Lung Cancer Methylation Markers

Abstract

The present invention discloses a method of diagnosing lung cancer by using methylation specific markers from a set, having diagnostic power for lung cancer diagnosis and distinguishing lung cancer types in diverse samples; as well as methods to identify sets of prognostic and diagnostic value.

Description

[0001] The present invention relates to cancer diagnostic methods and means therefor.

[0002] Neoplasms and cancer are abnormal growths of cells. Cancer cells rapidly reproduce despite restriction of space, nutrients shared by other cells, or signals sent from the body to stop reproduction. Cancer cells are often shaped differently from healthy cells, do not function properly, and can spread into many areas of the body. Abnormal growths of tissue, called tumors, are clusters of cells that are capable of growing and dividing uncontrollably. Tumors can be benign (noncancerous) or malignant (cancerous). Benign tumors tend to grow slowly and do not spread. Malignant tumors can grow rapidly, invade and destroy nearby normal tissues, and spread throughout the body. Malignant cancers can be both locally invasive and metastatic. Locally invasive cancers can invade the tissues surrounding it by sending out "fingers" of cancerous cells into the normal tissue. Metastatic cancers can send cells into other tissues in the body, which may be distant from the original tumor. Cancers are classified according to the kind of fluid or tissue from which they originate, or according to the location in the body where they first developed. All of these parameters can effectively have an influence on the cancer characteristics, development and progression and subsequently also cancer treatment. Therefore, reliable methods to classify a cancer state or cancer type, taking diverse parameters into consideration is desired. Since cancer is predominantly a genetic disease, trying to classify cancers by genetic parameters is one extensively studied route.

[0003] Extensive efforts have been undertaken to discover genes relevant for diagnosis, prognosis and management of (cancerous)disease. Mainly RNA-expression studies have been used for screening to identify genetic biomarkers. Over recent years it has been shown that changes in the DNA-methylation pattern of genes could be used as biomarkers for cancer diagnostics. In concordance with the general strategy identifying RNA-expression based biomarkers, the most convenient and prospering approach would start to identify marker candidates by genome-wide screening of methylation changes.

[0004] The most versatile genome-wide approaches up to now are using microarray hybridization based techniques. Although studies have been undertaken at the genomic level (and also the single-gene level) for elucidating methylation changes in diseased versus normal tissue, a comprehensive test obtaining a good success rate for identifying biomarkers is yet not available.

[0005] Developing biomarkers for disease (especially cancer)-screening, -diagnosis, and -treatment was improved over the last decade by major advances of different technologies which have made it easier to discover potential biomarkers through high-throughput screens. Comparing the so called "OMICs"-approaches like Genomics, Proteomics, Metabolomics, and derivates from those, Genomics is best developed and most widely used for biomarker identification. Because of the dynamic nature of RNA expression and the ease of nucleic acid extraction and the detailed knowledge of the human genome, many studies have used RNA expression profiling for elucidation of class differences for distinguishing the "good" from the "bad" situation like diseased vs. healthy, or clinical differences between groups of diseased patients. Over the years especially microarray-based expression profiling has become a standard tool for research and some approaches are currently under clinical validation for diagnostics. The plasticity over a broad dynamic range of RNA expression levels is an advantage using RNA and also a prerequisite of successful discrimination of classes, the low stability of RNA itself is often seen as a drawback. Because stability of DNA is tremendously higher than stability of RNA, DNA based markers are more promising markers and expected to give robust assays for diagnostics. Many of clinical markers in oncology are more or less DNA based and are well established, e.g. cytogenetic analyses for diagnosis and classification of different tumor-species. However, most of these markers are not accessible using the cheap and efficient molecular-genetic PCR routine tests. This might be due to 1) the structural complexity of changes, 2) the inter-individual differences of these changes at the DNA-sequence level, and 3) the relatively low "quantitative" fold-changes of those "chromosomal" DNA changes. In comparison, RNA-expression changes range over some orders of magnitudes and these changes can be easily measured using genome-wide expression microarrays. These expression arrays are covering the entire translated transcriptome by 20000-45000 probes. Elucidation of DNA changes via microarray techniques requires in general more probes depending on the requested resolution. Even order(s) of magnitude more probes are required than for standard expression profiling to cover the entire 3.times.10.sup.9 by human genome. For obtaining best resolution when screening biomarkers at the structural genomic DNA level, today genomic tiling arrays and SNP-arrays are available. Although costs of these techniques analysing DNA have decreased over recent years, for biomarker screening many samples have to be tested, and thus these tests are cost intensive.

[0006] Another option for obtaining stable DNA-based biomarkers relies on elucidation of the changes in the DNA methylation pattern of (malignant; neoplastic) disease. In the vertebrate genome methylation affects exclusively the cytosine residues of CpG dinucleotides, which are clustered in CpG islands. CpG islands are often found associated with gene-promoter sequences, present in the 5'-untranslated gene regions and are per default unmethylated. In a very simplified view, an unmethylated CpG island in the associated gene-promoter enables active transcription, but if methylated gene transcription is blocked. The DNA methylation pattern is tissue- and clone-specific and almost as stable as the DNA itself. It is also known that DNA-methylation is an early event in tumorigenesis which would be of interest for early and initial diagnosis of disease. In principle screening for biomarkers suitable to answering clinical questions including DNA-methylation based approaches would be most successful when starting with a genome-wide approach.

[0007] Shames D et al. (PLOS Medicine 3(12) (2006): 2244-2262) identified multiple genes that are methylated with high penetrance in primary lung, breast, colon and prostate cancers.

[0008] Sato N et al. (Cancer Res 63(13) (2003): 3735-3742) identified potential targets with aberrant methylation in pancreatic cancer. These genes were tested using a treatment with a demethylating agent (5-aza-2'-deoxycytidine and/or the histone deacetylase inhibitor trichostatin A) after which certain genes were increased transcribed.

[0009] Bibikova M et al. (Genome Res 16(3) (2006): 383-393) analysed lung cancer biopsy samples to identify methylated cpu sites to distinguish lung adenocarcinomas from normal lung tissues.

[0010] Yan P S et al. (Clin Cancer Res 6(4) (2000): 1432-1438) analysed CpG island hypermethylation in primary breast tumor.

[0011] Cheng Y et al. (Genome Res 16(2) (2006): 282-289) discussed DNA methylation in CpG islands associated with transcriptional silencing of tumor suppressor genes.

[0012] Ongenaert M et al. (Nucleic Acids Res 36 (2008) Database issue D842-D846) provided an overview over the methylation database "PubMeth".

[0013] Microarray for human genome-wide hybridization testings are known, e.g. the Affymetrix Human Genome U133A Array (NCB1 Database, Acc. No. GLP96).

[0014] A substantial number of differentially methylated genes has been discovered over years rather by chance than by rationality. Albeit some of these methylation changes have the potential being useful markers for differentiation of specifically defined diagnostic questions, these would lack the power for successful delineation of various diagnostic constellations. Thus, the rational approach would start at the genomic-screen for distinguishing the "subtypes" and diagnostically, prognostically and even therapeutically challenging constellations. These rational expectations are the base of starting genomic (and also other--omics) screenings but do not warrant to obtain the maker panel for all clinical relevant constellations which should be distinguished. This is neither unreliable when thinking about a universal approach (e.g. transcriptomics) suitable to distinguish for instance all subtypes in all different malignancies by focusing on a single class of target-molecules (e.g. RNA). Rather all omics-approaches together would be necessary and could help to improve diagnostics and finally patient management.

[0015] Lung cancer is the third most common malignant neoplasm in the EU following breast and colon cancers. Lung cancer presents the second worst 5-year survival figures following pancreas. Thus, although it accounts for 14% of all cancer diagnoses, lung cancer is responsible for 22% of cancer deaths, indicating the poor prognosis of this tumour type and the comparative lack of progress in treatment. Therapy is hampered by the tendency for lung cancer to be diagnosed at a late stage, hence the need to develop markers for early detection. Approximately 80% of lung cancer cases are of the non-small cell type (NSCLC), with squamous cell carcinoma and adenocarcinoma being the most frequent subtypes. A goal of the present invention is to provide an alternative and more cost-efficient route to identify suitable markers for lung cancer diagnostics.

[0016] Therefore, in a first aspect, the present invention provides a set of nucleic acid primers or hybridization probes being specific for a potentially methylated region of marker genes being suitable to diagnose or predict lung cancer or a lung cancer type, preferably being selected from adenocarcinoma or squamous cell carcinoma, the marker genes comprising WT1, SALL3, TERT, ACTB, CPEB4. Preferably the set further comprises any one of the markers ABCB1, ACTB, AIM1L, APC, AREG, BMP2K, BOLL, C5AR1, C5orf4, CADM1, CDH13, CDX1, CLIC4, COL21A1, CPEB4, CXADR, DLX2, DNAJA4, DPH1, DRD2, EFS, ERBB2, ERCC1, ESR2, F2R, FAM43A, GABRA2, GAD1, GBP2, GDNF, GNA15, GNAS, HECW2, HIC1, HIST1H2AG, HLA-G, HOXA1, HOXA10, HSD17B4, HSPA2, IRAK2, ITGA4, JUB, KCNJ15, KCNQ1, KIF5B, KL, KRT14, KRT17, LAMC2, MAGEB2, MBD2, MSH4, MT1G, MT3, MTHFR, NEUROD1, NHLH2, NKX2-1, ONECUT2, PENK, PITX2, PLAGL1, PTTG1, PYCARD, RASSF1, S100A8, SALL3, SERPINB5, SERPINE1, SERPINI1, SFRP2, SLC25A31, SMAD3, SPARC, SPHK1, SRGN, TERT, THRB, TJP2, TMEFF2, TNFRSF10C, TNFRSF25, TP53, ZDHHC11, ZNF256, ZNF711, F2R, HOXA10, KL, SALL3, SPARC, TNFRSF25, WT1.

[0017] In a further aspect, the present invention provides a method of determining a subset of diagnostic markers for potentially methylated genes from the genes of gene marker IDs 1-359 of table 1, suitable for the diagnosis or prognosis of lung cancer or lung cancer type, comprising [0018] a) obtaining data of the methylation status of at least 50 random genes selected from the 359 genes of gene marker IDs 1-359 in at least 1 sample, preferably 2, 3, 4 or at least 5 samples, of a confirmed lung cancer or lung cancer type state and at least one sample of a lung cancer or lung cancer type negative state, [0019] b) correlating the results of the obtained methylation status with the lung cancer or lung cancer type, [0020] c) optionally repeating the obtaining a) and correlating b) steps for a different combination of at least 50 random genes selected from the 359 genes of gene marker IDs 1-359 and [0021] d) selecting as many marker genes which in a classification analysis have a p-value of less than 0.1 in a random-variance t-test, or selecting as many marker genes which in a classification analysis together have a correct lung cancer or lung cancer type prediction of at least 70% in a cross-validation test, wherein the selected markers form the subset of diagnostic markers.

[0022] The present invention provides a master set of 359 genetic markers which has been surprisingly found to be highly relevant for aberrant methylation in the diagnosis or prognosis of lung cancer. It is possible to determine a multitude of marker subsets from this master set which can be used to diagnose and differentiate between various lung cancer or tumor types, e.g. adenocarcinoma and squamous cell carcinoma.

[0023] The inventive 359 marker genes of table 1 (given in example 1 below) are: NHLH2, MTHFR, PRDM2, MLLT11, S100A9 (control), S100A9, S100A8 (control), S100A8, S100A2, LMNA, DUSP23, LAMC2, PTGS2, MARK1, DUSP10, PARP1, PSEN2, CLIC4, RUNX3, AIM1L, SFN, RPA2, TP73, TP73 (p73), POU3F1, MUTYH, UQCRH, FAF1, TACSTD2, TNFR5F25, DIRAS3, MSH4, GBP2, GBP2, LRRC8C, F3, NANOS1, MGMT, EBF3, DCLRE1C, KIF5B, ZNF22, PGBD3, SRGN, GATA3, PTEN, MMS19, SFRP5, PGR, ATM, DRD2, CADM1, TEAD1, OPCML, CALCA, CTSD, MYOD1, IGF2, BDNF, CDKN1C, WT1, HRAS, DDB1, GSTP1, CCND1, EPS8L2, PIWIL4, CHST11, UNG, CCDC62, CDK2AP1, CHFR, GRIN2B, CCND2, VDR, B4GALNT3, NTF3, CYP27B1, GPR92, ERCC5, GJB2, BRCA2, KL, CCNA1, SMAD9, C13orf15, DGKH, DNAJC15, RB1, RCBTB2, PARP2, APEX1, JUB, JUB (control_NM.sub.--198086), EFS, BAZ1A, NKX2-1, ESR2, HSPA2, PSEN1, PGF, MLH3, TSHR, THBS1, MYO5C, SMAD6, SMAD3, NOX5, DNAJA4, CRABP1, BCL2A1 (ID NO: 111), BCL2A1 (ID NO: 112), BNC1, ARRDC4, SOCS1, ERCC4, NTHL1, PYCARD, AXIN1, CYLD, MT3, MT1A, MT1G, CDH1, CDH13, DPH1, HIC1, NEUROD2 (control), NEUROD2, ERBB2, KRT19, KRT14, KRT17, JUP, BRCA1, COL1A1, CACNA1G, PRKAR1A, SPHK1, SOX15, TP53 (TP53_CGI23.sub.--1kb), TP53 (TP53_both_CGIs.sub.--1kb), TP53 (TP53_CGI36.sub.--1kb), TP53, NPTX1, SMAD2, DCC, MBD2, ONECUT2, BCL2, SERPINB5, SERPINB2 (control), SERPINB2, TYMS, LAMA1, SALL3, LDLR, STK11, PRDX2, RAD23A, GNA15, ZNF573, SPINT2, XRCC1, ERCC2, ERCC1, C5AR1 (NM.sub.--001736), C5AR1, POLD1, ZNF350, ZNF256, C3, XAB2, ZNF559, FHL2, IL1B, IL1B (control), PAX8, DDX18, GAD1, DLX2, ITGA4, NEUROD1, STAT1, TMEFF2, HECW2, BOLL, CASP8, SERPINE2, NCL, CYP1B1, TACSTD1, MSH2, MSH6, MXD1, JAG1, FOXA2, THBD, CTCFL, CTSZ, GATA5, CXADR, APP, TTC3, KCNJ15, RIPK4, TFF1, SEZ6L, TIMP3, BIK, VHL, IRAK2, PPARG, MBD4, RBP1, XPC, ATR, LXN, RARRES1, SERPINI1, CLDN1, FAM43A, IQCG, THRB, RARB, TGFBR2, MLH1, DLEC1, CTNNB1, ZNF502, SLC6A20, GPX1, RASSF1, FHIT, OGG1, PITX2, SLC25A31, FBXW7, SFRP2, CHRNA9, GABRA2, MSX1, IGFBP7, EREG, AREG, ANXA3, BMP2K, APC, HSD17B4 (ID No 249), HSD17B4 (ID No 250), LOX, TERT, NEUROG1, NR3C1, ADRB2, CDX1, SPARC, C5orf4, PTTG1, DUSP1, CPEB4, SCGB3A1, GDNF, ERCC8, F2R, F2RL1, VCAN, ZDHHC11, RHOBTB3, PLAGL1, SASH1, ULBP2, ESR1, RNASET2, DLL1, HIST1H2AG, HLA-G, MSH5, CDKN1A, TDRD6, COL21A1, DSP, SERPINE1 (ID No 283), SERPINE1 (ID No 284), FBXL13, NRCAM, TWIST1, HOXA1, HOXA10, SFRP4, IGFBP3, RPA3, ABCB1, TFPI2, COL1A2, ARPC1B, PILRB, GATA4, MAL2, DLC1, EPPK1, LZTS1, TNFRSF10B, TNFRSF10C, TNFRSF10D, TNFRSF10A, WRN, SFRP1, SNAI2, RDHE2, PENK, RDH10, TGFBR1, ZNF462, KLF4, CDKN2A, CDKN2B, AQP3, TPM2, TJP2 (ID NO 320), TJP2 (ID No 321), PSAT1, DAPK1, SYK, XPA, ARMCX2, RHOXF1, FHL1, MAGEB2, TIMP1, AR, ZNF711, CD24, ABL1, ACTB, APC, CDH1 (Ecad1), CDH1 (Ecad2), FMR1, GNAS, H19, HIC1, IGF2, KCNQ1, GNAS, CDKN2A (P14), CDKN2B (P15), CDKN2A (P16_VL), PITXA, PITXB, PITXC, PITXD, RB1, SFRP2, SNRPN, XIST, IRF4, UNC13B, GSTP1. Table 1 lists some marker genes in the double such as for different loci and control sequences. It should be understood that any methylation specific region which is readily known to the skilled man in the art from prior publications or available databases (e.g. PubMeth at www.pubmeth.org) can be used according to the present invention. Of course, double listed genes only need to be represented once in an inventive marker set (or set of probes or primers therefor) but preferably a second marker, such as a control region is included (IDs given in the list above relate to the gene ID (or gene loci ID) given in table 1 of the example section).

