCTAGTTATAGGCCAGGCGCGGTGTCTCACACCTGTAATCTCA GCACTTTGGGAGGCCAAGGCGGGCGGATCACTTGAGGTTAG GGGGTTTGAGACCAGCCTGGCCAACATGGCGAAACCCTGTCT CTACTAAAAATAAAAAAAATTAGTCAGGTGTGGTGGCACACGC CTGTAATCCCAGCTGCTTGGGAGGCTGAGGCACAAGAATCTC TTGAACCCGGGAGGCAGAGGTTGCAGTGAGCGGAGGTTGTG CCACTGCACTCCAGCCTGGGCGGCAGAGTGGGACTTTGTCTC AAAAAAAAAAATCTAGTTATATCAGAAGCACCTGGGGTACTTAT TAAAAATGGAGAAACAGACTTCTGTGTTCTACCCAGGAAATTC TGGTTTGGCATTTGGGAGCCACTGATTTAAAAGACATCCCTTA GTTGGTTTTTTGAGGGTAAAATAAAAGAATCACCACCTTCCATT CAGTCACGCACTGTGTGTTTGAAGCCAGCTGCTTCTCAAGCCC CGGGCCAGGAACTGGGGCACCAGTCCCAGCCTTCACCAAGT CTTTCATGGTAGACAGGCCAATACAGCACCCTCTGTGGACCA CATAGTGCCAAGCATGTGACATGTCTTGGCTCGAGTAAGCCTT CTAACAAGCCTCTGAAGTGTGGGTCCTGTTACTCCCCCATTTC ACAGATGGTGGGGGCTCAGAAGGTGAGCAGTTCACAGAACTT GGAAGTGGTAGAGCTGCGAAGCAGGAGGCAGACCTGGGTGT TCTGGCCCCAGAGCCTGCACACACTCCCCAGAAGCAGATTGC TCAGGACAGAGGCGCTGAGCTGGCTGCTGGGGCCAGGAAAT AGGAGGCATCTGTGCAGACTTTGGGAAGAGGCAGGCTTTGAA TGGAGTTCTGGAAGAGGAATAGTGGTTGGGCAGGAAAATGAA CTTGGTCCTGCTCATGGCTCTGCTGGGGCTTGCTGGGCCTGT TTGAGTCCTCACCGGGACCTACACTGAAAAAAAAAGCAGGGT CTCACCGTGTGCATGATGGCGGAGGTCAGGGCCTCACTTCTG GCCCAGGGCCTTCCATGGCCCACGCTGCGCCCAGTGGGACA GGCCTTGGGACTGTGTTTGCTGCTGCTCGGGTGGCTCTCGAG GGGCAGGGGCGGCCTGGAGCCCCGTGGGTAAAGGTTCTGCA GACATTGCTCGGTGTGCGCGTCACCTCAAGGGGCCATGGTGA AGAAGAGGGCTGTCACCACAGCCATGTCTGCGTTTGAGGGGC CGGACTCAGGAGCAAGTGTGCTGGTCTCTTCAGTGTGAGCTG GGGCCAGCTTCTTCATGGTGCAGCGCTTTGGTCTTTCTGTCCT TAGACTAGTGGTTCTGGTAGGGCTTGGTGGCAGCCTTGTGGT GAGGACTCAGTGAGTTGATGTCTGTATGTTGATTGCAGCAGTG TCTGGCACCCGAGAGGCCCTAGGGACGTATTCCTCTTG 1451 XPO6 3686343 AGGTCCTGGTCCACAAGTCCCATGATCTTCTGCAGGAGGAGA TTGGCATCGCCATCTACAACATGGCCTCAGTCGACTTTGATGG CTTCTTTGCCGCCTTCCTCCCAGAGTTCCTGACCAGCTGTGAT GGTGTGGATGCCAACCAGAAAAGTGTGCTGGGG 1452 XPO6 3686344 GTCCTTTCTCCAGCCCGACATCCACCTTTTTAAACAAAATCTCT TCTACTTGGAGACTCTCAACACCAAGCAGA

1453 XPO6 3686345 ACAGGACTGAGCTTCTGTGCCTGGACTGAACTAGTAACTTTTA CACCCAGGAATTCCAAAGCAGTTTAAAAATACTTTGCTTAGCC CCCAGGCAGAGGCTTAACCTCCAGG 1454 XPO6 3686346 GCCGAGCTGTTTGAGCTCCTTTTCCGGACGCTCCATCACAACT GGAGGTACTTCTTCAAGTCCACCGTGCTGGCCAGTG 1455 XPO6 3686347 GAGCAGTTAGCCGAGAGCATCCTCCACGAGGGCAGCACAGG CTGCCGGGTGGTGGAGAAGTTTCTGAAGATCCTGCAGGTGGT GGTCCAGGAGCCAGGCCAGGTGTTCAAGCCCTTCCTCCCCAG CATCATCGCCCTGTGCATGGAGCA 1456 XPO6 3686348 ACTGATGAGATGCTGAGCTTCTTCCTCACTCTGTTTCGAGGCC TTAGAGTACAGATGGGTGTGCCTTTCACTGAGCAAATCATACA GACTTTC 1457 XPO6 3686349 ACCAGACACTCAGCGTCTTAGAAGATATTGTGGAGAATATCTC GGGGGAGTCCACCAAGTCTCGACAGATTTGCTACCAGTCGCT GCAGGAATC 1458 XPO6 3686350 CATTTTTGAAGCGTCCAGGCCTGTTTTCTTGTCATATGTCTCCT AGTCTTGTTTTGCCTGATTGTTTCCATAGGTTGTGGTGTAGTG GTGCATGTTCGTGTTCGCATTTCCTCTTGCATTGCTTCTGTTTG TCCCATCCTTGGTGATGCTCAGTCTGGATGCCTGTTGGGAGTA GGGCCTGCCAGTCTGTCCATTGGGAAGGTGCTTGGCAGGTGT AATTGCTCAGGACTGTAGAGAAAGTGGGCGAGGTCAAGAGTT GGACTTGGGTCTGAATGGCTCCAGCTC 1459 XPO6 3686351 AGCAGTGGCCCGTGCGCTCCATCAACCACGCCAGCCTCATCT CTGCACTCTCCCGGGACTATCGCAACCTGAAGC 1460 XPO6 3686352 CCAGGTGTTGGTGTGCCGAGCCCTCTCTAACATCTTGCTGCTT CCGTGGCCAAACCTTC 1461 XPO6 3686353 AGCTGCTGCTATCTGCGTGCCACTTACTGGTCTCACTGGCCAC CACCGTGCGGCCCGTCTTTCTGATCAGCATCCCTGCAGTGCA GAAAGTATTCAACAGAATCACTGATGCCTCTGCCCTGCGACTT GTCGATAA 1462 XPO6 3686354 GGGCAAAATGCTATGAAACGGCACCGCATGCTCCAGAGAAAT ATTTCATGAAAGGAAGTCAATCGATGCAGCAAACTTCATTGTT GTCTTATTTTAAGTAATTGCCACAGCCACCCCAACTTTGAGCAA CCACCACCCTGTTCAGTCAGCAGCAGTCACTTTCAAGGAAGA CCCTTCACCAGCAAAAAGATTACCGCTCTGAAGGCTCAGATGA TTGTTAGCATTTTTAGCAATAAACTACTTTTTAACTAAGATATGT ACATTGTTTTCTTAGACATAATGCTTATTGCACACTTTATAGACT ATAGTGTAAACAAAACATATGCATTGGGAAACAAAAAAATTAGT GTGCCTTGCGTTATTGCATAATTTGCTTTATTGTGGTGGTCTG GAGCTGAACCTGCAGTATCTCTGAGGTATGCCTGTATATCCTT CCAGACTTTTTTCTCTTTTTATGTAATAAGTAATAACTAAGTTTG TAGATAGCTGGAGATA 1463 XPO6 3686355 GTTGTAGCCTACATGCATTCAGATACAACTTTACTTTTTTAGTT ATCTGAGTTCCACATGAATACATGCTCACTG 1464 XPO6 3686356 GGCTTACTCTCACTGGTTAGCACAGTATTGCAGTGAAGTTCAC CGGCAGAACACGCAGCAGTTCGTGACACTCATCTCTACTACC ATGGATGCAATCACAC 1465 XPO6 3686357 GAGGACCTTTTGCAGATCCAGATCTTAATTTTTTTAAAAGCATG TCCTACAATCTGGATTTGTCTAATTATTTCCATTATATTAGATTC AGTTTAAACATTTTTAGCAAGGTTACTACATAGGCAATGATGTG CCTTTCCTCTTGCATCATGTCAGAAGGCTCTTAATATCAA 1466 XPO6 3686358 TTTCAGCCTTGAGGAGCTCTACAGATGTGCTAGATTGACTGAA ATTCTTACTCCTAAGGCTGACTTTGATGTCCTTTCTCTT 1467 XPO6 3686359 TCAAAGTCACTCTGTACGGATCTCAGATAAAATTGTACAACATT GAAACTGCTGTGCCATCAGTATTGAAACC 1468 XPO6 3686360 GATATATCTTATCTGTTCAGTTGGCGGGGCGCA 1469 XPO6 3686361 AACATCACGGCGGAGAACGACTGCCGGCGGCTGCACTGCTC CCTGAGAGACTTGAGCTCCCTGCTGCAGGCCGTGGGCCGCCT GGCCGAGTACTTTATCGGGGA 1470 XPO6 3686362 TTTGAAGAAGTTGTGTTGAAAAGTAAGGAAATTTCAGA 1471 XPO6 3686363 GCCTGTGTAAATGGGCGCCAGCCGCGATTCTTGTCTACTCCT GGTGCTGTGACCGTGTATGACAATGGGATGCACATTTTGGCC AGC 1472 XPO6 3686364 CTTCTTATGGGATCTGTCCCGGCTCTG 1473 XPO6 3686365 TTTAAAGGCTTATGATGAAAAGCTGTGGGGGAG 1474 XPO6 3686366 TGTTCTTCAGGACAATTTAGAAGTTTATTTGGGATTACAACAGT TTATAGTCACTTCAGGGTCAG 1475 XPO6 3686368 TCCTGCTCACAGAGGTGTTGAATCGAATCCAGTTCAGATACAA CCAAGCCCAGCTG 1476 XPO6 3686369 TTGTTTGGATATCTGGACGCTGTTTTTGGACTATCT 1477 XPO6 3686371 GTGGTTAATGGAATGAAGGGTTGCCTGTCCTGTAG 1478 XPO6 3686372 AGCCTTCTAGACTTGCCAGATTGAAATGACACAGTGATCTGCC CATCAACTTTTTATCATTTCCCTTCACTTTAATTGGGTCACAAC ACAAATGACTTAGAAAATGTGAGCGCACTAGATTATAAGAAGC CTTAGCAGACAGTGTCTGAGGATTAAAGTTGC 1479 XPO6 3686373 CAGGAGCAACATGGGACATTTTATTTCCGGGCCAGTTTTGCTT TTCTGAGTAGTAGTTTTCTCTGCTTTTATTATTTCACATATCTCT GTTTTGAAAAATAGCTTTTGCAGTAATGAGCTTCAGAATTGCTT TTAGCCATTATTTCATTTTCAGCTAAGGCCTAGTATGTCTTTAC CTT 1480 XPO6 3686374 AAAACCGTGATGTTTGCTCTGTATAAGAACACAATCTGATATG GTAATATGTTCTTAAAAATTATTTGGTGATAGCTTTCCATATGAA TTCAAAGGCATCATTATTCACACTTTCATATTCTTTCTGTCTGT GGTTAAGAAAGGCTGTATTACCTTTTTTTTAATGATCTGTGTGT CTCATGTCTATCTCTTCATATGTTAATTTAAAAATCTAGCTGCTT GTATCAACTATCAAATATCAGTTGTTTTGACTTTAATCATAATGT AGTCACAGACAACTTTGTTGTGGCTTCCATTTGGATGGTATAG AAATGTCATTATGGATTGTCTATGTACTGATGTTGTTACGTGTA ACTTTTGTGCTCTTGGTTTTACATTTTAATCCTGTGCTTCCTATT GCCCTGTGAAAGCTGAGAGGTGCCTGGGAGCAGAAAGGTGA CATAAATAATGCTGTGTGCTTGCTTCCTGGCTCTGGGTCCCCT ACCACTAATTCTAAACAGCTCAGTCCATTCTCAGTTGTTTAGGA GCTGCTAACCAGATCCTTGGCTTCTCTTTCCCTCTACTGCCTTT TCCCCTAACTTTCTACTGTTCATTAGCACCTGTACCAGAAGG 1481 XPO6 3686375 TTGTTATTGTCCTCTCAAGTGGAGCCTACAATGACCTACTTTTT TTTTTTTTTAAAAGCACTCTAAAAGACGACTCCATCACAGTACT CTGAGGCAGGGTTTCATGATTTATGTCTCTTGCAGATGAGGTC ATTTATGTATCTTACAACTGCTGCTGTATGAAAACAGGAGGGA ATTTGGAAACTTATATTATGAACAATCAGATTGACGGTTTAGGG ACTTTC 1482 XPO6 3686376 GAGACTGCTGCTCCTGCGTAGCCAAGAACAGG 1483 XPO6 3686377 ACAGAAAGGTAGGTGTGTGCCAGTAAGTCTGAGATTAGCTGG AAGGGCTTGGGTGGTTAAGGGAAGTGACTGAGTTTGAAAAAT GCTTGTGCCTTGTGTAGGTTTGTTGTCTT 1484 XPO6 3686378 TGCTGTGCTGCATGGCATCTGTAATCCTCTTT 1485 XPO6 3686379 ATCAATGAACTCATGTCCAAGAACTGTGT 1486 XPO6 3686380 AGCTAGCGCACCCTCTTAATTCCTACGTCTGTTTAGTCTTGAG TCTCTATGTAATTTGATGCCAGTGTGTCCTTTTGCTACAGCTTC TCCATTCCTTAATTCTTTATTTTGATTTATCTCTTTATCTGTGTG GTTTCTTTGTCTGTTATCCTCCTTGAGAA 1487 XPO6 3686381 GGAGGGTTGAAGTGGGAGAATGGCTT 1488 XPO6 3686383 GTCTTTTCTGTTTGATGAGAGCCTCATGACAAGGTGTAAAGGG TAAGAATAAACAGAAAGCAAACCACAACATGAGACAGGAAGGT AGGAGGAGAGGGGAGTGCCCTGGGTGACTGGGGTGGCTGCT GTGTGCTGCTGTGATACCTGTTTGCTAGGGAGACATGTATGCA ATGCCTGGCCGTGAGGCCCTGAGGGTGCCGGGAGCCTGGGC TTGCTACTTGAGGGAATCTTGTAGTGAAAAGAAGTTTTTATCTC TAACTCCTTTATCCAGGCTTCTTCTTGGATGTCTAGGAACTTTC TTTATATCTCCAGTTTAGTGCTTGGCATGTGGTGGGCACTTAA AGTTGGCTGAAAGAACCATTGATTTAAAGTAAACTTGGGTTAG TGCAATGGCTC 1489 XPO6 3686385 TAGACCATCTCTGGATTACTTCTAATA 1490 XPO6 3686386 ATGGAAATCCGTAGCTGTCTGCCCAAACTCCTTTTGGCTCACC ATAAAACCTTACCTTACTTTATCCGGAACAAGCTCTGCA 1491 XPO6 3686390 GCCTCTCTCAGGGCATTGGAAAGTCTGATGACAGAATTTTTTC ACGATTGTACAA 1492 XPO6 3686391 GAGTGATTTATCTGATTGGTACACCAGGGA 1493 XPO6 3686392 TCTCAAGCTTCATCCGTGTGGTGGCGTGTGTCAGAGCTTCCTT C 1494 XPO6 3686393 AGTGGAGTCATGAAGTATTTGGCCTGTTGTGACTGCCTTATTT CACA 1495 XPO6 3686394 GGCCTGTCAGCCTCCGCCCGTTCAGCCTCGGGGCCGGGGCC GCCGCCACCTCTGCCCGCGGAGGCCGGGGAGCCCCTGCCTG GGCCCGCAGCCTCCCCCGCGGGGGTCGGGCCCGGGCGGGG GTCCCGAGCAGCTGCCCTCCTCGCCGGCATCCGAGCCTCATT TCCTGCTTTTTCAGTTTCCTTGGGGAGGGGCGGGTGGGTCTG GATGAATTGTCTCGGGGTCCCCCGATGAGGCGACCCGGGCG GCCCTGCCCTTTTTAGAGGGTCCCCTCGGGGCCCGGTGGGG AAGGGGTTGTCTTTGCATGGGTGGGGGACTTCCCGAGTCTGC CGGGACCATGACCTGAACTGTGCGAGCGGGACGTGTCCGAA GCCCAAGA 1496 XPO6 3686396 TGCTTTGTGATAGGGAGAGTTATTTCTAAGGGAAAGGAATGTA CCCTGTATTTCTTTCTTTTTCTTTTTTTTTTTTTTTTTTTTTGAGA CAGAGTCTTGCTCTCTTGCCCAGGCTGGAATACAGTGGGGTG ATCTTGGCTCACTGCAACCTTTGCCTCCTGGGTTCAAGTGATC CTCCTGCCTCAGCCTCCTGAGTAGCTGGGACTATAGGCGCCT GCCACCACACCCGGCTAATTTTTGTATTTTTAGTAGAGATGGA GTTTCACCATGTTGGCCAGGTTGGTCTCGAACTGCTGACCTCA AGTGATAAAGTGCTGGGATTACAGGCATGAGCCACCACGCCC AGCCCGTACCCTGTATTTCTTGAAGTGAAGAATATAAAGTCTG TA 1497 XPO6 3686397 TCACAGCTCATAGTGACCTCGATCTCCTGGTC 1498 XPO6 3686399 TGCAGAGATTACCTATGTTACAGGCTTAAATTATAGATGTGAA GATGGTAAAGGGAGACACTATTTTAATCAAAAGCTTCCTGGGT ACAAAGCTAATGAGAGGAAAAATTATACATTTTATCAAGCTCTT TTTCAAGTAAAGAATAGCTTTCTTTTTTCATCTGGCTTCTTGCC TGACCTTCTCCCCTTCCCCTAAATGGTGAGAGGAAGGAGAGC TTGCAGATAGATTTTCCATATCGTAGGGGATTTTTATATCTGGG AAGCACAGCATTTCATATTTATAGGAGGGTGTATATTGCCAAAT GGGATATTTGGCATTACGAGTCATTTCCAGCTGAGAGAGTAAG GATGCA 1499 XPO6 3686401 TCCCTGGCGTTCTGTCCAATACACTTGCCTTCAATCCAAGTTG AGGACGGTTATGGTAACCCTCTCCAAGGCTCTCTTAAGTGGG CGTCAGGGAAGCCCACTGGAGACAGGAAAGACCAAGAGGGT TGGGAGTCTAAGTGAACCTATTCCTGGGTTGGTTAGTGGTGC GTCCTGTGACAAGAAGAGAGGGACCTTGAGACGGAGAGTCAC AGGCCTGATGATAGCAGGTAAGGTGGAGCCACAGTTCCACCG CTGGGATTGGTCCCTTTGATGAAGAACAGAACGTTTCCTGGCT ACATTTGAAGTATAATTATTTGTAACAAAAGATGGATTTGGAAG AGAGCACTTTTAGGTGAAGGGCTTCTGGAGGTTTAAAAAGGCT AATTGTCCACTGTTCTCCACCACCTCCCGCTTTCAACCCCTTC AGTATTGACTCCTTTAACCTCATGTAGCTTTCGTGACTTTGAAA CACCATGTAGTAGAAGGAGCCAGAC 1500 XPO6 3686403 TAAATTTTAGCCTTTCTGGTAGATGTGTAGCACTATCTTATTTTA AATTTGTATTTTCCTGATAACTAATGAGGCTGAACACTTATTTAT AGGCTTTTTGAATA 1501 XPO6 3686405 GGATGTAACTGCTAGGCCACCTTCAGTTCTTTGAAGTTAGGGA CCGTCTTACTCATCATTGTATCCCAGGGGCTTAATTTAAGCAAT ATCAGTTACTTAGTGAGTATTGAATTCTCATTTCTCCAACAAAT AGCTGAGTTGCTTAGTCACTCCAGAATTAAAGCTAGGTTTAGA ATAATTGGAGCGGTGTGATGGCATGTGCCTATAGTCTCAGCTT CTCAGGAGGCTGAAGTGGGGAGGATCGCCTGAGCCCAGGGG TTTGAGGCTGCAGTGAGCTGTGATTGTTCCACTGCACTCCAGT CTGGGGTGATACAGCAACACTCTG 1502 XPO6 3686407 CTCCCACATGACTATGGTACAGTTACCATCTTCGGTTAATAGA ACATTGATTCAGTACTTTGATCTAACCTACTACCACCTGTATTC CAGTTTTGTCAATTGGCTCAGTCATGCCTTTCATAGCATTTTTT CCCTCCAGTCCAGGATCAATCTGTGGTCAGGTGTAGCATTTAC TT 1503 XPO6 3686409 TGCAGCATGCTTTTATAGTGGTTCGTCAGTTTCATACTCATTCA TTACCTGATG 1504 XPO6 3686411 ATGGTGTGTGTGAAGACATGGAACTGTTATGTGGAGAGAAA 1505 RP13- 3716787 ACAGTTGGTGTTACGTTAGAGCTAATAATTATACTTTAGCACGT 753N3.3 TAACCTCAGAATTCTAAGGCTGAGAGTCAAACACTGCTAATTC ATAGAAGGCAATAGCTTGTAATAATGAATCATAAAGCTCTTCTA CTCTTTGTAGTTCAGTAGATAAAAACATCTGTCTGTAGTGAACT ATTTTATCTGATGGGAAGAACACCCGAGGATCCGCCTTCAGTA TAGAATCGAAGAGAAACTGCTTCACTAGCTCTTTTCCACTAGT

CCGGGAGTCACCAATCATCA 1506 TOP2A 3756154 TGAAATTGAATTAAGTTTAAGGCTGGGTG 1507 TOP2A 3756155 GGCTGTTCCAAAACAGTAAGTTATCTCTATTGATTGT 1508 TOP2A 3756156 GGAACTAAGCATGGTGGGAAATGTTCCTGCT 1509 TOP2A 3756194 CTGGATTGCAGAAGACTCGGGGACAACATTTGATCCAAGATCT TAAATGTTATATTGATAACCATGCTCAGCAATGAGCTATTAGAT TCATTTTGGGAAATCTCCATAATTTCAATTTGTAAACTTTGTTAA GACCTGTCTACATTGTTATATGTG 1510 TOP2A 3756195 AGTGACCATCTCATGGGCATTGTTTTCTTCTCTGCTTTGTCTGT GTTTTGAGTCTGCTTTCTTTTGTCTTTAAAACCTGATTTTTAAGT TCTTCTGAACTGTAGAAATAGCTATCTGATCACTTCAGCGTAAA GCAGTGTGTTTATTAACCATCCACTAAGCTAAAACTAGAGCAG TTTGATTTAAAAGTGTCACTCTTCCTCCTTTTCTACTTTCAGTAG ATATGAGATAGAGCATAATTATCTGTTTTATCTTAGTTTTATACA TAATTTACCATCAGATAGAACTTTATGGTTCTAGTACAGATACT CTACTACACTCAGCCTCTTATGTGCCAAGTTTTTCTTTAAGCAA TGAGAAATTGCTCATGTTCTTCATCTTCTCAAATCATCAGAGGC CGAAGAAAAACACTTTGGCTGTGTCTATAACTTG 1511 TOP2A 3756196 CAAGGGGGAGAGTGATGACTTCCATATGGACTTTGACTCAGC TGTGGCTCCTCGGGCAAAATCTGTACGGGCAAAGAAACCTAT A 1512 TOP2A 3756197 CTGGTGTCTCTCAAAAGCCTGATCCTGCCAAAACCAAGAATCG CCGCAAAAGGAAGCCATCCACTTCTGATGATTCTGACTCTAAT TTTGAGAAAATTGTTTCGAAAGCAGTCACAAGCAAG 1513 TOP2A 3756198 AGTTCCTAAAAAGAATGTGACAGTGAAGAA 1514 TOP2A 3756199 GGCAGTGTACCACTGTCTTCAAGCCCTCCTGCTACACATTTCC CAG 1515 TOP2A 3756200 TTAGTAACAAAGAACTGAAACCACAGAAAAGTGTCGTGTCAG 1516 TOP2A 3756201 TGATGAAGATTTTGTCCCATCAGAT 1517 TOP2A 3756202 ACAAACTACATTGGCATTTAAGCCAATCAAAAAAGGAAAGAAG AGAAATCCCTGGTCTGATTCAGAATCAGATAGGAGCAGTGAC GAAAGTAATTTTGATGTCCCTCCACGAGA 1518 TOP2A 3756203 AAAATACTGAAGGAAGCCCTCAAGAAGATGGTGTGGAACTAG AAGGCCTAAAACAAAGATTAG 1519 TOP2A 3756204 AACAAGATGAACAAGTCGGACTTCCTGGGAAAGGGGGGAAGG CCAAGGGGAAAAAAACACAAATGGCTGAAGTTTTGCCTTCTCC GCGTGGTCAAAGAGTCATTCCACGAATAACCATAGAAATGAA 1520 TOP2A 3756205 GAACAAGAGCTGGACACATTAAAAAGAAAGAGTCCATCAGATT TGTGGAAAG 1521 TOP2A 3756206 TGACTCCGTAACAGATTCTGGACCAACCTTCAACTATCTTCTTG ATATGCCCCTTTGGTATTTAACC 1522 TOP2A 3756207 AATGAAGAGAGTGACAACGAAAAGGAAA 1523 TOP2A 3756208 ATTAATTAAAGTTCTGATTCAGAGGGGATATGATTCGGATCCT GTGAAGGC 1524 TOP2A 3756209 GCTTTTTGACCACGTAGGCTGTTTAAAGAAATATGACACGGTG TTGGATATTCTAAGAGACTTTTTTGAACTCAGACTTAAATATTAT GGATTAAGAAAAGAATGGCTCCTAGGAATGCTTGGTGCTGAAT CTGCTAAACTGAATAATCAGGCTCGCTTTATCTTAGAGA 1525 TOP2A 3756210 CCTCCTCTCATAACAGACTATAGGGAATACCATACAGATACCA CTGTGAAATTTGTTGTGAAGATGACTGAAGAAAAACTGGCAGA GGCAGAGAGAGTTGGACTACACAAAGTCTTCAAACTCCAAACT AG 1526 TOP2A 3756211 TCAAGGGTACTATTGAAGAACTGGCTCCAAATCAATATGTGAT TAGTGGTGAAGTAGCTATTCTTAATTCTACAACCATTGAAATCT CAGAGCTTCCCGTCAGAACATGGA 1527 TOP2A 3756212 GGCTCGATTGTTATTTCCACCAAAAGATGATCACACGTTGAAG TTTTTATATGATGACAACCAGCGTGTTGAGCCTGAATGGTACA TTCCTATTATTCCCATGGTGCTGATAAATGGTGCTGAAGGAAT CGGTACTGGGTGGTCCTGCAAAATCCCCAACTTTGATGTGCGT GAAATTG 1528 TOP2A 3756213 GACCATTATCAATTTGGCTCAGAATTTTGTGGGTAGCAATAATC TAAACCTCTTGCAGCCCATTGGTCAGTTTGGTACCAGGCTACA TGGTGGCAAGGATTCTGCTAGTCCACGATA 1529 TOP2A 3756214 TGTTTACTTGCTTCAAACGGAATGACAAGCGAGAAGTAAAGGT TGCCCAATTAGCTG 1530 TOP2A 3756215 TCTGACATATAATGACTTCATCAACAAGGAACTTATCTTGTTCT CAAATTCTGATAACGAGAGATCTATCCCTTCTATGGTGGATG 1531 TOP2A 3756216 AACAGATAGATGATCGAAAGGAATGGTTAACTAATTTCATGGA GGATAGAAGACAACGAAAGTTACTTGGGCTTCCTG 1532 TOP2A 3756217 CCAGCACATCAAAGGAAGCTAAAGAATACTTTGCAGATATGAA AAGACATCGTATCCAGTTCAAATATTCTGGT 1533 TOP2A 3756218 GAAGAGTGGAAGAGTTCTACTCCAAAT 1534 TOP2A 3756219 TGGCCCTCTCTTCTGCGACATCGTTTTCTGGAGGAATT 1535 TOP2A 3756220 AATATCATCAAGATTGTGGGTCTTCAGTACAAGAAAAACTATGA AGATGAAGATTCATTGAAGACGCTTCGTTATGGGAA 1536 TOP2A 3756221 TGGGAGAGACAAATATGGGGTTTTCCCTCTTAGAGGAAAAATA CTCAATGTTCGAGAAGCTTCTCATAAGCAG 1537 TOP2A 3756222 CTCCACTGAGTGTACGCTTATCCTGACTGAGGGAGATTCAGCC AAAACTTTGGCT 1538 TOP2A 3756223 CATTGGCTGTGGTATTGTAGAAAGCATACTAAACTGGGTGAAG TTTAAGGCCCAAGTCCAGTTAAACAAGAAGTGTTCAGCTGTAA AACATAATAGAATCAAGGGAATTCCCAAACTCGA 1539 TOP2A 3756224 TGTAAATGCCTTAATTGAAAACCCAACCTTTGACTCTCAGACAA AAGAAAACATGACTTTACAACCCAAGAG 1540 TOP2A 3756225 GCTGATCAGATTGTGACTAAACTTGTTGATGTTGTGAAGAAGA AGAACAAGGGTGGTGTTGCAGTAAAAGCACATCAG 1541 TOP2A 3756226 AAAGGATTTCGTAGTTATGTGGACATGTATTTGAAGGACAAGT TGGATGAAACTGGTAACTCCTTGAAAGTAATACATGAACAAGT AAACCACAGGTGGGAAGTGTGTTTAACTATGAGTGAAAAAGGC TTTCAGCAAATTAGCTTTGTC 1542 TOP2A 3756227 TATACATGTATCACCTTTCAGCCTGATTTGTCTAAGTTTAAAAT GCAAAGCCTGGACAAAGATATTGTTGCACTAATGGTCAGAAGA GCATATGATATTGCTGGATCCACCAAAGATGTC 1543 TOP2A 3756228 TGGCTATGGAGCCAAATTGTGTAACATATTCAGTACCAAATTTA C 1544 TOP2A 3756229 TGAAAAGATGTATGTCCCAGCTCTCATATTTGGACAGCTCCTA ACTTCTAGTAACTATG 1545 TOP2A 3756230 TAATGCTGCGGACAACAAACAAAGGGACCCAAAAATGTCTTGT ATTAGAGTCACAATTGATCC 1546 TOP2A 3756231 CAAATGTGGGTTTACGATGAAGATGTTGGCATTAACTATAGGG AAGTCACTTTTGTTCCTGGTTTGTACA 1547 TOP2A 3756232 GAACATATTTTGCTCCGCCCAGACACCTACATTGGTTCTGTGG AATTAGTGACCCAG 1548 TOP2A 3756233 CCTGTAAATGAAAATATGCAAGTCAACAAAATAAAG 1549 TOP2A 3756234 GTTCTTGAGCCCCTTCACGACCGTCACC 1550 TOP2A 3756235 TTCAAGTGGAGCTCTCCTAACCGACGCGCGTCTGTGGAGAAG CGGCTTGGTCGGGGGTGGTCTCGTGGGGTCCTGCCTGTTTAG TCGCTTTCAG 1551 TOP2A 3756237 TTAAATAGGAATTCATACCAGGGACAAAGCAG 1552 TOP2A 3756239 GGTCACTTATACACGCATTTCTTTAAAATATCTGATTAGGTATT TATAGTTTGAAAGAGATGATGTTTCCTTGACTGAGCATCTTGAG AAATCAAGATTTAGTTGACAATTAGACATGAGGAGAATAGAGA GCTAGAAGACCTTGCATAAACTGATTGACCAAGAGAATAGATA CACTAATCATGTCTACAGGAACAGAAAATAAAAGAGACAGAGA AGAGATAATAAATCTGATGGTAAAAAAAAAAAAAGGCAGGAAG ATTACGAATGGCTTCTACTCTCTGGGTGTGGTGGCGCATGCCT GTAATCTCAGCACTTGAGCTGGGGAGGTCAAGGCTGCAGTGA GCCTAGGTAGTGCCACTGCACTCCAGCCTGGACACAAGAGTG AGAGAGACCCTGTCTCCAAAAAAAAATGATTTGATCATATATGA TTTGACTGCCCCCTTGTGGTAATTTACATTTGTCAATGGTTTAG GGAGACTTGCCTGTATACCGGGATATACAAATTTATGCAAGCA CGAAGACAGTTTA 1553 TOP2A 3756241 ATCGGCCCGTTTCCTATTATGGAAGATTTAGGTCATTTCCATGT TATAAATAATATTGAGGTGATTATTTTGGAGTATAAAACAAGAA TGTTTATATTATGATCTATTACCTAACAAATAATTTTGCTCATTA TATAGTAAATTGTGTTTTATCACAAGGCTATAAACAGCATGTTC 1554 TOP2A 3756243 GCTCATTTGTATTCTAGATTTCTGATAGATCCCTTCTTCCCTAA TATGATCCCTAATATGAATCTTC 1555 TOP2A 3756245 AAATAAAGCATGAGTACATTTTTAGTGGCTTAATATCAACTTCT ATTGCAG 1556 TOP2A 3756247 CTTAAATTATTAATCATGATTTATCTTTACATATATGTGTTCTTAT TGT 1557 KRT15 3757079 TTGCATGCGCTCTATTCCCCCTCTGCCTCTCCCCACCTTCTTT GGAGCAAGGAGATGCAGCTGTATTGTGTAACAAGCTCATTTGT ACAGTGT 1558 KRT15 3757080 GTGTCTATTGCAGGAGAAACGTCCCTTGCCACTCCCCACTCTC ATCAGGCCAAGTGGAGGACTGGCCAGAGGGCCTGCACATGC AAACTCCAGTCCCTGCCTTCAGAGAGCTGAAAAGGGTCCCTC GGT 1559 KRT15 3757081 GTGGTTTCTTCCCACAAGAGAGAAATCTAA 1560 KRT15 3757082 CAATTTCCACATCAATGTAGAAGAGTCAGTGGA 1561 KRT15 3757083 TTGAGTAGGCTTCATTCAGGGCATGTCTCTCCCCCAGGCCCC ATCTTCATACACTTCCGCTAAGATGCCCACAATTCATCCCCCTT CATGTGCAGCTTGAAAAACCCTGACATTGTTGCTCCCTGCCGG GCATACCTGCCATTGCCACTGCCCATCTCTGTGATGAGGAATT CAACACCAGATCTCTGGCAGCTCTTGAGGGATTGGCCAGTGG CCATTCTCAGGGGTGCTGTCTAGTTTTCC 1562 KRT15 3757084 GATGGCTGGCATTGCCATCAGGGAAG 1563 KRT15 3757085 AGGATCTGGACTCCTCACTCTGGTCCTTGGCTGTTACCTGGGA CAGGTCACTTCCTCTCTCTGGATCCGTGTTTCTTCTGTAAATGA TAGAGGCTGGGCTAGTGGTAGTTAAGATCTAGTGCTCATTCCA TTCTCTGCATGAGATAGATGGGTATTCTTGTAGTTCAGAATCTT GACCAGCTCAGTGGCTCATGCCTGTAATCCCAGCACTTTGGG AGTCCAAGGCGGGTGGATCACTTGAGGTCAGGAGTTCGAGAC CAGCATGGCCAATATGGTGAAACCCCGTCTCTACTAAAAATAC AAAAATTAGCTGGGCGTGGTGGCGGGTGCCTGTAATCCCAGC TACTCGGGAGGCTGAGGCACAAGAATCACTTGAACCCGGGAG GCGGAGGTTTCAGTGGGCTGAGATCGTGCCACTGCACTCCAG CCTGGGCGACAGAGTGAGATTCCGTCTCAAAAAACAAAACAAA ACAAAACAAAATCTGTCTACTTGGGGATAGCAGGCCTGGATG GGCTAGCAGGATGTCCCACCCCTAGAGGAGTCAGATGTGTGG GTGGTGGTGGTGTAGGGTCTGAAGAACACTGCATAGCTATCT ACATGAGCTTCCCTTACGGACACTTGAGCTTGTGCCCTTTGCT TAAATC 1564 KRT15 3757086 AGAGTGCCGCTATGCCACGCAGCTGCAGCAGATCCAGGGGC TCATTGGTGGCCTGGAGGCCCAGCTGAGTGAGCTCCGATGCG AGATGGAGGCTCAGAACCAGGAGTACAAGATGCTGCTTGACA TAAAGACACGGCTGG 1565 KRT15 3757087 CCTGATGTGTCTATGCATCTGTCACTCCCCCA 1566 KRT15 3757088 AGAGGTGGCCTCCAACACAGAAATGATCCAGACCAGCAAGAC GGAGATCACAGACCTGAGACGCACGATGCAGGAGCTG 1567 KRT15 3757089 CTGGCCGGCCAGGTCAATGTGGAGATGGACGCAGCACCGGG TGTGGACCTGACCCGTGTGCTGGCAGAGATGAGGGAGCAGTA CGAGGCCATGGCGGAGAAGAACCGCCGGGATGTCGAGGCCT 1568 KRT15 3757090 GTGAGAGCTGGCCCCCATCACCCCTGA 1569 KRT15 3757091 TGACATCAACGGCTTGCGCCGAGTCCTGGATGAGC 1570 KRT15 3757092 CTCCTCTTCCTGCATTGCCCACTTTACTTGGCCTTCTCCTGGC TCTGACTCAGGCAGCCAAGACCCCTCCCACTTCC 1571 KRT15 3757093 ACCATCGACAACTCCCGGGTCATCCTGGAGATCG 1572 KRT15 3757094 GTTCTGTAGATCCATGGCTGTGTCCAAGGTGTGCAGGAGGCA GTGACCATGAGTTGTCCACAGTGGGGCTGGTGGAGTGTCTCT GAGAGAGCTATTGTCAGAGCTGGCTGCACCCCACTGCCCCAC TCTCCTGGGCAACCAATTCCCACAGGCAATACTGCCTCCTTGG TCTTTCGTGCCCTGGAGA

1573 KRT15 3757095 GTGAGTCCTCGGATGTCAAAGAGAGG 1574 KRT15 3757096 CAACCAGCCCAGAATGCGACTACAGCCAATACT 1575 KRT15 3757098 CTCTGGCAATGAGAAAATTACCATGC 1576 KRT15 3757099 GTTTGTCTCTTCAGGGTCAGGAGGAGGATATGGGGGTGGCAT GAGGGTCTGTGGCTTTGGTGGAGGGGCTGGTAGTGTTTTC 1577 KRT15 3757100 GGTGGAAGCCGAAGTATCTCAGCTTCTTCTGC 1578 KRT15 3757101 GAGGTCCCACAACACCCTCTGAAGGGTATATAAGGAGCCCCA GCGTGCAGCCTGGCCTGGTACCTCCTGCCAGCATCTCTTGGG TTTGCTGAGAACTCACGGGCTCCAGCTACCTG 1579 KRT15 3757102 GATCGGCCAGTGGACTCCCAAACTAAGAACACGGAGCTGTCC TCTTGGGGAGAGGCTCAGGGCTCGGGGAAGTGAAGTCCAGC TGAGGGCACAGTTGGCCTGAGCTGCTCTCAGTACAGGCAGAG GCCTTGGTAGCTGTGCTGTGATGAGAGTTCGCTCCCTGCTGC TCTCTTCTGGCATGGAGAGATGAACCTGTAATCCAAGTGTTAA AACCGTGCCCTG 1580 KRT15 3757103 CCCAGCCTTATCAGCGGAGGTTTGCCCCAACACATCCCAGAA ACGAGCAAAGGTTCAGCGCCGTGCAGTTGGCAGGTGTCGGG ATCATCAGTCATCCCCTTGTCAGTCCCAAGCCTGCTGGGCTTT TGTGAGGGTGCCAGGAACACAGGCTGGAGGATGGCAGGAGG GGAGTAGAGGTGGGAGGAGGGGAGTCCATCTGCAGCACCAG GTAAGGGGATGGATGCTGGCTCCTCTGGTCACCTCAGCTGGA ACACTACTCAAGGTC 1581 KRT15 3757104 GACAGAGCTTTATCTTCGCAAGGCCATCCCACCTGGTGCTAAT GAGGAGGCTCCGGGCCCCACCCAGATCTGGAGCTCACAGTA GCGGTTTGGACTGAAACCAGGGATTTGTGCGTGGGGCAGTGA GGGGGGCAGCTGCCGCCCCTGGCCTGGGCCTGAGAGTATAG AGAAAGCCACCTCGAGGGGCTGCTGGAGGAGAGTCAGGTGC AGAAGGGGATCTGGCTGGGGTCCAGCCCTTCCTCACCCTGGG GTGAAAGGCGAGTAATTGTTCTTGAGTTAATTGCTGGGGCCAC AATGTCTGCAGAGGCTTTTAATGAGCTCTGGATGATCTGAGTT TGATTATTTTTCTTTCGGAGGAAAAGACAATACCCTCCCACCCA TGAGACAATACCACACTGTCTGTGCCCAGCATTGGAGGCCAG GCTCACTGCGAAGATGGATGAGAAGGAACCCACCCCCAGCCT TGCTGGCTGGCAGTTCCCCTTGCCAGCCCAGCTCAGATGCAG GAATTTGGGGTCTGCAGGAAGGACTCTTTCCCTGTGCCCTGTT TGGTTGAGGGTGTGAGGACCTGTTTGAGTCCTGGCTTTGCCC CTTACCAGTGGTGCCACCTGGCACAAGTTGCTTCACCTCTCCA AGTTTCAATTTCATTCTTTCTGAATCTTGGGTGGGGGTCACCCT CTGTTGTGAGGATGAGAGGAGGTGATGGATGCAAAAGTGCTT TGTAAATCACAAAGTGCAGGGTAGAAGTAAAGGATTATGCTAT TATAGCAAAATAAGAACCTAAGAACAACCTGCGTTGCCCCATA GGAGCTGGCTATGGAAGGTCGATGCCGTTGAGCCTAAGAACA TGCTCAGGCTCACAGGGCATGTTCTGATGCCCAACGACAAAG CCCCTCCTGGTGAGGGCACTCAGGCGCAGGTGCCGGTCATG CACCCTGGCCCCTGCATGTCTGGCACCTGGGTGGGGATCCAG GAGGGGGCAGGATGGGGGCTCTTGGGCCACAGGGCTTCCCT GGAAGTGAGAGTTGAGAGCGCCCCTTGCCACAGGGAAACAGA GACTTAAAAAGGTAAATGTCCACAGTCTTACCATGGTAATTGG TAGGGTCAGGATTTGAACCCAGGCCTCACAGTCTTACCATGAT AATTGATAAAGCCAGGATTCAAACCCGGGCCTGAGGGACTCC AGAGCCCTGTCCACTTCACCATGCTGCAACCTGGGCTAGGAA TCCTCCTCCTGAGTTTCTGTAAGCCCTGGGGCCAGGTCCAGA GGGCTGAGCCACACCTCCAAGTGGCACTGCCCACAGGTATCA GGTGTCCCTGGAAAGGTGTCCCTGAGCTGGTGGCAGAGAAAA GGGCTCTCCTGAGTGTTCAACTC 1582 KRT15 3757105 GCAGGCCCAACCCTATGAGTGATGGGGGCAAGTGAGGGACA CTAGTTCCACGCCCGCATGCTGCCAAATGTACTCAGCACCCT GCTAAGGAGGCTGGAGACCCCATCACGGCCATGGCAATCCC GAAGGAGGAGCTGTTTCAAGGTTGGTTATGAACATGTAACCCC AGAGCCCCGCTGCTGTAGCCTGGACTGGGACCCCCTTCTGCC CCCTCCCTAGCTGTCCTGTTCTGGCCTCCAGCACCCACAAAC CACCACCCCCAACTTAACTTCTCAGGAAGCCTTGGAGCTGGA GGGAGAGGCCTGGCTGCACCCCCAGCTGGGACTGCCCAGAG GCGCTTGTCCCTGCCCATGAAAGCCTCCCTTGTCACAGCTGA AACCTTCCCTCTGCCTCAGGGGCCCCTGGAATGTGGCTGCGG GGCGGGGTCTGGGCCCACACAGGTGGGGCAGGTGACTGTCA GGTCTCAGGCCTGAGTGTCAGGAATGAAGCCTGCCTTTGTGT GTGCACAGTGCAGGGTGGGGCTGGACTGGGGACACTTTTCTG TCTCAGCCTGGAGACCTGGGATAGGAGGGAGAGGGGAGTGG GGAAGTTGAGGGGAGTGCCTTTACATCCTGCTGGTCATCGTG GCCACTTCAGTCTGTTGAGCATTTCCTGTGAGTCATCTTGCTC CAACTGAGAGTCAGGCTGAGCTGGAGTTATTTCCATTTTCCTG ATTGGTAGACTAAGGCTCA 1583 TMEM100 3763391 CGTCTTTGGTCAGGAACTTTATAATGTGCTAT 1584 TMEM100 3763392 TTGCAGTTCCAAATTGCCATCTTCCCTTGTCTCATTTGCAAGTT CTCAATTGTATTTCTCTCAAATGGACAGGTTCCTTCTTTACTGG AGGATTTTTGTTTTTATCATATTGGTTTTTCATTACTTCTGAATA GTCTTAATTACGTTTACTAAATTCTAAAGGATTTCTGTGCTATTA TAATTAGG 1585 TMEM100 3763393 ACCCTAAGGGCTACTTCTGAGACTGAAAAATCAGCTTTCTATTT ACATGAAACACTTTGGGGGTCATGGGAGTGCACAGCATTAGA CAGTATTTGGTTCACCCTGTAAAGTAGCCAAGAAAAGATGAGA AAAATCAAGATAGGCCTGGCACACTAGACATTTGCCTCCAAAA GAAATAACCTACAGTCTTAAGATGTATCATAAAAATGTTCTGCC AAGGATCTAAATTACCTTGGGTTTCGCATATGTCTATGA 1586 TMEM100 3763394 GTTGTGATCACCACAGTCCCTCTGGTCAGTGAGATTCAGTTGA TGGCTGCTACAGGGGGTACCGAGCTCTCCTGCTACCGCTGCA TCATCCCCTTTGCTGTGGTTGTCTTCATCGCCGGCATCGTGGT CACCGCGGTGGCTTACAGCTTCAATTCCCATGGGTC 1587 TMEM100 3763395 TGGTGAGACTGTCCAGATCTAGTCTGTAAACCCAGCTTAGAAG CACT 1588 TMEM100 3763396 TTGGAAGATATTGTTACACTTCAGACCACAAATCCCCACCTCA TT 1589 TMEM100 3763397 AATTTGGGGACAGATCTTGATTTTCAGGTTAGCTCAATCTCAG CTTTGG 1590 TMEM100 3763398 AGAAGTTGGACGAAGAGGCTCAGGCGTTGCTGTTTCTTGTCTT CCAAGTCAAGTGGTTACTCTGGTAATG 1591 TMEM100 3763399 ATCCCAAACCAGAGCAGACCCTATAGTAAAGTATTTTTACATCT TTTCCTTTCCCCAGAAGAGATCCCTAACCTATTGTTTTAT 1592 TMEM100 3763400 GTTTGCACCTTTAGCTTTGGTAACAGGAAAGCATGCTTTTCAA CAGAATAAGGTGATATTCAGAGCTTCAGTGCAGTTATTGGGCT ATCTTGCAGGCAAAGTGGTACTAGAAAATAGAGGGGAATTGC CCTCAAGGGCC 1593 TMEM100 3763401 ATGCTCCTCTTACCAAGCCTGCAACTTAAAACCTATGGTTTAAA CTGTGCTTTCAATTATCTGGAGGAGGCCAGCACTGATGAGCC CATCCTGAGCCAGTCATTTTAAGGCCAGTGCTACCTAACTGAG ACAAGGCTAATCTGGTC 1594 TMEM100 3763402 CAGTTTATTATGGTATTGGACACCCCATGCTCCTTACTGCATTG GCTTTGGGTAAGAAGGAGTGAAAATTAGTGTGCGAACCTGAAA ACCTAGAATTTCTGATTGGGACTGA 1595 RPL31P57 3766793 AAAATCTACAGTCGGTGTGAATGTGAACTAA 1596 RPL31P57 3766795 AAAGAGCTCCGGAAACTTGCCCTGAAGGAGATGGGAACTCCA GATGCACACTTTGATACCAGGCTCAACAAAGCTGTCTGGGCC AAAGGAATAAGCAACGTCTCATACTGTATCCATGTTCGGTTGT CCAG 1597 HIF3A 3836706 ATGGCGCTGGGGCTGCAGCGCGCAAG 1598 HIF3A 3836707 GGGGTTTTATCTGGCCATGTTCCCATGGGACCCTGGAAAATGT TCTAGGTCCTCAGCTTTCC 1599 HIF3A 3836708 ATCTCACCGCCGTGCGCACCCACTCGTAACTCGCACCCGGGT CCTGGCTGCACCGCATCCCCTCCTGCACCCCCTGGATGGCCC TTCAGCCAACGGGGGCCTG 1600 HIF3A 3836709 CAAGGATGCTCTTGGGAAGTCCCTGGTGG 1601 HIF3A 3836710 GTACGGCTTGCAGCCCAGAGTGCCCAGTGAG 1602 HIF3A 3836711 TCAAGATGAGGAGCCAGTAGTGAGG 1603 HIF3A 3836712 CGCCACAGAGAGGAGCGAGGCGCCAGAGGCACC 1604 HIF3A 3836713 GTCGACCACGGAGCTGCGCAAGGAAAAGTCCC 1605 HIF3A 3836714 TGCTGTACCAGCTGGCTCACACGCTGCCCTTCGCCCGCGGCG TCAGCGCCCACCTGGACAAGGC 1606 HIF3A 3836715 ATGCGCCTCACCATCAGCTACCTGCGCATGCACCGCCTCTGC GCCG 1607 HIF3A 3836716 GGAATCCAGGCCACTAGGATGTACCCCCACTTCCTTGG 1608 HIF3A 3836717 ACCACTGGATGCCTGCTACCTGAAGGCCCTGGAGGGCTTCGT CATGGTGCTCACCGCCGAGGGAGACATGGCTTACCTGTCGGA GAATGTCAGCAA 1609 HIF3A 3836718 TTGGTATCTGTTCCTTTTCTCTGCCTCGTTACCCCACTCCTGGT A 1610 HIF3A 3836719 CTGGAGCTCATTGGACACAGCATCTTTGATTTCATCCACCCCT GTGAC 1611 HIF3A 3836720 GAGCTTCAGGACGCCCTGACCCCCCAGC 1612 HIF3A 3836721 GAGGCCCCCACGGAGCGGTGCTTCTCCTTGCGC 1613 HIF3A 3836722 ATGAAGAGTACACTCACCAGCCGCGGGCGCACCCTCAACCTC AAGGCGGCCACCTGG 1614 HIF3A 3836723 TGCTGAACTGCTCTGGACATATGAGGGCCTACAAGCCACCTG CGCAGACTTCTCCAGCTGGGAGCCCTGACTCAGAGCCCCCGC TGCAGTGCCTGGTGCTCATCTGCGAAGCCATCCCCCACCCAG GCAGCCTGGAGCCCCCACTGGGCCGAGGGGCCTTCCTCA 1615 HIF3A 3836724 CGCCACAGCCTGGACATGAAGTTCACCTACTGTGACGACAG 1616 HIF3A 3836725 AAGTGGCTGGCTATAGTCCCGATGACCTGATCGGCTGTTCCG CCTACGAGTACATCCACGCGCTGGACTCCGATG 1617 HIF3A 3836726 GTGCGAAGCCAGCTGCCACATGGCCCCCAGCTGACACCAGG ACCCCCCAG 1618 HIF3A 3836727 CCCAGGATGCACTGCCTCCCCACCTCAACACCAGCTCCCTGC TCCCCAAGCCCCAAGGAACTGTCTCCTTCCTTGCCCCCTCATA CCCAGTCCCCAGATATTTCTCTCCC 1619 HIF3A 3836728 CAGTAACAGGGCAGTATCGCTTCCTGGCCCGGAGTGGTGGCT ACCTGTGGACCCAGACCCAGGCCACAGTGGTGTCAGGGGGA CGGGGCCCCCAGTCGGAGAGTATCGTCTGTGTCCATTTTTTA 1620 HIF3A 3836729 TGGGCCTGATCTGCATGTGTGGACAGGTGTGTGTGTGTGTGT GTGTGTGTGCGTATGAGCATGCATGTGTATCATGCATAAGTGT ATGTGAGGGAGTGTGCACGTGTACACATATGAGGAATGTGTG TCACCATGTAAATGCCGGTGTGTGTGTCTGCATGGACACAGGT ATGTGTATGGGTGTGTAGACTGTTAATTTTTTTTTTTTTTTTTTT TTTTTTTTTTGCGTGAACCTCTGCTTAAGTG 1621 HIF3A 3836730 GCAAAGTGGTTAGGACCCATTCTCAAAAAAAAAAAAAAAAAAA AACCTGAAAACAGACCAAAAAAAAAAACCACACACACGCAAAG ATAGATGGTTTGCATATGGTAAATTCTCTTTATGGTACACAGTT CTGTGAATTTTTGACACACGCATGCAGTTG 1622 HIF3A 3836731 TGCACCCGGCCCATGTTGTGGTTTATATCAGTAGTTCCTTTGT AAATAGTGAACAGTATTCCATGGTATGAATAGAGCACAGGTTT TTTTTTTATCCATTCACCAGTTAGAAGACATTGGGCTGTTTCCA AGTTTGGGTGATTACAAAAAAACAGCTACTGTAAACATTCTCAT ACAAGATTTTATGAGATCACATGTTTTCATTTCTCTTGGGTAAA CAGCTAGGATTGGAATGGATGGGTTATATAGTAAGTGTATATT TAATCTAAGAAACTGCCATGGCTGGGCACAGTGGCTCACGCC TGTAATCCCAGCACTTTGGGAAGCCAAGGAAGGAGGATGACT AGAGCCTCTGAGGTGAAGACCAGCCTGGGCAAAGTGGTTAAG ACTCAACCGC 1623 HIF3A 3836732 GACAGAGTTTTGCCCTTGTCACTCAG 1624 HIF3A 3836733 TGAAACCCTTATAGGAGACAAATAAATGTGGGCAATTATTTTCT GCAAAATGCCCTCCAAGCCCCTGGGCGCCATTGCCTTCTGTA ATAGGACATCACC 1625 HIF3A 3836734 AAGAGACCGGAGTGGTGCTGTCCCTGGAGCAAACGGAGCAA CACTCTCGCAGACCCATTCAGCGGGGCGCCCCCTCTCAGAAG GACA 1626 HIF3A 3836735 CCCGGATCCTTGCCTTCCTGCACCCGCCTTCCCTGAGCGAGG CTGCCCTGGCCGCTGACCCCCGCCGTTTCTGCAGCCCTGACC TCCGTCGCCTCCTGGGACCCATCCTGGATGGGGCTTCAGTAG CAGCC 1627 HIF3A 3836736 TGCTCTCCTAATAATGCAACAATCGTCAACACAGAAGAAGACT TCTGTGACCAAATGTGGGCAGTTTTTCCCACACACCAAGCAGC GGACACCAGCTGGGTGTCCTCCAATTCAATTCCGGCATCATCT A 1628 HIF3A 3836737 CCAGATGAACTACCTGTGGGCACCGAGAATGTGCACAGACTC TTCACCTCCGGGAAAGACACTGAGG

1629 HIF3A 3836738 CAAACTCTCAGTCAGGGCTACAGTCATCTGGGGTTAGAGGGT TTTCTTCCAAGCTCACACACATGAGGTTGTTGGCAGGCCTCAA TCCCTCACTTTGCTTTGGCTGGAGGCCTCAGTTCCTCATCACG TGAACCTCTACATAGACTCCCTAAGTGTCCTCACAACATGGCA GTTGGCTTCCCTAAGGCAAA 1630 HIF3A 3836739 CCAGCTCAACGCCAGCGAGCAGCTACCCAGGGCCTACCACA GACCTCTGGGGGCTGTCCCCCGGCCCCGTGCTCGGAGCTTC CATG 1631 HIF3A 3836740 CCAGAGCTCAGAGGACGAGGACGAGGGAGTGGAGCTGCTGG GA 1632 HIF3A 3836741 CAGCCCAGAACACGAAAACTTTCTGCTC 1633 HIF3A 3836742 GGGATTCTCTGGCCCTCATTACCTAGCTGGCTTAAACCTACTG TTTTATA 1634 HIF3A 3836743 CTGGTTGAGGGTCATACAGAAAGTCAGTGGGCCAGCTGAGAC TAAAGCCTGATCT 1635 HIF3A 3836744 GTCCTCGGGCGAAGGAAGAAGGAGAAGGGGGATGAGGCCCT GGAGGAACACAA 1636 HIF3A 3836745 AGTTTCCTTCTGACAGGAGGACCAGCCCCAGG 1637 HIF3A 3836746 AGCACCCCACTCCTGAACCTGAATGAGCCCCTGG 1638 HIF3A 3836747 AAGTGTAACGGGGAAATAATGCATGCAAGGAAAAAGGTTTGG AGTAGGGGGATTTCAGTTTTAAACAGTATGATCAGGGTGGTTT CATTGAGAAGGT 1639 HIF3A 3836748 AGTGCGCTTCATTACGTCTGGCTAATTTTTTAATTTCTGTAGAG AAAGAGGTCTTGCTATGTTGCTCAGGCTGGTCTCAAACTCCTG GGCTCAAGTGATCCTCCTGCCTCAGCCTTCCAAAGTGCTGAG ATTGTGCCTGGCTGTCTCTGTCTTCTTTGGGGAAAAGCAAGGC CAATGTAGCTGAAGCAGAGAGGAGAGAAAGGTGAGGGCTGAC TGCATGGAGCCTCTGTGGGGCATTGTGATGGCTTTGAAGTCA CCTTGCTTGAGGAGGCTGCCTCAGGGCCTTTGCATATCCTGAT CCTTCTGCCTGGCATACTTTTCCCTCTGTTCTTTGCCATGTTAC CACATCCTTTAGATCTCAAACCAAATATTACTCCTTACACAAAG CCCTGCCTAACTTCATACGCTCATGGTTTATAACACTCCATAAT TACACAGGCCTTTGTGTCATAATTTGATGACTGTCTGTCTTCTC CTTTGGGTATGAGACCTTCAAGGGCAGGGGCCAGGGCTGTCT GGGTCCCTGCTGTTCTCTTCTTTGTGCACATGGGTGGGCGGT GGCTAAGCACAGAGGAAGTTCTCAGCACATATTTGTGAATGAG GAGCTAAGATTCACGCACTCGCACTGTGCCTAGCTTTGTGCTA AATCCTCTATGCACCTGATCCAATTGGCGCTTCTCACTGGAGT GTCGGTCCCATA 1640 HIF3A 3836749 GTTTTCACTTTGTCACCCAGTCTGG 1641 HIF3A 3836750 ACCACCACGCCCGACAGTAAATATGTTTTGAA 1642 HIF3A 3836751 CACAGCAAGTAAATAGCAATGCCTGGATTCAAACTAGGGCAG CATCTGACTCTGGACTCGGGTTCTTCACCGCAGCCCTGAACA CCCCAGAGAGGTTCAGAGAGCAGAACGTGCCCAAGACGTCAC TGCCGTTTGAATCCAGACAGGCTTGCCTCACCACCCAGG 1643 HIF3A 3836752 CTCACTGCTCTCTCCGTACTCAGACGAGGAC 1644 HIF3A 3836753 TGGTCTCAGCTCAGTGACCTCTGGGAGGTGGTCCCTGGCCCC CTCCTCCTTCTCTCAGGATTTCTCTTGGGGTTCTCAATACTTGG TTACCTCATTATCCCTTTCTCTGCCTCTCTTGGCTTTATTTTGG GGAATCAGGGGTGAGGAGGGTTGGGGGGGTCATATCTGTGTT TCCAGGTTCTGGGGAGAACAATGATCCACGGGTCAACGTGAT CACATTTC 1645 HIF3A 3836754 CCAGTGACTTCCGATTGAGGCCAAAGACCCCAAGCTGCCCGC CAGCTCTGACTGCCCCTTGCGCTCTGGGCTTCCTGCCGCCCC CAGCTTTGCCTGGACACTGA 1646 HIF3A 3836755 TGACCTGCACTGGTTCTAGACCACACAACCTCCAATGTGGTCT GCTTTAGATCACCTTCTTCTTCTTCCTTCTTCCTCTTCCTCTTC CTCCTGCTCCTCTTCCTCTTCTTCTTCTTTTTTTTTTTTGACAGA GTCTTGCTCTGTCACCCAGGCTGGAGTGCAGTGGCGCGATTT CAGCTTACTGCAGCCTCCGCGCCCTGGGTTCAAGTGATTCTC CTGCCTCAACTTCCCAAATAGCCGGGACTACGGGCATGTGCC ACATTGCCCGGCTAATTTTTGTATTTTTAGTAGAGATGGGGTTT CACCACGTTGTCCAGTCTGGTCTCGAACTCCTGACCTCAAGTG CTCCACCTGCCTCAGCCTTCCAAAGTGCTGGGATTACAGGCG TGAGCCACTGCACCCGGCTAGAACTCACTTTCTCCAAATCCCT CTGCTTCGAATTTCACCGTCTTCAGCTCTTTCTAGTTCTGGGC CTCACCAGCCTCTCATTCTGCCTGTTTTCAAACCTTACGATCC CCAAAAATTGTCTGGTTCTGGGCCTCTA 1647 HIF3A 3836756 CCGGTTCCAGATCTTATATTCAGTGATTTCCTCTGGTTCTGGA CCCCACAACTCCAAGCTTCCTATTGGTTCCAGTTCTCCTGATC GGTAATACATTTGGTTCCAAATCCAGACCTCTTAATCTCTCTCT TTTTTTTTTTTTTTTTTTGAGACAGAGTCCCACTCTGTCACCCA GGCTGGAGTACAGTGGCTCAATCTCGGCTCACTGCAGCCTCC ACCTCCTGGGTTCAAGCAATTCTTGGGCCTCAGCCTCCCAAAT AGCTGGGATTACAGGCATGTGCCACCACGCCCAGCTAAGTTT TATATTTTTAGTAGAGACAGTGTTTCACCATGTTGGCCAGGCT GGTCTTGAACTCCCGACCTCAACTGATCCACCCGCCTCAGCC TCCCAAAGTGCTGAAATTACAGGAGTGAGCCTGGCCAGACTT CTTAATTTCTAAATCACTTTTGTTTTAGACCTTATGAGGCTCAG CTTATTCTTCTGCAGTTCTCTATAACCAAGACTCATTTTCTCTC ATCAAAAACAAGTACAGAGAGTTTGATGTGTTTATCTCTTTTTT CTTCCTCTTCTTTTTTTTTTTTTTCTTTTTTGAGATGGAGTCTCT CTCTGTTGCCCAGGCTGGAGTATAATGGTGCCATCTAGGCTCA CTGCAACCTCCGCCTCCTGATTCAAGTGATTCTCCTGCCTCAG CCTCCTAAATTGGTGGGATTACAGGAGCCCACCACCACATCC GGCTACCTTTGTGTATTTTTTAGTAGAGACGGGGTTTTGCCAA GTTGGAGGGGCTGGTCTTGAACTCTTGACCTCAGATGATCCA CCCGCCTCAGCCTCCCAAAGTGCTGGGATTACAGGCATAAGC CACCGTGCCCGACCCTGTCCTTATCTTATAATAACCAGTTCTT CTAGAACCAGACGATGCTCTAGTTCTCCTAGATTCTGAACCTC ATGACCTGTACCACTCACTAGTTCCAGACTACACAACTTCTAG AAGGTGCCACCTCCAGGGTCCTGATTCAAGATCTGGTGATCT GCTGTTTCTCTGGTTCTAGAACTGACTTACAAGTGCCTTCTGAT TCTAGACCTCATTCCGTAAGTTCCCTTG 1648 HIF3A 3836757 CCCAGCCTCCTAAATCTATTCTGGGCTTCCC 1649 HIF3A 3836758 CACTGAACTTACCCAATTCCTTCTTTCAGTCTTAAGTTTTCCCA TTCTAAACCCCTACCCTCTAGGCTGTGCTGCTCCTGGACTTCA TGCCTCTCCATTCTCATTGCCTACAATCTCTGTGCCCCAGAAC CCCCTCCACTTCCCACCCCAGCCCTCCAGACATGCACTTACCT TGACTTTACCCCACATGTTTGGGGCACCTGGGGC 1650 HIF3A 3836759 AGCTGTCTGCCACCATCTATGTGCCTCCCTTACCCCCCAGCTT TCTTTCTACAGATGGTGCTACTCTTGGTCTCCCACAGGAAAAG GCCTCCCCCCTTCTTAGCCCCATTTACCCCGTTTGTGGAAGGC ACTGCTCGCTCTGTTTTGTCAGAGAGTGGCCTATCCAGATTGG TGCTA 1651 TPX2 3881448 TCCTCCCGGAGTTTGGAACGGCTGAAGTTCACCTTCCAGCCC CTAGCGCCGTTCGCGCCGCTAGGCCTGGCTTCTGAGGCGGTT GCGGTGCTCGGTCGCCGCCTAGGCGGGGCAGGGTGCGAGCA GGGGCTTCGGGCCACGCTTCTCTTGGCGACAGGATTTTGCTG TGAAGTCCGTCCGGGAAACGGAGGAAAAAAAGAGTTGCGGGA GGCTGTCGGCTAATAAC 1652 TPX2 3881449 ATGCCCTCAGGAAGTGTGGCGTTTGATGGAGGAAAACAGA 1653 TPX2 3881450 TGAGGGAGTTCAAGAGCCAGTTTGTGTTTCTGTGCTTCACAAA GCCACCCTTGTCTAATTCTTGA 1654 TPX2 3881451 TGATACATATTTGCCAGACTTCAAGATTTCAGAAAAGGGGTGA AAGAGAAGATTGCAACTTTGAGTCAGACCTGTAGGCCTGATAG ACTGATTAAACC 1655 TPX2 3881452 GAGTGTGCACTTCAGTGGCGTGATC 1656 TPX2 3881453 CATTTGGGTAAGTTAATAGTCAATTTATAGGCCACGTAAATGG GAAGGATTATTTCCTTAAATCAAGAGATTAGACAATCATTGCTT GTCATGAATATTTAATAAAAATTTGAGAAAGCTCAGTTTCTTTT GGGCTGCAAACATAGATCTAGGGAAATAAATACTGCTTAACTA TTTTGTTG 1657 TPX2 3881454 AAGGTGACCTGCTGAGAAAAGTGGTACAAATACTGGGAAAAA CCTGCTCTTCTGC 1658 TPX2 3881455 CACAAGTTAAAAGCTCTTATTCCTATGATGCCCCCTCGGATTTC ATCAATTTTTCATCCTTGGATGATGAAGGAGATACTCAAAACAT AGATT 1659 TPX2 3881456 TACTGGTAGGGAGCTTTAGTTTGCATTTTAAATGCGTGATAGT GATTTGTTTTGCTTCCTTGCTGATCAGACAATGATGATCTTCCC TTTTCACAG 1660 TPX2 3881457 GGAACTGGAGGGCTTTTTCAGGGCAAAACTCCTTTGAGAAAG GCTAATCTTCAGCAAGCTATTGTCACACCTTTGAAAC 1661 TPX2 3881458 GACAACACTTACTACAAAGAGGCAGAAAAAGAAAATCTTGTGG AACAATCCATTCCGTCAAATGCTTGTTCTTCCCTGGAAGTTGA GGCAGCCATATCAAGAAAA 1662 TPX2 3881459 CAAGAGATGTGCCACTCCTGTAATCATCGATGAAAT 1663 TPX2 3881460 CCTTGTATACCACTTGTAAGTTTCTTTTCTGAATTTACACTTTAG ATTGAATAGATTAAAATTAAAAATGGTACATCTGTAATATGTTT GGTGTACCTCAA 1664 TPX2 3881461 TCCATATGCAGTAGATTTGGGGAGGAGGGTACAGGCTATGCT TCAGGGAATTGAAAAC 1665 TPX2 3881462 AGAAGGCAGTGCTCATCAAGATACTGCTGAAAAGAATGCATCT TCCCCAGAGAAAGCCAAGGGTAGACATACTGTGCCTTGTATG CCACCTG 1666 TPX2 3881463 GAGAAGAGTATGAAAATGCAGCAAGAGGTGG 1667 TPX2 3881464 ATCAGTGAGCCAGGTCACCAAATCAGTTGACTTCCACTTCCGC ACAGATGAGCGAATCAAACAACATCCTAAGAACCAGGAGGAAT ATAAGGAAGTGAACTTTACATCTGAACTACGAAAGCATCCTTC 1668 TPX2 3881465 GGTTGGGGCAGACCAGTCAAATCTCATGCAGTTTTGTTACCAG AGCACCAACAAAATCAGTAATAATCGTTAAGTAAAAATGCTAGT ACTAATAATCTCCACTTGCATTTGTAGTCAGTATCATCATTTTTT GAAATTAGTTATTTGCATTCTTAAACCCTGAGGTTATGCTTCTT TCTTTGAGATACAGGTCCTTGAAGGGTTTTGCTTCCAATTAGA GACCAGTTTTATCAAAATTACTGGTCCAAGGAATAGGAATAGG CTTCTTCATCAGTCTC 1669 TPX2 3881466 CTCTGTGCCGAATATGTGGCTTATGGTAGATGTGAGCTCTTCC GTGACATTTCATT 1670 TPX2 3881467 GCCCGAGTGACTAAGGGATGTACCATTGTTAAGCCTTTCAACC TGTCCCAAGGAAAGAAAAGAACATTTGATGAAACAGTTTCTAC ATATGTGCCCCTTGCACAGCAAGTTGAAGACTTCC 1671 TPX2 3881468 ATGGCTCACTTCAGTGTCCAACTCCTGGGCT 1672 TPX2 3881469 TGAATCACCACTTACAAGTAAACTGGGTCTTGCGGATCTAGAT GAACATCTGTC 1673 TPX2 3881470 CTGTTACCCTCCAAATCTTCTGTGACCAAGATTTGCAGAGACC CACAGACTCCTGTACTGCAAACCAAACACCGTGCACGGGCTG TGACCTGCAAAAGTACAGCAGAGCTGGAGGCTGAGGAGCTCG AGAAATTGCAACA 1674 TPX2 3881471 GTAAGTCCCACTGGCAGTATCTGAG 1675 TPX2 3881472 CTTGATCCCAGAATACTTGAAGGTGGGCCCATCTTGCCCAAGA AACCACCTGTGAAACCACCCACCGAGCCTATTGGCTTTGATTT GGAAATTGAGAAAAGAATCCAGGAGCGAGAATCAAAGAAGAA AACAGAGGATGAACACTTTGAATTTCATTCCAGACCTTGCCCT ACTAAGATTTTG 1676 TPX2 3881473 CACCTGTTTCAGATGAGGTAACCGAGGCACACAGAGGTTATG TAGTATTCCTAGAGCACTCAGCTAGTACATGGTGGAGCAAGTA AGAGTTCAGACACTCTAGCTACAGAGTCTGTGATCCTAATACC TCATTATATGCCTCTCCATTACATGATAGAATTTTGACTTGCAG AAATGCAAATGGACTGGATTGGCAGAACATTCCAGGCAGTAG GAATTACATGATAAAAAGCCTGACGGTGGGAAACAAGAAGCTT CTACTGGGAGCTGTTAGTGGGTCAGTTAAGCTGGAGAAAAGT TTATCAAGAGCCACTGGAAACTGTTTCAGAGAAGTGAGTTGTA GTTTGATAATAGGCTCACAACCACAAGTTTAGAGAAAATGTGC AATCAGGAAGCAAGGCTACAGTCAGAGAATAAGCAATGGAGT TAAGCACCTGCATAAATGCGAAAGCGGCTTTTAGTTACATTTC AGTG 1677 TPX2 3881474 ACAGGGACCGTGTGTATCTATATTATTCACTCTGTATCCCTAG CCCCTAGCATAGTGACCACCACAGCACAAGCACTCTGATATC GGATAACTGAGTGAGTAATAGTAGAAGCTGACATGCACCTAGA CACTAGGAATTCAAAGATGGTATAAGACACGGCCCTTGTCCTC AAAGCTTTCATAGTCTGGTAGAGCATATAGATGTGTAAATGAG TAAATATGGTAATATTAACCAACATATGTTCATTGAACAGTTAC TACGGGGTCTTCTA 1678 TPX2 3881475 AGTGGAGATCATTTTGTGATATCTAATTGAGTTGCTTACTCCTT TCAG 1679 TPX2 3881476 TGTTCCTGAAAAGAAGGTACTTCCAATCACC 1680 TPX2 3881477 CATTGAAGAACAGAATTCGAATGCCCACCAAAGA 1681 TPX2 3881478 GACGAACCGGTAGTGATAAAAGCTCAACCTGTGCCACATTATG GGGTGCCTTTTAAGCCCCAAATCCCAGAGGCAAGAACTGTGG

AAATATGCCCTTTCTCGTTTGATTCTCGAGACAAAGAACGTCA GTTA 1682 TPX2 3881479 GTGCCCAAGTTCAAGGCACTTCCCTTGCCTCATTTTGACACCA TTAACCTGCCAGAGAAGAAGGTAAAGAATGTGACCCAGATTGA ACCTTTCTGCTTGGAGACTGACAG 1683 TPX2 3881480 GTAGGGGATGGGGAGAGCAGCCAAAATGTTAATTGCTTG 1684 TPX2 3881481 TTGGAGGTGGGAAGAATACTTTATAGGTGATACTGTATAGTTC CTAATGAATCATGTGTGAAGGCAGAAAATGTCTAGTTGTTTATT TTTATGATATAAAGATAGGTCTTAAAAGTACCTTTAAAATTTTTT GTTTTTTTTAATTGACAAATAATAGTTGTACATATTCTTGGGGTA CATAGTGATGTTTCAATATGTATAATGTGTAATGATCTGATCAG GGTAATTAGCATATCCATAATCTCAAACATTTATCATTTCTTTGT GTTTGGAATCTTTTTTTTTTTAATTTAAAAGTAAACTTTAGCACA CCAACATG 1685 TPX2 3881482 CTTGTTTCAAGGCTCGTCCAAACACCGTCATCTCTCAGGAG 1686 TPX2 3881483 TTCAGGAACCTTTTCAGCTGGCTACTGAGAAGAGAGCCAAAGA GCGGCAGGAGCTGGAGAAGAGAATGGCTGAGGTAGAAGCCC AGAAAGCCCAGCAGTTGGAGGAGGCCAGACTACAGGAGGAA GAG 1687 TPX2 3881484 TGGGAGCATGAGCACTGACGAACACAAACATGCCTCTG 1688 TPX2 3881485 AACCATGATGCCTTTCCTAGGACTGTTTTTTATTTATTTGTTTAT TTTATTTATGTAACTTATTATTTCCTCTGGGGTTAAGAAGCACC ACTGAGTTTTGTAATTAGACAAGAATACATAGCGAAGGACATG GGAATTAAATGGCAACTGTATTTTTGTTTTAATACTGAGCCCAA ACTCCTTGGAGTTACAGTGTTCGTCGCTCCAGGTAATCCTCTA CTAACATAATTATTTAGATGTTGGTTATCCAAAAAGAAACCTGA ACTCCACATTAAGGACCAATCTGCTAGGAGGGC 1689 TPX2 3881486 TGTACTCTGGGAAATTCTTAGCTTGTAACTTCTCTGCTATACTT GAGTACAGCCCTATTATACCCTAGTAAATCACACAGGACATAG GTTTGGCATTCTTTAGTGAAAGCTGAGGGACTTGAGGAGACTG TGGCCTAAAGGAAAGCTGGGGGACCCAATAGAGACCTGAATA GAAACCCTTTTGGGCTCCAAAGCACATACACTTTTCCATCATA CCGTGTTGCCCCCCAGGCCCCACTCCCCACACCTGAAACTAG TGACTGGGACCTGTA 1690 TPX2 3881487 GTGCATAAGGCAAATCCAATACGCAAGTACCAGGGTCTGGAG ATAAAGTCAAGTGACCAGCCTCTGACTGTG 1691 TPX2 3881488 CCAAATTCTCCACTCGATTCCACTGCTAA 1692 TPX2 3881489 TCAGCTGTGAGCTGCGGATACCGCCCGGCAATGGGACCTGCT CTTAACCTCAAACCTAGGACCGTCTTGCTTTGTCATTGGGCAT GGAGAGAACCCATTTCTCCAGACTTTTACCTACCCGTGCCTGA GA 1693 TPX2 3881490 CAGAAAATAAAGATAGTTAAATCCT 1694 TPX2 3881491 GTCCTCTTCTCTGCATACCGTGAATTTATAGTTAAGGATCCCTT TGCTGTGAGGGTAGAAAACCTCACCAACTGCACCAGTGAGGA AGAAGACTGCGTGGATTCATGGGGAGCCTCACAGCAGCCACG CAGCAGGCTCTGGGTGGGGCTGCCGTTAAGGCACGTTCTTTC 1695 TPX2 3881492 GGAACCGTGCAGTGTGCATTTTAAGACC 1696 TPX2 3881493 TGGCCTGGAATAAATACGTTTTGTC 1697 TPX2 3881499 ATGGAGTTTCACCATTTTGGCCAGGCTGGTCTCGAACTCCTGA CCTCAGGTGATCTACCTGCCTCGGCCTCTGAAA 1698 TPX2 3881500 GTGCTCTGAAACCTACTTTGCCTGATATTAATATAGCCACTCTA GTTTTCTTTTGATTGGTTTTAGCATGGTATGTCTATATTTAAAGT GCATTTTTTTGTAGACAGCATATAATTGGGTCTTGCTTTATTATT TAATATTATTGTTGCTGCATTTTAATTGGAATAAATGCATCTATT TTAGCCTTGACATGCTATGCTATTATTTTGTGTGTGCGTGTGAG TCTCTCTGCCCCAAAAATATTTCTTTAGGAGATGAACCAAATGA TTGTTCTCTGAAATGAATAATGCCTAAACTATGTTTTCATGGCC TATCTTTTCTTCCCTGTCATCTTGTTGCAGTTTAATTCCTTTATC AGGAGTCAGTTCATATGCTATGTGATTAAGTGCTGTTTCTTCCA TG 1699 WFDC2 3886939 TAAATCCCCGCACCTGAGCATCGGCTCACA 1700 WFDC2 3886940 ATGCCTGCTTGTCGCCTAGGCCCGCTAGCCGCCGCCCTCC 1701 WFDC2 3886941 CTGCTGCTGTTCGGCTTCACCCTAGTCTCAG 1702 WFDC2 3886942 CCAGGCTGACCAGAACTGCACGCAAGAGTGCGTCTCGGACAG CGAATGCGCCGACAACCTCAAGTGCTGCAGCGCGGGCTGTG CCACCTTCT 1703 WFDC2 3886943 GGCGGGGCCGCGCTGGGCTGGGAGGAG 1704 WFDC2 3886944 GCAGTTTCCTTCTCGAACCGGCCGAAGCCTGCCCTGCGGGAA AGCCCGGAGCCTGGGGCGCTCACCTCTCCTCTTGGAGTCCCT CCCTGGGGGCCTCCCCCAGCCCTGGGGAAAGACTGGGAGAG CCTGGCCTGGCAAGATTTTCCCCAATTCCTCTGTCCAGGCGG AAAGGAACTTTACAGATTTAGGAAAATGCCCCGCTCATCTTAA AGATGTGTAAGGGAGCATCGGTGAGAAAAAAATGTTCTTGCCC AAGGTCACACCGCCATCCCATGGCTGCTGGAGTCATAGTGAG GGTTCA 1705 WFDC2 3886945 CTGGACACTGTATCGCCCTTCGTCGTCTTTCAGTCAATCTCTT CCACTCTAAGGATTGAGTGAGCGCGAGCTGGGGACTCTCTCA AAG 1706 WFDC2 3886946 GCAGTCTCCACCAGGCTATCAGAACAGGGGGTGGCTTAAAC 1707 WFDC2 3886947 CTTTATCCAGAATACAGCCCCTGTGACTTTT 1708 WFDC2 3886948 TACGGTGACCCAAGACACCGATCAGCAGGGAGGTG 1709 WFDC2 3886949 AGATTTGGAGAGAAAGCAGGCAGCAGCCAGATGAGAGAGGTG GAGGAGCAAAGGAGGGAGTCTTTGCTGTTTGATGGATGA 1710 WFDC2 3886950 ATCAGGTGGCTGTAGATGTGTAGTGT 1711 WFDC2 3886951 GTATCTGCTCCAGAGTGCACTATTCCTCACGGCACAGTCCCTC ATGGCTTCCCTTGGCTAGGGGAGGGAGTTCCCTGACCTCTTG TGCTTCCCAGGTGAGATGATGCCCTACCCTACTTCTGCTCGCC 1712 WFDC2 3886952 AACCATGATGTACCTCAGTTGATGAATGGATTTGGCTGGGCCT GGCTCCCCTCTATCTAACCTGGGAAGTGGAGTGTGATTGTGT GTGTGTTTGTTAGTGGAAGGACGTGTGGTTTCTCTCTGCATGG ATGAATGAGTGTATTTGGAGGGTCATGGTGCTGAGAGACTGC AACTGGGATTCGGTCTGTGGGTATGAGTGAAGATTATAAGTGT GTAACCCCTCACATGTGTACTGTACTTTACACTTTAAGTGGCA GCATAGTGCTTAACCATGGCAGCAGCAGTTAACACATAGACTC TGCAGCTAGATTTCTTGGGGTTC 1713 WFDC2 3886953 TTAGGGGCTTGATACCTGGCATGTAATAAGAGCTAATTAAGTG TTCACTGTTATAATTTCTCATAACTACAGAGTAGT 1714 WFDC2 3886954 TGGCACCTAAAGACACGGAGGCTCTGGGAGATTTCTGGCCCT AGGCCACGAAGGCCCACTTGGGACTCAAGCT 1715 WFDC2 3886955 GGTCCTGTGATTCCATTTGGGAGCAGGAGGAGGGATTTGCAG 1716 WFDC2 3886956 CTCAGGTGCCCAAGATGGACTCAGGCAGGCAGCTCTGCTGTA TGTGAAGCCCAGTGAGG 1717 WFDC2 3886957 ATGCTGCAGGTACAAGTTAATCTCCCTGTATCGCCTCTGCCCA CTTACCCT 1718 WFDC2 3886958 GTGAACATTAACTTTCCCCAGCTCGGCCTCTGTCGGGACCAGT GCCAGGTGGACAGCCAGTGTCCTGGCCAGATGAAATGCTGCC GCAATGGCTGTGGGAAGGTGT 1719 WFDC2 3886959 GCCTAGTCTAATGGATATTGTTGTTGATGGTATTGTTATAATTT TCT 1720 WFDC2 3886960 CCACCACCAGGCTGAGCAGTGAGGAGAGAAAGTTTCTGCCTG GCCCTGCATCTGGTTCCAGCCCACCTGC 1721 WFDC2 3886961 CCCTCTTGGGCTGACCACAGCTTCTCCC 1722 FMO5 3928073 GTGGGAAGAAAGACTGGGATGATGACCAAAA 1723 FMO5 3928077 GAAAACTCTGGAGTTAAGGCCAATGAAGTAATCTCTAAACTTT ATGCAGTAC 1724 FMO5 3928078 AATTGAATTAGCCAAACAGATCACATCA 1725 FMO5 3928079 GGCTCTACAGACAATCTGATGGATGA 1726 FMO5 3928081 GAGATACTCAGGTGGTGGTTTTTAA 1727 FMO5 3928085 CTATTGCTGATACTGGTGCAAATGTCGTAGTAACAGGTGGCAA AGTGGCAGACATGGCTCTTCATTA 1728 FMO5 3928087 AAATAGCAGTGTACTCTTGTCCTTTTGATGGCATGATAACAGA AACTAAG 1729 FMO5 3928089 GTTGATAACATCAGAGTTTGTAAAATTCT 1730 FMO5 3928093 CCTGGAATTAGCTGAAGAACTTCTGA 1731 FMO5 3928097 AGAAGAGGCTGTGTATAGAAACATACAAGCTTGCAAGGAGCTT GCCCAAACCACTCGTACAGCATATGGAC 1732 PCAT14 3939348 GGTGAAGGGACTCTCGAGTGTGGTCATTGA 1733 PCAT14 3939349 AAGGCCTCCGTCTCCTGCATGTCCTT 1734 PCAT14 3939350 GGTACTCTACAGTGTGGTCATTGAGGACAAGTTGACGAGAGA GTCCCAAGTACGTCCACGGTCAGC 1735 PCAT14 3939351 CAGCAAGGAACGGAAAGTTCACATTGTAAATATGTAGCAGAGT CTGTAATGGCTCAGTCAACGCAAAATGTTGACTACAGTCAATT ACAGGAGATAATATACCCTGAATCATCAAAATTGGGGGAAGGA GGTCCAGAATCATTGGGGCCATCAGAGCCTAAACCACGATC 1736 PCAT14 3939352 CTACAATGAACTCACTGGAGATGCAAAGAAAAGTGTGGAGATG GAGACACCCCAATCGACTCGCCAG 1737 PCAT14 3939353 CAGGAACGGAGACAATCGTGAAAGCTGCTGATAGCCTCACAA ATCTTAAGCCAGTCACTTGGGTTAAAAGCATCAGAAGTTTCAC TATTGTAAATTTCATA 1738 PCAT14 3939354 ATGGGCCATAGTGACGATGGTGGTTTTGTCAAAAAGAAAAGG GGGGGATATGTAAGGAAAAGAGAGATCAGACTTTCACTGTGT CTATGTAGAAAAGGAAGACATAAGAAACTCCATTTTGATCTGTA CTAAGAAAAATTGTTTTGCCTTGAGATGCTGTTAATCTGTAACT TTAGCCCCAACCCTGTGCTCACGGAAACATGTGCTGTAAGGTT TAAGGGATC 1739 PCAT14 3939356 ATTTTAGGCGCTGGACTTGGGTTCGGGGCACCTGGCCTTTCC TTGTGTATTTCTCCTACTGTCTGCCTAACTATTTAATACAATAAA AGAAAACCAGCCCCTGGTTCTTGTGGTGTTTCCACCCTCCCG GGTCCCCGCTGGCTGCCTGGCTTCCTCCCGCAGCTCCTGCTG TGTGTGTATGTGTGTGTGTGTGCACATCTGTGGGGCGTATGTG TGTTCGTCTTTGTAATTGAGGCTGCAGAGTGGAGAGAGCAGG GGTTTTCTCTGGGGACCCAGAGAGAAGGAGGCGTTTTCACCA CAGC 1740 PCAT14 3939358 CCTTTGAGGGAGATCAAGTCTAAATTTGAAGGGAGTCCAAATT CATACTGGGGTAATTTATTCAGATTATAAAGGGGGAATTCAGT TAGTGATCAGCTCCACTGTTCCCCGGAGTGCCAATCCAGGTG ATAGAATTGCTCAATTACTGCTTTTGCCTTATGTTAAAATTGGG GAAAACAAAAAGGAAAGAACAGGAGGGTTTGGAAGTACCAAC CCTGCAGGAAAAGCTGCTTATTGGGCTAATCAGGTCTCAGAG GATAGACCCGTGTGTACAGTCACTATTCAGGGAAAGAGTTTGA AGGATTAGTGGATACCCAGGCTGATGTTTCTGTCATCGGCATA GGTACTGCCTCAG 1741 PCAT14 3939360 CAGATGGCGTATAATGCCGTAATTCAACCCATGGGGGCTCTC CCACCCCGGTTGCCCTCTCCAGCCATGGTCCCCTTTAATTATA ATTGATCTGAAGGATTGCTTTTTTACCATTCCTCTGGCAAAACA GGATTTTGAAAAATTTGCTTTTACCACACCAGCCTAAATAATAA AGAACCAGCCACCAGGTTTCAGTGGAAAGTATTGCCTCAGGG AATGCTTAATAGTTCAACTATTTGTCAGCTCAAGCTCTGCAACC AGTTAGAGACAAGTTTTCAGACTGTTACATCGTTCACTATGTTG ATATTTTGTGTGCTGCAGAAACGAGAGACAAATTAATTGACCG TTACACATTTCTGCAGACAGAGGTTGCCAACGCGGGACTGAC AATAACA 1742 PCAT14 3939362 GGTTGCCGTCATTACAGTGTTAACAAGATTTTAATCAGTCTATT AACATTGTATCAGATTCTGCATATGTAGTACAGGCTACAAAGG ATATTGAGAGAGCCCTAATCAAATACATTATGGATGATCAGTTA AACCCGCTGTTTAATTTGTTACAACAAAATGTAAGAAAAAGAAA TTTCCCATTTTATATTACTCATATTCGAGCACACACTAATTTACC AGGGCCTTTAACTAAAGCAAATGAACAAGCTGACTTGCTAGTA TCATCTGCATTCATGGAAGCACAAGAACTTCATGCCTTGACTC ATGTAAATGCAATAGGATTAAAAAATAAATTTGATATCACATGG AAACAGACAAAAAATATTGTACAACATTGCACCCAGTGTCAGA TTCTACACCTGGCCACTC 1743 PCAT14 3939364 AGGTCAGGCCGGTTCTTTGCTCTGAACCCTGTTTTCTGTTAAG ATGTTTATCAAGACAATACATGCACCGCTGAACATAGACCCTT ATCAGGAGTTTCTGATTTTGCTCTGGTCCTGTTTCTTCAGAAGC 1744 PICK1 3945181 ATGCTGCCGGATGAGGTGGATGCCTGGCTGTGGCTCTGGGA GAGCCAACCTCCCCCAGGGAACCCACTTTACACAATAGCAGT GGCAGCAGAGGCTGGCGAGGAGACAAGATTCGGACTCTGGG

GAGCACTGATAGCATTTCCCGAGCCTCA 1745 PICK1 3945182 ACGCTGTCAGCCTGTCCAGACCGTTCCTCTGTTTTCGCTTGTT CCTACTAACAGCGAGCTTCCGCCAATACTTGTTCTCGTTCTTG GTTCCGAGCGTCCCGGGAGCCGGGAAGGGAAGGATTGTCTG CAGGGATTGGAGCAAATATCCAGTGGGGGGAAAGCCGGGAC TTCCGCGTCTTGCCGGAAGTGACGTGACAATCGCGGCCA 1746 PICK1 3945183 TGGCCGGGACCCGGCTGTGGGACCAACGCTTCCG 1747 PICK1 3945184 ACTCTGGGATCTGAGCCTATCGCCCTGGCCTGGAGC 1748 PICK1 3945185 TTGGGTTCCTTAAATCCTATGCTCCTTTCT 1749 PICK1 3945186 CCCTACCGAGCTGGGCAGTTAGCCAGCCCACTCCAACT 1750 PICK1 3945187 CAGACTTGGATTATGACATCGAAGAGGATAAACT 1751 PICK1 3945188 AAGGATGCTCAGAACCTGATCGGGATCAGCATTGGAGGAGGG GCCCAGTACTGTCCCTGCCTCTATATCGT 1752 PICK1 3945189 AGCAGCCTTGGACGGCACAGTGGCAGCTGGCGATGAGATCA CCGGTGTCAATGGCAGGTCAATCAAAGGGAAAACTAAGGTGG AGGTGGCGAAGATGATTCAGGA 1753 PICK1 3945190 CAGAGCAGGTGTCCAGAGGCAGCAACACATGTTTCTGAGA 1754 PICK1 3945191 GAGGTGACCATCCACTACAACAAGCTGCAGGCGGACCCCAAG CAGGGCATGTCCCTGGACATT 1755 PICK1 3945192 GCCCAAAGGAGAAGTGCCACAGCCAGCCCTGCCCTCCCCTTT ATGACAGGAGAATCCAGAGTTACATGGCTGTGGGCTCTGACC TCTGACCAAGCAAATCTGAAAGGCCTGGGAGGCCTCCCGGTG CTCTCCCTGCATCTGTTCTTGTACTCTGTC 1756 PICK1 3945193 TGTTGAAGAAAGTCAAGCACCGGCTGGTGGAGAACATGAGTT CAGGGACCGCAGATGCTCTGGGCCTGAGCCGGGCCATCCTG TGCAA 1757 PICK1 3945194 CTCTGCCCGTGGAACTGAGAAGTCACCATCTCTGTACCCCCA GAGGCCTCTCCAGCTCCCGGAGGGTCCACAGCTGTCAGCTG GGCTGTCTTAGCCAGTGCCCCTCAGGTCACAGATGGGAAAAT AGACTTAGTGTGGGGAGGTGCCTCTGCCCCTGCCCTCAGCCC CTTACCCCTCACCCCAGCACTCTCGCGGCCCACCTCCTGCCT CCTTTGTCCAGGAGGTGGTGCTGCTGCCCTTGCCTCTGCAGG TCCTCCCTTCGTGGTGGCTGCGCAGGCGAGGGGGGAGGCGT GTACATGCACATTTACACACGCATGCACACATGCGCACACACT TTCCCTCCCTGGGGTGGCCAGCGAAACACTCAGTCCCCCTCC TACCGTCGCCAGTCCGAGTTTAAAAATAGCAGCAGCTCTGCA GTGTGCCTGTGGGGTAGATATAAATACTTCTAGAAATTGTAGG CTCAGCTGGGCACACTGGGCTTTATTGGCTAA 1758 PICK1 3945195 CTTGTCAAGAGGCTAGAGGAGCTGGAGCGGACCGCTGAGCTA TACAAAG 1759 PICK1 3945196 TACGGGCCTTTTATGAGCTGTCGCAGACTCACCGGG 1760 PICK1 3945197 CCTGCGGGGAACATCTAGATCAGCTGGTCTCTTAAGGGCCGC AACGATGAACAGGCCCCACCCTGTCTCCTCACACTGCCACTG GCAGTACACAAGGCCCTTGCTTATTTATATTTCTGACAACCTGT AACTCTGGGCAGGCCGACTGCAGCTGACCCCAGCTACTGCAG AAAATGAAGCCCAGACAAAGGAGAGGGCCACACTGCTCCCAA GTGGTGGAGCTGTTGTTCCAATCCAGGTGTCTAGACTCGGAC CAGTGTTCTGCCTCA 1761 PICK1 3945198 CAATCCAGTTTCCTCCAGGTGTAGACTCAGCTCCTTCAGGGG GTTTAGACCAGCTCTCTTGGAGGTGTAGCCCCTGTGCAGACAT TGGCTTCCAGCCTGCCAGGCCCCCTGCCCTGCTTCTCCCCAA CAAACCCCTGGCTTCTCTTAGGGGGCCAAGTAGGGGCAGCCT TCAAGGCAAACTTGTCCTGCA 1762 PICK1 3945199 TTTGGGGACGTGTTCTCCGTGATCGGGGTGCGGGAGCCCCA GCCAGCTGCGAGCGAGGCTTTTGTGAAGTTCGCCGATGCCCA CCGCAGCATCGAGAAGTTCGGCATTCGGCTTCTGAAAACCA 1763 PICK1 3945200 ACTGAGTCACAGCTTGCCCTAGGCCTGGCACTAGTCTTCTCAT CCTTGAGAGGGACAAGGCATCAGGGAGCACCATCTGGCTCTG ATAGTCGAGTCCACCAACAAGGGTGACGCATCAGTGCCATTC ATTG 1764 PICK1 3945201 GACGGATCTGAACACGTACCTCAACAAAGCCATCCCGGACAC TCGCCTCACCATCAAGAAGTACCTGGACGTGAAGTTTGAGTAC CTG 1765 PICK1 3945202 CTGCTGCGCCTGCACAAAGAAGCATCTG 1766 PICK1 3945203 GGACTCCCTGAACACCTGCGCCAGCCTCTCCTGCTGCGTGTG GGTGATGGGGGTGGAGCTGGGGACCTGGGGTGGGGGTAGTA CCACTCTGACAGCCT 1767 PICK1 3945204 GATGGATGACGAGGAATACAGCTGCATT 1768 PICK1 3945205 CTGGACTCTCGTTCCTGGAGATTTAGGGCCATCTTCCCAGTCC CGCTCGCTGGGCCTCGGGGTGCTGGGCACCCGGCCGGGAAC CACTCCCTCAGTCTGGGGGACTCTTGGAGGGAAATCGGATTT TCTTCACTCCTATGAGGCGCTTTTAAGTGTTTGATTTTTCTGCT GTCGGGATCCATTTCGTGGCCAGTGTTCATTGAATGTGGCAGA GGTTTGGGTTTGGTTTTTTCCTCTCTTCAAAGCTATCACTGAGT GCTTCTGAGAAACACTGAAGTCTCAGAAATGAGGTCTCAGGAA TGAAGAACAGCCGTGGCTTTGAAAGCACA 1769 PICK1 3945206 GGCGAGCCCCTTTACCGGGTGAGCACCGGCAACTATGAGTAC CGCCTGATCCTGCGCTGCCGCCAGGAGGCGCGCGCCCGCTT CTCCCAGATGCGCAAGGATG 1770 PICK1 3945207 GCCTCGTGTCCACCATGTCCAAGTACTACAACGACTGCTACGC AGTGCTGCGGGATGCCGACGTCTTCCCCATCGA 1771 PICK1 3945208 GTAGACCTGGCGCACACCACATTGGCCTATGGCCTCAACCAG G 1772 PICK1 3945209 GTTCACAGATGGGGAGGAGGAGGAGGA 1773 PICK1 3945210 TGGGGAGCCGTCCAGGGATACACGAGGGGCTGCTGGGC 1774 PICK1 3945211 GTGCCCCGCGGCTGTGGTGCCGGGGGCAGG 1775 PICK1 3945212 GCGACGCATAAAGGCCTGCTGGCTTGGGGCGCCTGCCTCCCT GCTCCTCTGTCCTCGCACAGCGAACCTGGGCTCCTGCCCAGG ACAGGCACCAGGGTCATGGCCTGGGACCTGGACACTGGCCC CTCCACCCTCCCTCCCCTCCCGGCTCCCCGGCCAGAGGGAG AGCTTGGTCTCTGGACCTGCCTTAGGAAGGAGAGGGAGGGCA GGAAGGAAAAGAAAGGACTTGGAGGTGGCAGGAGTCCGAGC CCTGCTCCTTGTGGGCGCTCACACTGCCCCCGGAGCCTGCTG GGAGTGGGGCCAGCCGTGGACAGCTGAGGTTGGGGTCAATG CCTCCTGGGCACCCTTGCCTCGCCCCAGACCGGCCCGTCCA GTCCCCATCACACCTCGGCGGCCTTTATTTA 1776 PICK1 3945213 TGGGTTCTGGGCCTGTATCGAATAAACACAAACCTG 1777 FTH1P8 3994182 CTCAGAGGCGGCCATCAACCGCCAGATCAA 1778 FTH1P8 3994183 GTCTTACTACTTTGACCACGATGATGTGGCTTTGAAGAACTTT GCCAAATACTTTCTTCACCAATCTCATGAGGAGAGGGAACATG CTGAGGAACTGATGAAG 1779 FTH1P8 3994184 CTGGGAGCGGGCTGAATGAGATGGAG 1780 VBP1 3996816 CGCAGCCAATCAGCACCTAGAGGTTGGGCTACTTTCGGCCAA AGGAGAACGGGGACTTGTGGGGGACGCTCCCTGCGCACCAA TGAATGTGCATGGAGATGGAGAGGCGGGCCTGCAAGTGCGA ACAAGCCAATC 1781 VBP1 3996817 CGGCCGTTAAGGACAGTTGTGGCAAAGGAGAAATGGCCACAG GGAATGGGCGGCGGCTCCACCTGGGGATTCCTGAGGCCGTG TTT 1782 VBP1 3996818 TGGCCTCTAAATAGACCAGGGTCTGAATCCTGGCTCTGCTTCC CAGTTGCTGCTTAACCTTAAGCATATTATTTTACCACTTTGAGC TTGAGTTTCTTTAACTGAAATAGGGATGACAATACTTAGAGAGT TGTTATGGGAAACAGAGAACATGCTTGCAGTATTGCAGTGTAG TAGGTGTCGAATAGGTATTAATATTCATGATGATAGGAAGCAA TATACCATAGTGGTTAGAAGTCAGACCCAGTCCATTCCCCAAC CCCGCTGAGGCAGTAATTTGTTTTC 1783 VBP1 3996819 CAGTATTAAAGAAGCTGGATGAACAGTACCAGAAGTATAAGTT TATGGAACTCAACCTTGCTCAAAAGAAA 1784 VBP1 3996820 GCTAAAAGGTCAGATTCCTGAAATTAAACAGACTTTGGAAATT CTAAAATACATGCAGAAGAAAA 1785 VBP1 3996821 GAGTCCACCAACTCAATGGAGACCAGATTCTTGCTGGCAGATA ACCTGTATTGCAAAGCTTCAGTTCCTCCTACCGATAAAATGTGT CTG 1786 VBP1 3996822 TGCATATGTTCTTCCTGTCCTTACACATTCTTTATAAGGTTGTT CCCACATTGTTGGAGCACAGAGCCATTATATACTGTTTGCTCT CTCTCTTTCTCTCTCTCATCTTTCATTTATCCTAGTTCTTCGTGT AAATATTG 1787 VBP1 3996823 TTGATGAAGCTCAGGCATTGTTGGAAAAGAATTTATCGACTGC CACAAAGAATCTTGATTCCCTGGAGGAAGACCTTGACTTTCTT CGAGATCAATTTACTACCACAGA 1788 VBP1 3996824 TCATCTGACGGGTAGTGTGGAAACTTCATCCAGCTATGAGATG ACGAGGGCCTAGGACGGGTGGCTTGTGGAAAGGAAAAGATAT TAAACGTGTGAGAAAAAAACAGGATCCAGTGACTTAGATGGGT ACAGGAGCCAAAAGTGAGGAAATCCTCTAAGATGAGTCCTACA AGCTTAGTTAAATGCCATTTGTTATTGCTAGTACTGC 1789 VBP1 3996825 ATATGGCCAGGGTTTATAATTGGGATGTAAAAAGAAGAAACAA GGATGACTCTACCAAGAACAAA 1790 VBP1 3996826 TATGGAAGCTGAATGCCGGACGCTAGCACAGTTTACTTTTTCC CTTTCTAATCGGCTGATGTTACTCTCACTTGATGTGGTTAAACC ATTTTAGAGGTAGAGAAGACAGACAGTTTGAATATTTGTAAACT TGTTTTTCTTTGGTATATTTAGGACTTAGTGGTCCTCTGTTGCT ATTGTCTTCTATAAGTGGAGTTTCATGACTTACTGCTTAACGAA TAACTAACTACTATGATATTCTGGACATTTTAGGAAATGGTAAT TTGCCTTGCTACACATTAAGAGGG 1791 VBP1 3996827 GCCTAAGGTGATTTTGTAGTTCTTAACAGTTCTCCAGAGCATCT TGAACAGGAATATTAAGATAAATGTGAATCTGCAATGGCTGAA AAGAGTTGTGAGCTTTTTTATTCATGATAAAACCTTATAGGAAT AGTATAAAAAATCCCTGTGGAAAGCTACTAGTACATTGACCAG CGCTGGGTGATACAGATTCT 1792 KIAA1210 4019318 GCTCTAAGCTTTGCAAGGGATCCTAAAAGAGGCGGTGGAAGT GAAAATTCTGGGTCTCCAAGAAAATTTCTGCACAGCCAGTTCT CCAATCAGCCTATCACCCCTTGAAACATCTTCCCTGTGTCCCT GGGGGCCCCTGATGCTTTCTCCTTGGGTGATAGTAACATGCA GAGCACTTACACAAAGCTCCCTCTTTGGACATACCCCACGTCG ACCTGTCACAGGCCTGGCTGTAGCGAGCACCTCCCTATGACG CAGAATGCTTCTTGGGAATTATCTTACTCCTCTGGAGGGTTAG TCCATCAATGTTTTGCTTCTTGTCCCAATACTACTGTGACCCTC TCTGATCGCACAGAAATCACTGCCTATCACATATATCCTGTTAA GCACTGAAGACCCTATTGAAATTAGAGTTCTACAGATGCCAAA AGCTGTACTTTCCATCAGGCAGATGGCAAGCTTACTGCCTTGA TGCACATCTGGAGCCACTGGAGCTCCTTCCTCTCTGGTTCCAG CATTAAGGTGGAGAACTCCATGTAGCTTCTTGTCCTTTCCCCT CAGCTGTCTTTGCTTCACAAGGTTTTAGCCCAAAGCAAGAGTG CAATCCCAAAGCCACAGAGAAATGAACTTTCCGCTACCTGGAA GCTTTAAGTGAGTAAATCAGCTTTTCCCCTCTCATTCCTAGAG GCACACACCTCAAAAGTTACTAGGCTGGAGAGACCCTACCTTC CAGTGACCCACTCATCCCCCAGCCACGGAGAAGAGGGAAGAC CAAAAAGGGAGAGTGAGAAAGAGGATGAGAGGGATGGTCAG CTGTGAGGGGAGGGGGCAAGTGGCCCAGCAAATGTTGATGC CTCCCTTCCCATCTTGCCACACGGTCTTTTTCTTTTGTAGCACA GCCTCCATTAATAACTCCTCGGCTGAGGATGAAGATGTAGGCA CCTTTACCCCCAGAGCCAGTTCCTTAATTGGCTGGCTTTCTGA GATGCAGACCACCCTAGAATCTCATCTAGGTTCACTAGAAGTT AGTTAAATCTTCCTTTCTCTGTCTTTCTCTTCATTCCATCCCCC AAACCCACCAAACACTAAGGGAGAGCTCCCTTTGGATGTCTG GGCAGTAAACCTAGCTCATT 1793 KIAA1210 4019319 AGAAACCAAACGATCTTCAACTCTCCCAGCCAAGTTCCAGAAC CCAGTTGAGCCAATTGAGCCTGTCTGGTTCTCACTGGCCAGG AAGAAAGCCAAAGCATGGAGCCACATGGCA 1794 KIAA1210 4019320 GATCAGAGGAAACCTGAAAGGAGGAAACATTATATGGCATTCC ATAAACAACATACCCCAATATCGCTGGGGTTCCTTATTGCTTGT GTGTTATTTGCTGTGGTTCC 1795 KIAA1210 4019321 CCAGTGTCCATAAACAGGAGAAGACAGCACAGATGAAGCCAC CTAAGCCTACAAAATCAG 1796 KIAA1210 4019322 CCTGCTGGTCAACAGTCAGATTATGCTGTCTCAGAGCCGGTTT GGATAACTATGGCAAAGCAGAAGCAGAAGAGTTTCAAGGCCC ACATTTCTGTGAAAGAGCTGAAAACTAAGAGCAATGCTGGAGC CGATGCTGAGACTAAGGAGCCTA 1797 KIAA1210 4019323 TCCAGATGGCAAGCAGATATCAAGTGGA 1798 KIAA1210 4019324 TTTGGAGTTCGACTGAAAAGAGCCCCTCCCTCGCAGAAGTATA AGAGTGAGAAACAAGATAACTTCACCCAGCTTGCTTCAGTGCC CTCGGGCCCAATTTCATCCTCTGTAGGCAGGGGACATAAAATC AGAAGCACTTC 1799 KIAA1210 4019325 TCCTCAAATTTCGAGCGGGCTGCTATTGAGGCAGACATTTCTG GGAGTCCATTGCCTCCCCAATATGCTACCCAGTTCTTAAAGAG GTCTAAAGTTCAGGAAATGACCTCACGACTAGAGAAAATGGCT

GTTGAAGGCACTTCTAACAAATCACCGATTCCCAGGCGTCCGA CCCAGTCATTCGTGAAATTTATGGCACAGCAAATCTTTTCAGA GAGCTCTGCTCTTAAGAGGGGCAGTGATGTGGCACCTCTGCC TCCCAATCTTCCTTCCAAATCTTTATCAAAGCCTGAAGTCAAGC ACCAAGTTTTCTCAGATTCAGGGAGTGCTAATCCTAAGGGAGG CATTTCTTCAAAGATGCTACCTATGAAGCACCCTTTACAGTCCT TGGGGAGGCCTGAAGACCCACAGAAAGTTTTCTCTTATTCAGA GAGAGCTCCTGGGAAGTGCAGCAGTTTTAAAGAGCAGCTGTC TCCCAGGCAGCTTTCCCAGGCCTTGAGGAAACCTGAGTATGA GCAAAAAGTCTCCCCTGTTTCTGCCAGTTCTCCTAAAGAGTGG AGGAATTCTAAAAAGCAGCTGCCTCCCAAACATTCTTCCCAAG CCTCAGATAGGTCTAAATTCCAGCCACAGATGTCATCAAAGGG CCCAGTGAATGTACCTGTAAAGCAGAGCAGCGGTGAGAAGCA CCTGCCTTCAAGTAGTCCTTTCCAGCAACAGGTTCATTCAAGT TCTGTGAATGCTGCTGCTAGGCGATCTGTTTTTGA 1800 KIAA1210 4019326 GGCTATCCAATGTCAGCAGCATATGGAAGAAGATGGAGAAGA AAAGGAGCAAGTGTTTCAGGATTGAGTGGGTGTGAATTCAAAG GAAGAAGCCTTAAACAATCCAGTGAAGGGTATGGCCTGGGCG ATAGAGCTGGGTCTTCACCTACCAATAAGACTGCCAGGAATGT CCCTTTCTCGCACTTGTCCTTAG 1801 KIAA1210 4019327 TGGAGCATAGTCAGCTATTATCAGCGCTGTATGCTGGATATGA AACTACTGGATGGAGCTAAGGATGCAGCAGATAGTGAGGGAA GAAAGGCACAAGGGGCCCTTCCAT 1802 KIAA1210 4019328 TGTTGGCTCCAGTTGATGGCAAGCTGATTTCTAGCAGTATTTG ATAAAAAAATTCCAGTTCCTCAAATTAAGTTGAATAGTTATGTT ACGTTTTTGCCACAAAGGATTTCACATGTGGGTCCAAAGACAG GACATTCCTAAACACGTTT 1803 KIAA1210 4019329 AACCTTCCATTGGTTTCTGAAGAAGAAAAGAGCATAACCAAAC CAAAAGAAATCAACGAAAAGAAGCTGGGA 1804 KIAA1210 4019330 CCTTCCAGTGTGGTTCAGTCATTTCCAGGGTATTTTAGAGGGA TCCCTGCAGTGTGTCACTCAGACATTAGAA 1805 KIAA1210 4019331 CACAGTCCTTGACTGCATTTGCCACACTTGCCTCTACCAGTAG CACCCAGCTGCCCATTGGTTTCAGCACCCCAGCCACCACCCA GGGCTGTTTGGATTCTTCAGCTGCTCGCCACAAAATGACTT 1806 KIAA1210 4019332 GGTTACAGGCTCCATCACTATCCCACTGGAG 1807 KIAA1210 4019333 ATCCCACCTGTTATCCAACCTGAAATAATTTCTAAGAACTTGGT AGAAATCTCTCTCGATGATGAGTCACCTAAGAATCCACAAAAG AAGGCTTTACCACATAAGAGTTTGACAGCG 1808 KIAA1210 4019334 TTCTAATGGATTAAGTGACATTCAGAACAACGAGGAGATTGTT AAAGAAGAA 1809 KIAA1210 4019335 CTCTGCCTAAACCTAGGAGTAAGGTTCCTGGAGTTGTGTCTGG AGCCATGTCAGGAGCTGTGCTTCAAAATGTGCCTACAAGTGCA GTCTGGGTT 1810 KIAA1210 4019336 TTCCTTCTATGGATCCCCAGAGAGG 1811 KIAA1210 4019337 GCAGCATGGGGAGCAAAGCCCTATCCCATGATAGCATCTTCA TGTTGGGTCCTGAGCCTGAAAGATCA 1812 KIAA1210 4019338 AAAGAAGCCGAAGATACCCAGGAAGAAGAA 1813 KIAA1210 4019339 CCTACAATGGCTGAATCACTAAGTGAAATTTCTGACAGTCTGG ATGT 1814 KIAA1210 4019340 ATGCCCTGTACCCAAGGTGATTTACAGCAGGGTTTCCTTAAAG CTAGGTATTTGGAGCCCTCACCTCCCAGGAGTCACCTGGAAG GTTCTGGACTTGCAGGTCCCT 1815 KIAA1210 4019341 TGATTGCTGGTAATCTTGGGGATCTGGCCAGGATAGTGGGCC CCTCACATCATGCTAGTCAGCTTCTCCTACTCCAAG

Example 2: Validation of a Genomic Classifier to Predict Aggressive Prostate Cancer in Humans

[0198] The genomic classifiers described in Example 1 above were further validated as follows. Expression profiles from assays of biopsy and radical prostatectomy (RP) tumor tissue specimens from multiple patient cohorts were analyzed. This included genome-wide expression, treatment and outcomes data from prostate cancer patients treated with RP retrospective institutional cohorts and pathological data from clinical use of the Decipher RP test.

Prediction of Future Metastasis

[0199] RP clinical validation of the genomic classifiers (DV1 and DV2) ability to prognosticate the development of postoperative metastasis at 5 years and 10 years was determined. As shown in Table 8 below, genomic classifiers DV1 and DV2 were prognostic for 5-year metastasis and 10-year metastasis. Similar results were observed for prostate-cancer specific mortality end-point (See Table 9). Multivariable analysis further demonstrated that the prognostic information in the GC models is independent of clinical risk factors.

TABLE-US-00008 TABLE 8 Metastasis Endpoint for Genomic Classifiers Cumulative Incidence of Cumulative Incidence of 5 year Metastasis @ 5 year - Metastasis @ 10 year - MVA HR AUC Risk Group Risk Group Dataset Classifier (95% CI) (95% CI) Low Int High Low Int High Decipher Dv1 1.20 0.72 2.4 5.8 15.2 5.5 15.0 26.7 Meta RP (1.09-1.33) (0.66-0.78) (n = 855) Dv2 1.33 0.79 1.5 6.8 15.2 3.9 12.0 31.4 (Spratt JCO (1.18-1.49) (0.73-0.84) 2017) Dv1 + CC -- 0.78 -- -- -- -- -- -- (0.72-0.85) Dv2 + CC -- 0.82 -- -- -- -- -- -- (0.77-0.86) CCF RP Dv1 1.28 0.78 5.1 4.8 17.5 15.4 38.0 60.1 (n = 179) (1.12-1.47) (0.67-0.88) (Klein EU Dv2 1.27 0.75 4.2 4.5 20.6 11.2 42.5 67.5 2015) (1.09-1.48) (0.62-0.87) Dv1 + CC -- 0.76 -- -- -- -- -- -- (0.62-0.91) Dv2 + CC -- 0.74 -- -- -- -- -- -- (0.61-0.87) Leuven RP Dv1 1.26 0.71 13.3 7.1 34.5 41.5 22.1 56.1 (n = 61) (1.07-1.49) (0.50-0.87) Dv2 1.20 0.74 14.3 18.8 29.2 29.4 45.5 51.3 (1.03-1.41) (0.53-0.89) Dv1 + CC -- 0.78 -- -- -- -- -- -- (0.64-0.95) Dv2 + CC -- 0.76 -- -- -- -- -- -- (0.61-0.97)

TABLE-US-00009 TABLE 9 PCSM Endpoint for Genomic Classifiers Dataset Classifier OR (95% CI) AUC (95% CI) Decipher PCSM Dv1 1.48 (1.33-1.64) 0.73 (0.67-0.78) [All patients] Dv2 1.47 (1.36-1.58) 0.79 (0.74-0.84) (n = 561) Dv1 + CC 1.31 (1.17-1.46) 0.80 (0.75-0.83) (Karnes EU 2017) Dv2 + CC 1.33 (1.23-1.45) 0.82 (0.79-0.86) Decipher PCSM Dv1 1.37 (1.21-1.54) 0.69 (0.62-0.76) [High Risk: Dv2 1.35 (1.24-1.48) 0.73 (0.67-0.79) PSA > 20 or RP Dv1 + CC 1.29 (1.14-1.46) 0.72 (0.68-0.77) Gleason > 8 or RP Dv2 + CC 1.30 (1.18-1.43) 0.75 (0.71-0.79) Stage pT3b/N1] (n = 323) Decipher PCSM Dv1 1.35 (1.18-1.53) 0.69 (0.62-0.77) [BCR patients] Dv2 1.34 (1.22-1.49) 0.74 (0.67-0.81) (n = 212) Dv1 + CC 1.25 (1.09-1.43) 0.75 (0.70-0.80) Dv2 + CC 1.26 (1.14-1.41) 0.77 (0.72-0.82)

Treatment Guidance

[0200] Treatment guidance, including adjuvant radiotherapy and salvage radiotherapy from Decipher RP testing was determined. Table 10 shows treatment guidance data for the metastasis endpoint for genomic classifiers.

TABLE-US-00010 TABLE 10 Treatment Guidance - Metastasis Endpoint for Genomic Classifiers Cumulative Incidence of Cumulative Incidence of 5 year Metastasis @ 5 year Metastasis @ 10 year MVA HR AUC Adjuvant Salvage Adjuvant Salvage Dataset Classifier (95% CI) (95% CI) RT RT RT RT ART vs SRT Dv1 Low -- -- 0 6.0 9.4 10.7 guidance Dv1 High -- -- 7.5 23.3 7.5 31.3 (n = 188) Dv2 Low -- -- 0 3.6 0 7.7 (Den JCO Dv2 High -- -- 6.6 25.1 17.2 34.4 2015) SRT Dv1 1.3 0.81 -- -- -- -- intensification (1.09-1.6) (0.7-0.9) (n = 170) Dv2 1.68 0.86 -- -- -- -- (Freedland (1.32-2.3) (0.73-0.95) EU 2016) Dv1 + CC -- 0.8 -- -- -- -- (0.7-0.9) Dv2 + CC -- 0.88 -- -- -- -- (0.81-0.94)

[0201] These results showed that genomic classifiers of the present invention are useful for predicting presence of higher-grade disease in prostate cancer subjects. These results further showed that genomic classifiers of the present invention are useful for predicting metastasis in prostate cancer subjects. These results suggested that the methods and markers of the present invention would be useful for diagnosing, prognosing, determining the progression of cancer, or predicting benefit from therapy in a subject having prostate cancer. The results showed that the subtyping methods of the present invention may be used to determine a treatment for a subject with prostate cancer.

[0202] Although the disclosure has been described with reference to the above examples, it will be understood that modifications and variations are encompassed within the spirit and scope of the disclosure. Accordingly, the disclosure is limited only by the following claims.

Sequence CWU 1

1

18151645DNAHomo sapiens 1tcgccaggca tttcggggca aaacgaagcg gagcccccca aacccccaga cctaaccaag 60ttcagagatt cgcagaagca cgccccccac cccaaattta ttgtgctcta cccaaaatgg 120aataggacta ggtttattta cccattgtga gggtagagag gcgagtctgg aggagcaggg 180attgggagaa ggggtggaaa aatactctga ttcttaaaaa tactttgtaa cctaaagtcc 240ttaaattgtg gaagaaagga atactcctcc tttccattgt agtctagagt taagatttca 300aatccataaa ttagaggacc taaaattaga gggcaattaa ctgctcattc attgggcccc 360cagtcagcac gggggtgctg gaagagatcg ggaataatag cgcagaccaa tgagcctagg 420gagatgcttt catcgtctct ccttccctca agtgttctgg aacctatcat ttgaattagc 480cgagtcaggc aggagggggc ggggaatcct tccgcccttc ttaggagggg ctgcattgca 540gggggagagt gaactgacag actcagtcac tgaagaggga aaaggagtga gaagacaaag 600ccgtcaaagc cccaacagct ttgtatttct ccagcccggc gcaga 645228DNAHomo sapiens 2gggaccctgt gagtagccag tacagttc 28397DNAHomo sapiens 3agaactggat ctgtcggagc tggaaggcct gggtctgtca gatacagcca cctacaaggt 60caaagacagc agcgttggca aaatgatcgg gcaagca 97432DNAHomo sapiens 4gtgatggcct ccttgagtac agcaccttca ac 32526DNAHomo sapiens 5tggagagctc ccattgccag catcca 266607DNAHomo sapiens 6tcaagcaatg gagtactggg tcacagggat tcctcctttc ccccccaaat attaactcca 60gaaactaggc ctgactgggg acacctgaga gtagtatagt agtgcaaaat ggaagactga 120tttttgactc tattataatc agcttcagag attccttaaa ccttcctaat ttcctgctcc 180agggcagtaa acacaaatat ttcttcaagg ggtgatgaaa acctcggaag ttttaatttg 240aggttatctg ctacgaaaca gtatttctaa aaggctaaag tgataagtct cttgcttttt 300tttgatcctg ctcttatatt cttttttttc ctcagagaaa tcaggagggt agttagaggt 360ataaaacagg aggaaatatt atggaaaatg aaaataggga aaataattga atcattttag 420aagtagctaa tttcttttct caaaagagtg tcccttcttc acacctactc actttacaac 480tttgctccta actgtgggtt gaaaactcta gctaaagaaa gttatcaaat cttaacatgc 540attcctacta ttatgatagt ttttaaggtt tcaattcaat cttctgaacg gcataagtcc 600tatttta 6077139DNAHomo sapiens 7gggagcgcgc ccagcatcgc ttgggcctcc tccacccgct caggagggga aacaggagag 60ccgggagcac aacagcctcg cgcgcccgcc gccgcctcag ccttagggga ggccactacg 120cctctggtta catttcttg 139863DNAHomo sapiens 8tagtcaggac aggataaaca gtcgctatat taagaccatg tacgtgtccc tagacctagt 60tct 63971DNAHomo sapiens 9tccgcccacg cctccgtctc ctccgcgctc cgccacagcc ggccgacacc acaccagccg 60gggagccgcc g 711026DNAHomo sapiens 10ctagtctgca agccaccgct gtcgcc 261132DNAHomo sapiens 11gacttcgagt gggtctacac cgaccagccg ca 321226DNAHomo sapiens 12gtgagggcca gcgggcgccc cgttat 261332DNAHomo sapiens 13gggccctgcg cggtcgtggg cgccggaggc cc 3214205DNAHomo sapiens 14cggagccgcg cagctccgac ccttccgcga agaggcgcag gcgcgtcccc gagcgcggga 60gtccccgcca ggcccacgcc ggccggttgg ggcgaagggt gtccccggct gtgccagcct 120tgagtagatc ttttcgctag aagattcctg tgccctcagg tgggcgccct ttcctctcac 180cactccctct cctccggagc gggcc 2051565DNAHomo sapiens 15ttggggctgc ctgagtgcta ggcagggtgt ggtcctgggc atccttgggc ctaccagcga 60gccct 6516176DNAHomo sapiens 16ggtctcagat gatgcgcctg ccatggcctc ccaaagtcct gggattacag gcgtgagcca 60ccctgccagg ccacatatga tatattttat caatgcctta tctacatgtt acataggaat 120aatctagcgt cctacctgtg taaaaaccaa ctctggaata ctgaaactga gctact 1761735DNAHomo sapiens 17ttgatgaaac ctgatcccaa tttgatatgg attat 3518115DNAHomo sapiens 18tctggaagtt atcaataccg tggcacaggt cacttttgac attttaattt attacttttt 60gggaattaaa tccttagtct acatgttggc agcatcttta cttggcctgg gtttg 11519134DNAHomo sapiens 19tggccaggct agtattttgt cagtccaagc agttcattaa aaaaaaaaaa aacaaaaaga 60gcaagaatat aaatactgca tcttccagcc tacttttaca aagggttcac tcttgggtcc 120ttaagcttag tggt 1342025DNAHomo sapiens 20ctggagtttc ctggatgggt gcagt 2521110DNAHomo sapiens 21gctgaatact atgacaacct ccctcactac aattcctgga taaaagtact gtatgatttt 60gtgatggatg atacaataag tccctactca agaatgaaga ggcaccaaaa 1102229DNAHomo sapiens 22atatcattag tgccaaaggg attcttctc 2923188DNAHomo sapiens 23aagagctcgg tgataccaag aagtgaatct ggcttttaaa cagtcagcct gactctgtac 60tgctcagttt cactcacagg aaacttgtga cttgtgtatt atcgtcattg aggatgtttc 120actcatgtct gtcattttat aagcatatca tttaaaaagc ttctaaaaag ctatttcgcc 180aggcacgg 1882470DNAHomo sapiens 24aagctatttc tagtttattt cactataaag ttttgcttta ttaaaaagct aataaacagc 60tattaatcac 7025171DNAHomo sapiens 25ctatataata tggtaacttg ggtaccgggg gaactttaaa atttcatctc aaaaataatt 60tttaaaaagc ctgaggtatg atatagcata aaagattgag atgaaaatat atttccctgt 120aagctgaatt actcatttaa aaattttaac ttctatatgg gacccgaatt a 1712634DNAHomo sapiens 26ctgctgaatc ctgtacagcc ttactcataa ataa 342759DNAHomo sapiens 27actttgccaa atactttctt caccaatctc atgaggagag ggaacatgct gagaaactg 592825DNAHomo sapiens 28gaaaaaagtg tgaatcagtc actac 252934DNAHomo sapiens 29tacctgaata agcaggtgaa agccatcaaa gaat 343032DNAHomo sapiens 30tctggctcgg cggaatacct cttagacaag ca 3231316DNAHomo sapiens 31ttcacgggcc acctagactt tccagtctag gactagagct gtagcaatga tctgttgtgc 60tgtacaagaa aagagaaaga ggtgttcatt tgagaacaga tgtttttata catcagagta 120aaagctgtat tgaagagcag gctgaatccc ttccatatag aatgaaatat gagcttgacc 180ccagtcctta tcttcagtta cctccatacc aactggtggc atgttggatt tagcatgtag 240aataatttcc catctcttat ttttcccaag gttaatggca tccttctggt acctggctta 300catgtgaact gaattt 3163245DNAHomo sapiens 32tatatatatt cctgttttta ctgattttta ttgattttgt tcaaa 4533251DNAHomo sapiens 33ttacctgtct ctaacaaagc ccatgtacag tgttatttga ggtctccatt aatcactgct 60agatttcttt aaaaaatttt ttttcatagt ttaaaagcat gggcagtaaa gagaggacct 120gctgcattta gagaaagcac agaaacggga gaggttcggc gggtccctgc ttgtcctatg 180aactgctcag agctcctgtc agtccagctg ggccttctgg gttctggcac catttcgtag 240ccattctctt t 2513426DNAHomo sapiens 34cagtctgcaa taaaagcact tcctaa 2635251DNAHomo sapiens 35ggttctgctc ctcgacggcc tgaactgcag gcagtgtggc gtgcagcatg tgaaaaggtg 60gttcctgctg ctggcgctgc tcaactccgt cgtgaacccc atcatctact cctacaagga 120cgaggacatg tatggcacca tgaagaagat gatctgctgc ttctctcagg agaacccaga 180gaggcgtccc tctcgcatcc cctccacagt cctcagcagg agtgacacag gcagccagta 240catagaggat a 2513625DNAHomo sapiens 36atgggagagc tccagtggag aaggc 253734DNAHomo sapiens 37atggtggatc ggcagtacag cactgttagc gcag 343828DNAHomo sapiens 38tccatgccaa atgtgatctt gaacttga 283988DNAHomo sapiens 39tcagcgtcag ggaaacctgg cagcagttaa tgaggcctgg ccatggctgt aggccaggtt 60gggaatcagg aagggtagat gcatcctc 8840147DNAHomo sapiens 40actgggagaa ctagtgaaga tgctgaggtg acacagcaga cccaggttgt tctggaggct 60ctacctgagt ttgcatgcag cttagaaact aaaactgtgt cttctcagtt gcatggagtg 120gactctcaga aggacataga gattgtc 14741227DNAHomo sapiens 41gactccttat caccaggctc gagcactagc aggagggaca ctggtgctac gtggcagaga 60ccttcttcca gttatcttag caactggtgg atcccaggga ctccccttag agtttctaca 120ttattgggct ttcagaactg gactcaccaa tgagtcaggg agacagtgtt cctgctctct 180atctgtgctg agtctgccta tctgggccca tgacaaggct tatgata 2274295DNAHomo sapiens 42atgcaggccc aattaaatag gcctgtggcc agtcttcagc ccacagctga actgcctcat 60ctggcaagaa agagcccatg taggatcttg agtgt 9543143DNAHomo sapiens 43tgtggcggaa agatcccatt acctcaaaga atcaatactg ttgagagatt tgaccaagtt 60cactttgtaa attactgcag cattgtggct gcagctctgg accttctagt tcctgcttct 120tctagtgggt cccaacttct tgc 1434482DNAHomo sapiens 44ttgttttcag ggcaggccgt caatcggtgg gtgcaaaaat gcagttgcca ctcagttgct 60gcccctacgc tgctgtttga ca 824566DNAHomo sapiens 45gaaggcaaag tagcagtaag caacgaaacg atagctcaag ttctcatgct aggaggaaat 60gggtga 664678DNAHomo sapiens 46atacagcatg atagagacaa ggattccaaa atcctaggtg gagagaacag gaccctttgt 60gagacagtca tggtcaca 7847118DNAHomo sapiens 47cctcatcatg gttgtggtgt acctgcggat ctacgtgtac gtcaagagga aaaccaacgt 60cttgtctccg catacaagtg ggtccatcag ccgccggagg acacccatga agctaatg 11848137DNAHomo sapiens 48acactgctca ttttgcttgt ctgggccatc gccattttta tgggggcggt ccccacactg 60ggctggaatt gcctctgcaa catctctgcc tgctcttccc tggcccccat ttacagcagg 120agttaccttg ttttctg 13749275DNAHomo sapiens 49ttctaattct ctggtcatcg cggcagtgat caaaaacaga aaatttcatt tccccttcta 60ctacctgttg gctaatttag ctgctgccga tttcttcgct ggaattgcct atgtattcct 120gatgtttaac acaggcccag tttcaaaaac tttgactgtc aaccgctggt ttctccgtca 180ggggcttctg gacagtagct tgactgcttc cctcaccaac ttgctggtta tcgccgtgga 240gaggcacatg tcaatcatga ggatgcgggt ccata 2755068DNAHomo sapiens 50atggacaata aattcttaag caacaaaaga aaatactggg tcacaagcaa ctgggtagct 60ctgatgga 6851454DNAHomo sapiens 51aggaactagt tatcctgtgg agatctggac gtctaactat ttggacaaca cttacattga 60ttgtcactat catataacta agaaaatagg tcattttggc aaaaattttt tctttgtctt 120tagaatttga aactttgagg ttttgattta attacatatg acactcctct tgtctaaacc 180tttcaattgc atttatcaac taccactctt ttttttttta tcagatcaga cctattttag 240atatcttgct gttctgcaag atatttgtta gaacaggcct gcatatgttt tctatgaatg 300gagactgaat ttaaaacatt aaagtatgag attgtttttc atgtgtgttc accggaatct 360gtttaagaaa ctacagcatg ttaactctcc atctcatttt tcagaaacac acgtgcacag 420tggaagaaat gcacacacag cattgtagcc aggc 4545229DNAHomo sapiens 52gggctcggcg gcgcgggtga acgtgagcg 2953111DNAHomo sapiens 53ctggagagga ggcgctccgc ccgcccgccg cgtcctccgc tgcttctccg cgcccggctg 60gagcccggcg cccggtcgcc ccgtcgcgct cgaccccgag ggcatgcggc a 1115484DNAHomo sapiens 54ttggcagtgc aatcagcctt tgctaatggg actattcctt ttaatctggt agctgcagct 60tcatactcag gagcaagtct cttg 8455366DNAHomo sapiens 55gtctgagaaa ttgtcccgga ataaaggggc ctaaggagac ataacatcta aatgtaatgt 60agtatcctgg atggactcct gcaacagaaa aagaacttta agtaaaaatt aagggaatat 120taataaagta tgcattttgg ttaataatgt atcaatattg gtttattagt tgtgacaaat 180gtaccagagg aatgtaaaat gtcaacaata aaggaaattg gatgtggggt acatgagaat 240gctgtactat ttttgcaact tttcttaaat ctaaaactct tataaaattt aaaaataaaa 300agaaatgtgg agttattatt attatttttt ggctcaggat ttgacccaga gctatggtct 360ggcaga 366561185DNAHomo sapiens 56ccagtttttc tcatgtcgta aagtgtagtt ctgaaaaaca gagcaaatga aatgcaaagc 60aggtacttgg gtttacatcc cagtgccact gatgattctg ttttctcatc tgtggaagtt 120tcactgttct tgtttcatgg agaaattaac taagtgtcag ctgtcaggca cactgaactc 180aggtgatgtt cattaatagc tgttgtacaa tatgtttgta tttggattgc tgcttattac 240ttaacaacag gataaacctg aacaatggaa aagaccaaca ttagagagta ttatctttcc 300aaatacacac acctgtaaga gaactggaaa tgtgagaact acaacttctt cttatttaaa 360catttgaaca attgccggcc ctttcaccga atttacctgt ggaatgcctt ttgagagtta 420gagaactgag aactggtatt acttttcagg tcttttgctt tccctaatcc ttgtgatact 480ggagatttat catctattaa aatggaccta gtatttttaa atctgcatat caaaagcaaa 540ttgaatgtct cttgcttcct tttaatttct tttaacatat aaatttctct tttagcatgt 600aaatttgttg aattaacagc cctttgataa tataattcct agttatcagc aataagtaca 660ccagtttctt ttttaaatta ggagtatgta attctaaatt aattgattct ctcattgtac 720atattatatg caaggttaca aaaaaaaatc aatggttaat gattttttag ctcaaccaag 780ctaaaagatg tgaacaagaa attgaactca aaacaactta agatacaaag ctcttgttac 840tgataatgtc taataatatt catcaattta ccatatcttg ctcttatatt aaaatgttct 900atcattttcc taattatttt aaagtcgatt acaaaaatat atatatattc ttgtagtgcc 960agaaaattga atacattaat aaatggggta gaatagatga atctcccatg aagaagaatt 1020ccaaataatt tatgaactct gccctcaagg atatggagca gaacttccta cttctctagt 1080gtgagctgaa tagtgacttc cttccaaaaa ttacatatgg aaagggggaa aataactttg 1140tagtggagaa atctgataaa cactatctcg gctaggttat caaga 118557188DNAHomo sapiens 57tccttgtggt aatccctaga ctgggagctc aggtactctt ttagtcatct ttgtatgtct 60ttagcagagt tcttgacatg tggtaggtgc ttaataaatg tttgttgttt atcaaatttt 120atggtaggga gagtaagtca gcatcggtat aaaatcgctt actccacgta actcttcttc 180tgataggg 1885829DNAHomo sapiens 58tctttgctat aattatagct tacttctag 295930DNAHomo sapiens 59gtagttctat gacttcaaca atgacaatag 3060201DNAHomo sapiens 60gccaacgcca taccattcag ggagactaca tagataccat ggaagagctt gctgatttgg 60tgggggtcag gcccaatctg ctgtctctgg ccttcactga ccccaagctg gcattacact 120tattactggg accctgcact ccaatccact atcgtgtaca gggccctgga aagtgggatg 180gggctcgaaa agctatcctc a 2016135DNAHomo sapiens 61gatggcagaa atatctaaag ctcaagagga aattg 356228DNAHomo sapiens 62gtctaaagac attgccctca cagagtga 2863225DNAHomo sapiens 63ttcacggaga cagctgccat atttgaggat ggctccaggg aggatgacat tgatgctgtt 60atctttgcca caggctatag ctttgacttt ccgtttctgg aagattccgt caaagtggtc 120aaaaacaaga tatccctgta taaaaaggtc ttccctccta acctggaaag gccaactctt 180gcaatcatag gcttgattca gcccttagga gccattatgc ccatt 22564218DNAHomo sapiens 64aaactattga cctgtggcct tatcatatca cacacagaat attattgtta cttgagaaat 60catatatgca ctcctcaaac aacactcttc cttcactcct ccaacactct ccctttcagt 120gcatccaggg tccaacttca gatctgatct tgatctgtgc caacctagta taaattagac 180cttttccaaa cttcatgcat agaccaaggg gaagatta 2186589DNAHomo sapiens 65tgggagtgca gggatagtgg ccaaagcaca agaataagga ctcttcacac tggctaatag 60taaagccacc tctacccata cattaagaa 896688DNAHomo sapiens 66tcgtgtaggg gactacggat atcctgctga tgtgttgttc tcttctcgac ttacacattt 60tatatggaag atctgtggcc aatcatta 8867130DNAHomo sapiens 67ttcaaagggc agtacttcca cagtcgagac tataagaacc cagagggatt cactggaaag 60agagtcatta taattggcat tgggaattct ggaggggatc tggctgtaga gattagccaa 120acagccaagc 1306865DNAHomo sapiens 68atgaatgtct ttgatggagt catggtttgc actggccatc acaccaatgc tcatctacct 60ctgga 6569292DNAHomo sapiens 69aaggtctcag gacatatagg ggtcaggaga agaataggca tttagtgcat ggagtgtcat 60aaaagcacag gagaagccca ggctttactc aggtgttaca gtgccttagg acctggacca 120agagacctag tgacttgcac ttttctagaa gaggagggta cattagcctg ccaacactat 180gttatttttt tctgtcttgt ggaaattttc tcattctgac tacagcccca aacagttctt 240atttgtggag tatgaaaatc aaatatccct gcatgggtcc tattatgtga ta 2927030DNAHomo sapiens 70gaaaaggagc cctatagctc agtcacttat 3071201DNAHomo sapiens 71tgggcccgta gaagcacata gtgtttcctt aacctaagta gggtaaccca tatttattat 60tttttataaa gctaaaaatc ataacactat cctgtttcac agcctctttc tttatagttc 120tttgtaaaat gggtatttat gggagccaaa gggagattca tttatataaa atgagagcca 180ctgaggtgtt tttctaccct a 20172656DNAHomo sapiens 72tgcacatgta tttatcctac ccaggcaaaa actccattct ttgtcctcct ttgctcctca 60aaaatattca agggacagtc tctctttcat atattttggc tgcagataca ggaagccacc 120tggcagagtg ttttcattac cttcatttca cattatttga ttgcaataaa cagatgaagg 180gaaatgtttt ccccattaca gaagggaact gataggtatg ggaactttaa aactctctgg 240ttccacaact tgtccattac tgcttagccc ttttgtactt tctgaagtac tttccaatat 300atttgtttac atgaacatca taaaaaccca gtaaagtata gctcttgggt agttaactct 360ggtgtagagg ggagaacatg gaattgcaga ataaaaacct gaattctggt gcttgcccta 420ccactaacta acttagatgt tagacaagca atttcctcaa tttcaatttt taaaaatttt 480cttgtttgta aaacaagatg attgtaccag atcacttctg tggttccttc ctgctctaaa 540gtattctagg acttttctat aatttctgat cacgaccata aaagaatttt atggtcagat 600atttctgaca gctggcaaaa agcccaaacc ttctgccttc tgatcatcct gctaag 6567339DNAHomo sapiens 73aattgtgtgg gtatctttgt gtttgaagtt gtttgccaa 3974173DNAHomo sapiens 74aggaagggcc agtatttaca aatcagtgat catcaatact tctaaagaga tgatgtgctt 60cagtgactat ccaatcccag atcattatcc caacttcatg cataatgccc aggtcctgga 120gtatttcagg atgtatgcca aagaatttga ccttctaaag tatattcgat tta 1737580DNAHomo sapiens 75gagcgggctc tcttccatca agtgctgcgt agaagaaggc ttggaacctg tctgctttga 60aaggactgat gacatcggag 807632DNAHomo sapiens 76gcgacactaa caggtgaaga tctcgggaga cc 3277172DNAHomo sapiens 77tgagatccgg taccgcagca gagcactctc agctctgggt cttgcaggcg cagggctccc 60ccatgccagc agaaagattt cctctggtga agaggaccgt cgaatctgtc ctcctcaaga 120cacctcttgt acagaattta ttcgaatgcc acggccaagg tcttccttga aa 17278210DNAHomo sapiens 78agcccacgtt ttattcccat cgagggaggg agaatgggtg ccgctgagtg ggcgggggag 60tggtccctga aaggaggtgg

agtgctacag cccctccccg ttggctctcg ctgtttgtcc 120gttgttggtt tatactaatt tgacaacagc cgcctgttga gtctcctcca gatcgcagct 180gaaggatctg ttgagcgctt caggaaaggc 21079154DNAHomo sapiens 79tccgcccacg gcaggagcga aggaaggccc tggcgcgggc gggtaaactg cccaccgggc 60ggcccacccg ctgcgccccc ggcccgcaag aggcagtccc aataggttgg cccgcctggc 120cgaagtccgc ccggagcccg ctcacctgtc agcc 15480175DNAHomo sapiens 80ctgtccttgg tgtataattc ctacaactgg aactgtttgt gcatcttact taaatttatc 60agttaatatt aggtattatg agttcccctt ggccttaacc cctactctta tcaaagaaac 120atgtttagaa aatgaagctt atcttccaca ggactttagg cataaaatgt gatta 1758125DNAHomo sapiens 81gctggtgaaa aggagtaggt ttgga 258236DNAHomo sapiens 82gtagtagtat tctaagaatc gcgtgatgtt ttctta 3683147DNAHomo sapiens 83aatgttggat tagatactga ggctgtagtc cctgctgtaa cggacatgtt ggaagctggt 60gttctagata cttacctggg aaaacactgg tctatcaaac tcgctgctaa tgctgcagtc 120actgtactta gagtgggtca ggtaatc 1478425DNAHomo sapiens 84gaagtaatct ctaaacttta tgcag 258531DNAHomo sapiens 85actggcagaa atactctgga gaaaactctg g 318632DNAHomo sapiens 86agaagtttgc tgaggcgttt gaagctattc cc 328758DNAHomo sapiens 87atatgatgtt agtgaagcta aactcaaaat gggatgtctg aagactctgt aaaacagt 588850DNAHomo sapiens 88aaatagcagt gtactcttgt ccttttgatg gcatgataac agaaactaag 5089209DNAHomo sapiens 89gagatactca ggtggtggtt tttaagcatg aaaaggaaga tggcatcatt tctaccatag 60tacttcaggg ctctacagac aatctgatgg atgacataga aagggcagta gatgatggtg 120ttaatacttt caaagttctt acaagggata aacgtcttgt acccggaggt ggagcaacag 180aaattgaatt agccaaacag atcacatca 20990101DNAHomo sapiens 90aatgaagtat ttctggccaa gcttattgtt caggcatgcg tatctatttt tcctgattct 60ggccatttca aagttgataa catcagagtt tgtaaaattc t 1019127DNAHomo sapiens 91gtacagcata tggacgaaat ggaatga 2792296DNAHomo sapiens 92aattctctct ttgacatggg ctttcttttt aagaacccaa ggcattgttt tgtagagagt 60ctctaaattt agacttgcat aatttttttc ctttattata ttcaggttaa atgtttttga 120cacatatact acataggaca tgttgatctt agtgggtcac atcaagaacc acattatgtc 180agtttatctc acagtaataa tgctaaattt gaccacttag ataaggtggt atagatacca 240tcaagtttct ccactataaa gatatttttt cccgttgaag ttaatcagtg gggtga 29693338DNAHomo sapiens 93cacagtgagg aggtctatgc aaacctaccc caaaggctga ggaagctgag aggctgaaga 60aagaagctga cagattcagt ttcttagaaa catttcatag ggacttatga acagaagcca 120tgtctgtctc aggcagtggt gagacaagat ggtagatccc cataccatta tctcctgacc 180cagggatgat ataccacagg ggaggggcac acatacttca gagcgaatgg gtaggagttt 240gccctaaggg tgggatttac agtaagtaca tactattaaa caacagatta actggaaatc 300tcagaggtat tcccgaaacc agggttgatc agaagtca 3389431DNAHomo sapiens 94cagttctttt tgcatgatac ccaacaacaa a 3195106DNAHomo sapiens 95ggacccatgg cgagagccat ctttaatatc attggcttgt caaatgggca gttctaaggg 60agcttggcct tacctgctct ggggaattgc aggttgccac ataaca 10696105DNAHomo sapiens 96cccaacagag aatagggata cctgcacata gcccttcagt gccagtggca aatatagggc 60ttcgtttcat tacctcagtt ggcaacatgg tgattggtgc taata 1059744DNAHomo sapiens 97ttcattctag tatataaaaa agcaaatgac tgggtgcaat ggct 4498409DNAHomo sapiens 98ccaggtatgc tgtagaatat ccctcagttg ggatttatct tatttttttc tcatggttaa 60attggggtta tgacttttgg ggaggaatat tataaggtgc cattctcctc acctcccatc 120aagggtacat actatccaca ttatacccac tgtttttttt tttttttttg gaaacttaaa 180actcatttta tgttattata agtaagaaat tagcattcaa tatatgccac aatatatctt 240tgttgaagtg taagtttgtt ccacttttct atttttcatt ttccaacttt tattttaggt 300tcgggggtac atatgaaagt ttgttacaag gataaattgt atggggctgg tataactgct 360agccatatgc agaagattga cactggatcc cttccttttg ccatatatg 40999227DNAHomo sapiens 99agctcgatgg gatccgcatc gtgtgcaatc accaccagct gagtcttctt gttctccacc 60aaggtggtga ttgtgttaac ccctgctgga aagacgggtg gtgtctcgat gggggtatcc 120cctttgctag cagctttctt ctcagtccag gacaacagtc tctgcttctt ctcttgtttt 180gtctctggtc tgtgcttgtg ggcccgcgta agcagtcagt agctgtt 227100311DNAHomo sapiens 100cgtctgattg cctgaactgc ccgtcaagga ggtggcatgt gttcatcatt catttattat 60ttaatcaaca tcgactatca tgtgtcagac actccgctgg gccctggggg ttctagaagt 120aagacttgtt ccgtgccctc cagtgattca cgataagatc aaactgttct tgttcggttt 180acctagtgat aaattgattt agtccctgaa atccctttct tactgcctgt gacctgtagg 240ccaaaattgg gaacctctga atagtagtaa attaaaatca ccaaagacgt cattgtggca 300gtgggtatct c 311101626DNAHomo sapiens 101gaccactggg tcttgggaat cagtaggggc tgtatccagc acaccactgc cccatccttt 60ttttcttaac tattagtgtt gaataaactt ctcatagtta atctacttgc tgaactcagg 120aaattcctat cactgaccct ggccagggct ttaaagggta ggaaaagcat taatgtcagt 180cctacacagc gaacttttga tttagaagaa tgtgacagaa agaaaacatt tactgaaata 240catgggaagc ttgcatattt ctaaagttgt ctttatactt ttcatttctc aaagctaagt 300aaactgtggt ataggcatct ctaagatgtt agcatttaaa acatcaattg ttttattgat 360gtttaaacaa ttgtttaaat cccactgaaa aatttaaata ttaaaatatc ttgcacagtc 420taccaaatga gttaaatcgt tacagtcgtg tctacctctt atttttctat ctgtatttag 480gctgctgttt tggtgagatt ctaatttctt tttcccctgg aactactttc tgtggaagac 540aaggaacaga ctggggacag aggcctgaaa acaaattgga agcactcaga gatctattgc 600tgaccagccc tattcctcat gagttg 6261021295DNAHomo sapiens 102ctccagggtg acaaatgcca atagatatgt gagttaattt ttttaaatat ctccgtgagt 60tgtaaataga tgtgtatttg atctgcccta tccttctttg attctttaac atgttctctc 120tcttctgttt gcaaaatatg tttgaaagca ttggtagtgc tttccttatc agtaactgga 180gttctcctgc ttgcactaga gaaggtaaag agagaatcag tattcttata tggcaatctg 240gggaagcagc aatatgccac tgtacaaaac tgaagaaaag ttcctaattt gtactttgtg 300aagggagatg aaaggacgtt taaagtatat atattttgtc aagaggaaag aagataaaac 360tatgccagtt ttatatcaat agcttgtaga agctcagctc ttcttggtct tggctagact 420gcctagattc ccacagcaga caaggttgag aatccattgc tggaatcttg gtattgatga 480gttacagtga tggaacatgt gcttggccac aggcaggtcc agtcactgca aaagtgacca 540agccagcagg tcacccttaa cttcagaaac aattattggt ggtgaactgt acttaaattg 600cagagaaacc tgtaagtaat ggaaggtaaa gaaaaattac agaatggaaa ataatatttt 660gggcaagcaa acaaattcac tgagaattcc aaaagtatat taaaaaagaa gatagctatg 720agttcagatc tatcttattg gtctttaata ttacaaccaa tccttaactt tccactataa 780aggaaggatt actagattga ttactttctg gatagataat ctggtaataa atgataggta 840aatcaaaaat tacttttatt taggagtttg aattcttact ctcatcagac attttttttc 900tagggacgct tactaattaa atgatttaag ttgtttctta ggggtttttt gcctatatat 960ttatgactgt gttaatgagt agtgaaatga tgcggaaaga cagctatcag gaagaggaaa 1020tacagaagcc tgaataatct atgggttaga aaagcatccc tgaataatca aaaattggca 1080gtattggcat tgttctcaag cctttttatg aaaatgaaat ctgaaatcac caaatgtaaa 1140cctgggaaca ttattctagt gttgctgtct tggattcatg ttaagaagcg tcttcattct 1200ttgctcatgt tgcccacttc ttgtggattt gtctgagtgt tttttgacaa tcacttcctt 1260aaagactctt ctgaactagt tggacctggt taatc 12951032379DNAHomo sapiens 103ggtcaccgta ggagttcaga ctttctttca taagtgtgca ttattttaca tgtgcaaatc 60agaatatatt taaaaaaaag caaaagaaat tcaatggatg gattaatatt tatccccctt 120tgggatattt taaaatctac taaaatgagg attagtaata taatgacctg ctaatatatt 180ttaagaacat gttttaaaaa gatacactct atcacatatt taagcaaaca tcacatttgg 240agaagaggaa atcataaaat catcctagaa gactatctga gagaaattct gttgccacca 300gttatacttg acaatttagt tgaagctcag aaagttatat tcatccctct tagctgtagt 360ctatattagg gcagttctct agaacgccca catttccacc aactcagtaa acttgagggg 420agctggttgg cacctcgtga agaactcttt ccctgtcgtt tgcagtaaca aactccagtc 480tgttgcagta acaaactcca gtctgttgca gtaacaaact ctagaatatt gacattctct 540gtgggggaaa agcagtgtcc actggacccc ttctggtact ggatgtgttc tttacaaagg 600ctagctcagt ccaacactgt gtttacatac actcgtgctt ttccttatct gacttctcat 660tttgtatcag aggcatatca taaattgata attttgcaaa atgcactttt ttgagatgca 720gatatagcaa aggattagta atatagcctg aaaacaaatg ggagcatagc agtgtgtgag 780gttctcgaga actgtcttgt ctctgtgtgt ttatttgcct gccagtgctc tccagcgcca 840tcctgccctg gacaccaccc tgacgtgatg cctctattgc agctcagagg ctttattttt 900tccattttga cattggcact aaatgcattt ggggatggtt aaaacaaatt actatagaac 960atttaaatga tcagtttaag gggaaatagg ctagtttata gaaaaataag agctagtggc 1020ttataatggt gacaggttct catgtggcac ccctaggacc tgtgcagaca gtagtctgtt 1080gaatcattac atcaaggagc tgcccctgtc agggtgagtg taattaggaa cgataccagc 1140acataaggct ccccccaatc tcttccagtt gctttttctt ttttcttttt tttttagaca 1200ggtcttactc tgtcacccag gctgtagtgc agtggcataa tctcagctca ctgcagtctc 1260tgcctcccgg gttcgagcga ttctcctgcc tcagcctccc gagtagctgg gactacaggc 1320acccaccatc atgcttggct aatttttgta tttttagtag agatggggtt tcaccatgtt 1380ggccaggctg gcctcgaact cctgacctca ggtgatctgc ccacctcggc ttcctaaagt 1440gctgggattg caggcgtgag ccaccacgcc cggcctccag ttgcttttga agagggtaaa 1500gtcaagtttc tatttctaga aaacattttt tagaaatttg ttgcgatgtt tgtacaattt 1560acctcataag agaaccacac ccttctccaa aagtgctggt actgcatcag tgagatgagt 1620agggtttttg tttgggattg taagactatt aagatcctag taagtcagtg gtagtttact 1680gtgatgtgag cattgtagat tcccccgttg tcactaatca cacaacaatt ttgagaagta 1740ggctataaaa caaaaaaagg ttgctgtttt ctatttttaa ataaaccaaa aaaaaacaga 1800aaagatgtga attttcccca gttatgtggg aaaggtaaag caacaccaaa taaaagccca 1860cagcagcttc atctttacga taactcagtg catatgtgaa agagaatgat gcattaactg 1920aaatacctca ttgaatatta tactactact ggtaaaatgc agaagacagt gttaatgtgt 1980ttggtttggg gactggttgt tataaaatgc aatttttttt taaatctaag catttcatta 2040tgtgttctac agtgtcggtg aataaatgaa accaatctca atttagaggt atggatgatg 2100acagaaagcc caatagaagc ttaatgatgc ttctgtttga ggcccagcaa gcaccactaa 2160attactggat gaaatgaaat tgttcacttg agggattagt caaccatctg ggggagaagt 2220tgctcactgt caaatacagc atgcacggtc ctagctgata gaccttttcc tcattgctac 2280agcaagccac agggtagagt gaccagttct cctatccaaa aataaatgcg aacatgcata 2340cataaatgtg gctgagggcc acttttgcca tcactgtgc 237910438DNAHomo sapiens 104gtacaacatc attcagtatt tttaccattg cctgtttt 3810563DNAHomo sapiens 105gaccctcagc aacttgtgga tatttctcat acagtctttt gcatttttgt caggctatat 60gtg 6310656DNAHomo sapiens 106ttccaattaa agatgtaccc ctggagactg atgaccttac cacttggctc tatcag 56107259DNAHomo sapiens 107ctaatggacc tgaactcttg aaagataaag actaaagcaa acacaagaag gtgacatgga 60ggaccagact atacagggca aggtctgctt ctagaattcc taatagtaca tgggggttca 120ttaacctttt tctctcctct tgtgaatgtt taaaaatttc cattataatt taaaaaactt 180attataaaca taagatattg tagcaataat acaataatag catactataa aaaagactga 240gaacaatagg agctcttta 259108389DNAHomo sapiens 108caaggtcacg caactggcaa gtggtagagt caggattcaa ccccaggcag tctgcccaat 60agcttttttt ttttttgaga cagaatttta ctcttgttgc ccaggctgga gtacagtggt 120acgatctcgg ctcactgcaa cctccgcctt ccagtttcaa gctattctgc ctcagcctcc 180cgagtagcta ggattacagg cacctgccac cacatctggc taatttttgt atttttagta 240gagacgaggt ttcaccatgt tggccaggct ggtctcgagc tcctgacctc gtgatctgcc 300cacctcagcc tcccaaagtc ctgggattac aggtgtgagc caccgcacct ggcgtgatag 360tttgtatgct taatcactag gccacactg 38910927DNAHomo sapiens 109gaggagatgt aagcctagca ttatatg 27110220DNAHomo sapiens 110ggccctaatt ggttatgagc ccattgctac accccaatac ttgtcatgaa gagaatgata 60tatgatgaca ggtctgacat gggtttttaa tgagaagggt gccaagacta ccagaattgg 120ctgagtgata atagattggc agacatttgc ttgggataaa tttattttgt tttttaaaga 180aaagctagat aatcctttcc cttggtgaga ggattcctgc 220111418DNAHomo sapiens 111tgtttgtcag ctcacatttt ggagtcttga cgtaaaaatt caaatgctcc aactccagta 60tagggggtgc cagctgctaa gtattatttt acattttttt tgaaagtgta atttcatcta 120gtgcttttaa atctgactat ggattttggt agtatattct ctatttaaga gcacattctg 180aattactgat aataagaatg ttcatttctt gaaaattagg agctagtttt tcatttgggt 240agctattggt attgtaaagg tttatttctg gtgtatatgt atttacttat ttaaatccca 300caagcactcc tctgatttga tttcaagagg actggtattc aatgtattta atcctttgcc 360atattagggg attagtcatt ttaatatttt aatcctatgg tgaccaatca gagtaata 41811262DNAHomo sapiens 112gccttttagc cttactatgt ttccatgtga aagacctcaa cccgtggcaa ctaccaagga 60ca 6211376DNAHomo sapiens 113acagcaaatc aaaaggcctc cagtggataa tagatacaac gatagcttat cccaaagctg 60aacctataga tattca 76114139DNAHomo sapiens 114cagagatcga aaatggattg ttttgtttcc agaagggggc ttcctcagga agaggcgaga 60aacaagtcag gcatttgcca agaaaaataa cttgccattt cttacaaatg ttactctgcc 120aaggtctggg gcaacaaaa 139115154DNAHomo sapiens 115tcttgagaac ttaatagcta tcttaatcat aatcagttca cttcagcaaa ctgactaaca 60aaatgtctta catgttttgc atttgggata catttgatct aaagactgaa agcatactaa 120ttattttgag gagtttctgt aattttgttg gctg 154116162DNAHomo sapiens 116gagaaggcag cggaaccaac aattagaaag cttagcagtc tcagggatcc gaaaagctag 60ctgagcacct tacctcattt ccagctttag gaaataattg aatttacagt gtagtgtaac 120agttgattct aatgatgatc atcaggcatc aagaagaggg gc 16211725DNAHomo sapiens 117gatgtggttg atggatcata ttttt 2511896DNAHomo sapiens 118ttctctatgc tgataggcag tctgcactaa gttgagcata aatatggtga cctcctggga 60gcagtgaaca actaggtcac acaagaaggg tgaacc 9611927DNAHomo sapiens 119cgaggccatc caggacaaca gggtgaa 2712026DNAHomo sapiens 120gcaacaggag atgtgtgcac actgat 26121921DNAHomo sapiens 121acacagtagg catagggctc ttttagttac tagtgattcc aaaagtgact ttaatcccat 60tactcaggat ctctatggta ctgtcaatta gatcttcctc atttttgcaa catgtttacg 120tagcattaat gatattattg tttcataagt gagaaaatga agacacagaa ggataaaata 180gtttgttgca tcagcttgcg ggcataataa gcaacctttc ttctctctgt taattctgtt 240ttgtaggcca gtataatggc tttagtgtca ctgttgttaa ggagtttttg atgggttgtt 300tctattttct ttttgagatg tgaactgtcc agattaattc taatctataa cttttgggaa 360aagtatattg atatacatgt tagaatgtgt gtgtgtatgt gtgtgtgttg tgtgtatgta 420gtagatgata acctttagct ttggttttca ataagaattt taaaatttat tacaattaga 480aaatttttcc tccagttttt attcagttgt cctttttccc tttggaaata gtggacctga 540cccaattctt ttttgagaat tcatttcata gagcagcgtg ttagaatatt tttgttcttc 600taatcaagtg cagtgtaaga actgtagaca tccataattt cttttctatc ccttggttaa 660gatattagct ttattactat atttactggt cctggaatag caaggcataa tctgaggagc 720atagctactt catctgtgta ataaattgct ctttcactac aaacatttta atactgattt 780tgttggtcat ttaactttct aatagtggtc cttaaattat gctctaaaag aagaatacca 840tatatattgg aaattaaatt tgttgttgaa taaaattaga attattataa aattcaacac 900gaccttattg ctacctcagg a 921122362DNAHomo sapiens 122cctacttcct aactatgtaa gtttgaaaac agtgcttaac cttttgtgcc tcattttcct 60catttgcata ttggggatga tactatctgc atatttggaa ttttgtgaag attaaatcag 120aaaataatgt aaattatttt ctattactaa gtactagtgc atggcacata ataaacattc 180cataaatgtt agctattaag attattattt atatatctat ttaataatat ctgctactat 240tattatttta gttatgtaac ccctccaaaa gctacctctt gagccttgct ttctcaaatt 300ttaacctctt aaaatttaag agtcaaaggg acactgacca tgatttccta gtgtgtacaa 360tg 362123245DNAHomo sapiens 123ccttgtttca agctggaagt ggggataaca tagagccctt cacacatctg cttttctcat 60ccccttcaac tgtctgttct tgttttaaga gtgagagatt aaaatgttga tttgtagcca 120agcaagtggc tgtggcttat caacattgag cctcactgta gggtaatctt attggaatat 180ttcactgggg aaccccaaat gtcagtattt ttaggtcttt cctcttgagg tgatcaaatt 240cccta 245124615DNAHomo sapiens 124ggtgaagtgt ccaagtcttt tcttaatttt tttaattggg tagtttgttc tcttaatgct 60gagttttgag aggttttttt tttttttttg agacggagtt tcgcccttgt tgcgcagact 120ggagtgcaat ggcgtgatct cagctcactg caatttccac aaccctgccc gggttcaagt 180gattctcctg cctcagcctc ctgagtagct gggattacag gcatgtgcca ccacacccgg 240ctaattttgt atttttagta gagacggggt ttctccatgt tggtcaggct ggtctcgaac 300tcccgacctc aagtgatctg cctgccttgg cctcccaaag tgctgggatt acaggcgtga 360gttttctata tacttgggat ataaaccctt tgttggatat gtgattgcat attattttct 420ctcattttat tctcttaaca gtgtcttttc ctcattaaaa tgtttacatt ttgataaagt 480ctaatttatt gattttttta aaaaaattgg gcagccccca agccagaata ggttgagaga 540gactccccag ttcattgatg ttattttctt ttatggcttg tgtttttcat gtcatgtcta 600agagtacttt gccca 61512534DNAHomo sapiens 125ggtctgattt gttacctgat gctcacagag tact 34126187DNAHomo sapiens 126tttctttagt aggaagtgct gtacagatat ctcacgttga ggaaatgctt tatattgcct 60ttgtcttaat atttcaaggg caaaccaaaa gagatactag cttaactaat gatccacttc 120tgcatgcttt atttggatct aggataaatc agtaccccac cccccggagt ttaagtgatg 180attggta 18712726DNAHomo sapiens 127cattttatcc acacacgcaa gagaag 2612826DNAHomo sapiens 128gtaagagtga gaacactttt ctttaa 26129176DNAHomo sapiens 129aggtttgcct tcatggtcgt caacaacctg gttgctattc catcctacat ctgctatgta 60attatacttc agccccttcg agtgctggac agtaagcggt tctggtatat cgaaggaatc 120atgtataaat ggcttttagg aatggtagct tcctggggat ggtatgctgg atatac 176130535DNAHomo sapiens 130ccttgccctc tggtcggaaa tctcattctc ttcatcccca gttccttggc ttttacctct 60ttctggcttt tgctcccttc cccctactcc tgtccttcct ctttttcgca ttataacccc 120ctactttctt cctctcacct tgtaagcttt ttttctaggc cccccatttt ttttcttaaa 180aaaaaaaggg aaacaaaaac cctattgcta caaatgagaa ttttgagggt aactcttcgc 240tagagccaga gaccttttaa aggaatgcat cggtgtgcag gaatcgtggt ggtgaggaga 300ctgaggtcct cagtatctgg gaaatcttat tgaggggacc ctgtttcggt catgtcactt