[0024] One advantage making DNA methylation an attractive target for biomarker development, is the fact that cell free methylated DNA can be detected in body-fluids like serum, sputum, and urine from patients with cancerous neoplastic conditions and disease. For the purpose of biomarker screening, clinical samples have to be available. For obtaining a sufficient number of samples with clinical and "outcome" or survival data, the first step would be using archived (tissue) samples. Preferably these materials should fulfill the requirements to obtain intact RNA and DNA, but most archives of clinical samples are storing formalin fixed paraffin embedded (FFPE) tissue blocks. This has been the clinic-pathological routine done over decades, but that fixed samples are if at all only suitable for extraction of low quality of RNA. It has now been found that according to the present invention any such samples (as any comprising tumor DNA) can be used for the method of generating an inventive subset, including fixed samples. The samples can be of lung tissue or any body fluid, e.g. sputum, bronchial lavage, or serum derived from peripheral blood or blood cells. Blood or blood derived samples preferably have reduced, e.g. <95%, or no leukocyte content but comprise DNA of the cancerous cells or tumor. Preferably the inventive markers are of human genes. Preferably the samples are human samples.

[0025] The present invention provides a multiplexed methylation testing method which 1) outperforms the "classification" success when compared to genomewide screenings via RNA-expression profiling, 2) enables identification of biomarkers for a wide variety of diseases, without the need to prescreen candidate markers on a genomewide scale, and 3) is suitable for minimal invasive testing and 4) is easily scalable.

[0026] In contrast to the rational strategy for elucidation of biomarkers for differentiation of disease, the invention presents a targeted multiplexed DNA-methylation test which outperforms genome-scaled approaches (including RNA expression profiling) for disease diagnosis, classification, and prognosis.

[0027] The inventive set of 359 markers enables selection of a subset of markers from this 359 set which is highly characteristic of lung cancer and a given lung cancer type. Further indicators differentiating between cancer types or generally neoplastic conditions are e.g. benign (non (or limited) proliferative) or malignant, metastatic or non-metastatic tumors or nodules. It is sometimes possible to differentiate the sample type from which the methylated DNA is isolated, e.g. urine, blood, tissue samples.

[0028] The present invention is suitable to differentiate diseases, in particular neoplastic conditions, or tumor types. Diseases and neoplastic conditions should be understood in general including benign and malignant conditions. According to the present invention benign nodules (being at least the potential onset of malignancy) are included in the definition of a disease. After the development of a malignancy the condition is a preferred disease to be diagnosed by the markers screened for or used according to the present invention. The present invention is suitable to distinguish benign and malignant tumors (both being considered a disease according to the present invention). In particular the invention can provide markers (and their diagnostic or prognostic use) distinguishing between a normal healthy state together with a benign state on one hand and malignant states on the other hand. A diagnosis of lung cancer may include identifying the difference to a normal healthy state, e.g. the absence of any neoplastic nodules or cancerous cells. The present invention can also be used for prognosis of lung cancer, in particular a prediction of the progression of lung cancer or lung cancer type. A particularly preferred use of the invention is to perform a diagnosis or prognosis of metastasising lung cancer (distinguished from non-metastasising conditions).

[0029] In the context of the present invention "prognosis", "prediction" or "predicting" should not be understood in an absolute sense, as in a certainty that an individual will develop lung cancer or lung cancer type (including cancer progression), but as an increased risk to develop cancer or the lung cancer type or of cancer progression. "Prognosis" is also used in the context of predicting disease progression, in particular to predict therapeutic results of a certain therapy of the disease, in particular neoplastic conditions, or lung cancer types. The prognosis of a therapy can e.g. be used to predict a chance of success (i.e. curing a disease) or chance of reducing the severity of the disease to a certain level. As a general inventive concept, markers screened for this purpose are preferably derived from sample data of patients treated according to the therapy to be predicted. The inventive marker sets may also be used to monitor a patient for the emergence of therapeutic results or positive disease progressions.

[0030] Some of the inventive, rationally selected markers have been found methylated in some instances. DNA methylation analyses in principle rely either on bisulfite deamination-based methylation detection or on using methylation sensitive restriction enzymes. Preferably the restriction enzyme-based strategy is used for elucidation of DNA-methylation changes. Further methods to determine methylated DNA are e.g. given in EP 1 369 493 A1 or U.S. Pat. No. 6,605,432. Combining restriction digestion and multiplex PCR amplification with a targeted microarray-hybridization is a particular advantageous strategy to perform the inventive methylation test using the inventive marker sets (or subsets). A microarray-hybridization step can be used for reading out the PCR results. For the analysis of the hybridization data statistical approaches for class comparisons and class prediction can be used. Such statistical methods are known from analysis of RNA-expression derived microarray data.

[0031] If only limiting amounts of DNA were available for analyses an amplification protocol can be used enabling selective amplification of the methylated DNA fraction prior methylation testing. Subjecting these amplicons to the methylation test, it was possible to successfully distinguish DNA from sensitive cases from normal healthy controls. In addition it was possible to distinguish lung-cancer patients from healthy normal controls using DNA from serum by the inventive methylation test upon preamplification. Both examples clearly illustrate that the inventive multiplexed methylation testing can be successfully applied when only limiting amounts of DNA are available. Thus, this principle might be the preferred method for minimal invasive diagnostic testing.

[0032] In most situations several genes are necessary for classification. Although the 359 marker set test is not a genome-wide test and might be used as it is for diagnostic testing, running a subset of markers--comprising the classifier which enables best classification--would be easier for routine applications. The test is easily scalable. Thus, to test only the subset of markers, comprising the classifier, the selected subset of primers/probes could be applied directly to set up of the lower multiplexed test (or single PCR-test). Serum DNA can be used to classify or distinguish healthy patients from individuals with lung-tumors. Only the specific primers comprising the gene-classifier obtained from the methylation test may be set up together in multiplexed PCR reactions.

[0033] In summary the inventive methylation test is a suitable tool for differentiation and classification of neoplastic disease. This assay can be used for diagnostic purposes and for defining biomarkers for clinical relevant issues to improve diagnosis of disease, and to classify patients at risk for disease progression, thereby improving disease treatment and patient management.

[0034] The first step of the inventive method of generating a subset, step a) of obtaining data of the methylation status, preferably comprises determining data of the methylation status, preferably by methylation specific PCR analysis, methylation specific digestion analysis. Methylation specific digestion analysis can include either or both of hybridization of suitable probes for detection to non-digested fragments or PCR amplification and detection of non-digested fragments.

[0035] The inventive selection can be made by any (known) classification method to obtain a set of markers with the given diagnostic (or also prognostic) value to categorize a lung cancer or lung cancer type. Such methods include class comparisons wherein a specific p-value is selected, e.g. a p-value below 0.1, preferably below 0.08, more preferred below 0.06, in particular preferred below 0.05, below 0.04, below 0.02, most preferred below 0.01.

[0036] Preferably the correlated results for each gene b) are rated by their correct correlation to lung cancer or lung cancer type positive state, preferably by p-value test or t-value test or F-test. Rated (best first, i.e. low p- or t-value) markers are the subsequently selected and added to the subset until a certain diagnostic value is reached, e.g. the herein mentioned at least 70% (or more) correct classification of lung cancer or lung cancer type.

[0037] Class comparison procedures include identification of genes that were differentially methylated among the two classes using a random-variance t-test. The random-variance t-test is an improvement over the standard separate t-test as it permits sharing information among genes about within-class variation without assuming that all genes have the same variance (Wright G. W. and Simon R, Bioinformatics 19:2448-2455,2003). Genes were considered statistically significant if their p value was less than a certain value, e.g. 0.1 or 0.01. A stringent significance threshold can be used to limit the number of false positive findings. A global test can also be performed to determine whether the expression profiles differed between the classes by permuting the labels of which arrays corresponded to which classes. For each permutation, the p-values can be re-computed and the number of genes significant at the e.g. 0.01 level can be noted. The proportion of the permutations that give at least as many significant genes as with the actual data is then the significance level of the global test. If there are more than 2 classes, then the "F-test" instead of the "t-test" should be used.

[0038] Class Prediction includes the step of specifying a significance level to be used for determining the genes that will be included in the subset. Genes that are differentially methylated between the classes at a univariate parametric significance level less than the specified threshold are included in the set. It doesn't matter whether the specified significance level is small enough to exclude enough false discoveries. In some problems better prediction can be achieved by being more liberal about the gene sets used as features. The sets may be more biologically interpretable and clinically applicable, however, if fewer genes are included. Similar to cross-validation, gene selection is repeated for each training set created in the cross-validation process. That is for the purpose of providing an unbiased estimate of prediction error. The final model and gene set for use with future data is the one resulting from application of the gene selection and classifier fitting to the full dataset.

[0039] Models for utilizing gene methylation profile to predict the class of future samples can also be used. These models may be based on the Compound Covariate Predictor (Radmacher et al. Journal of Computational Biology 9:505-511, 2002), Diagonal Linear Discriminant Analysis (Dudoit et al. Journal of the American Statistical Association 97:77-87, 2002), Nearest Neighbor Classification (also Dudoit et al.), and Support Vector Machines with linear kernel (Ramaswamy et al. PNAS USA 98:15149-54, 2001). The models incorporated genes that were differentially methylated among genes at a given significance level (e.g. 0.01, 0.05 or 0.1) as assessed by the random variance t-test (Wright G. W. and Simon R. Bioinformatics 19:2448-2455,2003). The prediction error of each model using cross validation, preferably leave-one-out cross-validation (Simon et al. Journal of the National Cancer Institute 95:14-18, 2003), is preferably estimated. For each leave-one-out cross-validation training set, the entire model building process was repeated, including the gene selection process. It may also be evaluated whether the cross-validated error rate estimate for a model was significantly less than one would expect from random prediction. The class labels can be randomly permuted and the entire leave-one-out cross-validation process is then repeated. The significance level is the proportion of the random permutations that gave a cross-validated error rate no greater than the cross-validated error rate obtained with the real methylation data. About 1000 random permutations may be usually used.

[0040] Another classification method is the greedy-pairs method described by Bo and Jonassen (Genome Biology 3(4):research0017.1-0017.11, 2002). The greedy-pairs approach starts with ranking all genes based on their individual t-scores on the training set. The procedure selects the best ranked gene g.sub.i and finds the one other gene g.sub.j that together with g.sub.i provides the best discrimination using as a measure the distance between centroids of the two classes with regard to the two genes when projected to the diagonal linear discriminant axis. These two selected genes are then removed from the gene set and the procedure is repeated on the remaining set until the specified number of genes have been selected. This method attempts to select pairs of genes that work well together to discriminate the classes.

[0041] Furthermore, a binary tree classifier for utilizing gene methylation profile can be used to predict the class of future samples. The first node of the tree incorporated a binary classifier that distinguished two subsets of the total set of classes. The individual binary classifiers were based on the "Support Vector Machines" incorporating genes that were differentially expressed among genes at the significance level (e.g. 0.01, 0.05 or 0.1) as assessed by the random variance t-test (Wright G. W. and Simon R. Bioinformatics 19:2448-2455, 2003). Classifiers for all possible binary partitions are evaluated and the partition selected was that for which the cross-validated prediction error was minimum. The process is then repeated successively for the two subsets of classes determined by the previous binary split. The prediction error of the binary tree classifier can be estimated by cross-validating the entire tree building process. This overall cross-validation included re-selection of the optimal partitions at each node and re-selection of the genes used for each cross-validated training set as described by Simon et al. (Simon et al. Journal of the National Cancer Institute 95:14-18, 2003). 10-fold cross validation in which one-tenth of the samples is withheld can be utilized, a binary tree developed on the remaining 9/10 of the samples, and then class membership is predicted for the 10% of the samples withheld. This is repeated 10 times, each time withholding a different 10% of the samples. The samples are randomly partitioned into 10 test sets (Simon R and Lam A. BRB-ArrayTools User Guide, version 3.2. Biometric Research Branch, National Cancer Institute).

[0042] Preferably the correlated results for each gene b) are rated by their correct correlation to lung cancer or lung cancer type positive state, preferably by p-value test. It is also possible to include a step in that the genes are selected d) in order of their rating.

[0043] Independent from the method that is finally used to produce a subset with certain diagnostic or predictive value, the subset selection preferably results in a subset with at least 60%, preferably at least 65%, at least 70%, at least 75%, at least 80% or even at least 85%, at least 90%, at least 92%, at least 95%, in particular preferred 100% correct classification of test samples of lung cancer or lung cancer type. Such levels can be reached by repeating c) steps a) and b) of the inventive method, if necessary.