360gtgtcttcag tttggagatc ctgaggttgt ctgaagcgag tggatctatt tttctaagtc 420caatagacga ccgcagtgag acacggtgcg gggacggcca ccgattactg aatgggaatt 480gtgttatcat ttgctaaata tattgtgaca tacttcgtgc ctcggtgaac agctc 53513197DNAHomo sapiens 131cagccgcgag gggagtaggg cgccagcgcg cccgctcgcg cagcgcctcg ggccgcttgg 60gccgccaccg cgtccatgac cgcgacccct cggcggg 97132130DNAHomo sapiens 132ccttggggac cgagtctcgg cgccgccggg gaacgggcgc gggccgcgcc acagccggag 60cggggcaggg ccccgccacc gccttcttcc gccggccccg ccgccggcca tgcattcttc 120cggctcctct 130133199DNAHomo sapiens 133tgaggccagt aagcccaaga acttaaatga acattcttat actttagttt gcattctcag 60agctggggaa ctgtctgtag gcacagaaga tggaaaaggg attttctggt ctgtttctga 120ctttaagtta cacattttaa aaagtactct gaagacactg gggtttgttc atccccggct 180tgctactaaa gtagtaatg 199134239DNAHomo sapiens 134tgccaaagga attctgctca gcagattaag tatgttcatg ttttagaata aaaattgcca 60aaactttgtt gagaaaccac ttatgaggaa accttaaata ctaattagga agctaaaaat 120tgaatattgg tatattggta tagaatgaat atatatatat atatatatct ttttccaaat 180tatgacattc cgtgtaatat gagtgaatta ctcagctctg ctgatgagga cttatgttg 2391351655DNAHomo sapiens 135ctatgcaatc ctcgaactca gtgtgctttt ccctgacagg atatataaaa aggtagatta 60ggtcaaccct cctttaagct tactctcccc tcaccttttc ttttcactgt atataaacgg 120tactttctgt gattcatacc aacagaggac tttctgtgat tcataccaac agtcctaaac 180tgtcattttc taaatctggg atttaaaatc tttagacaat atttaaaatc ttgatttttt 240ttaaatgtca gcagatacaa tttggaagat tgcatctgtg tagaagtaat gcaggtacaa 300gatctagagt ttttccttag actctttagt cttttctgaa ttaaagaata agtgctctta 360aatccatatt ttatcctgtc aaagtctgaa atgtgttcat tgatgatttg gtgacatcta 420aaaaattgta tttagttggc ttggctcacc cctcttaaaa atacttagcc atctcttggt 480gggatgtggt gggggtatta aggtctcaga gttatttatt ttctcaccta atttcaaacc 540tttataaact tggggttttg ttgttgatgg tggtagtatt ttttgttaag ttgtttaaaa 600ggctgacttg attggagcct cctctacttt ttcttgaggg ttgcaagtat tgtatggtgg 660gggagggggg ccttaaggca aactgtctaa aaagtgacta tccaattaat ttaactagta 720aattagtaag aattattctt agtattcact cagagtttaa gatgtgaaaa atctgcactt 780tgtttatcac tctaaatgta aagaactttt tgatagtgtt atttcaccac tccctcagtt 840aaaggctatt atttaaactg tttactggag aaaatcctcg ctcatgtcca tttattgttt 900ttttctgtac tgtgatttgt ttcaagctta ggaaaactag tatattagag tatgttctag 960gaaattaaaa gatctggtta gagtaaaaag ttctttttaa ggttcttaac taattttttc 1020acaactaaga aaataaatga agtattctta ggctgaaatt catcttattt tatcataaat 1080tagattgtag gggcagccta catttttgtg tatgtgtttt tatttcttaa atgattgtgt 1140gagcctggtg acattttatg gttcttgtga tctaaactgt ttttccaatt cacatctttt 1200gtcgtgaagt gatattatac tagagtactg tttgcattgt aaaaatgctt tgctggtgct 1260ctggcatttt gtctttatct catcacctaa tttaaaaacc cagcacttga taatataact 1320gacagaaatg attgtaccca ctgatgaagt aatgaaaatg aagaaaagga aaatattcct 1380tccttcaatg gcgtaagttt attttttact taagtggcat ctatgtaagt tagacaaact 1440atatattaaa attggtaaac tttgaatgtt tctcctgttt tgattcttag attatgagga 1500ggatcagaca gaataagact ccacactttt gaaatttgat aagtcaaaac gttttatttt 1560gacattttta acattgtgaa ttattcgata tttgtaatct ctgtatgtat atgaaactct 1620gccatgtttt tcaactttgc ctatgtgcca ctgta 1655136279DNAHomo sapiens 136ctagggaaca aatgttgctc agggctggtg tcagtgagaa aaatttatca atgcttttta 60atgtgttttt acccttgcct cactgtgtgt gtgtcacttt ctataatata aagaaatact 120ataatatttc tagaatctgg aactgtcacc atgatgaatg gccctttcaa tgcatagtta 180cagaaattcc tgaagattcc ccaggacttc aatttcattg gtttttattt gcagttttta 240gttgctgtaa ttgttgctgt ttccagtcta aaggacctc 27913789DNAHomo sapiens 137agagacataa agtgactgtg gaaagccttt taattatgga cattcatcag aaagacacta 60atctgacttc aagaattctg aactattaa 8913825DNAHomo sapiens 138tttaaagtct tattacaaca cagta 25139396DNAHomo sapiens 139gtactaactt agagaggcct taatgctgac aagtcagttt ctctacaggt cataggaaaa 60actaagtttc caattgccag tgtttttcag tttgctgcct taattttgta agggagatat 120tcttctaata ttctttttgc ttggctataa cttgttcaac tacaatagca ggagtaagga 180atgtgtgatt gagaaggtga taaaagaaaa ttaaaacctt catctgctcc ttatttttct 240taaattttca ttactatttt tttcttttct cacctttttc ctgcactatg ctctttattt 300ctgaagctca gaggtcattt ttctttcact catttctaca tgatttactt ctgtatagag 360acatataatt tgcttgcttg tttatatcac cagtgg 396140105DNAHomo sapiens 140aggaactgcc ctgaagatat tattctctga aaaagaaatc caaaagcttc cagagaatag 60tccatctaaa ggcttccaac tcacccgaca ggaaatagtt gctct 10514188DNAHomo sapiens 141tgtgtctatg tttctattga tacaatacca gattcatttg tgaagttggt ggtcattacg 60aaccgagtat atccgtattt tacatatg 8814238DNAHomo sapiens 142acatttcaag aatatctccc gtataatgga ctgtgttg 3814361DNAHomo sapiens 143gtcctttccc atgcactttg atgagaaatc catgtttgca ggtgacaaaa aaggggccaa 60g 61144116DNAHomo sapiens 144tttatacttg attgagcttc gagctttgtc aaaggtggct ccatattttg agcgctcaat 60tgtcgatctt tacactggaa atgcagaaga agatgctgac acaaaaactc ttctac 11614580DNAHomo sapiens 145ggagaaaaga gtcttctata agcttatatc gggacttcat gctagcatca atttacatct 60atgcgcaaat tatcttttgg 80146150DNAHomo sapiens 146tgtcatatac ttttagggag gaagctacaa aataaaattc aatttctttt ggtccccatc 60catgacaatt tgaatattct agcaagaatt cccaattagg gaacgagaac tcaaaagaat 120tattttttct agttagaggc cacgtgcttc 15014727DNAHomo sapiens 147agcatatttt tgtaaggtct aggattt 2714827DNAHomo sapiens 148gagaatcatt ctacacatgg ctagaag 27149235DNAHomo sapiens 149agaggccata ttttttagta cgttgggtac tagacttttc ctgttggcac ttgaggtgtt 60ttgaatcaca agtgatataa tgataaatga tccttactat atgttgaatg aattaatttg 120ttagacgttt tcatttttgt acaaagtatg aagactctca ggaggcaaag taattcccca 180ccgtctagtt tatccctaga ctccttactc agctcatctg agtgttcggt ttttc 23515086DNAHomo sapiens 150tttgtttgtt tcaagtgtgg aggaaatttt ttgtaacaat cagaatttga tttttccttt 60atggaattca aaagaaagta ttcctg 86151163DNAHomo sapiens 151cctggccaaa atgtgcaaat cttatactct ttgacctgta ttctgattaa gaggactcat 60ttgcagggcg tctactcagt gaccaaggtt tgtgatataa ttaatagttt aacagtttta 120atctcaaaaa atagtattgg gatctgagct atgtaagaca ttt 16315246DNAHomo sapiens 152gcctcgatct gtttatcgtc ctttaaatcc tctggcgcct agccga 46153417DNAHomo sapiens 153aagaaggaac gactgataga gggtcgggag aggccgggtg ctgtggctca cgcctgtaat 60cccagcactt tgggaggcca aggtgggtgg atcatctgag gtcaggagtt caagaccagc 120ctggccaaca tggtgaaacc ccgtgtcaac taaaaataca aaaaaattag ccgggcatga 180tggcaggtgc ctgtaatccc agctacttgg gaggctgagg caggagaatc acttgaaccc 240gggaggcaga ggttacaatg agcagagatt gcgccactgt actccagcct gggtgactaa 300gtgaaactct gtctcaaaaa aaaaagaggg tggggagggg agtatttgtt tctattggaa 360taaaattata cactataaaa gttaaaacat tctatgtttg ggtattatgc tttcttt 41715493DNAHomo sapiens 154gctgctcagt atgtagacct attgctgaac ccagagcgtt acactggcta taaagggacc 60tctgcatgga gagtgtggaa cagcatctat gaa 93155221DNAHomo sapiens 155cctgcacaac aaagtaagac cacttttctt aaaaaagaac aatgaaaaac ctgatataat 60tgattttcct cttgtgattt tttagctccc ttaaagtata ttttaaatca tcatggttta 120atatctgaat catggttttt cttctttatt ggttatttgg ttggttttct tgggaaaaga 180ggttggtact agtccaattt gcacgtttgt agaggattct a 22115643DNAHomo sapiens 156ctggggagga ctctaattcg acttctccac agcccttttt cca 4315760DNAHomo sapiens 157caaagaagct ttcattgact gggcaagata tgatgattca cgggatcact tttgtgaact 60158186DNAHomo sapiens 158tgctactagt agtgtatcag ttatctgttc tacaacttct ccagtgattg gtactatgat 60ttttaaacag ctttactttg aggtataatg aaatatgata cactgcatat aaagtataca 120gtttgatgtt ttgacatgtg tccacccata taacatcatc acaattaaga taccataggt 180tgggtg 186159622DNAHomo sapiens 159atgatctagg gactaggctt aagtcattgg aagattttgg ggtaaattgc cagtttatat 60tctttgtcat ttttttctcc attgggttgg attttaaaat tattactgat ttgtaagcat 120tctttatata atgtgataat tctttgttgg ctgtgttgtt aggatttgtc ctttaatttt 180gcatatagtt ttttgttgtt gaacagaaat tattctttaa acttaaaaaa tttaagtata 240atacacatat ggtggaatag aaaattctta agtgtaaagg tcaatgtaac tttacaaagt 300gaacccaact ctatagccac catccagagc attatacttg ctgtccagat taccatgtgt 360actttcctag tcattatcac cttccaaagt taaccgtgat tttgagatac tgacagagat 420tagttttaac tgtttataaa tagaatgata tagaacatat tctgttgtat ctggcttctt 480tttgttaaca tgtgtctgag attcattcat gtttttgggc atagtaatgt ttaattcttt 540tttattggca catagtattc tatagtaaga atgtgccatg tttccattct gctcttgata 600gcttatgctt tggggccatt tc 62216026DNAHomo sapiens 160gagcaagcta ataaactggg agcaat 2616135DNAHomo sapiens 161ttccggttgg aataaaagct gggcattcta ataag 35162129DNAHomo sapiens 162atgttccagc tacatgcact tctcccattg gtaaacccta gattagattg gtaaactcta 60ggttaatcgt gtgggccaaa aaaagctttc tagtaatcca aaattgccta cactttgtta 120gagcagaag 12916379DNAHomo sapiens 163taatctgaag cgaccttgtc ctttctgggc agaagatggc cactgttcaa taaaagactg 60tcatgtggag ccctgtcca 79164119DNAHomo sapiens 164ggttgcatac tgagcactac tttagcaagc ctggccagga atggtctctc tgcttaggtg 60tgatatgtga gagagacttg aatgcggcga aagagtgagc cgtcataaga tctggagga 11916535DNAHomo sapiens 165atgagaagtg ctgtcccttc cattcgtggt ggcag 35166308DNAHomo sapiens 166gcagcctcag tggaaacctc aggtaagcct gtggggaatt cttaagatgg aataaccctt 60ccgagttagt cgtccccatt tggcacgaga ggtataggcc tttatatctc tccatcagtt 120ggtcattgga tgaaggccac cagaggaaat aaggatccaa tcttgggtaa ggtggttctt 180ttcacccaag cttgtctacc tgcagcattt ccacaactga ggtaattaca tcccctttat 240tcctgaaggg tgatctgagt agtatgttac agtgtctacc acagtccact cgttgcacca 300tgtatttc 308167778DNAHomo sapiens 167tcctacctaa tgtgaaagag ccatgagaag gtttggggaa agaacatgcc agggaaaaga 60tgtagaatac caagtaaatg gtcttgagat agaaataagc ttggtgtgtt gaataggcag 120aaagctggta tagctggagt gaacgagagg gagagttgga aatataggta ggcaccagat 180ttaaaaaaca gtaggaccgt attgaccatg taaggatgct ggattttatt ttaagcagga 240taagaaacta ctgaagggat ttttgtgcaa aaaagactgt aagggtagaa gacaagaaat 300agaggaacca tttaggagac tcttgtgtta gttcagataa aaacaataca gatttgcaat 360agaatgctgc agctgaaaaa tgtagaaaat gatcaaatta gggttgtaca caaaaggcaa 420caccagcaag cttttctgat gaattgagtg tgacgtatga tatagaaatg aaatcaagga 480tgatgcctaa gttttgagtg cacatataca agcacaaatg tacatatatg taaaatcatg 540accaaataga ttttattcca agaatgcaag gatgattctt gcattgatgt tgataatcat 600caaaattcaa tatgtgctcc tgatttttaa aataataaga atgatgtata tttcttaaca 660tgatgatttc agtcctaaca tcagcatagc taacacgtct tgcatatggg gaaacactag 720aggaattctc acttaggtca ggaaccaaga caaggatacc cactatctgc attaactg 778168261DNAHomo sapiens 168ggaaccactg ggattttgta tcaaattaac tattttccca tattttccaa actttatgta 60agagttatat ttctgtccag gtacggtcat atgacctgtt ggaccaaaag aaggaaggac 120accttggttg acagtctcat ttgcatgagt aaaagtggag tcattgtttc ccaaagggaa 180attagggact gttacaaaag aaggaataat ggaacttgga taggcaaaag tgacaatgtg 240gttcttggct actcaacaat c 261169399DNAHomo sapiens 169ccgttcctga agtactgcaa taccaggtcg atgcgaggag tggatggagc aagctcctat 60tccatctccc tactccaaaa atccatgtaa tatattgttc tcgggtagag gacatatcag 120gtattaacag atacttcact tgatcttagc caaaaggccg agaagccatt ggagagacag 180gtgcttcttt aaatttccac cactaaatct ataaatctaa gtgcatttgt agctgctttc 240tcttgtttct tttctaccat aacattgaac tatatgaaat ttttactttt atatttcaaa 300aatggttgaa catgccagtt tcatattgct caatgtaata cagtggggga agtgtttctt 360gtatcaaaaa ccatctcttc acaagtggtc cagttcaca 399170111DNAHomo sapiens 170gttctggatg attgcttgtg tgatattgac agcatcgata acttcaatac ctacaaaatc 60ttccccaaaa taaaaaaatt gcaagagaga gactattttc gttattacaa g 11117131DNAHomo sapiens 171ctgagctgtg tctgccaagt ggcatcgcca g 31172233DNAHomo sapiens 172ctgaccgtcc agtgcgggaa acatctgcga accgcccgca gggtgggggg acggcgacac 60tccgggtaat ggcagtcaaa agaggaagat ggtgacggtc cccctgagct gttttcgttt 120tttcctctcg gatgtgttaa gcggctggga gtgtggcggg agatgggacg ggcatgaacc 180acctcggctg tcttgcgaag ggagcgagcg cccagagaaa cggtgacgtc ctt 233173102DNAHomo sapiens 173atgagccaag gggtccgccg ggcaggcgct gggcaggggg tagcggccgc ggtgcagctg 60ctggtcaccc tgagcttcct gcggagcgtc gtcgaggcgc ag 102174169DNAHomo sapiens 174tgtcaactct gtgttggagc cagtagggag ctctgtgggt cctcgagcag gaaaatccca 60tggcttaagc agtgtttcag gaagactggg atgttaggct ccggagctct gagcaagtca 120gatgggactg ggagtcataa gaaggcttga ctgtggctag tgataacca 169175124DNAHomo sapiens 175gtgaggacct ctgatggacc aggaaattgg aattctgcct gggaggcaag cccatggagg 60ccctgatctg cttggacaga gagtagctcc cttcacctgt aaaatgagag tgaacgagct 120ggtg 12417696DNAHomo sapiens 176tcacagcatt cctgtaaaag gtatgaggtt cgccctgatt ggaccagccg aggtcacatg 60cctacacatg agccaatcac agtggataaa ggactg 9617737DNAHomo sapiens 177aaattgacat tccagacaag cggtgcctga gcccgtg 3717846DNAHomo sapiens 178tgtgaagact ggacttaaac agctacacca ccagaagccg agagag 46179130DNAHomo sapiens 179agatgctaat ccagcgtgcg tcctgacaga ggttgaaggg ggcttctcaa gtcccaggtc 60cagcttggtg tggttcagct actcaagaga catctgctgc taatggatga gcagtcaacc 120tggacgcagg 13018040DNAHomo sapiens 180caaaaggaag gtgtcggcaa gatcgttttt ttctgagagc 4018135DNAHomo sapiens 181tgaaacagga agctctatga cacacttgat cgaat 3518265DNAHomo sapiens 182cacctctacc tgttgcccgc cgatcacagc cggaatgcag ctgaaagatt ccctggggcc 60tggtt 6518382DNAHomo sapiens 183tattttggtc atgggctggt ctggtcggtt tcccatttgt ctggccagtc tctatgtgtc 60ttaatccctt gtccttcatt aa 8218470DNAHomo sapiens 184aaaggctgca gtcaccagca tcttttccaa ccttaatgaa ctgtatcctc aaaagaacac 60tatcagactg 70185160DNAHomo sapiens 185gctctgccga cttccagttc tggaacaaga tggttaaact catttttccc tgctctgctc 60ctctaaatac aactaagtac cttggaaact attcagcaga caatgataaa gggctctgaa 120agctagaaga aaaggtgtac ttgcaagaaa cctcaggact 16018632DNAHomo sapiens 186gcttctgcag tttgccttgg agtctgggct gt 3218791DNAHomo sapiens 187taagaatgta gatgccggtt gcaccttctg ttgtcttgga agagactgca gtgcttggct 60ggaaaataag ctgctcggga ctcctctgag a 91188384DNAHomo sapiens 188cctacccatg aggaacaagc ctgtgggggg actgatatta tcacttctgt catcaagaaa 60taaggccgca ggcatccctg aatatagagc atttattaat cgaactgtga aaatgaaaca 120cagacagtga tgacagctgg aagttggcca atgtcctgtt gtcatattgc cctcagccta 180gggactggcc tgtggctcac tgaccctgtc tcccactctc cacctctcat cagcaactgg 240acctggtgca cctggtctac ctcatgtcca gtgttttccg cagtacctga ctggtatccc 300cacccttggt tgttgtgtgg tgagctcgtc cctatgttgg caagttactt aattcctagg 360tgtcccgcct tcctcactgt aaaa 384189172DNAHomo sapiens 189ccctggcatc atattgggac ttgttaaggg ctgaattgtg tcccatccca aattcgtatg 60gtgccacccc aactccagta ccttggaatg tgaccgtatt tggagaaagg gtctctgaag 120aggtaattaa ggtaaaatga ggtcatatgg gtggcctcta attcaatatg ac 172190133DNAHomo sapiens 190ttgctgatat acttacaaac tggtaaacaa tgctctttaa tcaacaattc ataatctggg 60tcagcgattt ttatctccat atttgctcat actgtatgac atcaatattt tatattggct 120tgcccataac tta 133191338DNAHomo sapiens 191gccagttcgc ctttcgcttt ctaaaatcat cttgctggag agaacggtta tcaaatccca 60tccactgccc atgtaaaata aataccattc agaaaagcgt ggcatggatg gccatacttc 120tgatgggttt ataactgtag attgcatacg atcccaacgt gaagcctgaa atacgacatt 180caacgtcagg cttattccag gctactgctg tggctacttt tgtaattcaa ccagtggggc 240gttttaggct aacgtatatt gcctctaagc tgataagcat tttcctgatc ccaggcccct 300tctaaaattg aacacacacg ttcagctggg gacaccta 33819225DNAHomo sapiens 192tcagttttgt gcttacagtc ccgca 25193220DNAHomo sapiens 193tgggaggcca aggtgggcgg atcatgagct caggggttca agaccagcct ggccaacgta 60gtgaaacccc gtctctacta aaaacaaaaa aattagctgg gcatggtggc gcacacctgt 120agtcccagct actcgggagg ctgaggcagg agaattgctt gaacctggga ggcagaggtt 180gcagtgagct gagatcgctc cactgcactc cggtttgggc 22019433DNAHomo sapiens 194ctggggacac tatggcccca tcctagcctg gtg 3319549DNAHomo sapiens 195gaaaagattt ttattcgtgt ctacatcagt gtgaaaggct tcatcctgg 49196135DNAHomo sapiens 196tggacttctc tttagctggg gtggtggctg ctggagaggg ccctgcttgc tcatctctgc 60cagcttccca gtccctgcaa ccagcagtgg ccagcctctg gccaccccca tgaaagcaca 120taaaagggtt gggga 13519769DNAHomo sapiens 197gggaacaaaa tgtctgctca aaccatgaca aaattggcca caatttgccg attgggctga 60taacaaaag 6919880DNAHomo sapiens 198aggtcgaggc actgtcctag cttgtgacct gctcccatac ctattttctc agggtggaag 60cagacgctcc aactcccaca 8019952DNAHomo sapiens 199agacccaaag cctgtaggaa gtatagcagg cctcacccaa taccctgcag tt 5220025DNAHomo sapiens 200cctcaagaga acatggagtc ctttg

2520156DNAHomo sapiens 201tcagtggcct ccgagtaacc cacctgctcc agtctgcaga tttccatctc actgac 5620256DNAHomo sapiens 202caaaggcttc tcttgctggc tgagaattgt tggggagctc cctgcccacg gagggc 5620345DNAHomo sapiens 203gggttcctgt cggaatcttg gagctcatcc cccaaacttg agatt 45204148DNAHomo sapiens 204aaatgcttag ggagacagtt cacagatata tatgtacttc acagggcaca atttaatcca 60taaatcaatc atggatcact gctaaagaaa acaaaatatg ctgccactaa tttgccacca 120ccctgtgagc atgattggat gatgttta 148205116DNAHomo sapiens 205aggcagcctt ttctgtcaca acacaacgct gagccggcag cctggctctg tcaggatctg 60gggctccagc gcccgagaag cccagcctcg ccggcggcca agttcaccgc gaggcc 11620646DNAHomo sapiens 206ccgaggaggc ggagcatgga actcgacagt taaaacattt aagaga 46207532DNAHomo sapiens 207tggcagctcc atctacacag tgtcgggcta ggcatgggag cattctgggc caggagaaag 60gggattggat cctggatggt gggaaccgca ggtgtccccc tccacgtgcc tgggtccaag 120actgctctgc tctggacctt ctacgccttc agaggtacaa gttgcagtgc tacccttgct 180gaacctacaa ccctgttcaa gtgacaactt ctctgagtct catacgagga tattgaaaga 240accttctgca cagggctgtt gtgaggatta accgtaataa tacaagaata tctggcactt 300gcattcagca actcaccgct tacttgttca accaggtaaa aaggttctga tcccagtgtt 360gcaggacaga aagacctccc cctctgtagc tgcagatgtg acccagcaca gaaaaaatgg 420caggtgaaag acaggcagga agagcaacta agaaggtggg aggcacctcc ataagatgcc 480tgaggccatg gggatgaccg ttcacagagc tagtccctcg agcaatgtgt ta 532208854DNAHomo sapiens 208tgtggctcca agttccgtag gactcactag tctttttttc cctagagggt cttgccattg 60agaggcaggt gatgtgctgt ttcagaaaac aaaattggga catgtcctga tatgacatcc 120atcaaatata tacagatagg tgtcacagcc cccgaaaaag cttatctctt ctaggccaca 180catagctatt tcctccaact gtgtcagaca ttacaaagtt tctagcaatc aaaacaagtc 240aaatgccatt ctcaggaccc gttggaggat tttttgcttt gttttggctt tgtacggtat 300ccataccatt ttccaaattc ttttgtcctt acatattttg tttttcttaa aaaaaaaaaa 360atcacctata atcccatcac cagacaaaac cactagaaag aaaccaacat tttagccatg 420tttttctgta tataaaaaaa gtgtgtgtgg aatttttcat aacaatattg ggaccatgac 480atctatcaca ttttttatta ggaaatggcc ttcaacaata tgcatttaac aatatgcttg 540atgtctgtgt aatatttcat ctaacaaata tatcatgatt tatttaagta ttccctgatt 600gcttgcttct aactagaaaa aacaattttt ctaagtgtca ccactgggtt agagtaatct 660cagccaatcc tcctaatagc actgtgagac cagagttatg ataatcttca gttaatggac 720aagggacatg atggtgtgga aggataaata aactacccaa agacaactag ctagtgagac 780cagcatggac agtcaagccc agtgcatgta atctgtgctc ccctgcactg ttgctcatat 840acttggaccc ttgc 854209238DNAHomo sapiens 209caacccaggg tccttgcaga gagattgatc tgccagcagt ggcatcagca gcaatagtag 60cagcagcaaa gccctggaca gtcctggccc ccagtccaca acttagacac agcacatggc 120ctaattcacc cacagaagca gccactgtga agccctgtgt ctccccagac tccatccagt 180ggcataagga gacccaggcc ctgcagcttc ctccccatca tggaaggctg tccatcta 238210168DNAHomo sapiens 210acttaaaata ggagtgaggt gagaggggca gctgggctca tggacgtcaa gtggacagtt 60tctcagctgg tatttcctat atttcctgtt ttggacagca ggttcctgcc cttctaagct 120gggggtaggg gtgagggagt gtatgttaaa aagctctgtg gacttgct 168211216DNAHomo sapiens 211ggtattacct gatcccaact tggcaccaaa agacagccaa catagactca ttcctcctgc 60ttcctggtga gcctggtatt ctcctccact tccactgaca gacatgtagg gtgactgggt 120ggtatcaaca ataggaacca catcataaca ggcagcctag tttgggaagc actcttggtc 180tccgtaggcc tgagactcct tttgcccatc tagagg 216212374DNAHomo sapiens 212agactgaccc tacaataaat gcttaagaga gtcctacatc tggaagcaaa agggctatat 60tcaccatcat gaaaacccta aagtataaaa ctcattggta aagcagacac acaaataaga 120aagagaatgg aaccacatgt tatcattaca gaaaaccacc aaactgcaaa gataaacaaa 180ggaaagaaag aaagaaagaa aggaaggaag aaaggaagga agaaaaagga ttatttaaaa 240ttatcagaaa acaattgaaa tgacaggaat aagacctcac ctatcaataa caactttttt 300aaatggctta aatttcccag ttaaaagata tagactggct gaatggattt taaaagtgac 360ctaactctat gcta 37421354DNAHomo sapiens 213agaagcttgt tttgagctca ttcaatatgc atcaggtggc ggtaacatct ggag 5421492DNAHomo sapiens 214agggtgctgg ttctgagcca actttgcatg gaaggcccag cagaccacgc tcattactta 60cagccagcat catcggggaa ctccggcaca ga 92215106DNAHomo sapiens 215gcggccctag tccactctca tgatgcctcc attaatcccc cggtcaggga ccttccagcc 60ctgcccacag cagtcgatgc cttcagtgca tctcagtctt ccaccc 106216100DNAHomo sapiens 216tcaggtcatc cgctccatgg aggtccccgt tcctaccttg gccttgcctt tccccctgca 60tgtaaccttg gtgaactttt cacaagagtc tgcgcagtct 10021734DNAHomo sapiens 217taagcagatt aatgccgagg aaaagccttg gtga 34218100DNAHomo sapiens 218cccgtggaga gagccccgct ggtgaggaag cacggggacc ctgctgcagg gctggtggag 60ggctccttct gcagacttct gagcttggag cacagatggg 10021932DNAHomo sapiens 219ctggctcctg cactactatg gccttttggc tc 32220232DNAHomo sapiens 220ttccaaggtc tcacaagagt ttgcctcctc tcattgccat gtgaagacct ctgtggggga 60acaatgcatg ggttcttggg gtattatagg ggactacaga gaagtgtcac ctccacccaa 120cagcctgatt cagtctactc ctcaggagga acacaaagtg gtctctctag tgccatgaaa 180ccccaaaaag tgtcaaccag tattaaaggc ctgcctgata tacaaccctc ga 23222191DNAHomo sapiens 221atgaagctag gcccccctgt cctgacagct ttccacccct tccctgcccc tctcaccctg 60ctttccaggg gcaatgcacc tccccacttc t 9122270DNAHomo sapiens 222ccagacacca ctggcctaca tcaaactcca ggccacagat ggaaatagga ctgagatccc 60tggacctggg 70223103DNAHomo sapiens 223agatcaggtg gattgaggat gtcactgcca tcccctccaa aagcacctgc aggaaggggg 60ttgccatggt caccatctgt gaacaggact cctcaaaatg ttt 10322480DNAHomo sapiens 224tcaaggtggc cttgcgcttc accgaggagg tgtcattacc aaacgtgctg gacattggct 60acctacggaa gaaagattaa 80225130DNAHomo sapiens 225ccttcctacc tggtagtagc actgacatcc tcttcatcca ctggaagctt ccagatcctg 60gcccccacaa cccattctct ccccataggg cttccacaga aacacaacgt gtactgtgtg 120ccaaatgact 130226106DNAHomo sapiens 226ttatacatgg cctcactgtt ggggaggcag tagggagtgt tggagaccag ggtcaggact 60agggctaggg caaggctagg aaggtgccca ggatgcatgt tttaag 10622767DNAHomo sapiens 227taagaaaagg atcgtggtgg tagcaggaaa taagacagaa attttccatg ggggctccag 60gtctgaa 6722840DNAHomo sapiens 228gtcttttctt gaacaggaac ttgcatactc aaaaacaaca 40229117DNAHomo sapiens 229gatcccgtgg aaacacagca ccggaggata tgggataaga gacaacagag aggagtggtg 60cttcctgaat ttaggaaaca tagctgctac tttgggccct ctagatactt gaaagaa 11723085DNAHomo sapiens 230agggaagcca ggttgttcat ggacattcag tggaagaatt aaggcaatta aatgttaagt 60tttgcagggc tggtcgacaa gagaa 8523129DNAHomo sapiens 231gtgtgtattc tccattggtc acaatgcac 2923265DNAHomo sapiens 232gacaagaata actccccact gggactggag gagaggaagg cacatggggg cccttggcag 60ggtgg 65233125DNAHomo sapiens 233tcagtcacgt ctgcgccaga gctttgatga cccacctgtc agccacacta agggccctgc 60catgaataag gcctccgtca ctgaggatcc tgtacccctc tgccataaac tcagtgacct 120gactg 125234205DNAHomo sapiens 234gaactcccac tgtataattg ctaaacacaa tgacagctat aattgaggca ctgaaggaag 60gtcaggggag cccaggaggg cggggctgct gctgcctgct gagctgggag ggttggtggc 120accccttgcc ctgggttgcc atagcagata tcataatcaa ttacggccgt ctttcatgag 180gaacctggat ctttcccaag gaatc 20523591DNAHomo sapiens 235aggggcggga ttctgccagc cgcggctgcc gctggagccg gtgtccgggc tggtgatggg 60gttaattccc tttcgtaaga ctcttacttg c 91236178DNAHomo sapiens 236ctgcctccgc ggctgctctt gcagccccag ggactcggga gccagccaca gcaggcctgc 60caagagcgtg gtactgctct ctcgtgtggc tggcgccggt gccccgggct cccccggccg 120ccccacggcc gcatcccctg gccttgcacc aagagaattt tcagcttcga ccggttgg 178237122DNAHomo sapiens 237cccgggatca gatttacaca cgttttgatt cctgagcctt aggctgccaa caaatctttg 60tgggctttga agttttttgg tgttttgttt tcttttgttg ctgtgactag gtgcaaaggg 120tg 122238192DNAHomo sapiens 238ttgggttctg aggaaacatc tgagttttga tcatttcttc agggtttgag aagactatgg 60tggcttaatg atcttctgta ttccataact agtacaccta gttacagaat tgacatagat 120acattcaggt cctggaggaa atttgtggta tctattaaaa aaatgaaaat tgccagtcat 180gtagtagtca cc 192239360DNAHomo sapiens 239tattatgcag aagatgtgca ttgccatgcc ttgcaagtaa tagggttttt tttcttcttt 60tttgaactgg tactttaata tacctaatta catccatttg agttagtatt aagttttaat 120ttctcagaaa taaagtagtg aaaattggta gcagttttgt ttttcccatt cttgagaata 180ttacagtgat aaacaaggct tgataggttt gtaaaatact attgctattt gaattaaaaa 240atttcactat tgactttcca tattctattg taaataagtt ggggaattag tgtgtcaagg 300gggtgtggta acaaatggta atgtaatttt caaattgcta ttgcagcacc aaaccacaga 360240499DNAHomo sapiens 240tgagacgtta gcatcaacat gactgtatat catttccaga atttaattca attagttatt 60ggctgaggga tgaaatagag atgaaactaa atcctggcct caaactagtt ttgtacctta 120ttttccagca atttggtttt tttatatcta gattttatct ttactatttt ccctcatctt 180acccattctt agtctccata cacacctatt aactttaatt tccttttctg agaattttga 240aagccctata gtttatgatc ttttttccct ctttgccttg tgaattttat atttgtgagt 300tttttccaaa tttctacctg tcagctcact tctttaggca aggtgtaagg tttttgagcc 360cccttatttc attttttatt tttttaagag acagggattc accctgtcac ccagactgga 420gtgcagcgac aggatcatag ctcaccacag ccttgaactc tgaggctcaa gggagcttcc 480catcttatgc tcccaagta 499241338DNAHomo sapiens 241gtgtgcagtg gaccggtgaa catcaccacc tgagctctgc ctcctgtcag atcagcggtg 60gcattagatt ctcataggat tgcaaacctt actgtgaact gcgcatgcaa gggatctggg 120ttgcgtgctt cttatgagaa tctaatgcct gatgatctga ggtagaacag tttcatccca 180taaccatcct cctcaccgcc tgcaccatct ggggaaaaat tattttccac caaacaggtc 240cctggtgcca aaaaggttgg ggactgctgc tcttaggaca gaaagaaaga agttccataa 300ctagagtaaa atatcacctt acagtatgag gtagctta 338242242DNAHomo sapiens 242gcaatcagaa cacctacagc atttatcaac taagttcact gtcttatatg ggtgtgattt 60gtggtcccct aaaacaatta cagtggtaaa gatcactgat tgcagatcac catcaccaga 120cataataatg aaagagtttg aaatattgca agaattacca aactattaca cagagacatg 180aagtgagcac atgttgggaa aatggtactg atcgatatgc ttgactcaag agttgccaca 240aa 242243155DNAHomo sapiens 243aagtgatagg attgttgccc acccaggacg ttatggattc actcagcatt cattcatgaa 60atattcgttg ataatttact atgtgccgtg tactgcctat ataaagcaga gagtacttgc 120ccttatggat tttattttct agtgagtgag acaaa 155244158DNAHomo sapiens 244agaaactaaa tcactgcctt gtacaataaa aagctctatg ttggggtgat cagacccaac 60accaggtcat gggggcgatg agtccggtgg agtcaaagga atgagaaaaa gacagtttga 120gagagaaagt gggaccgggg agcctacgct atttattg 158245131DNAHomo sapiens 245tgaaaattgg gccttaagca cataaaaagt tttaagttca tacagagaaa taagctcacg 60cctgtaatcc caacactttg ggaggccaag gtgggtggat cacctgaggt ttctcaacct 120cgagaccagc c 131246152DNAHomo sapiens 246gcacttctct gactatagtt ttttatatga ctttgactct cagaaccctg gtaatttttt 60acgtagtctc cagaaataac ataaaataac ttagatgttg gcaagtgtgg agaaaggagc 120ccaaaatgta atgcaagcac taacagatga ac 15224792DNAHomo sapiens 247atgccttggt cgttttgtgt ccctgggctg ttggcagtgt gactctgcta cagaatacca 60cttggggaga tcagcttact cagtacaggg tg 92248195DNAHomo sapiens 248cagatctttc ttcacatcgt gcaggtaacg tatgagcatt gtctgatgga tccttacaac 60attcctgtat gcttttggaa agtatgatct ttgtttaaca aaatgggaaa cagaggcaca 120tgctataccc agctatcaca gaaaacaata gttagaatcc agaaaacata ctcatctggt 180ttagtgtgtt gccca 19524934DNAHomo sapiens 249agcaggcact cccaatgcca gactaatcag ctgg 3425050DNAHomo sapiens 250gagctctata gaggagcaat gcagagcatc agtttacagg tactatggaa 5025130DNAHomo sapiens 251aatcttgcca tacttgcaca gctgaccaac 3025256DNAHomo sapiens 252attcaactgc tagagaatgt gaagtttcac attttaagcc atcaaagaac cattgg 5625395DNAHomo sapiens 253tgtgccaaaa cagtcctgaa tgttcgtgtt ggccttaatg aaccacccct tagtgactca 60gtcaccattc tccacaagcc ctacagccat cccgg 95254277DNAHomo sapiens 254cctcagctgc aaactatgta atactgcttt tatggggatt aaatgaatta atacacttaa 60agcattggga gtagtgctta gtaaataata aataactctt taagggtttg ctgttaatat 120taccagtttc acagcacata ttgcaatcag ttattatctt gtatattttg tctctgcact 180agaatgtaag cattttaggt tctaggatcc catctgcttg gttcactcat gtatccctat 240tacctagaac agtgctctgt acatagtatc cagtctg 27725533DNAHomo sapiens 255gcgcccagcc taatactaag cttctaatct taa 33256160DNAHomo sapiens 256gtccattcca gtccgggaat ctacagtggt gacaaggaca tgggactcct cctgccagat 60tacagatggt tcactacagt tgacatcctg gctgacaact gtgaaaaaga accttggatt 120attttatttt atttttgtgg gacaccacaa tcccaaatcc 16025732DNAHomo sapiens 257gcttcaagct ccctgtagaa ttcgaaaata ac 3225828DNAHomo sapiens 258gatgtctgat actgttactg taaaagat 28259107DNAHomo sapiens 259aagtgaaaga tacaaccaga gttgaaaatc ttatcaaatc agaaaactat gggaagattt 60tggtagagaa gaatgaacat tgtattgaga acaatataga tttgcag 10726027DNAHomo sapiens 260tcatacaaaa ctcacttctc aaaattc 27261138DNAHomo sapiens 261tcagtcagga aacgaagcaa ggcttgggct gagtgaattt tctattctac agggtatcca 60aagaggtcct ttgttggcat ttaacaggcc ggtggacttg gtctggagca tcccggattg 120cttctcgcac ctgtctgg 138262141DNAHomo sapiens 262caacaaggtg ggtccaaagt agtcagactt cttatgtggc agctcagggg tcccagagag 60aatgttccaa gaaagccaag caaagctgca aggtttcttt tgacataggc ccagaagttc 120cagaacgtta cttcagctat c 14126331DNAHomo sapiens 263catagcgact gtaacgattt ggaaggaggg a 3126438DNAHomo sapiens 264caatgccacg cttcttcgac aatgaaggca gtacataa 38265207DNAHomo sapiens 265aatcttagct atttcctgtt tgtcaaacaa agattaaaag catgtatgtg gcaaagcgtg 60gtggctcctg ccagcacttt gggatgccga ggcaggaggt ttacctgagc ccaggacttt 120gagaccagcc tggacaacac acgaagactt tgtctctaca aaaataaaaa taaaaaaatt 180attcatgcgt cacggtacat acctgta 20726626DNAHomo sapiens 266cggccattgc agtcatttgg acagac 2626788DNAHomo sapiens 267caagctcaaa gttaaagcta gttcggagcc ttgcagtgtg tgaagaatct ccaccacccc 60ctgcaccaga gatatcacag gagaacca 88268148DNAHomo sapiens 268tgagtgtaag gaagttgcca gtgtctttgg taaacaagac agagagtgca aaaagcaagt 60gtttgtcatc ctagtaaaaa ctgccagtgt gcatcattta ccctatatta tgaacacaaa 120ttttaactgg tatgatgaat taagaaga 14826997DNAHomo sapiens 269aattcagatc cagttaacac aatcatttga gaaagaagag aagccctcaa aagatgaagc 60agaaaaagaa aaggccagtg ataagttgcc cagaaaa 9727056DNAHomo sapiens 270attccagtca agaatacact gattcaactg gcatagatct acatgaattt ttagta 56271299DNAHomo sapiens 271cctctataga tgcaaacgtt tttaagttat ccacatagac attttttaac tgtacggttt 60aatggttttt agtatattca atatacagat aggagcacta tcaccacagt tatagaactt 120tttcattgcc ccaaaagaaa ccccatacat tgtagctatt cctatgctaa taataatagt 180aatactgata ttggatgatc ccaaccctaa tctgttttct gtttctgtag atttccctgt 240tctggacatc tcatatgaat gaaattatat aatgtatggt cgttcatgac tggctttta 299272289DNAHomo sapiens 272acagttttgt gagttcaggt caggagatga ggctggagct ggatgaagac cagctcatgc 60ctgccttgta catatgttta gttctaagaa cagtaagaaa cccatgacag atttaacaaa 120gggagtgatg tgtgatcaca tatgtgttct taaaagattg ttatgcatgt ttcatgtaga 180atagattagg gaagatcagg gaagatacag ggagacaata tactcctgct gtagtagtca 240agccagaaat cctgttgcct ggatccaggg ttgtggcagt agaaaaata 289273647DNAHomo sapiens 273ctgatgtgta gactttcagg tgaccaaagc aggggctacc agttcttcta ttgaaattga 60gaataatctg catagtgttt attttaggga atcattaacc tcttggcctc gttttcttga 120tctgtaaact ttggaagaca aaactgaatg atttgtaaag ctgcttttag ctttaagttt 180ctgtaagtta catttttttt ttcacatgta tatgaaattt ccaattagca caggaaaatt 240ctagagccat gttatgggtg tgtgagcagg gaggtccttt ggggagtgat accattaatt 300tgttgcagct aagagaacta aataagaccc tagtgatcta aaggagcaca tacaggtact 360ccctagagtc cttatttatt ttatatgttg gaggtttttg gttcacttag atttttatgg 420gaaaatttaa aaatatataa tggcagttta tagaatgggt tgaaatatcc tcttcttcta 480aattagcgat ataattaata cttctctgcc atagtcccat ctacatacta gtattagatt 540cccatagaag tattcctgtt gttactggca ttgcatgttc tttagaatac tgtttctatg 600gagttcagca tgataacaaa gtcctgagcc taactaaaga tgtctgt 64727446DNAHomo sapiens 274atgctgctga aattggaaca agaaatttta gatttcattg gtaata 4627567DNAHomo sapiens 275gacatcttac cataggatgc tattacacag agtagccgct tactttggat tagaccacaa 60tgttgat 6727633DNAHomo sapiens 276tgggaagtct gtcatagtaa acaaaactag caa 33277112DNAHomo sapiens 277ctccagcctt gaatcagtgg tgttatggat gtcaacaacc cagtgtccac tggggtgtct 60caatggagcg ggaagttggc gattacaggg cagtaaattc aggcatctat aa 112278464DNAHomo sapiens 278aaccttgtgt ttgtcctcta gatcacagtg gaacttgcaa catttctgtg gaagaaagat 60gagtccacta taaaatgtat tgctaagatt tcataatcgt tactttaggt cacaactttg 120acttctataa aagaacatct cttttctaac ctgttccagt taatgttagc aaacctgtgc 180cctactgtaa tttaaaatta atggatgcac tttgaagtag tctgtaagtt tttagctaat

240tgaatgacaa aatattttat tactttcagg tataacacca aactaggtac cataggagta 300gcataagata cggcactgca ctttccttgt cccagcattt tttcgtaggt ttagacgagg 360cagtacaggc tttgggtcta actgacctga gctccaacta tggcttaatc atatgcctgc 420ctttgacctt gcatatttgc ttaagccatt tgaacctcgg tttg 46427956DNAHomo sapiens 279aaggatgata aaggtgaaga ctttcagaaa cgttatatcc tcaagagaga taactc 5628065DNAHomo sapiens 280ctagaacaat tgtaggattt gtataggtgc aagacatact ataccagtag ttcatttgcc 60taaaa 6528193DNAHomo sapiens 281gagaatacgt ttgaaagatg acagaagaag caaatctata gaagaaagag aagaagagta 60ccagagagcc agagaccgaa tattttccca aga 93282531DNAHomo sapiens 282ttacgttgta gggtctcagt ctccctttta tctattgatc acatttattt ttaatcacat 60ttgttgcaca taaggtcatc ttttagaaat attgagatca gttttgcttg tgttattaat 120agtttataaa atactacatt gcagtagtta tataaaattt tacaaaagtt ggaagcaggt 180agactacagg agtcattaaa agaatgttct ccagtctata tagtttgtgt gatttttttt 240ccccagactt gtgacagact tgagattttt attaatagaa attgctccac tgtctacaaa 300atcatatact ctagatgcta cttgttagtt gactttcttt gacaaataat ttatttcttc 360ttttgaaata aagctaattg attttgtagg ttaatatctg ttttcttctt cataagtgat 420tatataagat aggctttcta aatggctaat tattttatgc atatatgcca gaagagaatc 480aatttgtttt ttgtcaacat ctactaagca tctgtcctgt aatatgtgtt a 53128333DNAHomo sapiens 283cctgtgttcc caagagaatt acattattga caa 3328437DNAHomo sapiens 284atgccagtag tacccagcag aggcgccaga tatttag 37285117DNAHomo sapiens 285tgaagtactc ggaaccacga ccctggagca gcacagattc agacagctct cttcgaaacc 60tgaaacctgc tgtaaccaaa gccagcagct tcagtggaat ctcagtcctg acaagag 11728626DNAHomo sapiens 286gcaaaagcat aggcaggctt tcaaaa 26287233DNAHomo sapiens 287tccggagcac ttaaggggta atatgtttct tgacatgagg attcactctc tgtcctggac 60acagatttac aaccatcaat taccataaaa attcttctct attgtgacat aaacttaatt 120aggtaggttc aatgaaacat tatctcttga ttgaatgccc ataggtaatt ggaaattctt 180tattacttat tcgtagttgg tagaaggcat ggtttctcac ctaggattat tta 23328832DNAHomo sapiens 288aatcagctgg gcgtaatagc acgtgtctgt ag 32289201DNAHomo sapiens 289tagggtcatc tacaggctct ctttctcaca tccagcagcc tcttccaggt acagctctca 60gccagtcttc tcatggcgca cctgtcgtct atccaactgt cagcactcat agttctcttt 120cctttgatgg tggcctaaat gggcaagtcg catctcctag cactagcttc tttttgcttc 180ccttggaagc ggcaggcata c 201290269DNAHomo sapiens 290tgatctctgg tttttgacaa cagtattaca atacatttaa cttttttaag atgaccctta 60aattacattt gaccgccttc acccaaatct gctccaccaa ttttttctcc aaattattta 120gcagtcaaca aatacccagg acaacttgtt tttagttatc tataactgtc acacaaatta 180tcagtatact aattgattaa aataatttta ctttagagta ctttttctgc ttgatagcta 240tagactagta tagtcttctc tcccaaata 26929171DNAHomo sapiens 291atgggagtcc agttgtgtat aatcctccta tgactcaaca accagttaga tcccaagtgc 60ctggacctcc a 7129232DNAHomo sapiens 292aacaaccagc agctaatcac attttctcac ag 32293380DNAHomo sapiens 293gttgacttgc ctttacatat ttgggactaa attcgctaat tataattgag atagcctaag 60tatctcttag aactttaata ttctgccact agtgatattc cactcactac tcataggaaa 120agagataact tcaaaggttt ttcccctgat aaatactgaa aatatgttgg aaagaaggga 180attgttttaa tcatatgagc ctgtctggtg agtattttat ccctatttca caacagcaag 240aaatggacaa caggagaaat aaaaacaaaa ctgtgattgt tcattggccc aatgagcaaa 300gtgagttgtt ttaagattcc acagattaag cagttagaag aaactgagat aggctgctca 360ggttctgcaa ggtactcttc 38029428DNAHomo sapiens 294gaagaagtat gatgataaac ttgaactg 28295288DNAHomo sapiens 295ttgtggtaaa agtgcaactc aaatcattat tatctatcta tgatgtcata gacaaacaat 60gtctatctta gttgacatag aagttctcta tttaaattat tgcctgaaca atcttaattc 120cattagttta tctaacattt ttaaagtatt gtctctgaag acaacatgca gagatattgt 180tcagaaggag atgcatgaat atacatttta actaagagtt ttcatcaagt gagattccct 240gggttcctca tctacttgct tatgtggctg tctacaagtc acttaatt 28829676DNAHomo sapiens 296tctgcagtcc tcttcacagc ctgttcagta ctctacagcc ccttacccat ccccgttcct 60gccagtctca cccacc 76297102DNAHomo sapiens 297gataacctag ggtctcagtt tagccacatg agtcttgctc gccagccatc tgctgatggt 60tctgaccctc atgccgccat gttccagtcc actgtggttc tt 10229890DNAHomo sapiens 298gttatatcat gacagcagcc cctccaccac atcctcctcc accgccacca ccaccacctc 60ctcctcctcc cctaccacct gggcagccag 9029931DNAHomo sapiens 299cctactgctg gatatcctgc ctctggtcat c 31300226DNAHomo sapiens 300atggttatta gttgggttct gcctctttat acagtgattg gagtgtcatt agacccttta 60aatttaatat atttttgaca tggtatgcca tgtcatacca gattcaggta tgccacattg 120ctattttttt atttgcccta tctgtatttt attctacttt cctgcatttt atattatttg 180aacttttttt ttttataata ttgaatgctt tacgaatttc cgtgtc 226301215DNAHomo sapiens 301tagccttaag gtaatataag ccatatttta aataatttca tgcatgatgt aaagttttga 60ctgtaacctg tcacatgagg tcaggtgtgg agtttctttt tgagtactga catgacatga 120tgcttttggc atcatgttgg tactcagaaa gttaaagatt ttggagcatt tcagattttg 180gacatttgga tttttaaaat actcgcccag gctca 21530225DNAHomo sapiens 302atgccagcct gttattgcgc tccag 2530374DNAHomo sapiens 303gccactatca ctccagccaa cctcagtatc gcccagtccc ttctgttcat tacaattcac 60atctaaacca acca 74304226DNAHomo sapiens 304gtctctcagg atctcgaata tgttcataca tatgagtttg caaaccaatg agattaaaag 60agtgagcaaa tcttagcatc ctctggaaaa taccacagtg tcacgtctac atgctaaagg 120gttgggagct gtactgggaa tatcttaagc agtttgttaa gtggctgcca tctcttactg 180ccattgagat tgaaactgtc tttgcagcct gataaatcac ctatgg 22630572DNAHomo sapiens 305aaacaatttt gatctcagtg tataaaacta tcttattgat tttttaatga actcatttct 60ctgtatgctt ct 7230625DNAHomo sapiens 306tcagcctttt ataactctag gagtt 2530754DNAHomo sapiens 307aagtttgtag cttcaccata tacatttaat attttgcaat aattggcctt gttc 5430855DNAHomo sapiens 308agctgttgga ttcggggccg tagcactgtc tgagaggttt acatttctca cagtg 55309229DNAHomo sapiens 309agcatgacat caaacggacc taatacacct aaatgcattt gaagctactt ggtctcggtt 60cttaccaacg atataattta attttttttt ccaaacgatg atgttgttgc atacctgtgg 120aaagcaaaat gattctgtga aactatactt ttagttttgc aaccatttga taacttcaaa 180gattatcaat gtattatatc tttagtctta gctttccaga taacccaga 229310298DNAHomo sapiens 310taacctgccg ccactgaaat ctggagccaa atatatctgg taagtaccca cagatttcct 60tgagttgtat agactcttcc atggaatagt tctttaaata gctgtgagca ataaactctg 120tgtgactgtt tttgttagaa ttggtttttg tatatgtata tgtttatttc aggcacagga 180gtgagagaag aggggatgag agatgagaag ggataatcaa gtgtgatggc aattgcatct 240ccttccaaat acacccatgg ggctggcttt agttgaactt gcccacctac taaaatag 298311530DNAHomo sapiens 311tcgcccataa aacgtagcag ctctccttgc acaaaatgtg tccaggttaa agctggcact 60gccctgctga gtaaagtctg acttcttggc aaagcagcct gactttgtgg agaagacagc 120cagtatctat gaaaactctg ctagactaat cttgtataga ctcatctgga atgtggcaac 180agactttttg agcaaaagca gcctccgagg caaaacagca aaactaaagc ccaaagggaa 240cattggagat tcacttggaa atactcaggc tgagagacag aactgtggga tgtggaacct 300gaaatagtgt cactatttga gccagttctt ctccttccca attgtctttt gttatgtttt 360aatattttta gagatggagt ctcactgttt tgcctagact ggagtgcagt ggcccttcct 420aattgtttaa tacaatttat gcgtataatc taattatagt aaggcaagga agtgtaactt 480tgaaatacat cagtagtaaa ccacgcatct tgcgggtagt ggacaaacca 53031286DNAHomo sapiens 312gcctgagcga tagagactgc atctgaaaac aaacaaacaa aaagaataag ataccattgg 60aaatttactc atgcagcttt catgat 8631340DNAHomo sapiens 313atgaattcag agcaggattt aactcattgt accattacag 4031498DNAHomo sapiens 314taccaaggaa tagttggagt tcagcaaccc cagagtcaga gcctagtcag tggccaaccc 60aacagcattg gaaatcagat tcaaggagtg gtcatccc 98315109DNAHomo sapiens 315ccatcagact tatcaacagc ctgttatgtt ccctaatcag tctaatcaag gatctatgcc 60cacaacagga atgcctgttt actatagtgt cattccacct ggtcaacaa 109316208DNAHomo sapiens 316agtctttgga attacccgca gcttggaccc aaatgaggca gataaacttg aaataaggta 60gatgtaagct gacagtagtg attggtcacc atgtgacaaa ctagcattga tctgttccaa 120gtatagagta ccaatgtgag aaattgaatg agttgtacgt gaagcaggga atgtgtattc 180tgtcagactc atcttggtac attttgga 208317791DNAHomo sapiens 317cagggtcttg atccatacag tcttactatg ttttagatgc taaatggact ctagtagcct 60tcattttatt acaagattat aaggaataag attcctataa gaacacaaag tgagtctttg 120ttttgaaaaa tgtcttactt agcttgggtt gcttagcaaa attgttttct tacagaggtt 180ccttgtgtag aaaggtagaa tttgaattat tatgtctact ttcagctcat cctttcagtt 240cactgaggca actttgtgtt tggattggat tgtgttgtta cttatcatta tgaagattga 300gcacagcctg atacaagtca acatatactg tcactttaag cgagcaaagt actagtcagg 360gacactaatt ttacaacaac tcatgagatt tttctcagtc cttagtgtgg agagaaaatt 420agtttgatac cagcagcctt caaaagtggg caagtgagtt ggatatcttc aaaatgctct 480catttttacc ggttcttctc ctattttccc tttcattttc actattttta tcttgaaatt 540caaaacgata atacctttgt ctttgatcta tattctcaaa ggggtagcat acagacagga 600acttgaaaag actatagcct ttttttaaga acctttaaaa aatgtttcac agaatcttta 660tgaaattatg aaaaagaaaa cctactttta agtctttttc ccttttttct gtccacagtc 720tgtttttcct catttttgta tcctagtatt tctctagtgt cccttttgtc ctacttgtga 780tacctctctt g 791318278DNAHomo sapiens 318ttttgggtgg cagataacat tttacttaat tggggttcaa agttagtgtt ctttgtcatc 60aagttgattt cagatgttca tctgtaaaaa ccattcttag cttggaggca atacagaagc 120aagcagtggt ctgggttttg cctataggcc atagtttgcc aactcctgta ctagatggtt 180gatagccagc aaaaaaaaaa gacaaagagg cagtggtcac aaatgaagac caacaactta 240ggaaaaagga gtgtggaagc caacatacaa ggagattt 278319186DNAHomo sapiens 319tcagccgact tagaagcaat acaagccaga agacagtgga gcaacatctt tatttgaaga 60agtgaaagaa agaaaacttg cattctatac ctgtaaaaat atttttcaga aacagagatt 120tcaaacacac aaaagctgaa ttaattgcca gccacctcgc actgtgagaa ctgttaaagg 180aagttt 1863201247DNAHomo sapiens 320aggcaacttt ggtgaggctt tatggtgtgc atatacataa aactctttaa attatatact 60ttatgtgtgg tttattttct ataaattata cctcagtaaa actataaaat aatctgagtc 120ttaaattttt tcttagagac tggttcttgc tgtcatttag gctggaatgc agtggtgtga 180tcctgactca ctgaggcctc aacctcctgg gctcaagcaa tcctcctgcg tcagcctccc 240aagtagctgg gactacaggt gcacgccacc acacctggct aattttttaa ttttttttaa 300agataggatc tcactgtatt accctgctgg tgtcgaactt ttgggctcaa gcaatcctcc 360cacctcagtc tcccaaactg ctgggtttac agatgtgagc caccttgcct agccttcttt 420tctaatagtt taaacaaaga ctagttttgg ataaagtgaa aagaaatact gtaaaactaa 480caaattatta aaaacaagag taagaatttg tgaggttaag ataggccaca gggcatttaa 540tggaggaata aaggtagact tgaactaact gtaaaacctg ttacagagtc atattgaaat 600gttaaaattt aatcaaaagt gtttttttca aaaagcaaat gactaaaaac tcctttcagc 660cagaggtgag agatcggggg gaaacaaaaa aacaataaaa agaaagtcca aatacctatg 720ttgcaccagc ctgaccaaca tagtgaagcc ccacctttac taaaaataca agaaattagc 780tggaagtggt ggcatactcc tgtaatccca acaaaataca tgtaaaacct ttatgcccaa 840aaccatcttg tgatgtggaa gatttgtact ccctatggtt tatatcttag aacagatgtc 900agaaaactac agcccacaat caaagaatgg tttttaaatt tgtaaaggat tattattttt 960taactcctaa gtgaccatgt gttactcaga gttaaaatat atactagctg gctcttgcag 1020aaaaagttta ccagcatctg ccttaaaaaa accttggcag ataggtatca gagacatgtt 1080tatgaatgtt tgtagcaaca atgtttagcc taatactgga agtaatccaa ataaaatgga 1140atagaatgtg taagtatatt ttgatgtatt catttcagac actactatac aacaaagaaa 1200attactaaag tacaactact tgtatccaat tggttgagtc tcacaga 124732125DNAHomo sapiens 321gttggacaaa gtgggtcacg cctgt 253222373DNAHomo sapiens 322aggcagggat gcttctaaga tactagcaat gttctgtttc ccaatctgaa tgaagttaca 60tagataatta ttttgttatt atacttaatt taaactgtaa tatatttcta agcactctat 120attcgtctgt tctcgcattg ctataaagaa atgcctgaga ctgagtaatc tataaagaaa 180agaggtttaa ttggctcaca gctccgcagg ctgcatagga agcatagtgg cttctaggga 240ggcctcggga aacttcaatt atggcagaag gcaagaggga agcaggcacg tcttacatgg 300ctggagcccg aggaagagaa gagtgggggg agcaccacac actttttaaa gaaccagatc 360tcatgagaac tcactgtaca gtaccaaggg ggaatggtgc taaaccatta gaaaccacct 420ccatgatcca gtcacctccc agcaggcccc acctccagcg ttggggatta cattgtgaat 480gagatttagg tggagacaca catccaaaca atattacact cagatagata gatagataga 540tagatagata gatagataga tagatagata gatagataga tagataagat agataagata 600gattgattag atagattaga tagatagata gatagataga tagattagat attccaaacc 660ccaaaaaata gcaaaatcat tcgaagagag gcctaaatat atagaagact ttaggagaaa 720aaaagctaac agaatgggag gagaggaatt gaagacaata aatagagaca gcctttgaag 780agaattgctt tcataaggat aagcgttgaa ttggattcgt atatggagag gatgaagtca 840agacagagga tccttttttg attgaaagat agatgcatgt gtttgtatgc tgaagggaaa 900ggcttagtag atacagaaga tttgcctctg caagggacaa gagagagagt tgtaaggtcc 960ccagggaggg tgagagccac cacaaaaatg gaagcgggtt agccttagat aacagtgcag 1020aggatttcat gggcagtaaa cgaggacaag gagagtataa ggatacagat atgggtagat 1080ggatagatat ggcagcaaga gaaattctct tctgattgct ttgcttttct cagtgaatta 1140gtcaagatat caagtacatt atcagagtag aagaatgttc taaagttttg taaatgtaga 1200aatccattac agctatatta agactaatat tcaaaggaaa gaagcaagat acaggggaaa 1260tgtgacaagt atgcctaata aaagcttatt atatagaaca tttttatcac ttctctatgt 1320tctaagatgg taacagtgag actacaagta aataatccat agagataaat tgttactcga 1380agaaaactga tagtaagttt tcacatggga aaatgttgtc ttaccagcaa tccaaaaaat 1440gagaattaag gcaacttgaa cacaaaaagt aggctaaaac atatagttag caatactgtg 1500catagagacg tttaaacatt actggttgct aggcatatca agcccatttt tctataaatc 1560agtcgggata tttaacaaaa tgcaaaattg ctgtactttt aaattctacc tctaaaattt 1620tatcacaaag ataatccacc ccagaattta aattgtggct aaacaaatta taacagtgct 1680attattaaca taagaatcca aataaaaaga tgcaaaaaaa aaaacatgga gtaacctggt 1740aacctttgaa tagtttaaat tttcttctcc atttattttt ctgctaggct gattaagttt 1800agcttaagtc atagtgagat ttacttagtt gtcacagacc gtttctcaga tagtgggacc 1860agtgagtttt aaaggtgttt gttctgtgtt aattgctcca gtatcttcaa ttcagaagaa 1920taaatgtttg atattcaggc tgctatagtt cacaaatgga ttttattgat gacttacagc 1980attttaagtg aatagagcac atgtctatta agtaatatta ttaagttcag gaagcttgct 2040taactgccat tgacaataag atgtagggtg gtttaaaaag gcagaaaacc aaatgactta 2100acacaccttg acaactgttc ataaattttc aaagacatcg cttctagtag tcactaaaag 2160ctgtagtaga tgtatgactt gcttttcaaa tgaatcaatt attgcttgag aagaatacac 2220ttgttcctat tctcccatct aaaaaataat ttgaaatagc agccatgaaa tatttacaaa 2280aacataaaga gaaaagacac atgatggcag tttattttca tgtggaattt cccatgctat 2340taattttcct aagtctcgac cttttgtggg tga 237332325DNAHomo sapiens 323caggagcatc agagacatct ttgtg 25324144DNAHomo sapiens 324ggtatatata ccctcaccac aaaaaatata tataaaatgg aaattactat gactttgaga 60aagcttatga ggcagaaagt tggtgttttc ttccagagac tacaagccta gttgagcatc 120tgacctgcaa atgaattggt tatt 14432599DNAHomo sapiens 325tcttcagtag gttacctgca acatccagga tcagaacaag tacaatttcc tcgaaccact 60tcaccatgca gttcccagca gcttcaaggc caccaatgt 9932694DNAHomo sapiens 326tgatgatgca gctcagtgta ccaaacaatc cacaatcttg tgcccactca cccccgcagt 60ggaaacaaaa caaatattac tgtgatcacc agag 94327328DNAHomo sapiens 327tgatacctga taccagtggg acattttact tgacaaattg gccctgttac ttgaatagat 60ggcattttga aataggagct tggtctgtta tacattaaaa gagactcaag aggtataata 120tcagatataa tgtatggatc ttatttggat attgaatgat caaaagacat tttttaaggc 180caggcgcagt ggctcatgcc tgtaatccca gcactttggg aagctaaggc agacctggaa 240cgcaggagtt cgagaccagc ctgggtaaca tggtgaaacc ctgtctctat aaaaaataca 300aaaaattatt cggccatggc agtgtgca 328328290DNAHomo sapiens 328ggccatcttg gctatgccag aaagtaagga agggatggaa gaaaaatagg gacgtcttga 60agaatacagg atcaggagtg gaggtttggg gcataaaaca atgatagaaa tgaatgatca 120tccatagaat aaaataagaa ttcatgagtc catactgata aaaatcaata aatggaaaat 180gaaactgtct taccttagtg taatataaag tgataaatgt agaatcgtga aattaaaaga 240tcaccaccaa gaaaaccatc aggcaagagt caccactaga ggctacaaaa 290329124DNAHomo sapiens 329agccctcaac tcagtagccc cattatttca ccagctcagt cgccagcacc agctcagctg 60tccaccctga aaactgtacg tccctctgga ccaccacttt ccatcatgcc ccaattttct 120agac 12433071DNAHomo sapiens 330gagattccag gtatccatta cttggccagc cactgcagta caatcctcct gctgttctgc 60acggacacat t 7133153DNAHomo sapiens 331aagacaacta acctcctagg ctttgttgca gaacatcata gctccctcag agt 5333285DNAHomo sapiens 332tgaaggacag gaatgccact gccacaggca gaatccagaa ggcctgggac tgattttctt 60ctgccagagt gcaaaaccca aacta 8533340DNAHomo sapiens 333cattattaac gttgtttctc aactatttgt gggttttcag 4033430DNAHomo sapiens 334gaaggagaca agctaaaaaa gctgcatcca 30335196DNAHomo sapiens 335gaaggtcttg gaaattactg aactaccaga tggaataact cgcatggaag ctgaaaagct 60ttttggggaa ctctttaaaa ttggcgccaa gatccggtgg ctccgggacc cccagtccca 120accacgtcgt caccccctct gctgtggcag tggggacaac actgccaacc ctgaacgctc 180taaacccagt gacttg 196336849DNAHomo sapiens 336gactcctagg atgtgtgttc atggcattat agcttttgaa gaaaggccag tgatccagca 60aagggggaaa aatatgcatt tcaccccaca tgactaggaa tccacatcag aatgatacag 120agttagcagg tttttctaag gaaatgccat tcaaatgcct cctaactttt atagttattt 180tgttttatat ttctaaattc ttgtatcaga tccaaagctc tattgtacag caaattattc 240ttcaaaatga ttataaccag

ttgcaccctg tatttctttt tgcagccagc acaatgtgac 300ccaacttaaa atttggggga aaaagaatgc aggagtgaaa taaccaagtc aaaaccatgt 360actatctcct tgggggttag ggatgctaag aagagcccac aaatagagga ttactcttcc 420cctgaatctc taaactcaga aacaattacc aaaaaataca taactcttcc ttgtagggcc 480ctttccttat tcatttaggt agtgtgaaca ttaagtataa aataaattat gttcttaatg 540cctcttaaac cacttacatt caaaggggaa cagaaatcat tctaagcagg aaaatacttc 600cacttttttt ttttcaagta tctctctaat aactaaatgc cacttatttg cattctcctt 660gtggattttt tgtcacctaa ggaaatgcat ttgatgagtg ctggaaactt cttaagtgct 720ttacagtttg ttttcattgt ttgcagcgga tcactggaca tcaaagattc attgcactta 780tgaacaagga accttctttt caatttctgt gtaatttgca aggctgtaca atgtgtgctg 840atgcaagcc 84933725DNAHomo sapiens 337tcagttcaag agaataaatg tttac 25338191DNAHomo sapiens 338atcttcactg ctgttcaaca ttataatgga ggtattaacc aatatagtta gatacatcga 60tttaaggcat aagaatgggt aaagaagaaa gactatctct gcagattata tgataacggg 120ttgagcatcc ctaatctgaa aggctccaaa attcaaaact ttttaagcag tcacacgatg 180cacaaagtaa a 19133927DNAHomo sapiens 339aggtacagta gtttcttgtt ggaataa 2734028DNAHomo sapiens 340ttgttgagaa aaggttaccc tctgacac 2834180DNAHomo sapiens 341gcctagacaa cataatgaga ttccatctct ataaaaaaat taaaaattag ccaggtgtgg 60tggtatacac ctgtagcgct 80342368DNAHomo sapiens 342tgactctccg ggtcacgacg ttaaccaaaa aataagacaa aaagagaata tattctatat 60gattctaatt atatgaaatc cagctgcaga caaactaatc tgttatgtta aaaatcagat 120agtagtagag atggggtgtg gaactgactg ggaagggact ggagggaact cttccaggga 180tggaaatgtt ctttaagggg gtgggggaac agggtatggt tacacggact tttacagttg 240ttagaattca tcagattcaa cacttagaat gtttatttta ttgattgtat tgtatgttaa 300ttatatctca atttccttaa aaacttacac acacacatat gcatgagtca gcccacacat 360gtagaaga 36834385DNAHomo sapiens 343acagtctggt atgaatgccg caggaggaac acctagccca gcctattagg aggggtcttt 60gtactgctga ctataatctt atctc 85344147DNAHomo sapiens 344aaggcaactg gtctgatttt tcaggtaaga acatatgaga ggcaggctga gaccaatttt 60ctaccaggcc agctaattca tcacaatgac aagctatggg tcatatgctt tcaggaacca 120gacactggaa catgtcgtct gatgtac 14734542DNAHomo sapiens 345gaatccaatg gggagtaaga gaaagtccct tttcaaggag ct 42346361DNAHomo sapiens 346catgtgttcg gagacaacca gaagcagcaa tgctcaaaac cacaaaactc tggattgccg 60actctgcaca tcctggttcc tctagataca gttcagtggc acattcacaa ataaacgttt 120tcaaaaactg ccctcaggca gttctagaga aatgctttga cttgcctaat ggtataatgt 180caagaaagga agacgagcac tgatcattca tactcattat tacagtcaca gggcactgtc 240tgacttgaca gatacagccg agcagttaaa aggttatggg aatttaagtc cattatggtc 300atacgattct tatggaccca gagatatgaa attaatcagc cacatgtgta gggacaaagt 360t 36134743DNAHomo sapiens 347cccgttttgc cagcccaaga ctaggagcca cggcacctgt cct 43348177DNAHomo sapiens 348cgggcactca ctggatggac agacagacgc ctgctgtgcc aggcctgcca gacgctcccg 60ccccggcact ggtttcttcc tggagctcgt ggctggctag ggggttctcc atgtgctcat 120ggccaggaga gtctgccgag ccagcccagc cccattctac tccgagtcga gtctgta 177349100DNAHomo sapiens 349atgctgcggc gacgggccca ggaagaggac agcaccgtcc tgatcgatgt gagcccccct 60gaggcagaga agaggggctc ttacgggagc acagcccacg 10035057DNAHomo sapiens 350ccaggtggac agcaagcggc cgcctgcaga gctgggagtc ctgccaagcc ccggatc 5735198DNAHomo sapiens 351ctgaagctag acaggcagca ggacagtgcc gcccgggaca gaacagacat gcacaggacc 60tggcgggaga cttttctgga taatcttcgt gcggctgg 98352213DNAHomo sapiens 352tgacccatga ccttgccgca tgaggcctga gggcatggtg tccagagtcc cagagcagat 60caggccccaa agtcctgctg gaccccccag ccaccgtgag ctcctccgtg tggctaggga 120gctgctgtcc agaggcggag gtaaacattg atccctcctg cacactcagc tctctcatgg 180aagtcggagc cctcagggtc acctgaaaac tct 21335337DNAHomo sapiens 353ttgccattca cctgtcccgt ctccaacatt aaagctt 37354124DNAHomo sapiens 354tgtcgaggcc cggttggctt tcagaggcgt atccatggga gtaggtgtca tgtatcaaat 60aggagattca aagtcagctg ttaccacggc tacagaaatg ccagtctttt cctaagagtg 120cgaa 12435587DNAHomo sapiens 355aggacgggaa caccacagtg cactacgccc tcctcagcgc ctcctgggct gtgctctgct 60actacgccga agacctgcgc ctgaagc 87356119DNAHomo sapiens 356agttacccaa ccaggcctcc aactggtcgg ccggcctgct ggcatggctg ggcatcccca 60acgtcctgct ggaggttgtg ccagacgtac cccccgagta ctactcctgc cggttcaga 11935739DNAHomo sapiens 357cttcctcggg agtgacaacc aggacacctt cttcacaag 3935865DNAHomo sapiens 358tatggccacg agaagaaaaa cctgcttggg atccaccagc tgctggcaga gggtgtcctc 60agtgc 6535927DNAHomo sapiens 359ttcaagacgc ccccagaggg cccgcag 27360128DNAHomo sapiens 360gctccacgcc tcaaccagcg ccaagtcctt ttccagcact gggcgcgctg gggcaagtgg 60aacaagtacc agcccctgga ccacgtgcgc aggtacttcg gggagaaggt ggccctctac 120ttcgcctg 12836125DNAHomo sapiens 361cttcctggtg ttctcagaca taccc 2536257DNAHomo sapiens 362ggcagcaagg acagcttcga gatgtgccca ctttgcctcg actgcccttt ctggctg 5736330DNAHomo sapiens 363ccggctgttc gaccacggcg gcaccgtgtt 3036466DNAHomo sapiens 364ctgctggagt actggaagcg gaagagcgcc acgctggcct accgctggga ctgctctgac 60tacgag 6636588DNAHomo sapiens 365cgaaccccat cacgggtgag gacgagccct acttccctga gaggagccgc gcgcgccgca 60tgctggccgg ctctgtggtg atcgtggt 8836678DNAHomo sapiens 366tgtgcctcgt gtctatcatc ctgtaccgtg ccatcatggc catcgtggtg tccaggtcgg 60gcaacaccct tctcgcag 7836780DNAHomo sapiens 367catcgccagc ctcacggggt ctgtagtgaa cctcgtcttc atcctcatcc tctccaagat 60ctatgtatcc ctggcccacg 8036851DNAHomo sapiens 368gccagaacgt gactttctca ctcactgaca cacatggccc tcatttctat t 5136996DNAHomo sapiens 369aaatgcaccg cacccagacc aagttcgagg acgccttcac cctcaaggtg ttcatcttcc 60agttcgtcaa cttctactcc tcacccgtct acattg 9637042DNAHomo sapiens 370ccaggcaact accacacctt gtttggagtc cgcaatgagg ag 4237168DNAHomo sapiens 371tcttccattc gagctttgat ttgcagcaat tcctcccacc accggctatt tccatcgccc 60agccaggg 6837289DNAHomo sapiens 372tggaggctgc ctgatcgagc tggcacagga gctcctggtc atcatggtgg gcaagcaggt 60catcaacaac atgcaggagg tcctcatcc 8937372DNAHomo sapiens 373tggtggcaga agttccggct tcgctccaag aagaggaagg cgggagcttc tgcaggggct 60agccaggggc cc 7237434DNAHomo sapiens 374tgtgagggtc tgtttgacga gtacctggaa atgg 3437596DNAHomo sapiens 375gagcaggttt ctgccccaac gcctgccctg agttagttcc tgagctcacc gagccggaga 60aggcccgtga ccagccagaa gcacggagcg cagggc 9637637DNAHomo sapiens 376tgagggcgga cggtggcgga gagcccggcc gtgaccc 37377203DNAHomo sapiens 377ctgcagttcg gcttcgtcac catcttcgtg gccgcctgtc cgctcgcgcc gctcttcgcc 60ctgctcaaca actgggtgga gatccgcttg gacgcgcgca agttcgtctg cgagtaccgg 120cgcccggtgg ccgagcgcgc ccaggacatc ggcatctggt tccacatcct ggcgggcctc 180acgcacctgg cggtcatcag caa 203378128DNAHomo sapiens 378cttctcgtcc gacttcctgc cgcgcgccta ctaccggtgg acccgcgccc acgacctgcg 60cggcttcctc aacttcacgc tggcgcgagc cccgtcctcc ttcgccgccg cgcacaaccg 120cacgtgca 128379116DNAHomo sapiens 379agagtatcct gtttgggaag aattcccatt tcaggcaccc tcgatgaaga gccaggccag 60gaacatggga tgagagagcg aaatggtgga aaaaggggag ataggctaat tccaga 11638033DNAHomo sapiens 380cctggctgcg cgcactgagt cctgtgtctg ctg 3338150DNAHomo sapiens 381gtatcgggct ttccgggatg acgatggaca ttattcccag acctactgga 5038254DNAHomo sapiens 382tcccatccat ggcatgaggc cccgaccctg tgctttgcct aattcgagca cgtg 54383122DNAHomo sapiens 383ttggtcaaat cagagctctt ctctgcacct gcgttttccc tgcctggcct catccctggg 60ttgtggtgtg gacattgtgg gtgtctccac aggagcccca gggccacgaa agctggggtg 120gc 12238435DNAHomo sapiens 384ctggccctgt gaaggccact ctgggcgttt gggtg 35385112DNAHomo sapiens 385atgtggtttt ctccgttggc cgcctcctgg acctcctggt gcctgacatc ccagagtctg 60tggagatcaa agtgaagcgg gagtactacc tggctaagca ggcactggct ga 11238688DNAHomo sapiens 386tgaactgtac agcccagtct cggccctccc cccagccctc tccctatcct tgtcagtggc 60tgctctacct ccggacactg agtcacat 8838728DNAHomo sapiens 387acggaacaaa ggatgagcag cccgaggg 2838893DNAHomo sapiens 388cgtgcactcc ctgaggtcac agggccctgc ccagccgccc actgtgcctc gtggccatgg 60cctgctcctg gccctagtct gacttgtccc tgc 93389129DNAHomo sapiens 389gctcccactg gacacccttc acggttccca aggccagcca gctgcagcag tgacgcctgg 60aaggacatct ggtggtcctt aggggagtgg cccctcctga gccctgcgag cagcgtcctt 120ttcctcttc 129390100DNAHomo sapiens 390tgtgtgaacc gctggctgct gttgtgcctc atctctgggc acattgcctg cttcccccca 60gcgccggctt ctctcctcag agcgcctgtc actccatccc 100391620DNAHomo sapiens 391ttcgaatgtt tcagagcgca gggccgttct ccctcgtgtc ctctggaccc acccgcccct 60tcctgccctg tttgcgcagg gacatcaccc acatgcccca gctctcggac cctgcagctc 120tgtgtcccag gccacagcaa aggtctgttg aacccctccc tccattccca gttatctggg 180tcctctggat tcttctgttt cttgaatcag gctctgcttt ccccctagcc actacaggca 240gcctctgaca gtgccgcttt acttgcattc tgcagcaatt acatgtgtcc ttttgatcct 300tgcccaactt ccctccctct cccagctcct ggcccctggc ccagggcccc tcttgctgtt 360tttacctctg ttccttgggg cctagtaccc agcaagcacc caaatggggg aggttttggg 420atgagaggag gaaacgtgta tacctgtaac atctggtggc tcttccccca gaagtttgtg 480ttcatacata attgttttcc acgctggatc ataatgtgac gtgcagttct gccctgtgct 540ggggagccac atgaagcttc ccctggctaa cttgctaccc cgcagcaatc ccagtgtggc 600cgtctgcttg ctaaaaaatg 62039244DNAHomo sapiens 392tcactactgg aactgcacaa actggccact gacaaaaatg accc 44393617DNAHomo sapiens 393ggaagtccag ccttaccaac ttgtgaacct tgtctgaagg gagccagggc ctgccaatgg 60aaccacctcc aggagctgca actgctgttg tcattaatac cattgtgtct attttttgag 120agagataaac ttttcatggt gttacatttt ggaaaaaaaa aaaaaagact aggtgaacag 180tcaggtagga aagcagcata acagtccctt aaattctgat catgtaggac attcttcttt 240gccctgggcc tgggaaaatg cagcatgttc cagagcaaaa gtcctaatga ggggaactaa 300accagtggga cccaaaccaa tgtcctggct cactgaggac ccgttagaac caaatctctg 360ggtgtggaca ggctcccata cttttcaaaa attcccctga tgactaatga acaaccagag 420gtaagaacca gtggcccaga ggaataacca gcccagctgt tgtacgagct cgctaagctg 480gctcaggtca atgttgaatt ctctgctagg cagctcctca taagaactgg cagagatggt 540tcttacacaa caacaggtga caactccaga ctctgccgga agttccagga tctgggttcc 600cggacaatgc atgacac 61739462DNAHomo sapiens 394ggttatcttt cctccactcg agggattgaa gctaggctgt cccacggcac cgggctcgtg 60gc 6239599DNAHomo sapiens 395caaagccacg catgcagaga ggttaccagt gtccatccag acgcccactt cacagacagg 60tagccaagcg ccagagcccg gctattgtag ccctaagtg 99396144DNAHomo sapiens 396acattctgga tgaaagaaac tactcaaaaa gaatgtttac tgtatgattc catttttatg 60tttaagaaca ggtaaaatta acctgtgatg acagacatca gagtcatggt tactcctgag 120gagaggggtt tactagatgg gaca 144397260DNAHomo sapiens 397cctctcagat cacccaggaa ttctactcct aggtttttct caaggagaag ttaagtgcaa 60atatccatca aaatgctcat aaattttatt tgtaatagct aaaaacaaga cacaactcaa 120atacctatta aatgtttatc tagacacaat ccaaatgtaa tacagtcatg ctctgcacaa 180tcatggtccc atgaaattat aatggaagga aaaattccta tcacccaagt gcacactgtt 240tataaagtcc acagcggtgt 260398101DNAHomo sapiens 398gcacaaatgg tattctgtat ctgaaaattg tttggattaa cttttgattc ttgcctggtt 60aaagaattac aattcttacc tcagatcatg cttaaactat c 10139954DNAHomo sapiens 399tctggaaatg taactactat aatggacctt acaaatgcac aaatggggcc gggt 54400277DNAHomo sapiens 400gcgagtgttc tcattgcatt cgtgacccca ttgatcttgc aacagcccca tgcatcagtt 60attgccatta taccatttta ccgataagga aactgtggca gggaggggtc aagcaccttg 120ggtatttgac agcaaaacca aggcttggtg gtatcataaa acttccaagt agtaattcac 180aaaggtgact gggaaatgga agtgaccaga aatctttgca ctatgaggac aagttcatga 240ccctgataca ttcttgtcca ggtagtatag ctccaga 277401603DNAHomo sapiens 401ctactgcatt tctgtcactc gctgaaaagg acactctgtc agaaaatctt ctagcaaact 60tcaaagggca aaatcacccc ttgttactga taaagcccag agagcttcag cagctaacat 120tccctggaca gggcacagca aggatttgaa cctaggtcag tctggccaga acacccacaa 180gctttcctta actcagtgtg ctatctcccc acgactaggt cactactgct ttataatcac 240ctttgtagcc accagtggat tttgctcatc agtatttttc aggcaattga tactttagat 300attcagctgc aagacgtatg cagttttcat tgacatcttt tggagaaact gacaaacctg 360gacttgactt aatgcctttg gaaccttcca agatgttata taactctaga tagaaggctg 420ggcctccatg atgtcaggaa tgttgcattc ttatttcccc atagataaac ccatttgtcc 480acaaagtcaa ggagtcaggc agaggccctt gccatggggc tttttaggat aaagcaacaa 540gcctggactt tgctctacaa cagggttttg catagggagt ggtatgacca gatccctcaa 600gaa 603402241DNAHomo sapiens 402ggtgggatca ctcagattct acagatatta aaaggataat aaggaagtat tgtaaacttt 60tatgcctata aattttaaaa cttagataaa atggataaat tcctggcaag gcacaatcta 120ccagagccca ctcaaaaaga aagaaagaac ccagacaatc ctctatttac ggaataaatt 180gaatgtttag tttaaaatgt atgcatgaag aaaattcccg gttgacatgg cttcactagt 240g 241403209DNAHomo sapiens 403caataatata aaggtcagaa ggggagaaat ggaagtatcc tgttgtaagt ttcttatgct 60atacgcgaac tggtataata tcatttgaag gtaggctata ataagttaaa gatgtgttct 120gttaatccta agaaatatga aaataacaca ataacaaaga gttacagcaa ataagacaac 180aaaagagata aagttggatc ataaaaata 209404313DNAHomo sapiens 404caaaggtttc tgctcaaggg tttctgctgc agtaatttgt gattctaagt attttcttgt 60cagtctttcc aatttaaggg gcagtaaacc tcacttctct gatggatcta agagttgtta 120attaatcagt ttgttcagcc ttttatttgt tgttaggatg tagtgacaac ttccaagctc 180cttacgtact ggattgcaaa ccagaagtca aactattcct tagaaatgaa ggggaagtaa 240agtcattttc agatgacagg atactaaaag aatatgtcac cagaagactt gcccttaagg 300aatgactaaa gca 313405332DNAHomo sapiens 405gccactgctt tgctgagtca ttctactatg cagcccctca gacacaaagc ccggcggcca 60cctgcccaca gaggcacaga gggccagcca actgcaagca cggaacttca ggatcttgct 120tttcgggtta ttttcactac tgtaattttt ttgtccttag gtaaaaagga taataattgt 180ggaaaattat gtccttaggt taaaaagatc ctggatcatg ccagatatta aaatatggat 240aaaattggca tgatcttgga atctgaacag aaaagaagct gcttttagct gttttcaact 300gtttttagct tttctgtcta aacagctgtt ta 33240638DNAHomo sapiens 406cttagctgac attactttga tcatgaactt tgttgcct 38407104DNAHomo sapiens 407tcgctggggt atgaccattc ccctggcctt cctatcttcc catctatgcc caacatggct 60gccaagggga tctgtcctaa atgcaaagtt agccatgcct gccc 10440852DNAHomo sapiens 408ggggaggata aaatttggag caagattctc aaggaagcaa caagatccta ag 5240937DNAHomo sapiens 409tcttggacga gcctgaggat gtctacaagt ggaagaa 3741034DNAHomo sapiens 410tggaggagga tccaaggctc agaaagagaa ggag 34411243DNAHomo sapiens 411tgcctattgt tctggatcat tttgagaaaa aaaaagagat accttgaaga aagatgaaga 60caaaatatgg aagggtgctg aatttacaaa aagcctaagg ggaaaaaact caaatgtccc 120tcaggagtgg aatgagtaaa caaatcatgg cgtgttcaca caatggaatg ctacctacca 180ataaaaagga atgaactgcg gatgcacaca gaaacatggg tgaatccact aggcatcatg 240ttg 243412723DNAHomo sapiens 412cagccatttg cagagcattg gagtaagttt taccttcatc ccttagatgt gaatttgtta 60tcctcactgt gacaatccct tatcacatgg cttttagaag gattctcaaa aagctagact 120ctcacattca actttgcaat tgcctggctg ggtgttacgt ttctttgcct cctattagag 180accctatcag catctaaaac tagcgttgtt tgaggatgtt ggagccaacg gttctttgcc 240agatagaact ttgtgtgtcc aaataaatgg ttcaaaatca tcaagcaaat aaataccctg 300gaataagaga agcctcatga ggatttgact ccaaattgac ttcctctgtt ctgcagtaag 360aagttaggaa ttaaaccaaa ccttgcctga ggttcaggta tactcaaaag caatgaggtg 420tggctcaggt gtgcgctggc aaggtcactg tgaagttcag ccagaggctt tgcaagcctg 480ggcctgagaa gccagacctc ttagatccag aagggccaat ggagctgggc tggcctgctg 540ccactcacag gcagagactc tgccagcaga agggactctg ctgtcagagc tggagggcag 600cggaccacat ggctgaggcc caaccacagg tctcctgact caaaacctct tcccagggct 660tgtcctcctc cctaaatata tgtgccccaa attgtcacca gatctcggga aagcactggc 720ttt 723413481DNAHomo sapiens 413gaggtagaca ctattcccag ctggatactc tcaatgttga ggatatagat gcacaaacca 60atgcagggag gcctccagga gccactggag aagaaatctt cagatcctac caggcccata 120gctgttgcct ttgtgggctc ctgggttaat ttccacacat cagtggccca ccttatgata 180tcctccctgc atgccacact cccggccatg ctctgtggac agccattatt tccagtaatt 240gctaatggga gccagtctcc aaagagtaat gaatcagagg

tgttccttgg aatgtgttac 300actaggactt cgccgatctc acaggctcct ttccagatga gctgactgta atctctggga 360agctggatct ggaggaacaa tgggatggga tttgcggtga cccttcctgc ccttcttgag 420cagcttgtga accagaagat gtgcctggag agaaagcctc atttggggaa gtgcagtagt 480c 481414167DNAHomo sapiens 414cagatctcag ctgccgagtg gaaaccccat tctcacacca tagctatggg actgggggaa 60aggggaggaa ataactaaag agtaaggaat tgggggaggc tttgaggttt ggatgtgaca 120ggtagtttgc atgtagttgg aatgcagtaa cattggtcca caaggtt 167415148DNAHomo sapiens 415gagcacgtga tcacttctca caactaatgg agccaagatt ctgtccttat ggctccagag 60acctcttttt tttcccactg taccacaaca ctcaccagga ctggagtgcc acctatgacc 120tcattgcata atggatggct tgtcctca 148416116DNAHomo sapiens 416ttaaagatct gtaggcttac tagccatgac aatgatgaca ataatgatga tgaaaatgac 60atcatcatta ccaatagcta ctgccatcta ttgatcccat aacatgtgat catatc 116417479DNAHomo sapiens 417agtcatgtag tttgagcact ccagatttat tttcctaatt caagattgtt atagatacgc 60tagattcttt gcatgtctat ataaatttta gaatcaattt gtaaatttct acaacagatt 120cctgctagca ttattactgg gattgcaata actctacaga tcaatttgtg gagaactgac 180atctcaacaa cattgagtct tccaatctgc aaacatgata ctgtgtgtgt gtgtgtgtgt 240gtgtgtgtgt gtgtgtgtgt gtgtcttctt taatttcttt caataattgt ttagttttca 300acatagagat cttgtccatc ttttgttgtt tattcatgag tattttatgc tttttgaaga 360tactgtaaat aaaattgttt ttctaatttc atttcccaaa ttcttgctgc tgatatataa 420aagtataatt gatattttaa tattaacctt gtatcctgtg accttgttca attgatgta 479418294DNAHomo sapiens 418gctcagtttg cttatccgtt ctcctgttga tgaacatctg atgtttgcag ttctcctctc 60cgtgagtctt cttgtaaaca taattttcat ttctcttggg aaaaacccta ggagtggtac 120tgctgggtca agggggtagg tgtttgtata gctttataag aagttaccac atccttacta 180atatttggtg atagctattc tttaagttaa aagtgtagag gcatctcgtt gtggttttaa 240tttttatctc ccaaatgagt aatgataagt gtctcttcat ataccgaatg gcta 294419351DNAHomo sapiens 419cttgcaggcc ctgtgaacat atatacttcc tggtgggaag agcaagggag cctctggtgg 60aaagcagccc cagggtccaa gaaccacaca gccctgcatt agggccccca gggagggaga 120agaccaaggt catgcttttg aacctggatg ccagaagaga acagctgtgg ggaaaagcat 180gcctggaacc aagaaaaaca tgtttaccag gggccattcc tcacaccagc tgcaggcagg 240gtcaggaaag ccacaggctg cactgtagtt gcaaccttgc atgcggacgc aaggctcaga 300atgttcctca aagatcctaa aatgttccca gagtcaggct gagtccattc a 35142025DNAHomo sapiens 420cactacaact ggctgtcggt ctccc 25421118DNAHomo sapiens 421atgtgatggc caagggagct tcatcaatca tggcatctca agggagctgg agcagatgag 60gaggagatgg aggtcccagg aagggctgtg atctgcctgg ggtcccacaa tgggaaac 11842242DNAHomo sapiens 422ctcacacagg cagttagcca aggcctgata tgcagaaagt gc 4242362DNAHomo sapiens 423acccagggag gatagcacat gtcttcggct acactggtga aggcatcgtg cctgctccac 60ag 6242457DNAHomo sapiens 424tgcagctgat acccaggatg tattattatt actgtgacac agtgaatcta aaagagg 57425107DNAHomo sapiens 425ctcaagggag attgtatgag actcctatag ggtagaacct actctgaaag aactcacctc 60aattaagctt gattggagta aaagccaagg ctagacacct aagcttc 10742625DNAHomo sapiens 426ctcagaaacc tgtagatctc tatga 2542725DNAHomo sapiens 427ccctaatgac taattgtttt gagca 25428279DNAHomo sapiens 428tccctcataa tgtctgctct gtgtcactat gtaccctccc ctgtcctcca ttccccacac 60caagagtatt atgagtatta aatgccacgt gggcaggttc cccaggcaat gagggggtgg 120gcctgtcaaa tgcaggccat gcagaatgcc gcagggcggg agacgggtga gccaagggag 180ccgagagttc cagataacag agtgcacagc aaatgccatg gcccgcgtcc agcaaccagg 240agaaacagaa ctgctgagct cagaataggc caaggccgc 279429205DNAHomo sapiens 429gaactcccac tgtataattg ctaaacacaa tgacagctat aattgaggca ctgaaggaag 60gtcaggggag cccaggaggg cggggctgct gctgcctgct gagctgggag ggttggtggc 120accccttgcc ctgggttgcc atagcagata tcataatcaa ttacggccgt ctttcatgag 180gaacctggat ctttcccaag gaatc 205430122DNAHomo sapiens 430ctgcaggctg gaggcttagc cacttctcag gaggagccta gaaaggatat tggtcgccca 60gctgctgaac ctgccccagc atccttgagg gtcttgaaaa tctattttat gctgggcacc 120tg 122431126DNAHomo sapiens 431atgcactatg tagcccatga gaaggagacc aactccgagg agctgagagt gagaggagac 60tgcattctca gacacaattg tccagacact tcctttaaaa actacacgcc aatgcccaat 120aatgct 126432266DNAHomo sapiens 432cgggacacat atgggaatac aattacagca aagccggcaa ggctcagtga ggggcagagg 60gcctggccac atgaggagcc agtgctgtgg gcaggcccgg gtctgagtgc tggctgtgtg 120tcctgcacaa ccacatctcc cagagtgcat tcgtcaccat ccactccaga tgccccttga 180acaaatgaat ttcacagttg caaaaggctg aaaaatgctc tgtgacctgg cacccccttg 240gggaaccaca gtgcattaaa ggctct 26643329DNAHomo sapiens 433ttgtgatttt cgttcctgaa ttcatagag 29434231DNAHomo sapiens 434ggtgccctgc aatgttaagc aaaaaaaaaa aaaaaaaaaa aagactttgg aaatagagtt 60atggagccag gatgggtctt gagttagcct cactctttat ttctttattc aaggaatggt 120tgttcagggc cagcggctca gccctgggag cactgactgc ttcaagacac agactcctct 180gggatgccag gcagagtctg ctcctgaagg cagactccac tcttcatggg g 231435238DNAHomo sapiens 435cctcaccttt gcaggagact ctcaatttct cagtccacat cagctctcag accaccaaag 60caagggttat ttttctaaaa gacatttgtt cccattgctc ctctgactaa agttcctact 120atgggacatt tgcccttggc actcaaggac cttgcaatca ggctgagaac ctcaggttct 180caaactcaag accatgggga atgtaatagg tgaatcaggc aggtgaagtc caggactc 23843674DNAHomo sapiens 436caggatgact cagaacccgc gtatgaatgc tgtctattca tgggtccagg cttttgttaa 60agtctgggcc tgca 74437115DNAHomo sapiens 437tgttgagtgc tagctgttgt tgagtgcttg tcctgcctgg gccctgtttt tagcctttga 60tgtacatttc tccatttaac ttccacaata gccctattag gcagctagta ttatt 11543825DNAHomo sapiens 438cagggcttcc ttcaactcag ggttc 25439100DNAHomo sapiens 439cccgtggaga gagccccgct ggtgaggaag cacggggacc ctgctgcagg gctggtggag 60ggctccttct gtagacttct gagcttggag cacagatggg 100440138DNAHomo sapiens 440tcaggtcatc cgctccatgg aggtccccgt tcctaccttg gccttgcctt tccccctgca 60tgtaaccttg gtgaactttt cacaagagtc tgcgcagtct tcttgtaagc agattaatgc 120cgaggaaaag ccttggtg 13844183DNAHomo sapiens 441ttctctcccg acaggagcgg ccaggacagg gagcagaagg tgactgctgt gctgcctgga 60gctcttctgt ccggaggttt agt 8344225DNAHomo sapiens 442actccgtaca gagagcgttc cagcc 2544325DNAHomo sapiens 443agaatcagtt gtctcccagg cgggg 2544425DNAHomo sapiens 444acaagggcgg tgcatcaaga ccaca 2544530DNAHomo sapiens 445cggcccccag atatctgagg aaggctgagc 30446370DNAHomo sapiens 446agactgaccc tacaataaat gcttaagaga gtcctacatc tggaagcaaa agggctatat 60tcaccatcat gaaaacccaa aagtataaaa ctcattggta aagcagacac acaaataaga 120aagagaatgg aaccacatgt tatcattaca gaaaaccacc aaactgcaaa gataaacaaa 180ggaaagaaag aaagaaagga aggaagaaag gaaggaagaa aaaggattat ttaaaattat 240cagaaaacaa ttaaaatgac aggaataaga cctcacctat caataacaac ttttttaaat 300ggcttaaatt tcccagttaa aagatataga ctggctgaat ggattttaaa agtgacctaa 360ctctatgcta 370447216DNAHomo sapiens 447ggtattacct gatcccaact tggcaccaaa agacagccaa catagactca ttcctcctgc 60ttcctggtga gcctggtatt ctcctccact tccactgaca gacatgtagg gtgactgggt 120ggtatcaaca ataggaacca catcataaca ggcagcctag tttgggaagc actcttggtc 180tccgtaggcc tgagactcct tttgcccatc tagagg 216448168DNAHomo sapiens 448acttaaaata ggagtgaggt gagaggggca gctgggctca tggacgtcaa gtggacagtt 60tctcagctgg tatttcctat atttcctgtt ttggacagca ggttcctgcc cttctaagct 120gggggtaggg gtgagggagt gtatgttaaa aagctctgtg gacttgct 168449491DNAHomo sapiens 449gagcccttgt tcagtgatcc tatgacttgt cagctcagtg aattgctctg actcttactg 60ctttcattta tgaaatggag acaataaccc ctctctcata ggaagggtaa gaccagaaga 120gcctacacta tggttggaat aatatttgta tacagtgatc aagagaatgt tctctgaaac 180cagactctct ttaaatctta cctctatcac ttattagtta tatggctagc tgttaaatga 240ggtcaaaaga gtgtgttctt cataaaacta tacagaagat taaattaatt aaaacatgta 300cagtcctttt aaaaaagatc aagtgaaaca gcatacatga aagtgctttc agcacgctga 360gaataacaat agcaatggct agagattatg gagcactccc cactgccagc accaggggaa 420ctttgtacct acaacttttt acttagtcca cataaccatg aattcgtctc atttatgtag 480accgggaaac a 491450238DNAHomo sapiens 450caacccaggg tccttgcaga gagattgatc tgccagcagt ggcatcagca gcaatagtag 60cagcagcaaa gccctggaca gtcctggccc ccagtccaca acttagacac agcacatggc 120ctaattcacc cacagaagca gccactgtga agccctgtgt ctccccagac tccatccagt 180ggcataagga gacccaggcc ctgcagcttc ctccccatca tggaaggctg tccatcta 23845125DNAHomo sapiens 451ttctttttgt ctcccatata cgctg 25452160DNAHomo sapiens 452gctctgccga cttccagttc tggaacaaga tggttaaact catttttccc tgctctgctc 60ctctaaatac aactaagtac cttggaaact attcagcaga caatgataaa gggctctgaa 120agctagaaga aaaggtgtac ttgcaagaaa cctcaggact 160453413DNAHomo sapiens 453gacatagaat caaccaaaat ggccatcagt gatagactgg ataaagaaaa tgtggtacat 60atacaccatg gaatactatg cagccgtaga aagaaacgag atcatgtccg ttgcagggac 120atggatggag ctggaagcca ttatcctcag aaaactaacc caggaacaga aaagcaaaca 180ccacatgttc tcactcataa gtgggagctg aagactgaga acacatggaa ccagggagag 240gaacaacaca cactgaggcc tgccactgca ggtgggggtt caggggaggg agagcatcag 300gaaaatagct aatgcatgtc aggcttaata agtaggtgat tggctgatag gtgcagcaaa 360ctgccatggc acacgtttac ctatgtaaca aacctacaaa tactacacat gta 413454620DNAHomo sapiens 454tgtcttgctg gcctgaaatc gagtacgcag cccggggtga tcagggtctc ccggcccgga 60tgtgtgagac ttgcttcccc tgggcaatag gcgatacgat gctttaggag gaaggtgtct 120ctccctccta agccccggag gggagaactt ccaaagacag aaaaccacag gcttcctggc 180acagagcttt ccctttatca gctaaagcag aatcttttct ggccttaacc tggccccttc 240ctctaactgc aggcagagag gcagacagaa aagcacttgc tgaaacacaa agttttgttc 300tgtcctcaac gaactgtcta gagctgattg ctgatagtcg tggtgcatta tgccttcctg 360gttttcattt aattgggcac cacgctgcct ttcaagacgc cttaaaggaa ccaacaacca 420aatccaagag agctggacag accattgaac acacagtagg ctgtgtctcg tggctttcgt 480tgtctggtgc ctcaaagaaa acaccagaaa gattgtttct aagctagagc caccccagat 540tgcttaaagt gcaaagctca ctgctgttgg gggtaccctt gtgagacact ggaaagctgg 600ttttaccgtg gccctatgaa 62045546DNAHomo sapiens 455ccgaggaggc ggagcatgga actcgacagt taaaacattt aagaga 46456116DNAHomo sapiens 456aggcagcctt ttctgtcaca acacaacgct gagccggcag cctggctctg tcaggatctg 60gggctcccgc gcccgagaag cccagcctcg ccggcggcca agttcaccgc gaggcc 11645762DNAHomo sapiens 457gactctgaaa ctacccggct ctgcagaagc acgctgggcc caggggcttc tagactgaca 60gc 6245870DNAHomo sapiens 458aaaggctgca gtcaccagca tcttttccaa ccttaatgaa ctgtatcctc aaaagaacac 60tatcagactg 7045932DNAHomo sapiens 459gaaaattcct atcccaccag caaatcagcc cg 3246030DNAHomo sapiens 460ctcccagata aagagatcaa cacgggacag 3046145DNAHomo sapiens 461gggttcctgt cggaatcttg gagctcatcc cccaaacttg agatt 4546256DNAHomo sapiens 462caaaggcttc tcttgctggc tgagaattgt tggggagctc cctgcccacg gagggc 5646330DNAHomo sapiens 463aaactttaag gaagacaact gtgcattctc 3046475DNAHomo sapiens 464tggaacatac gttcttgtga acatagagag tggcattttc ttatgtcgat gtaatgtgaa 60caactcctgg tcacc 7546525DNAHomo sapiens 465ttggtacatg ccagcacggt ctgtg 2546630DNAHomo sapiens 466gattcactgt gcgaggaccc acctgacacc 3046726DNAHomo sapiens 467gtaaggtgac caatggctgg ctgaag 2646825DNAHomo sapiens 468tccgagctgt cacgtggttt ataca 2546926DNAHomo sapiens 469tcaggtttgc tgggaggaat ccagaa 26470131DNAHomo sapiens 470ccactctagg caggactttc atatccttta tctaactgtc acatgatggg gtgacatgtt 60gatcccccca cagcctggat gatagaaata tttgtggttt gatatgcgtc agcgcttatg 120actttggcat a 13147125DNAHomo sapiens 471ggtcatattt cacgtctgcc ctgta 25472106DNAHomo sapiens 472tgctttacaa acactgactc ctcaacacac ggtcatctct aaaagaaagg gtgtttggca 60gttcctcgac agttctggaa aggctgcctt actagaagca gagtca 10647382DNAHomo sapiens 473tattttggtc atgggctggt ctggtcggtt tcccatttgt ctggccagtc tctgtgtgtc 60ttaatccctt gtccttcatt aa 8247465DNAHomo sapiens 474cacctctacc tgttgcccgc cgatcacagc cggaatgcag ctgaaagatt ccctggggcc 60tggtt 6547534DNAHomo sapiens 475tgacagacac tgaaaatcac gactcatccc cctc 3447635DNAHomo sapiens 476tgaaacagga agctctatga cacacttgat cgaat 35477340DNAHomo sapiens 477agcggcagag cagttattaa cagaatcaca gtctttctgg agctgctgtc agtcctgtgc 60tgtcctcagg gcctttgctt ggtcaggggc cccacttctt atccaccctt ccctctacct 120caccgaggct gctaggccca ggtgtattgt gattatttga tgcacctggg aggccatgtc 180tcccggggag tctcaggacc tcattgggct ggaattccac ggggatctct cattgggtct 240ctttgggcct ttggagaggg gagtgcaggg caccacctgg gcgaacacct gtgccatcct 300gtaagtcctt gtgtgactct tcatccaagt caacaggggc 34047831DNAHomo sapiens 478cgtggacccg gctatgtctg actttgtgct g 3147969DNAHomo sapiens 479gggaacaaaa tgtctgctca aaccatgaca aaattggcca caatttgccg attgggctga 60taacaaaag 6948025DNAHomo sapiens 480gtgtgtacta atcactcaga cagtg 2548148DNAHomo sapiens 481gaaaagattt ttattcgtgt ctacatcagt gtgaaaggct tcatcctg 4848233DNAHomo sapiens 482ctggggacac tatggcccca tcctagcctg gtg 33483220DNAHomo sapiens 483tgggaggcca aggtgggcgg atcatgagct caggggttca agaccagcct ggccaacgta 60gtgaaacccc gtctctacta aaaacaaaaa aattagctgg gcatggtggc gcacacctgt 120agtcccagct actcgggagg ctgaggcagg agaattgctt gaacctggga ggcagaggtt 180gcagtgagct gagatcgctc cactgcactc cggtttgggc 220484133DNAHomo sapiens 484ttgctgatat acttacaaac tggtaaacaa tgctctttaa tcaacaattc ataatctggg 60tcagcgattt ttatctccat atttgctcat actgtatgac atcaatattt tatattggct 120tgcccataac tta 133485266DNAHomo sapiens 485ctgtgccagt caagcctggc ctgtggctgt gacacctgca ttaccccaga tggttgcctg 60acctaggcct gtccttctat ctgctttgtt tttatgttga ttactaggtg aagcacagtg 120ttaaaaacgg gaagaaaagg ctaggaatgc agttatggga gtgtgaggct gggttggaat 180aggtgggaga aagtccaggg ctgagtgtgt ggaccctgct ctagggatct gaccggctca 240agctcccagg ccattaaaca aagttg 266486284DNAHomo sapiens 486ctgttgccat ttgaacaagt tgttaagaaa atctgccatg ttttgctctt ttttaaaagg 60aatgacttta ataaccatag caacacttac tcagttttgt gatccactcc aagattatgg 120gagcaagaac agatactcct gaaagcaacc ctcacctcct cccccgcccc ctgccctcag 180caagtcctgg cctgtgtgaa ctgaagggtt tggaagctct ggtttctagg agtgcccaga 240agctagaaag actagggtgt actagttatt gaggggcagt tgtc 28448729DNAHomo sapiens 487aaaggcattt ctgatttaat taagagttg 2948831DNAHomo sapiens 488atgaaggagg agtcgtctac acttgtaaaa a 3148925DNAHomo sapiens 489tccttgagtt aaagaaattt gtgtc 25490674DNAHomo sapiens 490taatccagtg ctcaacatat ttttgttgaa taaaagcaca aagagattca tgagaagagg 60gaaatgttgc atacttaggg taggagcaaa ccacagaggt ctttctcagc ctgggcaaag 120aatgtcaact ctgtgttgga gccagtaggg agctctgtgg gtcctcgagc aggaaaatcc 180catggcttaa gcagtgtttc aggaagactg ggatgttagg ctccagagct ctgagcaagt 240cagatgggac tgggagtcat aagaaggctt gactgtggct agtgataacc aatgagcact 300ggaaacatgg aggggaatct ttcctccctt ttatatcagg gttctctcct agaggagcag 360gtgaggacct ctgatggacc aggaaattgg aattctgcct gggaggcaag cccatggagg 420ccctgatctg cttggacaga gagtagctcc cttcacctgt aaaatgagag tgaacgagct 480ggtgtctaag gaattcagaa tcccccccct ggagttccac agggtatgtg ggattttagg 540gggaccaggg tgtccccagt gcaagaagga ggctcccacc aaggggctgc agcactgcag 600ataaccccca ggggtatgaa aagaggctga actgggggcc tccacagtca gaatccatcc 660attgacccag gatg 674491172DNAHomo sapiens 491ccctggcatc atattgggac ttgttaaggg ctgaattgtg tcccatccca aatttgtatg 60gtgccacccc aactccagta ccttggaatg tgaccgtatt tggagaaagg gtctctgaag 120aggtaattaa ggtaaaatga ggtcatatgg gtggcctcta attcaatatg ac 17249225DNAHomo sapiens 492tttccatttc ctagtagggc cagtc 2549348DNAHomo sapiens 493tatgtgcatt agtttgcttg gactgctata acgaaatact acttggtg 4849479DNAHomo sapiens 494gagcttttag agaatatggg ccagaaacag gaaggagtca ggacctgata acgggaacca 60gcggacagtg aacgcagtg 7949571DNAHomo sapiens 495gtgaatacaa tattctcctt ttgttttcac ttttcctaaa agttaaatca aggttcaaaa 60gaaaatcgag g 71496130DNAHomo sapiens 496agatgctaat ccagcgtgcg tcctggcaga ggttgaaggg ggctcctcaa gtcccaggtc 60cagcttggtg tggttcagct actcgagaga catctgctgc taatggatga gcagtcaacc

120tggacgcagg 13049746DNAHomo sapiens 497tgtgaagact ggacttaaac agctacacca ccagaagccg agagag 4649837DNAHomo sapiens 498aaattgacat tccagacaag cggtgcctga gcccgtg 3749965DNAHomo sapiens 499cttagtcgtg tgtacatcat tgggaatgga gggaaataaa tgactggatg gtcgctgctt 60tttaa 6550057DNAHomo sapiens 500aatcccatgg tcttcaattt ggtcatttaa aaataatcta caaggtatac tgttttt 575011190DNAHomo sapiens 501caccactcta tttaacagtg ctggaaatat tagccagcaa aacagataaa gaaaaataaa 60taaatggcat agactggaaa gattcatagt tggcacaatt atgtatatat aaaatcctca 120ggaatgtaca ctttacatac tagaatttaa aagtaagttt agcaactgtg ttagttcgtt 180ttcatgctgc tgataaagac atacctgaga ctggacaatt tacaaaagaa aggtttattg 240gacctatagt tccacatgtc tggggaggcc tcacaatcat ggcggcaggc aaggaggggc 300aagtcacatc ttatgtggat ggcaacaggc aaagagagag cttgtgcagg gaaactcctg 360tttttaaaac caccagatct catgacaccc attcactgtc aggagaacag catgggaaag 420acccaccccc atgattcaat tgtctcccac aaggcccctc ccataccaca tgggaattat 480gggagctaca agatgagatt tgggtgggga cacagagcca aaccacatca gcaacatgtc 540agaacacaga aaaaatgtaa aatatcactg tatttctatg tactagtagt gaactgtcag 600atgttaaaat tcaattgctt agaatggcat caaaaatatg aaatactggc caggcgttat 660ggctcttgcc tgtactccca ttgctttgga aggctgaggc gggtggatac ctttgaggcc 720aggagttcaa gaccatcctg agcaacaggg caaaaccttg tctctactaa aaatacaaaa 780aattagctgg gcatggtggc ctgtacctat aatcccagct acttgggagg ctgagacaca 840acaatcactt gaacctggga tgcagaggtt gcagggagct gagattgaac cactgtactc 900cagcctgggg aacaaactga gactctgtct caaaaaaaaa gaaagaaata cttatgggta 960aatctgacaa aataagtgta agacctgtac actaaaaact acaaaacatt gctgaaataa 1020attaaagaag acctaaataa tcggagagat atactttgtt taaaggtcag aagtctcagt 1080attgctaaaa tgagaactct tcccaatgca gtgctaatca aatttctagc aggctttttg 1140tagaaattga aaagcagatt tgaaattcat atggaagtgc gaacaaaacc 1190502135DNAHomo sapiens 502ccaccatgtg ataccactac atgtatttta gaattgctaa aattaagaag actgaccata 60tggggtgagg atatggagga aatgaaattc tcatacaatg ctattggtaa tgtaaaatca 120aactaccact ttgga 13550331DNAHomo sapiens 503gcttgaacca ggaaactgga tatcatctta a 3150428DNAHomo sapiens 504atgtttggga acccaacaat taatgcag 285051757DNAHomo sapiens 505cccgaatgta tctcccagat gtccagaata cgccatctgc aaaactgaac tcatcctctt 60tccccagaat gtatctcccg gatgtcgaga atacgccatc tgcaaaactg aactcgtcct 120ctttcccccg aatgtatctc ccagatgtcc agaatacgcc atctgcaaaa ctgaactcgt 180cctctttccc ccgaatgtat catctcccag atgtccagaa tacgccatct gcaaaactga 240actcatcctc tttccccaga atgtatctcg cggatgtcca gaatacgcca tctgcaaaac 300tgaactcgtc ctctttcccc cgaatgtatc tcccggatgt ccagaatacg ccatctgcaa 360aactgaactc gtcctctttc cccagaatgt atctcccgga tgtccagaat acgccatctg 420caaaactgaa ctcgtcctct ttcccccgaa tgtatctccc ggatgtccag aatacaccat 480ctgcaaaact gaactcgtcc tctttccccc gaatgtatct cccggatgtc cagaatacgc 540catctgcaaa actgaactcg tcctctttcc cccgaatgta tctcccggat gtccagaata 600cgccatctgc aaaactgaac tcgtcctctt tcccccgaat gtatctcccg gatgtccaga 660atacgccatc tgcaaaactg aactcgtcct gtttcccccg aatgtatctc ccggatgtcc 720agaatacgcc atctgcaaaa ctgaactcgt cctctttccc cagaatgtat ctcccggatg 780tccagaatac tccatctgca aaactgaact catcctcttt cccccgaatg tatctcccgg 840atgtccagaa tacgccatct gcaaaactga actcgtcctc tttcccccga atgtatctcc 900cggatgtaca gaatacgcca tctgcaaaac tgaactcgtc ctctttcccc cgaatgtatc 960tcccggatgt ccagaatacg ccatctgcaa aactgaactc gtcctctttc cccagaatgt 1020atctcccgga tgtccagaat acgccatctg caaaactgaa ctcgtcctct ttcccccgaa 1080tgtatctccc ggatgtccag aatacgccat ctgcaaaact gaactcgtcc tctttccccc 1140gaatgtatct cccggatgtc cagaatacgc catctgcaaa actgaactcg tcctgtttcc 1200cccgaatgta tctcccggat gtccagaata cgccatctgc aaaactgaac tcgtcctctt 1260tccccagaat gtatctcccg gatgtccaga atactccatc tgcaaaactg aactcgtcct 1320ctttcccccg aatgtatctc ccggatgtcc agaatactcc atctgcaaaa ctgaactcgt 1380cctctttccc cagaatgtat ctcccggatg tccagaatac gccatctgca aaactgaact 1440cgtcctcttt ctcccgaatg tatctcccgg atgtccagaa tacgccatct gcaaaactga 1500actcgtcctc tttcccccga atgtatctcc cggatgtcca gaatacgcca tctgcaaaac 1560tgaactcgtc ctctttcccc cgaatgtatc tcccggatgt ccagaatacg ccatcggcaa 1620aactgaactc gtcctctttc cccagaatgt atctcccgga tgtccagaat atgccatctg 1680caaaactgaa ctcgtcctct ttcccccgaa tgtatctccc ggatgtccag aatacgccat 1740cggcaaaact gaactcg 175750645DNAHomo sapiens 506atgtccagaa tacgccatct gcaaaactga actcgtcctc tttcc 45507456DNAHomo sapiens 507aaagagattc tcacttagag acatcataag gaaactactg aaaactagga acaaaggaat 60tatcttcaaa gcagcaatga aaaatgacat tatttataaa attacaatta tttaaagggt 120tgtagatttc tcatcagaaa ccatagaggc caggccgggc gctgtggctc acgctgtaat 180cccagcactt tgggaggccg aggtgggcag atcacttgag gtcaggagtt caggaccagc 240ctgggcgaaa cctgggcaaa accctgtctc aactaaaaaa taagaaactt agccagacgc 300agtggtgtgt gtctgtagtc cccgctactc aggaggctga ggcaggagaa tcgcttgaac 360ctgggaggca gaggttgcag tgagccgaga tcacaccact gcactccagc ccgggcgaca 420gagcatagaa gccagaatgc aattgaacaa catttc 456508125DNAHomo sapiens 508tcagtcacgt ctgcgccaga gctttgatga cccacctgtc agccacacta agggccctgc 60catgaataag gcctccgtca ctgaggatcc tgtacccctc tgccataaac tcagtgacct 120gactg 12550931DNAHomo sapiens 509cccacattca aaaggcttgc ccgagaggcc t 3151080DNAHomo sapiens 510tcaaggtggc cttgcgcttc accgaggagg tgtcattacc aaacgtgctg gacattggct 60acctacggaa gaaagattaa 8051170DNAHomo sapiens 511ccagacacca ctggcctaca tcaaactcca ggccacagat ggaaatagga ctgagatccc 60tggacctggg 7051291DNAHomo sapiens 512atgaagctag gcccccctgt cctgacagct ttccacccct tccctgcccc tctcaccctg 60ctttccaggg gcaatgcacc tccccacttc t 9151330DNAHomo sapiens 513tgtatttggc atctaccata tctttgcatc 3051491DNAHomo sapiens 514cacacataac tctgggcgta aagtgagtaa aaatatgaga cttagaagaa tatttcatca 60tggtatgctg attggggatt tcacttactg a 9151525DNAHomo sapiens 515tcactacgat tatctgaatc tcata 2551632DNAHomo sapiens 516tcacccttga catccgcaga atccaccctc ct 3251775DNAHomo sapiens 517agtcctgggg aactctcatc tggaaaaagg cgctcatgac aggtggtgcc aaccttccac 60ggatgctttt cagca 7551825DNAHomo sapiens 518ttcagcgccg aattgatgag gacac 2551948DNAHomo sapiens 519atggagaaac aggcggccca gccaggccct ttcactgccc gtgatgga 4852048DNAHomo sapiens 520tccaccagac tgatgacact tattccactt ggttcccaga actaagag 4852192DNAHomo sapiens 521gggcatttgg actctaaccg ggacaaccta gtggccgggc aggggatgca ggcaccacag 60gtcacagtag tttgctacga gtgtcagctt tt 9252264DNAHomo sapiens 522cctgtgggaa tccataaaga attgattctc atcccccaga agtgagatcc cgcttgtgtc 60atca 6452334DNAHomo sapiens 523ctggtgcacc tggtctacct catgtccagt gttt 34524122DNAHomo sapiens 524tcctgcagtt ccaatgtgag cagcagttgt ttccaaggct aacaatttca cgccaactag 60aagcctccac aagtcaggtg ccaggcattt ctaagccagt agagcagctc cgcttgtttc 120tc 12252549DNAHomo sapiens 525cttggctggt ggatctcggg ttaaaatcga cttaggatgc cccccttat 4952632DNAHomo sapiens 526gcttctgcag tttgccttgg agtctgggct gt 3252732DNAHomo sapiens 527tgaatttata ttaccgagtg gagggtcaca tg 3252826DNAHomo sapiens 528agtaaatcca tttgctgatt gcaata 2652968DNAHomo sapiens 529ctcttgtgta aaaatctaac tcatctcgct gaatttcctg atttaaaagt ctaattcatt 60tcaccaaa 6853060DNAHomo sapiens 530ccagacgtac agaggctggg agccattgtg gtgtgctata ttgatgacgg cagcagtggg 6053175DNAHomo sapiens 531ttgtgtatct gcgttccttt caacaagtgt gacttcctca atggcatcat tcgtgagcgt 60aacacagagc tcagc 7553235DNAHomo sapiens 532gagctgaaat cgaccagggg gttcttatcc aacag 3553373DNAHomo sapiens 533gcctacctaa aatattgaat gctgttaata aatctcctga ggccagcata agaaggtgat 60gggcaaaact aat 7353427DNAHomo sapiens 534cttagagggc cccacagttg tttgctg 27535254DNAHomo sapiens 535tggttacaat ggtactttca gcctgtccga attatgtatt gcccctcccc tttttattaa 60taacattgaa gtgtgatggg acaaccactg aagccgtcag ttgaaacctg ctgggacttt 120ttagccattc tcttcaacat aaagaatggg tgtttttgga gggggtgaga ggaatgggga 180aatgttgtca aagagtacaa tgttttagtt gagacaggaa gaatatattt tgttgagatc 240tacagcacag catg 25453625DNAHomo sapiens 536tgtgctaggt ttctttgcat gtacc 2553728DNAHomo sapiens 537agcctcctcc aaaacagcac actttccg 28538109DNAHomo sapiens 538tttctcccgc ccaccttctc cgctgccaga ccgcccgagc tgccctcagt ttctccccaa 60gttggactca ctttcggggt gtcccacaag cccgatccca gagcctgct 109539121DNAHomo sapiens 539cgacctcgac ggccgtcctg ccgaagtacc tgccgtcgct gcccaccccc gtggtgcggc 60cctgacggtc gcgcaggtcg acggacgaca gcgcgctccg gatgaagttg ggcgggtagc 120t 12154057DNAHomo sapiens 540agactgtgat gactgggaga gcgggctgaa tgcgatggag tgtgcattac atttgga 5754133DNAHomo sapiens 541catagtactc tgaacatgcc cgatttcatc tgt 3354237DNAHomo sapiens 542tgacaaaaat gacccccatt tgtgtgactt cattgag 37543150DNAHomo sapiens 543atgaaacaga cagacttaat gaacaagcca gtgaggagat tttgaaagta gaacagaaat 60ataacaaact ccgccaacca ttttttcaga agaggtcaga attgatcgcc aaaatcccaa 120atttttgggt aacaacattt gtcagccatc 15054429DNAHomo sapiens 544tttgacgaaa cgttcaagtc aaacacaga 2954538DNAHomo sapiens 545gaggtcatca aagatgatat ctggccaaac ccattaca 3854635DNAHomo sapiens 546gcgtacaagg cccacgaaat agtcggccgc cgcag 3554790DNAHomo sapiens 547ataagtccac cgcacagaac tcgcgcgcct cccctcgaac gaacgcgcac gcgcgcgcag 60ggggcgggtc ttcttcccga cacccactga 9054890DNAHomo sapiens 548ctccgcctcc gcgacgggcc gtcgggagga ggcgaccgga agccacttaa agcagagatc 60gaggtgacag gcgagctggc tggactcgga 9054941DNAHomo sapiens 549cgcggtcgag gctttctgcg ttcgcggcgg cggaatggcc c 4155093DNAHomo sapiens 550tctgtggtcc ctagacgtcg gctcccgccc tcggcgctga tctccggcgc gggcactgct 60ttccactcgg ctcctgtcgt ccgttctctc agg 9355161DNAHomo sapiens 551gggcgcgtct atgcggcctc ccccgcgggc cgaccccggg tgctctgagg cgcctaggag 60c 6155250DNAHomo sapiens 552ggcacggcag ctacgggagc cttccggcta ccccgcgttt cgggctgcag 50553127DNAHomo sapiens 553cattaacttt gagagcgcac aagtcttcgt cttcctcccc gccgccgcgg gaagcgctcg 60ccgcctttcc cccgcgcttc gcggctcagt tctgcgagcc cccaagaccc gttggacgct 120cctcggg 127554157DNAHomo sapiens 554ctcagctgca ctgcgcggag ttggcgcggc ccgggaccag gagctgagca aaccgccgcg 60gccaacagga ggcgtcactc ggacccgggc tcggcgccgg ggtgtcgcgc ggcggcgggc 120gggcaggctt tggagcggca gttttttcgg aaagtgc 15755528DNAHomo sapiens 555atgatcatct tccttccttt cctcgtag 2855641DNAHomo sapiens 556gatttttaga ctctgaggag cagttggagc taatccacat t 41557217DNAHomo sapiens 557cagactgtgt agtgcagcct ccctctcctc ctgatgactt ttcatgccaa atgagactct 60ctgagaagat cactccattg aagacttgtt ttaagaaaaa ggatcagaaa agattgggaa 120ctggaaccct gaggtctttg aggccaatat taaacactct tctagaatct ggctcacttg 180atggggtttt tagatctagg aaccagagta cagatga 217558179DNAHomo sapiens 558ggggaccaga taccggaagc ccatccttcc actgaagctc cagaacgagt ggttccaatc 60caagatcaca gctttccatc agaaaccctc agtgggacgg tggcagattc cacaccagct 120cacttccaga ctgatctttt gcacccagtt tcaagtgatg ttcctactag tcctgactg 17955928DNAHomo sapiens 559gtatttataa caacttgtag aactgttg 2856070DNAHomo sapiens 560aaaactttgc agaacagcgg ctcccacttc accttcatga agcaaatttc cagtctgctg 60agtacttcag 7056132DNAHomo sapiens 561aagttgactt gtggtcattg caacctggtt tt 32562154DNAHomo sapiens 562ataacggcat gttgagcctt gctgagagat tcacaaacaa gctggagcag cccaggttca 60catggttacc acattatttg gctaaagcta ttaatctctg tggtcaggcc tgtaaagctg 120gtctatctgt gcagattgcg cataaccagg aagt 154563112DNAHomo sapiens 563gccttctatc ccagctgttc ttacagaaat taagtttcac tttctcatca ggctatggtt 60gagaagtatg tctcatttat agtgccttct gtgatcttag gacatgtgac ta 112564508DNAHomo sapiens 564tgtgatttca gacagcatcc ttctcactaa cttgctgcct tcttggaata agaatttcca 60agatgtctca ggaggtacca agggagcagc aacaaggcct aatgatcact tcttcaagaa 120tttatcccaa gaaatgcatt gtatcttaag ttggggaaca cttttaccta ctcaaaaatc 180ttttgaggta ttcagataaa tccatgatct gagttttatg ttaatagttt tacagtgtca 240tagtgtggta attaagtgta gaattttaac ctctgaggct gggcgcagtg gctcacgcct 300gtaatcttag ctttttggaa ggctgaggca gaagaattgc ttgagaccag cccaggcaac 360atggcgaaac cttgtctcta cagaaaaata caaaaattag ctgagtgtgg tggatcatgc 420ctatagtcac agctactggg gatgctgagg tgggagggta gtttaagcaa gggagtttga 480ggtggcagtg agcctagttg gcactatt 50856530DNAHomo sapiens 565ggacaagaat tttgggcaga tttgaatgcc 3056698DNAHomo sapiens 566tttgaccaac tacgaaggct gtccacacca ccctctagca atgtcaactc tatttaccac 60acagtctgga aattcttctg tagggaccac tttggatg 9856788DNAHomo sapiens 567tgtcattcga ttgattgaag aagccaactc tcggggtctg aaagaggttc gatttatgat 60gtggaataac cactacatcc tccacaat 88568160DNAHomo sapiens 568ggtggggttc ccacacaagc tcctccacct cttgaagcaa cttcatcatc acaaattatc 60tgcccagatg gggtcacttc agcaaacttt taccctgaaa cttgggttta tatgcatcca 120tctcaggact tcatccaagt ccctgtttct gcagaggata 160569396DNAHomo sapiens 569atgaaaagtt caagacggcc gggcgcagtg gctcaagcct gtaatcccag cactttggga 60ggccgaggcg ggcagattac gaggtcagga gatcgagacc atcctagcta acacggtgaa 120accccgtctc tactaaaaat agaaaaaatt agctgggcgt ggtggcgggc acctgtagtc 180ccagctactc gggaggctga ggcaggagaa tggtgtgaac ctgggaggcg gagcttgcag 240tgagccgaga ttgcgccact gcactccagc ctgggcgaca gagccagact ccgtctcaaa 300aaaaaaaaaa aaaaagttca agaatcaaga gagctttatt gtagccagtg tcaaatgagg 360aacataatag taaacatttg cacagaattt atgttc 39657035DNAHomo sapiens 570caggaaaatg tttggccgtg acaggataat aaatg 3557126DNAHomo sapiens 571gaccctcgag tctgtggaaa gcatgc 26572130DNAHomo sapiens 572tccaaaggag tccacttcat gtttctggcc aaagtgctga cgggcagata cacaatgggc 60agtcatggca tgagaaggcc cccgccagtc aatcctggca gtgtcaccag tgacctttat 120gactcttgtg 13057330DNAHomo sapiens 573tacccttatt ttgttatcca atatgaagaa 30574521DNAHomo sapiens 574gcttgggcct ggtagaagtt tgaccaaatg gaatggaggc tgtgagcaat gtgaggattc 60tatttattta tttacgtttg ataaaactta ctggaactag tactaccatg cgtattccct 120gtccaaagca tcactgcttt ggtatagtat aagttcatga aattctggtg ggtagaaaga 180aatttttatt tctatcagca gtactaaaat gtatcagcca accagagaac atcagtgact 240ttaacttctg cagagtttgc cccagaattc agagttctat ttagaggaag ttaaaacaac 300aacaaaaaac aaccatttga aaaatttttg tcaccagcaa aacttttcac taattagtga 360tatgaaatgt gatttttgtg ttgttaaact tcagctttgg aaaactcagt ctctttcatt 420atcatccatt ccaatttgaa ggagttgggc agctaatttg gttaaaggca gtcttgaggg 480ttagaagtat tacttccttt tcgggttcca gacctagctt g 52157549DNAHomo sapiens 575aaacttggaa attgtgccag tggtccagct ggagcacaac gtttggtga 49576261DNAHomo sapiens 576tcagagaggt agcaactagg taaactcctt ataaaaagca aatacctgga tttacaaaag 60tgaaagtagt tgttcacaaa agaattcgcc atggaattct ttcagttacc aagctctcct 120ggtaatgttt gtggttatat catttacaca aaacttttca ggaacttctg tgttgtttaa 180gcaagatgta tctgtactga tgtctcagtg aatcagtctg tttattaagc acttatcagg 240gcttccacac acttatttat t 26157727DNAHomo sapiens 577atgcgcagga gcgacaataa gatggcg 2757834DNAHomo sapiens 578gccattttcg agtgaaggac ccggagccga aaca 3457936DNAHomo sapiens 579gtgggtacta cacaaccgtc tccagccttg gtctga 36580299DNAHomo sapiens 580gccagcgtcc gacttgaagt tgctagtggt tagtcccagc cttcgccctt cgcggtccga 60ccgctgagag gagggagact tcgttatgcc ccgggccgtc aacggcgcca ggagctaaag 120ggcgggcaga cgaaagcggg cggcgagtcg ccagttagtc ttcaccgctc tggagagagt 180tgctagccac gggatcctga cccggacacg aactcgtttc tccacgtcgg tgcgcgcttg 240catccctggc cccgaaagcg tgggaatgtc cggaaatgct ggcgtatggg agttcctta 29958128DNAHomo sapiens 581gcacgtctag attttcccac ttacatag 28582109DNAHomo sapiens 582agtcctgcct tcttgccact cgtgtctttc gatggctccc ttcccgaagt cccgctgcct

60ctaagcggag tgttaagcgg ggctctcgga agccggtgga ccgagattt 10958349DNAHomo sapiens 583ggcgggcgcg gtgtagcggc ccgcgggctg acttgctccc ggctgtccc 4958426DNAHomo sapiens 584atgccccgta aaggcaccca gccctc 2658556DNAHomo sapiens 585ccctgacggc gccagcagcg acgcggagcc tgagccgccg tccggccgca cggaga 56586177DNAHomo sapiens 586cctccgtggt gttagattgc cgttaaagag aagacgataa tttatttgaa gccactgtag 60cttttgtgag tccaggagtt gggtgacatt attaaaccct cgtggcagtg tcgctgaagt 120tcatgagttt ccaaaatgaa ggttccaggt gctcagcggt acggagaatt gcatcta 17758731DNAHomo sapiens 587tgaggaactt gataatagaa gtttagaaga g 3158831DNAHomo sapiens 588ccagaacttc aaatcctatg ctggggagaa a 31589159DNAHomo sapiens 589cgcttttcct gtattatcgg gccaaatggc agtggcaaat ccaatgttat tgattctatg 60ctttttgtgt ttggctatcg agcacaaaaa ataagatcta aaaaactctc agtattaata 120cataattctg atgaacacaa ggacattcag agttgtaca 159590176DNAHomo sapiens 590ttgagaaagg gaccaaaaca gcatggaaaa gtatcaattc tttgctaagt tgggttatta 60atgagaacta ctggcagttt gtgtgcatgt tcaattgaag tttttaatcc atagaattag 120tttcagtatg aaatgagtga attttgaagt aggcctatga cttaatacca acaatt 17659147DNAHomo sapiens 591aaggggatga ttatgaagtc attcctaaca gtaatttcta tgtatcc 47592118DNAHomo sapiens 592aacggcctgc agagataata cttctgtcta tcacataagt ggaaagaaaa agacatttaa 60ggatgttgga aatcttcttc gaagccatgg aattgacttg gaccataata gattttta 11859376DNAHomo sapiens 593ctgtagcagc acatcatggt ttacatgcta cagtcaagat gcgaatcatt atttgctgct 60ctagaaattt aaggaa 7659459DNAHomo sapiens 594gtaaatattg gcgtagtgaa atatatatta aacaccaata ttactgtgct gctttagtg 59595284DNAHomo sapiens 595gtgtttgatt tacctaagca cctagttaat ttaatctttg taacactttg gatggttaac 60ttaaccttta ctcaagttgg tttttgtttt gttgaaaatg acttacttgg tggaaccact 120actactgaaa gaacgaaact ttgatattac attgttaagt atcagagctg ttacagagca 180agtcctttta aagagatgta aaaattaagt acctgtgcca aactgatttt tattagaaac 240cctgttttct ttaagtaaaa gtatattcta ccagcatggc ttgg 28459662DNAHomo sapiens 596tatccacaac tagggtgaag gtggtggaga gcagcaagga agctacctct aaccaaccag 60aa 62597412DNAHomo sapiens 597ctcaaagagt ggtataactg gatcataata tccttgtttg ccactcaaga aagtgttcca 60taacttaaga taacagtggt gggaaaaatc atttaagacc ttgtttcata tgctttaaga 120tacaagaaat agagataaca ctgggaacat atgaaacttt gtcagcatca gataatagtg 180ttgtagcgac ttgaaacatt ttttgtctgt gattgtgcca gtcactattt gtgacttgga 240ttgaaccttg atatgacttt aaattcaggt tgatgtttta aaattatttc tgaaatatat 300tgagcttatt gccctaaatt aaaactatat tctgtaattt tacatgagtt atgtaagttt 360tctgaagaaa taaggaggaa tcctttaggc acagactgtc aatctacaga tt 41259865DNAHomo sapiens 598actcttggct ttattattta actgctccca attctcactt aagattgatt tagctaaaca 60tacac 6559925DNAHomo sapiens 599gaacaaattg ctatgatgaa accaa 2560058DNAHomo sapiens 600agatataatt ggttgtggac ggctaaatga acctattaaa gtcttgtgtc ggagagtt 5860140DNAHomo sapiens 601ggagagaaaa acatagctat cgaatttctt accttggaaa 4060268DNAHomo sapiens 602gtaagtgcct tgattgatat taccaatttt tatattagtt tttaaccatt aagtcaaagc 60ccttctct 6860390DNAHomo sapiens 603aaggaattat gtggtgaact tatccaatgt gaggactatc tggctgtgac acctgtcatc 60ccgttgatca ccagggttga atttattaaa 9060477DNAHomo sapiens 604ttatgagttg cagaaacgaa ttgctgaaat ggaaactcaa aaggaaaaaa ttcatgaaga 60taccaaagaa attaatg 7760586DNAHomo sapiens 605gataattgta ttacatgtgt atttatatat aaagttactt ctagcacatt gtgagtgtaa 60gacatttgcc agcatatcaa gtggtg 86606447DNAHomo sapiens 606ccctagtggc gtagcacagt aacaaacaat aagcatttgg cttcacagtt taatctttta 60gtagtccaca aatctgatag agggatagga tttgggtttt tctagataga tttttaaggg 120ttttatcatg tccctacttg atgccatttt tcaatgacac tagtatctct aattattttt 180aaataaaaaa atttgtatag taagtttatt gtatagtaac ttgtaagtat attcgtaaaa 240ggtaaaacca aaattttact cctatggtaa aatttttata tacctagaca ttgtagtcac 300tggaaaatgt gttattttcc ctccaactta gaaaggcaaa atagctgtca taatcaaaaa 360tacaggtgct tcttcaacta tggggagagg gatcatcttg gaataaggag agttttagga 420tcctgcctta ttaagagcct ggacata 44760799DNAHomo sapiens 607attacaaaat ttattgagga gaataaagaa aaatttacac agctagattt ggaagatgtt 60caagttagag aaaagttaaa acatgccacg agtaaagcc 99608264DNAHomo sapiens 608tccgtgtagt cagagcatat ttatagctaa agaagaataa ttacaacctg aaatcaggag 60agaaggatga cagacctgag gccctgccag agacagtttt ccttcataag aggtcaggtg 120tttgtagaag tagttttact attagattga gagaatatag aaattacagt gaatagtcgg 180gaaaatactt gttaaagcta gctaatttaa ctctgattat aaagaaaaga agaactagag 240gaccctgaga aatgccttta aata 264609115DNAHomo sapiens 609gccaagagta acaatatcat taatgaaaca acaaccagaa acaatgccct cgagaaggaa 60aaagagaaag aagaaaaaaa attaaaggaa gttatggata gccttaaaca ggaaa 11561095DNAHomo sapiens 610tgaaacctga actggtaagt ttggactttt aatgtccaac attcctaaaa ctagtcaacc 60tagacttaga tgactattct tttaattcct gctga 95611255DNAHomo sapiens 611gtcaatggat aatgcagtag ctttcatgat gggatacttc atagttagtg gattttcact 60gtttgcttat ttaatatata ttgagtactc atgtgccctg caccccatgt taatgacaaa 120gctaggcctc aaatgtcttt attcctcagc gtaatgatcg atctcacaaa gctcttgtga 180aatcagttgg gaaaagacta tgtacagtga atattgacaa ctaggcaaaa actgaatcta 240gtccacttgt gagaa 255612109DNAHomo sapiens 612aagcacgttc aaagatggat gtagcccagt cagaacttga tatctatctc agtcgtcata 60atactgcagt gtctcaatta actaaggcta aggaagctct aattgcagc 109613404DNAHomo sapiens 613aaagaatgag gtcagcattt cagtattcca tatgtgaact gagactatca agaaactata 60ttatccccag aagcaccata tagtaagtaa atcaccacca ccaccccact gtagaaataa 120tttaaacaaa agaaagtttg tgtttcttta aatcttaagt atagacaatt taaagataaa 180taaaaaacaa gtgtatatgt atttatataa tgaatataca aacaactatc ttaatgtgtt 240ttgggttttg aatttatgga tgtagtttct ttgcttgcat tccaaaatgt tataaactaa 300ctaagatgta tagcttatcg gtgcctgtcc cccatccttg agtgaattag atgtctaagg 360aatttcgtaa actttaatct ccaaagatct ccaaaacctc agta 40461460DNAHomo sapiens 614aagagctcat tagcaatgaa tcgaagtagg gggaaagtcc ttgatgcaat aattcaagaa 60615170DNAHomo sapiens 615tgacaaccat atttcaagtg tcactgtata taaaataaga ttcattttgt ttgttttaag 60gcacatttat ttttaaacat tttgccctta cagtttcttg tttacttagc tttagataaa 120tacaattatt tcatacatat caagaaaaat actagtaatg tcacacaaac 170616106DNAHomo sapiens 616ggggacttag gagccattga tgaaaaatac gacgtggcta tatcatcctg ttgtcatgca 60ctggactaca ttgttgttga ttctattgat atagcccaag aatgtg 106617212DNAHomo sapiens 617ggctgtatgg gcgaaaaaga tgaccgaaat tcaaactcct gaaaatactc ctcgtttatt 60tgatttagta aaagtaaaag atgagaaaat tcgccaagct ttttattttg ctttacgaga 120taccttagta gctgacaact tggatcaagc cacaagagta gcatatcaaa aagatagaag 180atggagagtg gtaactttac agggacaaat ca 21261825DNAHomo sapiens 618gaagaatggg ttcctcactt gttat 2561938DNAHomo sapiens 619cagttgcaaa acgactctaa aaaagcaatg caaatcca 3862050DNAHomo sapiens 620gtgaacgaga aatgaggaac acactagaaa aatttactgc aagcatccag 5062132DNAHomo sapiens 621ggaacttgaa gctaatgtac ttgctacagc cc 32622531DNAHomo sapiens 622tactggccag gctttgtttt aggtcctact gatagagcag taaacaaaaa taaagtctct 60tcccagggag cacacatgta agatggcaca tatttgagtg gaggcccaaa gaaagtatga 120gtgctaaccc atgtatgttt gagaaaaaag cattccaaga agagtataaa ggagcaaata 180caaaggctga agcaggagta tgctgggaac acaaaccatt gtggctggaa taaaggacgg 240aagaacccag attctctgag gccttcaccc acactcccct ttccctgcaa gcacccacaa 300caatggcttt gatggtacct gatggtcaat tgagaagcca aaatgtatat ctgtgctatt 360aatggcaaca ttttcatgga gagactgcaa gagtctatat gtgtttcatc cttatttgaa 420aaggaatcct tgactttgtt aggagctcta tatatctcct ctcatagaaa tgccatatat 480tatcaggaga ctgttaatat ctcatgtgga ggacccattt gtgcaagcat a 531623296DNAHomo sapiens 623acttttactc ttcgttgtca caggaaggaa cgctaattca tcttatatcc tccactttgt 60tttaatgtgg agaactgcga agttatgtta gcagaagaaa ataaccacaa tttcttcatt 120gtgggcaagt taatattgag ttaggcacat agtgtatcta aggctaaaaa tcattatgaa 180ctcagtagtc aaggaagtgc cctaagaaaa agttgtaaag atattttaaa agaagctgag 240aacatgaagc cattaagaaa tggtgtgttt acagccgagc tagtgtgttt aacttt 296624144DNAHomo sapiens 624gctgaggtta aacgcttaca caataccatc gtagaaatca ataatcataa actcaaggcc 60caacaagaca aacttgataa aataaataag caattagatg aatgtgcttc tgctattact 120aaagcccaag tagcaatcaa gact 144625213DNAHomo sapiens 625gtagagtatg catgttaccc taacttgttt tccctttccc tgccttcaca ttggaaaggg 60ggttactatg taatgttcca taaaatgttt ctcttactgt taatttattg aacctgtctg 120acacattacc taatgggact tccatgacgg aaaacctata atgaacattt atcctatggc 180caattaaaaa ggctggtaaa caggtatgcc ata 213626105DNAHomo sapiens 626tgtcttgcgt acagagaaag aaataaaaga tactgagaaa gaggtggatg acctaacagc 60agagctgaaa agtcttgagg acaaagcagc agaggtcgta aagaa 105627130DNAHomo sapiens 627tccagaaaga acatcgcaat ctgcttcaag aattaaaagt tattcaagaa aatgaacatg 60ctcttcaaaa agatgcactt agtattaagt tgaaacttga acaaatagat ggtcacattg 120ctgaacataa 130628139DNAHomo sapiens 628aagagatttc ggttctaagc ccagaggatc ttgaagcgat caagaatcca gattctataa 60caaatcaaat tgcacttttg gaagcccggt gtcatgaaat gaaaccaaac ctcggtgcca 120tcgcagagta taaaaagaa 13962927DNAHomo sapiens 629attttcccta tcataatctt ttcacag 27630144DNAHomo sapiens 630tatgaagatc ttcggaaaca aaggcttaat gaatttatgg caggttttta tataataaca 60aataaattaa aggaaaatta ccaaatgctt actttgggag gggacgccga actcgagctt 120gtagacagct tggatccttt ctct 14463166DNAHomo sapiens 631gttcattggc tttagtattt gctcttcacc actacaagcc cactcccctt tacttcatgg 60atgaga 6663226DNAHomo sapiens 632gtgatttacc tgttattact taatgt 26633135DNAHomo sapiens 633gcacagttca taataatttc tcttcgaaat aatatgtttg agatttcgga tagacttatt 60ggaatttaca agacatacaa cataacaaaa agtgttgctg taaatccaaa agaaattgca 120tctaagggac tttgt 13563484DNAHomo sapiens 634ttcaagttga ttcagtgtat tactgatttt tttctatttg taaaggatta tgagttgtat 60aaaatacata ctccctaaac taga 84635121DNAHomo sapiens 635caaggttgtg ctatcaaggc tcagcatacc ttcgtgggcc tttgatttac caacactgga 60aatgcctgcc aactaatctt ggatagattc tttaaggcat tccacttagc ttgccagttg 120a 121636403DNAHomo sapiens 636gcctaggcta tctcgtaagt tgaaaaatat cccactatag ttgcttcatg agtatgaagt 60aagatggcct ctgatttaca ctggttcaat ttacaaattt tcaactttat gataggttta 120tccgggtact aaatgcattt caacttgata gtttcaactt atgataggtt taccaggatg 180tagtcccact gttgaggagc atctatttag gggttaatta ctttagtaat aagtggaaag 240taagatacct tgagtaatgt ttgcctataa aattgtcagc gtatttttac actattggct 300caagaatgtt ataatgctaa gggacataag ttggcaacca cttggttttt ggaaggactt 360tcggtattgt attagaagtc tgccctagct gttaaatttc tgg 40363738DNAHomo sapiens 637gatgtaacta ttttgctttg taaatatcct gcctttaa 38638176DNAHomo sapiens 638tgtttcttaa tagctgtact ctatctcttc agtaagtaat ttgccaggag aaatacaatg 60tttttaagga atatttttgt cagcgtaaac tgttaaacac tgaatcccaa cttttagcta 120tctgaaaaat gtatacttaa ataatacatt atggccattt gactcaaatg taagtt 176639223DNAHomo sapiens 639tctctttcct ggtaagcagg gagtcaaaac aatagcaaga aaatgccaga aatagaattt 60ctactacttt gtaaactcta ggctcgtggg tctcctagct ctcagtacct ggctcactgt 120aggatgggta gatgggtgaa tgaatggata aagaaaggaa gtttgttcac cggagaggag 180atgaatttca gtaagtttca tgtaacagtg atcaggagaa ata 223640668DNAHomo sapiens 640ggctgtcacc tattttgcca acacgtgaat tcaaaacatg aaccggtttg cttttggaga 60atctgaagac tccagtttga ggaatccttt gcttccctgg aggtagatgc tgtctgcaaa 120tctagaatga cagcaggagt ccagtcaaga ggtcctgtca ggccaaggcc agaaagaagg 180gaggacaatc cctggggcca gatgcccagt gtgaggggag gcatgatctg tcccatggct 240gtggccactg caggaaggtc tgtgaaaagg aggtgacagg cccagtcacc tcctcttcac 300ccaagtgatt gctccttcaa ctgctatctg tgaaaatagc ctttgttatg aagaaattga 360ctctctctct cttttttttt ttttggagtt gcctaggctg gagtgcaatg gtacgatctc 420agctcactgc aacctccacc tcccaggttc aattgattct cctgcctcag cctcctgagt 480agctgggatt acaggcatgt gccaccacac ccggctaatt tttgtatttt tattagagac 540agggtttcac cacgttagcc aggctcgtct cgaactcctg tcctcaggtg actacccgtc 600tcggcctccc aaagtgctgg gattacaggc atgagccacc acacccggcc aaaaatggat 660tctctatg 668641170DNAHomo sapiens 641ctgctgggac tagatagtgg atgaagaaag aaggacgagg aagccgtggg gcagcctctt 60cacatgggga caggggatgg agcatgaggc aagggaagga aaagcagagc ttatttttca 120cctaaggtgg agaaggatca ctttacaggc aacgctcatt ttaagcaacc 17064253DNAHomo sapiens 642tcgggctgtt tgctcaggga aggcaagaaa gccacgtgct ggccctctgc ctt 53643283DNAHomo sapiens 643caaggctttt ttcagtagcg tcctatggat gtcacattgt acatcaaaca accttgtgat 60tataaaacga tcctgggaag gagcccctaa ctagggcaag tcagaaatag ccaggctcgc 120agcagcgcag cgctgtgtct gctgtgtcct ggggcctccc ttgttccgac ctgtcaattc 180tgctgcctgt cacgcgggtg gttctgccca tcgcggctgc gggtcaagca tcttcaaggg 240aaggacggac tggaggcctc accgtggact caactctgca ttc 28364481DNAHomo sapiens 644gcctcagctg tgtcggtatg atcttgtcct gatggaaaac gttgaaacag tcttccaacc 60tattctttgc ccagagttgc a 8164564DNAHomo sapiens 645ctctaatagg cccaaggtac aagctcagga ttctccgaat gaagttaagg tcccttgccc 60atcc 6464658DNAHomo sapiens 646tcagaaatat caccaagtga gtctacttgc aagatttaat caagatctgg ataaagtg 5864766DNAHomo sapiens 647ctttgtggat attataacat ggaacaagaa tgtaagaaga ggggacatta ccatcaaatt 60gagaga 6664869DNAHomo sapiens 648tattatgctg ataattggaa agaccatcta agggggaaag atcctccaat gacgaaggca 60ttctttgac 69649128DNAHomo sapiens 649accaccagag gtctgtatac ctgtacctgt cttccctgag agagagctgc accatcactg 60cgtatccctg tgactcctac caggattata ggaatggcaa gtgtgtcagc tgcggcacgt 120cacaaaaa 12865071DNAHomo sapiens 650ctgggctaca aggagccatt aggaaacata gacttctacc caaatggagg attggatcaa 60cctggctgcc c 71651194DNAHomo sapiens 651ctgcacccga cctatatata catttctagg tcctcatttt ctagaagtag ttccaatctt 60tttaccatcc tagctctcaa atatttaaag attttatcta ctaagtaaac attcattttt 120tcctgtatcc tatttattag ttatacaaat gcaaatagag gctcagaagc accaggcaat 180taaagggttg cagc 19465294DNAHomo sapiens 652cctgcaggcc ctttattcaa cgggaaacct caccaagaca gattagatcc cagtgatgcg 60cagtttgttg atgtcatcca ttccgacact gatg 9465374DNAHomo sapiens 653tgatgacatt tacatgatcg gagtaagtct aggagcccac atatctgggt ttgttggaga 60gatgtacgat ggat 7465428DNAHomo sapiens 654ttacaatgat ggacctcttg aaattcca 28655252DNAHomo sapiens 655aggctgatgc tctacacaag gaaaaacctg acctgcgcac aaaccatcaa ctcctcagct 60tttgggaact tgaatgtgac caagaaaacc accttcattg tccatggatt caggccaaca 120ggctcccctc ctgtttggat ggatgactta gtaaagggtt tgctctctgt tgaagacatg 180aacgtagttg ttgttgattg gaatcgagga gctacaactt taatatatac ccatgcctct 240agtaagacca ga 25265629DNAHomo sapiens 656tattcatcag tttgttgtgc ttgtcaaga 2965782DNAHomo sapiens 657ctcactgtga gcaaaatccc acagtggaaa ctcttaagcc tctgcgaagt aaatcattct 60tgtgaatgtg acacacgatc tc 8265872DNAHomo sapiens 658tgcaatgtca gctatttagg acagaaacat ccaaggccgt gtcagaactc aattacgact 60acatatgcat ta 7265963DNAHomo sapiens 659acgccaacta taggactcgt gcttctcgta cgctgggcta taatctatga aactgagctc 60cag 6366030DNAHomo sapiens 660cctcataaca agtctaactg gctctggaaa 3066147DNAHomo sapiens 661acagatgaga tattctacac attaatctac ttatctggaa tcacttt 47662109DNAHomo sapiens 662cacagcttcc ttgtcggagg ggaaaaggac aggtgatctg gggaaaacgc agctacacct 60ggagcaaggt ctcttcccgg cttggcaatc tcagctgtgc cggcgctac 109663104DNAHomo sapiens 663ctgctgcctt cggtgactat atgagaatgg aaacttctaa ggaagccagg ttgttagaat 60tgttaccccc tttactcaga gataacatag attatccagg ctga 10466429DNAHomo sapiens 664aattttcaac acagactccc tgcttctca 2966571DNAHomo sapiens 665tgttcaaatc tccatttgtt gacagacaaa gccaacaata ctctaaactg aggcctgcaa 60gtcatttcat t 71666138DNAHomo sapiens 666ttcacctcct acaactccga agaaaaccct tactgtccaa gaccgtcacc agcaaccatc 60cgcagtcatt caagtggaag ctttcacagc ttttgtacat tctctgtgtc aatatacaac 120tgagttacag actgtccc