[0044] To prevent increase of the number of the members of the subset, only marker genes with at least a significance value of at most 0.1, preferably at most 0.8, even more preferred at most 0.6, at most 0.5, at most 0.4, at most 0.2, or more preferred at most 0.01 are selected.

[0045] In particular preferred embodiments the at least 50 genes of step a) are at least 70, preferably at least 90, at least 100, at least 120, at least 140, at least 160, at least 180, at least 190, at least 200, at least 220, at least 240, at least 260, at least 280, at least 300, at least 320, at least 340, at least 350 or all, genes.

[0046] Since the subset should be small it is preferred that not more than 60, or not more than 40, preferably not more than 30, in particular preferred not more than 20, marker genes are selected in step d) for the subset.

[0047] In a further aspect the present invention provides a method of identifying lung cancer or lung cancer type in a sample comprising DNA from a patient, comprising providing a diagnostic subset of markers identified according to the method depicted above, determining the methylation status of the genes of the subset in the sample and comparing the methylation status with the status of a confirmed lung cancer or lung cancer type positive and/or negative state, thereby identifying lung cancer or lung cancer type in the sample.

[0048] The methylation status can be determined by any method known in the art including methylation dependent bisulfite deamination (and consequently the identification of mC--methylated C--changes by any known methods, including PCR and hybridization techniques). Preferably, the methylation status is determined by methylation specific PCR analysis, methylation specific digestion analysis and either or both of hybridisation analysis to non-digested or digested fragments or PCR amplification analysis of non-digested fragments. The methylation status can also be determined by any probes suitable for determining the methylation status including DNA, RNA, PNA, LNA probes which optionally may further include methylation specific moieties.

[0049] As further explained below the methylation status can be particularly determined by using hybridisation probes or amplification primer (preferably PCR primers) specific for methylated regions of the inventive marker genes. Discrimination between methylated and non-methylated genes, including the determination of the methylation amount or ratio, can be performed by using e.g. either one of these tools.

[0050] The determination using only specific primers aims at specifically amplifying methylated (or in the alternative non-methylated) DNA. This can be facilitated by using (methylation dependent) bisulfite deamination, methylation specific enzymes or by using methylation specific nucleases to digest methylated (or alternatively non-methylated) regions--and consequently only the non-methylated (or alternatively methylated) DNA is obtained. By using a genome chip (or simply a gene chip including hybridization probes for all genes of interest such as all 359 marker genes), all amplification or non-digested products are detected. I.e. discrimination between methylated and non-methylated states as well as gene selection (the inventive set or subset) is before the step of detection on a chip.

[0051] Alternatively it is possible to use universal primers and amplify a multitude of potentially methylated genetic regions (including the genetic markers of the invention) which are, as described either methylation specific amplified or digested, and then use a set of hybridisation probes for the characteristic markers on e.g. a chip for detection. I.e. gene selection is performed on the chip.

[0052] Either set, a set of probes or a set of primers, can be used to obtain the relevant methylation data of the genes of the present invention. Of course, both sets can be used.

[0053] The method according to the present invention may be performed by any method suitable for the detection of methylation of the marker genes. In order to provide a robust and optionally re-useable test format, the determination of the gene methylation is preferably performed with a DNA-chip, real-time PCR, or a combination thereof. The DNA chip can be a commercially available general gene chip (also comprising a number of spots for the detection of genes not related to the present method) or a chip specifically designed for the method according to the present invention (which predominantly comprises marker gene detection spots).

[0054] Preferably the methylated DNA of the sample is detected by a multiplexed hybridization reaction. In further embodiments a methylated DNA is preamplified prior to hybridization, preferably also prior to methylation specific amplification, or digestion. Preferably, also the amplification reaction is multiplexed (e.g. multiplex PCR).

[0055] The inventive methods (for the screening of subsets or for diagnosis or prognosis of lung cancer or lung cancer type) are particularly suitable to detect low amounts of methylated DNA of the inventive marker genes. Preferably the DNA amount in the sample is below 500 ng, below 400 ng, below 300 ng, below 200 ng, below 100 ng, below 50 ng or even below 25 ng. The inventive method is particularly suitable to detect low concentrations of methylated DNA of the inventive marker genes. Preferably the DNA amount in the sample is below 500 ng, below 400 ng, below 300 ng, below 200 ng, below 100 ng, below 50 ng or even below 25 ng, per ml sample.

[0056] In another aspect the present invention provides a subset comprising or consisting of nucleic acid primers or hybridization probes being specific for a potentially methylated region of at least marker genes selected from a set of nucleic acid primers or hybridization probes being specific for a potentially methylated region of marker genes being suitable to diagnose or predict lung cancer or a lung cancer type, preferably being selected from adenocarcinoma or squamous cell carcinoma, the marker genes comprising WT1, SALL3, TERT, ACTB, CPEB4 or any other subset selected from one of the following groups [0057] a) WT1, DLX2, SALL3, TERT, PITX2, HOXA10, F2R, CPEB4, NHLH2, SMAD3, ACTB, HOXA1, BOLL, APC, MT1G, PENK, SPARC, DNAJA4, RASSF1, HLA-G, ERCC1, ONECUT2, APC, ABCB1, ZNF573, KCNJ15, ZDHHC11, SFRP2, GDNF, PTTG1, SERPINI1, TNFRSF10C [0058] b) WT1, PITX2, SALL3, F2R, DLX2, TERT, HOXA10, MSH4, NHLH2, GNA15, PENK, RASSF1, BOLL, HOXA1, ONECUT2, ABCB1, SPARC, MT1G, HSPA2, SFRP2, PYCARD, GAD1, C5orf4, C5AR1, GDNF, ZDHHC11, SERPINE1, NKX2-1, PITX2, C5AR1, ZNF256, FAM43A, SFRP2, MT3, SERPINE1, CLIC4, TNFRSF10C, GABRA2, MTHFR, ESR2, NEUROG1, PITX2, PLAGL1, TMEFF2, PTTG1, CADM1, S100A8, EFS, JUB, ITGA4, MAGEB2, ERBB2, SRGN, GNAS, TJP2, KCNJ15, SLC25A31, ZNF573, TNFRSF25, APC, KCNQ1, LAMC2, SPHK1, DNAJA4, APC, MBD2, ERCC1, HLA-G, CXADR, TP53, ACTB, KL, SMAD3, HIST1H2AG, CPEB4 [0059] c) WT1, DLX2, SALL3, TERT, TNFRSF25, ACTB, SMAD3, CPEB4 [0060] d) WT1, DLX2, SALL3, TERT, PITX2, TNFRSF25, KL, ACTB, SMAD3, CPEB4 [0061] e) WT1, PITX2, SALL3, DLX2, TERT, HOXA10, RASSF1, SPARC, IRAK2, ZNF711, DNAJA4, HLA-G, CXADR, TP53, ACTB, CPEB4 [0062] f) WT1, PITX2, SALL3, F2R, TERT, HOXA10, RASSF1, SPARC, IRAK2, ZNF711, DRD2, DNAJA4, CXADR, TP53, ACTB, CPEB4 [0063] g) WT1, ACTB, DLX2, PITX2, SALL3, HOXA10, TERT, CPEB4, HLA-G, SPARC, RASSF1, DNAJA4, CXADR, TP53, IRAK2, ZNF711 [0064] h) F2R, ZNF256, CDH13, SERPINB5, KRT14, DLX2, AREG, THRB, HSD17B4, SPARC, HECW2, COL21A1 [0065] i) KL, HIST1H2AG, TJP2, SRGN, CDX1, TNFRSF25, APC, HIC1, APC, GNA15, ACTB, WT1, KRT17, AIM1L, DPH1, PITX2, PITX2, KIF5B, BMP2K, GBP2, NHLH2, GDNF, BOLL [0066] j) WT1, DLX2, SALL3, TERT, PITX2, HOXA10, F2R, CPEB4, NHLH2, SMAD3, ACTB, HOXA1, BOLL, APC, MT1G, PENK, SPARC, DNAJA4, RASSF1, HLA-G, ERCC1, ONECUT2, APC, ABCB1, ZNF573, KCNJ15, ZDHHC11, SFRP2, GDNF, PTTG1, SERPINI1, TNFRSF10C [0067] k) HOXA10, NEUROD1 [0068] l) WT1, PITX2, SALL3, F2R, TERT, HOXA10, RASSF1, SPARC, IRAK2, ZNF711, DRD2, DNAJA4, CXADR, TP53, ACTB, CPEB4, DLX2, TNFR5F25, KL, SMAD3 [0069] m) TNFRSF25, SALL3, RASSF1, TERT, SPARC, F2R, HOXA10, ZNF711, PITX2 [0070] n) SALL3, PITX2, SPARC, F2R, TERT, RASSF1, HOXA10, CXADR, KL [0071] o) SALL3, SPARC, PITX2, F2R, TERT, RASSF1, HOXA10, KL [0072] p) SALL3, PITX2, SPARC, F2R, HOXA10, DRD2, ACTB, DNAJA4, CXADR, KL [0073] q) SALL3, SPARC, PITX2, F2R, TERT, RASSF1, HOXA10, TNFRSF25, DNAJA4, TP53, CXADR, KL [0074] r) SPARC, SALL3, F2R, PITX2, RASSF1, HOXA10, TERT, KL, TNFRSF25 [0075] s) SALL3, SPARC, PITX2, F2R, TERT, RASSF1, HOXA10, KL, TNFR5F25, CXADR [0076] t) HOXA10, RASSF1, F2R

[0077] or

[0078] a set of at least 50%, preferably at least 60%, at least 70%, at least 80%, at least 90%, 100% of the markers of anyone of the above a) to t). The present inventive set also includes sets with at least 50% of the above markers for each set since it is also possible to substitute parts of these subsets being specific for--in the case of binary conditions/differentiations--e.g. good or bad prognosis or distinguish between lung cancer or lung cancer types, wherein one part of the subset points into one direction for a certain lung cancer type or cancer/differentiation. It is possible to further complement the 50% part of the set by additional markers specific for diagnosing lung cancer or determining the other part of the good or bad differentiation or differentiation between two lung cancer types. Methods to determine such complementing markers follow the general methods as outlined herein.

[0079] Each of these marker subsets is particularly suitable to diagnose lung cancer or lung cancer type or distinguish between certain cancers, samples or cancer types in a methylation specific assay of these genes.

[0080] The inventive primers or probes may be of any nucleic acid, including RNA, DNA, PNA (peptide nucleic acids), LNA (locked nucleic acids). The probes might further comprise methylation specific moieties.

[0081] The present invention provides a (master) set of 360 marker genes, further also specific gene locations by the PCR products of these genes wherein significant methylation can be detected, as well as subsets therefrom with a certain diagnostic value to detect or diagnose lung cancer or distinguish lung cancer type(s). Preferably the set is optimized for a lung cancer or a lung cancer type. Lung cancer types include, without being limited thereto, adenocarcinoma and squamous cell carcinoma. Further indicators differentiating between disease(s), including the diagnosis of any type of lung cancer or lung tumor, or between tumor type(s) are e.g. benign (non (or limited) proliferative) or malignant, metastatic or non-metastatic. The set can also be optimized for a specific sample type in which the methylated DNA is tested. Such samples include blood, urine, saliva, hair, skin, tissues, in particular tissues of the cancer origin mentioned above, in particular lung tissue such as potentially affected or potentially cancerous lung tissue, or serum, sputum, bronchial lavage. The sample my be obtained from a patient to be diagnosed. In preferred embodiments the test sample to be used in the method of identifying a subset is from the same type as a sample to be used in the diagnosis.

[0082] In practice, probes specific for potentially aberrant methylated regions are provided, which can then be used for the diagnostic method.

[0083] It is also possible to provide primers suitable for a specific amplification, like PCR, of these regions in order to perform a diagnostic test on the methylation state.

[0084] Such probes or primers are provided in the context of a set corresponding to the inventive marker genes or marker gene loci as given in table 1.

[0085] Such a set of primers or probes may have all 359 inventive markers present and can then be used for a multitude of different cancer detection methods. Of course, not all markers would have to be used to diagnose a lung cancer or lung cancer type. It is also possible to use certain subsets (or combinations thereof) with a limited number of marker probes or primers for diagnosis of certain categories of lung cancer.

[0086] Therefore, the present invention provides sets of primers or probes comprising primers or probes for any single marker subset or any combination of marker subsets disclosed herein. In the following sets of marker genes should be understood to include sets of primer pairs and probes therefor, which can e.g. be provided in a kit.

[0087] Set a, WT1, DLX2, SALL3, TERT, PITX2, HOXA10, F2R, CPEB4, NHLH2, SMAD3, ACTB, HOXA1, BOLL, APC, MT1G, PENK, SPARC, DNAJA4, RASSF1, HLA-G, ERCC1, ONECUT2, APC, ABCB1, ZNF573, KCNJ15, ZDHHC11, SFRP2, GDNF, PTTG1, SERPINI1, TNFRSF10C and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers are in particular suitable to detect lung cancer and to distinguish between normal lung tissue (non-cancerous) from lung tumor tissue.

[0088] Set b, WIT1, PITX2, SALL3, F2R, DLX2, TERT, HOXA10, MSH4, NHLH2, GNA15, PENK, RASSF1, BOLL, HOXA1, ONECUT2, ABCB1, SPARC, MT1G, HSPA2, SFRP2, PYCARD, GAD1, C5orf4, C5AR1, GDNF, ZDHHC11, SERPINE1, NKX2-1, PITX2, C5AR1, ZNF256, FAM43A, SFRP2, MT3, SERPINE1, CLIC4, TNFRSF10C, GABRA2, MTHFR, ESR2, NEUROG1, PITX2, PLAGL1, TMEFF2, PTTG1, CADM1, S100A8, EFS, JUB, ITGA4, MAGEB2, ERBB2, SRGN, GNAS, TJP2, KCNJ15, SLC25A31, ZNF573, TNFRSF25, APC, KCNQ1, LAMC2, SPHK1, DNAJA4, APC, MBD2, ERCC1, HLA-G, CXADR, TP53, ACTB, KL, SMAD3, HIST1H2AG, CPEB4 and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers are also suitable to detect lung cancer and to distinguish between normal lung tissue and lung tumor tissue. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0089] Set c, WT1, DLX2, SALL3, TERT, TNFRSF25, ACTB, SMAD3, CPEB4 and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers are suitable to detect lung cancer and to distinguish between normal lung tissue (non-cancerous) from lung tumor tissue. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0090] Set d, WT1, DLX2, SALL3, TERT, PITX2, TNFRSF25, KL, ACTB, SMAD3, CPEB4 and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers are in particular suitable to detect lung cancer and to distinguish between normal lung tissue (non-cancerous) from lung tumor tissue. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0091] Set e, WT1, PITX2, SALL3, DLX2, TERT, HOXA10, RASSF1, SPARC, IRAK2, ZNF711, DNAJA4, HLA-G, CXADR, TP53, ACTB, CPEB4 and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers are also suitable to detect lung cancer and to distinguish between normal lung tissue (non-cancerous) from lung tumor tissue. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0092] Set f, WT1, PITX2, SALL3, F2R, TERT, HOXA10, RASSF1, SPARC, IRAK2, ZNF711, DRD2, DNAJA4, CXADR, TP53, ACTB, CPEB4 and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to detect lung cancer and to distinguish between normal lung tissue (non-cancerous) from lung tumor tissue. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0093] Set g, WT1, ACTB, DLX2, PITX2, SALL3, HOXA10, TERT, CPEB4, HLA-G, SPARC, RASSF1, DNAJA4, CXADR, TP53, IRAK2, ZNF711 and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to diagnose lung carcinoma, in particular using blood samples, e.g. to distinguish blood from healthy persons from tumor samples, including tumor tissue sample or blood from tumor patients. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0094] Set h, F2R, ZNF256, CDH13, SERPINB5, KRT14, DLX2, AREG, THRB, HSD17B4, SPARC, HECW2, COL21A1 and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to diagnose lung cancer and distinguish the grade of differentiation of poor, moderate and well predictions. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0095] Set i, KL, HIST1H2AG, TJP2, SRGN, CDX1, TNFRSF25, APC, HIC1, APC, GNA15, ACTB, WT1, KRT17, AIM1L, DPH1, PITX2, PITX2, KIF5B, BMP2K, GBP2, NHLH2, GDNF, BOLL and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to diagnose lung cancer and distinguish between malign states (in particular adenocarcinoma and squamous cell carcinoma) together with lung tissue against healthy blood or serum samples. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0096] Set j, WT1, DLX2, SALL3, TERT, PITX2, HOXA10, F2R, CPEB4, NHLH2, SMAD3, ACTB, HOXA1, BOLL, APC, MT1G, PENK, SPARC, DNAJA4, RASSF1, HLA-G, ERCC1, ONECUT2, APC, ABCB1, ZNF573, KCNJ15, ZDHHC11, SFRP2, GDNF, PTTG1, SERPINI1, TNFRSF10C and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to diagnose ,lung cancer and distinguish between malign states selected from adenocarcinoma and squamous cell carcinoma from healthy lung tissue. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0097] Set k, HOXA10, NEUROD1 and/or either HOXA10 or NEUR001 can be used to diagnose lung cancer and further to distinguish between adenocarcinoma from squamous cell carcinoma.

[0098] Set 1, WT1, PITX2, SALL3, F2R, TERT, HOXA10, RASSF1, SPARC, IRAK2, ZNF711, DRD2, DNAJA4, CXADR, TP53, ACTB, CPEB4, DLX2, TNFRSF25, KL, SMAD3 and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to diagnose lung cancer and distinguish between cancerous lung tissue from healthy lung tissue.

[0099] Set m, TNFRSF25, SALL3, RASSF1, TERT, SPARC, F2R, HOXA10, ZNF711, PITX2 and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to diagnose lung cancer and distinguish between cancerous lung tissue from healthy lung tissue. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0100] Set n, SALL3, PITX2, SPARC, F2R, TERT, RASSF1, HOXA10, CXADR, KL and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to diagnose lung cancer and distinguish between cancerous lung tissue from healthy lung tissue. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0101] Set o, SALL3, SPARC, PITX2, F2R, TERT, RASSF1, HOXA10, KL and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to diagnose lung cancer and distinguish between cancerous lung tissue from healthy lung tissue. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0102] Set p, SALL3, PITX2, SPARC, F2R, HOXA10, DRD2, ACTB, DNAJA4, CXADR, KL and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to diagnose lung cancer and to distinguish between normal lung tissue (non-cancerous) from lung tumor tissue.

[0103] Set q, SALL3, SPARC, PITX2, F2R, TERT, RASSF1, HOXA10, TNFRSF25, DNAJA4, TP53, CXADR, KL and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to diagnose lung cancer and to distinguish between normal lung tissue (non-cancerous) from lung tumor tissue. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0104] Set r, SPARC, SALL3, F2R, PITX2, RASSF1, HOXA10, TERT, KL, TNFRSF25 and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to diagnose lung cancer, distinguish between adenocarcinoma, healthy lung tissue and squamous cell carcinoma. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0105] Set s, SALL3, SPARC, PITX2, F2R, TERT, RASSF1, HOXA10, KL, TNFRSF25, CXADR and 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to diagnose lung cancer, distinguish adenocarcinoma and squamous cell carcinoma from healthy (benign) lung tissue. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0106] Set t, HOXA10, RASSF1, F2R and sets with at least 50%, preferably at least 60%, at least 70%, at least 80% or at least 90% of these markers can be used to diagnose lung cancer, distinguish between adenocarcinoma and squamous cell carcinoma. The distinction or diagnosis can be made by using any sample as described above, including serum, sputum, bronchial lavage.

[0107] Also provided are combinations of the above mentioned subsets a) to t), in particular sets comprising markers of 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15 or more of these subsets, preferably for the lung cancer type or preferably complete sets a) to t). One preferred set comprises gene markers WT1, SALL3, TERT, ACTB and CPEB4. These markers are common in a set for the diagnosis of lung cancer and suitable to distinguish normal from lung cancer samples. This set preferably is supplemented by the marker genes DLX2, TNFRSF25 or SMAD3. Furthermore, the inventive set may comprise any one of the markers ABCB1, ACTB, AIM1L, APC, AREG, BMP2K, BOLL, C5AR1, C5orf4, CADM1, CDH13, CDX1, CLIC4, COL21A1, CPEB4, CXADR, DLX2, DNAJA4, DPH1, DRD2, EFS, ERBB2, ERCC1, ESR2, F2R, FAM43A, GABRA2, GAD1, GBP2, GDNF, GNA15, GNAS, HECW2, HIC1, HIST1H2AG, HLA-G, HOXA1, HOXA10, HSD17B4, HSPA2, IRAK2, ITGA4, JUB, KCNJ15, KCNQ1, KIF5B, KL, KRT14, KRT17, LAMC2, MAGEB2, MBD2, MSH4, MT1G, MT3, MTHFR, NEUROD1, NHLH2, NKX2-1, ONECUT2, PENK, PITX2, PLAGL1, PTTG1, PYCARD, RASSF1, S100A8, SALL3, SERPINB5, SERPINE1, SERPINI1, SFRP2, SLC25A31, SMAD3, SPARC, SPHK1, SRGN, TERT, THRB, TJP2, TMEFF2, TNFRSF10C, TNFRSF25, TP53, ZDHHC11, ZNF256, ZNF711, F2R, HOXA10, KL, SALL3, SPARC, TNFRSF25, WT1 or any combination thereof, in particular preferred are markers ACTB, APC, CPEB4, CXADR, DLX2, DNAJA4, F2R, HOXA10, KL, PITX2, RASSF1, SALL3, SPARC, TERT, (either TNFRSF10C or TNFRSF25 or both), WT1 or any combination thereof, even more preferred are markers HOXA10, PITX2, RASSF1, SALL3, SPARC, TERT or any combination thereof, in a marker set according to the present invention, in particular as additional markers for any one of sets a) to t), especially the marker set of markers WT1, SALL3, TERT, ACTB and CPEB4.

[0108] According to a preferred embodiment of the present invention, the methylation of at least two genes, preferably of at least three genes, especially of at least four genes, is determined. Specifically if the present invention is provided as an array test system, at least ten, especially at least fifteen genes, are preferred. In preferred test set-ups (for example in microarrays ("gene-chips")) preferably at least 20, even more preferred at least 30, especially at least 40 genes, are provided as test markers. As mentioned above, these markers or the means to test the markers can be provided in a set of probes or a set of primers, preferably both.

[0109] In a further embodiment the set comprises up to 100000, up to 90000, up to 80000, up to 70000, up to 60000 or 50000 probes or primer pairs (set of two primers for one amplification product), preferably up to 40000, up to 35000, up to 30000, up to 25000, up to 20000, up to 15000, up to 10000, up to 7500, up to 5000, up to 3000, up to 2000, up to 1000, up to 750, up to 500, up to 400, up to 300, or even more preferred up to 200 probes or primers of any kind, particular in the case of immobilized probes on a solid surface such as a chip.

[0110] In certain embodiments the primer pairs and probes are specific for a methylated upstream region of the open reading frame of the marker genes.

[0111] Preferably the probes or primers are specific for a methylation in the genetic regions defined by SEQ ID NOs 1081 to 1440, including the adjacent up to 500 base pairs, preferably up to 300, up to 200, up to 100, up to 50 or up to 10 adjacent, corresponding to gene marker IDs 1 to 359 of table 1, respectively. I.e. probes or primers of the inventive set (including the full 359 set, as well as subsets and combinations thereof) are specific for the regions and gene loci identified in table 1, last column with reference to the sequence listing, SEQ ID NOs: 1081 to 1440. As can be seen these SEQ IDs correspond to a certain gene, the latter being a member of the inventive sets, in particular of the subsets a) to t), e.g.

[0112] Examples of specific probes or primers are given in table 1 with reference to the sequence listing, SEQ ID NOs 1 to 1080, which form especially preferred embodiments of the invention.

[0113] Preferably the set of the present invention comprises probes or primers for at least one gene or gene product of the list according to table 1, wherein at least 10%, at least 15%, at least 20%, at least 25%, at least 30%, at least 35%, at least 40%, at least 45%, at least 50%, at least 55%, at least 60%, at least 65%, at least 70%, at least 75%, at least 80%, at least 85%, at least 90%, at least 95%, especially preferred at least 100%, of the total probes or primers are probes or primers for genes of the list according to table 1. Preferably the set, in particular in the case of a set of hybridization probes, is provided immobilized on a solid surface, preferably a chip or in form of a microarray. Since--according to current technology--detection means for genes on a chip allow easier and more robust array design, gene chips using DNA molecules (for detection of methylated DNA in the sample) is a preferred embodiment of the present invention. Such gene chips also allow detection of a large number of nucleic acids.

[0114] Preferably the set is provided on a solid surface, in particular a chip, whereon the primers or probes can be immobilized. Solid surfaces or chips may be of any material suitable for the immobilization of biomolecules such as the moieties, including glass, modified glass (aldehyde modified) or metal chips.

[0115] The primers or probes can also be provided as such, including lyophilized forms or being in solution, preferably with suitable buffers. The probes and primers can of course be provided in a suitable container, e.g. a tube or micro tube.

[0116] The present invention also relates to a method of identifying lung cancer or lung cancer type in a sample comprising DNA from a subject or patient, comprising obtaining a set of nucleic acid primers (or primer pairs) or hybridization probes as defined above (comprising each specific subset or combinations thereof), determining the methylation status of the genes in the sample for which the members of the set are specific for and comparing the methylation status of the genes with the status of a confirmed lung cancer or lung cancer type positive and/or negative state, thereby identifying the lung cancer or lung cancer type in the sample. In general the inventive method has been described above and all preferred embodiments of such methods also apply to the method using the set provided herein.

[0117] The inventive marker set, including certain disclosed subsets and subsets, which can be identified with the methods disclosed herein, are suitable to diagnose lung cancer and distinguish between different lung cancer forms, in particular for diagnostic or prognostic uses. Preferably the markers used (e.g. by utilizing primers or probes of the inventive set) for the inventive diagnostic or prognostic method may be used in smaller amounts than e.g. in the set (or kit) or chip as such, which may be designed for more than one fine tuned diagnosis or prognosis. The markers used for the diagnostic or prognostic method may be up to 100000, up to 90000, up to 80000, up to 70000, up to 60000 or 50000, preferably up to 40000, up to 35000, up to 30000, up to 25000, up to 20,000, up to 15000, up to 10000, up to 7500, up to 5000, up to 3000, up to 2000, up to 1000, up to 750, up to 500, up to 400, up to 300, up to 200, up to 100, up to 80, or even more preferred up to 60. The inventive set of marker primers or probes can be employed in chip (immobilised) based assays, products or methods, or in PCR based kits or methods. Both, PCR and hybridisation (e.g. on a chip) can be used to detect methylated genes.

[0118] The inventive marker set, including certain disclosed subsets, which can be identified with the methods disclosed herein, are suitable to distinguish between lung cancer from normal tissue, in particular for diagnostic or prognostic uses.

[0119] The inventive marker set, including certain disclosed subsets, which can be identified with the methods disclosed herein, are suitable to distinguish between adenocarcinoma from squamous cell carcinoma, in particular for diagnostic or prognostic uses.

[0120] The present invention is further illustrated by the following examples, without being restricted thereto.

[0121] Figures:

[0122] FIG. 1: Cross-Validation ROC curve from the Bayesian Compound Covariate Predictor.