138667366DNAHomo sapiens 667catcaggact tgtattagca ggttctggct agagagacta tctcctgtca tcacgatcaa 60ttaatgtttt ctggtgatca catcaggccc tatctaagaa gctcatggta tacaagggtc 120acccaaatag ctgagtgcag tccttgctca tatttccttc atcttaaccc cgcaaacaag 180aattaagatg atcccaataa aagaaaaatt gctcaggaaa ctgaaccttt ttctgaacca 240agcactgtca gcaaatctca ggtattagag caactatggt tgattgaaaa gtgtctcaaa 300atctgggcca agaatgattg ctaggtccat aagctaattt gtctggcctt gccatttacg 360taagcc 366668281DNAHomo sapiens 668tgggatggcc gttcaggaaa tcttctgttt gctttgcacg ctcctgagta taggacaaag 60cgctgttgtt taagaacata aataacaaaa gctttgttct tccaaaccga gagggaaact 120gtagatctat ccaaaatgac ttggtcttaa actgcctaag gatgacaaga atgaaatatt 180attttaggct gcccatcagc atccgtctct caatctcctg tcttggcttc agaaaacaat 240gactcaatat ggtctttttc tgacacattg cagccttagg a 281669128DNAHomo sapiens 669tgctcttctt ggtcccactc aaatgggaag ttctgctcga ggccagaaat agaaaacagg 60aagtcaacag aactgatttt cctaactgcc caaatgcaaa tcaccacact ccgttatgga 120tgagaatt 128670270DNAHomo sapiens 670ttgccctcac atacacataa gtttgtcatt gttcttcagt tctttgggta atctcttcct 60agaaactgca tctaacaaat agaccacatc cccaaattcc atcatgtcca aaaagaagca 120cggtatttcc atcaacaccc cagctgccat caccaagcca actcgcctga cttccattca 180cttactagca aacatttacc aagtatctgc catgttcatt ttgtcaatga gaatgacatg 240ggacttgttc ctctaggaga tcacagtcta 2706712253DNAHomo sapiens 671cctgctgccc aataacctga tgttgtcact ctcatattta aaacccataa gtgctgccgg 60gagcggtggc tcacgcctgt aatcccagca ctttgggagg ccgaggcggg cggatcacaa 120ggtcaagaga tcgagaccat cctggccaac gtggtgaagc ccagcctcta ctaaaaatac 180aaaaattagc tgggcggggt ggcacacacc tgtagtccca gctacttggc aggctgaggc 240aggagaattg cttgaacccg gaggcagagg ttgcagtgag ccgagattgc actactgcac 300tccagactgg tgacggagcg agacgctgtc aaaaaaacaa aacaaaacaa aaaacatatc 360aatgctgatg aaccaagtgc aaagccctga gcttggccag gcaacatagc ctggaaacct 420gacttttaat ccttactttg ctctattccc ccaacataca cacacttcat acaccacacc 480taaaagagac ttcccacagt tttccaaaaa tgactcacat ttatatttcc tgtttttccc 540tttgcccacc ctgccctctc tccctctgcc ttcatttttt taattaacct ctggaactca 600ggtgctcctg ctccaaggtt taggtcaaaa gttacctcct ccatgaagct ttctctcatt 660ctcccacaat gtgtgaaagc cccattctca gatttgctta gttgtgcatt tgtatattct 720accttgcact acagtcattt gtatatttat cttatggttt ctgtgcctta ggaaaggtac 780actgtcttaa tcatctttgt tcaatacagt gcctagcaga gtgcctcaag tataatatgt 840gctcaataaa taatagatgc atttttccat gcatattttc tactatatcg aagtggaaaa 900tatatccatg tgatatagtg aaaaatatct catgaagaga gatacagtga ggaaaatatc 960tcatgaagac caaaaagcag aaatccaagt tttttctttt cattactatc atcagtgatt 1020attaatttta tgtgtcaact tggttgggct tagggatgct cagatagctg gtaaaatatt 1080atttctggat gtgtctctca gggtgtttct gggggaaatt agcatttgaa tcagtagact 1140aaataaagaa aatctgccct cacaaatgtg agccagcatc atccaattta ttgacagttt 1200agatacaaca ataaggcaga agaaggtgaa ctctctttcc ttgagctggg acatccatct 1260tctcctgctc tgacattgga gtttctagtt cttgggactt cagattctcc cctgaagttt 1320ctcaggcctt ttggcatcag actggaagtt atgccattgg ctcccctggt tctcagacct 1380ttggactcag actgaattat accactggct ttcctggttc tccagcttca agatgacata 1440ttgtgagact tttcaacctc cataattgca tgagccaatt tccacaatat atctcctctt 1500atgtatctat atatttccta ttggttttgt ttctctacag aatcctaata gatcatctaa 1560ttgtttatct aacaagtatt ttcctcccta gacaatatgt tgggcactag ggacacaaaa 1620ataaaaacac agacatctgc actcaataaa cttacattca atatcagaga gattggcaca 1680gaatacaaat aaaatgagat acatgcaaaa taatatgaat tgcaaaatta cggcaattca 1740ccaccaacta ggtgtgtgac cgtgggaaaa tcacactgtg agctaaatat tagcaagttt 1800aaaatgcaaa atcagaggca gtctatgaat tggactttgc taatggcctc ctttgctgat 1860ggatggcaca ttggtgttag aaagtgctta tttttgcaaa ggtccattat tgatgcttta 1920attctaagga aattatgtag gcagaaacta aagaaaggtt aaaaaaacag cagctaaaat 1980tgatacttag acaataaaaa actaattata agtgatttat cagcaccact agataactac 2040attggtgaaa tttaaggcca tgaaatgcag gacaagcctc gtaggaagca aggtcccagt 2100ggatgagatg ctgtcctctg ggctcctaac cttccaccac tagtattcac catatctgat 2160tggaaatgtg tgcatgtgag tcggcctccc ctctatgatg tgagtaggga cctatttttg 2220ctcatctctg tatcctctac acacgatgct tgg 225367239DNAHomo sapiens 672ggagctaaaa gaagaaatag tcaaaatttt ctaaatgag 39673118DNAHomo sapiens 673ctgccttgta cttcatgcag gttgaacaga aatgttttct gagcatgtat tgttacagcc 60ctctgagatg gtataaaaga atgaaagaag acacgacctg ccttccagga gtttcaca 11867446DNAHomo sapiens 674agggaaaagc atttctaatg gaggagatgg ctgtggagag gagagg 4667535DNAHomo sapiens 675accttccacc ctttcactat gaaggaccct cacca 3567630DNAHomo sapiens 676agattgcata tgtattggga agctcctggg 3067792DNAHomo sapiens 677tccactttcc tgtgaggtca aatgcggtaa agggatgctc caaccctacc ctccatgtac 60ctgcctttcc tgtgattccg aagaaggggt gg 9267862DNAHomo sapiens 678ctattaatta atccagagaa gtgtgttgct ataaaatatt ctgtgaagca ttttcactta 60tt 6267926DNAHomo sapiens 679tttgaagaac tagagaaaat catcat 26680214DNAHomo sapiens 680gggatttgct ggcattgatt tcccaggatg gcaaagtgct aagaactaaa cctttaaagc 60taacaaaatg tactgatgtc tttgcaaagt atccaagacc aacaagaaag taatttccca 120cctcacccta ccaccaccca gaaaaggagc acagagatgg ggaagagagt ggctgcatct 180ggcatccagc cagaggagtc cgtgcaggga ttct 21468139DNAHomo sapiens 681gatgatgcag ctccctcaag tatcacatga agatagtgg 39682120DNAHomo sapiens 682cagcaatgta tgaggtccaa ggaccaggac caaagggaaa aacagccatc tcaccagaca 60cctgcctacg accagatgcg tcatctccaa tattagctaa ctccctggaa cctggactca 120683498DNAHomo sapiens 683ggcctctcaa tcaattacaa aactgagaat tctgacagtt ttgtgtattt cctctttgca 60tgtgatgtat atgtgtgtat ttgtatatat taaccatttt cctttttctc tcttcattat 120tttatgaaag ttgttgaata taaactctac aatttagcct ttaggtaaga gaatattcag 180tgggactttg atttgaggag tatttaagac agccagatga gactacgata actgttggaa 240ctgtgtgtct cctcatttgg ggaaaggggt gagaactctg catttctctg aagaacagag 300ttgactttgt gttatacaga gttcaaatat atatataaaa tggtgcatgt ggaagctaag 360aagccaaagg agttcaccaa gacagttatc aatatattgc ctctccgctc caaatccacc 420cttctttgcc ctgttccacg atactaatct ggctcctcgg tcagccagtg caatgtcatc 480tgttgctggt agagtgta 49868465DNAHomo sapiens 684ttaaaccagg agtgcgccgc gtccgttcac cgcggcctca gatgaatgcg gctgttaaga 60cctgc 65685118DNAHomo sapiens 685ggcttagatg gctccgagcc cgtttgagcg tggtctcgga ctgctaactg gaccaacggc 60aactgtctga tgagtgccag ccccaaaccg cgcgctgctc gggaccttag agcctctg 11868679DNAHomo sapiens 686tgttccgctg tttagctctt gttttttgtg tggacactcc taggatagaa agtttggtat 60gttgctatac ctttgcttc 7968727DNAHomo sapiens 687gcacccgtgt ggttgctaag gatgggc 27688173DNAHomo sapiens 688tatacaaggc tgcagtcgga tacactggta ttgtggacgt ggcctggagc tggacgagac 60atttagtgta ctttttgggc aattggagtc gtttgttatt ggtccttttt catttttaat 120atcttaatga gatgatttaa ggaagttact gaatctctgc tattaggcct atc 17368953DNAHomo sapiens 689gatctcaagt ttcaacacca cgttttggca aaacgttcga tgccccacca gcc 5369090DNAHomo sapiens 690gtaagtgttg gctataaaga cactgtttaa acacttaagc acttttgact cttaaaatga 60ctattggcat catcctacgt agctttcttc 9069157DNAHomo sapiens 691ctgcctcaga tgatgcctat ccagaaatag aaaaattctt tcccttcaat cctctag 57692208DNAHomo sapiens 692atgagactgt ctgaatctgg gttgctttgg acaagtgtac ttgttgatgg aattatttgc 60aaggtatcat cttaggtcag gaggggaata ggaacaaaga tgtagaagac attgttcctg 120tctgtaaaag cttatcacct agaggaggta agatgtattc atgaacattg aataagtccc 180attgtggaca gtctttctca caaggctt 20869370DNAHomo sapiens 693ctgaagagca ccagattgcg cacctcccct tgagtggagt gcctctcatg atccttgacg 60aggagagaga 7069474DNAHomo sapiens 694ctgttgcagt ctccttcaag cattctgtcg accctggatg ttgaattgcc acctgtttgc 60tgtgacatag atat 7469531DNAHomo sapiens 695tcttagtgct tcagagtttg tgtgtatttg t 31696150DNAHomo sapiens 696ttattctgtg ccctgttgac ttcattcact gttaacattt gacatagaat gattagttat 60taaatcaggg tgaagtgctt acctggtcag tgtaggctct tcagataatt ttgacttaat 120atttttgata ctccttgtgc atttacattc 150697773DNAHomo sapiens 697tcttaaagta tctgcgtaga cattcatagc aaagaattta tgacatatca gatagaaata 60cattaaaatg tagtgttttc ccagagattg atctggcttt ttttttttga tatacataag 120ataccacttt ataaagaagc tccatactat agaacctccc ctaacaggct taaaatacct 180tctttttttt tttttttttt tttgagaacg gagtcttgct ttgtcaccca ggctggactg 240cagtggcatg atctcggctc tgcaacctcc atctcccagg ttcaagcgat tctcctgcct 300cagcctccca agtagctggg attacaggca ggcaccacta tgcctggcta attttttgta 360tttttagtag atatggggat tcaccatgtt ggtcaggctg gtctcgaact cctgaccttg 420tgatctgcct gcctcggcct cccagtattg ggattacagg catgagccac catgcccggc 480cttaaaatgc cttcttaaag gaaaaatgcc aactccatcc ttaatctcaa ggaaatctga 540ttgtccaaat agatctgtta atatgtaaca tattaatagg taacttgctg tgtaaaatta 600taagccatat tttaaaaggt tttaaaaata cttattgtgc tccatttgtg atataatttc 660taacatttct gctctgtgat gggggtttat ttgtaagaat aagaggcaaa ggaatgttag 720catagcaaaa atgtgtttga atgagttaac cttttaatcg caaccctatg tga 773698269DNAHomo sapiens 698tgccaaaaga tcctgtcgtt gcataatcaa acagttggta ttctcgtgcc gttgttcaaa 60gtcatgtgtt tctttcattt ggtgctgaaa atttctgttc aatcattgac aaatatttat 120tgaacaccca ctctgtgcca tgtaaaacta tgtcaggtgc tggatatgtt gatgaatgaa 180acagactcta tccttataca atttgagtct tgtgggctca gaagtaaatt ctgtgaaagc 240tggacggata gtcgaattga gtgctctta 269699212DNAHomo sapiens 699cctcctaatt gtgggattgt cagaactgaa cacatatcat ttgattagtg catatttttt 60atagtacctg aaaaccaaga ttttgaaaaa attttcaaga cagagaattt tgataaatcc 120tgacattgac ctaattgaca taggtaaata tgtttgtata tgtgctaata attttctaat 180ttcggaacac gatgatgtta tgactattga tt 212700205DNAHomo sapiens 700ctaccagtcg taaagtgaca ttttttggtt attgttgaga ctgcttgccc gtgggctcag 60aagtgagatt tgcattattc ttctgttgga ttctgataga aaaaaagaca ttcactgtat 120aagaaaatgg atggactgaa ccaattagaa ttgataccag tgaaattttt atattgctta 180caattggtaa ccaagagtgc tgata 205701125DNAHomo sapiens 701tgttcgttct cgttgttggg atgcctgtat ggttgtggat ggaggaactt cttttgagtt 60taatgatggt gcaattgctt cgatgatgat caataaagaa gatgagcttc gaactgtgct 120tcttg 125702104DNAHomo sapiens 702tcactgctct acagtccgga agaaccaaaa atacttttca gtattcgaga accaatagca 60aatagagttt tctcaagcag tcgtcagcgt tgtttctcct caaa 10470344DNAHomo sapiens 703gagaattagt gctgttagag aaagaatact tatgaagaaa tctg 4470441DNAHomo sapiens 704gaaatttgag tcttccattg aacagagaat tggtagagaa a 4170526DNAHomo sapiens 705cattcaatat taacagggtt gcaact 2670684DNAHomo sapiens 706atgagatttc agttgatgat ggtccatggg aaaaacagaa gagttcaggg ctcaatttgt 60gtactggaac aggatcaaag gcct 8470762DNAHomo sapiens 707aatgtcttat tcttgggctg tagcagtgga caatttaaga agaagtatac ccactctaaa 60gg 62708269DNAHomo sapiens 708gctgagagct agctttgctt tataattttg tacttactaa aaaattaaat aacttataaa 60tggaggaaaa cttggatcag ttgatagatt ttgggggagt tagtgaaatt tcttgagggg 120attttcaatc gaatgctttt attttctgtg gcagtaatga tctggttggt ttatctcata 180aataactgat gctgctgctt tttgtgttct ttgatgtctc accttatgtt tttactaagt 240aaggacagca atggattggc ttctgatgc 26970961DNAHomo sapiens 709cccaacttct gccagtgaga gcactaaatg aagtcttcat tggggagagt ctgtcatcca 60g 6171032DNAHomo sapiens 710catttgctgc ttaaatccaa aatagttctc tt 32711109DNAHomo sapiens 711tggaactgga gaacacactt ttttagctca tcacatggct tttggcagaa ggcttcagtt 60cctcaccatg ttggtctctc caaagggttg ttcatgttat ctcttcctc 109712101DNAHomo sapiens 712tggaggcaga gaatcaggtt ataccttgaa gggactggca taaaccctgt acctgtggac 60cttcacgagc agcagctaag cttgaatcag cacaatagag c 101713158DNAHomo sapiens 713gctatatcta gctcagtatc ttggacttta tgggttcttg atagagtttg acttaattta 60agttacttgg gagattttgt acaagcacat taggtgtttc cgttataatt gaaaagagaa 120taaatattca aatctgtcat tgataaggaa gctatagg 15871478DNAHomo sapiens 714agggtcattt atgcctgccc gttcgatata cacattcctt tccagaagcc ttacagaagt 60tctatcgtgg tgagttca 7871566DNAHomo sapiens 715gctgctggca gcgagtaaag tcttggacag acttaaacca gttatagggg taaacactga 60tccaga 6671682DNAHomo sapiens 716ggaattgagg ttcgtctagt aaagaggaga gaatatgatg aagagactgt tcgatgggca 60gatgctgtca tagctgcagg ag 8271743DNAHomo sapiens 717tacagtggac ttcttgaacg acatcatatt cacaccaaaa atg 43718112DNAHomo sapiens 718aagcaaatcc aagtggaaca aaggtcatct aaccgcctct acaagtatta gtttatcttt 60ggtcatcaag tagccatatg cagtgtgtta aaaagtcatc aaggctgagg ca 11271939DNAHomo sapiens 719attaacacta atgattttga gccataagat tatatttga 39720196DNAHomo sapiens 720gaggcttttg gctaggcatt aaattttggc acaggctgtc taatctatta tagtatatct 60tggtaagtta acatctatta attaattttc acaatagcca aatgcttcct cagcttctct 120tttgtgagaa cataacgaaa attacaaagc aaggacaaaa ctatttaaaa actcttaacc 180cagtattcgt aggcaa 19672136DNAHomo sapiens 721atgtatctta ttttcctggg gcttgccgag agccag 3672233DNAHomo sapiens 722catctcaagc caaagttccc taacagtcaa cgc 33723403DNAHomo sapiens 723cccattgatt gaccagtgac ttattttgtg atatcagatt tctggtcaaa cattttacct 60ctactgtctc atgacctttc aaaggccagt aaaactatta ttacaattta cttgcatcat 120taagagatgt agctgttggc aaatgtgcaa ttgctattaa cagggtcctt gacacaaatt 180agaactctag atgaaacaaa actgacttgg aaaggatttt gacaccagaa acatacctca 240ttggtcaaaa aaaggtttta tttaaagctc tttttcacct gtcaccaggg atggggaact 300gaataaggaa aaaaaatttt aatgtagaac aaataagaag tcagcagttt ctgccctcct 360ctccatcatt ccaggtctca caactcggca acccttttac tgg 40372429DNAHomo sapiens 724gaaaaggaga gtgcccggtg ctaccatga 2972558DNAHomo sapiens 725gtacgttatt aaggagaaat gtcaggacaa ggggctggta tactgggtag tgtgtgaa 5872680DNAHomo sapiens 726gccttttcct tgctggaacg tggtcgttgg acactacgag cttgttttaa aagcacaggt 60ctttggtgct aagaaggaaa 8072737DNAHomo sapiens 727actgcgaggc ctagggcact ccggaaagtc cttcagc 3772834DNAHomo sapiens 728cgagcagcag cggtaccgtt acgcggagct ctcg 3472954DNAHomo sapiens 729ggcccacgat gacttgctac cgaggcttct tgctgggcag ctgttgtcgc gtgg 5473039DNAHomo sapiens 730ccggcggtag ggagctgagg caaggggccc gagcccaag 39731168DNAHomo sapiens 731ccactagctg gggcctccat ttcttccccg cccacctttc tcccgcgtgg ggtctcccgt 60ttcccaatcg ccacgctttc cccgccttcg tcaacgcctg ggtacgtccc cctagccgcg 120tgggccacgc acgtcctggc acttaacctc tgcccgtccg gcgcgaag 168732131DNAHomo sapiens 732aaagagctcc ggaaacttgc cctgaaggag atgggaactc cagatgcaca ctttgatacc 60aggctcaaca aagctgtctg ggccaaagga ataagcaacg tctcatactg tatccatgtt 120cggttgtcca g 13173394DNAHomo sapiens 733tcagttggtc acgtggttgt tcggagcggg cgagcggagt tagcagggct ttactgcaga 60gcgcgccggg cactccagcg accgtgggga tcag 9473471DNAHomo sapiens 734ctgtggcctt ttgcgaggtg ctgcagccat agctacgtgc gttcgctacg aggattgagc 60gtctccaccc a 7173581DNAHomo sapiens 735aggcgcacag cctctagacg actcgctttc cctccggcca acctctgaag ccgcgtccta 60ctttgacagc tgcagggccg c 8173636DNAHomo sapiens 736gttgggaggt gagtcgaggg actgccccat tggctg 3673769DNAHomo sapiens 737actgcccgcc ccctagcctg gcgctgggcc tccgggacaa gttggctggg tccgggcttg 60gggactgca 69738342DNAHomo sapiens 738ttgcctcgac cttccagcac tttggtgatc atgcaggtga tccgcctgcc tcgacctccc 60aaagtgctgg gattacagat gtgagccacc acgcccggcc tttcctaagc ttttttgttt 120gcacatgtgt gtgcacgcgc caggacacaa ggtaaaatgt attaatgtta gaagccactg 180cactgagtaa aggcatggcc acaaaaatta gggacatcta tcgacgaggc acaggcgcag 240acacggcagg ggccaatggg tagtgggcag tgggcagtgg gcagtggagc agcagttcag 300atgctgagtt tggcccagtg gtctagtcaa ccgcattaca ta 342739230DNAHomo sapiens 739caggaaagtt aagatgctgc tctttaggat ggacctgggc ataccctagt atctgtttat 60tttgcttttt ctggtgacta tttaatccag gacaatatgt ttagaaattt taaaccagtt 120ttagaaattg gtttaaaata cattaatttc attttttcag ctataattat tatgtgtgta 180tatatgtaaa atatagatat caagagtcat taactttagt caccttagtc 23074025DNAHomo sapiens 740tcttctgtgc ttcaccatct acata 2574131DNAHomo sapiens 741atgaagcaga aacaagaaga aatcaaagag a 31742153DNAHomo sapiens 742tgtagaaagc atggggctaa aagtattttg acataattta tccaaattta gcctggctat 60aatttctgta agccttgagt tagtcagagg atgagtaaca atagagaaca tttttaaaaa 120actaattacg gttgaatatt aagtctgacc caa

153743647DNAHomo sapiens 743gcactgacat tttagccacc ttctaatgaa tgggcttgaa gcagaactgc ttctactatc 60aggtaatggt tgagggggga tgtctattac acatgtactt tgttttgtgt aaagtatgtt 120ctggaaagtt acattctttt ggtgagtaca tgtaagtatt tgagggatat tcatgattta 180aggaggcctg aaatgaatct ttttgattag ggaaagaaat attttgcagt gtaaatgatt 240aaccatttct tccagtttac ctgtttggtg agttcatacc ataaatgtta cgatgtttgg 300ttttataaaa gagtacctgt aagtttttag tttctgtgtg gaagattttt tcagagagaa 360tacagatagc cttcttgtat tagaattttg tcatatgtgg tttgaaactg ttcattggag 420ctgaggaatt ttgttacgtt tgttttaact agatatgatt aacaaaatga ccatagcaag 480agcatgcatt gaaatgagag aagttacgtg tgtttgtgtc tagtttgggt aatatgattc 540attcttaaga attcttcaaa ctttattata atttttggaa ataacaagtt tgtcagttga 600ttaaaccagt gtcttgttca taggcgacct tacgcaatta tatagca 64774430DNAHomo sapiens 744aatagttctg tcccaagaag aactctgaag 3074530DNAHomo sapiens 745ctgcatctgg atctcttgtt ggaagagaaa 30746151DNAHomo sapiens 746ttcagctaag ctcttgaccc cagtctaatc caaaataatt gttgcaaata aaattcctaa 60aatgttacta tatgttttgg tagaattttt aattgtataa cttttttaaa gatccagaga 120tgtgaaaaag ttagatatgc gtactctttt t 151747101DNAHomo sapiens 747tgaccactta acatctacaa cttccagccc tggggttatt gtcccagaat ctagtgaaaa 60taaaaatctt ggaggagtca cccaggagtc atttgatctt a 10174825DNAHomo sapiens 748ttatgaattc tgccaattac tgtaa 25749183DNAHomo sapiens 749tgctgaaggt cacagtaaca tttggactca ttttgaattg ccttgaagac aggaagaaga 60gaaatagatg gtaggatttt tattaggcaa aattaggaaa ggttgactgg atagaaataa 120agcagctctt taaaaatatt gtagattgaa gagcaggatt tgtgacactc atatctgatt 180agg 18375038DNAHomo sapiens 750gtggaacaca ttatccttgt aaccctctgc gatacatg 3875178DNAHomo sapiens 751taaaataact gcgaagaaat cccaaacttt attacatttg ttgtttgaac tttattatat 60ttgttgacag tggtatta 7875239DNAHomo sapiens 752agaaaaacgg agaaaggcgc tgtatgaagc acttaagga 3975361DNAHomo sapiens 753gaatcccgtt gtgttgagag tcaattctat gctgcatgtc ctccatgtta tatacttgga 60g 6175437DNAHomo sapiens 754aaaggacaat gaaattgccc gcctgaaaaa ggagaat 37755153DNAHomo sapiens 755tgaatggtga acctctggat aattttgaat cactggataa tcaggaattt gattctgaag 60aagaaactgt tgaggattct ctagtggaag actcagaaat tggcacgtgt gctgaaggaa 120ctgtatcttc ctctacggat gcaaagccat gta 153756111DNAHomo sapiens 756tgccgaagtt tacctccact agttctttgt agcagagtac ataactacat aatgccaact 60ctggaatcaa atttccttgt ttgaatcctg ggaccctatt gcattaaagt a 11175750DNAHomo sapiens 757gtgaatagga ttttctcagt tgtcagccat gacttatgtt tattactaaa 5075846DNAHomo sapiens 758ttgtgtataa cttagaataa tgaaatataa ggagtatgtg tagaaa 46759106DNAHomo sapiens 759ggctgcggcc ggcacagcgc cagggcgagt gaggcgggtg gcgcggggga ggcggcggag 60taaagagagg ccgccggctg ggtccgcggg tcactccgag gcgcgg 106760158DNAHomo sapiens 760ctccttcgac gaggcgctgc agcgggtggg cgagttcggg cgcttccaga ggcgcgtgtt 60tttgctgctg tgcctgacgg gcgtcacctt cgccttcctc ttcgtcggcg tggtcttcct 120gggcacgcag cccgaccact actggtgccg cgggccaa 158761139DNAHomo sapiens 761cggccaacga cagcgcctcc gccactagcg ctctcagctg cgcggaccca ctcgccgcct 60tccccaaccg ctcggctccc cttgtgccgt gccgcggcgg ctggcgctac gcccaggccc 120actccaccat cgtcagcga 13976253DNAHomo sapiens 762gaagccggcg ggagaggacg atgctggctc ccaggcggac aagccgcgtg tga 53763112DNAHomo sapiens 763ttccggattc gcttatggtc tccagggtca aaggaaaggg cgaaccaacg tttgaaggca 60gcagcagctt ttttccagtt gcccaaatgg ttactcaaaa tgcaagggga ca 112764168DNAHomo sapiens 764gtgcacgaga acgtcccatc cagggaccca cggatacttc gttcctgcca gggtctcctt 60tgggccgaca gagttgtctc taattgagtg caggcagccc cggagcccgc cgagagctga 120ggctgggctg ggctcccggg gactcgggca gctatttcag gcagacgc 16876572DNAHomo sapiens 765gagggaagtg acctggaagc ggagcagagg tcgcagctgg cccctgctgg gcctagtctc 60gcttctgtcg tg 7276649DNAHomo sapiens 766gcgtgtgccc agcttagatc cacctgcagc tggctctgaa cgctggatg 4976725DNAHomo sapiens 767gctcagtgtc ttccgctgct gtctc 2576856DNAHomo sapiens 768gtggtgttct tgtcatcctg gaagccctgc cttgggccat gcctgaaatg cactaa 56769188DNAHomo sapiens 769tgactcatgc gcatggcatc aaggcagcca tgcccaggcc cagctcttac ctctggggaa 60gatagacagc tgacaggtca ggacacagac tttggtggca actgcccgag cacccacata 120gcaagttgcc gaggccaggg gcatgcagag ccaggaaaac ctgggaagat gcataaacag 180gcccagcc 188770213DNAHomo sapiens 770ctgacacctt gcgtgggaga cactaacagg gagaagagct gagcctcccc cagccttctg 60acctacagca ccatgtgatc atgaatatgt gttattctaa gccactaagt tggtggtaat 120ttgttatata gcaatagaaa acagatgcat taagtttgtc tacaatgccc atgcctgcag 180tcatattctt tggcttccta gaaggtgacc agc 213771428DNAHomo sapiens 771ccactgattt catgacctaa ctagaaaaac ttagactcgc ttttggccat ggagacatac 60atttccaaca aaattttact tctgcataat aattatttct taaaatttat tacatcttat 120ttttttatca attatgatct aaagataatt gtaattataa cccaagcaga aaaaatccaa 180tatttagaga cttattgcca caggaaaatt ttaaaaatta aatgtcaatt tatatatgta 240acttattgta catagaagta tggtgacaaa acctataaaa tattttctac acgaaataca 300ttacattaga ataaaagtct gtggaaatga aaataagagc tcaaagagaa aaaaattgat 360gtcaaatttc agactattaa agaacagtct gtttatagca attggacacc tgatagcata 420taatattc 42877296DNAHomo sapiens 772tgtctgtgtc aatgcgtgga tgctggacct cacccaagcc atcctgaacc tcggcttcct 60gactggagca ttcaccttag gctatgcagc agacag 96773971DNAHomo sapiens 773ccaagtgcgt agtatcccaa gtatgtaaaa ctggttcagc attctaaagt caattaatgt 60catccatcaa tcacatcgac aaactaagga agaaaaaatg acatgatcat atcaatagat 120acagacaaag tatttgtcaa aatccaacat ctatatatga caaaagctct cagtaaacta 180gaaatatagg ggaacttcct caacttgata aggaatgtct attaaaaaaa ctacagttaa 240catcatactt aatgacgata aactgtacag aagctttctc actaagatca gaaacaagcc 300aaatatgtca tctctaataa cttcttttca atgccatgct agaagccctc gctaatacaa 360taaataagac aagtaaagaa aataacaggt atactgattg gaaaggaaga aataaaaact 420gtctttgttc acagatgtca tgattgtcta tgtagaaaat caaaagaatt aacaacaaca 480acaaccaaaa aaaaaaactc ctgaaactaa taagtgagta tagtgaagtt gcagggtaca 540aggctaatac acaaaagtca actgctttcc tatgtaccaa caatgaacaa gtaggatttg 600aatttaaaca cataatgcca tttacattag caccacaaga atacacaaca cttagatata 660aatctaacaa catatgtaca agatttatgt gaggaaaagt gcaaaactct aatgaaagaa 720attagagatg atctaaataa atggagagat attcaacatt catggatagg aagactcaat 780attgtcaaga tgtcagttct tcccaacttg atgtatatat tcaatacaat actaatcaaa 840atcctacaga gttattttgt ggatattgac aaactagttc taaagtttat atgtagagac 900aaaagaccca gaatagccaa cgcagtactg aaggagaaga acaaagccag aggactggca 960ctacttaacg t 97177489DNAHomo sapiens 774atcctgcctt ggtgttggcg tcactggggt tgtggtggcc tttgcaccaa acttccctgt 60gtttgtgatc ttccgcttcc tgcaaggtg 89775141DNAHomo sapiens 775tgacagaaat agtaggttcg aaacaaagga ggattgtggg aatcgtgatt caaatgttct 60ttacccttgg aatcataatt ctccctggaa ttgcctactt catccccaac tggcaaggaa 120tccagttagc catcacgctg c 14177697DNAHomo sapiens 776cccgttggct gattactcgg aagaaaggag ataaagcatt acagatcctg agacgcattg 60ctaagtgcaa tgggaaatac ctctcatcaa attactc 9777751DNAHomo sapiens 777ggaaaaatca taggacatat taaagaagaa atgattatga agctctatta g 51778136DNAHomo sapiens 778cggagaaggt tagaatggat ttgaaagaat gtggttggat tcaaagaagc cctaggagac 60ccaacaagtc agcatttttc tcttgtgaaa agaaccacct gccaacccca gcctgttcca 120ttgctgacat cagagg 13677967DNAHomo sapiens 779catttgccaa ggtttctggc tggcctctgg ctttgttgaa gagatagcta gcactagcag 60ggagaaa 67780203DNAHomo sapiens 780aggctctctg aacatacaaa cagtataact gttgttcact aaatggaaaa atcccaaaat 60caaaaaccaa tgcaaaacag tgaagtggct tgagctccta ggaggttagg tagaaattaa 120agagaatcag tggatgggta gaattttaag cagtaggtag ttacccaatg tagaacgagg 180attagcttag acacctagtc tgg 20378146DNAHomo sapiens 781ctgcccattc ctcccgtttt tgtatgggat atactcatag agaata 4678239DNAHomo sapiens 782gatgaatggt gccaattcta ccagcaaagc cttcatctt 39783143DNAHomo sapiens 783tgtcattcaa caccgaaaga tattgagggg aggatgttct cctacacctt taattgaaat 60ggaaattcaa tttaaaggtg ctttaaagaa tgagattgca gccttggagc aggctaggca 120gacttgtggg atgcctcatc aga 143784115DNAHomo sapiens 784acctggttct tcatctggtc ctgagtcctt gcccattcta ctgtggctct ggccctgctt 60cattcctgcc tgattcatcc tcagaaggca ggtttctgtc ctgtccctac acatc 115785191DNAHomo sapiens 785aattactgtg cttctcgact gtggataaat gagaaaatac tcctctctgt gaacgcgctc 60cttcgtggag acagtaatga gtacaacttc cagagctctg cgcagccagc aaccctggca 120ggagtccctg tgttattcat aacccagagc tgtgttgcca tggcagtact gcttgctaga 180ccttggaccc a 19178678DNAHomo sapiens 786gtgtgctact ggcttatggc tgatacgtaa gagaatctca tctatctcta aatgttctgc 60cttaagccgc acaaagga 7878737DNAHomo sapiens 787tgtgcagaaa atattctgca aatcaagaac cagaaaa 3778839DNAHomo sapiens 788aaatggagga aattccgaga tgacagtggt tttggttct 3978986DNAHomo sapiens 789gctctttgag aatgtagtcg ggacttgccc cagtcaccct tgccctgaga actcagtgac 60tggggctaat gtcaccctgg ctgtcc 86790109DNAHomo sapiens 790ggagacacct accaggaatc tagtgggaca aggtttcagg gatcctggaa tcctgcccac 60acccaacagc tggaacagtt ccctcagctg gcgagtggac aggtggtct 10979193DNAHomo sapiens 791gatgttaaag accatgttcc catagaaata attcccaaag cattcagaag actgagaaga 60agtgatgata agaattgttc tgggcaggag tgt 9379226DNAHomo sapiens 792tttcaaaaat tgccgaagta ctacag 2679348DNAHomo sapiens 793actaacctct gcagtttaac cttgagcgat accttttccc atgaatag 48794120DNAHomo sapiens 794agagtgtcga tactaggcaa caagcctctg aacagatagt gttacccgga acatcaccct 60tttctccctt tgcttcaaat caaaaccagc atcccccatt tagacagcat aaaaggtatg 120795174DNAHomo sapiens 795cttcactgag acacaaggaa acttttgggg atcatggaaa gggtccgtac cacggttgtg 60gtggtggtta taagactata tatttgtcaa aagtcttcaa agtgtgcact tagaattgct 120gaagtttatt gtacataaat tacatgtaaa tatcataaag tgcatgtaaa tggt 17479680DNAHomo sapiens 796cagatgagga agttagtaat ccatcctttt tagatctggt gagaactccc caaatgagga 60aatgcacact tattcttatg 80797202DNAHomo sapiens 797cgcagtggtg tatcaaggac ttgtcatgcg cctgggaatt atagggggca acctctatat 60agactttttc atctcgggcg tggtggaact gccaggagct ctcttgatct tactaaccat 120tgagcgcctt ggacgacgcc tcccctttgc ggcaagcaat atagtggcag gggtggcatg 180ccttgtcact gcgttcttac ca 20279838DNAHomo sapiens 798tatttggtaa attcagaatt gtacccaaca acattacg 38799102DNAHomo sapiens 799gtttcgctct gttcaggtct gtgtgatttt gggggaatca tagccccatt tctgctcttt 60cggctagcag ccgtgtggct agaactacct ctgatcatct tt 102800266DNAHomo sapiens 800ttcttaagag ccttcatcta cattctttgt actaaaagag acctataata attgttaggt 60tcaataatga taatgatagt catttatctt attataataa ctatttcatt gataattatg 120atattaattt catcttatta taataactat ttcagttttg agagccaatt cagttataat 180gaatggtttt aatttacttt atattaaagg gtgctgataa ataatgttca attagcattc 240tttgggttct gagttaaatg ctgtga 26680151DNAHomo sapiens 801cagaaagtgc tactgtccag caaagacaga gtagtccagg agacaagaca c 51802114DNAHomo sapiens 802atgaccttca ggactgcagc ccacagccca gtggcaggca ggcggggcct gagactgcga 60ggggagacag ccgaatttct aaaaactcag cgacaacaga atgtgataac tgct 114803284DNAHomo sapiens 803ttcaaagcaa gaggatgccg catcctcaag cacctggtgc tagaggatgg agtgcagttg 60tgagctgggc ctgaagagag gtggtgccag ggcagggcag ggactggatc cggaagggcc 120tcaaggacat gccaaggctt tgctctttat acacacagca gtggaaagtg actggacagt 180ttcaccctga ggtggacaga gctggccttg cattgtagaa acacagatat gcaagtgggt 240tggaaggacc ccccagcatc gtccctctga tggtagatat gcaa 284804332DNAHomo sapiens 804tttgtaagcc agtcatcaag cacagatatc atcaaaaagt aaagaatatg aaatatatga 60gaaatagagg caataaatgc ccaacactca tcagtcccta attcagctac tacaccttca 120gtattacctg tgctcctgag attgtgtctg ctgcatcttt atggtggaag ccccattgat 180ggggctcctg catcacttcc cagtggccca ggcagggatg ttgtgtcagt agcctgaagg 240gcccacagtg ggagcattta aaccatgcac attggcagat gctgccaatc agggcttgat 300tgcccaaaga gggttgttag gcatttacca gc 332805101DNAHomo sapiens 805actggaggaa gggttgatcc ctacagtgag gagcccaaag agacaggcct aggagaaggc 60tggtcccgga gtagacacca ggacaagctt tccactgtaa g 10180649DNAHomo sapiens 806aggggcaggt aagtgagagt gtcagtgagc gggcgcagag gggactccc 4980725DNAHomo sapiens 807tggaccctaa gaaggaactc agtca 25808202DNAHomo sapiens 808tatacagggg ccgtggtgct actcagggtt tgaggaaggg agagaacctt tgaagctgtg 60gtaagggaga gctggggcat tgatctggga tgcagaggtt gctgtggttg agagctactc 120cagtgagcaa catgatggct tcagagtgag caggccccat gggagagggc ccagctgtgt 180cttcctggag cggtaacacc tt 20280977DNAHomo sapiens 809gtatcctggc atccatctgt ggtggccttg tgatgctttt gcctgaaacc aagggtattg 60ccttgccaga gacagtg 7781028DNAHomo sapiens 810gtactgtaca aaattcaatg caccctaa 288112408DNAHomo sapiens 811ccctccagag ctagataaga gtatgcattg ttttttttaa tgtggttgtg aagagagaag 60cattttcaca taaggtgcta agactcagaa gtgatctaaa ggcaggaact gctgatgtgg 120gaaagtggaa attgctggga catacagcag caggggatta acagtgtggc ttactctaca 180gagtgaggat gcgtcaggtc tgtctagatg gaatggcata ggcaggtttt caagactgac 240tacaaagtga aatgtcactg aacaacatgt tatagtattt ataaaaaact aaaaccaaag 300gtgttttctc tctgcagctg gataggaaga cagatgacac acagatgata gataataggt 360agatgataga taataggtag atggatgata gatagatata atagatgata atcatagata 420gataagtgat agtagataaa tgataaataa tagatgatag atgatagata gatacagata 480gataaataga caggtagatg ataggtaatg tctggataga taggtggata gataaataga 540taatagatga tagataataa acattagtag gaagatagag agattgagtt ttggaggggg 600gtgtttaaat agggtataag taaaactaat acccagccaa tatattaaca tgaggagtaa 660tgtcaagaaa aattcacatt acacaaattc tttctaattg tttgaaattt tttcattaaa 720acatagagat atgaatatga gaatgtatag tacaagatgt aaaatattaa tatgtgccct 780ctgtggacac aaatgggctg ggaagagggg tagggaaggg aggaccatca ctttcttgcc 840agagacttcc atactgtttg attttcttta aaaattagaa cacgtagtct tgtgttgctt 900gtgtagtttt aaaaaatgat gtaacagcta atttaacaac taaaaagcaa tcttaataat 960gacttaggaa ttaagaacat ggagctctaa atatttttaa tatataaaaa atcctgagga 1020acagctttct tccctttgat tctattccac tgactgcctt ctgtttacac aatgagagtg 1080atgctttcat tctttatccc caaaccaatc aggatcagat ttgcaaactc atcaggaaaa 1140aatggaagaa aagggagtcc tctgaaatca agacttttct actgcttcag taacattaaa 1200aataaacagc taggagaggt ttttttgttt ttgtttttgt ttgtttttgg cttggggagt 1260gtgggtggaa gggggttgtc taaatggtgt gcaaggaaaa tcaataccca actaacatat 1320aaacatgaag gattatacca gcaaaaattt aaggtaccca gattctttct aatttttttc 1380tgtttataat ttttcataat gaaaagttgg gtacattaat taattatacc tagtctctat 1440acatgaaaaa aaatatagta gaagtatggt ttacagtgct acaatttaag cacattaatt 1500gtgatccatg gttatttact ctacaaaaat tacttagtgc taaattacta aaacttgcta 1560gcatttccct tttaaaaatc acactggatt attttatcgt ttctgctggt ttttgttcat 1620gttaacagct catttccaaa tatatgttaa ttcagtagaa gttcataaag aacttaaatg 1680ctataatgct aacaaacccc tgtatcagag gaaccagccc ccaatatttc agcataggtt 1740ctattttcca taagtgttgg ccagctgaga aataaaaaga gtacaaagag aggaatttta 1800cagctgggcc gctgggggtg acatcacata tcggtaggac tgtgatgccc acctgagcct 1860taaagccagc aagtttttat taagggtttc aaaaggggag ggggtgtaag aacagggagt 1920aggtacaaag atcacatgct tcaaagggca aaaaggagaa caaagatcac aaggcaaagg 1980gcaaaaacaa acatcacaag acaaagagca aaagcagaat gactgaaaag ggtctatgtt 2040cagcggtgca tgtattgtct tgataaacat cttaaacaac agaaaacagg gttctagagc 2100agagaactgg tctgacctca aatttaccag ggcggggttt cccaatccta gtaagcctga 2160gggtactgca ggaggccagg gtgtatttca gtccttatct caaccgcata aggcagactc 2220tcccagtgcg actgtttata gacctccccc taggaacgca ttcctttccc agggtcttaa 2280ttattaatat tccttgctag gaaaagactt cagcaatatc ttccctactt gcacatccat 2340ttataggctc tctgcaagaa gaaaaatatg gctgtattct gcccgatccc acaagcagtc 2400agacctta 240881260DNAHomo sapiens 812ccacattcct gtaaatgtgg caggaataag aaaaccccag tttcccgctc tcacctttga 6081325DNAHomo sapiens 813tgtgccttgc agagatgcac gtgtg 25814497DNAHomo sapiens 814atctggtcaa gggactaagc tcctagctga ccattcattc tgaagattgc atggaggatg 60aacatctggg aatcctgtta atgagaaggc tgaatcacag gcacctgggc caaagggtgt 120gagcattcat gttctctgct caccttggtt tccgcacacc ttcgcaatgt gaacaggtca 180ggagtccctc ccgtccacct cctctgtaac agctggggtt ccaggcatgg tttaggccct 240gttccagcaa taagaaccaa tctgctgtac aatctgagga cttggctctg ttatttacaa 300aatgatgctg tggttctgag attatttggg acatttttgg ctctccttta gtggacacct 360agagccacag attcccttct ttactaaaca aatcccatgg attctgattt ctgggtctta 420ggattttaaa agtgaaggga

tatttttctt atatttgtga gttcagttcc gatggtgccc 480gtggtcaaaa gcgaaaa 49781590DNAHomo sapiens 815attgctgact catggctgta tctggcctaa tattgttctg gttaatccat ctctgactca 60tggccatatc tggcctaata ttgttctggt 9081626DNAHomo sapiens 816gtgggttctt gtgactgtac cattca 26817108DNAHomo sapiens 817gcaaacagca attaattagc taatagaaca acaaaaggcc ccatatcctg tagccaattg 60aagatctgag tttaatcaga ccagtgcttc aaaatgggta gagccttg 10881838DNAHomo sapiens 818ctgtcctttg catgtgagtt tctgctggat cctttcat 388191183DNAHomo sapiens 819tgctggctac aatttggaac tgtgcagttt aaatatttat ttattttgtt ttgtttttac 60tctttctaat ttggatatta ggttttgctt catctgtgtt ttttttctct tactcagtca 120ataaccatat ctccaaacta aattaacgtt actaaagtgg ggaatttccc cttcctatat 180tctcataagt gattgagcat ctgtcctcat ataggacttg ctgccttgga ggggaggggc 240cagacctggg aaaaagagga gccatgaata actctgcttc ctacatttgg cttcttctct 300tcctccatat ccatgattta tatatgtgaa ggaagaacaa gaaataactt aataggccat 360ttgtcaatga gagtacagtg taggaagggt ggaaagtgaa tataaaatct agattggggc 420ttctggtttc ctgttcagcc tataaggagc ttagaatttg ccactcagtc ttgacaacaa 480gtaaaatgct gaacaaactg aaaaatcaat aattcttctc agatccataa gagaagtgag 540attacagggc aaactactac cttcagcatc accccgcacc cccaacccca ctaaatagaa 600agacaggaga atacagagaa tcataacaca ggcgcagaaa cctccttgag agagccaggg 660tagataaaca tgaactgtaa ttgatgaatt cctggaggat cactgtggat gacctgaagg 720attaaaaact ctagagggac tcactcaaag gagggcccaa gcttttgtga tttttttttt 780tttttttttt ttttttgcca cctgaagctc tacaaggttc caaaggtgaa tattaaggaa 840aatccctcat gctctggcag ccagagggga aaaggaacaa ttttgaaata tgccagaata 900tcgttcttaa caatgtctgc cctcaggaga agatgtttaa ccagagccta atcttctggg 960gttttctgag agcctcattg atctggggga agggaaatac caactccagc cccttctagc 1020cttccaagtg gagaaagaga aacaccaaat tctagcctcc tctagctttc aacttggaag 1080aagggaaata cccagctcca gccccctcta gcctttctcc cctagttcag aggagaggga 1140tagagaagca tttgtgaagt tcaccgttta gagacatagg ttc 1183820417DNAHomo sapiens 820attaatggca gacaccacag atccaggaaa ctcaaaggaa atcaagcaag ataaacataa 60aaaagtatac ctagttatat cgtagtcaaa ctacagaaag ccaaagataa aggaaaaatt 120ctgaaagaag agtgggggga taatgtctta ctatagtaaa agagcaatga taaaaattac 180accctacttc ttttcagaaa ccaggtaagc aagaagaaag tggaatactt aaagtgtcaa 240gaaaaaaaat ccaatctaga attctatact gtgcaaagtt atcatttaaa agtgaaggag 300aaataaagac tttgttagac aaaaattgag ggaatttgat gccttgtaat aaatgttaaa 360agaaattatt tagagagaat gaaaatgatc taggttagaa atccagatct acataaa 41782139DNAHomo sapiens 821aggtactcat actactcatg aagtgataca gtgttattt 3982257DNAHomo sapiens 822catatggaga ccttttccct acaaaacact tttttgagaa ttagcaaagc atggtgg 5782392DNAHomo sapiens 823tggatgacta tttgggtggc aagccagtgc agaatagaga acttcaagga tatgagtcta 60atgactttgt tagctatttc aaaggcggtc tg 92824106DNAHomo sapiens 824ccctccacac gtgttcagtt aaagtgtgag gaataccctc cccagacaaa catcacagat 60ttccgaaatc aaacacgctc cagcaagtgt tctgcacacc ccactg 106825148DNAHomo sapiens 825ggcgtggcat ctggattaaa tcatgttctt acgaacgacc tgacagccaa gaggctccta 60catgtgaagg gtcgtagagt ggtgagagcc acagaagttc cccttagctg ggacagtttc 120aacaagggtg actgcttcat cattgacc 14882632DNAHomo sapiens 826aagctttttc atttattcgt ccagcagcat ct 3282738DNAHomo sapiens 827gttagtatag aaacagcact cctcttctaa aaagatac 38828106DNAHomo sapiens 828ggtgtggttc ctcgtgcaac aaatatgaac gtctgaaggc aaaccaggta gctactggca 60ttcggtacaa tgaaaggaaa ggaaggtctg aactaattgt cgtgga 10682935DNAHomo sapiens 829tggcttccat atggaatgcc gagtatgtca gcctg 3583074DNAHomo sapiens 830tcttagggga aaagccagag cttccagatg gaggtgatga tgatgacatt atagcagaca 60taagtaacag gaaa 7483129DNAHomo sapiens 831gggctgccaa acaaattttc gtatggaaa 2983281DNAHomo sapiens 832gtaaagatgc taatccccaa gagaggaagg ctgcaatgaa gacagctgaa gaatttctac 60agcaaatgaa ttattccaag a 8183333DNAHomo sapiens 833ccagaaggag gtgaaacacc aatcttcaaa cag 33834121DNAHomo sapiens 834gcttcgggaa agtttatgtc acagagaaag tggctcaaat aaaacaaatt ccctttgatg 60cctcaaaatt acacagttct ccgcagatgg cagcccagca caatatggtg gatgatggtt 120c 12183598DNAHomo sapiens 835cgtgtagaaa acaatggtag gatccaagtt gaccaaaact catatggtga attctatggt 60ggtgactgct acatcatact ctacacctat cccagagg 9883642DNAHomo sapiens 836tgcgttcctg actgttcagt tggatcggtc ccttggagga ca 42837147DNAHomo sapiens 837ggcaaagagc ctgttcacct actgagtttg ttcaaagaca aaccgctcat tatttacaag 60aatggaacat caaagaaagg aggtcaggca cctgctcccc ctacacgcct ctttcaagtc 120cggagaaacc tggcatctat caccaga 147838121DNAHomo sapiens 838tcctgaaact gccacaaaat agtggctaca tctgggtagg aaaaggtgct agccaggagg 60aggagaaagg agcagagtat gtagcaagtg tcctaaagtg caaaacctta aggatccaag 120a 12183976DNAHomo sapiens 839aaaaagacta ccagacctca ccactactgg aaacccaggc tgaagaccat ccacctcggc 60tttacggctg ctctaa 7684047DNAHomo sapiens 840aagagattcc aggagagttc acccaggatg atttagctga agatgat 4784140DNAHomo sapiens 841atttatttgg attggcaaag atgctaatga agttgagaaa 4084294DNAHomo sapiens 842gtaagctcaa tcgatggacc attatagcag taaccgggca ccattatgac cgagtgtctg 60gcttgctctt tgccaccatg tcttacaaaa atac 9484339DNAHomo sapiens 843gaggacacca attgtcatca taaaacaggg ccatgagcc 39844750DNAHomo sapiens 844acaaggcagt tatctcattg ctgttttggg agaggaacgg gaaaagcttt ttgcttattt 60gtcttttgaa aattaaggct gggcgcggtg gctcacacct gtaatcccag cactttgaga 120ggatgaggta ggcggatcac tggggtcagg atttcgagac cagcctggcc aacatggcga 180aacctcgcct ctactaaaaa tacaaaaaaa ttagctgcgc gtggtggtgc acgcctgtag 240tccctgctac ttggaaggct gagacaggaa aattgcttga acccaggagg ctgaggttgc 300agtgagccag gattgcgcca ccacactcca gcctgggcaa cagagactct gtctcaaaaa 360aaaaaaaaaa aaaaattaac ctcaaccaaa cgcctatttt ttaatgctta gttttggctt 420gaaattcttc ttcacctgga gttttcttac gttaatacat taaaataacc tgaaggaaac 480tttcgttatg ggccaatatt agctcttatg gaaactgatt tatatctttt ttatgacctt 540tcaaaagtaa aatactatgc ataatctaga aagatttgtc agataggaaa ttttataatg 600cattagccat tagtcagagt tgttttttaa catgccagag aaaaagttgt aatgccttgg 660aagttattct cttttctata gattgtgttc aaaagatgtg tatacttgca ataaggttta 720tgttaaggtg gctttaacaa ttggttgcta 75084554DNAHomo sapiens 845gaattgtatt gttatccact tagatacatg tacatgtaca gtacatgttt aata 5484699DNAHomo sapiens 846aaacactata aagtggcggc gaataaggtt cctcctgctg ctctcggttt agtccaagat 60cagcgatatc acgcgtcccc cggagcatcg cgtgcagga 9984734DNAHomo sapiens 847ccgacgcacc aaggccggcg aggggagggc gtag 3484876DNAHomo sapiens 848ttatttgttg ctttcgggca ctggcttatt ttctctatga ttgcgggaat tattgttctg 60ggcttcttta aaacag 7684975DNAHomo sapiens 849gattctaccc gcaccatgct gcttgtgggt ctggtagaca aaaactccgc ttcattcgga 60agctggcgtc ctcag 7585028DNAHomo sapiens 850ctacatctac atctttatgg tattctca 2885136DNAHomo sapiens 851ttagggttcg gatcccaaat cggcagaaga atgaca 36852176DNAHomo sapiens 852gcgggagcta taccacgaag agttcgcccg ggcgggcaag caggcggggc tgcaggtctg 60gaggattgag aagctggagc tggtgcccgt gccccagagc gctcacggcg acttctacgt 120cggggatgcc tacctggtgc tgcacacggc caagacgagc cgaggcttca cctacc 176853208DNAHomo sapiens 853gttctactgt tgtatagtgc tatgtggtga atacagttaa caataattta ttgtatattt 60tttcaaagct agaaaaggat ttcgagtgtt cccagtacaa ataagtgata actatttgag 120gtgattgatg tgctaattac tctgatttga tcattacaca ctttatactt gtatcaaaat 180atcactctgt agccaataaa tatgtaca 208854222DNAHomo sapiens 854tttgttagcc attaaagcag tttgaactta tcctacccat cctcttttcc atccctcagg 60agtaggggac atatatgtaa tattgtagcc tgggggtggg gagtgaggat gaggatggat 120gtgtgagtct ggtttgtact catcagtcct cactaatcta taaccttcgt tgaggtgtag 180tcattccatt aattcttgag ctttcggctt tggcctctgt tc 222855366DNAHomo sapiens 855agccactact gcattcttct caggaactct gctttgtttt tcccagacta ccctagaatt 60gtgggacacg gtatcctcat cgtaccagtg ccccttggcc cagtggcttg gatgctaccc 120tcagtcattt ctgctctaat gcttaggctc atggaggggt gtaggacaaa tcaattggaa 180gggaagtgtg ctgggctctt ctcaaagatt gattgctttg ggttagattt cctacttttt 240tcagtcttct tttttacttt ttgaaccaga caaactagtc ttacaccacc tcacattctt 300gcctactctg tgtttcctgc aagatacact ccagccccta agacccacac cgtactgctt 360aagatg 366856197DNAHomo sapiens 856agctgctgtc ccttagtatt gaatatctct attttctttt aatcatagaa ttcactgata 60ttttagcaga taatgtggcc gtccaggcag gcatgagatt tctcagcctt acttcaactt 120gattatgacc atgtgaccca attctgacat ttgcctaaag gaaaatttac ctaaaaaggc 180gttttcttgc tatggca 197857212DNAHomo sapiens 857ttctgaatgc atcacggcaa agatgcatgt actcatgaag cataaaatta aaaatatgat 60acattcacta catgaaaata tgatatacgg tttttcttca gtatccgcgg gagattggct 120cgaggaaccc catggatacc aacatccttg aatgctcaag tcccttatat aaaacggcat 180agtatttgca taaaacctat accattctcc tg 21285867DNAHomo sapiens 858atggtgtctg tcctgctgtc tctgctgctg cttctgggtc ctgctgtcct ccaggagacc 60cgagatg 6785968DNAHomo sapiens 859tcatgccttg caggaaaggt ttggttgtga gatccagaat aacagaagca ctggagcatt 60ctggaaga 6886058DNAHomo sapiens 860agatgttctt cacggtggaa acggcactta cctgacctgg ttgttggtgc atgtgccc 58861276DNAHomo sapiens 861gaggcagccc tttcttatgc agaaaataca atacgcactg catgagaagc ttgagagtgg 60attctaatcc aggtctgtcg accttggata tcatgcatgt gggaaggtgg gtgtggtgag 120aaaagtttta aggcaagagt agatggccat gttcaacttt acaaaatttc ttggaaaact 180ggcagtattt tgaactgcat cttctttggt accggaacct gcagaaacag tgtgagaaat 240taagtcctgg ttcactgcgc agtagcaaag atggtc 276862616DNAHomo sapiens 862cttttactct gaactaggtg ggcgcatttc aaaaattcgg atgggaaaaa gcctggaaat 60tccagtgaat attcagcaag gccctctttc attgtacagg gatcaaattt cctcctcttt 120tttgtgcccc ctcccacttc tacaagttat cccctgtggg gaaaacagga tgataatcaa 180aactctgggc tgatgttttt ccaacttagt gtctattgga atcaatctta aatcagaagc 240tttttcagaa aaataatatt taggccagaa ttagagttga gtgtattttt taaaaatgat 300taaggcttgg ttgtgagaaa tattacctgt accagctggg aaaaataatg tcatcactaa 360ctaaaagata attaatttga gagaaagtgt taagagaggg agagtaagga agagaacagt 420taagaggagg cagaggtgag ggcagtagta aaaatctcta aaattttaat ttacagccaa 480aattcttcat gtgtaaattt gtattgattc agatgcagaa atgaaaaaaa aacacctttg 540ttttataaat atcaaagtac atgcttaaag ccaagttttt atctagttta ttctagtact 600tagcttgcct ggaata 616863268DNAHomo sapiens 863tggaaaaaat ccttagccag ggctcagaga tgaagcagtg aaagagacag gaattgggag 60ggaaagggag aatggtgtac cctttatttc ttctgaaatc acactgatga catcagttgt 120ttaaacgggg tattgtcctt tccccccttg aggttccctt gtgagccttg aatcaaccaa 180tctagtctgc agtagtgtgg actagaacaa cccaaatagc atctagaaag ccatgagttt 240gaaagggccc atcacaggca ctttccta 268864165DNAHomo sapiens 864tatcatgcca actactgcga gggtgagtgc ccgagccata tagcaggcac gtccgggtcc 60tcactgtcct tccactcaac agtcatcaac cactaccgca tgcggggcca tagccccttt 120gccaacctca aatcgtgctg tgtgcccacc aagctgagac ccatg 16586531DNAHomo sapiens 865ggaaaaggag cagtcgcaca gacctttcct c 3186632DNAHomo sapiens 866gtgagcagtg ccaggagagt ggcgccagct tg 32867113DNAHomo sapiens 867ttgctctctg aaaaagtagt agacgctcgg aagagcacct ggcatgtctt ccctgtctcc 60agcagcatcc agcggttgct ggaccagggc aagagctccc tggacgttcg gat 113868171DNAHomo sapiens 868agacgctgca cttcgagatt tccaaggaag gcagtgacct gtcagtggtg gagcgtgcag 60aagtctggct cttcctaaaa gtccccaagg ccaacaggac caggaccaaa gtcaccatcc 120gcctcttcca gcagcagaag cacccgcagg gcagcttgga cacaggggaa g 17186983DNAHomo sapiens 869ggctgtcatt tgttgacccc tattcaagag ggtctgtcac agaagactcc tgcttgcctg 60aaatttacga gtgcatgtaa atg 83870292DNAHomo sapiens 870ctggaactga gtggttgcta aattcaactg ccctgacaat gtggggattt cctgtccatt 60agcagcgatt gctatttgac atatgtttct ggtgcccatt aatctgccct gtaatgggtc 120agaggcaaaa atgggggatt cagaggtact aggtggctct cttaatttaa tagaactcaa 180tgctaaggac gcctctattt gttaataagt aatcaagtca ttggctactt tctgctaaac 240actagactat gatagtgacc ttagaccccg ggcattctaa accaggctgg ca 29287165DNAHomo sapiens 871cagatttgtg catgggatac atgtacagca gacagttgta aggaggtcca cggtcatgga 60aaaga 6587258DNAHomo sapiens 872gctggatttc cgttaactat agaaatccag gcagggagat cctcccaggg agttgcaa 5887330DNAHomo sapiens 873agaacttgaa actgtgccta aaatttatag 3087486DNAHomo sapiens 874gcccttgcct cagtgaattt accactatca taatcacagt gtgcagagtg tgttaaatta 60agaacagaat ccacagtacg caatgc 8687534DNAHomo sapiens 875atgaggtcgg agtcagagga actcccctta ccac 34876302DNAHomo sapiens 876ctccaggcta gttatccaag gcttgggagg tttccctcgg ccttctccta aggccttggc 60aggaccctgc caccctaaaa tcaactgctg attgcctttt tagatttaaa tgattaagct 120ctgcttatgg gaatcttctt ctcttttatt ttgttaagaa acaaacaaca acaacaaaac 180ccacaccaat tcttagcaaa ggggaatatc gaattcagat tttgaaaaaa taagtcatca 240tgcttcctaa aataagacag cttctccctc taactgctct ctctgctctg gtattctatc 300ta 302877254DNAHomo sapiens 877aggatgtacc caactctcag ccagagatgg tggaggccgt caagaagcac attttaaaca 60tgctgcactt gaagaagaga cccgatgtca cccagccggt acccaaggcg gcgcttctga 120acgcgatcag aaagcttcat gtgggcaaag tcggggagaa cgggtatgtg gagatagagg 180atgacattgg aaggagggca gaaatgaatg aacttatgga gcagacctcg gagatcatca 240cgtttgccga gtca 25487838DNAHomo sapiens 878tgctttggct gagaggattt ctgttggcaa gttgctgg 3887979DNAHomo sapiens 879cacacaaaaa aacctgcgcg tgagggggga ggaaaagcag ggccttttaa aaaggcaatc 60acaacaactt ttgctgcca 7988054DNAHomo sapiens 880ccttctctct tactcggaga cagtcagaac tctcctccct gacagccaca aacc 5488170DNAHomo sapiens 881gtgccaatac catgaagagg agctcagaca gctcttacca catgatacaa gagccggctg 60gtggaagagt 70882362DNAHomo sapiens 882ttggggcatc ttgaaagtgt cactgcagta tagcaatctc tctcaggtaa tatagagata 60aagggaatat aataaattga cctgttattt attatctttt tcatacctag gacattccga 120ggcttaatat atttctgaag cctacagccc tgataaacat caatcccacg tcagtttcca 180gcagtctcat ctccccacac ccttctgcaa tgaaagctaa tgtaaaagaa agaaatatgc 240actgcttaat aagtcagaat acaatagaac ttgtaaaatg tacctgcata taaggtagac 300attaggaaga cttgaatctc tctcttcccc ctgttctcct gagcattatg gcaacagcat 360tt 362883176DNAHomo sapiens 883atgcctttag gggttacacg ctctcttccg tgaataatgg ggaagagcgg ccacaagagg 60gcgcgttcca aagacttttg ctccttgtca gtgtatccag ggaaaggcag ttgcgcgtac 120tggaagcccc tgtctgtagc gccctaatct tggtgattat cagttaccgc ctgctc 176884174DNAHomo sapiens 884gagggttgct tcctgtcttt gtataccaac ctccacacat gatggattca atgacagctc 60gtatccagtt gcctttaacc atgtcatatg actaagtata cctatgcctt tgaccacttt 120taaccgcact accgttacta gcaatatgcc cctctttctg acttactgga cttg 174885104DNAHomo sapiens 885accagggcat ctttccgggg gtgcagatag cctgctggct gtgtggcttc cccttgcagg 60agaagccctg gtgtcctaca agcttcccag tttggctctc tcac 104886110DNAHomo sapiens 886agtgacagtc atttttacct ttagaaaatg tctataagtg cacaggcacc acattcaaga 60cagggaagag ctactttggg ggacagttgt cattgaacca gcagttactt 11088744DNAHomo sapiens 887agccggagga aagccgcggc attttcgggt gctaggggag caga 44888131DNAHomo sapiens 888attaggtgat ggtagcggac tagccgacgg agggcaggca ggggaggggg agaggacttt 60acagaaaagg aattctcggt cgagctctgc ctggagatga ctggcttaca cttactaaac 120ccagcgggtc a 131889265DNAHomo sapiens 889attgatgttt ctggagctga aaccccaaag gtgttaggtt acttgtaaca gaaaaagtct 60tacaaatagt tgttttggaa aaggggacag tatatataat tcagaaagca ttgttaacct 120gtgcaaactg taattataac ttagtgtcac aattttcttg ccctcttccc cttgcactca 180gatcttatct tgtagtaatg atatttatta actctttcca cctaaactgc attgcttgac 240tgtaatgcta tgaacacact aggtg 265890131DNAHomo sapiens 890cacagtcaat ggatccacaa ggcctgagga gcagtgtggg gggacagaca ggaggtggat 60ttggagaccg aagactggga tgcctgtctt gagtagactt ggacccaaaa aatcatctca 120ccttgagccc a 13189131DNAHomo sapiens 891agcccctcgt ggtgccctgg gaggccagct a 3189238DNAHomo sapiens 892tcttcacaat ggaaatggca cttaccagtc ctgggtgg 38893106DNAHomo sapiens 893ggcaagaggg aaagcgtcag ccttccctga tattctggaa agtctcccgg ggctgggggt 60gggcaggtac agagcttcga gctctgctga tcgctgacat ccaggg 106894377DNAHomo sapiens 894agggtaacac

tgtctgtaag aggcagagct gggactcaaa ttccagattt cagattccaa 60atcccatcgt tttttatctc tacaatgatg cctcccatct gggtggtgga gagaagggag 120gcgtgtaaaa tgtcagcccc agaaggacaa gagcaagcca gtgtgagcgg aattgatggc 180tgcaagctga gacttggatt ggagacgtag tgagactcag gattgtgcag tgctgcaggg 240aagtggttgc tggatagagg catgggctga accaagcagc tggactgaga ctgggggaca 300gaactccaaa gcccactgag atgtgggaaa acatggagaa gcacacggag cattcacaac 360ttattgccgt cagagtc 377895186DNAHomo sapiens 895gagcccagaa taaaagacga tctcaggcta ggagctcagg caacatctta gtccggtctc 60atctgttcct ggatgtccct cagaccccca gctttcatct tttaggattt attccttccc 120tgggataata taatttgtgg tccaaaaaga acatcatcaa aatttcaggc agaatgggcc 180aggaag 18689638DNAHomo sapiens 896ccagtctacg tgcagcgggc caaggcttac ctggagga 3889749DNAHomo sapiens 897tgagatcgag aataacagaa gcagcggagc attctggaaa tattactat 49898299DNAHomo sapiens 898gatttcgcca tatcaccctg gctggtctgg aacccctggg ctcaagcgat ccactcgctt 60cagcttctca aagtgctggg attacaggca tgagccacag cgcccaggct gtagctctct 120taaggaggaa catatctcat ctgagacaaa cctgaaatgc caaaccaaac tgagttagcc 180cctctctgtc tgttgtatat attggagtaa taacctattt gtcttgataa agggattgca 240tgcttgaatt gcaaaaacct ttatttcttt tgggttgccc aatgtgcaag actaagagt 29989947DNAHomo sapiens 899catacgatgc agacccagga agggccacct gcgctatggt cagagga 4790035DNAHomo sapiens 900ggagaccctg aaagacatcg tggagtatta caacg 35901103DNAHomo sapiens 901acactgggct gtccaagcat gttgaagacg tccccgcgtt tcaggccctt ggctcactca 60atgacctcca gttctttaga tacaacagta aagacaggaa gtc 10390241DNAHomo sapiens 902tgctgcttct gggtcctgct gtcccccagg agaaccaaga t 4190380DNAHomo sapiens 903cccgtcctgg cactcccatt ggcctgtaga ttcacctccc ctgggcaggg ccccaggacc 60caggataata tctgtgcctc 8090426DNAHomo sapiens 904gagtctgtca cagtttcttt gtgtaa 26905971DNAHomo sapiens 905gccggtgtta tttactagat tcttcccttt gaactcacag actcaagaga cagaccaaga 60gttcttatat actcaccaca gcggaccaat ccaagtggca tttttaggaa aggttgcagc 120atttaatgcc atgtggtatg tctgttcgtc aagtgggtgg caagggaata tccaagctgg 180cattttggat atgatgggcc ttttactttc ctgagtgaca tgccacatgt caagaaatac 240tgctccccac ccccccactc ccatcacatt tacgtgaaca attttcattt agttatttcc 300cgttccatat ggtgttaaaa cagtcgtatt aaataaagat tatttctagt tttcagtggt 360aatttaaatg agaggatatg taataattgc ttattagata cttatccaaa tgaaatataa 420cagagtttac agtacttaaa atggctggtt atggtcttgg aaatgtttga aaattcatta 480tcctgaaaaa aactttacca ttctgtttta cccttgaggt attttttggg gaaaaatgtt 540tttgataact attaatctaa atatagtata attataggca aatttcactg cctagtttta 600ttgatatcct gagtctacag ctagtccatt cgtatgactg attgatttat gatagctcca 660gagaaccata aatttcaaag gctaaactct ctgattttag taaatagtag gtaaagtgac 720acaatatatg tttacacaac actgttttca tgaaatgcaa actttgcaaa actcacatta 780actgggaagc agccaaccct ctgtagagaa atcccagatt gggagtctgg tttgaatctt 840tgaagacaga aaggtgatat ccggcctgct gttttaaagg gaccacactt ttgaatacct 900actggtgttt ggcagaaatc tgagactggc accagacaca aattttagac atgggtatct 960tccctccagt a 971906844DNAHomo sapiens 906tgctttgaca gccaccctat acatggtaca tttagatgaa atgggaacca gatcctaaat 60ttttcaaatg tcattgccaa tttatgtgta taattccatc acttcctgat gagtaagtct 120atttttgttc tatatacatc ataagttagt atatattctt atttacagaa acatgctcaa 180atcacattca gaaagaacaa aaagtcatgg gaaatttttt attttacaac aaagccctgc 240tttctttctg gacgtatttt acatcattag agagactatc tgcacataca tctaccataa 300tctttttcct tctttgccaa ctgttcagtg cacatgtgct gcatcagaaa tggcacctgg 360atgacagaag ctcaaagagt cacatatgtc tctaaaatag agttcttttc ctcttgggct 420gtctgaactg gtgtaaatag aagctcagtt gatcttggtt ttaattaact tattactcta 480ttaatataac cttggaattc tattctaatt atgttgttct ggctgcttgt agtatcagtt 540cgcccctctt gttagggaga tatgtaacaa tctgtcattt aattgagcag tctttttcac 600ataacagtaa tagcaaaaat cctacctact cagaatcatc ttcttaggtt gtctcctaaa 660tctgaacaat acagttgttt tataaaatta cattttgtct cttgagattt aatcaattag 720aactctttag ggagaaaata aataatagaa gaaaatatat gcctcatatt tcatatgtaa 780ttatctgttg atataatttt tcaatgtatt ttgtatttgt gggagcataa tgacctgtac 840attc 84490735DNAHomo sapiens 907ctcaccacgg atgttgaccc tgatctggac caaga 3590851DNAHomo sapiens 908gaagttggcc ttgtacttgc agctatattg gcactactac tggctttcta t 51909117DNAHomo sapiens 909gccaaggtat tactaccaag ctgtaacagc tgttgaactg ccagatgata tatttggttg 60tcttccagaa tttgctatta tgatcacgaa acactgcctt cttttcgctc ctgattg 11791026DNAHomo sapiens 910tttacgagca accaaattaa aagcag 26911136DNAHomo sapiens 911aaaggaggca ttacaagtga tatttcagaa ataaaaaata caagctactt tgggtaactg 60aatgccaata aattagttaa cctagaggaa atggataaat tcctagactc atacaactca 120ctaagattga accatg 136912358DNAHomo sapiens 912acctgatgag caaaatggct gaacagaatc ctctagcgat catcccccca caggaacacc 60aaactgaaca actattcaca caaaacaagc accttcataa gaagcaaaaa acaggtgaac 120cggtacctgg ctttaacatc gtattaagga aagaggcact gaagaggatt tgaaagacaa 180tcttgagtca cctataccac ccctttcccg tacttcacct ttggccatgt ggtgttaaga 240gacaatctgt gcacttgcat gagggagagt gcagtgattg tgggaatttg ccttggaact 300cagtgctgcc ctgtcacagt ggaaagccac acagggaaga acttagctgg tgcccaca 358913216DNAHomo sapiens 913cctcctaact atgcatgtac ctttcacatt ttattgcaaa actattaggc tataataaga 60acatgcatca agcagggaca ccaatatctt gcctggcatt taattatcaa aaacacctgt 120gctacaatag tatattcacg tgtataattc tttatatgta gacatttaag tgcttgaatt 180atttaaaaaa tctactgtct ggataaaact tccata 21691439DNAHomo sapiens 914gctactataa aacttcctgt tgatcagtac agaaaacaa 39915228DNAHomo sapiens 915ttgcttgtga catgactagt tcttgtctga cttcatcttc atcttgtaat gccttactag 60aaggaatgag gaacaacttg cagacaccag tttgaagaat acttacgact gtaacattgt 120attctatgaa taatgacata ttgtaattga ggctaggaaa tagagtctgt gctaggaaga 180aaaggagaat atgaatgtgg taatcaggtt gtactctctg ctgcaata 228916140DNAHomo sapiens 916aaacaagttg gttggatagc tgtcctccat gcagtcattc atgatccagg ctgtcatcat 60cttcatcact catgttcaga gttaccctag aggtcatctc catttcatcc agataaatga 120gtatgcaagg aacgttttta 140917223DNAHomo sapiens 917ctgctgggat gttggcttaa atgactagaa aggaattggg ggaagcataa tgagtaacca 60ttttggcaga tagcctcagt gatttgcttt aagaaaaaat taagcatagt ctgtaaaggc 120aaaaaacaaa actaaattga aaagggaata atatcttgag tgtttattca tttaatccaa 180cttctctcct aaaatggagt ggtatcttcc ctagccacac aca 223918133DNAHomo sapiens 918gctaatgtct ccctggattt cttgggagtt tgctatctaa ccatcaaagc aatagaaatg 60aatgatgatt actgcaaggc tttgaagaac aaagaaaagt cagaacattt taaaggttct 120acatgtctga gtc 13391968DNAHomo sapiens 919atggggactc ctccatttac caaggctaca gctgactcct ggagaggcct gagtactcat 60tgcagttt 6892033DNAHomo sapiens 920ccttttgttt gattaagctc ttagcgtgca gtg 3392162DNAHomo sapiens 921cagtctgaag gtttgtcggg taatagtcaa gtggatatga aactgccctt tgtgaacctc 60ag 6292237DNAHomo sapiens 922gggaagcaac gtcaatcagt ggtactggaa aatgagt 37923194DNAHomo sapiens 923ttggtgtttg cctcatttga gcctggtttg aacagttggc cacctttggc caaaactcag 60tgattggcac aaaagtcggt tgcagtctgt ttacacatgg aaaggttaca gtttactgtg 120cacagagaaa ccattaggtc acatttagaa tatataagga ggcagcattg ggctaaactt 180gacaattgct tatt 194924362DNAHomo sapiens 924cgattagaga ttaagttgcc agctttaaaa atggggacta gtgtgtaagc cttttgtatg 60tacatatgta catgcactaa gtatgtaaat acatacatat tgtgagacta ggttctcaca 120gtaaatatct gataaaaatc cctgggggag gggaaaagga accattttga aatacaccac 180agcactctgt tcttaaaaag gtctctcctc aagagaaact agtgtatata aaaaacttac 240tttctaaatg taactgttac tctactaatc cagagtttca aacatgtgtg aacaataaga 300tagcatacat aatttggcat tttaaaagtt atccaaagat acttttgtag aagccactta 360gc 362925688DNAHomo sapiens 925ttttctggca atgaacctgg gttccaagca taggtttttc ttatggaagg cagttttaca 60ataaggaaat gtttttactt gtatttattt tgtgatattt cagcaaatcc aaataaatgt 120agtaacattt ataaagctat acatttataa ctgatttatt tgttaaatat ttagtattat 180caattgtctg ttaaagattt gttgctacat taaatgcttg gtctgtcttg atgttcagta 240cattattata ctttggtata ttgcaatatt ttgataatta tgtattggtt ttagtcactg 300ttcctgcata ttaagtaata aacagattaa tatcatcata aaatatcatt tactcagcaa 360tatttcttag taaattgata catccatttt tcttatgtat tgtggagaga ggaaatatga 420cataaaatgg aagaatatgg gcctctgttt atctctgacc tcatcgctta ctgttctttc 480ccactcctca ctctactcaa agcctttaaa tagctctcca ttttactcaa catcaaatct 540aaataaagct cttaaactgg tctaaatgtc tctacagtac ttgaaccttt gttatttctc 600taatttcatc ttcaactctg ctcatcgtta ttctcttgcc ctgggcatac tgcctccctt 660tttgttctct gaacgtgcca ggcatttt 68892699DNAHomo sapiens 926caggaatgca agcactgcta cctaactaaa gaccttggct ttggaaacat cttacccctt 60ggcagctctc cagagtttag acttggcagc atcaaagac 99927141DNAHomo sapiens 927tcttccaacg tcaaagccag caacattgca gcaatctgac ttattttgtt gtcatgtctc 60ctgaccacat ctggaagggt tatctacttt tgaagacaca tccagataat tcaggacaat 120ctgtccattt tgaggttctt c 141928252DNAHomo sapiens 928ggagcttggt gtattcctga atccatcaga tgttggtgtc cgcgtggatg actaggaaaa 60ggggattgga gattaggttt cttctacttg gagttctctg ctgcttgttt gagcttaata 120agcctcctga agaagttgaa gcaatttatt gctagaggag ccccaatgta taatctccct 180ttcattctct actgtggaga ggtgtgctaa acctgtagag ctgtttttgc ttcactcggc 240tcatacttaa tg 252929129DNAHomo sapiens 929ccgggaatga aagcgggcgc acctctttag cgagccctaa agcgtttggg agacgatcgt 60tccgtccctg ggagcggcac ttggtggggc tgggcggagg gaggctctgc aagagaaacc 120cggagtccg 12993071DNAHomo sapiens 930cctgagtgac agaaccgtgg acagcaacat ttcccacagg acacgaagtt tgtcggccct 60tgccttggca g 7193181DNAHomo sapiens 931gatgtccagc agctagtaga tgtagaagtg ctgtttgtta ctgggtatgt ccttgctgtc 60agggaagtgc acctgtttca g 81932106DNAHomo sapiens 932gctaaaactg gtaaggtgcc catgggttcc atggaacctc cacatccatt tacaaagccc 60tctaggaaga ctgggctagt tgctttcttc agcttcagta ttatgg 10693358DNAHomo sapiens 933atacacctta agcaaccagg tatccttgat tgtgggagtt ccttggaaca tgagcaga 58934152DNAHomo sapiens 934taacctggac tttcataaaa ctggcatatc ttctgtttta catggaaaat tattttatct 60taagtttcca tttagttgat taaaaatagg gttatgaatg ttaaataagt gatgatttat 120tgcaaaggaa atatgtttcg aaaggtcgaa ta 152935139DNAHomo sapiens 935gagtcccctg gtctttacat attaaaaata ttaggctgtc ctggaaatgt tgtcttattt 60gtctgacttc accactaaag tatgagtccc ttaaggttgt catttcattt ttgtagtcct 120tatgcctaaa atagcaaca 139936150DNAHomo sapiens 936tatcctgctg gtgagtttgg gaaaaggaat tggatcgggg catgcagcgt ctccttatct 60gcaaacaggc ctgccggtgg gaatcatggt actgttcccc agcaacacaa cattaatttc 120agagggagat gctctgccac tacaggagtg 150937357DNAHomo sapiens 937tgacaccgcc atgaaaacga tcagcaccgt cgaatcctca cgccccactc aagttccttg 60attgcttcaa taatgtcctc cgtagcaaaa ggatctagtt caaaatcggg agttacattt 120cattgtcatg cctaaaacgt aagaattgct cattcacttt ggagcagttc ttcagtctat 180ccttgatttt catgaccttg acacttttga acattataga ccagttattc aatagaatat 240ctttcaatct gggtttgtcc gatacctctt tattattaga ttgaaatgat acattttggt 300ggaactatca cagaattgac attgcattct tctcattaca tcctgtctgg tggcctg 357938206DNAHomo sapiens 938aaaggaatcc tagtgacgag ttgtcttgaa agagaagaaa aaaagttaaa aaacagaaga 60aaaaggagat ctttaaccgt gctgggtata aaattctaag tcaggatact tttcttcctt 120tgagcatctt tgactgcctg gggaatatca gacattcttt tagtggcctt gtgatcattt 180tgctgagctt gttcatattc ctgttc 206939181DNAHomo sapiens 939gcatcaaact gaaccgcgac ttgtccaaag tcacatagta agtggaggtg gaactgggct 60ttaaatccaa gcctacatac agactagagt tcacactttt aggcttggca taaactgcct 120ataaactata aaaaagtaaa actccataaa atctcaggta cttggactac cttcagtctg 180a 181940135DNAHomo sapiens 940agtatgggtg actattcttt acaaatccat ttgtgatgca gtggtaattt ggtggcactg 60caattatggc cagcaatgaa gattataaaa taattgcctg aggaaccaag ctcatgtgca 120ctaaaaagaa gcagg 13594130DNAHomo sapiens 941ctgcacttgg ccctacaccg atgaattttt 30942311DNAHomo sapiens 942tgctgagccg acataagaat cttttatgaa aaatgtactg ttaagttcag ggggtctatt 60ggttttatgt aaaaggcaca agacaattcc tgtagtgcat tttatgagtt aaggtttcca 120tacggattat tgaaacaatt tgttacatgt atttgttaca tgatcttaat atttcatgta 180caagactgac acccatccac ttttgaagat aagccagttt atggggtttt tttttttgcg 240ggtagaggtt gggtctccct attttgtcca ggctggtctc gaattcctgg gctcaagcat 300aagcataagg c 311943214DNAHomo sapiens 943ccttatgtac cgagcaaatg ccaggtctag caaacataat gctagtccta gattacttat 60tgatttaaaa acaaaaaaac acaaaaaaat agtaaaatat aaaaacaaat taatgtttta 120tagaccctgg gaaaaagaat tttcagcaaa gtacaaaaat ttaaagcatt cctttcttta 180attttgtaat tctttactgt ggaatagctc agaa 21494477DNAHomo sapiens 944tgatcaggga ccatgaaaag aaacttgtgc ttcaccgaag aaaaatatct aaacatcgaa 60aaacttaaat attatgg 77945519DNAHomo sapiens 945caacctggag tgcattgacg cgatctcggc tcactgcaac ctccacctcc caggttcaag 60caattctcct gcctcggcct cccgagcagc tgggattaac aggcccatgc ctgccaccgt 120gcccagctaa tttttgtatt tttactagac ttggggtttt gccatgttgg ccaggctggt 180ctggaacttc tgacctcaag tgatccgccc acctcggcct cccaaagtct tgaaattaca 240ggcgtgagcc actgcgccct gccagatttt gtatagtaat atatatataa aatgacctgt 300cacaggttgg ctttcatagt tttacctttc ctttttgggt ggtgcccttg ggtctctact 360actgtctttc atcactccca agaaattgag tagtgcagcc aggatcagga ccagggattg 420gcaaatgttt tttgtaaagg gccagatagg aaatattttg ggctttgagg actgtgttat 480ctctgaaatg atcttgttcc agtgttacca tgtcaagac 51994687DNAHomo sapiens 946atgaagctgt agctgtacta caagcccacc aagctaaaga ggctgcccag aaagcagtta 60acagtgccac cggtgttcca actgttt 87947254DNAHomo sapiens 947gtacagttgt aaagtctgca taataacctg tggcgctatt tatccccatt ttatagatag 60gtaaactgaa acaggctgaa taatttgcca aatgctcaca cagctcttaa gtggcagagc 120ctggcttcaa atcccatcag ctccaacagc catactctca actgctgctg ctttctctag 180tggagaaaga gaaatatttt tcgagtgtgg ggaggacaag gaaagagtag tgcaggggag 240cgattcataa ttct 25494825DNAHomo sapiens 948gccatgcacc ctactcttgc tggta 2594925DNAHomo sapiens 949tcctcaagag caaaagcaaa tgttg 2595025DNAHomo sapiens 950aatgggtcca cgtcctgcag ctgca 2595167DNAHomo sapiens 951tgcaaacctc agatcgaaga agacagcata aacacttttc actcagtaag ttttcccagt 60taatgta 6795236DNAHomo sapiens 952tcaggtatat ttataagtgt gggcggcaaa ccaccc 3695325DNAHomo sapiens 953aaccgtgctg catactatcc tccta 2595436DNAHomo sapiens 954caaccagaac catgaaggtt ttcgtatttg gtcatt 3695526DNAHomo sapiens 955ttatgatgga gggtggtcgc agcaaa 26956145DNAHomo sapiens 956ctgacctggc tagggtaatg catatgtgta gtttgccctt aataattggg tattaaggaa 60aaattgtgaa ctcaatgggt aaatacaaga tgattaagca ttaacagggt ttagttattt 120gattcagtga tttataattg tctaa 145957271DNAHomo sapiens 957ggagtacgat agaatttatt cctgaatgtt tttgtcttca gtgtgttccc tggatattgt 60ttaaattgag tgttgtgcat cagcatattt tgaatgtatg aagcatgcat gtttttctgt 120ttcttgagac aggatctcat tatgttgccc aggttggagt gcaggggcat gccacaatca 180cagctcactg cagcctcagc ctttcctggg cttaagccaa gcttgtccaa cccgctgctt 240gcaggccaca tgcggcccaa gaatgctttt a 27195846DNAHomo sapiens 958gatgatggta ttgatgatga acgtctccgg aaagagtttt ctccat 4695989DNAHomo sapiens 959ttatgttggt cgagctcaga aaaaggtgga acggcagacg gaacttaagc gcaaatttga 60acagatgaaa caagatagga tcaccagat 89960429DNAHomo sapiens 960tgccttggcc catacatctt ctaaatttct gtaatcaaat gtgattttta accttttctg 60ccccacttgc ctgagatacc acccgcctca gttacctgtc tctcctactt tagagggagt 120taggggaaaa catgtcttca gaaataaatg cttcctcttc caggtagttc acctgtgtct 180ttaaaaagaa ttttttttcc ctgtctttca aattcctgta ttacctatgt cttaccaaag 240agtccaacta tgtattcctt ccactcctgt tgaaagtcgg gtaggccaag gcttaataaa 300tacttgtttc ttaattgata caaagaaaat caaattggtc ttagcacaat agctcatgcc 360tgtaacccta gcgcttgggg aggtcaaaga gggaagatac ttgaagccac aagttttaga 420ctagcccgg 42996173DNAHomo sapiens 961tttgttggac gatttaagtc tcgtaaagaa cgagaagctg aacttggagc tagggcaaaa 60gaattcacca atg 73962191DNAHomo sapiens 962ttagagtaca cgattgggaa gtttaaattt ttattctagg agatggcaaa gaaagcgcaa 60gcgccacttt aaaatgacga tgaaagcttt ttaatttgat agaggtcttt ttattggcat 120ggtacacatg cacttccact catttgtatt gatgggagtg atccctttaa ccctaggtta