EXAMPLES

Example 1

Gene List

TABLE-US-00001 [0123] TABLE 1 360 master set (with the 359 marker genes and one control) and sequence annotation hybridisation gene Gene alt. Gene probe primer 1 (lp) primer 2 (rp) PCR product ID Symbol Symbol (SEQ ID NO:) (SEQ ID NO:) (SEQ ID NO:) (SEQ ID NO:) 1 NHLH2 NHLH2 1 361 721 1081 2 MTHFR MTHFR 2 362 722 1082 3 PRDM2 RIZ1 (PRDM2) 3 363 723 1083 4 MLLT11 MLLT11 4 364 724 1084 5 S100A9 control_S100A9 5 365 725 1085 6 S100A9 S100A9 6 366 726 1086 7 S100A8 S100A8 7 367 727 1087 8 S100A8 control_S100A8 8 368 728 1088 9 S100A2 S100A2 9 369 729 1089 10 LMNA LMNA 10 370 730 1090 11 DUSP23 DUSP23 11 371 731 1091 12 LAMC2 LAMC2 12 372 732 1092 13 PTGS2 PTGS2 13 373 733 1093 14 MARK1 MARK1 14 374 734 1094 15 DUSP10 DUSP10 15 375 735 1095 16 PARP1 PARP1 16 376 736 1096 17 PSEN2 PSEN2 17 377 737 1097 18 CLIC4 CLIC4 18 378 738 1098 19 RUNX3 RUNX3 19 379 739 1099 20 AIM1L NM_017977 20 380 740 1100 21 SFN SFN 21 381 741 1101 22 RPA2 RPA2 22 382 742 1102 23 TP73 TP73 23 383 743 1103 24 TP73 p73 24 384 744 1104 25 POU3F1 01.10.06 25 385 745 1105 26 MUTYH MUTYH 26 386 746 1106 27 UQCRH UQCRH 27 387 747 1107 28 FAF1 FAF1 28 388 748 1108 29 TACSTD2 TACSTD2 29 389 749 1109 30 TNFRSF25 TNFRSF25 30 390 750 1110 31 DIRAS3 DIRAS3 31 391 751 1111 32 MSH4 MSH4 32 392 752 1112 33 GBP2 Control 33 393 753 1113 34 GBP2 GBP2 34 394 754 1114 35 LRRC8C LRRC8C 35 395 755 1115 36 F3 F3 36 396 756 1116 37 NANOS1 NM_001009553 37 397 757 1117 38 MGMT MGMT 38 398 758 1118 39 EBF3 EBF3 39 399 759 1119 40 DCLRE1C DCLRE1C 40 400 760 1120 41 KIF5B KIF5B 41 401 761 1121 42 ZNF22 ZNF22 42 402 762 1122 43 PGBD3 ERCC6 43 403 763 1123 44 SRGN Control 44 404 764 1124 45 GATA3 GATA3 45 405 765 1125 46 PTEN PTEN 46 406 766 1126 47 MMS19 MMS19L 47 407 767 1127 48 SFRP5 SFRP5 48 408 768 1128 49 PGR PGR 49 409 769 1129 50 ATM ATM 50 410 770 1130 51 DRD2 DRD2 51 411 771 1131 52 CADM1 IGSF4 52 412 772 1132 53 TEAD1 Control 53 413 773 1133 54 OPCML OPCML 54 414 774 1134 55 CALCA CALCA 55 415 775 1135 56 CTSD CTSD 56 416 776 1136 57 MYOD1 MYOD1 57 417 777 1137 58 IGF2 IGF2 58 418 778 1138 59 BDNF BDNF 59 419 779 1139 60 CDKN1C CDKN1C 60 420 780 1140 61 WT1 WT1 61 421 781 1141 62 HRAS HRAS1 62 422 782 1142 63 DDB1 DDB1 63 423 783 1143 64 GSTP1 GSTP1 64 424 784 1144 65 CCND1 CCND1 65 425 785 1145 66 EPS8L2 EPS8L2 66 426 786 1146 67 PIWIL4 PIWIL4 67 427 787 1147 68 CHST11 CHST11 68 428 788 1148 69 UNG UNG 69 429 789 1149 70 CCDC62 CCDC62 70 430 790 1150 71 CDK2AP1 CDK2AP1 71 431 791 1151 72 CHFR CHFR 72 432 792 1152 73 GRIN2B GRIN2B 73 433 793 1153 74 CCND2 CCND2 74 434 794 1154 75 VDR VDR 75 435 795 1155 76 B4GALNT3 control (wrong 76 436 796 1156 chr of HRAS1) 77 NTF3 NTF3 77 437 797 1157 78 CYP27B1 CYP27B1 78 438 798 1158 79 GPR92 GPR92 79 439 799 1159 80 ERCC5 ERCC5 80 440 800 1160 81 GJB2 GJB2 81 441 801 1161 82 BRCA2 BRCA2 82 442 802 1162 83 KL KL 83 443 803 1163 84 CCNA1 CCNA1 84 444 804 1164 85 SMAD9 SMAD9 85 445 805 1165 86 C13orf15 RGC32 86 446 806 1166 87 DGKH DGKH 87 447 807 1167 88 DNAJC15 DNAJC15 88 448 808 1168 89 RB1 RB1 89 449 809 1169 90 RCBTB2 RCBTB2 90 450 810 1170 91 PARP2 PARP2 91 451 811 1171 92 APEX1 APEX1 92 452 812 1172 93 JUB JUB 93 453 813 1173 94 JUB control_NM_198086 94 454 814 1174 95 EFS EFS 95 455 815 1175 96 BAZ1A BAZ1A 96 456 816 1176 97 NKX2-1 TITF1 97 457 817 1177 98 ESR2 ESR2 98 458 818 1178 99 HSPA2 HSPA2 99 459 819 1179 100 PSEN1 PSEN1 100 460 820 1180 101 PGF PGF 101 461 821 1181 102 MLH3 MLH3 102 462 822 1182 103 TSHR TSHR 103 463 823 1183 104 THBS1 THBS1 104 464 824 1184 105 MYO5C MYO5C 105 465 825 1185 106 SMAD6 SMAD6 106 466 826 1186 107 SMAD3 SMAD3 107 467 827 1187 108 NOX5 SPESP1 108 468 828 1188 109 DNAJA4 DNAJA4 109 469 829 1189 110 CRABP1 CRABP1 110 470 830 1190 111 BCL2A1 BCL2A1 111 471 831 1191 112 BCL2A1 BCL2A1 112 472 832 1192 113 BNC1 BNC1 113 473 833 1193 114 ARRDC4 ARRDC4 114 474 834 1194 115 SOCS1 SOCS1 115 475 835 1195 116 ERCC4 ERCC4 116 476 836 1196 117 NTHL1 NTHL1 117 477 837 1197 118 PYCARD PYCARD 118 478 838 1198 119 AXIN1 AXIN1 119 479 839 1199 120 CYLD NM_015247 120 480 840 1200 121 MT3 MT3 121 481 841 1201 122 MT1A MT1A 122 482 842 1202 123 MT1G MT1G 123 483 843 1203 124 CDH1 CDH1 124 484 844 1204 125 CDH13 CDH13 125 485 845 1205 126 DPH1 DPH1 126 486 846 1206 127 HIC1 HIC1 127 487 847 1207 128 NEUROD2 control_NEUROD2 128 488 848 1208 129 NEUROD2 NEUROD2 129 489 849 1209 130 ERBB2 ERBB2 130 490 850 1210 131 KRT19 KRT19 131 491 851 1211 132 KRT14 KRT14 132 492 852 1212 133 KRT17 KRT17 133 493 853 1213 134 JUP JUP 134 494 854 1214 135 BRCA1 BRCA1 135 495 855 1215 136 COL1A1 COL1A1 136 496 856 1216 137 CACNA1G CACNA1G 137 497 857 1217 138 PRKAR1A PRKAR1A 138 498 858 1218 139 SPHK1 SPHK1 139 499 859 1219 140 SOX15 SOX15 140 500 860 1220 141 TP53 TP53_CGI23_1kb 141 501 861 1221 142 TP53 TP53_bothCGIs_1kb 142 502 862 1222 143 TP53 TP53_CGI36_1kb 143 503 863 1223 144 TP53 TP53 144 504 864 1224 145 NPTX1 NPTX1 145 505 865 1225 146 SMAD2 SMAD2 146 506 866 1226 147 DCC DCC 147 507 867 1227 148 MBD2 MBD2 148 508 868 1228 149 ONECUT2 ONECUT2 149 509 869 1229 150 BCL2 BCL2 150 510 870 1230 151 SERPINB5 SERPINB5 151 511 871 1231 152 SERPINB2 Control 152 512 872 1232 153 SERPINB2 SERPINB2 153 513 873 1233 154 TYMS TYMS 154 514 874 1234 155 LAMA1 LAMA1 155 515 875 1235 156 SALL3 SALL3 156 516 876 1236 157 LDLR LDLR 157 517 877 1237 158 STK11 STK11 158 518 878 1238 159 PRDX2 PRDX2 159 519 879 1239 160 RAD23A RAD23A 160 520 880 1240 161 GNA15 GNA15 161 521 881 1241 162 ZNF573 ZNF573 162 522 882 1242 163 SPINT2 SPINT2 163 523 883 1243 164 XRCC1 XRCC1 164 524 884 1244 165 ERCC2 ERCC2 165 525 885 1245 166 ERCC1 ERCC1 166 526 886 1246 167 C5AR1 NM_001736 167 527 887 1247 168 C5AR1 C5AR1 168 528 888 1248 169 POLD1 POLD1 169 529 889 1249 170 ZNF350 ZNF350 170 530 890 1250 171 ZNF256 ZNF256 171 531 891 1251 172 C3 C3 172 532 892 1252 173 XAB2 XAB2 173 533 893 1253 174 ZNF559 ZNF559 174 534 894 1254 175 FHL2 FHL2 175 535 895 1255 176 IL1B IL1B 176 536 896 1256 177 IL1B control_IL1B 177 537 897 1257 178 PAX8 PAX8 178 538 898 1258 179 DDX18 DDX18 179 539 899 1259 180 GAD1 GAD1 180 540 900 1260 181 DLX2 DLX2 181 541 901 1261 182 ITGA4 ITGA4 182 542 902 1262 183 NEUROD1 NEUROD1 183 543 903 1263 184 STAT1 STAT1 184 544 904 1264 185 TMEFF2 TMEFF2 185 545 905 1265 186 HECW2 HECW2 186 546 906 1266 187 BOLL BOLL 187 547 907 1267 188 CASP8 CASP8 188 548 908 1268 189 SERPINE2 SERPINE2 189 549 909 1269 190 NCL NCL 190 550 910 1270 191 CYP1B1 CYP1B1 191 551 911 1271 192 TACSTD1 TACSTD1 192 552 912 1272 193 MSH2 MSH2 193 553 913 1273 194 MSH6 MSH6 194 554 914 1274 195 MXD1 MXD1 195 555 915 1275 196 JAG1 JAG1 196 556 916 1276 197 FOXA2 FOXA2 197 557 917 1277 198 THBD THBD 198 558 918 1278 199 CTCFL BORIS 199 559 919 1279 200 CTSZ CTSZ 200 560 920 1280 201 GATA5 GATA5 201 561 921 1281 202 CXADR CXADR 202 562 922 1282 203 APP APP 203 563 923 1283 204 TTC3 TTC3 204 564 924 1284 205 KCNJ15 Control 205 565 925 1285 206 RIPK4 RIPK4 206 566 926 1286 207 TFF1 TFF1 207 567 927 1287 208 SEZ6L SEZ6L 208 568 928 1288 209 TIMP3 TIMP3 209 569 929 1289 210 BIK BIK 210 570 930 1290 211 VHL VHL 211 571 931 1291 212 IRAK2 IRAK2 212 572 932 1292 213 PPARG PPARG 213 573 933 1293 214 MBD4 MBD4 214 574 934 1294 215 RBP1 RBP1 215 575 935 1295 216 XPC XPC 216 576 936 1296 217 ATR ATR 217 577 937 1297 218 LXN LXN 218 578 938 1298 219 RARRES1 RARRES1 219 579 939 1299 220 SERPINI1 SERPINI1 220 580 940 1300 221 CLDN1 CLDN1 221 581 941 1301 222 FAM43A FAM43A 222 582 942 1302 223 IQCG IQCG 223 583 943 1303 224 THRB THRB 224 584 944 1304 225 RARB RARB 225 585 945 1305 226 TGFBR2 TGFBR2 226 586 946 1306 227 MLH1 MLH1 227 587 947 1307 228 DLEC1 DLEC1 228 588 948 1308 229 CTNNB1 CTNNB1 229 589 949 1309 230 ZNF502 ZNF502 230 590 950 1310 231 SLC6A20 SLC6A20 231 591 951 1311 232 GPX1 GPX1 232 592 952 1312 233 RASSF1 RASSF1A 233 593 953 1313 234 FHIT FHIT 234 594 954 1314 235 OGG1 OGG1 235 595 955 1315 236 PITX2 PITX2 236 596 956 1316 237 SLC25A31 SLC25A31 237 597 957 1317 238 FBXW7 FBXW7 238 598 958 1318 239 SFRP2 SFRP2 239 599 959 1319 240 CHRNA9 CHRNA9 240 600 960 1320 241 GABRA2 GABRA2 241 601 961 1321