180gctagagaag a 191963228DNAHomo sapiens 963gttataaata tctagctaat catattttga atcttatttt taataattcc aaatccattc 60attttaagtt aatatttgtc agggagaagt tagatgcaca taagataaaa gaataaaaac 120attttaaaga tgaataacaa aaattcatgt agttgtactg gagtgaaaat taataagcta 180atcttgattt ttacaattga attttctaca cagtaagtgt aacataca 22896457DNAHomo sapiens 964tgaaaatggt tccaagggct atggatttgt acactttgag acgcaggaag cagctga 57965100DNAHomo sapiens 965gctacattta gtttagtgct tgaaatagga actgtgcagt aatggatatc tttatttcac 60aaatatccag gttagatggc taacagattg tctctcaaca 10096629DNAHomo sapiens 966ggagcgtgct ttggacacca tgaattttg 29967143DNAHomo sapiens 967tttaggaaat ggactagttt tcatataata ttgttagtta ttagcaatga aatgaccaat 60tttagcaagt agttgggaag aagttaaaat atttaaatct ataaactact tccagcttgt 120agataaatct gttgcgtaat gtc 143968606DNAHomo sapiens 968aggcaggatg tatcaatgca tgtcagatgg gggtagataa ctttggggca ggttatcaca 60acctaagagt tggtggagaa aacatgggaa tgaattctag agaccacaaa atgaaaactt 120gaaagtgtta ctctttctca gcttaacgtt tttaaatcca aaaaacaatt tttacatttc 180ttgggattcg aagagttgaa cttcaggttg ccgtggttac agtgtacagt atatattatc 240agtctgtacc agtagaccag taccctaact actgaaaaga atatggcagt tttccatttg 300tctagtttct gtatgtacaa tttactatcc aattaattac ttaagtggat ttcttgttct 360tttttaaaaa cttattgcta cattgatagg cagaatagct tctgaaagtg accagttttc 420aatttcatag gaagaggtga ctcattgaaa aatagctcaa gcaaagtcag ctaaaaaaaa 480aaaaaaacta gggaagctga gtaggtgtgg tcaattgata atgagctaac agctgattat 540cactatattc tagaaactgg aactttcatt tataaaaaaa gaggtggccg gaaaattcat 600cctgtc 606969281DNAHomo sapiens 969tgtggcagcc gaccactttg aaggccagtt ttctcaggca acttagacca tttttagtca 60aattttatct tagattcaca gtactggtgg ttttcgagta tattatgtta ccttctgaaa 120tagttcctgt cgttttgagg ggcttttctt tataaaatag tcaactttgg ctataaaatg 180ttactttagt gtaattccaa ctggaccagt cttatctgta gcatgcaaga agttcaagtt 240tctcttttat ttttaaaagt ggcccatgat acctgtaaat c 281970104DNAHomo sapiens 970ctacgagaag ttcagcccgg ccgggcccat cctctccatc cgggtctgca gggacatgat 60cacccgccgc tccttgggct acgcgtatgt gaacttccag cagc 10497127DNAHomo sapiens 971gtcgcggcct gtggccctgc gggcagc 2797232DNAHomo sapiens 972cccggcactc gctctcctcc tctcacggaa ag 3297336DNAHomo sapiens 973gatttttgtc cctctgcgct tgctccccgc tcccct 3697446DNAHomo sapiens 974tcgctccccg ccggcagccg gcagccagcg gcagtggatc gacccc 4697557DNAHomo sapiens 975ccaagaagga accaagagac cgaggccttc ccgctgcccg gacccgacac cgccacc 57976656DNAHomo sapiens 976gctggctcca tctacgcacg tttcggaaac cgggcccgga ggggaccacg cccgctcacc 60cgtgcccggc gtcccccgga gctggggcta gaggagccgg gccggccgca gcgggaagag 120gccacaggcg gccgcgcacg tggggggtgg ttagcgcgga ggaacccgga agccctttgc 180accgcccacc gccgcggtga cgggttaacg ctcctcctgg tggaggcagg ggcgggcggg 240gcggaaggcg gggacgcctc agccaacacc cccgaggacc gcccgcgagc cgtcctcccc 300acccccacgg acgcgacgca gcgcgggctc cgcttccccg gccgcggcgc ctgcgcaaaa 360gccccgcccc ttcgcccgag ccccaccccc acaccgcagc ctccaccgcc gccacctctc 420ccttcctctc tgctctttcc tcctgttttc tcttccctcc tccccctggc ctccgcgtct 480cctcctactc cggcgctgac gctcgcgtag gggccctggc gtcagacgcg cgggggcggg 540gcgagtgcgg cgcggggtat aagtagaggg tgcaggaggc ggtgcttccc cttctccccg 600gcggttagtg ctgagagtgc ggagtgtgtg ctccgggctc ggaacacaca tttatt 65697765DNAHomo sapiens 977aggcaccgct tctgcggccg acgcgcgtgg cggcggtgcc ggctgggact cgtagtgcgg 60tccgg 6597834DNAHomo sapiens 978actatgttgt gagcctgcga aagaagtttg tgtg 3497939DNAHomo sapiens 979atggaaaact gggagccgcc ttggaatcta cagggccgg 39980121DNAHomo sapiens 980cgacctcgac ggccgtcctg ccgaagaacc tgccgtcgct gcccgccccc gtggtgcggc 60cctgacggtc gcgcaggccg acggacgaca gcgcgctccg gatgaagttg ggcgggtagc 120t 12198128DNAHomo sapiens 981agcctcctcc aaaacagcac actttccg 28982254DNAHomo sapiens 982tggttacaat ggtactttca gcctgtccga attatgtatt gcccctcccc tttttattaa 60taacattgaa gtgtgatggg acaaccactg aagccgtcag ttgaaacctg ctgggacttt 120ttagccattc tcttcaacat aaagaatggg tgtttttgga gggggtgaga ggaatgggga 180aatgttgtca aagagtacaa cgttttagtt gagacaggaa gaatatattt tgttgagatc 240tacagcacag catg 25498373DNAHomo sapiens 983gcctacctaa aatattgaat gctgttaata aatctcctga ggccagcata agaaggtgat 60gggcaaaact aat 7398475DNAHomo sapiens 984ttgtgtatct gcgttccttt caacaagtgt gacttcctcc atggcatcat tcgtgagcgt 60aacacagagc tcagc 75985172DNAHomo sapiens 985gctctgagag gctcttccta atagaactgc tgcttcagtt tagcttgaaa aagcccacac 60ccagttccta atgacaaaca tctgaacacc gggtcttccc acgagcaaga ccatgctatg 120cctcctgctc gctctgttct ataagcaacc cacagattgc tccctgtgaa ga 17298626DNAHomo sapiens 986agtaaatcca tttgctgatt gcaata 2698734DNAHomo sapiens 987actatgttgt gagcctgcga aagaagtttg tgtg 34988254DNAHomo sapiens 988tggttacaat ggtactttca gcctgtccga attatgtatt gcccctcccc tttttattaa 60taacattgaa gtgtgatggg aaaaccactg aagccgtcag ttgaaacctg ctgggacttt 120ttagccattc tcttcaacat aaagaatggg tgtttttgga gggggtgaga ggaatgggga 180aatgttgtca aagagtacag tgttttagtt gagacaggaa gaatatattt tgttgagatc 240tacagcacag catg 25498925DNAHomo sapiens 989cctcaatggg aaccctggtg cagaa 2599066DNAHomo sapiens 990gtgcggggtg gtggcactgt cagcagggac cactgggaag ttgaggatga ggacatcaaa 60aataac 6699142DNAHomo sapiens 991aaaggttacc agttcaccaa ctgtgcttta cggtgaaaaa ca 4299230DNAHomo sapiens 992ccaccatgac agatgacctg gcaggttatg 3099333DNAHomo sapiens 993agaacagcaa gaagcgattg aacacattga tga 3399469DNAHomo sapiens 994atataacaaa ctccgccaac cattttttca gaagaggtca gaattgatcg ccaaaatccc 60aaatttttg 6999540DNAHomo sapiens 995agtggtgatc catcttcgaa gtccaccgaa atcaaatgga 40996104DNAHomo sapiens 996agagagcttc tttacctggt ttactgacca ttctgatgca ggtgctgatg agttaggaga 60ggtcatcaaa gatgatattt ggccaaaccc attacagtac tact 10499768DNAHomo sapiens 997gggagcagca ttccaccaga ccctgattta gcaagatatt tccgtatcat tcccccaacc 60agctggaa 6899860DNAHomo sapiens 998ccagacgtac agaggctggg agccattgtg gtgtgctata ttgatgacgg cagcagtggg 6099975DNAHomo sapiens 999ttgtgtatct gcgttccttt caacaagtgt gacttcctca atggcatcat tcgtgagcgt 60aacacagagc tcagc 75100027DNAHomo sapiens 1000cttagagggc cccacagttg tttgctg 271001254DNAHomo sapiens 1001tggttacaat ggtactttca gcctgtccga attatgtatt gcccctcccc tttttattaa 60taacattgaa gtgtgatggg acaaccactg aagccgtctg ttgaaacctg ctgggacttt 120ttagccattc tcttcaacat aaagaatggg tgtttttgga gggggtgaga ggaatgggga 180aatgttgtca aagagtacaa tgttttagtt gagacaggag gaatatattt tgttgagatc 240tacagcacag catg 254100228DNAHomo sapiens 1002agcctcctcc aaaacagcac actttccg 28100380DNAHomo sapiens 1003aaaaatgagc aggtgcggga tgtgcgcaga gtcggagaag agtccagggc gcccggagtg 60gctccaggaa cgacggaaac 80100434DNAHomo sapiens 1004actatgttgt gagcctgcga aagaagtttg tgtg 341005389DNAHomo sapiens 1005tcatgtctta gagcccgtct ttatgtttaa aactaatttc ttaaaataaa gccttcagta 60aatgttcatt accaacttga taaatgctac tcataagagc tggtttgggg ctatagcata 120tgcttttttt tttttaatta ttacctgatt taaaaatctc tgtaaaaacg tgtagtgttt 180cataaaatct gtaactcgca ttttaatgat ccgctattat aagcttttaa tagcatgaaa 240attgttaggc tatataacat tgccacttca actctaagga atatttttga gatatccctt 300tggaagacct tgcttggaag agcctggaca ctaacaattc tacaccaaat tgtctcttca 360aatacgtatg gactggataa ctctgagaa 3891006170DNAHomo sapiens 1006ctaattcaat tgcaagagtg ggagtaaatg acttctgtcc aacagtgcca aagatgaaga 60aatctttata cagtgcaata agtttattca acaacccggt gaaatactgg gaaatgcaac 120ctgcaacatt tcgttgtgtt ttgagcagaa tgagcgttca gcttgggaac 1701007405DNAHomo sapiens 1007tgacaactct taactggctg gaaggggcca cagattcctt ggagaatcta ataaagattt 60agatcttccc aagaacaaaa gttttcatct tccaaggagc ttgagaacaa aactgggcaa 120caagccactc tgcctcttct ctttttcttt ccggtgtatc tttaaacaag tttcgttcac 180tgtactcctt tgagatacaa accatcaaaa tgaatgtaat ataggcaggt gctaatctca 240agatcacaac ttttgctttg acttttccaa atgctgcatt tggatgtctg tttagccagt 300gactacaact tgagtccgtc ctctctcaag ctgccccatc cctgatgtca tttctgctta 360atttgctcca caactctgct tccagcttct ggtctctctt aaatc 4051008134DNAHomo sapiens 1008acattctact tgtgttcagt agatattggt atttttcttc agtttttata acacacttta 60gcacacctca agcaaagacc aagtaagcag caagggtgat tcaaacataa tgactctcca 120ggttgcatga ggtg 1341009117DNAHomo sapiens 1009atcacagata tcgaaaatgg gagtcttgct aacataccac gtgtgagaga aatacatttg 60gaaaacaata aactaaaaaa aatcccttca ggattaccag agttgaaata cctccag 117101085DNAHomo sapiens 1010taggacaggc ttatattcta actagtttgc ggtgttttca gctaactcta tcacacctaa 60ccatctgtgt aagacttgat gcatt 85101168DNAHomo sapiens 1011gcttaccacc aactttattg gagcttcact tagattataa taaaatttca acagtggaac 60ttgaggat 681012215DNAHomo sapiens 1012gataaatgat atcacatgga agctgtcagc caaatccaca aaaggagtgt ctcaaacaaa 60ttaatatgga aataaatcaa aagaagaggg agaaaaaagg agggagtatg ttgtacatta 120agagagattt caagagcgat aagaaccaaa tgtattctgt aaacttcatt taatcctaac 180ttgaacaaat caactgtaaa atgacgtatt tgaga 2151013177DNAHomo sapiens 1013ccggtacaaa agtgtgctaa catttgtcag cagttactga gcttctgcca aattcacacc 60tctgctcgtt ttatcctaga ggctacactt caatcttctc tctggttacc caccttcccc 120atttcctaag ggacacaaca gttccctcaa cttctacaag tcctctccca gagatta 1771014352DNAHomo sapiens 1014cccaggcatt tagccacagt ttgaggtgaa gcctatgagc ccagactggg cagcccctgg 60ctctggcagg aatggacatg ccattcaagg caaggcattt tgtacccagc ttcttcccag 120gtgtactgtg aagactaatg ggccaataca cagaaaggtc tgaggacaac atccagcacg 180taggaagtga ccacctgtga cataatcatt accaagatga gcactgtgct ctttatcatg 240gctttgtgtg acccaaggct agcacctcaa gtagaatgct ccttaagtct gccagatgac 300cagtgttcta acccattact tccaagctcc ctgtctgatg attagctgca ta 352101586DNAHomo sapiens 1015taataatggg atagagccag gggcatttga aggggtgacg gtgttccata tcagaattgc 60agaagcaaaa ctgacctcag ttccta 861016133DNAHomo sapiens 1016cctgaacaac aacaagctaa cgaagattca cccaaaagcc tttctaacca caaagaagtt 60gcgaaggctg tatctgtccc acaatcaact aagtgaaata ccacttaatc ttcccaaatc 120attagcagaa ctc 133101726DNAHomo sapiens 1017aatactggta aatcaaatcc acttcc 26101828DNAHomo sapiens 1018attccatttg atactcgaat gcttgatc 28101995DNAHomo sapiens 1019atgggtctta agctttacct gtggaattct catgagaaag agattaagat gcaagtactg 60tttgagaaaa cttgttcatg tagaacgact gtgga 951020381DNAHomo sapiens 1020tgctattctg acaatttaaa ggatggaaaa agtctcattg aaatttcaaa aataatctga 60gtgtataagt ttttttcatt taagttttta ggtggaaagt acagcaaacc ccaaagtaca 120tccaaactta tttttaaaat taagaaaatc aaaggaaaac taagggaatg ttgtccatag 180aacatttcct tctcttcccc agttaaatca aagcatttaa ttttaattcc cttcagagag 240aatggacatc acatgcagtt ctatctcagg gtgctagcag gttgagactg tacttttcag 300taaaactcca tgataacaaa ataagctgca tgtctagaac aatgaaatga gttatagaaa 360gcttgtgaaa tctctaatct a 381102160DNAHomo sapiens 1021tttgatctgt ttccaatgtg tccatttgga tgtcagtgct attcacgagt tgtacattgc 60102292DNAHomo sapiens 1022tgtgctccta ttattcctgg ctttgtgctc tgccaaaccc ttctttagcc cttcacacat 60cgcactgaag aatatgatgc tgaaggatat gg 92102330DNAHomo sapiens 1023tcctagactg gtcttctaca ctaagacacc 301024468DNAHomo sapiens 1024gaagtttggg gatatcacag ctatattaaa tgaaacagta aatatatttt tcaatattta 60aaatattttc taatgtgtat ttaaaatgtg tgaattactg aaatgtcaat tttacttata 120catttgaata ttcatttttt tccttgataa atgtcttcct tattataatg aaatggcact 180gaaaagttca aatggaaatc tattcaattc caagaaagaa tacttatcag caatagttta 240gctagcacta tattcaatat gaaagattag gaaattttca cagcatgtat acagtcagaa 300tttaacactt tcaaagattt cctttgtcta ctcccaaagt aaatttctga ttaaatttta 360gattaaaaaa tttaagcaat gtattcaata ttctactccc tagtaatcta aatagcgcac 420agcattcttt catgttaatc tattcagagg tgtggcaccc aggaaaca 4681025198DNAHomo sapiens 1025tggactaatc tgtgggagca gtttattcca gtatcaccca gggtgcagcc acaccaggac 60tgtgttgaag ggtgtttttt ttcttttaaa tgtaatacct cctcatcttt tcttcttaca 120cagtgtctga gaacatttac attatagata agtagtacat ggtggataac ttctactttt 180aggaggacta ctctcttc 198102629DNAHomo sapiens 1026ggaaacgcct cttcacacta aaggaagaa 29102730DNAHomo sapiens 1027tgacttcctt actattgctt cctggactaa 3010281377DNAHomo sapiens 1028actcgtgagc acatctttag ggaccaagag tgactttctg taaggagtga ctcgtggctt 60gccttggtct cttgggaata cttttctaac tagggttgct ctcacctgag acattctcca 120cccgcggaat ctcagggtcc caggctgtgg gccatcacga cctcaaactg gctcctaatc 180tccagctttc ctgtcattga aagcttcgga agtttactgg ctctgctccc gcctgttttc 240tttctgactc tatctggcag cccgatgcca cccagtacag gaagtgacac cagtactctg 300taaagcatca tcatccttgg agagactgag cactcagcac cttcagccac gatttcagga 360tcgcttcctt gtgagccgct gcctccgaaa tctcctttga agcccagaca tctttctcca 420gcttcagact tgtagatata actcgttcat cttcatttac tttccacttt gccccctgtc 480ctctctgtgt tccccaaatc agagaatagc ccgccatccc ccaggtcacc tgtctggatt 540cctccccatt cacccacctt gccaggtgca ggtgaggatg gtgcaccaga cagggtagct 600gtcccccaaa atgtgccctg tgcgggcagt gccctgtctc cacgtttgtt tccccagtgt 660ctggcgggga gccaggtgac atcataaata cttgctgaat gaatgcagaa atcagcggta 720ctgacttgta ctatattggc tgccatgata gggttctcac agcgtcatcc atgatcgtaa 780gggagaatga cattctgctt gagggaggga atagaaaggg gcagggaggg gacatctgag 840ggcttcacag ggctgcaaag ggtacaggga ttgcaccagg gcagaacagg ggagggtgtt 900caaggaagag tggctcttag cagaggcact ttggaaggtg tgaggcataa atgcttcctt 960ctacgtaggc caacctcaaa actttcagta ggaatgttgc tatgatcaag ttgttctaac 1020actttagact tagtagtaat tatgaacctc acatagaaaa atttcatcca gccatatgcc 1080tgtggagtgg aatattctgt ttagtagaaa aatcctttag agttcagctc taaccagaaa 1140tcttgctgaa gtatgtcagc accttttctc accctggtaa gtacagtatt tcaagagcac 1200gctaagggtg gttttcattt tacagggctg ttgatgatgg gttaaaaatg ttcatttaag 1260ggctaccccc gtgtttaata gatgaacacc acttctacac aaccctcctt ggtactgggg 1320gagggagaga tctgacaaat actgcccatt cccctaggct gactggattt gagaaca 13771029115DNAHomo sapiens 1029atgagcgcac ggatgaatgg agcttacaag atctgtcttt ccaatggccg ggggcatttg 60gtccccaaat taaggctatt ggacatctgc acaggacagt cctatttttg atgtc 115103050DNAHomo sapiens 1030aggaacaact atcctcgtct gtcccaacac tgagcaggca ctcggtaaac 501031227DNAHomo sapiens 1031atttgctggg tctgaatcgg cttcataaac tccactggga gcactgctgg gctcctggac 60tgagaatagt tgaacaccgg gggctttgtg aaggagtctg ggccaaggtt tgccctcagc 120tttgcagaat gaagccttga ggtctgtcac cacccacagc caccctacag cagccttaac 180tgtgacactt gccacactgt gtcgtcgttt gtttgcctat gtcctcc 227103260DNAHomo sapiens 1032ggacaatgtg tgtgtcaaga aaataagaac cagaagtcat agggacagtg aagatatttg 601033108DNAHomo sapiens 1033gttcagcaaa cgaaactcat gtagcaataa cctcttcaga tacagaattc tggcaagtac 60agctgtccag acagaccctc ttcggcacaa actaggaagc ttcaactg 1081034155DNAHomo sapiens 1034cagaagagtg cgaaggttct catgcagaat cagaaaggga aaggagaagc aggaaattca 60gactccatgt gcctgagatc aagaaagaca aaaagccagc ctgcagcaag cactttggag 120agcaaatctg tgcagagagt aacgcggagt gtcaa 155103530DNAHomo sapiens 1035gagcccggaa acccatacct agagacaaag 30103626DNAHomo sapiens 1036tatccctgcg ctccagacgc caaaat 26103727DNAHomo sapiens 1037gagcaaagta ccaaggcatt accttga 271038226DNAHomo sapiens 1038aagaggctgc gctgcatgcc agcaccagag gaaattgtgg aggagctgcc agccagcaag 60aagcagaggg ttgctcccag ggcaagaggc aaatcatccg aacccgtggt catcatgaag 120agaagtttga ggacttctgc aaaaagaatt gaacctgcgg aagagctgaa cagcaacgac 180atgaaaacca acaaagagga acacaaatta caagactcgg tccctg 22610391286DNAHomo sapiens 1039cccgtgctct agaagacctg gttgacttca aagagctctt ctcagcacca ggtcacactg 60aagagtcaat gactattgac aaaaacacaa aaattccctg caaatctccc ccaccagaac 120taacagacac tgccacgagc acaaagagat gccccaagac acgtcccagg aaagaagtaa 180aagaggagct ctcagcagtt gagaggctca cgcaaacatc agggcaaagc acacacacac 240acaaagaacc agcaagcggt gatgagggca tcaaagtatt gaagcaacgt gcaaagaaga 300aaccaaaccc agtagaagag gaacccagca

ggagaaggcc aagagcacct aaggaaaagg 360cccaacccct ggaagacctg gccggcttca cagagctctc tgaaacatca ggtcacactc 420aggaatcact gactgctggc aaagccacta aaataccctg cgaatctccc ccactagaag 480tggtagacac cacagcaagc acaaagaggc atctcaggac acgtgtgcag aaggtacaag 540taaaagaaga gccttcagca gtcaagttca cacaaacatc aggggaaacc acggatgcag 600acaaagaacc agcaggtgaa gataaaggca tcaaagcatt gaaggaatct gcaaaacaga 660caccggctcc agcagcaagt gtaactggca gcaggagacg gccaagagca cccagggaaa 720gtgcccaagc catagaagac ctagctggct tcaaagaccc agcagcaggt cacactgaag 780aatcaatgac tgatgacaaa accactaaaa taccctgcaa atcatcacca gaactagaag 840acaccgcaac aagctcaaag agacggccca ggacacgtgc ccagaaagta gaagtgaagg 900aggagctgtt agcagttggc aagctcacac aaacctcagg ggagaccacg cacaccgaca 960aagagccggt aggtgagggc aaaggcacga aagcatttaa gcaacctgca aagcggaagc 1020tggacgcaga agatgtaatt ggcagcagga gacagccaag agcacctaag gaaaaggccc 1080aacccctgga agatctggcc agcttccaag agctctctca aacaccaggc cacactgagg 1140aactggcaaa tggtgctgct gatagcttta caagcgctcc aaagcaaaca cctgacagtg 1200gaaaacctct aaaaatatcc agaagagttc ttcgggcccc taaagtagaa cccgtgggag 1260acgtggtaag caccagagac cctgta 128610403489DNAHomo sapiens 1040ggagaactct tagcgtgcag gaatctaatg ccatcagcag gcaaagccat gcacacgcct 60aaaccatcag taggtgaaga gaaagacatc atcatatttg tgggaactcc agtgcagaaa 120ctggacctga cagagaactt aaccggcagc aagagacggc cacaaactcc taaggaagag 180gcccaggctc tggaagacct gactggcttt aaagagctct tccagacccc tggtcatact 240gaagaagcag tggctgctgg caaaactact aaaatgccct gcgaatcttc tccaccagaa 300tcagcagaca ccccaacaag cacaagaagg cagcccaaga cacctttgga gaaaagggac 360gtacagaagg agctctcagc cctgaagaag ctcacacaga catcagggga aaccacacac 420acagataaag taccaggagg tgaggataaa agcatcaacg cgtttaggga aactgcaaaa 480cagaaactgg acccagcagc aagtgtaact ggtagcaaga ggcacccaaa aactaaggaa 540aaggcccaac ccctagaaga cctggctggc ttgaaagagc tcttccagac accagtatgc 600actgacaagc ccacgactca cgagaaaact accaaaatag cctgcagatc acaaccagac 660ccagtggaca caccaacaag ctccaagcca cagtccaaga gaagtctcag gaaagtggac 720gtagaagaag aattcttcgc actcaggaaa cgaacaccat cagcaggcaa agccatgcac 780acacccaaac cagcagtaag tggtgagaaa aacatctacg catttatggg aactccagtg 840cagaaactgg acctgacaga gaacttaact ggcagcaaga gacggctaca aactcctaag 900gaaaaggccc aggctctaga agacctggct ggctttaaag agctcttcca gacacgaggt 960cacactgagg aatcaatgac taacgataaa actgccaaag tagcctgcaa atcttcacaa 1020ccagacccag acaaaaaccc agcaagctcc aagcgacggc tcaagacatc cctggggaaa 1080gtgggcgtga aagaagagct cctagcagtt ggcaagctca cacagacatc aggagagact 1140acacacacac acacagagcc aacaggagat ggtaagagca tgaaagcatt tatggagtct 1200ccaaagcaga tcttagactc agcagcaagt ctaactggca gcaagaggca gctgagaact 1260cctaagggaa agtctgaagt ccctgaagac ctggccggct tcatcgagct cttccagaca 1320ccaagtcaca ctaaggaatc aatgactaac gaaaaaacta ccaaagtatc ctacagagct 1380tcacagccag acctagtgga caccccaaca agctccaagc cacagcccaa gagaagtctc 1440aggaaagcag acactgaaga agaattttta gcatttagga aacaaacgcc atcagcaggc 1500aaagccatgc acacacccaa accagcagta ggtgaagaga aagacatcaa cacgtttttg 1560ggaactccag tgcagaaact ggaccagcca ggaaatttac ctggcagcaa tagacggcta 1620caaactcgta aggaaaaggc ccaggctcta gaagaactga ctggcttcag agagcttttc 1680cagacaccat gcactgataa ccccacgact gatgagaaaa ctaccaaaaa aatactctgc 1740aaatctccgc aatcagaccc agcggacacc ccaacaaaca caaagcaacg gcccaagaga 1800agcctcaaga aagcagacgt agaggaagaa tttttagcat tcaggaaact aacaccatca 1860gcaggcaaag ccatgcacac gcctaaagca gcagtaggtg aagagaaaga catcaacaca 1920tttgtgggga ctccagtgga gaaactggac ctgctaggaa atttacctgg cagcaagaga 1980cggccacaaa ctcctaaaga aaaggccaag gctctagaag atctggctgg cttcaaagag 2040ctcttccaga caccaggtca cactgaggaa tcaatgaccg atgacaaaat cacagaagta 2100tcctgcaaat ctccacaacc agacccagtc aaaaccccaa caagctccaa gcaacgactc 2160aagatatcct tggggaaagt aggtgtgaaa gaagaggtcc taccagtcgg caagctcaca 2220cagacgtcag ggaagaccac acagacacac agagagacag caggagatgg aaagagcatc 2280aaagcgttta aggaatctgc aaagcagatg ctggacccag caaactatgg aactgggatg 2340gagaggtggc caagaacacc taaggaagag gcccaatcac tagaagacct ggccggcttc 2400aaagagctct tccagacacc agaccacact gaggaatcaa caactgatga caaaactacc 2460aaaatagcct gcaaatctcc accaccagaa tcaatggaca ctccaacaag cacaaggagg 2520cggcccaaaa cacctttggg gaaaagggat atagtggaag agctctcagc cctgaagcag 2580ctcacacaga ccacacacac agacaaagta ccaggagatg aggataaagg catcaacgtg 2640ttcagggaaa ctgcaaaaca gaaactggac ccagcagcaa gtgtaactgg tagcaagagg 2700cagccaagaa ctcctaaggg aaaagcccaa cccctagaag acttggctgg cttgaaagag 2760ctcttccaga caccaatatg cactgacaag cccacgactc atgagaaaac taccaaaata 2820gcctgcagat ctccacaacc agacccagtg ggtaccccaa caatcttcaa gccacagtcc 2880aagagaagtc tcaggaaagc agacgtagag gaagaatcct tagcactcag gaaacgaaca 2940ccatcagtag ggaaagctat ggacacaccc aaaccagcag gaggtgatga gaaagacatg 3000aaagcattta tgggaactcc agtgcagaaa ttggacctgc caggaaattt acctggcagc 3060aaaagatggc cacaaactcc taaggaaaag gcccaggctc tagaagacct ggctggcttc 3120aaagagctct tccagacacc aggcactgac aagcccacga ctgatgagaa aactaccaaa 3180atagcctgca aatctccaca accagaccca gtggacaccc cagcaagcac aaagcaacgg 3240cccaagagaa acctcaggaa agcagacgta gaggaagaat ttttagcact caggaaacga 3300acaccatcag caggcaaagc catggacaca ccaaaaccag cagtaagtga tgagaaaaat 3360atcaacacat ttgtggaaac tccagtgcag aaactggacc tgctaggaaa tttacctggc 3420agcaagagac agccacagac tcctaaggaa aaggctgagg ctctagagga cctggttggc 3480ttcaaagaa 34891041389DNAHomo sapiens 1041aacaacagtt gaaggcatcc ctggggaaag taggtgtgaa agaagagctc ctagcagtcg 60gcaagttcac acggacgtca ggggagacca cgcacacgca cagagagcca gcaggagatg 120gcaagagcat cagaacgttt aaggagtctc caaagcagat cctggaccca gcagcccgtg 180taactggaat gaagaagtgg ccaagaacgc ctaaggaaga ggcccagtca ctagaagacc 240tggctggctt caaagagctc ttccagacac caggtccctc tgaggaatca atgactgatg 300agaaaactac caaaatagcc tgcaaatctc caccaccaga atcagtggac actccaacaa 360gcacaaagca atggcctaag agaagtctc 3891042334DNAHomo sapiens 1042tgcaaacagg tcaggaaggt ctacagagtt caggaatata cagaagctac ctgtggaaag 60taagagtgaa gaaacaaata cagaaattgt tgagtgcatc ctaaaaagag gtcagaaggc 120aacactacta caacaaagga gagaaggaga gatgaaggaa atagaaagac cttttgagac 180atataaggaa aatattgaat taaaagaaaa cgatgaaaag atgaaagcaa tgaagagatc 240aagaacttgg gggcagaaat gtgcaccaat gtctgacctg acagacctca agagcttgcc 300tgatacagaa ctcatgaaag acacggcacg tggc 334104362DNAHomo sapiens 1043cccagtgaag gagcaaccgc agttgacaag cacatgtcac atcgctattt caaattcaga 60ga 621044102DNAHomo sapiens 1044tggcctctag atcctagcag ggaggcctat gggtctcagg agcccgtcac cagcctccgt 60gctccagagc tcacgtgtgg ggtcttgtta ggaggaccca ga 102104590DNAHomo sapiens 1045taaaaacgta gtcttagatc ttataaatct tttgactcta ctgtttttta ctgtgttaat 60gtttgttttg ctaactttgt ttatctgctg 90104684DNAHomo sapiens 1046cgcaaactct ccttgtacca taataatagg gaaagctcat actgaaaaag tacatgtgcc 60tgctcgaccc tacagagtgc tcaa 84104726DNAHomo sapiens 1047agcctgtggg cgaagttcac agtcaa 26104873DNAHomo sapiens 1048catgggcaga tgtagtaaaa cttggtgcaa aacaaacaca aactaaagtc ataaaacatg 60gtcctcaaag gtc 73104984DNAHomo sapiens 1049aagagagtgt ctatcagccg aagtcaacat gatattttac agatgatatg ttccaaaaga 60agaagtggtg cttcggaagc aaat 841050116DNAHomo sapiens 1050aaacaagagt caggttcaga aatccatgtg gaagtgaagg cacaaagctt ggttataagc 60cctccagctc ctagtcctag gaaaactcca gttgccagtg atcaacgccg taggtc 1161051134DNAHomo sapiens 1051cctttgaaaa gaaggcgtgt gtcctttggt gggcacctaa gacctgaact atttgatgaa 60aacttgcctc ctaatacgcc tctcaaaagg ggagaagccc caaccaaaag aaagtctctg 120gtaatgcaca ctcc 134105266DNAHomo sapiens 1052ggacagatgt gctctgggtt acctggtctt agttcagttg atatcaacaa ctttggtgat 60tccatt 66105331DNAHomo sapiens 1053ttgagaggaa gatccaaaag gattccctca g 311054149DNAHomo sapiens 1054gaagctttca actagaaatc gaacaccagc taaagttgaa gatgcagctg actctgccac 60taagccagaa aatctctctt ccaaaaccag aggaagtatt cctacagatg tggaagttct 120gcctacggaa actgaaattc acaatgagc 1491055416DNAHomo sapiens 1055ccagcgttaa attagtgagc cgttatggag aattgaagtc tgttcccact acacaatgtc 60ttgacaatag caaaaaaaat gaatctccct tttggaagct ttatgagtca gtgaagaaag 120agttggatgt aaaatcacaa aaagaaaatg tcctacagta ttgtagaaaa tctggattac 180aaactgatta cgcaacagag aaagaaagtg ctgatggttt acagggggag acccaactgt 240tggtctcgcg taagtcaaga ccaaaatctg gtgggagcgg ccacgctgtg gcagagcctg 300cttcacctga acaagagctt gaccagaaca aggggaaggg aagagacgtg gagtctgttc 360agactcccag caaggctgtg ggcgccagct ttcctctcta tgagccggct aaaatg 416105633DNAHomo sapiens 1056agccagcacg tcgtgtctca agatctagct tct 331057125DNAHomo sapiens 1057ggctctcaga tccaccctaa gtatccacca gccaagaggg cgcacatgcc aagtggagcc 60tcagttcatc gacaggtcct atggcccatt tatgagaaaa ctgatgacgc agtcagtagt 120tctga 125105830DNAHomo sapiens 1058ttcagaatgg aaggaagtca actgaatttc 30105986DNAHomo sapiens 1059ccaacacaag taaatgggtc tgttattgat gagcctgtac ggctaaaaca tggagatgta 60ataactatta ttgatcgttc cttcag 86106043DNAHomo sapiens 1060tgtgacatcc gtatccagct tcctgttgtg tcaaaacaac att 43106191DNAHomo sapiens 1061ggctccttgt ggcaatagga aaatgggaca gaaagtcttc ctgcctggaa ttcgagaacg 60tttcctctta tattgctgtc ctgtttggtg g 91106230DNAHomo sapiens 1062cctgagcctc agcacctgct tgtttggaag 30106326DNAHomo sapiens 1063cccacgagac gcctggttac tatcaa 26106472DNAHomo sapiens 1064tttgcttctg gccttcccct acggattata cctggccttc ccctacggat tatactcaac 60ttactgttta ga 721065265DNAHomo sapiens 1065gactcggtgg gagccgctag agccgggcgc ccggggacgt agcctgtagg gccaccgggt 60ccccgtcaga ggcggcggcg ggagcagcgg ggactgcagg ccggggtgca gcgaacgcga 120ccccgcgggc tgcggcccgg tgtgtgcgga gcgtggcggg cgcagcttac cgggcggagg 180tgagcgcggc gccggctcct cctgcggcgg actttgggtg cgacttgacg agcggtggtt 240cgacaagtgg ccttgcgggc cggat 265106696DNAHomo sapiens 1066atggctctct gtttcacatc aatcacggga accccttcaa catggaagtg ttggtggact 60cctggcccga gtatcagatg gttattatcc gacctc 961067275DNAHomo sapiens 1067tgcgttacat caagcgctgc ctaggagccc tgccagcagc ctgtatgctg ggcccagagg 60gggtcccggt ctcatgggta accatggacc cttcttgtga aataggaatg ggctacagtg 120tggaaaaata ccgaaggaga ggcaatggga cacggctgat catgcgatgc atgaagtatc 180tgtgtcagaa gaatattcca ttttacggct ctgtgctgga agaaaatcaa ggcgtcatca 240gaaagactag tgcactaggt ttccttgagg cctcc 275106856DNAHomo sapiens 1068atggacgatc taggaaactt tcagggagct aaggtgtcgg agagcaaagt atcctt 561069128DNAHomo sapiens 1069gtcccgctac ttcgtcacca aagcgcccgc cgcgctcgca tctgctgtga ggctgtgctc 60gggccgctcc cgccgaggga acggccctcc caaggctctg cgccccaatt ctcgctcgtt 120tgccaaga 1281070241DNAHomo sapiens 1070tgtcgaccca ggttaggaag cccgaggtcg gggcgttacc ccaagggccc tcccgcttcc 60cctccgaggg cagagaggcg tccgcgcccg gacgcactgc gggaacacct ggagcgccgg 120cggagctcgg ctgtccccgc gggagggagc ccgacgcgca tccttgggac ccggacccgg 180cgcccgcgcc tcgggacgga tttctgcctc ggctgcaggc gcagcgcgca gacctgagcc 240t 2411071104DNAHomo sapiens 1071cctggaagag aatggcgggc atctttttcc tgccatttat ctcatcaggt tttgctcctc 60ggtttaagca ggaagagaac ttcatgcttg gaagagcgca tccg 1041072180DNAHomo sapiens 1072gctgaagaat cgatctgtgg gacttggaac tgaaagcaca ggtcggggta agccccactt 60cacactggag ggccacaagt tcctgatctt cgggggctcc atccactatt tccgggtgcc 120cagggagtac tggagggacc gcctgctgaa gctgaaggcc tgtggcttca atactgtcac 180107366DNAHomo sapiens 1073atgttccgtg gaacctgcat gagccagaaa gaggcaaatt tgacttctct gggaacctgg 60acctgg 66107427DNAHomo sapiens 1074gctactgggg gtggattagc aaccaaa 27107556DNAHomo sapiens 1075cccgatgggg ctgtgcagag gctctgaggc tgggagcagc tcaggccacc gacctg 56107649DNAHomo sapiens 1076cctcatcctg ggccgtcgtg ggaggggctg acgatgtgga cctccctag 49107792DNAHomo sapiens 1077ccttcgtcct gatggccgca gagatcgggc tgtgggtgat tctgcgtcca ggccgctaca 60tctgcagtga gatggacctc gggggcttgc cc 92107868DNAHomo sapiens 1078ctggctcctg caagaccccc ggttactgtt gaggacaacc aacaagagct tcattgaagc 60agttgaga 68107999DNAHomo sapiens 1079gcgcccaaca gcattgcctt ttttatggtg tacccagacc tcatgcactt gataagaaac 60gccttcattt ttaccatggc aacctagagc acacagtca 99108095DNAHomo sapiens 1080agaagcacaa atgccgttca caggcacatg tatgcaacga ggaaagctaa tttacaggca 60tcccattgaa ctgtgggaaa tgctaggaaa ctttt 95108146DNAHomo sapiens 1081taagtgaaat gtaatgcccc atacctcgca taccttgcac taattt 46108239DNAHomo sapiens 1082tcatcgcggt gcaagtggag aatgagtatg gctcattca 39108337DNAHomo sapiens 1083agaagaggga ttgtggagct tctcttgacc tctgatg 37108428DNAHomo sapiens 1084gtgagaaaca tgtgctgagt ggccacac 281085309DNAHomo sapiens 1085agccagcccg tgtaaatctt gaacacactg cagagaaaac caagtgcatc tcgatacctc 60cctttcccgt gtccactggg atggatcctg gagttcgatg ttacaataaa tgaggactca 120aggttaaggc tcagggccac tcacagctcc ctatcttggc cttgctcctg ccgtctttaa 180acacagcagc actggagctc ctctgttctc aggacgcctt tccatctccc atagtttttc 240tgtggcaaga aatctgcatt ggtgctgcgc ctggcttggg atcagggcca tctccactaa 300cttgggaaa 309108657DNAHomo sapiens 1086tgttggccgc catcaatttg caaaaacttc accaggatac tttcaatcag cttcata 57108749DNAHomo sapiens 1087ctggtattcc gtgaaaacag gtttgacaag aagaccgcag gttttcacc 49108861DNAHomo sapiens 1088ggaggaggga accctgcttg tgtcacctcc gcttgtggat cacgtcatgg agatgagtgg 60g 611089277DNAHomo sapiens 1089atactgtctt ggagatcagc ctgcctttca ttctgctagg ccatgtggga ttttgtgttc 60ccctcgtctg gagttaggct ggttgtgggg tttgttgttg ctgtgttatc ctttgtgcat 120catgggcttc aaatgtttct ggtggtacct tgtgtcaagg gcaagtgctg gtttggcaga 180ggttgttttc tctgtgtctg cattcccctc tgagtctcgc ctttgcattg agtcccacag 240agaatctgtt gcttgcggat ctctcagcta tagtatg 277109026DNAHomo sapiens 1090ctctcagatg cctcacaagc agcaac 26109191DNAHomo sapiens 1091ccataatttt gtccttctaa gcttctgatg cactgaatta tgtaaagtgc attcccttca 60ccagcttgtg caccctattc tgtaactgat a 91109268DNAHomo sapiens 1092ccttctgatt atggaatact gggtcggctg gttcgacaga tggggagata agcaccatgt 60taaagatg 68109338DNAHomo sapiens 1093acatgctgtg tctgaattca tcaaatatga gatctcct 38109454DNAHomo sapiens 1094ctttggtttc atgaacgggg ccacatattt cgggaagcac tcgggcattg tcac 54109526DNAHomo sapiens 1095gtcgctggtg tagtagcctc tccagc 26109640DNAHomo sapiens 1096gaggctccgg aagcctgttc tggcaccact gggttcttga 401097506DNAHomo sapiens 1097cccaacaggc tgtcattgca gtagacaggg ctttccggga cttagagctc cgcttcacac 60atctggtata ctgccctgtt ggcttgaacc tctgaagaga ggcagggtag gaacggtgac 120tgctgtaaag gcacagacct gcacggccgg gcgatacaga ctgagcaaag aaaagagtac 180ccgttgaagg ggtgtccact cttttggctt ccctgggcca cactggaaga agaagaattg 240tcttgggcca cacatgaaat acactaacac taatgatagc tgatgagctt aaaaaaaaaa 300cacaaaatgt tttaagaaag tttatgaatt tgtgttgggc tgcattcaaa gccatcctgg 360gccgcctgta gcccatgagc tgtgggttga acaagtttgc attagaaagt gaagaagtgg 420gggcaagccc agtgtcatgg cttgacactg gaagccagtg gaaggtgccc aggaagagtt 480gtggggaatg tccttagact ggcatc 506109830DNAHomo sapiens 1098gcagtgctca cggaggctgg agattacaca 30109941DNAHomo sapiens 1099gtactcagca cccatttaac ttacgggcca gccctcctca t 411100219DNAHomo sapiens 1100tgtgggcagc agttacacca agctcctgag aacaagggca accttaactt cgaaccctgg 60ggttaaaatc tgtgtgattt tttaaaatca gggtttctaa gcattttata agcctcagtt 120tcttcactga agcataaaga tagtaacctt ggtctcctgt gatgactgcg aagattgagt 180tactctttgt aaagctctta taccatggat gacatagta 219110167DNAHomo sapiens 1101aaggctgtgt atccccccgt gagaccgtcg ctgtacctcc cgctgtggga cgccctatcc 60tacttaa 671102790DNAHomo sapiens 1102gactgtgtgg tccttacgga atccacgtag gaaaagctgc tgagctggaa tcgggagact 60agcttctgcc cgtgcttcac cagcagctgg gcctgaactt cctgggtcac tgctccccct 120tttccatcag ccttcctgtc ctattttgaa gaaaggtgaa agctgtttgg aactgaaact 180gtagcccttg gattcacatt ggttttacct ctgctatcac tattttagag aaaaggtagt 240gactggtaca ctaaagaaac tacatttatt taatgtaact aaatttaatt taatgaaata 300aacatttgct tggtgcctca ttcattgcta gacttcaact attttagaat acaatttatt 360tactcttttt ttttcttgag acagggtctt gcttggtggc tgtggctgga atgcggtggc 420acaatcatgg ctcactgcag ccttgaactc ctgggctgaa gcaatcctcc ggcctcagcc

480tcttgagtag ctgggattac aggagggcac caccacgccc agctacattt ttaagttttt 540tgtagatgtg ggtctcacta tgttgcccag gctgctctca aactcctggc ctcaagtgat 600gcacctgctg cggcctccca aagtgctggg attacaggcg tgagcccctg cgccccatcc 660atttcctctg ttaatcagtt cttaggatta taacgattgc tccctcatca ccatgccctg 720catttccctg agtttccttc ctgggcagtg gagacgtaag cacagagcag tgtcacatgg 780catctgtttc 790110327DNAHomo sapiens 1103ccagtcaggt cgcgtcagcc cgtcaac 27110485DNAHomo sapiens 1104gcggccagtc ctacgggctt gtcctgtatg agaagtccat ctgctccgga ggccgcctcc 60gtgcccacgc tcatgacgtg gcaca 85110568DNAHomo sapiens 1105gtttttggat gagacaatga tagggattct gaatgagaat aataaggacc tgcacattcc 60tgaactca 68110647DNAHomo sapiens 1106cctggtggag aatcaaggac gagtcaattt ttcatggcaa atacaga 47110749DNAHomo sapiens 1107tgtcagcatc aataactctt ccctggaggg ctttaccatc tattccctg 49110825DNAHomo sapiens 1108cagggcccgg ccttctactg tggga 251109109DNAHomo sapiens 1109ttatggattt gtgttcatca atggacgtaa ccttgggcga tattggaata ttgggcctca 60gaaaacactg taccttcctg gagtttggct tcatccagaa gacaatgag 109111034DNAHomo sapiens 1110aagatgatga gtggctcaga tatcaaatct acag 341111301DNAHomo sapiens 1111ccactcccgg ccgtgaacat attttttggg ttgctggagt tcatctataa gtcatttttg 60aggaataaga tttatgttaa gactatcaaa cacagtgttg cctacaatag caaaaatgtg 120aaaataacaa caacaacaaa acagcagagg aattgttatg tattttgtag tctatctata 180tgatgcctat ttttaggctt taaaaagtct tcaaaatctt taatgactga tttatctagt 240taaatgctta atccttagca ggctcttatt ctttaattaa acgtgccttt gagtagatgt 300g 3011112229DNAHomo sapiens 1112ggtcaccgaa gcttctctga aaatgtgaca tctctgagga aggtggaaca ttaatcatct 60ctagcagtgc ataggccctc tctatggcat tgtcaactaa gcactaataa tagtcagggg 120acaacatgca gcgatagcca agagcatgga tcttggagcc aaagagatca ggttttaatc 180tcagctctgc agcgctagcc atgcgctagc ttcatgcagg cttccttca 229111325DNAHomo sapiens 1113ccactatcac caccatcacc atcaa 25111429DNAHomo sapiens 1114tgagatctca taaactttca gatcaaaat 291115143DNAHomo sapiens 1115agccgcgagc cccagccaat gagcgccggc gggccggttg cccaggcgac cagtgcgcgg 60ctccgccccc cgcggcgagg ctcccgcgcg cggctgagtg cggactggag tgggaacccg 120ggtccccgcg cttagagaac acg 143111672DNAHomo sapiens 1116cacgtggagc ctccggcgga ggccggcccg cacgctggga ctcctgctgc tggtcgtctt 60gggcttcctg gt 72111771DNAHomo sapiens 1117ccctccagcc gtcagagccc tctcagacgc accccatcgc ggccccgtcc ccactgctcc 60gcggagagct c 71111826DNAHomo sapiens 1118cctctgggag gcgccttatt ccgcag 26111979DNAHomo sapiens 1119tgaccctatc tttcaggtca gcactttcca tattcaaaac ctccagtggg aagccgaccg 60gcagtatcga atgaactga 79112030DNAHomo sapiens 1120caggtagaac agaagctcaa ggagctctga 301121103DNAHomo sapiens 1121cggcggtcat cgtactccgg atgttcacgg cactccggat gttctgctgt gcccggttgc 60atggatcctg gcctatctgt gtctggtcat actctgcatg gca 103112242DNAHomo sapiens 1122tgccgagagg cgctttctcg cggaccggag ccttcgacgg cc 42112346DNAHomo sapiens 1123tgaagacctg gaatcgggtg gatgggtgga cgccgccaac gcagac 46112480DNAHomo sapiens 1124tctctgctcc tgcggtcggg cggctgcgac cgtgccgggg ctcggaggta ccgtgtgaag 60tcgctgtcgc gcgtggccgc 80112541DNAHomo sapiens 1125cctccatgcc gagtgctgtg cttgctgccg gctgcagcct c 411126105DNAHomo sapiens 1126ggcggagggg agcttttccc agccacctgg acgcaggcgc cctcgagaga gaaatgccga 60ggacctgcga aggggcgagg aagccgatct ctctgcggcc cggag 1051127177DNAHomo sapiens 1127tccctctgcg gctccgccat cgacagctgg ggctgcaggc caagggctgg aacttcatgc 60tggaggattc caccttctgg atcttcgggg gctccatcca ctatttccgt gtgcccaggg 120agtactggag ggaccgcctg ctgaagatga aggcctgtgg cttgaacacc ctcacca 177112866DNAHomo sapiens 1128atgttccgtg gaacctgcat gagccagaaa gaggcaaatt tgacttctct gggaacctgg 60acctgg 66112925DNAHomo sapiens 1129caccgacctg gtgtgggagt ccccg 25113049DNAHomo sapiens 1130cctcatcctg ggccgtcgtg ggaggggctg acgatgtgga cctccctag 49113192DNAHomo sapiens 1131ccttcgtcct gatggccgca gagatcgggc tgtgggtgat tctgcgtcca ggcccctaca 60tctgcagtga gatggacctc gggggcttgc cc 921132174DNAHomo sapiens 1132ggcaaaaagc tcacagacat aggtctggtt tgtttctgtg ttccagttcc cattctgtac 60tgaattgtgt tccagttccc attctgtact gaatttcctt ttcaggaaaa gcagcaccca 120gaggggatcg ctttcagtga tgctgcagtg agtgccctca cgtagccatg catg 174113360DNAHomo sapiens 1133ggggcatagc ttctgtctcc actacccagg gccacttctc aggcactgat ccatccagcc 601134442DNAHomo sapiens 1134cctgaccctg tttaggactt ccagaccagg gcaagaggag cctcagagcc ttttgttaga 60aaatatgtgt cttctcagaa cctgaagtga gaaggaagag ccctgactcc agctttggaa 120ccaatccacg ctgctgtgtt cctctgggga gtttgggatc atagcaacag ggtggaggga 180gaattcaact cttgctcacc tgctgctctg ggctgtgcgc cactgatgcc aaggcgttag 240ccacgttggc aaggatgggg actgcctcct gctcagcccc tcgcagtctc tgtcaggctt 300gttttttggg gtgacgctag aaggttgtgt ctcctccttc cacagcctca gtgattccta 360acccttttga cttcactttt tgaaatggga tcacagagca agttgttgaa aactaggcct 420ggagtcctgt gaaaagcttt tc 442113553DNAHomo sapiens 1135ggacaactta caagggcttc accgaagcag tggaccttta ttttgaccac ctg 53113692DNAHomo sapiens 1136acaagcgtgg gggacctatc attgccgtgc aggtggagaa tgaatatggt tcctataata 60aagaccccgc atacatgccc tacgtcaaga ag 92113767DNAHomo sapiens 1137accgtggcat tgtggaactg ctcctgactt cagacaacaa ggatgggctg agcaagggga 60ttgtcca 67113872DNAHomo sapiens 1138gtaactgcac ttgtgttggg ccgtgggggc tggcggcggc cctgggctgg ctgtgcacgc 60tcccgctgtg gg 721139313DNAHomo sapiens 1139tgttctcagc atatcagcct ccgtgtgcct ctgaaaatgt cgtccagatt accctatcct 60gctgaacgcc aggcatctct gtcacactca gagtgaagcg caggttctgg gaatgacctc 120gaaaggcctc tccacttggc ctccaggacc tagctgagct cacctcctgc tccttccctt 180tgctcacacc gtttcaccct ctttactgtt cctccaacat ccagatcccc agcctggggg 240gctttgctct tcttccagag agctacatgg ctgttctccg aagttagcga ggctttctgt 300agcaccacac ttg 313114055DNAHomo sapiens 1140gtagtttatt tatgtcattc atctgtttca cccagcagta ctcttggcgg ggctt 551141137DNAHomo sapiens 1141agcagcgcct agctggcacc cagggagtga aggtccatga atggcgagga aaaggctttt 60gtccccaggc agagtcagtc aaggacccag acctcgtgtc tccggcatgg ggaggaccag 120cagtgatccc cacggct 1371142906DNAHomo sapiens 1142ctcccggttt caggccttgc aaggaagccc gggagccgcc actgcttttc cctgtggccc 60tcccacctcc aggcacccac ctgcgtgccc ctgttgccac ctgctgcccg gaataacttc 120tttttttttt ttttaattaa aaaaattaaa tggtctaaaa gtgaaataat cgaaaatgtt 180ggtagagaaa tacagtgttg cctactcttc gttacattct ccagaaatga ccattttcaa 240ctctttgact ttttctttgg atattttcct tcttatttcc aaatactgtg aacatacagc 300cctgcatcgt ttgctttaaa agttctgcct attggccggg cagtggctca ggcctgtcat 360cccagcgctg tgggaggccg aggcgggcgg atcatgaggt caggagatcg agaccagcct 420gcccaacatg gcgaaaccct gtctctactg aaaatacaaa aaattagccg ggtgtggtgg 480cgggcacctg tagtcccagc tactcgggag ctgaggcagg agaatccgtg aacccgggtg 540gcggagtttg cagtgagccg agattgcacc actgcactcc agcctggacg acagagcaag 600actccgtctc aaaaaaaaaa caaaaaacaa aaaacattat ccgagcgtgg tggcgggtgc 660ctgtaatccc agctacttgg gaggctgagg caggagaatt gcttgaatgt gagaggcaga 720ggttgcagtg agccccgatg gtacccctgc actctagcct gggtgacaag agcaaaactc 780cgttaaaaaa aaaaattctg cctattgact tcttgttcca gtaggtgatg agtgttcttt 840cctgccagca tggctgttca gccctgatag gcgccagcgt gggcctcgcg gatgtgtatg 900acaacg 906114382DNAHomo sapiens 1143ctgcttggct gcatcccgcg tggaatcctg cttcctggag ttccaggaaa caggatgttt 60cttggtgctc cgtggcttcc cg 821144116DNAHomo sapiens 1144actccggctc ccgagcgttt cctgggtctt cttcctcctc gcccccggcc aagttcctca 60gggagcccgc cctccccttc tcgtgctgct gcgcatccgg ggagcggccc agttac 116114528DNAHomo sapiens 1145cagctcgggc ccagggttct caggcagg 28114671DNAHomo sapiens 1146tcttggccac catcaacttg cagtcaacac acgagctgca gctactgacc acctttctct 60tcaacgtcca g 711147337DNAHomo sapiens 1147ctgctcagcg gcctatggga attctgaatg cctgtcagcg tgctcagctt ccccagcgca 60gggagctgga ctcagggctg atggcctctg gccccccgcc catgccactg tgtgcctgca 120aggcccgctg cccagaaaca cctctgaggg ctgctgtgta ggctgatgca gtgtggacat 180cacccactgc cctgagagag gggccctttt ggtgcactcc tagaggactc gacttttgtg 240gcctcaacta gctccagact tgctcccagg gattgagggg ggaaggaaaa acttccctgt 300cctatactac acaggcatcc gaccttaacc tgtgagg 337114865DNAHomo sapiens 1148ctctgggctt ctgcaaacgt ggcagagtgg agcatggtcc caggaatgat cttggcctcc 60ttggg 65114927DNAHomo sapiens 1149cagaacctgc accatgaata gctgtgc 27115038DNAHomo sapiens 1150aactggtgtg caggcgaatt tggccctcac ctatgccc 38115156DNAHomo sapiens 1151actggacggg gtggtttgac tcgtggggag gccctcacaa tatcttggat tcttct 561152105DNAHomo sapiens 1152gttttgaaaa ccgtgtctgc cattgtggac gccggctcct ccatcaacct ctacatgttc 60cacggaggca ccaactttgg cttcatgaat ggagccatgc acttc 105115327DNAHomo sapiens 1153cttcgtgtct ttggcaatag agtacct 27115428DNAHomo sapiens 1154cagtcatgtt acactcccag aggaggga 28115573DNAHomo sapiens 1155atgctgtgct gacagaagcc ggcgattaca cggccaagta catgaagctt cgagacttct 60tcggctccat ctc 73115678DNAHomo sapiens 1156tctcagaccc ctaaagagtt acttccttac tgtcccacct cgaccccagt tgatctgcgt 60gcaagaatat cctagaca 78115738DNAHomo sapiens 1157accttcttcc caagatgccg tatgagccct taacgcca 38115826DNAHomo sapiens 1158ctctgtggga cgccctcaag tacctg 26115927DNAHomo sapiens 1159gtgagtgctg tgggcagtca tcgggag 271160102DNAHomo sapiens 1160aacctgccag tcaatggggg aaatggacag tccttcgggt acattctcta tgagaccagc 60atcacctcgt ctggcatcct cagtggccac gtgcatgatc gg 102116136DNAHomo sapiens 1161gtaggagctt ctcttctaaa ttcctgtgac cttctg 36116262DNAHomo sapiens 1162gtgtttgtga acacagtatc cataggattc ttggactaca agacaacgaa gattgctgtc 60cc 62116378DNAHomo sapiens 1163ggttacaccg tgctgaggat cttggtggag aatcgtgggc gagtcaacta tggggagaat 60attgatgacc agcgcaaa 78116426DNAHomo sapiens 1164aatctagcta aatgtgggtg gtttca 26116543DNAHomo sapiens 1165ttaattggaa atctctatct gaatgattca cccctgaaaa act 43116638DNAHomo sapiens 1166ctggcccgca cccaggtgtg aacgcctcca ggggccag 38116735DNAHomo sapiens 1167gttcggcctg gacaaatgga gttccctccc agaaa 35116826DNAHomo sapiens 1168atgaacaccc ttcccctctg tttcaa 26116960DNAHomo sapiens 1169tggccagaac cttggacgtt actggaacat tggaccccag aagacgcttt acctcccagg 60117048DNAHomo sapiens 1170cctgttcccc atgacgccct gcccacctgc cgtcccaggg agccttcg 48117142DNAHomo sapiens 1171gacagacgtc agctgccctc ccagccgggc cctctctcca ca 42117282DNAHomo sapiens 1172tcatcgtttt tgaggagacg atggcgggcc ctgcattaca gttcacggaa accccccacc 60tgggcaggaa ccagtacatt aa 821173119DNAHomo sapiens 1173tgccagtggg agactgccgc ctcctcttga cctgaagcct ggtggctgct gccccacccc 60tcactgcaaa agcatctcct taagtagcaa cctcagggac tgggggctac agtctgccc 119117471DNAHomo sapiens 1174ccctgctctt gtgccgaggc tgtcgggctg tctctagggt gggagcagct aatcagatcg 60cccagccttt g 711175260DNAHomo sapiens 1175aaaagtgctg aaacgtgccc ttgcactgga cgtcacagcc ctgcgagcat ctgctggact 60caggcgtgct ctttgctggt tcctgggagg cttggccaca tccctcatgg ccccatttta 120tccccgaaat cctgggtgtg tcaccagtgt agagggtggg gaaggggtgt ctcacctgag 180ctgactttgt tcttccttca caaccttctg agccttcttt gggattctgg aaggaactcg 240gcgtgagaaa catgtgactt 260117643DNAHomo sapiens 1176gaaatcctca ccctgcgtct tcccaagtta gcaggtgtct ctg 43117728DNAHomo sapiens 1177gtgagtcctg gcagaagcca tggcccat 28117860DNAHomo sapiens 1178cccagctcac atgtgagtcc tggcagaagc catggcccat gtctgcacat ccagggagga 60117928DNAHomo sapiens 1179gtgagtcctg gcagaagcca tggcccat 28118039DNAHomo sapiens 1180tctgcacatc cagggaggag gacagaaggc ccagctcac 39118128DNAHomo sapiens 1181gtgagtcctg gcagaagcca tggcccat 28118240DNAHomo sapiens 1182tctgcacatc cagggaggag gacagaaggc ccagctcaca 401183115DNAHomo sapiens 1183agagcagccc tccttcgaag tgtgtccaag tccgcatttg agccttgttc tggggcccag 60cccaacacct ggcttgggct cactgtcctg agttgcagta aagctataac cttga 1151184111DNAHomo sapiens 1184agctgtgtat gagctggttc cgtcagaaag tgatggaatg gaagggaacc ttcctgcaaa 60tcctcctgta aggtggagaa gccccttgga tcacacttcc acgcagacct g 1111185140DNAHomo sapiens 1185agcaggctga gcaacgcttg ttccgcctgg tggagagttc gttcttcttg ggcccgggga 60gctgcatgtc agggtgttgc tgcttcgctc aagggtcact tatcacggag gcctctgtgg 120tcaccctaca gagcactgac 140118650DNAHomo sapiens 1186tgatgttttc ttgctagtgc cacctcttat gaatcccatt gtatattgtg 50118729DNAHomo sapiens 1187cttctatgcg cccgtcattg ctttggcat 291188148DNAHomo sapiens 1188aagctggcct gctccgacaa cactgtcaac ttcttctatg gtttctttct tgccctctgt 60atgatgtcag aaagtgtgtt cattactgtg tcttatgtgc tcatcctgaa gacgatcatg 120ggaattggat cccataggga gcggctca 148118989DNAHomo sapiens 1189tgctgttagt actcccattt cctttcactc ttacaaggtt gacatattgt aggaaaagcc 60tactctctca ttcctattgt ctccatcag 89119093DNAHomo sapiens 1190ttttgaccgg ttttggccat atgccaccct ctgaggtaca tatctgaggt actggtgagc 60tgtatcctca ccagtgccag agttgccaaa atg 931191284DNAHomo sapiens 1191tggagcatgc ccatatatgg atatctgtcc ccatctgcct catgtacttg gtagccatcc 60taggcaattg cacaatcctc tttgttatca ggactgagcc ctcactccat gcacccatgt 120actatttcct ttccatgttg gctgtctctg atctgggcct gtccctctcc tacctaccca 180ctatgctgag gatctttgta ttcaatgcca caggaatctc ctcaaatgct cgctttgctc 240aagaattctt tattcatgga ttcacagata tggagtcctc agtg 284119239DNAHomo sapiens 1192aagctgcaga accaacgagg tggccgaatc ttccttcag 391193346DNAHomo sapiens 1193aggtgctggt catcattctg tcccattttt tgccactgtg ctaaggcttt tgactcaacc 60aagaaaaggg ccggtcttcc agcctggccc tgcaagagtg tcctagtgct tcaggtagtg 120gatgggcatc gtcattcgtc ccaccttcct gccccctaaa gccccaggag gacacactct 180cagcatcagg ccagctctcc gggtcactgg ggcttggctc aacaggatgt gcagggcaga 240gccgggaggg aagagcagaa gatgccatgg gctgttcgca ggagcagccg tccagggcgc 300cgctggagga agatcttcta gtggctgtct cagcacgtac aaagaa 3461194192DNAHomo sapiens 1194cagagcttca tgacggcctc ggattggcag tcaacccagg gatacagaaa tgtaaacaaa 60aacagagctt ccagataaca ttactgtgtg ctatgtgact ttcagaatac agcagcgtcc 120cagacactct aaagtcaagt gaaacaagag attttagaat caatctatac acatttcaga 180gggcagtcca gg 19211951103DNAHomo sapiens 1195tcttctctcc agctaggtgc acttgaggtt gttcataaat gtaaaattat gtcaggtttc 60taacatggga cactgcacac agttgtctga cctgatgaac catcccattt gaaagtatag 120attattatta tttcttgtag tatttggttg ttttccatct cattcatgaa caactcaacc 180tgatagtagt atccaataaa tgcctttcag ggctcaggaa tgaattgaca tcctagttaa 240gaaatgagac ttaataatgg agactgaatg aggcggtttg tattaaatta tatgccatga 300agtgttcatt ttagctttaa cctaattatg actgtaccac catgaagtac agaatgaaaa 360attatatata tgggggggaa acagaatgaa tatctgattc ttttgaatgc ttgtggaaat 420ctttgagatc gtgcagggca taccacaaaa tagcctttag aacagatacc caattttaca 480gttcatagga caacatcaaa cattagtaag tctaaataag atgaatagaa tttttgttat 540gtaaattttg ctagaacagt ctattttctt gcacccctca agttaacctc ttaaaaaaat 600gaatgtataa tttctaccga aagaatatca gagagaatct ctctggccta tagtgttaaa 660atattgttca caaatcctga ttagttaagt gcatacatta tgaaacttac agaataaaac 720ttattataca tctctttctt aaattaatat ctttacacat tttcaactgg ctccccaagt 780ctgataagga aggattaaaa gaaaaaagaa atgtattagt tgggtggcca aggagtttcc 840tttgtaatgt tgagagactt ccgctttctg aatttcgctg gttctctaag gtaaaagagt 900taaatagtac ccttgttcac caaggaaagt gatccaaact atatatctag tgcagatatt 960tcctttgcat tatttagtct tctctggaga