242 MSX1 MSX1 242 602 962 1322 243 IGFBP7 IGFBP7 243 603 963 1323 244 EREG EREG 244 604 964 1324 245 AREG AREG 245 605 965 1325 246 ANXA3 ANXA3 246 606 966 1326 247 BMP2K BMP2K 247 607 967 1327 248 APC APC 248 608 968 1328 249 HSD17B4 HSD17B4 249 609 969 1329 250 HSD17B4 HSD17B4 250 610 970 1330 251 LOX LOX 251 611 971 1331 252 TERT TERT 252 612 972 1332 253 NEUROG1 NEUROG1 253 613 973 1333 254 NR3C1 NR3C1 254 614 974 1334 255 ADRB2 ADRB2 255 615 975 1335 256 CDX1 CDX1 256 616 976 1336 257 SPARC SPARC 257 617 977 1337 258 C5orf4 Control 258 618 978 1338 259 PTTG1 PTTG1 259 619 979 1339 260 DUSP1 DUSP1 260 620 980 1340 261 CPEB4 CPEB4 261 621 981 1341 262 SCGB3A1 SCGB3A1 262 622 982 1342 263 GDNF GDNF 263 623 983 1343 264 ERCC8 ERCC8 264 624 984 1344 265 F2R F2R 265 625 985 1345 266 F2RL1 F2RL1 266 626 986 1346 267 VCAN CSPG2 267 627 987 1347 268 ZDHHC11 ZDHHC11 268 628 988 1348 269 RHOBTB3 RHOBTB3 269 629 989 1349 270 PLAGL1 PLAGL1 270 630 990 1350 271 SASH1 SASH1 271 631 991 1351 272 ULBP2 ULBP2 272 632 992 1352 273 ESR1 ESR1 273 633 993 1353 274 RNASET2 RNASET2 274 634 994 1354 275 DLL1 DLL1 275 635 995 1355 276 HIST1H2AG HIST1H2AG 276 636 996 1356 277 HLA-G HLA-G 277 637 997 1357 278 MSH5 MSH5 278 638 998 1358 279 CDKN1A CDKN1A 279 639 999 1359 280 TDRD6 TDRD6 280 640 1000 1360 281 COL21A1 COL21A1 281 641 1001 1361 282 DSP DSP 282 642 1002 1362 283 SERPINE1 SERPINE1 283 643 1003 1363 284 SERPINE1 SERPINE1 284 644 1004 1364 285 FBXL13 FBXL13 285 645 1005 1365 286 NRCAM NRCAM 286 646 1006 1366 287 TWIST1 TWIST1 287 647 1007 1367 288 HOXA1 HOXA1 288 648 1008 1368 289 HOXA10 HOXA10 289 649 1009 1369 290 SFRP4 SFRP4 290 650 1010 1370 291 IGFBP3 IGFBP3 291 651 1011 1371 292 RPA3 RPA3 292 652 1012 1372 293 ABCB1 ABCB1 293 653 1013 1373 294 TFPI2 TFPI2 294 654 1014 1374 295 COL1A2 COL1A2 295 655 1015 1375 296 ARPC1B ARPC1B 296 656 1016 1376 297 PILRB PILRB 297 657 1017 1377 298 GATA4 GATA4 298 658 1018 1378 299 MAL2 NM_052886 299 659 1019 1379 300 DLC1 DLC1 300 660 1020 1380 301 EPPK1 NM_031308 301 661 1021 1381 302 LZTS1 LZTS1 302 662 1022 1382 303 TNFRSF10B TNFRSF10B 303 663 1023 1383 304 TNFRSF10C TNFRSF10C 304 664 1024 1384 305 TNFRSF10D TNFRSF10D 305 665 1025 1385 306 TNFRSF10A TNFRSF10A 306 666 1026 1386 307 WRN WRN 307 667 1027 1387 308 SFRP1 SFRP1 308 668 1028 1388 309 SNAI2 SNAI2 309 669 1029 1389 310 RDHE2 RDHE2 310 670 1030 1390 311 PENK PENK 311 671 1031 1391 312 RDH10 RDH10 312 672 1032 1392 313 TGFBR1 TGFBR1 313 673 1033 1393 314 ZNF462 ZNF462 314 674 1034 1394 315 KLF4 KLF4 315 675 1035 1395 316 CDKN2A p14_CDKN2A 316 676 1036 1396 317 CDKN2B CDKN2B 317 677 1037 1397 318 AQP3 AQP3 318 678 1038 1398 319 TPM2 TPM2 319 679 1039 1399 320 TJP2 TJP2 320 680 1040 1400 321 TJP2 TJP2 321 681 1041 1401 322 PSAT1 PSAT1 322 682 1042 1402 323 DAPK1 DAPK1 323 683 1043 1403 324 SYK SYK 324 684 1044 1404 325 XPA XPA 325 685 1045 1405 326 ARMCX2 ARMCX2 326 686 1046 1406 327 RHOXF1 OTEX 327 687 1047 1407 328 FHL1 FHL1 328 688 1048 1408 329 MAGEB2 MAGEB2 329 689 1049 1409 330 TIMP1 TIMP1 330 690 1050 1410 331 AR AR_humara 331 691 1051 1411 332 ZNF711 ZNF6 332 692 1052 1412 333 CD24 CD24 333 693 1053 1413 334 ABL1 ABL 334 694 1054 1414 335 ACTB Aktin_VL 335 695 1055 1415 336 APC APC 336 696 1056 1416 337 CDH1 Ecad1 337 697 1057 1417 338 CDH1 Ecad2 338 698 1058 1418 339 FMR1 FX 339 699 1059 1419 340 GNAS GNASexAB 340 700 1060 1420 341 H19 H19 341 701 1061 1421 342 HIC1 Igf2 342 702 1062 1422 343 IGF2 Igf2 343 703 1063 1423 344 KCNQ1 LIT1 344 704 1064 1424 345 GNAS NESP55 345 705 1065 1425 346 CDKN2A P14 346 706 1066 1426 347 CDKN2B P15 347 707 1067 1427 348 CDKN2A P16_VL 348 708 1068 1428 349 PITX2 PitxA 349 709 1069 1429 350 PITX2 PitxB 350 710 1070 1430 351 PITX2 PitxC 351 711 1071 1431 352 PITX2 PitxD 352 712 1072 1432 353 RB1 Rb 353 713 1073 1433 354 SFRP2 SFRP2_VL 354 714 1074 1434 355 SNRPN SNRPN 355 715 1075 1435 356 XIST XIST 356 716 1076 1436 357 IRF4 chr6_control 357 717 1077 1437 358 UNC13B chr9_control 358 718 1078 1438 359 GSTP1 GSTP1 360 720 1080 1440 360 Lamda lambda_PCR 359 719 1079 1439 (control)

Example 2

Samples

[0124] Samples from solid tumors were derived from initial surgical resection of primary tumors. Tumor tissue sections were derived from histopathology and histopathological data as well clinical data were monitored over the time of clinical management of the patients and/or collected from patient reports in the study center. Anonymised data and DNA were provided.

Example 3

Principle of the Assay and Design

[0125] The invention assay is a multiplexed assay for DNA methylation testing of up to (or even more than) 360 methylation candidate markers, enabling convenient methylation analyses for tumor-marker definition. In its best mode the test is a combined multiplex-PCR and microarray hybridization technique for multiplexed methylation testing. The inventive marker genes, PCR primer sequences, hybridization probe sequences and expected PCR products are given in table 1, above.

[0126] Targeting hypermethylated DNA regions in the inventive marker genes in several neoplasias, methylation analysis is performed via methylation dependent restriction enzyme (MSRE) digestion of 500 ng of starting DNA. A combination of several MSREs warrants complete digestion of unmethylated DNA. All targeted DNA regions have been selected in that way that sequences containing multiple MSRE sites are flanked by methylation independent restriction enzyme sites. This strategy enables pre-amplification of the methylated DNA fraction before methylation analyses. Thus, the design and pre-amplification would enable methylation testing on serum, urine, stool etc. when DNA is limiting.

[0127] When testing DNA without pre-amplification upon digestion of 500 ng the methylated DNA fraction is amplified within 16 multiplex PCRs and detected via microarray hybridization. Within these 16 multiplex-PCR reactions 360 different human DNA products can be amplified. From these about 20 amplicons serve as digestion & amplification controls and are either derived from known differentially methylated human DNA regions, or from several regions without any sites of MSREs used in this system. The primer set (every reverse primer is biotinylated) used is targeting 347 different sites located in the 5'UTR of 323 gene regions.

[0128] After PCR amplicons are pooled and positives are detected using strepavidin-Cy3 via microarray hybridization. Although the melting temperature of CpG rich DNA is very high, primer and probe-design as well as hybridization conditions have been optimized, thus this assay enables unequivocal multiplexed methylation testing of human DNA samples. The assay has been designed such that 24 samples can be run in parallel using 384 well PCR plates.

[0129] Handling of many DNA samples in several plates in parallel can be easily performed enabling completion of analyses within 1-2 days.

[0130] The entire procedure provides the user to setup a specific PCR test and subsequent gel-based or hybridization-based testing of selected markers using single primer-pairs or primer-subsets as provided herein or identified by the inventive method from the 360 marker set.

Example 4

MSRE Digestion of DNA

[0131] MSRE digestion of DNA (about 500 ng) was performed at 37.degree. C. over night in a volume of 30 .mu.l in 1.times. Tango-restriction enzyme digestion buffer (MBI Fermentas) using 8 units of each MSREs Acil (New England Biolabs), Hin 6 I and Hpa II (both from MBI Fermentas). Digestions were stopped by heat inactivation (10 min, 75.degree. C.) and subjected to PCR amplification.

Example 5

PCR Amplification

[0132] An aliquot of 20 .mu.l MSRE digested DNA (or in case of preamplification of methylated DNA--see below--about 500 ng were added in a volume of 20 .mu.l) was added to 280 .mu.l of PCR-Premix (without primers). Premix consisted of all reagents obtaining a final concentration of 1.times. HotStarTaq Buffer (Qiagen); 160 .mu.M dNTPs, 5% DMSO and 0.6 U Hot Firepol Taq (Solis Biodyne) per 20 .mu.l reaction. Alternatively an equal amount of HotStarTaq (Qiagen) could be used. Eighteen (18) .mu.l of the Pre-Mix including digested DNA were aliquoted in 16 0.2 ml PCR tubes and to each PCR tube 2 .mu.l of each primer-premix 1-16 (containing 0.83 pmol/.mu.l of each primer) were added. PCR reactions were amplified using a thermal cycling profile of 15 min/95.degree. C. and 40 cycles of each 40 sec/95.degree. C., 40 sec/65.degree. C., 1 min 20 sec/72.degree. C. and a final elongation of 7 min/72.degree. C., then reactions were cooled. After amplification the 16 different mutiplex-PCR amplicons from each DNA sample were pooled. Successful amplification was controlled using 10 .mu.l of the pooled 16 different PCR reactions per sample. Positive amplification obtained a smear in the range of 100-300 bp on EtBr stained agarose gels; negative amplification controls must not show a smear in this range.

Example 6

Microarray Hybridization and Detection:

[0133] Microarrays with the probes of the 360 marker set are blocked for 30 min in 3M Urea containing 0.1% SDS, at room temperature submerged in a stirred choplin char. After blocking slides are washed in 0.1.times.SSC/0.2% SDS for 5 min, dipped into water and dried by centrifugation.

[0134] The PCR-amplicon-pool of each sample is mixed with an equal amount of 2.times. hybridization buffer (7.times.SSC, 0.6% SDS, 50% formamide), desaturated for 5 min at 95.degree. C. and held at 70.degree. C. until loading an aliqout of 100 .mu.l onto an array covered by a gasket slide (Agilent). Arrays are hybridized under maximum speed of rotation in an Agilent-hybridization oven for 16 h at 52.degree. C. After removal of gasket-slides microarray-slides are washed at room temperature in wash-solution I (1.times.SSC,0.2% SDS) for 5 min and wash solution II (0.1.times.SSC, 0.2% SDS) for 5 min, and a final wash by dipping the slides 3 times into wash solution III (0.1.times.SSC), the slides are dried by centrifugation.

[0135] For detection of hybridized biotinylated PCR amplicons, streptavidin-Cy3-conjugate (Caltag Laboratories) is diluted 1:400 in PBST-MP (1.times. PBS, 0.1% Tween 20; 1% skimmed dry milk powder [Sucofin; Germany]), pipetted onto microarrays covered with a coverslip and incubated 30 min at room temperature in the dark. Then coverslips are washed off from the slides using PBST (1.times. PBS, 0.1% Tween 20) and then slides are washed in fresh PBST for 5 min, rinsed with water and dried by centrifugation.

Example 7

DNA Preamplification for Methylation Profiling (Optional)

[0136] In many situations DNA amount is limited. Although the inventive methylation test is performing well with low amounts of DNA (see above), especially minimal invasive testing using cell free DNA from serum, stool, urine, and other body fluids is of diagnostic relevance.

[0137] Samples can be preamplified prior methylation testing as follows: DNA was digested with restriction enzyme FspI (and/or Csp6I, and/or MseI, and/or Tsp509I; or their isoschizomeres) and after (heat) inactivation of the restriction enzyme the fragments were circularized using T4 DNA ligase. Ligation-products were digested using a mixture of methylation sensitive restriction enzymes. Upon enzyme-inactivation the entire mixture was amplified using rolling circle amplification (RCA) by phi29-phage polymerase. The RCA-amplicons were then directly subjected to the multiplex-PCRs of the inventive methylation test without further need of digestion of the DNA prior amplification.

[0138] Alternatively the preamplified DNA which is enriched for methylated DNA regions can be directly subjected to flourescent-labelling and the labeled products can be hybridized onto the microarrays using the same conditions as described above for hybridization of PCR products. Then the streptavidin-Cy3 detection step has to be omitted and slides should be scanned directly upon stringency washes and drying the slides. Based on the experimental design for microarray analyses, either single labeled or dual-labeled hybridizations might be generated. From our experiences we successfully used the single label-design for class comparisons. Although the preamplification protocol enables analyses of spurious amounts of DNA, it is also suited for performing genomic methylation screens.

[0139] To elucidate methylation biomarkers for prediction of metastasis risk on a genomewide level we subjected 500 ng of DNA derived from primary tumor samples to amplification of the methylated DNA using the procedure outlined above. RCA-amplicons derived from metastasised and non-metastasised samples were labelled using the CGH Labeling Kit (Enzo, Farmingdale, N.Y.) and labelled products hybridized onto human 244 k CpG island arrays (Agilent, Waldbronn, Germany). All manipulations were according the instructions of the manufacturers.

Example 8

Data Analysis

[0140] Hybridizations performed on a chip with probes for the inventive 360 marker genes were scanned using a GenePix 4000A scanner (Molecular Devices, Ismaning, Germany) with a PMT setting to 700V/cm (equal for both wavelengths). Raw image data were extracted using GenePix 6.0 software (Molecular Devices, Ismaning, Germany).

[0141] Microarray data analyses were performed using BRB-ArrayTools developed by Dr. Richard Simon and BRB-ArrayTools Development Team. The software package BRB Array Tools (version 3.6; in the www at linus.nci.nih.gov/BRB-ArrayTools.html) was used according recommendations of authors and settings used for analyses are delineated in the results if appropriate. For every hybridization, background intensities were subtracted from foreground intensities for each spot. Global normalization was used to median center the log-ratios on each array in order to adjust for differences in spot/label intensitites.

[0142] P-values (p) used for feature selection for classification and prediction were based on the univariate significance levels (alpha). P-values (p) and mis-classification rate during cross validation (MCR) were given along the result data.

Example 9

Lung Cancer Test

[0143] DNA methylation analysis of 96 DNA samples derived from both normal and lung-tumour tissue of 48 patient samples and 8 DNA samples isolated from peripheral blood (PB) of healthy individuals were analysed for methylation deviations in the inventive set of 359 genes.

[0144] From this analysis DNA-methylation-biomarkers suitable for distinction of tumour and normal lung DNA as well as DNA-methylation-profiles from blood DNA of healthy controls were deduced. Diagnostic and prognostic markers subsets are suitable for diagnostic testing and presymptomatic screening for early detection of lung cancer were determined, in DNA derived from lung tissue, but also in DNA extracts from patients other than lung, like sputum, serum or plasma.

[0145] DNA Methylation testing results and data analyses of chip results as well as qPCR validation of a subset of markers derived from chip-based testing are provided.

[0146] DNA Samples analysed were from blood of 8 healthy individuals (PB), 19 tumours (AdenoCa, adenocarcinoma) and 19 normal lung tissue (N) of adenocarcinoma patients and 29 tumours (SqCCL, squamous cell carcinoma) and 29 normal lung tissue (N) of squamous cell carcinoma patients.

[0147] For DNA methylation testing 600 ng of DNA were digested and data derived from DNA-microarray hybridizations analysed using the BRB array tools statistical software package. Class comparison, and class prediction analysis were performed with respect to sample groups as listed above or for delineation of biomarkers for tumour samples both AdenoCa and SqCCL were treated as one tumour sample group (TU).

[0148] The design of the test enables methylation testing on DNA directly derived from the biological source. The test is also suitable for using a DNA preamplification upon MSRE digestion (as outlined above). Thus using the methylation specific preamplification of minute amounts of DNA samples, biomarker testing is feasible on small samples and limited amounts of DNA. Thus multiplexed PCR and methylation testing is easily performed on preamplified DNA obtained from these DNA samples. This strategy would improve also testing of serum, urine, stool, synovial fluid, sputum and other body fluids using the conceptual design of the methylation test.

[0149] The possibility of preamplification enables also differential methylation hybridization of the preamplified DNA itself. This option is warranted by the design of the test and the probes. Thus using the probes of the methylation test (or the array) for hybridization of labelled DNA after enrichment of either the methylated as well as the unmethylated DNA fractions of any DNA sample, can be used for methylation testing omitting the multiplex PCR.

[0150] In addition the biomarkers described herein could be applied for methylation testing using alternative approaches, e.g. methylation sensitive PCR and strategies which are sodium-bisulfite DNA deamination based and not based on MSRE digestion of DNA. These sets of methylation markers are suitable markers for disease-monitoring, -progression, -prediction, therapy-decision and -response.

Example 10

Biomarkers from Microarray-Testing of Patient Samples

Example 10a

Class Comparison: TU vs. Normal: p<0.005, Unpaired Samples; 2 Fold Change

[0151] These list of methylation markers were found significant (p<0.005) between TU and N using "unpaired" statistical testing of DNA methylation of 48 tumour samples versus 48 healthy lung tissue samples. Significant markers with 2 fold difference of signal intensities of both classes with p<0.005 are listed.

TABLE-US-00002 TABLE 2 Sorted by p-value of the univariate test. Permuta- Geom mean of Geom mean of Parametric tion p- intensities in intensities in Fold- Gene p-value FDR value class 1 class 2 change symbol 1 .sup. <1e-07 <1e-07 <1e-07 1411.8016 13554.578246 0.1041568 WT1 2 .sup. <1e-07 <1e-07 <1e-07 85.5069224 1125.7940428 0.0759525 DLX2 3 .sup. <1e-07 <1e-07 <1e-07 852.3850013 7392.282404 0.1153074 SALL3 4 .sup. <1e-07 <1e-07 <1e-07 235.4745892 592.5077157 0.3974203 TERT 5 .sup. <1e-07 <1e-07 <1e-07 274.9097126 833.6648468 0.3297605 PITX2 6 .sup. <1e-07 <1e-07 <1e-07 80.5286413 265.3042755 0.3035331 HOXA10 7 .sup. <1e-07 <1e-07 <1e-07 112.6645619 855.6410585 0.1316727 F2R 8 1e-07 4.5e-06 <1e-07 2002.2452679 266.6906343 7.507745 CPEB4 9 4e-07 1.46e-05.sup. <1e-07 718.311462 4609.4380991 0.1558349 NHLH2 10 4e-07 1.46e-05.sup. <1e-07 10347.8184959 3603.9811381 2.8712188 SMAD3 11 5e-07 1.65e-05.sup. <1e-07 2993.3054637 1117.4218527 2.6787604 ACTB 12 2.8e-06 8.49e-05.sup. <1e-07 296.6448711 3941.769913 0.0752568 HOXA1 13 3.6e-06 0.0001008 <1e-07 2792.0699393 17199.6551909 0.1623329 BOLL 14 5.9e-06 0.0001342 <1e-07 8664.2840567 2178.4607085 3.9772506 APC 15 1.21e-05 0.0002591 <1e-07 96.7848387 472.6945117 0.2047513 MT1G 16 1.36e-05 0.000275 <1e-07 653.0579403 2188.6201533 0.298388 PENK 17 1.97e-05 0.0003774 <1e-07 1710.9865406 4044.9737351 0.4229908 SPARC 18 3.16e-05 0.0005751 <1e-07 1639.128227 811.4430136 2.0200164 DNAJA4 19 3.85e-05 0.0006673 <1e-07 114.7065029 292.8694482 0.3916643 RASSF1 20 4.28e-05 0.0007081 <1e-07 564.6571983 189.2105463 2.9842797 HLA-G 21 4.98e-05 0.0007881 1e-04 1339.8175413 446.1370253 3.0031525 ERCC1 22 6e-05 0.00091 1e-04 395.6248705 1158.1502714 0.3416006 ONECUT2 23 6.58e-05 0.000958 <1e-07 2517.3232246 1024.0897145 2.4581081 APC 24 8.45e-05 0.0011392 <1e-07 232.2537844 701.7843246 0.3309475 ABCB1 25 0.0002382 0.0029898 1e-04 3027.5067641 1165.5391698 2.5975161 ZNF573 26 0.0003469 0.003946 <1e-07 360.9888133 148.6109072 2.4290869 KCNJ15 27 0.0003582 0.0039511 3e-04 1818.1186026 4147.2970277 0.4383864 ZDHHC11 28 0.0012332 0.01192 0.0013 238.5488592 512.9101159 0.465089 SFRP2 29 0.0019349 0.0176076 0.0015 310.5591882 1215.8855725 0.2554181 GDNF 30 0.002818 0.0227945 0.0022 4930.1368809 2261.9370298 2.1796084 PTTG1 31 0.0038228 0.0267596 0.0045 2402.9850212 974.5347994 2.4657765 SERPINI1 32 0.0039256 0.0269326 0.0031 208.6539745 417.3186041 0.4999872 TNFRSF10C The 32 genes are significant at the nominal 0.005 level of the univariate test with the fold change 2 Class 1: N; Class 2: T.

Example 10b

Class Prediction: TU vs Normal: p<0.005, Unpaired Samples; 2 Fold Change

[0152] Class prediction using different statistical methods for elucidating marker panels enabling best correct classification of TU and N (p<0.005).

TABLE-US-00003 Diagonal Compound Linear Support Mean Number Covariate Discriminant 3-Nearest Nearest Vector of genes in Predictor Analysis 1-Nearest Neighbors Centroid Machines classifier Correct? Correct? Neighbor Correct? Correct? Correct? Mean percent 100 100 98 98 98 98 of correct classification:

TABLE-US-00004 TABLE 3 Composition of classifier: Sorted by t-value Geometric mean of Parametric % CV intensities p-value t-value support (class N/class T) Gene symbol 1 <1e-07 -10.859 100 0.1041568 WT1 2 <1e-07 -7.903 100 0.3297605 PITX2 3 <1e-07 -7.314 100 0.1153074 SALL3 4 <1e-07 -7.063 100 0.1316727 F2R 5 <1e-07 -7.028 100 0.0759525 DLX2 6 <1e-07 -6.592 100 0.3974203 TERT 7 <1e-07 -6.539 100 0.3035331 HOXA10 8 <1e-07 -6.495 100 0.7772068 MSH4 9 <1e-07 -6.357 100 0.1558349 NHLH2 10 4e-07 -5.915 100 0.5405671 GNA15 11 4e-07 -5.908 100 0.298388 PENK 12 4.2e-06 -5.206 100 0.3916643 RASSF1 13 5e-06 -5.155 100 0.1623329 BOLL 14 1.05e-05 -4.935 100 0.0752568 HOXA1 15 3.1e-05 -4.61 100 0.3416006 ONECUT2 16 4.26e-05 -4.514 100 0.3309475 ABCB1 17 4.59e-05 -4.491 100 0.4229908 SPARC 18 4.96e-05 -4.467 100 0.2047513 MT1G 19 8.53e-05 -4.301 100 0.6381881 HSPA2 20 0.0002478 -3.966 100 0.465089 SFRP2 21 0.0002786 -3.929 100 0.7532617 PYCARD 22 0.0003286 -3.876 100 0.6491186 GAD1 23 0.0004296 -3.789 100 0.8137828 C5orf4 24 0.0004695 -3.76 100 0.7676414 C5AR1 25 0.0004699 -3.76 100 0.2554181 GDNF 26 0.0006369 -3.66 100 0.4383864 ZDHHC11 27 0.0008023 -3.584 100 0.8171479 SERPINE1 28 0.0009028 -3.544 100 0.6392075 NKX2-1 29 0.0009179 -3.539 100 0.5993327 PITX2 30 0.0010255 -3.501 100 0.7691876 C5AR1 31 0.0011267 -3.47 100 0.5118859 ZNF256 32 0.0014869 -3.375 100 0.5593175 FAM43A 33 0.0015714 -3.356 100 0.6862518 SFRP2 34 0.0019233 -3.287 100 0.3698669 MT3 35 0.0019731 -3.278 100 0.7715219 SERPINE1 36 0.0019838 -3.276 100 0.8088555 CLIC4 37 0.0023911 -3.21 100 0.4999872 TNFRSF10C 38 0.0027742 -3.158 92 0.8776257 GABRA2 39 0.0028024 -3.154 92 0.7069999 MTHFR 40 0.0030868 -3.12 81 0.6837301 ESR2 41 0.0033263 -3.093 79 0.6327604 NEUROG1 42 0.0036825 -3.057 67 0.6444277 PITX2 43 0.0044243 -2.99 44 0.732542 PLAGL1 44 0.004896 -2.953 40 0.4992372 TMEFF2 45 0.0037996 3.046 65 2.1796084 PTTG1 46 0.0034628 3.079 73 1.1394289 CADM1 47 0.0024932 3.196 100 1.0870547 S100A8 48 0.0024284 3.205 100 1.3497772 EFS 49 0.0020087 3.271 100 1.2801593 JUB 50 0.0017007 3.329 100 1.1823596 ITGA4 51 0.0015061 3.371 100 1.5959594 MAGEB2 52 0.0013429 3.41 100 1.294098 ERBB2 53 0.0011103 3.475 100 1.3485708 SRGN 54 0.0007894 3.589 100 1.3193821 GNAS 55 0.0007437 3.609 100 1.9621539 TJP2 56 0.000457 3.769 100 2.4290869 KCNJ15 57 0.0004291 3.789 100 1.3004513 SLC25A31 58 0.0001587 4.107 100 2.5975161 ZNF573 59 0.0001331 4.163 100 1.4996674 TNFRSF25 60 9.26e-05 4.276 100 2.4581081 APC 61 4.88e-05 4.472 100 1.9612086 KCNQ1 62 3.62e-05 4.564 100 1.4971047 LAMC2 63 1.82e-05 4.77 100 1.5467277 SPHK1 64 1.68e-05 4.794 100 2.0200164 DNAJA4 65 1.45e-05 4.838 100 3.9772506 APC 66 9e-06 4.979 100 1.388284 MBD2 67 8.6e-06 4.994 100 3.0031525 ERCC1 68 4.5e-06 5.182 100 2.9842797 HLA-G 69 4.2e-06 5.202 100 1.7516486 CXADR 70 1.4e-06 5.521 100 1.9112579 TP53 71 1.1e-06 5.605 100 2.6787604 ACTB 72 9e-07 5.647 100 1.9365988 KL 73 6e-07 5.755 100 2.8712188 SMAD3 74 2e-07 6.05 100 1.4368727 HIST1H2AG 75 2e-07 6.115 100 7.507745 CPEB4

Example 10c

4 Greedy Pairs >>92% Correct Using SVM (Support Vector Machine)

[0153] Using "4 pairs of methylation markers" derived from greedy pairs class prediction with supportive vector machines enables 92% correct classsification of TU and N.

Performance of Classifiers During Cross-Validation.

TABLE-US-00005 [0154] Diagonal Compound Linear Support Covariate Discriminant 3-Nearest Nearest Vector Predictor Analysis 1-Nearest Neighbors Centroid Machines Correct? Correct? Neighbor Correct? Correct? Correct? Mean percent 90 90 90 89 91 92 of correct classification:

Performance of the Support Vector Machine Classifier:

TABLE-US-00006 [0155] Class Sensitivity Specificity PPV NPV N 0.917 0.917 0.917 0.917 T 0.917 0.917 0.917 0.917

TABLE-US-00007 TABLE 4 Composition of classifier: Sorted by t-value (Sorted by gene pairs) Geom mean of Geom mean of Parametric % CV intensities in intensities in Fold- Gene p-value t-value support class 1 class 2 change symbol 1 <1e-07 -9.452 100 1411.8016 13554.578246 0.1041568 WT1 2 <1e-07 -7.222 100 85.5069224 1125.7940428 0.0759525 DLX2 3 <1e-07 -6.648 99 852.3850013 7392.282404 0.1153074 SALL3 4 <1e-07 -6.48 70 235.4745892 592.5077157 0.3974203 TERT 5 0.0017994 3.213 27 437.7037557 291.867223 1.4996674 TNFRSF25 6 5e-07 5.391 100 2993.3054637 1117.4218527 2.6787604 ACTB 7 4e-07 5.474 76 10347.8184959 3603.9811381 2.8712188 SMAD3 8 <1e-07 5.832 98 2002.2452679 266.6906343 7.507745 CPEB4 Class 1: N; Class 2: T.

Example 10d

(BRB v3.8) 5 Greedy Pairs

[0156] Using "5 pairs of methylation markers" derived from greedy pairs class prediction with supportive vector machines enables 95% correct classsification of TU and N.

Performance of Classifiers During Cross-Validation:

TABLE-US-00008 [0157] Diagonal Bayesian Compound Linear Support Compound Mean Number Covariate Discriminant 3-Nearest Nearest Vector Covariate of genes in Predictor Analysis 1-Nearest Neighbors Centroid Machines Predictor classifier Correct? Correct? Neighbor Correct? Correct? Correct? Correct? Mean percent 92 94 90 94 92 95 95 of correct classification: Note: NA denotes the sample is unclassified. These samples are excluded in the compuation of the mean percent of correct classification

Performance of the Support Vecor MAchine Classifier:

TABLE-US-00009 [0158] Class Sensitivity Specificity PPV NPV N 0.958 0.938 0.939 0.957 T 0.938 0.958 0.957 0.939

TABLE-US-00010 TABLE 5 Composition by classifier: Sorted by t-value (Sorted by gene pairs) Geom mean of Geom mean of Parametric % CV intensities in intensities in Fold- Gene p-value t-value support class 1 class 2 change symbol 1 <1e-07 -9.531 100 1378.5556347 13613.2679786 0.1012656 WT1 2 <1e-07 -7.419 100 78.691453 1122.0211285 0.0701337 DLX2 3 <1e-07 -6.702 100 832.1044249 7415.7421008 0.1122078 SALL3 4 <1e-07 -6.625 100 223.339058 595.0731922 0.3753136 TERT 5 <1e-07 -6.586 100 267.2568518 837.2745062 0.3191986 PITX2 6 0.0029082 3.057 35 427.3964613 286.9546694 1.4894215 TNFRSF25 7 1.26e-05.sup. 4.612 70 7297.8279144 3875.9637585 1.8828421 KL 8 9e-07 5.255 99 2922.8174216 1122.2601272 2.6044028 ACTB 9 9e-07 5.266 98 10104.1419624 3617.8969167 2.792822 SMAD3 10 2e-07 5.603 100 1911.6531674 265.654275 7.1960188 CPEB4 Class 1: N; Class 2: T.

Example 10e

Recursive Feature Elimination Method

[0159] Using "16 methylation markers" derived from the Recursive Feature Elimination method for class prediction with Diagonal Linear Discriminant Analysis enables 100% correct classification of TU and N.

Performance of Classifiers During Cross-Validation.