gaaaatacag tttccccttc ctctttctct 1020tcacatttac tcttttcaac ccaaaataag agacatagaa agcaaaccac agccagtttg 1080gcatcttctc agtgctacta gta 1103119636DNAHomo sapiens 1196tgacttgtaa cccttcagtg gaatgggaaa tttctg 361197649DNAHomo sapiens 1197tggcttagtt agcagaccta gaatctgccc aggtgagacc tagaacaaaa atagctgggg 60tgaaatggat aagagaggta gaggtatatg tcaaggcaga gccctatgag gaaggaagag 120ttttcaaaga atatgaggaa catagtgctg agagtgtggc tgccttcagc accgtacacc 180taatctagag aaaatatttc ccatgtggga ggtcctgtct gcattcagtc cacccttttc 240tgcctgcttc ttcctccaag tgcctcaacc tctacatgct cactctcctc cccttccctc 300agcccatctt ggtctaagca gctttcacaa tccaaaccaa acatcaccag ccacccgctg 360ataagtcacc agcatttact ttcctgagtt actttttctc cattcattga gactatggat 420tcatcccaac tccttctaaa tccctcaacc atccagctat attttggcta acctttgccc 480tagacactct accagatgtt aatgcagtat caagtgtaaa ttgtgtcacc ctattctgtt 540ctaccctttt ccctgctgcc gaaatatctt gctctcctct acctcatccc caaagagcct 600ataaattcag agtatccaac cttttcatgg attcactcac tgttgttca 64911983484DNAHomo sapiens 1198cgctgttgaa ccaagctgct cactggacac atatttgtgt ccccaggaga ttatttgtca 60ggcactgttt tttatttgtt tgtttgttca tttattgttg ttttactgct attggcgata 120acatgaaatg tgatacagct attgcccata atttaatgtg aaattaatca tgatgaattc 180tatagcatgc tactgaaatg ccaaattcag ctattttctt tctcttctaa aatggaagtt 240tcagttttcc atatcagatg tatataagtg gaattataac acaatcctat cactgacagt 300aatcctcagt caccttaaat aatcagtgct cacagtgctg cttacagttc atttagttgg 360cacatataaa cctgtaccca cacaagactg accaaaaatt ttctttgcac atttttcctt 420tctcatagtt tttttctata tttcgttaag caaaggaagg ttaatatgcc tatttttcct 480gttaggcttt tagaaattat tttccatgac ttttgttctt ataataggtt agacagttta 540tttttcaaag gtaaaaattg tgtttctatg cattaatgtg attgaactac aaaaacagag 600tgcaatatgt tcaaaaaata ctcaactaaa ctttccccct gtcatatcac tgcaaaagtg 660tccttttaaa cagagccata aagaaatttt tttcaaattt ctttattgca caggcttttt 720tcagttttac ctttctggga ttgaacaatg ttcctttcat aatgccaaag cattcccttc 780cccagaaaaa tctccttgga caactggttt aaaaacgtta ttaagtcata ggggaggaat 840aagcggccaa aaagtcacat ttttgcattg gtttacgttg cttgattaga ctatcttcag 900agagcacatt atgtgtttat agctttaatt tgtattatgt caatgaacca gtgaagtgcc 960taaagagatg cttacaacta tccagtagga cacaactgca ctgcttttta aacacttttt 1020ggttagttaa gggtgacttg aattgtacac atacatgcta atttttgaaa acttatccat 1080ttttcatagt aaataatata gataaaattt tctgttagag ttcccgcaaa tatttcattt 1140tagacttact tgtgatataa gatttaactt ttcttttgtg aaagaatcgt gaactagtgt 1200ttcatgaaat cattttcctc ttccatttat catcctcctc tggtacaata tattgggttg 1260ctttctttta gattttgttc cagataggaa aacaaatatg actgtatact tattaacata 1320aggtagttct gcatttttgg attccaggat cctgtttgaa atcttccatg tgaggaaaaa 1380attactaata tttttaaaga cagggtggtt tatttaaaga gattattcag agaacttgtg 1440ccatatctcg tctgttttat tgcatatgcc atatgttaac ttttattcaa tattacatta 1500tgtagatatg taatacaaag aaaatattta ggagaatggc aaaacacaaa tggcaacata 1560aatgtccatt tgacttacct aacttcacaa ctttcaagtt gaggatgtca tttattcttg 1620aatttgtttt tttactagat gctttcaatt aatagcccta tatttttgtg caggcgaact 1680gtataacagg ataaaaaatg atttgtatgt attgaaaagg aggagaaatt ctcacagaac 1740accatatgag ctttagacca aaaggggaaa caaggtttaa gtaactaaaa tggccactta 1800gtttgtgttt atttttttcc ctggaaatgt aagtagttgg agtttaggct atggaaatat 1860tagtgccttt aatagatctc tttccttgca aagtttcttt ttagctcagc attgatctat 1920cttatcaata ggaaaataag ttgacttgga actataaaca aaaacaacac catatattta 1980tgaacctcag tgaaccagcc tagaaaaatt gacttctgca ggtgctaaag cacctactaa 2040tacgcagcat gcacagcatt tcaggttgtg aataccattt tacaacgagt ttgctgttaa 2100ctctctttat ccaatgcaaa cttgaaattc tgatgcggtt ttccagggtg gtattttttc 2160agagtattga atttactatt tagtaattta tagtatagct ttttatatta aaatgtgata 2220tttttaaaag agatatctgg ttcaattggt ataatgacgt gattatgcaa tatgctgatc 2280tacaccttgc gctcacattg tgccaaactt aaatgtgcaa gtgtacgtga gaaaagcaca 2340tgtgaatgtg aattctttaa ttctttgctt attatgttaa aattagtctt catagtccac 2400tgatgtgtat gcttgaataa tgtctattta ctttggaatt tcaagatttc cagcttcaat 2460ggtaatttat aatttctcag atcaccttaa gaaatattga gatactctcc cacctgaaaa 2520taatctgttc tttaacccac ctgactatgg gagtagccag gcaggtgcct cactggcttc 2580ttcagacgag gcttcctcag gtggatatat gactattagg ggaaaagagg cttttgagac 2640agcttattac ctccttcccc tttttgaact aagtacattg tctcagtccc agtatgaatt 2700tgtcccattt ggggtatttt taaaataaaa gatggctaac atggaatctg gggcatagcc 2760ttggccttta attatggttg taagcccaaa taatggcaga gaaacacagg gctgttttta 2820caacagaaaa ctcaatataa gttttatata agaatcctat aaaatttgaa ccagagctcc 2880tatttagttg ttataatgtc tcctaaagat cttaaatgct tctaaaagct aattattatt 2940ccagagcaac tttttccttt tcccccttat aaagtttttt tttaaatcca aaatcttaga 3000tttctgtgcc acagcaaaat aaaatgatca acaattaaag atctgtactt aaaatagtac 3060accattttta gtggagggag ggtgcatgcc tatatgatgg taagattctt ttgaactcta 3120aggacaattc ctcatggaaa aaataaattt cagtgcatat tataaaaatg atttgcactg 3180tgttagcaaa ataaggtgtt ttaggttgta ttttaaagac aattctaaat catttctctg 3240gaaagcaaga ccttaaattc ttctctttaa tagaactgct tttatgcaaa gagatggtct 3300taacatggac taaacagtac ataacaataa tgtttgttat gtaaatagta tatcacattt 3360gcttagtagc acaattcaac agcaggctga aagtcgtggc tcctctgctc agattgagtt 3420ttaagttacc taatttatgt aatcagaatc tattctaggt ggccgtcaac gtaaactgtg 3480tttc 34841199200DNAHomo sapiens 1199ctagtgtcaa agtttagccg tttgtttttt tttttttgtt ttttgcggct gtaatgtgca 60atgatgtgtt ttattttcct tgatgcttaa cattactaac aattgcaaaa ataatactga 120ggagcactac tttgcattgt ttgtagttgg agttttggat actgatcata aatcatgaat 180ctggcgtatt aatgcttaac 200120072DNAHomo sapiens 1200tacttttaat ggaagcacga atgcaagctg aacttcttta tgctcttcgt gccataactc 60ggcatttgac ct 721201362DNAHomo sapiens 1201tatggcttca gtacctaaca gattttttga agtcttagag ccactcacat caggtaaata 60cccattttac atccagcatt tccccttgat gggtctttat cccatattta tatgtttgct 120ctagattttc ttccttttct agattgtatc tagaaattct ctttactctt caggagaata 180tatccaacca catatccaac tggtataaat atatcaaaag aatataatat taaaacatat 240ttttatagta aattttgaaa acttgtggat acccatttta acttatcagc cgagatgtaa 300ccccgaaaga aatgttctgc agaattttat ctgaaagact ctagggaagc tatgtatgtc 360ta 362120233DNAHomo sapiens 1202gtacgtgttt cagtattaag cattatacca tag 331203100DNAHomo sapiens 1203gaagcctgaa ggtttacatt aagacagtga cctgctatcc tgagagaact acaaaacgca 60tgtatgatag ttactggcgg cagttcaaac actcagaaaa 1001204146DNAHomo sapiens 1204ggttctccct ggtgaacaga ctttattctg acattggaca tcttcttgat gaaaagtttc 60ggatggtcta caatctcaca tataacacta tggccaccca tgaggatgtt gacacaacca 120tgctgcgcag agctttattt aactat 1461205109DNAHomo sapiens 1205tgacatgatt ataacatctg atgtctctcg atatattgaa gaccctggtt ttgggtatga 60agactttgcc agacgaggag aagagcattt gccaacattc cgagctcag 1091206218DNAHomo sapiens 1206cagtggtgtt agtaagatac agttaattta tttcttaaat ggatatttct tcctgtatta 60atgaaacaaa aaatagatag taagtgtgta gtatagtact tggtatatgg taagtactca 120gtaaacaccg tctcttttct ttatatgtaa tgaagtttgt taagaatttt aataagattt 180atctgaaatt gggtaaccgg agcacttaat ctttcctg 2181207400DNAHomo sapiens 1207ttgaccagcg ttataaagta ttccagattc tatgtaagga ttctaagaat agtttttcaa 60gtcttttgaa gaaaataaat gtttaaagta ttctacaggg gtcatattct gtagcttggt 120aacagggtta actagctttt actgtttttt gtattttcag ttacgcattc cattactgca 180acagaatgtt tcccgtatta tgtcagtaac tacttcttag gggcagaata atgcagataa 240tgaacaaaat actatttctt ttgagtacag actttgaaat atttgtttag atagaattaa 300agctagagtt ttagatttaa taatcagaat gctaatttta acttcttaag ataaatttag 360gaaaaaagta tttgtggatt gagggacctt tgtacatttc 400120887DNAHomo sapiens 1208tttcagtctc taccttcttg gaactttaag ctgggactac agccttcaaa agtgaatttt 60gactagaaag tcttggacct tagccaa 871209116DNAHomo sapiens 1209ctcttctatc ttaccctcat gctattgctt tccctcaggc tggttcatcc ttgaatgtat 60ttcagattga gttgagagaa actttcagct ttgtagttca tactctatcc tggata 1161210116DNAHomo sapiens 1210ggattctcta agtgagctag aggccttaat ggaaaggatg aaaagacttc aagaagaaag 60ggaagatgaa gaggcgtctc aagaagaaat gagcactcgt tttgaaaagg agaaga 1161211208DNAHomo sapiens 1211tggtctctgc ctgaactggt acatgctgtg gtcctcctgg cacattatca tgctttggca 60agctttgttt ttggtagtgg tatcaatcca gagagagatc cagaaatctc caatggattc 120aggctaatat cagtcaacaa tttctgcgtt tgtgatcttg ctaatgacaa caacatagag 180aatgcatctc tttcaggcag caactttg 2081212126DNAHomo sapiens 1212ttttaaagac tggaggtatt gctgagtggt tgaatggttt ggaatatgtg ccacaaagac 60tgaaaaatct taatgaaatt aataagctgc tagcacatcg accttggctg atcacaaaag 120agcaca 1261213166DNAHomo sapiens 1213gtgcttattt tcctatgttc acataacacc ttcctcactt attctttctc ccttccaaaa 60taggcatgtg tccttgtgtg tgtatagagc taagtataat ttatggacat aagaactgaa 120gaagcctatg gccttttgga taccaagtgt cttgggtata tttgga 1661214103DNAHomo sapiens 1214gaatactcta catccggtcg tctggacaac atcacacagg tcatgagttt acacactcag 60tacctggagt ctttcttgcg gagccagttt tacatgttgc gca 103121588DNAHomo sapiens 1215tctgtttcca gtatgagcaa ctgcataatt tcagtgtctg ttaatatcaa atgaatattc 60atttgcttca atagtggcat aatttatt 88121630DNAHomo sapiens 1216gacaagagga ccaagtgcct ttattccaga 301217368DNAHomo sapiens 1217agtgagcgtg cccttgatac ttttctgggg actgtaatgt aagcagaaat tgagacaagg 60gtccttggaa ctggctgata gttttttttc ttcctaattt gcccaaatag gacaaatagg 120ttgattggtt cagagcattt ctgcaattac actaaaatgc ttggttctgg gattgagtag 180gtgtgaccat caaatgaata actctgtgga gcagtcattt aacatttcaa aaagttataa 240aaatgtctga aaatgcaatt ttaaaaaagc aaaaccaaat gagtccagag cagcactgtc 300cggtagaact gtctgcagtg gaagatggaa atgtctgcgc tgtcctgtag agtacacgtg 360gtcctatg 3681218196DNAHomo sapiens 1218cggagaagag ctagcgagtt ctctagataa aaaagattca ggaggcagtt gcatgggttg 60ctcattttcg tatcctgtgc ccttattttt tccttcatct gctccatcgt cttccctaca 120atatagtcac cataacaaat ttgagtagaa ttttgttttg tgtaaagaat atggtagcca 180tagaagagaa cattga 196121930DNAHomo sapiens 1219taaaaagtag taatgttggc cgcgcgtggt 301220124DNAHomo sapiens 1220ccattatcta ggttgcacat ttgtgaaagc atcagtatat gatgcgttcc atggttggga 60tctaatgata cccagatcaa gccatgacat aactagtgca gtgtgcaaga ttcaagccct 120attc 1241221109DNAHomo sapiens 1221aggtggtacc tgatgcagga atatgtgagt gttggtgttg gagagtgttg tgagaggaag 60attattcagc agaaacaaac ccttcctctg atgagcagaa gtggtggat 1091222473DNAHomo sapiens 1222tggcgagatg tggttctgct atttatttta agttagaact cttattctga gagttttcca 60tagaaacaca gtaagatatg tggttaagtt ccagagtact gttaatatta caggtatgtt 120caggcatttg ttaattagcc tagaaaccta accactgggt ataacgtttc cagaggaaca 180tatatcctga aattcaagta accgcttcac tagagactgt ctttcctaac ttgtttactc 240agcattaaaa aggtaatgat tttggcaaaa aaaaaaatat ttttcaatat gtttactcca 300aggatgtgct tgtcggttgt gctgtgtcta ataggaaaac tgtgttaatg aagttccatc 360caatatttag gtaggagttg aatgaagaaa gagataaagt tgggtaataa taagcagggt 420gttgggacaa ctgatggcca atatcaaact ggcttatcct tgttcacttt gta 4731223552DNAHomo sapiens 1223aaagatcaca tttacctcat gggtaactaa agctgggttt tgtggaagat cattgtaatt 60atctgaaact gtgactctta cttccttttt tttttggagt ctcactctgt cacccaggct 120ggagtgcagt ggcgccatct tggctcagtg aaaccaccgc ctcccgggtt caagcgattc 180tcctgcctca gcctcctaag tagctgggat tacaagcacc caccaccata cccagctaat 240tttttatatt ttttgtagag acggggtttc accatgttgg ccacgctggc ttcgaactcc 300tgacctcaag tgatctgcct gccttggcct cccaaagtgc taggattaaa ggcacgagcc 360acccagcccg gctgtgactc ttactttcaa aacacatttt ataatatcta taatgacaat 420agcttctact gaatactact tatgtgctaa gcatttaaac tctacatatg ttatcacatt 480caagcatcac aattaacctg cgatgaatta ttactcacag tttatggata aagaaactag 540ggctcacagg gc 5521224297DNAHomo sapiens 1224tgtgcaggtc ttgaattaca atttgttctg ctatctttgt acagatattt gaattttttt 60ttgttactgt gtcatgtatg agaaagattg tcattgattg tgaaggaact ggctttttaa 120aaagaattcc ttccatattt acttaagtta aatgtttact tgtgagaaca caaatttatt 180gttatcagta gttgtaactt tattactaaa atacttgaaa gttgcttggt atatttatat 240gctttatagt tcaggttcaa tagaagattt aatttgtaaa aagtgttctg ctgcttc 297122555DNAHomo sapiens 1225gtcggccgcc gccaactacc tgctctgtac caactgccgg aaagtgctgc ggaag 55122625DNAHomo sapiens 1226ccctccgccc gctctcgcct cggcg 25122797DNAHomo sapiens 1227cgtctccgcc gtcgctgggg cagctgccgc ggtggtcgcc tctggcagtg ccgctagctt 60tcaggcagtc gcctctcctc ccgacatccc gccttga 971228160DNAHomo sapiens 1228gccagtaggc gatgcaagtt atctctgggg cccggaggac acgagtgagg accgggcacc 60aatcaggttc tcgctctgcg ccggcctttg ttctcactcg ggagcaggtt gcgggcgtct 120agcatcggga acccgcattc gactcggacg cgcattgcta 160122976DNAHomo sapiens 1229caggagggcc ccctgcgcta atctgccctg gcagcagcga gctggcacgc cctgggtgca 60tcatccggtg tgctct 76123062DNAHomo sapiens 1230gacccgccgg gccagatccc atctctggcg acgcggagaa aaatctggaa gccgtcgtcg 60ga 62123126DNAHomo sapiens 1231ccgcgcggcc ggaactgcgg gcgggg 26123259DNAHomo sapiens 1232ggcgcccctg cggtgcagag cagctcaggg ccggctggtg cgcgaccccg gaaagcggg 59123334DNAHomo sapiens 1233agtccaatag ccagtgaagg cctggtcctg ccct 34123431DNAHomo sapiens 1234gcctccacca tggacagagg ccaggccctg c 31123558DNAHomo sapiens 1235gccctgaagg cagacgggat aatgtggttg gccaaggcct gttggtccat ccagagtg 58123646DNAHomo sapiens 1236cccagggtca cgctcatgct ggggctcccg tcagctgact attttg 46123729DNAHomo sapiens 1237gtcaggtcca gtcaagaggg cccaaagtg 29123880DNAHomo sapiens 1238ccaaccaatc ttgggattct cccttcgtgc ggttgtctgg gacctttttc cagggtcaaa 60gcagatcgtg aggaggaagc 801239177DNAHomo sapiens 1239atttggatgt ggagcctctc ctttccattg tgaactgaat tctaccagca ctgggcctgg 60tgatgtctgc attaggcaga tgaggaagca gtcttggaga ggacaaggga ctggcctcag 120gtcacacatc aggcttgcta gctcctggac aaagatgcct ctgatagctc ttccata 1771240408DNAHomo sapiens 1240cctgccctgg gctacttact actgaggatg cacaaaggat cttcccacca cggactagga 60gacagtgccc ttgtcctcat gttgttcaca tactggtcgg tgagggatgg gtctgagtac 120atgataaatc cctgggcccc ataagatttg actaggaggg gtaagggcct ggtgaactgc 180tcagaaaata aactgtgttg tcagcaggag gacccctttc tactatgaga tattgcattc 240cctgctaatc atacttgtgc tctatctgtt gatagaacaa atacataatg agaaacagcc 300actgtgcttt cagaagaaca cacttgaaag aatttgttct caataaatta catctgcatc 360tggatccata tgaagaaata cgttcctctc attcaggcgt ggctattt 408124138DNAHomo sapiens 1241atggccaaag ctcgacgggc ggcctgcgtc agtggcgc 38124276DNAHomo sapiens 1242ggctcggccg gggagtccca gtggcggagg ctacgaaact tgggggagtg cacagaagaa 60cttcgggagc gcacgc 76124347DNAHomo sapiens 1243gaccagggac caggctgaga ctcggggcgc cagtccgggc aggggca 47124494DNAHomo sapiens 1244ttcccttcgg ggaacgtgca tctgttttta ggagcggtgc atgaaggaga tgggtgtacg 60cgcgggcaga gaggatgttg tagggccggc atgc 94124576DNAHomo sapiens 1245tgttggagtc ttggggcggt gctgcctaga ggatacctcc caaccattcc agctccagat 60gctgatcatc cctatg 76124668DNAHomo sapiens 1246tgaggcttgt tcagcagaac aggtgcaagc cacattgttg ccaagacctg cctgaagccg 60gattctcc 68124757DNAHomo sapiens 1247tgtcctagtg caggcagatg tggccaccct cacctctcgc agggtgctgc atgcctg 571248765DNAHomo sapiens 1248gtactgttgt ccattctcct gagagtccag ggggctgtgg tctccttcct ccccccttgc 60cctgtcccca gcaaatggcc tttaaaggtc tggagccagg ttaccgatga ggaggcctag 120gttcccttcc tctttgcttc tgggagcatc tcgagcagtg cagagtggct tcccagcccc 180agatggcagg attggggtgg gtttgggatc tgctgccttt gctcagtgtg cagggttggg 240gtggaaatgg gggacaggct agggcctctg cattaggctg ccttcttagg caggtgggct 300ttcacttcca gctcctcttc cattttcacg atgtccttct tcctaggcac tgcgagggga 360ggagaaaagg ggctttgcag aggcctggga gtattcccag gaagtgcctg gttggcgaaa 420caaccaggga gctgctcctg ggagctgggc tgaggctttg ctgggctgcc tctcccactc 480acccttctcc cggcccccac catgccttcc ccatggggga ggggcagggg gctggaggaa 540cacagcttcc ccctgttcta gcagagaaat gctggctgta tgcctcccct agggttccca 600ggctgactag ggtgtggctg gccttctgat ggagcccact catgctgggc cgctgcccag 660gggctttgtg gcacctaggt cgagatggta ctcaggccag gggtcaggat tcctgggtgc 720tctggtcccg gtgcctctgt ctcatcttta ggctgggatt cctgc 765124932DNAHomo sapiens 1249tccaagccca atatgggaca ccagcaccga gt 32125030DNAHomo sapiens 1250gaccacctgg caagcgaccc cctgacccct 30125138DNAHomo sapiens 1251ccagcttcag caccttcatg gacggctaca caggagag 38125236DNAHomo sapiens 1252ctcggcctcc tccacatcct cgtcctcagc cacctc 36125354DNAHomo sapiens 1253gacttccagg tgtacggctg ctaccccggc cccctgagcg gcccagtgga tgag 54125467DNAHomo sapiens 1254ggctccttcg

gccacttctc gcccagccag acttacgaag gcctgcgggc atggacagag 60cagctgc 671255189DNAHomo sapiens 1255agagagctat tccatgccta cggccttccc aggtttggca cccacttctc cacaccttga 60gggctcgggg atactggata cacccgtgac ctcaaccaag gcccggagcg gggccccagg 120tggaagtgaa ggccgctgtg ctgtgtgtgg ggacaacgct tcatgccagc attatggtgt 180ccgcacatg 189125676DNAHomo sapiens 1256cgcgcagccc caggtggggc cttttgttgg aaatggagag aggctggcct catcccattg 60ggacctgtgg tctccc 761257640DNAHomo sapiens 1257gaagctttca tttgccggga cactcgggcc catgggattg cacagagctg gagggagggg 60tgagataggg gcagatagga gctgcagggg tgcctggcga gcctctggtt ttcctctgct 120cctctgcctg tcctctccca actcaaggtt ctagtgggaa ggggtgcccc caggctctca 180tgttcctggc gtgagatgaa aggatccctg cggagggttt ggttcttgag ggctgggggt 240ggacttggga acaggctgtg tgtttgtccc agcgatggtg cctgcttagc ttcccgtccc 300caccccccag ccccttggcc ctctcctgtc tgccctaggg agaaggcagg tggacaaggg 360cccatgaaaa aatacaggtg tctagactgc cagggagacc ctggccccca gtagtgtgtc 420ctggggactt cctcagagcg agaaacctcc cccaatgtct tcaagacttt tctctccccc 480cgcccaaccc cgtctctccc tcccttgcca cccaaatgtt agaaaaatag ctgtgaacag 540agagcgcttt tgtctgcaat ggcagcagga tctggacggt cccctcccct aagttccccc 600ctccccaccc cacactctga cagcttgttc cgtgttgccc 640125894DNAHomo sapiens 1258gcacagtgca gaaaaacgcc aagtacatct gcctggctaa caaggactgc cctgtggaca 60agaggcggcg aaaccgctgc cagttctgcc gctt 941259269DNAHomo sapiens 1259cccagcgggg caagggtagg cttgagtgga gtgggaccag cagggccccc aggcttctgc 60cctggaggac ccagaggagg gcacgtctta tttccacccc acctctgaac cccaggcctt 120ggagggaggc agcctacacc tgcctggatt gtgagggtgg tggcaggggg aggttcctat 180agggtacctt ggatctcagg gactctgggt cctagggact cggtggggcg cgtctcagca 240gtggtgtgca cggcttgggc tgagaggcc 2691260122DNAHomo sapiens 1260ttgtccgaac agacagcctg aaggggcggc ggggccggct accttcaaaa cccaagcagc 60ccccagatgc ctcccctgcc aatctcctca cttccctggt ccgtgcacac ctggactcag 120gg 122126130DNAHomo sapiens 1261cccagcactg ccaaactgga ctactccaag 301262172DNAHomo sapiens 1262ctttgtgcgt gttaggagag ctaccccctc tggaaggact gaatgagaaa ggaggtttaa 60aaaagaaaga aagaaaagcg actccctcca gttcgacaga tcaaagagag gatccccctc 120tcggctgacc agatgggaaa atgcaccccc tcaggcaggt ggccaattag aa 172126343DNAHomo sapiens 1263gggatgtaca gcagttctac gacctgctct ccggttctct gga 431264107DNAHomo sapiens 1264gtcatccgca agtgggcgga gaagatccct ggctttgctg agctgtcacc ggctgaccag 60gacctgttgc tggagtcggc cttcctggag ctcttcatcc tccgcct 107126549DNAHomo sapiens 1265ctttccctga tacacctgcc tgtgaaccac cctgatcgct cttcgtgcc 491266129DNAHomo sapiens 1266ctaagccagg cgagggcaag ctcatcttct gctcaggcct ggtgctacac cggctgcagt 60gtgcccgtgg cttcggggac tggattgaca gtatcctggc cttctcaagg tccctgcaca 120gcttgcttg 129126730DNAHomo sapiens 1267tcagatgtac agctaatcct gtacccttcc 30126841DNAHomo sapiens 1268accggcatgg gctgcaggag ccgcggcggg tggaggagct g 411269193DNAHomo sapiens 1269gaaccgcatc gccagctgcc tgaaggagca cgtggcagct gtggcgggcg agccccagcc 60agccagctgc ctgtcacgtc tgttgggcaa actgcccgag ctgcggaccc tgtgcaccca 120gggcctgcag cgcatcttct acctcaagct ggaggacttg gtgccccctc cacccatcat 180tgacaagatc ttc 193127062DNAHomo sapiens 1270tgcacatgcg cactctcata tgccacccca tgtgccttta gtccacggac ccccagagca 60cc 62127157DNAHomo sapiens 1271ctgggcttga gctgcagaat gactccacct tctcacctgc tccaggaggt ttgcagg 571272110DNAHomo sapiens 1272gggtgacccc acgatttgtc ttatcccccc cagcctggcc ccggccttta tgttttttgt 60aagataaacc gtttttaaca catagcgccg tgctgtaaat aagcccagtg 1101273122DNAHomo sapiens 1273accctccttc cacatgtaca taaactgtca ctctaggaag aagacaaatg acagattctg 60acatttatat ttgtgtattt tcctggattt atagtatgtg acttttctga ttaatatatt 120ta 1221274150DNAHomo sapiens 1274gtgtaaaagt gtgagacaac acatttctgt tgtttaagac acacaatctg tggtactttg 60atacagcagc cctgacaaac taatacatgg ggtgtctcat tgtagtttta atcagtaaca 120cccattatga actgaaaacg tctgctactt 150127572DNAHomo sapiens 1275caagaggtga ccatcagcaa gcccaggaga gaggcctcag aagaaaccag acctgctgat 60tccttgatct tg 72127653DNAHomo sapiens 1276caacttgaat gcttcctgat taaatatata caggagtgat ttcagaggaa ttt 53127783DNAHomo sapiens 1277ccattaagac taaccgtttt tgctggagct gcaagatttt ccatttcttc atgagtcacc 60caaacgttgc ctgaaggcta gtg 83127851DNAHomo sapiens 1278gtggctcttg aacaacacag gtttgaactg catcattcca cttatacaca g 51127930DNAHomo sapiens 1279actcctgaga caacatgacc aatctctccc 30128060DNAHomo sapiens 1280cgtactttca acataaagac gacgaggata aaggcattta tgatgaacta cttccacata 601281254DNAHomo sapiens 1281gcttacttta ttgtacgaat ggagcatata tgtgtacata taaaacacat aatacatgct 60tatcaactat ttgtgttatc agtaaggctt ccagtcaaca gtaggctctt agtagttaag 120tcttgggaga gccaaaaatt ctagctgatt ttttgactgt gtgtgggggg tcagcaccct 180taactcctat cttattcaag gggctattgt attctaaatt gtcttttagc ttgagtcata 240atccaggtat agtg 254128264DNAHomo sapiens 1282gcaaaataca gtgccaagag ctctggacca caaatcagaa gacctgagcc ctaattcctt 60tcca 64128372DNAHomo sapiens 1283tttgttcgtc gcttgccaaa atagcagcga actctctgtc aaactgcaac tcattttatc 60ggagcaaaaa ct 72128451DNAHomo sapiens 1284gaagcagctg atcgctaata tctgatggct aatatgctaa atttccctgt c 511285315DNAHomo sapiens 1285gaggcagtgc agcttgtgtt acaactcaaa agagtaatac tctgaaaaaa gaaaaaaaaa 60gatggcgctg aaaataaaca tgttcagcag ccattgtgat tcaacttacc cagatgtgct 120tttcatgaga tggagaagga cggatggaaa agaaaagcac acaaatgtta atggatacag 180ttcaatccaa agaaaaccat ggaataaaac aagagcatta tttaagatgt gagaaagctc 240aggtatgaga aagacatggt gccattttgt atttcatcat gacacacata ctcactgcgt 300cgaaaagcat agtca 3151286164DNAHomo sapiens 1286gcgaatgcaa ctttgaccct aagaaatcct ttatgcaggt ggagacacag cttcttcaac 60caatgaaaga aataatatct ggcttcttga atagtttcat ggtgccacca acaaaaacta 120tcatagacca acaatggcaa gatggcatcg gcaagaatga gctg 164128790DNAHomo sapiens 1287ccagaatctc atcgtgcagg ctacaaatag cagctgcagc tgcagaccaa gggctggcct 60ttacatgtcc atggtgcaaa aggactcctg 90128875DNAHomo sapiens 1288caactgcttg tcacaccgac ctgcaccatc tctcgcctgc ctgtggggtt tctgtcaact 60agtcgtggag ggaag 75128925DNAHomo sapiens 1289atgccagaac ccactaagaa agagg 25129050DNAHomo sapiens 1290agtatccccg aatcaaacat gaatgttgaa gtcaactacc cagactgaag 501291244DNAHomo sapiens 1291tacacactaa ctttaatttg gaatacagta aatattgtat tagtgtgtca tatatttact 60gaattaaaaa ttaaaattgg ttgggcatgg tggctcatgc ctataaactc agcactcagg 120gaagcagagg caggtggatc acctgaggtc aggagtttga gaccagcctg gccaacatgg 180tgaaaccttg tctctactaa aaatacaaaa aattagctga gcgtggtggt ggacccgtgt 240aatt 2441292185DNAHomo sapiens 1292tgccagggga cggttatgga tttcttggca gcaaggagaa gcggcttttg tgcagggagg 60aacagcctgc cagtcaacta tatttatgga gcacctgctg tgtggaatct gaaaaggaga 120aggagaaggg ccttgtcctc aagaagcttg tgatcaaagg gagaagaaaa gtccccatct 180actgt 185129355DNAHomo sapiens 1293tgaacaacgg ctttgaatgc gaacctgggg agtgtagacc taaccaaata ataat 551294125DNAHomo sapiens 1294atttggcacg ggaaatgcta tgctctttgt tcatgtggat gcctttacct acttggaaat 60agtatgttct ttaacagaag tttctttgtc agacttcata gccagactgc tctgtaataa 120ccaga 125129530DNAHomo sapiens 1295aaaatgaagt gccagcccca gccccacccc 301296394DNAHomo sapiens 1296cactcacaca cgtttgggct gcaaatacag agggtccatc ccagcatgat ttggcctcca 60cgggtgctgt gagctgtgag ctttaaccta actcctactg agaagttgga tggtgaccat 120tgtgataagt tgagaataat aaaaataata cactgtgttt atataatcct cttgtgttaa 180tctaatttgg atggcacttc atatatatta gggggacaat tcttatgaaa cctttcaaat 240tatgtaaaag ttattatgtc cgcattttac agtgtggagg ctgagcctcc atccaagggg 300ctgaagaatt tgtgaggctt tttcctatat agtgaaggtc aaacaaaccc acatcttctt 360tatgagagtg gggagtggat ccatctctac cctg 394129741DNAHomo sapiens 1297ctggcaacag gaaatgagta cagagatcca gtgagaccct t 41129827DNAHomo sapiens 1298aaaaatatgc ttgtactttc tacacag 27129932DNAHomo sapiens 1299agagaaggag gccggaacta caccagcaaa ag 321300157DNAHomo sapiens 1300tctgcaagtc ccaatcagta taatgacaaa tggtgcattg ctaagtttcc attacatgta 60tttctaaaag aaaaacaaca atgataaaaa tatcacaagc acttgttgag atgccagcaa 120attaattggt agtttccaag tttcgacatg catgcta 1571301182DNAHomo sapiens 1301gacactactg ttgggtgatc tagacgaaga ctatttcatg atactctgaa gcgctgcatt 60catatgtatt ccttcatggt ctaaaacaac tgtgcatgtc ctccaaatag tcttaacatt 120tagtagactt tgaaactact cacctatcaa atttttgctt aaaaaacaga ttgccggcca 180gg 182130274DNAHomo sapiens 1302gcacaatgtt gtggaatgtg aatgcatgca tattagttca ggagaaaaaa ttcaaaatga 60actaagtttg ggag 74130379DNAHomo sapiens 1303tgctaacagg aaacaatacc gacgttcttt ttcttatagc atttgtatta taaaaagcac 60aaagctccag cccactgaa 79130440DNAHomo sapiens 1304atgaagtctt ttctccttga ctttttactc ctatttcttg 40130533DNAHomo sapiens 1305gaagaggaag tctccccgcc tagcgccttg cct 331306117DNAHomo sapiens 1306gctttcatac ttggagctct actgattttc catccaagcc aacttgtagg gttttttcct 60tcctatcacc agaggagaca gggtttaggg gaatccaaga aggttgaagt cagcact 117130735DNAHomo sapiens 1307tttgggtagt cgggccctgg agagaaaaga ttcag 351308187DNAHomo sapiens 1308gagctcattt cttgaagctg tattgattct aatccttgtc ttattcagat tgtagttttt 60acggcaatct ttcattacgt ttcctcttac aagaaaacta atgtattgag aaacaattaa 120ttttgcatga tacacacgca ttcaaggatc tagccaaaaa taccacaggt ttgttctatc 180attttta 1871309320DNAHomo sapiens 1309actggccacc attgtttacc tgttagggga caggcaagat ggggaagcaa aggaattatt 60gccatcaaag agagaataac agcttacctg gaaagttcca ctatttctaa gaattacata 120atgttcattt gccccatcat ggaagagata cccctgtaag aatgggaatc tgttcccctc 180tactgatggc tgctgggggc agaaagaatg atgttgtatt tatctaggtt tattagacaa 240agaaaagcta cagcgttggt gagaacaaca aatccaggta agactgccta agaagagcct 300ggccctgaaa taatcctttt 320131070DNAHomo sapiens 1310tggacccttg tcgaaactcc tcctggggag gaacaagcca agcagaatgc caactcccag 60ctgtccatct 70131156DNAHomo sapiens 1311agcaaaacaa atgacgcttg ttaaagagca agctgaatcc cttatgcttc ttctag 561312111DNAHomo sapiens 1312atcaccttca tagccaaagt caaggctgaa gatcttctga gaaaacccac tatcaaatgg 60ttcaaaggaa aatggatgga cctggccagc aaagccggga agcaccttca g 111131388DNAHomo sapiens 1313catttgagat gcagatcatc aaggccaaag ataactttgc aggaaattac agatgcgagg 60tcacctataa ggataagttt gacagctg 88131432DNAHomo sapiens 1314tctactggga ctactccaaa cattgacatc ag 32131531DNAHomo sapiens 1315aggatgcagg agaacttgac tttagtggtc t 311316348DNAHomo sapiens 1316agtgagacat tgtggcctgg aagtctttca gacacccact cagagaagtc aagtttaaag 60tggatgttct tcagagaatt tttcatttct gaaaatgtgt tttgcttata gaatataaca 120gagttgacta gaaagagaga aacaactgca tactaatctt ttaaagcctt taacagttgc 180ttttaaactt tctttttaaa tgtttcatga ctcttcacct attttttttt aaatggggac 240gaagagatat gaaaactgag acataagaca aatacctaga aacctctaag actgcacata 300tgatttggta gaagtctgaa ggtatacaca ttgtaagagg cagaccta 3481317283DNAHomo sapiens 1317atagatacac ttttgtggga ggaaaaatag tggtaaaaac atggactgga gtctcagctc 60taccatttac taattatgtg actttggtca aatatttgac ccctctgaga cttggatttc 120acatctggaa atgtgaagaa taaacactac ttaatagaat tattgtgcaa attaaattaa 180gtgtaaaaag cttggttcac agtaggtggc aaataaatat gtacttcctc taaggaaatg 240tgtcattttc tctaacatag tttatattca taaggagaca aca 2831318343DNAHomo sapiens 1318ctctgtacaa cgaaagatct tcctgctctg aacaaagcca gcttacttca aatagacatt 60agctaaatca gattaaatct tttgggcagc atcctgttat aggaattgac ctgtataaat 120acttgtaagt tgtactctac ataaaatttc tataactgtt atactcttca ctaggatcac 180caagttattg aaattttgat gtagatgaaa atacagtgag tattatacag gtctatcccg 240aggcttggaa aagaatcaga agtgcctaca gaaatttggc tttttctcct cactgtaact 300taacatagcc atgcagacag ggtcatgtgc agccaccatg gta 343131982DNAHomo sapiens 1319cagtgagtac gagaagatcg ccttccagta tggaatcacc gacctgcgcg gcatgctcaa 60gcgactcaag cgcatgcgca ga 821320119DNAHomo sapiens 1320cttgatcctg catatcaggt tgacaaagga ggcagagtga ggtttgttgt ggagctggca 60gatccaaagt tggaggtgaa atggtataaa aatggtcaag aaattcgacc cagtaccaa 1191321122DNAHomo sapiens 1321tacatctttg aacacaaagg atgccagaga atcctgttta tcaataactg tcagatgaca 60gatgattcag agtattatgt gacagccggt gatgagaaat gttccactga gctcttcgta 120ag 122132251DNAHomo sapiens 1322tggtcaccag gagctgttgg cttcttctcc cagggataat gatcaaagtg a 51132391DNAHomo sapiens 1323agcctccaat tatggtgacc aaacagctgg aagatacaac tgcttattgt ggggagagag 60tggaattaga atgtgaggtg tctgaagatg a 911324138DNAHomo sapiens 1324tccctggtcc aaaatcaaga taccgaatta gagttgaggg taaaaaacac atcttgatca 60tagagggagc aacaaaggct gatgctgcag aatattcagt aatgacaaca ggaggacaat 120catctgctaa acttagtg 138132535DNAHomo sapiens 1325tgacacctct gactgatcag actgtaaatc ttgga 35132639DNAHomo sapiens 1326cctgttcagg agagtgaccg tctaaaggtg gttcacaag 39132784DNAHomo sapiens 1327tccacaagtt agtgatagcc aatgccctca ctgaagatga aggtgattat gtatttgcac 60ctgatgccta caatgttact ctgc 84132870DNAHomo sapiens 1328aggaaacaag cttcgtcttg agatccccat cagcggagaa ccacctccta aagccatgtg 60gagccgggga 701329139DNAHomo sapiens 1329ggcagtggcc ggataagaac agaatcttac cctgatagca gcactctggt cattgatata 60gctgaaagag atgactctgg tgtttaccac atcaatctga aaaacgaagc tggagaggca 120catgcaagca tcaaggtta 139133099DNAHomo sapiens 1330ctgatcctcc agtggcaccg actgtgacag aggtgggaga tgactggtgt atcatgaact 60gggagcctcc tgcctacgac ggaggctctc caatcctag 991331153DNAHomo sapiens 1331aagaaacaaa gctccaggtg gatgaggctg aattttgatc tctgcaaaga aacaactttt 60gagcccaaga agatgattga aggtgtggcc tatgaggtcc gcatctttgc agtcaatgcc 120attggcatct ccaagcccag tatgccctcc agg 1531332119DNAHomo sapiens 1332cctcctactc ttctgactgt ggactctgtc actgacacga ctgtcacgat gaggtggcgc 60cccccagacc acattggtgc agcaggttta gatggctatg tgctagagta ttgctttga 1191333166DNAHomo sapiens 1333gtgcctcagg tcagaagcca cagtctgcac agagcaggct gtgctctcct gaggaacccc 60cctaacaccg tttggtctct tccgtcactg ctctgaggac aaatctcttt gcacactttg 120catactttac taacagagaa tgctgactgc tgatacgata ttattc 166133426DNAHomo sapiens 1334gtacatcagc aaaacagtct gatgaa 26133542DNAHomo sapiens 1335tctgattgac aagacgaagt tcaccatcac aggtctgcca ac 42133681DNAHomo sapiens 1336tgcgtgtgaa ggctgttaat gcagctggtg ccagcgagcc caagtactat tctcagccca 60ttctcgtgaa ggaaatcata g 81133788DNAHomo sapiens 1337acctccaaag attcgcattc caagacacct gaagcaaacc tatatccgca gagttggaga 60agctgtcaat ctggttatac ctttccag 88133828DNAHomo sapiens 1338aataaaacca gaagtggcaa caaggcag 281339116DNAHomo sapiens 1339ataaacattc gcaactctga gactgataca atcatattta ttagaaaagc agagaggagc 60cactctggga aatatgatct gcaagtcaaa gtggacaaat tcgtggagac cgcatc 1161340102DNAHomo sapiens 1340ccaaattgtg aagattgagg atgtctgggg agaaaatgtc gctctcacat ggactccacc 60aaaggatgat ggaaatgctg ctatcacagg ctataccatt ca 102134128DNAHomo sapiens 1341ctttctctgg ttcatcagta gcaaaagg 281342133DNAHomo sapiens 1342ccaactgggg ctatggagaa gtgatgtggc agagcagaaa ggaaaagacc tgtggagcca 60cagagctggt cttaaacccc agcattgcta cttaagacca catgtataag gaccacacgt 120gaccacaatc act 1331343152DNAHomo sapiens 1343ggtttactgt cattgagcat tatcatcgaa ccagtgccac cattactgaa ttggtcatag 60ggaatgaata ttacttccgg gtcttttctg aaaacatgtg

tggcctcagt gaggatgcca 120ccatgactaa agagagtgca gtgatcgcca gg 152134481DNAHomo sapiens 1344tcagaggcac ccatgtttac tcagcctttg gttaacacct atgccatagc tggttacaat 60gccaccctaa actgcagtgt g 81134544DNAHomo sapiens 1345gtaccatgtt cttctatcac atcagttaaa gtccctgtct tgta 441346300DNAHomo sapiens 1346cactacactg tctgcgatag gttaaagtaa acaacaatta cactacactg taagacagaa 60tatgaatgtg ctttgataag ggtacagtgt gctaagaagg gagctatcat atccagttga 120agagattaga aaggtttcaa ggtttcatgt ttgcatttga aaagaacaac gaattaatga 180atatcgccca tagagatgta catatccctg ggtgcaagac agaaagtacc ctagaattgg 240gaaaatttat gaacttcttt ttttcctgta tataccttga tcagaaatag ggaagtcgtc 300134762DNAHomo sapiens 1347cactggcttt gatggtctat taatatgcca attacagata tgttttgacc taagtttctt 60ca 621348112DNAHomo sapiens 1348ggatgatcca agatacagga tgttcagcaa ccagggagtc tgtaccctgg aaattcgcaa 60gcccagcccc tatgatggag gcacttactg ctgcaaagca gtcaatgacc tt 1121349141DNAHomo sapiens 1349gccttactat tgagataacc cttacaaatt taaacatttt tagctgcttt attggcttta 60aatgattaag ttcataattg caagtcatct ggtttctaaa ctgctagcct tattagttcc 120aaagtattgt tgatgctttt g 141135044DNAHomo sapiens 1350tatatcaagg agtaaatacc cctggacaac cagtcttcct ggag 441351170DNAHomo sapiens 1351ttatatccca ctggatattc tactttccgt tccattcctc ttacatgaaa atgcaccttg 60catgtaaagc ttgactttct catttgcttt taattgtacc ccttagcagc tcatggcata 120cagtgcttat gccatgaaca aggaaggcca aattattcaa ggatattaag 1701352117DNAHomo sapiens 1352tgtacactaa cactttgtct attgtctatg tttttctttt gttgaaaaac acgatatata 60tatgttgtag ggttttggtt tttgtatttg ttttaagcta atggtttgga agctctt 1171353910DNAHomo sapiens 1353gtcataagcc ataccaagcc tgtggagtat ggcatgattt tcattacata atccaatgaa 60aatagactta ttttaaatcc ctaactttgt agttttaatt tgtatttcac tatcttgaaa 120ttaacagcta gtacttatcc atcacagcag tctcctactg acatgaagca agttgttgaa 180tgcagtagag catgaatgaa agcatttaat gtagacaaaa atgggtgata cccaagcatt 240ctgaattatt tgcatcaagg aatggacatg tacataagtg gcatcatttc taccaatatg 300tgacttgagt tgttttttta aaaaaaggag aatgactttc tcaaatttgc attaaagaag 360tttttaagaa tgttcaaatg gcatgctgct ttgtctggac gtgaatttat tagcaagtag 420taaagcactt cactaaagga ccatgaattt ttgtggtttc atggattctc tcttgaaggg 480tacttttatt tttttaatat aattcagaaa ctcagaaggt aggtatgaaa tattggtagg 540tgtttctcgc accttcagaa agtattggac cggtcttatt attataattt taacaaaata 600tttccaattt ttgtgctttt gacatgcata aatgaccaaa gttaaaggga gtagttttta 660tcttttctaa tgtgcttgaa tcgaaactct ctgtgcctaa ttaaaaagaa cattaacaaa 720ctggaagcag atcttcccac tgatccataa tgtggtatgc atttattctg ctgttcagtc 780agaacattta aatcatctat gaggaatcac aaaacctctc aaagagcaat aaatactttc 840caaccacttg ggaatttaaa tgaagattga acaatagtag gggaaaaact gctgtggttc 900tactgggaac 910135470DNAHomo sapiens 1354agactcctct tgcaaggcgt acctccaaac ataattgatt cgtatctgcg agacttacac 60tcaagcaatc 701355121DNAHomo sapiens 1355tggctactgt ctctctgcac tctgctgctt tgaaatctgg ttgaaatgag aaaaagcatt 60ttctgttttc ccaccaggcc cccaagtgtg gtctttttct ttcctcctaa tgttgaagag 120a 1211356475DNAHomo sapiens 1356ggctgcgctg ctctttgatt ggcttcgtta atatttggca aagcattgcc acttacccac 60tcagcgaaga tgcacaaaaa cgtcatcact gattctttca gttcgatgcc tgttaactgc 120gggtgtaaac tgctggtgat ggtgtcattt actaccaaag aagtgtggag caggatgggt 180gagagagtga gtgagtgagc aggtggaagg acagtgggtg aaggataaaa aggtgggaaa 240catttttttt ttaaaaagtg aaacttcaaa tacagcggag gtggcttctt tcctatgagg 300ctggctgatg ggtgccagat accaaggccc atgtgttact gaggagacag cctgctgggc 360tggggtcagg agctagcgga gggaaacggt tagatctcag aaaaatctca tcactatgcc 420ctagtagctt aatgacatca ctagcatgag cacatggtgt acttggcggg atctt 475135780DNAHomo sapiens 1357tcaccggctg tcacataata ctctgaatca tctgtcatct gacagttatt gataaacagg 60attctctggc atcctttgtg 801358123DNAHomo sapiens 1358accagaagac tcattaggat ccataatagc tgccagtgta gaggagcctc agttactttc 60actttgatca ttatccctgg gagaagaagc caacagctcc tggtgaccac aataagagat 120ttc 1231359133DNAHomo sapiens 1359tgtgtgaaac aaggattatc cagtaaaatc tgttgggttt caaagctata actagaataa 60ttatttttgc aagatagtgc ttggcttgag tcaaaacatg aggcatttgt actcaacagg 120ttctctttct ccc 1331360265DNAHomo sapiens 1360gagccacctg ctcgcactca agatgaatca ggtgcaactg ctaagagtgg atattacccc 60catgtaggct cttgaagcac attagtaaga atatcattta atgcatttta aagataacta 120tgattctcta ttagaatgaa caatctacac tgtaccaatt actacaaatc ctgctgtgta 180atttactgta cctttcaaca taacatttca ttttaagatt taaaatttct agtttttaat 240tttaagatta ctcacaagga acctg 265136195DNAHomo sapiens 1361taagccacac ccatttacat ctgaggtcac aactactcat cagattttga ataatcctct 60ttctactgct tcacaacagt tcacaagcca caaca 95136246DNAHomo sapiens 1362tctgttctta tccggccact gccttccata atagcctaag aagtgg 461363144DNAHomo sapiens 1363cttgacatgt cagcttgatt ctagaagtgc gtttacctgg aggacttacc cacaacttta 60accttgatgc ttgcatgtgc ctctccagct tcgtttttca gattgatgtg gtaaacacca 120gagtcatctc tttcagctat atca 1441364104DNAHomo sapiens 1364cactgatcag attacaggca tttcatctcc ctgctcgtct gcctttgatc tgcatggtta 60attttatttt cctggatttg aagtttcgtc tgggcttgtg ctga 104136532DNAHomo sapiens 1365gtaagtactg caaagagctc agcatgttgc ag 321366145DNAHomo sapiens 1366acactcaaat gagggaaagt gggaactata gtgtttgttc cctcagcatc tgagggggac 60tgctttcagg acaccctctt ggataccaaa atctgcaaat gctcaagtcc cttacaaaaa 120atggtataaa tttgcatatg ctctg 1451367120DNAHomo sapiens 1367cgttgccggg ctacgggaga gcgcggagcc ctgcgctggg aggtgcacgg tgtgcacgct 60ggactggacc cccatgcaac cccgcgccct gcgccttaac caggactgct ccgcgcgccc 1201368393DNAHomo sapiens 1368gggttatctt ctagtccaca tgtcacataa tatgtacctt tatttacctt ttaaactgaa 60gttttaaaac ctgggtttta aaaagagaac aactacccat cagcaattac agaagacaaa 120ggaacttgtg tgtctgaaga ctgagtgtta tttagcagct ctttggtcag cttggattgg 180tcacatatgt ggaaactggg aaataatagg ggctacttac actggagaag aacactacaa 240atggtgtaaa gagtggtttt ggaatgtatc cagacttcct tctaaaataa aaatttaaac 300agctgtgttt gagagatggg tatgcacaat tcttgtaaga aagactgtgt agatgtttga 360ggtcccctta gtccctgatg ctaccattgt tcc 393136974DNAHomo sapiens 1369ttgtctgtat tagagcacta ccttcaagaa atggggttct gacctggatt tgtgctacca 60cagtgacttg catt 74137034DNAHomo sapiens 1370aactctccaa caataaatac atttgataag aaag 34137125DNAHomo sapiens 1371taaaagtgct actagaacaa gagaa 25137245DNAHomo sapiens 1372gtggagaagg tttgtacaga attatatgca tcaaaaacaa tgtcc 45137348DNAHomo sapiens 1373agactgtaga cagcaagaat tcagggatcg gtctggaaac tgtgttcc 48137426DNAHomo sapiens 1374tagctcagca gatccaactc ccatgg 261375238DNAHomo sapiens 1375cccagcctcc cgattgggag acacctccca gcaggggtcg ccagacacct catacaggag 60agctctggct ggcatctggt gggtgcccct ttgggacgaa gcttccagag gaaggaacag 120gcagcagtct ttgctgttct gcagcctctg ccaatgatac ccaggcaaac agggtctgga 180gtggacctcc aacaaactcc agcagacctg aagcaaaggg cctgactgtt tgtaggaa 238137651DNAHomo sapiens 1376gtcttctcaa ggattcgggg aagtactgcg tacttccttc aagcttttaa g 51137753DNAHomo sapiens 1377atgtggcttc ggctatgggg aggatgcaca gtgtgtgacg tgccggctgc aca 53137893DNAHomo sapiens 1378gcaagccctg tctggactgc gcagtggtga accgctttca gaaggcaaat tgttcagcca 60ccagtgatgc catctgcggg gactgcttgc cag 93137953DNAHomo sapiens 1379ttataggaag acgaaacttg tcggctttca agacatggag tgtgtgcctt gtg 53138041DNAHomo sapiens 1380acgcaacaca ggcagagcca aggggacgcc tggccttttg a 411381207DNAHomo sapiens 1381gtacctgcct gctaaggaac agacccacct gcctgctgtg gttgtattgc cagaagtgtt 60ggattcacat cttggctgcg ctttgtactg atggtgtaac cttgggcaaa tagtctcccc 120tctttgaacc tctgtttact ctggaaaatg cccaagtctg cagattttgg atagaactaa 180atgaactagt agtccagcaa catgata 2071382179DNAHomo sapiens 1382tcggccatac cctgacccag atgtgttctt tggagggtct gctgctttgg agttgtcctg 60gacggggagg atctcatggt gcatctggct ctgatgtttg tcttctgggg cttcacctcc 120cctggtgggt gagcactgaa gggtaccgga aagtgggttc catggagttt tgtgcctga 1791383142DNAHomo sapiens 1383gcagctcaga tgggggccag gtgctgtggc tcacgcctgt aatcttacta ctttgggagg 60ctgaggtggg aggatcactt gagcccagga gttcaagacc agcctgggca acatagtgag 120acaccatatt cacaaaaaat aa 142138463DNAHomo sapiens 1384cctctgcatg atgagcccac aaagccagtg cctaaaggac taattaaggg ctccatttac 60tga 63138563DNAHomo sapiens 1385tggtatttat ggtaattaac atacaaaaca gctgtactta caatccggca agtgccaaag 60agg 63138649DNAHomo sapiens 1386gtcaggcccc ctggaagatt tggccagcag ggcagtggtc tgcgtgccc 49138725DNAHomo sapiens 1387ccggccctgg agggagcggg cgaca 25138837DNAHomo sapiens 1388tccctaagtg aagctgaccc acacataacc cacaccc 37138937DNAHomo sapiens 1389gtggcttctt gctggaccta gcttaacgac gagcctg 37139051DNAHomo sapiens 1390tccaactcct accttgggag agaatgacag tgaaccaaac aagtaaagta t 51139127DNAHomo sapiens 1391ggagagcaca gccaggccac agtggcc 27139279DNAHomo sapiens 1392cagcagatct attggagtgt gcctggcagc tggttctgca ggagctcacc tgccctaata 60gaatgttcag gcccttctg 791393151DNAHomo sapiens 1393atgcagtcac ctccacagaa tgccccccgc ccctgcccca ggacacccag acgttgctca 60gcatgcttac tgcccccacg tctgatcaca gtggcccgtc atgcagacac caagaccaat 120gggaaggcgg aggaccccga acatctctgt g 151139465DNAHomo sapiens 1394ggtgcctgcc agcttcgcca taaacactgc atctgcagtt gttcagagca tgctgacccc 60attcc 65139593DNAHomo sapiens 1395gtgccagcaa ggtcaacctc gtgaagatcg cgtccacggc ctccagccca cgggacacgg 60cgctggctgc cgttatctgc agcgctctgg cca 93139633DNAHomo sapiens 1396gtaagagaca gtttatggag aagaaaccca gct 331397122DNAHomo sapiens 1397gtaagttttg agctcattac atttcttagc atttagggga agggcattta ttactattgt 60cgtgcaagtg ttccacaaga gacttggctg agacaagcac cagtgagttg tgaaagaacg 120ca 122139858DNAHomo sapiens 1398agctttgtaa ggagacttac aaggctgtga tgtccctgcg ccactaggca aaaataaa 58139986DNAHomo sapiens 1399ggtctctgcg gtcacaggac attcagtaca acggctctga gctgtcgtgt tttgacagac 60ctcagctcca cgaatatgcc cacaga 86140096DNAHomo sapiens 1400tgcgcttgct cccatccatg tgctgtgagg aggcctgcag ccccaacccg gcgactcttg 60gttgtggggt gcattctgca gccagtcttc aggcaa 96140160DNAHomo sapiens 1401ggagatggtg ccgactttct tcggatccct cacgcagtcc atctgtggcg agttttcaga 601402202DNAHomo sapiens 1402agctcaacgt ctttggattc aaatagcagt caagatttgg ttggtggggc tgttccagtc 60cagtctcatt ctgaaaactt tacagcagct actgatttat ctagatataa caacacactg 120gtagaatcag catcaactca ggatgcacta actatgagaa gccagctaga tcaggagagt 180ggtgctgtca tccacccagc ca 202140327DNAHomo sapiens 1403gtaaggcagc gactgggttc cctgtga 271404219DNAHomo sapiens 1404tgacttacag tagatcagaa ctctgttccc agcataagat ttgggggaac ctgatgagtt 60ttttttttgc atctttaata atttcttgta tgttgtagag tatgttttaa aataaatttc 120aagtattttt ttaaaaaact aacacagcta atatataaga gcaaagtgga cagctgcatt 180cttttattcc tctttgtaag tacaaccact tagcacagc 219140537DNAHomo sapiens 1405atgtcattct gtatcctggc ctgattatat cagagac 371406217DNAHomo sapiens 1406gaacttttag gggattctat agacaaaaca ttttttagct ttggagggaa aaaattggtt 60tcattctcaa aacgggggaa tggagaagta agagaaggga gacgagtgaa tgaaggaaaa 120acaaattagg cagttaacac atacaaagta tctacctctg agctctgcct ggagttagga 180aaggctgttc actgatcttg ttcttttgag ccatcca 2171407207DNAHomo sapiens 1407gcctctcttg ttaggagatc atctgaagaa ctagggttac ggtgctgcca gctgactaat 60gactgttttt cagttttgtc aggaaacaga attaccactc accttaattt tgtagcttgt 120acccaagttt gtgatgtcaa ttgccaagac taaggaatga aacgtcttca tacgaggtca 180tcccggagcc aactcattgc ctgcttt 20714081252DNAHomo sapiens 1408ttgtcgtgct ccttccaatt gtgtaagatt agttagcaca tcatctccta ctttagccat 60ccggtgttgg atttaagagg acggtgcttc tttctattaa agtgctccat cccctaccat 120ctacacatta gcattgtctc tagagctaag acagaaatta accccgttca gtcacaaagc 180agggaatggt tcatttactc ttaatcttta tgccctggag aagacctact tgaacagggc 240atatttttta gacttctgaa catcagtatg ttcgagggta ctatgatatt ttggtttgga 300attgccctgc ccaagtcact gtcttttaac ttttaaactg aatattaaaa tgtatctgtc 360tttcctagta tgtttttatc ttctcatgta ttatccatgg ttttctctgt ttgtgacaga 420ttagtaaaat ttaatgagcc ctctttcttg tggccgtttc tccatagttt taggttttga 480tatgtgttta ctagcttgcc tgtgtctggt acatctcatg acctcaattc cctcacctga 540aataggaaat gagaatgttt cattgtagcc ccaagcggtc atgtcaacct agtgcctagt 600cataattaat tgacttttcc tgtattactt ctttttttaa gtataaacca atgatccttt 660ggtagtcaag aactcttagg aacattgcct tttggacatg taaaatattt aggatttgac 720cacacaatgg ctatgaaaat gcaagtagtt tcctcgcgtg acctcaccat gattcacata 780cgtgccactg tttgaaatct ggtctgtttg catttctgtt atgacagaga gatgatgttt 840gcatttctgt tatgacagag agatgatgaa agtaggcagg gctgtgttcc tttgtgtagc 900ctgtatatat tttccatatg tagagccctg attaacttca aggacaaaca ctggctggag 960aaagccagac tgatgggaat gagactttgg ccaaaaatcc caaaacatca ttttcaatca 1020gtagagaagt gcttagggtt gaaaattgat ttcatttgct actgaatttg gtaaatcctg 1080ggtaactttt atcaagatga agacatttta ccctacctac tctagaaata tacaacaatg 1140ttatatttta cactccttgg aaacatttga ggaaaaaaat gcaatttgca cttcactttg 1200ttggaatatc ccatagcact caataaactc agctgctaga gtgccgatgt ca 12521409118DNAHomo sapiens 1409gacctttctt tgtgttatct gcatgttgta acgtgtgata agaatgaatg taaaggctgt 60ggcaactgta attaattttt gtaaagggct ggtcacacgt ggatctggtt tatgaatg 118141032DNAHomo sapiens 1410gacttcgagt gggtctacac cgaccagccg ca 32141170DNAHomo sapiens 1411cagggatttg aaccgcgctg acgaagtttg gtgatccatc ttccgagtat cgccgggatt 60tcgaatcgcg 70141254DNAHomo sapiens 1412ctggactccc tcaagtacag tgacctgcag aacttagcca agagtctggg tctc 54141343DNAHomo sapiens 1413ttaaaagcct tgaaaggcta cattaaacat gaggcaagaa aag 431414120DNAHomo sapiens 1414tcttgtgatg agactgagat acagatcagc aaccaggaag aagctgagag acagccactt 60ggccatgtca ccaaaacaag gagaaggtgc aagactgtcc gtgtggaccc tgactcacag 120141556DNAHomo sapiens 1415aactgaaaat aaaccaccta tgccaaaatt ggcatacttt tatggagatt tctttt 56141626DNAHomo sapiens 1416aaataagtaa tcccactgaa ttccag 26141750DNAHomo sapiens 1417tcagagctac tgcaaaagtt ccttctccac cagacgagca ccaagaagct 50141826DNAHomo sapiens 1418acagagattc aaaggtacct tcagaa 26141925DNAHomo sapiens 1419ccattgatca atatattgag agaaa 25142026DNAHomo sapiens 1420cagcccatca ataagggagg ggtcag 26142179DNAHomo sapiens 1421tgtggcttct actcccatca gccaacgacg ctcgcaaggc cggtcttgtg gccctgcaag 60tcagagtacc ttgggtctg 79142272DNAHomo sapiens 1422ctaaagataa tgagcataag cgttcactga ccaagactcc agccagaaag tctgcacatg 60tgaccgtgtc tg 72142343DNAHomo sapiens 1423tgcttgggac acacaaatta aagaccatca cggggaattc tgc 43142488DNAHomo sapiens 1424cccattcaag ttgacaactg aggcaacgca gactccagtc tccaataaga aaccagtgtt 60tgatcttaaa gcaagtttgt ctcgtccc 88142556DNAHomo sapiens 1425accatggggg caatctaaag aaaataatta tctaaatcaa catgtcaaca gaatta 56142686DNAHomo sapiens 1426agcaacggaa gaaacgcgag caagaacgaa aggagaagaa agcaaaggtt ttgggaatgc 60gaaggggcct cattttggct gaagat 861427470DNAHomo sapiens 1427cccactttag tcacgagatc tttttctgct aactgttcat agtctgtgta gtgtccatgg 60gttcttcatg tgctatgatc tctgaaaaga cgttatcacc ttaaagctca aattctttgg 120gatggttttt acttaagtcc attaacaatt caggtttcta acgagaccca tcctaaaatt 180ctgtttctag atttttaatg tcaagttccc aagttccccc tgctggttct aatattaaca 240gaactgcagt cttctgctag ccaatagcat ttacctgatg gcagctagtt atgcaagctt 300caggagaatt tgaacaataa caagaatagg gtaagctggg atagaaaggc cacctcttca 360ctctctatag aatatagtaa cctttatgaa acggggccat atagtttggt tatgacatca 420atattttacc taggtgaaat tgtttaggct tatgtacctt cgttcaaata 4701428185DNAHomo sapiens 1428tacatagccc tatcgaaatg cgaggattaa tgctttaatg cttttagaga cagggtctca 60ctgtgttgcc caggctggtc tcaaactcca ccaaatgtac ttcttattca ttttatggaa 120aagactaggc tttgcttagt atcatgtcca tgtttccttc acctcagtgg agcttctgag 180tttta

185142992DNAHomo sapiens 1429atggccgctt cagacccaca gcaaagattt ttgataaggc atgactccta aacggatgaa 60tgagtgcccc attagagcca agattctttt at 92143033DNAHomo sapiens 1430cttgaatccg tgaggcagat gtagtgagca gag 331431150DNAHomo sapiens 1431tagccaaagt ctaagcagaa gcccctgcga ccattccaac actgacagaa cattcctctg 60ccttgtttta cggatacatt ggggaaactt aaggatgaga actttagaaa tggtatttct 120tggaaaccca cttgcttgta aatcagtggt 1501432296DNAHomo sapiens 1432tggtatctgg tgttaaggca gtgccgaatg gagggcagga aacacatttt taaatattta 60tggatttatg tatttttctc ataaagacag ggtctcccta tgattcccag gctctccttg 120aacgcctagg ctcaagtgat cctcccacct cagcctccca aagtgctggg attacaggtg 180tgagccacca gattatattt atttctattc gctgtattta attcttaacc ccatgtttat 240tttacataac ttccctattt ctcaaaaaga atttaaggcc tattctcaaa ataatg 296143334DNAHomo sapiens 1433ttatgaacca ttaagacaaa ttagaccagg catg 341434183DNAHomo sapiens 1434cccagggcac ctacatatcc agatagacat aaattcctca ctcctaagaa aaccaggctt 60acaaggcgtc aaggccctat aaagaggaaa aacccaggac ggtccttaga ggcttccttc 120agcatgaaaa ccaagttaaa gccagagctc atcctgggtt gcagcaagtc atggttgggc 180cca 183143526DNAHomo sapiens 1435gctgcttccc gtccgctgtc ctctgc 26143629DNAHomo sapiens 1436gggcaaagcc catctggtcc gccgagcag 291437211DNAHomo sapiens 1437acagctgcca gacttcggta aatcaagggg gcgccccctg gagaccagaa ttttctggta 60cccctgggga tccggcttca agatcgctgc taccagtggg cactcaaaac ggggtgccca 120tgggtcccag gtacaagccc ggccgaacgt atctgaagcc ccaggaaaca cgtggcacaa 180attccgggag aaactgttag cccggaagat a 211143871DNAHomo sapiens 1438agcatttgta cacctaagct cggtcttcct gcaacacttt gcgccttccc gacctcagag 60acgtccgtct c 71143931DNAHomo sapiens 1439agctattggg agtggcggat cctcccaccc c 31144098DNAHomo sapiens 1440tggcactcat cttccgccac ctgtccctga gagaccgtgc tgccgccgcc agggtctgca 60gggcctgggc cgccgctgct acctgcagcg ccgtgtgg 981441208DNAHomo sapiens 1441acttcccacg ggtcactcag ctagggaatg gcagaggcag aattcgaacc tagcagtccg 60gaggccatgc caagactcct tagagacagc tgagaaagcc cagttcctaa aatatcattg 120gctctccatg tccaggtttc atcctgtggc agacgccact gaaatcttct aaaaggatag 180gatgcgagtt ccctcctttg gggcaaca 208144225DNAHomo sapiens 1442aggccttttc tgcacggctc taacc 251443305DNAHomo sapiens 1443agtgccgcgg agaaaaaccg ctcttcgacg cgggccgcga cgtcctggag gctgtgcacg 60ctgtatgcgg ggcggccagc cagctacgcc acctcgacct gcggcgcttg tccttcacac 120tggacgacgc gctggtgctg caggcggcgc gcagctgtcc cgagctccac agcctttttc 180tggacaacag taccctagtg ggcagcgtgg gtcccggctc agtgctcgag ctactggagg 240cctgcccgcg cctgcgcgct ctcggcctgc acctagccag tttgtcgcac gccatcctcg 300aagca 3051444116DNAHomo sapiens 1444gcgccccgag tgctagtgcc ttcttttggg attgttgccc cccgggtctt taccgagttg 60ggaactgtga tggcatcggg accagtcctg ggcgccctga gaccactcgc tgctct 116144525DNAHomo sapiens 1445acactgcccc cctctcttgc ctcca 25144630DNAHomo sapiens 1446gtgagtgtga aataaacaaa tcctgcagtg 30144730DNAHomo sapiens 1447tgacttcctt actattgctt cctggactaa 301448270DNAHomo sapiens 1448atgggccttg gtcacactcc ttggcttctc ccaccgcaag caacgctgcc tgcctctgcc 60gctcctccac atcttgccgc tgcccagcag agctggcttc tgggtccacc tgagcactgg 120acggtgctcc cagggcgttg gagcaggcgg aggggtgtgt ggccaggtac taggaggcac 180caggaaatcc cgcggggtgg cccatgcaga ccaggcgcac gtggctcatg gggcagaatt 240gccaaggaca gctcacgaca gtgccacctt 270144958DNAHomo sapiens 1449aatgtgcaca ggctggtcaa cgacctgcgc tactacagac tctgcaacga cagcctgc 5814502412DNAHomo sapiens 1450ttagtctcag ccatggaggt cccgagttcc tggctctgca gcccctccat ttgtcttggc 60atctttgttc atacccagga ccctgccgtt ctccctcctg ggtgatgagc cccggtgggg 120ccagcattgg agtgtgccca ggcttgcatt caggctgaga tggttggtgc ttgggagctg 180cacttctggg tccccagggt tagaggtggg acccaggttc cccggctgtc ttgggctctt 240tccagaccag ccccagctca gcttgggctg agttgctgcc aggtcctggg aggagccctc 300ctagtactca ccctcttgtc ccactgctgc cacctgtgca gggactgtca ggtgggctgt 360ccccacccgt gcagcacctc ggtgggagct gggtgctgct ggctcttggt gtccatgagg 420ccatcttgtt ggagcctgac agtgcctggg acctccttcc ccatggggct cacctgttct 480cttcttcctg tgtcaggtga ccaggcctct ctcttgcctg ataggaactt ctgggaactt 540ttccttgtac cgttttatac ttgatgaaat taggaaaaga aatcgctttc tccctggtcc 600tcttggggtt cttgacctga gtcctctgtg aagcagcttg tccacggctc caccgtagtg 660ctcagatgca cacactgctc tcactggtgc aaacctggcc gcctgctttc ctcatttgcc 720acgtgtggca gggaagcttt tgcttagact catcctgttc tcctttgtct tggggtcttc 780cttttcttgg gacttgttct ctcctaagcc tcttccagtt cacttcagcc cctggatatg 840ttttttcctt tttctagagg ccagatccta atacttaatg atcagcttct aacgacatca 900atatcagtca actttttgat ttaaagctgt ggtttcaaaa tctagttata ggccaggcgc 960ggtgtctcac acctgtaatc tcagcacttt gggaggccaa ggcgggcgga tcacttgagg 1020ttagggggtt tgagaccagc ctggccaaca tggcgaaacc ctgtctctac taaaaataaa 1080aaaaattagt caggtgtggt ggcacacgcc tgtaatccca gctgcttggg aggctgaggc 1140acaagaatct cttgaacccg ggaggcagag gttgcagtga gcggaggttg tgccactgca 1200ctccagcctg ggcggcagag tgggactttg tctcaaaaaa aaaaatctag ttatatcaga 1260agcacctggg gtacttatta aaaatggaga aacagacttc tgtgttctac ccaggaaatt 1320ctggtttggc atttgggagc cactgattta aaagacatcc cttagttggt tttttgaggg 1380taaaataaaa gaatcaccac cttccattca gtcacgcact gtgtgtttga agccagctgc 1440ttctcaagcc ccgggccagg aactggggca ccagtcccag ccttcaccaa gtctttcatg 1500gtagacaggc caatacagca ccctctgtgg accacatagt gccaagcatg tgacatgtct 1560tggctcgagt aagccttcta acaagcctct gaagtgtggg tcctgttact cccccatttc 1620acagatggtg ggggctcaga aggtgagcag ttcacagaac ttggaagtgg tagagctgcg 1680aagcaggagg cagacctggg tgttctggcc ccagagcctg cacacactcc ccagaagcag 1740attgctcagg acagaggcgc tgagctggct gctggggcca ggaaatagga ggcatctgtg 1800cagactttgg gaagaggcag gctttgaatg gagttctgga agaggaatag tggttgggca 1860ggaaaatgaa cttggtcctg ctcatggctc tgctggggct tgctgggcct gtttgagtcc 1920tcaccgggac ctacactgaa aaaaaaagca gggtctcacc gtgtgcatga tggcggaggt 1980cagggcctca cttctggccc agggccttcc atggcccacg ctgcgcccag tgggacaggc 2040cttgggactg tgtttgctgc tgctcgggtg gctctcgagg ggcaggggcg gcctggagcc 2100ccgtgggtaa aggttctgca gacattgctc ggtgtgcgcg tcacctcaag gggccatggt 2160gaagaagagg gctgtcacca cagccatgtc tgcgtttgag gggccggact caggagcaag 2220tgtgctggtc tcttcagtgt gagctggggc cagcttcttc atggtgcagc gctttggtct 2280ttctgtcctt agactagtgg ttctggtagg gcttggtggc agccttgtgg tgaggactca 2340gtgagttgat gtctgtatgt tgattgcagc agtgtctggc acccgagagg ccctagggac 2400gtattcctct tg 24121451161DNAHomo sapiens 1451aggtcctggt ccacaagtcc catgatcttc tgcaggagga gattggcatc gccatctaca 60acatggcctc agtcgacttt gatggcttct ttgccgcctt cctcccagag ttcctgacca 120gctgtgatgg tgtggatgcc aaccagaaaa gtgtgctggg g 161145274DNAHomo sapiens 1452gtcctttctc cagcccgaca tccacctttt taaacaaaat ctcttctact tggagactct 60caacaccaag caga 741453111DNAHomo sapiens 1453acaggactga gcttctgtgc ctggactgaa ctagtaactt ttacacccag gaattccaaa 60gcagtttaaa aatactttgc ttagccccca ggcagaggct taacctccag g 111145479DNAHomo sapiens 1454gccgagctgt ttgagctcct tttccggacg ctccatcaca actggaggta cttcttcaag 60tccaccgtgc tggccagtg 791455149DNAHomo sapiens 1455gagcagttag ccgagagcat cctccacgag ggcagcacag gctgccgggt ggtggagaag 60tttctgaaga tcctgcaggt ggtggtccag gagccaggcc aggtgttcaa gcccttcctc 120cccagcatca tcgccctgtg catggagca 149145693DNAHomo sapiens 1456actgatgaga tgctgagctt cttcctcact ctgtttcgag gccttagagt acagatgggt 60gtgcctttca ctgagcaaat catacagact ttc 93145794DNAHomo sapiens 1457accagacact cagcgtctta gaagatattg tggagaatat ctcgggggag tccaccaagt 60ctcgacagat ttgctaccag tcgctgcagg aatc 941458285DNAHomo sapiens 1458catttttgaa gcgtccaggc ctgttttctt gtcatatgtc tcctagtctt gttttgcctg 60attgtttcca taggttgtgg tgtagtggtg catgttcgtg ttcgcatttc ctcttgcatt 120gcttctgttt gtcccatcct tggtgatgct cagtctggat gcctgttggg agtagggcct 180gccagtctgt ccattgggaa ggtgcttggc aggtgtaatt gctcaggact gtagagaaag 240tgggcgaggt caagagttgg acttgggtct gaatggctcc agctc 285145975DNAHomo sapiens 1459agcagtggcc cgtgcgctcc atcaaccacg ccagcctcat ctctgcactc tcccgggact 60atcgcaacct gaagc 75146059DNAHomo sapiens 1460ccaggtgttg gtgtgccgag ccctctctaa catcttgctg cttccgtggc caaaccttc 591461136DNAHomo sapiens 1461agctgctgct atctgcgtgc cacttactgg tctcactggc caccaccgtg cggcccgtct 60ttctgatcag catccctgca gtgcagaaag tattcaacag aatcactgat gcctctgccc 120tgcgacttgt cgataa 1361462495DNAHomo sapiens 1462gggcaaaatg ctatgaaacg gcaccgcatg ctccagagaa atatttcatg aaaggaagtc 60aatcgatgca gcaaacttca ttgttgtctt attttaagta attgccacag ccaccccaac 120tttgagcaac caccaccctg ttcagtcagc agcagtcact ttcaaggaag acccttcacc 180agcaaaaaga ttaccgctct gaaggctcag atgattgtta gcatttttag caataaacta 240ctttttaact aagatatgta cattgttttc ttagacataa tgcttattgc acactttata 300gactatagtg taaacaaaac atatgcattg ggaaacaaaa aaattagtgt gccttgcgtt 360attgcataat ttgctttatt gtggtggtct ggagctgaac ctgcagtatc tctgaggtat 420gcctgtatat ccttccagac ttttttctct ttttatgtaa taagtaataa ctaagtttgt 480agatagctgg agata 495146375DNAHomo sapiens 1463gttgtagcct acatgcattc agatacaact ttactttttt agttatctga gttccacatg 60aatacatgct cactg 751464101DNAHomo sapiens 1464ggcttactct cactggttag cacagtattg cagtgaagtt caccggcaga acacgcagca 60gttcgtgaca ctcatctcta ctaccatgga tgcaatcaca c 1011465173DNAHomo sapiens 1465gaggaccttt tgcagatcca gatcttaatt tttttaaaag catgtcctac aatctggatt 60tgtctaatta tttccattat attagattca gtttaaacat ttttagcaag gttactacat 120aggcaatgat gtgcctttcc tcttgcatca tgtcagaagg ctcttaatat caa 173146682DNAHomo sapiens 1466tttcagcctt gaggagctct acagatgtgc tagattgact gaaattctta ctcctaaggc 60tgactttgat gtcctttctc tt 82146773DNAHomo sapiens 1467tcaaagtcac tctgtacgga tctcagataa aattgtacaa cattgaaact gctgtgccat 60cagtattgaa acc 73146833DNAHomo sapiens 1468gatatatctt atctgttcag ttggcggggc gca 331469104DNAHomo sapiens 1469aacatcacgg cggagaacga ctgccggcgg ctgcactgct ccctgagaga cttgagctcc 60ctgctgcagg ccgtgggccg cctggccgag tactttatcg ggga 104147038DNAHomo sapiens 1470tttgaagaag ttgtgttgaa aagtaaggaa atttcaga 38147187DNAHomo sapiens 1471gcctgtgtaa atgggcgcca gccgcgattc ttgtctactc ctggtgctgt gaccgtgtat 60gacaatggga tgcacatttt ggccagc 87147227DNAHomo sapiens 1472cttcttatgg gatctgtccc ggctctg 27147333DNAHomo sapiens 1473tttaaaggct tatgatgaaa agctgtgggg gag 33147465DNAHomo sapiens 1474tgttcttcag gacaatttag aagtttattt gggattacaa cagtttatag tcacttcagg 60gtcag 65147556DNAHomo sapiens 1475tcctgctcac agaggtgttg aatcgaatcc agttcagata caaccaagcc cagctg 56147636DNAHomo sapiens 1476ttgtttggat atctggacgc tgtttttgga ctatct 36147735DNAHomo sapiens 1477gtggttaatg gaatgaaggg ttgcctgtcc tgtag 351478162DNAHomo sapiens 1478agccttctag acttgccaga ttgaaatgac acagtgatct gcccatcaac tttttatcat 60ttcccttcac tttaattggg tcacaacaca aatgacttag aaaatgtgag cgcactagat 120tataagaagc cttagcagac agtgtctgag gattaaagtt gc 1621479179DNAHomo sapiens 1479caggagcaac atgggacatt ttatttccgg gccagttttg cttttctgag tagtagtttt 60ctctgctttt attatttcac atatctctgt tttgaaaaat agcttttgca gtaatgagct 120tcagaattgc ttttagccat tatttcattt tcagctaagg cctagtatgt ctttacctt 1791480612DNAHomo sapiens 1480aaaaccgtga tgtttgctct gtataagaac acaatctgat atggtaatat gttcttaaaa 60attatttggt gatagctttc catatgaatt caaaggcatc attattcaca ctttcatatt 120ctttctgtct gtggttaaga aaggctgtat tacctttttt ttaatgatct gtgtgtctca 180tgtctatctc ttcatatgtt aatttaaaaa tctagctgct tgtatcaact atcaaatatc 240agttgttttg actttaatca taatgtagtc acagacaact ttgttgtggc ttccatttgg 300atggtataga aatgtcatta tggattgtct atgtactgat gttgttacgt gtaacttttg 360tgctcttggt tttacatttt aatcctgtgc ttcctattgc cctgtgaaag ctgagaggtg 420cctgggagca gaaaggtgac ataaataatg ctgtgtgctt gcttcctggc tctgggtccc 480ctaccactaa ttctaaacag ctcagtccat tctcagttgt ttaggagctg ctaaccagat 540ccttggcttc tctttccctc tactgccttt tcccctaact ttctactgtt cattagcacc 600tgtaccagaa gg 6121481224DNAHomo sapiens 1481ttgttattgt cctctcaagt ggagcctaca atgacctact tttttttttt tttaaaagca 60ctctaaaaga cgactccatc acagtactct gaggcagggt ttcatgattt atgtctcttg 120cagatgaggt catttatgta tcttacaact gctgctgtat gaaaacagga gggaatttgg 180aaacttatat tatgaacaat cagattgacg gtttagggac tttc 224148232DNAHomo sapiens 1482gagactgctg ctcctgcgta gccaagaaca gg 321483113DNAHomo sapiens 1483acagaaaggt aggtgtgtgc cagtaagtct gagattagct ggaagggctt gggtggttaa 60gggaagtgac tgagtttgaa aaatgcttgt gccttgtgta ggtttgttgt ctt 113148432DNAHomo sapiens 1484tgctgtgctg catggcatct gtaatcctct tt 32148529DNAHomo sapiens 1485atcaatgaac tcatgtccaa gaactgtgt 291486161DNAHomo sapiens 1486agctagcgca ccctcttaat tcctacgtct gtttagtctt gagtctctat gtaatttgat 60gccagtgtgt ccttttgcta cagcttctcc attccttaat tctttatttt gatttatctc 120tttatctgtg tggtttcttt gtctgttatc ctccttgaga a 161148726DNAHomo sapiens 1487ggagggttga agtgggagaa tggctt 261488396DNAHomo sapiens 1488gtcttttctg tttgatgaga gcctcatgac aaggtgtaaa gggtaagaat aaacagaaag 60caaaccacaa catgagacag gaaggtagga ggagagggga gtgccctggg tgactggggt 120ggctgctgtg tgctgctgtg atacctgttt gctagggaga catgtatgca atgcctggcc 180gtgaggccct gagggtgccg ggagcctggg cttgctactt gagggaatct tgtagtgaaa 240agaagttttt atctctaact cctttatcca ggcttcttct tggatgtcta ggaactttct 300ttatatctcc agtttagtgc ttggcatgtg gtgggcactt aaagttggct gaaagaacca 360ttgatttaaa gtaaacttgg gttagtgcaa tggctc 396148927DNAHomo sapiens 1489tagaccatct ctggattact tctaata 27149082DNAHomo sapiens 1490atggaaatcc gtagctgtct gcccaaactc cttttggctc accataaaac cttaccttac 60tttatccgga acaagctctg ca 82149155DNAHomo sapiens 1491gcctctctca gggcattgga aagtctgatg acagaatttt ttcacgattg tacaa 55149230DNAHomo sapiens 1492gagtgattta tctgattggt acaccaggga 30149344DNAHomo sapiens 1493tctcaagctt catccgtgtg gtggcgtgtg tcagagcttc cttc 44149447DNAHomo sapiens 1494agtggagtca tgaagtattt ggcctgttgt gactgcctta tttcaca 471495379DNAHomo sapiens 1495ggcctgtcag cctccgcccg ttcagcctcg gggccggggc cgccgccacc tctgcccgcg 60gaggccgggg agcccctgcc tgggcccgca gcctcccccg cgggggtcgg gcccgggcgg 120gggtcccgag cagctgccct cctcgccggc atccgagcct catttcctgc tttttcagtt 180tccttgggga ggggcgggtg ggtctggatg aattgtctcg gggtcccccg atgaggcgac 240ccgggcggcc ctgccctttt tagagggtcc cctcggggcc cggtggggaa ggggttgtct 300ttgcatgggt gggggacttc ccgagtctgc cgggaccatg acctgaactg tgcgagcggg 360acgtgtccga agcccaaga 3791496389DNAHomo sapiens 1496tgctttgtga tagggagagt tatttctaag ggaaaggaat gtaccctgta tttctttctt 60tttctttttt tttttttttt tttttgagac agagtcttgc tctcttgccc aggctggaat 120acagtggggt gatcttggct cactgcaacc tttgcctcct gggttcaagt gatcctcctg 180cctcagcctc ctgagtagct gggactatag gcgcctgcca ccacacccgg ctaatttttg 240tatttttagt agagatggag tttcaccatg ttggccaggt tggtctcgaa ctgctgacct 300caagtgataa agtgctggga ttacaggcat gagccaccac gcccagcccg taccctgtat 360ttcttgaagt gaagaatata aagtctgta 389149732DNAHomo sapiens 1497tcacagctca tagtgacctc gatctcctgg tc 321498353DNAHomo sapiens 1498tgcagagatt acctatgtta caggcttaaa ttatagatgt gaagatggta aagggagaca 60ctattttaat caaaagcttc ctgggtacaa agctaatgag aggaaaaatt atacatttta 120tcaagctctt tttcaagtaa agaatagctt tcttttttca tctggcttct tgcctgacct 180tctccccttc ccctaaatgg tgagaggaag gagagcttgc agatagattt tccatatcgt 240aggggatttt tatatctggg aagcacagca tttcatattt ataggagggt gtatattgcc 300aaatgggata tttggcatta cgagtcattt ccagctgaga gagtaaggat gca 3531499494DNAHomo sapiens 1499tccctggcgt tctgtccaat acacttgcct tcaatccaag ttgaggacgg ttatggtaac 60cctctccaag gctctcttaa gtgggcgtca gggaagccca ctggagacag gaaagaccaa 120gagggttggg agtctaagtg aacctattcc tgggttggtt agtggtgcgt cctgtgacaa 180gaagagaggg accttgagac ggagagtcac aggcctgatg

atagcaggta aggtggagcc 240acagttccac cgctgggatt ggtccctttg atgaagaaca gaacgtttcc tggctacatt 300tgaagtataa ttatttgtaa caaaagatgg atttggaaga gagcactttt aggtgaaggg 360cttctggagg tttaaaaagg ctaattgtcc actgttctcc accacctccc gctttcaacc 420ccttcagtat tgactccttt aacctcatgt agctttcgtg actttgaaac accatgtagt 480agaaggagcc agac 4941500104DNAHomo sapiens 1500taaattttag cctttctggt agatgtgtag cactatctta ttttaaattt gtattttcct 60gataactaat gaggctgaac acttatttat aggctttttg aata 1041501325DNAHomo sapiens 1501ggatgtaact gctaggccac cttcagttct ttgaagttag ggaccgtctt actcatcatt 60gtatcccagg ggcttaattt aagcaatatc agttacttag tgagtattga attctcattt 120ctccaacaaa tagctgagtt gcttagtcac tccagaatta aagctaggtt tagaataatt 180ggagcggtgt gatggcatgt gcctatagtc tcagcttctc aggaggctga agtggggagg 240atcgcctgag cccaggggtt tgaggctgca gtgagctgtg attgttccac tgcactccag 300tctggggtga tacagcaaca ctctg 3251502176DNAHomo sapiens 1502ctcccacatg actatggtac agttaccatc ttcggttaat agaacattga ttcagtactt 60tgatctaacc tactaccacc tgtattccag ttttgtcaat tggctcagtc atgcctttca 120tagcattttt tccctccagt ccaggatcaa tctgtggtca ggtgtagcat ttactt 176150354DNAHomo sapiens 1503tgcagcatgc ttttatagtg gttcgtcagt ttcatactca ttcattacct gatg 54150441DNAHomo sapiens 1504atggtgtgtg tgaagacatg gaactgttat gtggagagaa a 411505281DNAHomo sapiens 1505acagttggtg ttacgttaga gctaataatt atactttagc acgttaacct cagaattcta 60aggctgagag tcaaacactg ctaattcata gaaggcaata gcttgtaata atgaatcata 120aagctcttct actctttgta gttcagtaga taaaaacatc tgtctgtagt gaactatttt 180atctgatggg aagaacaccc gaggatccgc cttcagtata gaatcgaaga gaaactgctt 240cactagctct tttccactag tccgggagtc accaatcatc a 281150629DNAHomo sapiens 1506tgaaattgaa ttaagtttaa ggctgggtg 29150737DNAHomo sapiens 1507ggctgttcca aaacagtaag ttatctctat tgattgt 37150831DNAHomo sapiens 1508ggaactaagc atggtgggaa atgttcctgc t 311509156DNAHomo sapiens 1509ctggattgca gaagactcgg ggacaacatt tgatccaaga tcttaaatgt tatattgata 60accatgctca gcaatgagct attagattca ttttgggaaa tctccataat ttcaatttgt 120aaactttgtt aagacctgtc tacattgtta tatgtg 1561510432DNAHomo sapiens 1510agtgaccatc tcatgggcat tgttttcttc tctgctttgt ctgtgttttg agtctgcttt 60cttttgtctt taaaacctga tttttaagtt cttctgaact gtagaaatag ctatctgatc 120acttcagcgt aaagcagtgt gtttattaac catccactaa gctaaaacta gagcagtttg 180atttaaaagt gtcactcttc ctccttttct actttcagta gatatgagat agagcataat 240tatctgtttt atcttagttt tatacataat ttaccatcag atagaacttt atggttctag 300tacagatact ctactacact cagcctctta tgtgccaagt ttttctttaa gcaatgagaa 360attgctcatg ttcttcatct tctcaaatca tcagaggccg aagaaaaaca ctttggctgt 420gtctataact tg 432151185DNAHomo sapiens 1511caagggggag agtgatgact tccatatgga ctttgactca gctgtggctc ctcgggcaaa 60atctgtacgg gcaaagaaac ctata 851512122DNAHomo sapiens 1512ctggtgtctc tcaaaagcct gatcctgcca aaaccaagaa tcgccgcaaa aggaagccat 60ccacttctga tgattctgac tctaattttg agaaaattgt ttcgaaagca gtcacaagca 120ag 122151330DNAHomo sapiens 1513agttcctaaa aagaatgtga cagtgaagaa 30151446DNAHomo sapiens 1514ggcagtgtac cactgtcttc aagccctcct gctacacatt tcccag 46151542DNAHomo sapiens 1515ttagtaacaa agaactgaaa ccacagaaaa gtgtcgtgtc ag 42151625DNAHomo sapiens 1516tgatgaagat tttgtcccat cagat 251517114DNAHomo sapiens 1517acaaactaca ttggcattta agccaatcaa aaaaggaaag aagagaaatc cctggtctga 60ttcagaatca gataggagca gtgacgaaag taattttgat gtccctccac gaga 114151863DNAHomo sapiens 1518aaaatactga aggaagccct caagaagatg gtgtggaact agaaggccta aaacaaagat 60tag 631519127DNAHomo sapiens 1519aacaagatga acaagtcgga cttcctggga aaggggggaa ggccaagggg aaaaaaacac 60aaatggctga agttttgcct tctccgcgtg gtcaaagagt cattccacga ataaccatag 120aaatgaa 127152052DNAHomo sapiens 1520gaacaagagc tggacacatt aaaaagaaag agtccatcag atttgtggaa ag 52152167DNAHomo sapiens 1521tgactccgta acagattctg gaccaacctt caactatctt cttgatatgc ccctttggta 60tttaacc 67152228DNAHomo sapiens 1522aatgaagaga gtgacaacga aaaggaaa 28152351DNAHomo sapiens 1523attaattaaa gttctgattc agaggggata tgattcggat cctgtgaagg c 511524170DNAHomo sapiens 1524gctttttgac cacgtaggct gtttaaagaa atatgacacg gtgttggata ttctaagaga 60cttttttgaa ctcagactta aatattatgg attaagaaaa gaatggctcc taggaatgct 120tggtgctgaa tctgctaaac tgaataatca ggctcgcttt atcttagaga 1701525131DNAHomo sapiens 1525cctcctctca taacagacta tagggaatac catacagata ccactgtgaa atttgttgtg 60aagatgactg aagaaaaact ggcagaggca gagagagttg gactacacaa agtcttcaaa 120ctccaaacta g 1311526111DNAHomo sapiens 1526tcaagggtac tattgaagaa ctggctccaa atcaatatgt gattagtggt gaagtagcta 60ttcttaattc tacaaccatt gaaatctcag agcttcccgt cagaacatgg a 1111527179DNAHomo sapiens 1527ggctcgattg ttatttccac caaaagatga tcacacgttg aagtttttat atgatgacaa 60ccagcgtgtt gagcctgaat ggtacattcc tattattccc atggtgctga taaatggtgc 120tgaaggaatc ggtactgggt ggtcctgcaa aatccccaac tttgatgtgc gtgaaattg 1791528117DNAHomo sapiens 1528gaccattatc aatttggctc agaattttgt gggtagcaat aatctaaacc tcttgcagcc 60cattggtcag tttggtacca ggctacatgg tggcaaggat tctgctagtc cacgata 117152957DNAHomo sapiens 1529tgtttacttg cttcaaacgg aatgacaagc gagaagtaaa ggttgcccaa ttagctg 57153086DNAHomo sapiens 1530tctgacatat aatgacttca tcaacaagga acttatcttg ttctcaaatt ctgataacga 60gagatctatc ccttctatgg tggatg 86153178DNAHomo sapiens 1531aacagataga tgatcgaaag gaatggttaa ctaatttcat ggaggataga agacaacgaa 60agttacttgg gcttcctg 78153274DNAHomo sapiens 1532ccagcacatc aaaggaagct aaagaatact ttgcagatat gaaaagacat cgtatccagt 60tcaaatattc tggt 74153327DNAHomo sapiens 1533gaagagtgga agagttctac tccaaat 27153438DNAHomo sapiens 1534tggccctctc ttctgcgaca tcgttttctg gaggaatt 38153580DNAHomo sapiens 1535aatatcatca agattgtggg tcttcagtac aagaaaaact atgaagatga agattcattg 60aagacgcttc gttatgggaa 80153673DNAHomo sapiens 1536tgggagagac aaatatgggg ttttccctct tagaggaaaa atactcaatg ttcgagaagc 60ttctcataag cag 73153755DNAHomo sapiens 1537ctccactgag tgtacgctta tcctgactga gggagattca gccaaaactt tggct 551538120DNAHomo sapiens 1538cattggctgt ggtattgtag aaagcatact aaactgggtg aagtttaagg cccaagtcca 60gttaaacaag aagtgttcag ctgtaaaaca taatagaatc aagggaattc ccaaactcga 120153972DNAHomo sapiens 1539tgtaaatgcc ttaattgaaa acccaacctt tgactctcag acaaaagaaa acatgacttt 60acaacccaag ag 72154078DNAHomo sapiens 1540gctgatcaga ttgtgactaa acttgttgat gttgtgaaga agaagaacaa gggtggtgtt 60gcagtaaaag cacatcag 781541150DNAHomo sapiens 1541aaaggatttc gtagttatgt ggacatgtat ttgaaggaca agttggatga aactggtaac 60tccttgaaag taatacatga acaagtaaac cacaggtggg aagtgtgttt aactatgagt 120gaaaaaggct ttcagcaaat tagctttgtc 1501542120DNAHomo sapiens 1542tatacatgta tcacctttca gcctgatttg tctaagttta aaatgcaaag cctggacaaa 60gatattgttg cactaatggt cagaagagca tatgatattg ctggatccac caaagatgtc 120154345DNAHomo sapiens 1543tggctatgga gccaaattgt gtaacatatt cagtaccaaa tttac 45154459DNAHomo sapiens 1544tgaaaagatg tatgtcccag ctctcatatt tggacagctc ctaacttcta gtaactatg 59154563DNAHomo sapiens 1545taatgctgcg gacaacaaac aaagggaccc aaaaatgtct tgtattagag tcacaattga 60tcc 63154670DNAHomo sapiens 1546caaatgtggg tttacgatga agatgttggc attaactata gggaagtcac ttttgttcct 60ggtttgtaca 70154757DNAHomo sapiens 1547gaacatattt tgctccgccc agacacctac attggttctg tggaattagt gacccag 57154836DNAHomo sapiens 1548cctgtaaatg aaaatatgca agtcaacaaa ataaag 36154928DNAHomo sapiens 1549gttcttgagc cccttcacga ccgtcacc 28155094DNAHomo sapiens 1550ttcaagtgga gctctcctaa ccgacgcgcg tctgtggaga agcggcttgg tcgggggtgg 60tctcgtgggg tcctgcctgt ttagtcgctt tcag 94155132DNAHomo sapiens 1551ttaaatagga attcatacca gggacaaagc ag 321552531DNAHomo sapiens 1552ggtcacttat acacgcattt ctttaaaata tctgattagg tatttatagt ttgaaagaga 60tgatgtttcc ttgactgagc atcttgagaa atcaagattt agttgacaat tagacatgag 120gagaatagag agctagaaga ccttgcataa actgattgac caagagaata gatacactaa 180tcatgtctac aggaacagaa aataaaagag acagagaaga gataataaat ctgatggtaa 240aaaaaaaaaa aggcaggaag attacgaatg gcttctactc tctgggtgtg gtggcgcatg 300cctgtaatct cagcacttga gctggggagg tcaaggctgc agtgagccta ggtagtgcca 360ctgcactcca gcctggacac aagagtgaga gagaccctgt ctccaaaaaa aaatgatttg 420atcatatatg atttgactgc ccccttgtgg taatttacat ttgtcaatgg tttagggaga 480cttgcctgta taccgggata tacaaattta tgcaagcacg aagacagttt a 5311553177DNAHomo sapiens 1553atcggcccgt ttcctattat ggaagattta ggtcatttcc atgttataaa taatattgag 60gtgattattt tggagtataa aacaagaatg tttatattat gatctattac ctaacaaata 120attttgctca ttatatagta aattgtgttt tatcacaagg ctataaacag catgttc 177155467DNAHomo sapiens 1554gctcatttgt attctagatt tctgatagat cccttcttcc ctaatatgat ccctaatatg 60aatcttc 67155551DNAHomo sapiens 1555aaataaagca tgagtacatt tttagtggct taatatcaac ttctattgca g 51155649DNAHomo sapiens 1556cttaaattat taatcatgat ttatctttac atatatgtgt tcttattgt 49155793DNAHomo sapiens 1557ttgcatgcgc tctattcccc ctctgcctct ccccaccttc tttggagcaa ggagatgcag 60ctgtattgtg taacaagctc atttgtacag tgt 931558129DNAHomo sapiens 1558gtgtctattg caggagaaac gtcccttgcc actccccact ctcatcaggc caagtggagg 60actggccaga gggcctgcac atgcaaactc cagtccctgc cttcagagag ctgaaaaggg 120tccctcggt 129155930DNAHomo sapiens 1559gtggtttctt cccacaagag agaaatctaa 30156033DNAHomo sapiens 1560caatttccac atcaatgtag aagagtcagt gga 331561243DNAHomo sapiens 1561ttgagtaggc ttcattcagg gcatgtctct cccccaggcc ccatcttcat acacttccgc 60taagatgccc acaattcatc ccccttcatg tgcagcttga aaaaccctga cattgttgct 120ccctgccggg catacctgcc attgccactg cccatctctg tgatgaggaa ttcaacacca 180gatctctggc agctcttgag ggattggcca gtggccattc tcaggggtgc tgtctagttt 240tcc 243156226DNAHomo sapiens 1562gatggctggc attgccatca gggaag 261563645DNAHomo sapiens 1563aggatctgga ctcctcactc tggtccttgg ctgttacctg ggacaggtca cttcctctct 60ctggatccgt gtttcttctg taaatgatag aggctgggct agtggtagtt aagatctagt 120gctcattcca ttctctgcat gagatagatg ggtattcttg tagttcagaa tcttgaccag 180ctcagtggct catgcctgta atcccagcac tttgggagtc caaggcgggt ggatcacttg 240aggtcaggag ttcgagacca gcatggccaa tatggtgaaa ccccgtctct actaaaaata 300caaaaattag ctgggcgtgg tggcgggtgc ctgtaatccc agctactcgg gaggctgagg 360cacaagaatc acttgaaccc gggaggcgga ggtttcagtg ggctgagatc gtgccactgc 420actccagcct gggcgacaga gtgagattcc gtctcaaaaa acaaaacaaa acaaaacaaa 480atctgtctac ttggggatag caggcctgga tgggctagca ggatgtccca cccctagagg 540agtcagatgt gtgggtggtg gtggtgtagg gtctgaagaa cactgcatag ctatctacat 600gagcttccct tacggacact tgagcttgtg ccctttgctt aaatc 6451564140DNAHomo sapiens 1564agagtgccgc tatgccacgc agctgcagca gatccagggg ctcattggtg gcctggaggc 60ccagctgagt gagctccgat gcgagatgga ggctcagaac caggagtaca agatgctgct 120tgacataaag acacggctgg 140156532DNAHomo sapiens 1565cctgatgtgt ctatgcatct gtcactcccc ca 32156679DNAHomo sapiens 1566agaggtggcc tccaacacag aaatgatcca gaccagcaag acggagatca cagacctgag 60acgcacgatg caggagctg 791567124DNAHomo sapiens 1567ctggccggcc aggtcaatgt ggagatggac gcagcaccgg gtgtggacct gacccgtgtg 60ctggcagaga tgagggagca gtacgaggcc atggcggaga agaaccgccg ggatgtcgag 120gcct 124156827DNAHomo sapiens 1568gtgagagctg gcccccatca cccctga 27156935DNAHomo sapiens 1569tgacatcaac ggcttgcgcc gagtcctgga tgagc 35157077DNAHomo sapiens 1570ctcctcttcc tgcattgccc actttacttg gccttctcct ggctctgact caggcagcca 60agacccctcc cacttcc 77157134DNAHomo sapiens 1571accatcgaca actcccgggt catcctggag atcg 341572187DNAHomo sapiens 1572gttctgtaga tccatggctg tgtccaaggt gtgcaggagg cagtgaccat gagttgtcca 60cagtggggct ggtggagtgt ctctgagaga gctattgtca gagctggctg caccccactg 120ccccactctc ctgggcaacc aattcccaca ggcaatactg cctccttggt ctttcgtgcc 180ctggaga 187157326DNAHomo sapiens 1573gtgagtcctc ggatgtcaaa gagagg 26157433DNAHomo sapiens 1574caaccagccc agaatgcgac tacagccaat act 33157526DNAHomo sapiens 1575ctctggcaat gagaaaatta ccatgc 26157682DNAHomo sapiens 1576gtttgtctct tcagggtcag gaggaggata tgggggtggc atgagggtct gtggctttgg 60tggaggggct ggtagtgttt tc 82157732DNAHomo sapiens 1577ggtggaagcc gaagtatctc agcttcttct gc 321578116DNAHomo sapiens 1578gaggtcccac aacaccctct gaagggtata taaggagccc cagcgtgcag cctggcctgg 60tacctcctgc cagcatctct tgggtttgct gagaactcac gggctccagc tacctg 1161579222DNAHomo sapiens 1579gatcggccag tggactccca aactaagaac acggagctgt cctcttgggg agaggctcag 60ggctcgggga agtgaagtcc agctgagggc acagttggcc tgagctgctc tcagtacagg 120cagaggcctt ggtagctgtg ctgtgatgag agttcgctcc ctgctgctct cttctggcat 180ggagagatga acctgtaatc caagtgttaa aaccgtgccc tg 2221580265DNAHomo sapiens 1580cccagcctta tcagcggagg tttgccccaa cacatcccag aaacgagcaa aggttcagcg 60ccgtgcagtt ggcaggtgtc gggatcatca gtcatcccct tgtcagtccc aagcctgctg 120ggcttttgtg agggtgccag gaacacaggc tggaggatgg caggagggga gtagaggtgg 180gaggagggga gtccatctgc agcaccaggt aaggggatgg atgctggctc ctctggtcac 240ctcagctgga acactactca aggtc 26515811375DNAHomo sapiens 1581gacagagctt tatcttcgca aggccatccc acctggtgct aatgaggagg ctccgggccc 60cacccagatc tggagctcac agtagcggtt tggactgaaa ccagggattt gtgcgtgggg 120cagtgagggg ggcagctgcc gcccctggcc tgggcctgag agtatagaga aagccacctc 180gaggggctgc tggaggagag tcaggtgcag aaggggatct ggctggggtc cagcccttcc 240tcaccctggg gtgaaaggcg agtaattgtt cttgagttaa ttgctggggc cacaatgtct 300gcagaggctt ttaatgagct ctggatgatc tgagtttgat tatttttctt tcggaggaaa 360agacaatacc ctcccaccca tgagacaata ccacactgtc tgtgcccagc attggaggcc 420aggctcactg cgaagatgga tgagaaggaa cccaccccca gccttgctgg ctggcagttc 480cccttgccag cccagctcag atgcaggaat ttggggtctg caggaaggac tctttccctg 540tgccctgttt ggttgagggt gtgaggacct gtttgagtcc tggctttgcc ccttaccagt 600ggtgccacct ggcacaagtt gcttcacctc tccaagtttc aatttcattc tttctgaatc 660ttgggtgggg gtcaccctct gttgtgagga tgagaggagg tgatggatgc aaaagtgctt 720tgtaaatcac aaagtgcagg gtagaagtaa aggattatgc tattatagca aaataagaac 780ctaagaacaa cctgcgttgc cccataggag ctggctatgg aaggtcgatg ccgttgagcc 840taagaacatg ctcaggctca cagggcatgt tctgatgccc aacgacaaag cccctcctgg 900tgagggcact caggcgcagg tgccggtcat gcaccctggc ccctgcatgt ctggcacctg 960ggtggggatc caggaggggg caggatgggg gctcttgggc cacagggctt ccctggaagt 1020gagagttgag agcgcccctt gccacaggga aacagagact taaaaaggta aatgtccaca 1080gtcttaccat ggtaattggt agggtcagga tttgaaccca ggcctcacag tcttaccatg 1140ataattgata aagccaggat tcaaacccgg gcctgaggga ctccagagcc ctgtccactt 1200caccatgctg caacctgggc taggaatcct cctcctgagt ttctgtaagc cctggggcca 1260ggtccagagg gctgagccac acctccaagt ggcactgccc acaggtatca ggtgtccctg 1320gaaaggtgtc cctgagctgg tggcagagaa aagggctctc ctgagtgttc aactc 13751582731DNAHomo sapiens 1582gcaggcccaa ccctatgagt gatgggggca agtgagggac actagttcca cgcccgcatg 60ctgccaaatg tactcagcac cctgctaagg aggctggaga ccccatcacg gccatggcaa 120tcccgaagga ggagctgttt caaggttggt tatgaacatg taaccccaga gccccgctgc 180tgtagcctgg actgggaccc ccttctgccc cctccctagc tgtcctgttc tggcctccag 240cacccacaaa ccaccacccc caacttaact tctcaggaag ccttggagct ggagggagag 300gcctggctgc acccccagct gggactgccc agaggcgctt gtccctgccc atgaaagcct 360cccttgtcac agctgaaacc ttccctctgc ctcaggggcc cctggaatgt ggctgcgggg 420cggggtctgg gcccacacag gtggggcagg tgactgtcag gtctcaggcc tgagtgtcag 480gaatgaagcc tgcctttgtg tgtgcacagt gcagggtggg gctggactgg ggacactttt 540ctgtctcagc ctggagacct gggataggag ggagagggga gtggggaagt tgaggggagt 600gcctttacat cctgctggtc atcgtggcca

cttcagtctg ttgagcattt cctgtgagtc 660atcttgctcc aactgagagt caggctgagc tggagttatt tccattttcc tgattggtag 720actaaggctc a 731158332DNAHomo sapiens 1583cgtctttggt caggaacttt ataatgtgct at 321584186DNAHomo sapiens 1584ttgcagttcc aaattgccat cttcccttgt ctcatttgca agttctcaat tgtatttctc 60tcaaatggac aggttccttc tttactggag gatttttgtt tttatcatat tggtttttca 120ttacttctga atagtcttaa ttacgtttac taaattctaa aggatttctg tgctattata 180attagg 1861585255DNAHomo sapiens 1585accctaaggg ctacttctga gactgaaaaa tcagctttct atttacatga aacactttgg 60gggtcatggg agtgcacagc attagacagt atttggttca ccctgtaaag tagccaagaa 120aagatgagaa aaatcaagat aggcctggca cactagacat ttgcctccaa aagaaataac 180ctacagtctt aagatgtatc ataaaaatgt tctgccaagg atctaaatta ccttgggttt 240cgcatatgtc tatga 2551586164DNAHomo sapiens 1586gttgtgatca ccacagtccc tctggtcagt gagattcagt tgatggctgc tacagggggt 60accgagctct cctgctaccg ctgcatcatc ccctttgctg tggttgtctt catcgccggc 120atcgtggtca ccgcggtggc ttacagcttc aattcccatg ggtc 164158747DNAHomo sapiens 1587tggtgagact gtccagatct agtctgtaaa cccagcttag aagcact 47158845DNAHomo sapiens 1588ttggaagata ttgttacact tcagaccaca aatccccacc tcatt 45158949DNAHomo sapiens 1589aatttgggga cagatcttga ttttcaggtt agctcaatct cagctttgg 49159070DNAHomo sapiens 1590agaagttgga cgaagaggct caggcgttgc tgtttcttgt cttccaagtc aagtggttac 60tctggtaatg 70159184DNAHomo sapiens 1591atcccaaacc agagcagacc ctatagtaaa gtatttttac atcttttcct ttccccagaa 60gagatcccta acctattgtt ttat 841592139DNAHomo sapiens 1592gtttgcacct ttagctttgg taacaggaaa gcatgctttt caacagaata aggtgatatt 60cagagcttca gtgcagttat tgggctatct tgcaggcaaa gtggtactag aaaatagagg 120ggaattgccc tcaagggcc 1391593146DNAHomo sapiens 1593atgctcctct taccaagcct gcaacttaaa acctatggtt taaactgtgc tttcaattat 60ctggaggagg ccagcactga tgagcccatc ctgagccagt cattttaagg ccagtgctac 120ctaactgaga caaggctaat ctggtc 1461594112DNAHomo sapiens 1594cagtttatta tggtattgga caccccatgc tccttactgc attggctttg ggtaagaagg 60agtgaaaatt agtgtgcgaa cctgaaaacc tagaatttct gattgggact ga 112159531DNAHomo sapiens 1595aaaatctaca gtcggtgtga atgtgaacta a 311596131DNAHomo sapiens 1596aaagagctcc ggaaacttgc cctgaaggag atgggaactc cagatgcaca ctttgatacc 60aggctcaaca aagctgtctg ggccaaagga ataagcaacg tctcatactg tatccatgtt 120cggttgtcca g 131159726DNAHomo sapiens 1597atggcgctgg ggctgcagcg cgcaag 26159862DNAHomo sapiens 1598ggggttttat ctggccatgt tcccatggga ccctggaaaa tgttctaggt cctcagcttt 60cc 621599103DNAHomo sapiens 1599atctcaccgc cgtgcgcacc cactcgtaac tcgcacccgg gtcctggctg caccgcatcc 60cctcctgcac cccctggatg gcccttcagc caacgggggc ctg 103160029DNAHomo sapiens 1600caaggatgct cttgggaagt ccctggtgg 29160131DNAHomo sapiens 1601gtacggcttg cagcccagag tgcccagtga g 31160225DNAHomo sapiens 1602tcaagatgag gagccagtag tgagg 25160333DNAHomo sapiens 1603cgccacagag aggagcgagg cgccagaggc acc 33160432DNAHomo sapiens 1604gtcgaccacg gagctgcgca aggaaaagtc cc 32160564DNAHomo sapiens 1605tgctgtacca gctggctcac acgctgccct tcgcccgcgg cgtcagcgcc cacctggaca 60aggc 64160646DNAHomo sapiens 1606atgcgcctca ccatcagcta cctgcgcatg caccgcctct gcgccg 46160738DNAHomo sapiens 1607ggaatccagg ccactaggat gtacccccac ttccttgg 38160896DNAHomo sapiens 1608accactggat gcctgctacc tgaaggccct ggagggcttc gtcatggtgc tcaccgccga 60gggagacatg gcttacctgt cggagaatgt cagcaa 96160945DNAHomo sapiens 1609ttggtatctg ttccttttct ctgcctcgtt accccactcc tggta 45161048DNAHomo sapiens 1610ctggagctca ttggacacag catctttgat ttcatccacc cctgtgac 48161128DNAHomo sapiens 1611gagcttcagg acgccctgac cccccagc 28161233DNAHomo sapiens 1612gaggccccca cggagcggtg cttctccttg cgc 33161357DNAHomo sapiens 1613atgaagagta cactcaccag ccgcgggcgc accctcaacc tcaaggcggc cacctgg 571614165DNAHomo sapiens 1614tgctgaactg ctctggacat atgagggcct acaagccacc tgcgcagact tctccagctg 60ggagccctga ctcagagccc ccgctgcagt gcctggtgct catctgcgaa gccatccccc 120acccaggcag cctggagccc ccactgggcc gaggggcctt cctca 165161541DNAHomo sapiens 1615cgccacagcc tggacatgaa gttcacctac tgtgacgaca g 41161675DNAHomo sapiens 1616aagtggctgg ctatagtccc gatgacctga tcggctgttc cgcctacgag tacatccacg 60cgctggactc cgatg 75161750DNAHomo sapiens 1617gtgcgaagcc agctgccaca tggcccccag ctgacaccag gaccccccag 501618110DNAHomo sapiens 1618cccaggatgc actgcctccc cacctcaaca ccagctccct gctccccaag ccccaaggaa 60ctgtctcctt ccttgccccc tcatacccag tccccagata tttctctccc 1101619125DNAHomo sapiens 1619cagtaacagg gcagtatcgc ttcctggccc ggagtggtgg ctacctgtgg acccagaccc 60aggccacagt ggtgtcaggg ggacggggcc cccagtcgga gagtatcgtc tgtgtccatt 120tttta 1251620246DNAHomo sapiens 1620tgggcctgat ctgcatgtgt ggacaggtgt gtgtgtgtgt gtgtgtgtgt gcgtatgagc 60atgcatgtgt atcatgcata agtgtatgtg agggagtgtg cacgtgtaca catatgagga 120atgtgtgtca ccatgtaaat gccggtgtgt gtgtctgcat ggacacaggt atgtgtatgg 180gtgtgtagac tgttaatttt tttttttttt tttttttttt tttttgcgtg aacctctgct 240taagtg 2461621160DNAHomo sapiens 1621gcaaagtggt taggacccat tctcaaaaaa aaaaaaaaaa aaaaacctga aaacagacca 60aaaaaaaaaa ccacacacac gcaaagatag atggtttgca tatggtaaat tctctttatg 120gtacacagtt ctgtgaattt ttgacacacg catgcagttg 1601622397DNAHomo sapiens 1622tgcacccggc ccatgttgtg gtttatatca gtagttcctt tgtaaatagt gaacagtatt 60ccatggtatg aatagagcac aggttttttt tttatccatt caccagttag aagacattgg 120gctgtttcca agtttgggtg attacaaaaa aacagctact gtaaacattc tcatacaaga 180ttttatgaga tcacatgttt tcatttctct tgggtaaaca gctaggattg gaatggatgg 240gttatatagt aagtgtatat ttaatctaag aaactgccat ggctgggcac agtggctcac 300gcctgtaatc ccagcacttt gggaagccaa ggaaggagga tgactagagc ctctgaggtg 360aagaccagcc tgggcaaagt ggttaagact caaccgc 397162326DNAHomo sapiens 1623gacagagttt tgcccttgtc actcag 26162499DNAHomo sapiens 1624tgaaaccctt ataggagaca aataaatgtg ggcaattatt ttctgcaaaa tgccctccaa 60gcccctgggc gccattgcct tctgtaatag gacatcacc 99162587DNAHomo sapiens 1625aagagaccgg agtggtgctg tccctggagc aaacggagca acactctcgc agacccattc 60agcggggcgc cccctctcag aaggaca 871626131DNAHomo sapiens 1626cccggatcct tgccttcctg cacccgcctt ccctgagcga ggctgccctg gccgctgacc 60cccgccgttt ctgcagccct gacctccgtc gcctcctggg acccatcctg gatggggctt 120cagtagcagc c 1311627130DNAHomo sapiens 1627tgctctccta ataatgcaac aatcgtcaac acagaagaag acttctgtga ccaaatgtgg 60gcagtttttc ccacacacca agcagcggac accagctggg tgtcctccaa ttcaattccg 120gcatcatcta 130162867DNAHomo sapiens 1628ccagatgaac tacctgtggg caccgagaat gtgcacagac tcttcacctc cgggaaagac 60actgagg 671629191DNAHomo sapiens 1629caaactctca gtcagggcta cagtcatctg gggttagagg gttttcttcc aagctcacac 60acatgaggtt gttggcaggc ctcaatccct cactttgctt tggctggagg cctcagttcc 120tcatcacgtg aacctctaca tagactccct aagtgtcctc acaacatggc agttggcttc 180cctaaggcaa a 191163086DNAHomo sapiens 1630ccagctcaac gccagcgagc agctacccag ggcctaccac agacctctgg gggctgtccc 60ccggccccgt gctcggagct tccatg 86163143DNAHomo sapiens 1631ccagagctca gaggacgagg acgagggagt ggagctgctg gga 43163228DNAHomo sapiens 1632cagcccagaa cacgaaaact ttctgctc 28163350DNAHomo sapiens 1633gggattctct ggccctcatt acctagctgg cttaaaccta ctgttttata 50163455DNAHomo sapiens 1634ctggttgagg gtcatacaga aagtcagtgg gccagctgag actaaagcct gatct 55163553DNAHomo sapiens 1635gtcctcgggc gaaggaagaa ggagaagggg gatgaggccc tggaggaaca caa 53163632DNAHomo sapiens 1636agtttccttc tgacaggagg accagcccca gg 32163734DNAHomo sapiens 1637agcaccccac tcctgaacct gaatgagccc ctgg 34163897DNAHomo sapiens 1638aagtgtaacg gggaaataat gcatgcaagg aaaaaggttt ggagtagggg gatttcagtt 60ttaaacagta tgatcagggt ggtttcattg agaaggt 971639700DNAHomo sapiens 1639agtgcgcttc attacgtctg gctaattttt taatttctgt agagaaagag gtcttgctat 60gttgctcagg ctggtctcaa actcctgggc tcaagtgatc ctcctgcctc agccttccaa 120agtgctgaga ttgtgcctgg ctgtctctgt cttctttggg gaaaagcaag gccaatgtag 180ctgaagcaga gaggagagaa aggtgagggc tgactgcatg gagcctctgt ggggcattgt 240gatggctttg aagtcacctt gcttgaggag gctgcctcag ggcctttgca tatcctgatc 300cttctgcctg gcatactttt ccctctgttc tttgccatgt taccacatcc tttagatctc 360aaaccaaata ttactcctta cacaaagccc tgcctaactt catacgctca tggtttataa 420cactccataa ttacacaggc ctttgtgtca taatttgatg actgtctgtc ttctcctttg 480ggtatgagac cttcaagggc aggggccagg gctgtctggg tccctgctgt tctcttcttt 540gtgcacatgg gtgggcggtg gctaagcaca gaggaagttc tcagcacata tttgtgaatg 600aggagctaag attcacgcac tcgcactgtg cctagctttg tgctaaatcc tctatgcacc 660tgatccaatt ggcgcttctc actggagtgt cggtcccata 700164025DNAHomo sapiens 1640gttttcactt tgtcacccag tctgg 25164132DNAHomo sapiens 1641accaccacgc ccgacagtaa atatgttttg aa 321642165DNAHomo sapiens 1642cacagcaagt aaatagcaat gcctggattc aaactagggc agcatctgac tctggactcg 60ggttcttcac cgcagccctg aacaccccag agaggttcag agagcagaac gtgcccaaga 120cgtcactgcc gtttgaatcc agacaggctt gcctcaccac ccagg 165164331DNAHomo sapiens 1643ctcactgctc tctccgtact cagacgagga c 311644222DNAHomo sapiens 1644tggtctcagc tcagtgacct ctgggaggtg gtccctggcc ccctcctcct tctctcagga 60tttctcttgg ggttctcaat acttggttac ctcattatcc ctttctctgc ctctcttggc 120tttattttgg ggaatcaggg gtgaggaggg ttgggggggt catatctgtg tttccaggtt 180ctggggagaa caatgatcca cgggtcaacg tgatcacatt tc 2221645104DNAHomo sapiens 1645ccagtgactt ccgattgagg ccaaagaccc caagctgccc gccagctctg actgcccctt 60gcgctctggg cttcctgccg cccccagctt tgcctggaca ctga 1041646544DNAHomo sapiens 1646tgacctgcac tggttctaga ccacacaacc tccaatgtgg tctgctttag atcaccttct 60tcttcttcct tcttcctctt cctcttcctc ctgctcctct tcctcttctt cttctttttt 120ttttttgaca gagtcttgct ctgtcaccca ggctggagtg cagtggcgcg atttcagctt 180actgcagcct ccgcgccctg ggttcaagtg attctcctgc ctcaacttcc caaatagccg 240ggactacggg catgtgccac attgcccggc taatttttgt atttttagta gagatggggt 300ttcaccacgt tgtccagtct ggtctcgaac tcctgacctc aagtgctcca cctgcctcag 360ccttccaaag tgctgggatt acaggcgtga gccactgcac ccggctagaa ctcactttct 420ccaaatccct ctgcttcgaa tttcaccgtc ttcagctctt tctagttctg ggcctcacca 480gcctctcatt ctgcctgttt tcaaacctta cgatccccaa aaattgtctg gttctgggcc 540tcta 54416471103DNAHomo sapiens 1647ccggttccag atcttatatt cagtgatttc ctctggttct ggaccccaca actccaagct 60tcctattggt tccagttctc ctgatcggta atacatttgg ttccaaatcc agacctctta 120atctctctct tttttttttt ttttttttga gacagagtcc cactctgtca cccaggctgg 180agtacagtgg ctcaatctcg gctcactgca gcctccacct cctgggttca agcaattctt 240gggcctcagc ctcccaaata gctgggatta caggcatgtg ccaccacgcc cagctaagtt 300ttatattttt agtagagaca gtgtttcacc atgttggcca ggctggtctt gaactcccga 360cctcaactga tccacccgcc tcagcctccc aaagtgctga aattacagga gtgagcctgg 420ccagacttct taatttctaa atcacttttg ttttagacct tatgaggctc agcttattct 480tctgcagttc tctataacca agactcattt tctctcatca aaaacaagta cagagagttt 540gatgtgttta tctctttttt cttcctcttc tttttttttt ttttcttttt tgagatggag 600tctctctctg ttgcccaggc tggagtataa tggtgccatc taggctcact gcaacctccg 660cctcctgatt caagtgattc tcctgcctca gcctcctaaa ttggtgggat tacaggagcc 720caccaccaca tccggctacc tttgtgtatt ttttagtaga gacggggttt tgccaagttg 780gaggggctgg tcttgaactc ttgacctcag atgatccacc cgcctcagcc tcccaaagtg 840ctgggattac aggcataagc caccgtgccc gaccctgtcc ttatcttata ataaccagtt 900cttctagaac cagacgatgc tctagttctc ctagattctg aacctcatga cctgtaccac 960tcactagttc cagactacac aacttctaga aggtgccacc tccagggtcc tgattcaaga 1020tctggtgatc tgctgtttct ctggttctag aactgactta caagtgcctt ctgattctag 1080acctcattcc gtaagttccc ttg 1103164831DNAHomo sapiens 1648cccagcctcc taaatctatt ctgggcttcc c 311649207DNAHomo sapiens 1649cactgaactt acccaattcc ttctttcagt cttaagtttt cccattctaa acccctaccc 60tctaggctgt gctgctcctg gacttcatgc ctctccattc tcattgccta caatctctgt 120gccccagaac cccctccact tcccacccca gccctccaga catgcactta ccttgacttt 180accccacatg tttggggcac ctggggc 2071650177DNAHomo sapiens 1650agctgtctgc caccatctat gtgcctccct taccccccag ctttctttct acagatggtg 60ctactcttgg tctcccacag gaaaaggcct ccccccttct tagccccatt taccccgttt 120gtggaaggca ctgctcgctc tgttttgtca gagagtggcc tatccagatt ggtgcta 1771651226DNAHomo sapiens 1651tcctcccgga gtttggaacg gctgaagttc accttccagc ccctagcgcc gttcgcgccg 60ctaggcctgg cttctgaggc ggttgcggtg ctcggtcgcc gcctaggcgg ggcagggtgc 120gagcaggggc ttcgggccac gcttctcttg gcgacaggat tttgctgtga agtccgtccg 180ggaaacggag gaaaaaaaga gttgcgggag gctgtcggct aataac 226165240DNAHomo sapiens 1652atgccctcag gaagtgtggc gtttgatgga ggaaaacaga 40165365DNAHomo sapiens 1653tgagggagtt caagagccag tttgtgtttc tgtgcttcac aaagccaccc ttgtctaatt 60cttga 65165498DNAHomo sapiens 1654tgatacatat ttgccagact tcaagatttc agaaaagggg tgaaagagaa gattgcaact 60ttgagtcaga cctgtaggcc tgatagactg attaaacc 98165525DNAHomo sapiens 1655gagtgtgcac ttcagtggcg tgatc 251656182DNAHomo sapiens 1656catttgggta agttaatagt caatttatag gccacgtaaa tgggaaggat tatttcctta 60aatcaagaga ttagacaatc attgcttgtc atgaatattt aataaaaatt tgagaaagct 120cagtttcttt tgggctgcaa acatagatct agggaaataa atactgctta actattttgt 180tg 182165755DNAHomo sapiens 1657aaggtgacct gctgagaaaa gtggtacaaa tactgggaaa aacctgctct tctgc 55165893DNAHomo sapiens 1658cacaagttaa aagctcttat tcctatgatg ccccctcgga tttcatcaat ttttcatcct 60tggatgatga aggagatact caaaacatag att 93165996DNAHomo sapiens 1659tactggtagg gagctttagt ttgcatttta aatgcgtgat agtgatttgt tttgcttcct 60tgctgatcag acaatgatga tcttcccttt tcacag 96166079DNAHomo sapiens 1660ggaactggag ggctttttca gggcaaaact cctttgagaa aggctaatct tcagcaagct 60attgtcacac ctttgaaac 791661105DNAHomo sapiens 1661gacaacactt actacaaaga ggcagaaaaa gaaaatcttg tggaacaatc cattccgtca 60aatgcttgtt cttccctgga agttgaggca gccatatcaa gaaaa 105166236DNAHomo sapiens 1662caagagatgt gccactcctg taatcatcga tgaaat 361663101DNAHomo sapiens 1663ccttgtatac cacttgtaag tttcttttct gaatttacac tttagattga atagattaaa 60attaaaaatg gtacatctgt aatatgtttg gtgtacctca a 101166458DNAHomo sapiens 1664tccatatgca gtagatttgg ggaggagggt acaggctatg cttcagggaa ttgaaaac 58166592DNAHomo sapiens 1665agaaggcagt gctcatcaag atactgctga aaagaatgca tcttccccag agaaagccaa 60gggtagacat actgtgcctt gtatgccacc tg 92166631DNAHomo sapiens 1666gagaagagta tgaaaatgca gcaagaggtg g 311667129DNAHomo sapiens 1667atcagtgagc caggtcacca aatcagttga cttccacttc cgcacagatg agcgaatcaa 60acaacatcct aagaaccagg aggaatataa ggaagtgaac tttacatctg aactacgaaa 120gcatccttc 1291668278DNAHomo sapiens 1668ggttggggca gaccagtcaa atctcatgca gttttgttac cagagcacca acaaaatcag 60taataatcgt taagtaaaaa tgctagtact aataatctcc acttgcattt gtagtcagta 120tcatcatttt ttgaaattag ttatttgcat tcttaaaccc tgaggttatg cttctttctt 180tgagatacag gtccttgaag ggttttgctt ccaattagag accagtttta tcaaaattac 240tggtccaagg aataggaata ggcttcttca tcagtctc 278166956DNAHomo sapiens 1669ctctgtgccg aatatgtggc ttatggtaga tgtgagctct tccgtgacat ttcatt 561670121DNAHomo sapiens 1670gcccgagtga ctaagggatg taccattgtt aagcctttca acctgtccca aggaaagaaa 60agaacatttg atgaaacagt ttctacatat gtgccccttg cacagcaagt tgaagacttc 120c 121167131DNAHomo sapiens 1671atggctcact tcagtgtcca actcctgggc t

31167254DNAHomo sapiens 1672tgaatcacca cttacaagta aactgggtct tgcggatcta gatgaacatc tgtc 541673140DNAHomo sapiens 1673ctgttaccct ccaaatcttc tgtgaccaag atttgcagag acccacagac tcctgtactg 60caaaccaaac accgtgcacg ggctgtgacc tgcaaaagta cagcagagct ggaggctgag 120gagctcgaga aattgcaaca 140167425DNAHomo sapiens 1674gtaagtccca ctggcagtat ctgag 251675183DNAHomo sapiens 1675cttgatccca gaatacttga aggtgggccc atcttgccca agaaaccacc tgtgaaacca 60cccaccgagc ctattggctt tgatttggaa attgagaaaa gaatccagga gcgagaatca 120aagaagaaaa cagaggatga acactttgaa tttcattcca gaccttgccc tactaagatt 180ttg 1831676474DNAHomo sapiens 1676cacctgtttc agatgaggta accgaggcac acagaggtta tgtagtattc ctagagcact 60cagctagtac atggtggagc aagtaagagt tcagacactc tagctacaga gtctgtgatc 120ctaatacctc attatatgcc tctccattac atgatagaat tttgacttgc agaaatgcaa 180atggactgga ttggcagaac attccaggca gtaggaatta catgataaaa agcctgacgg 240tgggaaacaa gaagcttcta ctgggagctg ttagtgggtc agttaagctg gagaaaagtt 300tatcaagagc cactggaaac tgtttcagag aagtgagttg tagtttgata ataggctcac 360aaccacaagt ttagagaaaa tgtgcaatca ggaagcaagg ctacagtcag agaataagca 420atggagttaa gcacctgcat aaatgcgaaa gcggctttta gttacatttc agtg 4741677272DNAHomo sapiens 1677acagggaccg tgtgtatcta tattattcac tctgtatccc tagcccctag catagtgacc 60accacagcac aagcactctg atatcggata actgagtgag taatagtaga agctgacatg 120cacctagaca ctaggaattc aaagatggta taagacacgg cccttgtcct caaagctttc 180atagtctggt agagcatata gatgtgtaaa tgagtaaata tggtaatatt aaccaacata 240tgttcattga acagttacta cggggtcttc ta 272167848DNAHomo sapiens 1678agtggagatc attttgtgat atctaattga gttgcttact cctttcag 48167931DNAHomo sapiens 1679tgttcctgaa aagaaggtac ttccaatcac c 31168034DNAHomo sapiens 1680cattgaagaa cagaattcga atgcccacca aaga 341681132DNAHomo sapiens 1681gacgaaccgg tagtgataaa agctcaacct gtgccacatt atggggtgcc ttttaagccc 60caaatcccag aggcaagaac tgtggaaata tgccctttct cgtttgattc tcgagacaaa 120gaacgtcagt ta 1321682110DNAHomo sapiens 1682gtgcccaagt tcaaggcact tcccttgcct cattttgaca ccattaacct gccagagaag 60aaggtaaaga atgtgaccca gattgaacct ttctgcttgg agactgacag 110168339DNAHomo sapiens 1683gtaggggatg gggagagcag ccaaaatgtt aattgcttg 391684319DNAHomo sapiens 1684ttggaggtgg gaagaatact ttataggtga tactgtatag ttcctaatga atcatgtgtg 60aaggcagaaa atgtctagtt gtttattttt atgatataaa gataggtctt aaaagtacct 120ttaaaatttt ttgttttttt taattgacaa ataatagttg tacatattct tggggtacat 180agtgatgttt caatatgtat aatgtgtaat gatctgatca gggtaattag catatccata 240atctcaaaca tttatcattt ctttgtgttt ggaatctttt tttttttaat ttaaaagtaa 300actttagcac accaacatg 319168541DNAHomo sapiens 1685cttgtttcaa ggctcgtcca aacaccgtca tctctcagga g 411686128DNAHomo sapiens 1686ttcaggaacc ttttcagctg gctactgaga agagagccaa agagcggcag gagctggaga 60agagaatggc tgaggtagaa gcccagaaag cccagcagtt ggaggaggcc agactacagg 120aggaagag 128168738DNAHomo sapiens 1687tgggagcatg agcactgacg aacacaaaca tgcctctg 381688296DNAHomo sapiens 1688aaccatgatg cctttcctag gactgttttt tatttatttg tttattttat ttatgtaact 60tattatttcc tctggggtta agaagcacca ctgagttttg taattagaca agaatacata 120gcgaaggaca tgggaattaa atggcaactg tatttttgtt ttaatactga gcccaaactc 180cttggagtta cagtgttcgt cgctccaggt aatcctctac taacataatt atttagatgt 240tggttatcca aaaagaaacc tgaactccac attaaggacc aatctgctag gagggc 2961689272DNAHomo sapiens 1689tgtactctgg gaaattctta gcttgtaact tctctgctat acttgagtac agccctatta 60taccctagta aatcacacag gacataggtt tggcattctt tagtgaaagc tgagggactt 120gaggagactg tggcctaaag gaaagctggg ggacccaata gagacctgaa tagaaaccct 180tttgggctcc aaagcacata cacttttcca tcataccgtg ttgcccccca ggccccactc 240cccacacctg aaactagtga ctgggacctg ta 272169072DNAHomo sapiens 1690gtgcataagg caaatccaat acgcaagtac cagggtctgg agataaagtc aagtgaccag 60cctctgactg tg 72169129DNAHomo sapiens 1691ccaaattctc cactcgattc cactgctaa 291692130DNAHomo sapiens 1692tcagctgtga gctgcggata ccgcccggca atgggacctg ctcttaacct caaacctagg 60accgtcttgc tttgtcattg ggcatggaga gaacccattt ctccagactt ttacctaccc 120gtgcctgaga 130169325DNAHomo sapiens 1693cagaaaataa agatagttaa atcct 251694170DNAHomo sapiens 1694gtcctcttct ctgcataccg tgaatttata gttaaggatc cctttgctgt gagggtagaa 60aacctcacca actgcaccag tgaggaagaa gactgcgtgg attcatgggg agcctcacag 120cagccacgca gcaggctctg ggtggggctg ccgttaaggc acgttctttc 170169528DNAHomo sapiens 1695ggaaccgtgc agtgtgcatt ttaagacc 28169625DNAHomo sapiens 1696tggcctggaa taaatacgtt ttgtc 25169776DNAHomo sapiens 1697atggagtttc accattttgg ccaggctggt ctcgaactcc tgacctcagg tgatctacct 60gcctcggcct ctgaaa 761698402DNAHomo sapiens 1698gtgctctgaa acctactttg cctgatatta atatagccac tctagttttc ttttgattgg 60ttttagcatg gtatgtctat atttaaagtg catttttttg tagacagcat ataattgggt 120cttgctttat tatttaatat tattgttgct gcattttaat tggaataaat gcatctattt 180tagccttgac atgctatgct attattttgt gtgtgcgtgt gagtctctct gccccaaaaa 240tatttcttta ggagatgaac caaatgattg ttctctgaaa tgaataatgc ctaaactatg 300ttttcatggc ctatcttttc ttccctgtca tcttgttgca gtttaattcc tttatcagga 360gtcagttcat atgctatgtg attaagtgct gtttcttcca tg 402169930DNAHomo sapiens 1699taaatccccg cacctgagca tcggctcaca 30170040DNAHomo sapiens 1700atgcctgctt gtcgcctagg cccgctagcc gccgccctcc 40170131DNAHomo sapiens 1701ctgctgctgt tcggcttcac cctagtctca g 31170292DNAHomo sapiens 1702ccaggctgac cagaactgca cgcaagagtg cgtctcggac agcgaatgcg ccgacaacct 60caagtgctgc agcgcgggct gtgccacctt ct 92170327DNAHomo sapiens 1703ggcggggccg cgctgggctg ggaggag 271704301DNAHomo sapiens 1704gcagtttcct tctcgaaccg gccgaagcct gccctgcggg aaagcccgga gcctggggcg 60ctcacctctc ctcttggagt ccctccctgg gggcctcccc cagccctggg gaaagactgg 120gagagcctgg cctggcaaga ttttccccaa ttcctctgtc caggcggaaa ggaactttac 180agatttagga aaatgccccg ctcatcttaa agatgtgtaa gggagcatcg gtgagaaaaa 240aatgttcttg cccaaggtca caccgccatc ccatggctgc tggagtcata gtgagggttc 300a 301170588DNAHomo sapiens 1705ctggacactg tatcgccctt cgtcgtcttt cagtcaatct cttccactct aaggattgag 60tgagcgcgag ctggggactc tctcaaag 88170641DNAHomo sapiens 1706gcagtctcca ccaggctatc agaacagggg gtggcttaaa c 41170731DNAHomo sapiens 1707ctttatccag aatacagccc ctgtgacttt t 31170835DNAHomo sapiens 1708tacggtgacc caagacaccg atcagcaggg aggtg 35170981DNAHomo sapiens 1709agatttggag agaaagcagg cagcagccag atgagagagg tggaggagca aaggagggag 60tctttgctgt ttgatggatg a 81171026DNAHomo sapiens 1710atcaggtggc tgtagatgtg tagtgt 261711128DNAHomo sapiens 1711gtatctgctc cagagtgcac tattcctcac ggcacagtcc ctcatggctt cccttggcta 60ggggagggag ttccctgacc tcttgtgctt cccaggtgag atgatgccct accctacttc 120tgctcgcc 1281712322DNAHomo sapiens 1712aaccatgatg tacctcagtt gatgaatgga tttggctggg cctggctccc ctctatctaa 60cctgggaagt ggagtgtgat tgtgtgtgtg tttgttagtg gaaggacgtg tggtttctct 120ctgcatggat gaatgagtgt atttggaggg tcatggtgct gagagactgc aactgggatt 180cggtctgtgg gtatgagtga agattataag tgtgtaaccc ctcacatgtg tactgtactt 240tacactttaa gtggcagcat agtgcttaac catggcagca gcagttaaca catagactct 300gcagctagat ttcttggggt tc 322171378DNAHomo sapiens 1713ttaggggctt gatacctggc atgtaataag agctaattaa gtgttcactg ttataatttc 60tcataactac agagtagt 78171473DNAHomo sapiens 1714tggcacctaa agacacggag gctctgggag atttctggcc ctaggccacg aaggcccact 60tgggactcaa gct 73171542DNAHomo sapiens 1715ggtcctgtga ttccatttgg gagcaggagg agggatttgc ag 42171659DNAHomo sapiens 1716ctcaggtgcc caagatggac tcaggcaggc agctctgctg tatgtgaagc ccagtgagg 59171751DNAHomo sapiens 1717atgctgcagg tacaagttaa tctccctgta tcgcctctgc ccacttaccc t 511718106DNAHomo sapiens 1718gtgaacatta actttcccca gctcggcctc tgtcgggacc agtgccaggt ggacagccag 60tgtcctggcc agatgaaatg ctgccgcaat ggctgtggga aggtgt 106171947DNAHomo sapiens 1719gcctagtcta atggatattg ttgttgatgg tattgttata attttct 47172070DNAHomo sapiens 1720ccaccaccag gctgagcagt gaggagagaa agtttctgcc tggccctgca tctggttcca 60gcccacctgc 70172128DNAHomo sapiens 1721ccctcttggg ctgaccacag cttctccc 28172231DNAHomo sapiens 1722gtgggaagaa agactgggat gatgaccaaa a 31172352DNAHomo sapiens 1723gaaaactctg gagttaaggc caatgaagta atctctaaac tttatgcagt ac 52172428DNAHomo sapiens 1724aattgaatta gccaaacaga tcacatca 28172526DNAHomo sapiens 1725ggctctacag acaatctgat ggatga 26172625DNAHomo sapiens 1726gagatactca ggtggtggtt tttaa 25172767DNAHomo sapiens 1727ctattgctga tactggtgca aatgtcgtag taacaggtgg caaagtggca gacatggctc 60ttcatta 67172850DNAHomo sapiens 1728aaatagcagt gtactcttgt ccttttgatg gcatgataac agaaactaag 50172929DNAHomo sapiens 1729gttgataaca tcagagtttg taaaattct 29173026DNAHomo sapiens 1730cctggaatta gctgaagaac ttctga 26173171DNAHomo sapiens 1731agaagaggct gtgtatagaa acatacaagc ttgcaaggag cttgcccaaa ccactcgtac 60agcatatgga c 71173230DNAHomo sapiens 1732ggtgaaggga ctctcgagtg tggtcattga 30173326DNAHomo sapiens 1733aaggcctccg tctcctgcat gtcctt 26173466DNAHomo sapiens 1734ggtactctac agtgtggtca ttgaggacaa gttgacgaga gagtcccaag tacgtccacg 60gtcagc 661735170DNAHomo sapiens 1735cagcaaggaa cggaaagttc acattgtaaa tatgtagcag agtctgtaat ggctcagtca 60acgcaaaatg ttgactacag tcaattacag gagataatat accctgaatc atcaaaattg 120ggggaaggag gtccagaatc attggggcca tcagagccta aaccacgatc 170173667DNAHomo sapiens 1736ctacaatgaa ctcactggag atgcaaagaa aagtgtggag atggagacac cccaatcgac 60tcgccag 671737101DNAHomo sapiens 1737caggaacgga gacaatcgtg aaagctgctg atagcctcac aaatcttaag ccagtcactt 60gggttaaaag catcagaagt ttcactattg taaatttcat a 1011738224DNAHomo sapiens 1738atgggccata gtgacgatgg tggttttgtc aaaaagaaaa gggggggata tgtaaggaaa 60agagagatca gactttcact gtgtctatgt agaaaaggaa gacataagaa actccatttt 120gatctgtact aagaaaaatt gttttgcctt gagatgctgt taatctgtaa ctttagcccc 180aaccctgtgc tcacggaaac atgtgctgta aggtttaagg gatc 2241739302DNAHomo sapiens 1739attttaggcg ctggacttgg gttcggggca cctggccttt ccttgtgtat ttctcctact 60gtctgcctaa ctatttaata caataaaaga aaaccagccc ctggttcttg tggtgtttcc 120accctcccgg gtccccgctg gctgcctggc ttcctcccgc agctcctgct gtgtgtgtat 180gtgtgtgtgt gtgcacatct gtggggcgta tgtgtgttcg tctttgtaat tgaggctgca 240gagtggagag agcaggggtt ttctctgggg acccagagag aaggaggcgt tttcaccaca 300gc 3021740355DNAHomo sapiens 1740cctttgaggg agatcaagtc taaatttgaa gggagtccaa attcatactg gggtaattta 60ttcagattat aaagggggaa ttcagttagt gatcagctcc actgttcccc ggagtgccaa 120tccaggtgat agaattgctc aattactgct tttgccttat gttaaaattg gggaaaacaa 180aaaggaaaga acaggagggt ttggaagtac caaccctgca ggaaaagctg cttattgggc 240taatcaggtc tcagaggata gacccgtgtg tacagtcact attcagggaa agagtttgaa 300ggattagtgg atacccaggc tgatgtttct gtcatcggca taggtactgc ctcag 3551741395DNAHomo sapiens 1741cagatggcgt ataatgccgt aattcaaccc atgggggctc tcccaccccg gttgccctct 60ccagccatgg tcccctttaa ttataattga tctgaaggat tgctttttta ccattcctct 120ggcaaaacag gattttgaaa aatttgcttt taccacacca gcctaaataa taaagaacca 180gccaccaggt ttcagtggaa agtattgcct cagggaatgc ttaatagttc aactatttgt 240cagctcaagc tctgcaacca gttagagaca agttttcaga ctgttacatc gttcactatg 300ttgatatttt gtgtgctgca gaaacgagag acaaattaat tgaccgttac acatttctgc 360agacagaggt tgccaacgcg ggactgacaa taaca 3951742411DNAHomo sapiens 1742ggttgccgtc attacagtgt taacaagatt ttaatcagtc tattaacatt gtatcagatt 60ctgcatatgt agtacaggct acaaaggata ttgagagagc cctaatcaaa tacattatgg 120atgatcagtt aaacccgctg tttaatttgt tacaacaaaa tgtaagaaaa agaaatttcc 180cattttatat tactcatatt cgagcacaca ctaatttacc agggccttta actaaagcaa 240atgaacaagc tgacttgcta gtatcatctg cattcatgga agcacaagaa cttcatgcct 300tgactcatgt aaatgcaata ggattaaaaa ataaatttga tatcacatgg aaacagacaa 360aaaatattgt acaacattgc acccagtgtc agattctaca cctggccact c 4111743130DNAHomo sapiens 1743aggtcaggcc ggttctttgc tctgaaccct gttttctgtt aagatgttta tcaagacaat 60acatgcaccg ctgaacatag acccttatca ggagtttctg attttgctct ggtcctgttt 120cttcagaagc 1301744152DNAHomo sapiens 1744atgctgccgg atgaggtgga tgcctggctg tggctctggg agagccaacc tcccccaggg 60aacccacttt acacaatagc agtggcagca gaggctggcg aggagacaag attcggactc 120tggggagcac tgatagcatt tcccgagcct ca 1521745207DNAHomo sapiens 1745acgctgtcag cctgtccaga ccgttcctct gttttcgctt gttcctacta acagcgagct 60tccgccaata cttgttctcg ttcttggttc cgagcgtccc gggagccggg aagggaagga 120ttgtctgcag ggattggagc aaatatccag tggggggaaa gccgggactt ccgcgtcttg 180ccggaagtga cgtgacaatc gcggcca 207174634DNAHomo sapiens 1746tggccgggac ccggctgtgg gaccaacgct tccg 34174736DNAHomo sapiens 1747actctgggat ctgagcctat cgccctggcc tggagc 36174830DNAHomo sapiens 1748ttgggttcct taaatcctat gctcctttct 30174938DNAHomo sapiens 1749ccctaccgag ctgggcagtt agccagccca ctccaact 38175034DNAHomo sapiens 1750cagacttgga ttatgacatc gaagaggata aact 34175171DNAHomo sapiens 1751aaggatgctc agaacctgat cgggatcagc attggaggag gggcccagta ctgtccctgc 60ctctatatcg t 711752105DNAHomo sapiens 1752agcagccttg gacggcacag tggcagctgg cgatgagatc accggtgtca atggcaggtc 60aatcaaaggg aaaactaagg tggaggtggc gaagatgatt cagga 105175340DNAHomo sapiens 1753cagagcaggt gtccagaggc agcaacacat gtttctgaga 40175463DNAHomo sapiens 1754gaggtgacca tccactacaa caagctgcag gcggacccca agcagggcat gtccctggac 60att 631755156DNAHomo sapiens 1755gcccaaagga gaagtgccac agccagccct gccctcccct ttatgacagg agaatccaga 60gttacatggc tgtgggctct gacctctgac caagcaaatc tgaaaggcct gggaggcctc 120ccggtgctct ccctgcatct gttcttgtac tctgtc 156175688DNAHomo sapiens 1756tgttgaagaa agtcaagcac cggctggtgg agaacatgag ttcagggacc gcagatgctc 60tgggcctgag ccgggccatc ctgtgcaa 881757494DNAHomo sapiens 1757ctctgcccgt ggaactgaga agtcaccatc tctgtacccc cagaggcctc tccagctccc 60ggagggtcca cagctgtcag ctgggctgtc ttagccagtg cccctcaggt cacagatggg 120aaaatagact tagtgtgggg aggtgcctct gcccctgccc tcagcccctt acccctcacc 180ccagcactct cgcggcccac ctcctgcctc ctttgtccag gaggtggtgc tgctgccctt 240gcctctgcag gtcctccctt cgtggtggct gcgcaggcga ggggggaggc gtgtacatgc 300acatttacac acgcatgcac acatgcgcac acactttccc tccctggggt ggccagcgaa 360acactcagtc cccctcctac cgtcgccagt ccgagtttaa aaatagcagc agctctgcag 420tgtgcctgtg gggtagatat aaatacttct agaaattgta ggctcagctg ggcacactgg 480gctttattgg ctaa 494175849DNAHomo sapiens 1758cttgtcaaga ggctagagga gctggagcgg accgctgagc tatacaaag 49175936DNAHomo sapiens 1759tacgggcctt ttatgagctg tcgcagactc accggg 361760269DNAHomo sapiens 1760cctgcgggga acatctagat cagctggtct cttaagggcc gcaacgatga acaggcccca 60ccctgtctcc tcacactgcc actggcagta cacaaggccc ttgcttattt atatttctga 120caacctgtaa ctctgggcag gccgactgca gctgacccca gctactgcag aaaatgaagc 180ccagacaaag gagagggcca cactgctccc aagtggtgga gctgttgttc caatccaggt 240gtctagactc ggaccagtgt tctgcctca 2691761190DNAHomo sapiens 1761caatccagtt tcctccaggt gtagactcag ctccttcagg gggtttagac cagctctctt 60ggaggtgtag cccctgtgca gacattggct tccagcctgc caggccccct gccctgcttc 120tccccaacaa acccctggct tctcttaggg ggccaagtag gggcagcctt caaggcaaac 180ttgtcctgca

1901762124DNAHomo sapiens 1762tttggggacg tgttctccgt gatcggggtg cgggagcccc agccagctgc gagcgaggct 60tttgtgaagt tcgccgatgc ccaccgcagc atcgagaagt tcggcattcg gcttctgaaa 120acca 1241763131DNAHomo sapiens 1763actgagtcac agcttgccct aggcctggca ctagtcttct catccttgag agggacaagg 60catcagggag caccatctgg ctctgatagt cgagtccacc aacaagggtg acgcatcagt 120gccattcatt g 131176488DNAHomo sapiens 1764gacggatctg aacacgtacc tcaacaaagc catcccggac actcgcctca ccatcaagaa 60gtacctggac gtgaagtttg agtacctg 88176528DNAHomo sapiens 1765ctgctgcgcc tgcacaaaga agcatctg 28176699DNAHomo sapiens 1766ggactccctg aacacctgcg ccagcctctc ctgctgcgtg tgggtgatgg gggtggagct 60ggggacctgg ggtgggggta gtagccactc tgacagcct 99176728DNAHomo sapiens 1767gatggatgac gaggaataca gctgcatt 281768329DNAHomo sapiens 1768ctggactctc gttcctggag atttagggcc atcttcccag tcccgctcgc tgggcctcgg 60ggtgctgggc acccggccgg gaaccactcc ctcagtctgg gggactcttg gagggaaatc 120ggattttctt cactcctatg aggcgctttt aagtgtttga tttttctgct gtcgggatcc 180atttcgtggc cagtgttcat tgaatgtggc agaggtttgg gtttggtttt ttcctctctt 240caaagctatc actgagtgct tctgagaaac actgaagtct cagaaatgag gtctcaggaa 300tgaagaacag ccgtggcttt gaaagcaca 3291769103DNAHomo sapiens 1769ggcgagcccc tttaccgggt gagcaccggc aactatgagt accgcctgat cctgcgctgc 60cgccaggagg cgcgcgcccg cttctcccag atgcgcaagg atg 103177076DNAHomo sapiens 1770gcctcgtgtc caccatgtcc aagtactaca acgactgcta cgcagtgctg cgggatgccg 60acgtcttccc catcga 76177143DNAHomo sapiens 1771gtagacctgg cgcacaccac attggcctat ggcctcaacc agg 43177227DNAHomo sapiens 1772gttcacagat ggggaggagg aggagga 27177338DNAHomo sapiens 1773tggggagccg tccagggata cacgaggggc tgctgggc 38177430DNAHomo sapiens 1774gtgccccgcg gctgtggtgc cgggggcagg 301775404DNAHomo sapiens 1775gcgacgcata aaggcctgct ggcttggggc gcctgcctcc ctgctcctct gtcctcgcac 60agcgaacctg ggctcctgcc caggacaggc accagggtca tggcctggga cctggacact 120ggcccctcca ccctccctcc cctcccggct ccccggccag agggagagct tggtctctgg 180acctgcctta ggaaggagag ggagggcagg aaggaaaaga aaggacttgg aggtggcagg 240agtccgagcc ctgctccttg tgggcgctca cactgccccc ggagcctgct gggagtgggg 300ccagccgtgg acagctgagg ttggggtcaa tgcctcctgg gcacccttgc ctcgccccag 360accggcccgt ccagtcccca tcacacctcg gcggccttta ttta 404177636DNAHomo sapiens 1776tgggttctgg gcctgtatcg aataaacaca aacctg 36177730DNAHomo sapiens 1777ctcagaggcg gccatcaacc gccagatcaa 301778103DNAHomo sapiens 1778gtcttactac tttgaccacg atgatgtggc tttgaagaac tttgccaaat actttcttca 60ccaatctcat gaggagaggg aacatgctga ggaactgatg aag 103177926DNAHomo sapiens 1779ctgggagcgg gctgaatgag atggag 261780135DNAHomo sapiens 1780cgcagccaat cagcacctag aggttgggct actttcggcc aaaggagaac ggggacttgt 60gggggacgct ccctgcgcac caatgaatgt gcatggagat ggagaggcgg gcctgcaagt 120gcgaacaagc caatc 135178186DNAHomo sapiens 1781cggccgttaa ggacagttgt ggcaaaggag aaatggccac agggaatggg cggcggctcc 60acctggggat tcctgaggcc gtgttt 861782285DNAHomo sapiens 1782tggcctctaa atagaccagg gtctgaatcc tggctctgct tcccagttgc tgcttaacct 60taagcatatt attttaccac tttgagcttg agtttcttta actgaaatag ggatgacaat 120acttagagag ttgttatggg aaacagagaa catgcttgca gtattgcagt gtagtaggtg 180tcgaataggt attaatattc atgatgatag gaagcaatat accatagtgg ttagaagtca 240gacccagtcc attccccaac cccgctgagg cagtaatttg ttttc 285178371DNAHomo sapiens 1783cagtattaaa gaagctggat gaacagtacc agaagtataa gtttatggaa ctcaaccttg 60ctcaaaagaa a 71178465DNAHomo sapiens 1784gctaaaaggt cagattcctg aaattaaaca gactttggaa attctaaaat acatgcagaa 60gaaaa 65178590DNAHomo sapiens 1785gagtccacca actcaatgga gaccagattc ttgctggcag ataacctgta ttgcaaagct 60tcagttcctc ctaccgataa aatgtgtctg 901786140DNAHomo sapiens 1786tgcatatgtt cttcctgtcc ttacacattc tttataaggt tgttcccaca ttgttggagc 60acagagccat tatatactgt ttgctctctc tctttctctc tctcatcttt catttatcct 120agttcttcgt gtaaatattg 1401787109DNAHomo sapiens 1787ttgatgaagc tcaggcattg ttggaaaaga atttatcgac tgccacaaag aatcttgatt 60ccctggagga agaccttgac tttcttcgag atcaatttac taccacaga 1091788208DNAHomo sapiens 1788tcatctgacg ggtagtgtgg aaacttcatc cagctatgag atgacgaggg cctaggacgg 60gtggcttgtg gaaaggaaaa gatattaaac gtgtgagaaa aaaacaggat ccagtgactt 120agatgggtac aggagccaaa agtgaggaaa tcctctaaga tgagtcctac aagcttagtt 180aaatgccatt tgttattgct agtactgc 208178965DNAHomo sapiens 1789atatggccag ggtttataat tgggatgtaa aaagaagaaa caaggatgac tctaccaaga 60acaaa 651790287DNAHomo sapiens 1790tatggaagct gaatgccgga cgctagcaca gtttactttt tccctttcta atcggctgat 60gttactctca cttgatgtgg ttaaaccatt ttagaggtag agaagacaga cagtttgaat 120atttgtaaac ttgtttttct ttggtatatt taggacttag tggtcctctg ttgctattgt 180cttctataag tggagtttca tgacttactg cttaacgaat aactaactac tatgatattc 240tggacatttt aggaaatggt aatttgcctt gctacacatt aagaggg 2871791194DNAHomo sapiens 1791gcctaaggtg attttgtagt tcttaacagt tctccagagc atcttgaaca ggaatattaa 60gataaatgtg aatctgcaat ggctgaaaag agttgtgagc ttttttattc atgataaaac 120cttataggaa tagtataaaa aatccctgtg gaaagctact agtacattga ccagcgctgg 180gtgatacaga ttct 19417921133DNAHomo sapiens 1792gctctaagct ttgcaaggga tcctaaaaga ggcggtggaa gtgaaaattc tgggtctcca 60agaaaatttc tgcacagcca gttctccaat cagcctatca ccccttgaaa catcttccct 120gtgtccctgg gggcccctga tgctttctcc ttgggtgata gtaacatgca gagcacttac 180acaaagctcc ctctttggac ataccccacg tcgacctgtc acaggcctgg ctgtagcgag 240cacctcccta tgacgcagaa tgcttcttgg gaattatctt actcctctgg agggttagtc 300catcaatgtt ttgcttcttg tcccaatact actgtgaccc tctctgatcg cacagaaatc 360actgcctatc acatatatcc tgttaagcac tgaagaccct attgaaatta gagttctaca 420gatgccaaaa gctgtacttt ccatcaggca gatggcaagc ttactgcctt gatgcacatc 480tggagccact ggagctcctt cctctctggt tccagcatta aggtggagaa ctccatgtag 540cttcttgtcc tttcccctca gctgtctttg cttcacaagg ttttagccca aagcaagagt 600gcaatcccaa agccacagag aaatgaactt tccgctacct ggaagcttta agtgagtaaa 660tcagcttttc ccctctcatt cctagaggca cacacctcaa aagttactag gctggagaga 720ccctaccttc cagtgaccca ctcatccccc agccacggag aagagggaag accaaaaagg 780gagagtgaga aagaggatga gagggatggt cagctgtgag gggagggggc aagtggccca 840gcaaatgttg atgcctccct tcccatcttg ccacacggtc tttttctttt gtagcacagc 900ctccattaat aactcctcgg ctgaggatga agatgtaggc acctttaccc ccagagccag 960ttccttaatt ggctggcttt ctgagatgca gaccacccta gaatctcatc taggttcact 1020agaagttagt taaatcttcc tttctctgtc tttctcttca ttccatcccc caaacccacc 1080aaacactaag ggagagctcc ctttggatgt ctgggcagta aacctagctc att 11331793115DNAHomo sapiens 1793agaaaccaaa cgatcttcaa ctctcccagc caagttccag aacccagttg agccaattga 60gcctgtctgg ttctcactgg ccaggaagaa agccaaagca tggagccaca tggca 1151794107DNAHomo sapiens 1794gatcagagga aacctgaaag gaggaaacat tatatggcat tccataaaca acatacccca 60atatcgctgg ggttccttat tgcttgtgtg ttatttgctg tggttcc 107179560DNAHomo sapiens 1795ccagtgtcca taaacaggag aagacagcac agatgaagcc acctaagcct acaaaatcag 601796151DNAHomo sapiens 1796cctgctggtc aacagtcaga ttatgctgtc tcagagccgg tttggataac tatggcaaag 60cagaagcaga agagtttcaa ggcccacatt tctgtgaaag agctgaaaac taagagcaat 120gctggagccg atgctgagac taaggagcct a 151179728DNAHomo sapiens 1797tccagatggc aagcagatat caagtgga 281798140DNAHomo sapiens 1798tttggagttc gactgaaaag agcccctccc tcgcagaagt ataagagtga gaaacaagat 60aacttcaccc agcttgcttc agtgccctcg ggcccaattt catcctctgt aggcagggga 120cataaaatca gaagcacttc 1401799764DNAHomo sapiens 1799tcctcaaatt tcgagcgggc tgctattgag gcagacattt ctgggagtcc attgcctccc 60caatatgcta cccagttctt aaagaggtct aaagttcagg aaatgacctc acgactagag 120aaaatggctg ttgaaggcac ttctaacaaa tcaccgattc ccaggcgtcc gacccagtca 180ttcgtgaaat ttatggcaca gcaaatcttt tcagagagct ctgctcttaa gaggggcagt 240gatgtggcac ctctgcctcc caatcttcct tccaaatctt tatcaaagcc tgaagtcaag 300caccaagttt tctcagattc agggagtgct aatcctaagg gaggcatttc ttcaaagatg 360ctacctatga agcacccttt acagtccttg gggaggcctg aagacccaca gaaagttttc 420tcttattcag agagagctcc tgggaagtgc agcagtttta aagagcagct gtctcccagg 480cagctttccc aggccttgag gaaacctgag tatgagcaaa aagtctcccc tgtttctgcc 540agttctccta aagagtggag gaattctaaa aagcagctgc ctcccaaaca ttcttcccaa 600gcctcagata ggtctaaatt ccagccacag atgtcatcaa agggcccagt gaatgtacct 660gtaaagcaga gcagcggtga gaagcacctg ccttcaagta gtcctttcca gcaacaggtt 720cattcaagtt ctgtgaatgc tgctgctagg cgatctgttt ttga 7641800193DNAHomo sapiens 1800ggctatccaa tgtcagcagc atatggaaga agatggagaa gaaaaggagc aagtgtttca 60ggattgagtg ggtgtgaatt caaaggaaga agccttaaac aatccagtga agggtatggc 120ctgggcgata gagctgggtc ttcacctacc aataagactg ccaggaatgt ccctttctcg 180cacttgtcct tag 1931801109DNAHomo sapiens 1801tggagcatag tcagctatta tcagcgctgt atgctggata tgaaactact ggatggagct 60aaggatgcag cagatagtga gggaagaaag gcacaagggg cccttccat 1091802149DNAHomo sapiens 1802tgttggctcc agttgatggc aagctgattt ctagcagtat ttgataaaaa aattccagtt 60cctcaaatta agttgaatag ttatgttacg tttttgccac aaaggatttc acatgtgggt 120ccaaagacag gacattccta aacacgttt 149180372DNAHomo sapiens 1803aaccttccat tggtttctga agaagaaaag agcataacca aaccaaaaga aatcaacgaa 60aagaagctgg ga 72180473DNAHomo sapiens 1804ccttccagtg tggttcagtc atttccaggg tattttagag ggatccctgc agtgtgtcac 60tcagacatta gaa 731805126DNAHomo sapiens 1805cacagtcctt gactgcattt gccacacttg cctctaccag tagcacccag ctgcccattg 60gtttcagcac cccagccacc acccagggct gtttggattc ttcagctgct cgccacaaaa 120tgactt 126180631DNAHomo sapiens 1806ggttacaggc tccatcacta tcccactgga g 311807117DNAHomo sapiens 1807atcccacctg ttatccaacc tgaaataatt tctaagaact tggtagaaat ctctctcgat 60gatgagtcac ctaagaatcc acaaaagaag gctttaccac ataagagttt gacagcg 117180852DNAHomo sapiens 1808ttctaatgga ttaagtgaca ttcagaacaa cgaggagatt gttaaagaag aa 52180995DNAHomo sapiens 1809ctctgcctaa acctaggagt aaggttcctg gagttgtgtc tggagccatg tcaggagctg 60tgcttcaaaa tgtgcctaca agtgcagtct gggtt 95181025DNAHomo sapiens 1810ttccttctat ggatccccag agagg 25181168DNAHomo sapiens 1811gcagcatggg gagcaaagcc ctatcccatg atagcatctt catgttgggt cctgagcctg 60aaagatca 68181230DNAHomo sapiens 1812aaagaagccg aagataccca ggaagaagaa 30181347DNAHomo sapiens 1813cctacaatgg ctgaatcact aagtgaaatt tctgacagtc tggatgt 471814106DNAHomo sapiens 1814atgccctgta cccaaggtga tttacagcag ggtttcctta aagctaggta tttggagccc 60tcacctccca ggagtcacct ggaaggttct ggacttgcag gtccct 106181578DNAHomo sapiens 1815tgattgctgg taatcttggg gatctggcca ggatagtggg cccctcacat catgctagtc 60agcttctcct actccaag 78

Claims

1. A method comprising: a) obtaining a biological sample from a subject; and b) detecting the presence or assaying an expression level in the sample from the subject for a plurality of target sequences, wherein the plurality of target sequences is selected from Table 1 or SEQ ID NOs: 1-1815.

2. The method of claim 1, wherein the plurality of target sequences comprises a coding and/or non-coding target.

3. The method of claim 1, wherein the plurality of target sequences comprises a nucleic acid sequence.

4. The method of claim 3, wherein the nucleic acid sequence is a DNA sequence or an RNA sequence.

5. The method of claim 1, wherein the plurality of target sequences comprises at least 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55 or 60 target sequences selected from Table 1 or SEQ ID NOs: 1-1815.

6. The method of claim 1, wherein the subject has cancer.

7. The method of claim 6, wherein the cancer is selected from the group consisting of skin cancer, lung cancer, colon cancer, pancreatic cancer, prostate cancer, liver cancer, thyroid cancer, ovarian cancer, uterine cancer, breast cancer, cervical cancer, kidney cancer, epithelial carcinoma, squamous carcinoma, basal cell carcinoma, melanoma, papilloma, and adenomas.

8. The method of claim 1, further comprising administering a treatment to the subject.

9. The method of claim 8, wherein the treatment is selected from the group consisting of surgery, chemotherapy, radiation therapy, immunotherapy/biological therapy, and photodynamic therapy.

10. The method of claim 1, wherein the biological sample is a urine sample, a blood sample or a prostate tumor sample.

11-19. (canceled)

20. A kit for predicting cancer aggressiveness or risk of metastasis, the kit comprising agents for assaying an expression level of a plurality of genes, wherein said plurality of genes comprises one or more genes selected from Table 1 or SEQ ID NOs: 1-1815.

21. A system for analyzing a cancer, comprising: a probe set comprising a plurality of target sequences, wherein the plurality of target sequences hybridizes to one or more targets selected from Table 1 or SEQ ID NOs: 1-1815; or the plurality of target sequences comprises one or more targets selected from Table 1 or SEQ ID NOs: 1-1815; and a computer model or algorithm for analyzing an expression level and/or expression profile of the target hybridized to the probe in a sample from a subject suffering from prostate cancer.

22. A probe set for prognosing or diagnosing cancer in a subject, the probe set comprising a plurality of probes for detecting a plurality of target nucleic acids, wherein the plurality of target nucleic acids comprises one or more gene sequences, or complements thereof, of genes selected from Table 1.