TABLE-US-00011 [0160] Diagonal Compound Linear Support Mean Number Covariate Discriminant 3-Nearest Nearest Vector of genes in Predictor Analysis 1-Nearest Neighbors Centroid Machines classifier Correct? Correct? Neighbor Correct? Correct? Correct? Mean percent 98 100 96 96 94 96 of correct classification:

TABLE-US-00012 TABLE 6 Composition of classifier: Sorted by t-value Geometric mean of Parametric % CV intensities p-value t-value support (class N/class T) Gene symbol 1 <1e-07 -10.859 100 0.1041568 WT1 2 <1e-07 -7.903 100 0.3297605 PITX2 3 <1e-07 -7.314 98 0.1153074 SALL3 4 <1e-07 -7.028 81 0.0759525 DLX2 5 <1e-07 -6.592 98 0.3974203 TERT 6 <1e-07 -6.539 98 0.3035331 HOXA10 7 4.2e-06 -5.206 98 0.3916643 RASSF1 8 4.59e-05 -4.491 94 0.4229908 SPARC 9 0.0329896 -2.197 88 0.5237754 IRAK2 10 0.0496307 -2.015 98 0.6640548 ZNF711 11 1.68e-05 4.794 79 2.0200164 DNAJA4 12 4.5e-06 5.182 79 2.9842797 HLA-G 13 4.2e-06 5.202 79 1.7516486 CXADR 14 1.4e-06 5.521 75 1.9112579 TP53 15 1.1e-06 5.605 100 2.6787604 ACTB 16 2e-07 6.115 100 7.507745 CPEB4

Example 10f

(BRB v3.8) Recursive Feature Elimination Method

[0161] Due to some differences in data importing/normalisation repeated collation of data for statistics (using BRB v. 3.8) a genelist with minor differences (compared to example 12e) has been calculated form data, and is as given below:

Performance of Classifiers During Cross-Validation.

TABLE-US-00013 [0162] Diagonal Compound Linear Support Mean Number Covariate Discriminant 3-Nearest Nearest Vector of genes in Predictor Analysis 1-Nearest Neighbors Centroid Machines classifier Correct? Correct? Neighbor Correct? Correct? Correct? Mean percent 96 100 96 96 96 96 of correct classification:

TABLE-US-00014 TABLE 7 Composition of classifier: Sorted by t-value Geometric mean of Parametric % CV intensities p-value t-value support (class N/class TU) Gene symbol 1 <1e-07 -10.777 100 0.1012656 WT1 2 <1e-07 -8.046 88 0.3191986 PITX2 3 <1e-07 -7.336 98 0.1122078 SALL3 4 <1e-07 -7.232 85 0.1264427 F2R 5 <1e-07 -6.712 100 0.3753136 TERT 6 <1e-07 -6.524 98 0.2930706 HOXA10 7 1.6e-06 -5.49 98 0.3695951 RASSF1 8 3.87e-05 -4.543 83 0.4112493 SPARC 9 0.0313421 -2.219 88 0.5143877 IRAK2 10 0.0366617 -2.151 98 0.6452171 ZNF711 11 0.3333009 0.978 58 1.1102014 DRD2 12 4.91e-05 4.471 77 1.9749991 DNAJA4 13 2.25e-05 4.707 75 1.7030259 CXADR 14 7.4e-06 5.036 88 1.8582045 TP53 15 2.1e-06 5.402 100 2.6044028 ACTB 16 5e-07 5.815 100 7.1960188 CPEB4

Example 10g

Recursive Geneset for "PB-N-TU" Distinction Using CLASS Prediction

[0163] To distinguish PB, N, and TU is of interest when minimal invasive testing for lung cancer has to be performed using serum- or plasma from peripheral blood. The markers distinguishing PB, N and TU will be best suited therefore. Using "16 methylation markers" derived from the Recursive Feature Elimination method for class prediction with Diagonal Linear Discriminant Analysis enables 91% correct classification.

Performance of Classifiers During Cross-Validation:

TABLE-US-00015 [0164] Diagonal Linear Discriminant 3-Nearest Nearest Analysis 1-Nearest Neighbors Centroid Correct? Neighbor Correct? Correct? Mean percent of 91 89 87 88 correct classification:

Performance of the Diagonal Linear Discriminant Analysis Classifier:

TABLE-US-00016 [0165] Class Sensitivity Specificity PPV NPV N 0.875 0.946 0.933 0.898 PB 1 0.948 0.615 1 T 0.938 0.982 0.978 0.948

Performance of the 1-Nearest Neighbor Classifier:

TABLE-US-00017 [0166] Class Sensitivity Specificity PPV NPV N 0.979 0.821 0.825 0.979 PB 0.75 0.99 0.857 0.979 T 0.833 1 1 0.875

Performance of the 3-Nearest Neighbors Classifier:

TABLE-US-00018 [0167] Class Sensitivity Specificity PPV NPV N 1 0.75 0.774 1 PB 0.125 1 1 0.932 T 0.854 1 1 0.889

Performance of the Nearest Centroid Classifier:

TABLE-US-00019 [0168] Class Sensitivity Specificity PPV NPV N 0.812 0.929 0.907 0.852 PB 1 0.917 0.5 1 T 0.917 0.982 0.978 0.932

TABLE-US-00020 TABLE 8 Composition of classifier: Sorted by p-value Geom mean of Geom mean of Geom mean of Parametric % CV intensities in intensities in intensities in Gene p-value t-value support class 1 class 2 class 3 symbol 1 <1e-07 65.961 100 1411.8016 335.9542052 13554.578246 WT1 2 <1e-07 34.742 100 2993.3054637 240.5599546 1117.4218527 ACTB 3 <1e-07 30.862 100 85.5069224 70.3843498 1125.7940428 DLX2 4 <1e-07 30.048 100 274.9097126 128.8159291 833.6648468 PITX2 5 <1e-07 28.153 100 852.3850013 349.2428569 7392.282404 SALL3 6 <1e-07 23.333 100 80.5286413 62.0661721 265.3042755 HOXA10 7 <1e-07 21.159 100 235.4745892 296.8149796 592.5077157 TERT 8 2e-07 17.8 100 2002.2452679 1697.5965438 266.6906343 CPEB4 9 4.3e-06 13.991 100 564.6571983 1254.1750649 189.2105463 HLA-G 10 1.54e-05.sup. 12.388 100 1710.9865406 1310.5286603 4044.9737351 SPARC 11 1.9e-05 12.132 100 114.7065029 81.1382549 292.8694482 RASSF1 12 6.55e-05.sup. 10.614 100 1639.128227 1576.0887022 811.4430136 DNAJA4 13 0.0008203 7.63 100 1484.6917542 1429.9219493 847.5968076 CXADR 14 0.0008501 7.589 100 11761.052468 9062.1655722 6153.5665863 TP53 15 0.041843 3.276 100 105.5844903 94.1143599 201.5835284 IRAK2 16 0.3946752 0.938 100 483.3048928 567.8776158 727.8087385 ZNF711 Class 1: N; Class 2: PB; Class 3: T.

Example 10h

Class Prediction "Differentiation".fwdarw.Poor--Moderate--Well

[0169] Distinguishing the grade of differentiation of the tumours could be also achieved by DNA methylation marker testing. Although the correct classification is only about 60% in this example, the lung tumour groups "AdenoCa" and "SqCCL" can be split and used separately for determining the grade of tumour-differentiation for better performance.

Performance of Classifiers During Cross-Validation.

TABLE-US-00021 [0170] Diagonal Linearn Discriminant 3-Nearest Nearest Analysis 1-Nearest Neighbors Centroid Correct? Neighbor Correct? Correct? Mean percent 50 52 57 62 of correct classification:

TABLE-US-00022 TABLE 9 Composition of classifier: Sorted by p-value Geom mean of Geom mean of Geom mean of Parametric % CV intensities in intensities in intensities in Gene p-value t-value support class 1 class 2 class 3 symbol 1 0.0002337 10.127 100 2426.5840626 190.6171197 840.042225 F2R 2 0.002636 6.796 100 409.0809522 178.099004 3103.6338503 ZNF256 3 0.0034931 6.432 100 67.1145733 81.4305823 63.5786575 CDH13 4 0.0044626 6.118 100 30915.9294466 15055.465308 6829.1471271 SERPINB5 5 0.0082321 5.35 100 289.011498 400.2767665 163.1721958 KRT14 6 0.0092929 5.2 100 2890.2702155 418.2345934 211.3575002 DLX2 7 0.0111512 4.977 100 68.3488191 83.3593382 60.6607364 AREG 8 0.0286999 3.846 98 62.1904027 62.94364 74.3029102 THRB 9 0.0326517 3.696 92 64.7904336 80.1596633 60.6607364 HSD17B4 10 0.0414877 3.418 62 5631.0373836 2622.6315852 3310.1373187 SPARC 11 0.0449927 3.325 79 894.5655128 1191.0908574 510.2671098 HECW2 12 0.0480858 3.249 40 441.1103703 1018.9640546 852.4793505 COL21A1 Class 1: moderate; Class 2: poor; Class 3: well.

Example 10i

BinTreePred "Differentiation".fwdarw.AdenoCa, SqCCL, N, PB

[0171] Using Binary Tree prediction (applicable for elucidation of markers for more than 2 classes) provides several sets of predictors which enable classification of PB, AdenoCa, SqCCL, N. These marker sets could be used alternatively for classification.

Optimal Binary Tree:

[0172] Cross-validation error rates for a fixed tree structure shown below

TABLE-US-00023 Mis-classific- Node Group 1 Classes Group 2 Classes ation rate (%) 1 Adeno, N, SqCCL PB 0.0 2 AdenoCa, SqCCL N 9.4 3 AdenoCa SqCCL 31.2 ##STR00001##

Results of Classification, Node 1:

TABLE-US-00024 [0173] TABLE 10 Composition of classifier (23 genes): Sorted by p-value Geom mean of Geom mean of Parametric % CV intensities in intensities in Gene p-value t-value support group 1 group 2 symbol 1 <1e-07 11.494 100 5370.6044342 241.377309 KL 2 <1e-07 13.624 100 15595.1182874 226.4099812 HIST1H2AG 3 <1e-07 14.042 100 15562.4306923 62.0661607 TJP2 4 <1e-07 20.793 100 36238.4478078 169.7749739 SRGN 5 <1e-07 8.845 92 2847.6405879 176.5970582 CDX1 6 <1e-07 7.452 100 357.4232278 64.4047416 TNFRSF25 7 <1e-07 6.909 97 4344.5133099 90.5259025 APC 8 <1e-07 6.607 100 38027.3831138 10046.5061814 HIC1 9 <1e-07 6.428 100 1605.6039019 115.3436683 APC 10 2e-07 5.611 100 439.58106 107.9138518 GNA15 11 2e-07 5.53 100 1828.8750958 240.5597144 ACTB 12 2.47e-05.sup. 4.42 100 4374.5147937 335.954606 WT1 13 3.53e-05.sup. -4.327 100 693.9070151 2419.282873 KRT17 14 4.73e-05.sup. -4.251 100 3086.6035554 8432.6551975 AIM1L 15 5.58e-05.sup. -4.207 100 11780.3636838 25260.4242674 DPH1 16 0.0001755 3.895 96 2120.616338 688.5899191 PITX2 17 0.0005056 3.593 100 478.7300449 128.8159563 PITX2 18 0.0012022 -3.332 100 167.4354555 461.2140013 KIF5B 19 0.0015431 -3.254 100 865.090709 2041.1567322 BMP2K 20 0.0020491 -3.164 100 10857.4258468 26743.6730071 GBP2 21 0.0023603 3.119 100 1819.6185255 218.3422479 NHLH2 22 0.0040506 2.941 96 614.495327 62.0661607 GDNF 23 0.0043281 2.918 98 6929.8366248 784.5416613 BOLL

Results of Classification, Node 2:

TABLE-US-00025 [0174] TABLE 11 Composition of classifier (32 genes): Sorted by p-value Geom mean of Geom mean of Parametric % CV intensities in intensities in Gene p-value t-value support group 1 group 2 symbol 1 .sup. <1e-07 9.452 92 13554.5792299 1411.801824 WT1 2 .sup. <1e-07 7.222 92 1125.7939487 85.5069135 DLX2 3 .sup. <1e-07 6.648 69 7392.2771156 852.3852836 SALL3 4 .sup. <1e-07 6.48 92 592.5077475 235.4746794 TERT 5 .sup. <1e-07 6.445 92 833.6646395 274.909652 PITX2 6 .sup. <1e-07 6.123 92 265.3043233 80.5286481 HOXA10 7 .sup. <1e-07 6.019 92 855.6411657 112.6645794 F2R 8 .sup. <1e-07 -5.832 92 266.6907851 2002.2457379 CPEB4 9 4e-07 5.482 92 4609.4395265 718.3111003 NHLH2 10 4e-07 -5.474 92 3603.9808376 10347.8149677 SMAD3 11 5e-07 -5.391 92 1117.4212918 2993.3062317 ACTB 12 2.8e-06 4.984 92 3941.7717994 296.6448908 HOXA1 13 3.6e-06 4.922 92 17199.6559171 2792.0695552 BOLL 14 5.9e-06 -4.802 92 2178.4609569 8664.280092 APC 15 1.21e-05 4.622 92 472.6943985 96.784825 MT1G 16 1.36e-05 4.593 69 2188.6204084 653.0580827 PENK 17 1.97e-05 4.497 92 4044.9730493 1710.9865557 SPARC 18 3.16e-05 -4.373 92 811.4434055 1639.128128 DNAJA4 19 3.85e-05 4.321 92 292.869462 114.7064501 RASSF1 20 4.28e-05 -4.293 92 189.210499 564.6573579 HLA-G 21 4.98e-05 -4.253 92 446.1371701 1339.8173509 ERCC1 22 6e-05 4.203 92 1158.1503785 395.6249449 ONECUT2 23 6.58e-05 -4.178 92 1024.089614 2517.3225611 APC 24 8.45e-05 4.11 92 701.7840426 232.2538242 ABCB1 25 0.0002382 -3.821 92 1165.5392514 3027.5052576 ZNF573 26 0.0003469 -3.713 92 148.6108699 360.9887854 KCNJ15 27 0.0003582 3.704 92 4147.2987214 1818.1188972 ZDHHC11 28 0.0012332 3.332 46 512.9098469 238.5488699 SFRP2 29 0.0019349 3.19 92 1215.8855046 310.5592635 GDNF 30 0.002818 -3.068 92 2261.9371454 4930.1357863 PTTG1 31 0.0038228 -2.966 92 974.5345902 2402.9849125 SERPINI1 32 0.0039256 2.957 90 417.3184202 208.6541481 TNFRSF10C

Results of Classification, Node 3:

TABLE-US-00026 [0175] TABLE 12 Composition of classifier (2 genes): Sorted by p-value Geom mean of Geom mean of Parametric % CV intensities in intensities in Gene p-value t-value support group 1 group 2 symbol 1 0.000302 3.91 40 584.5327307 158.116767 HOXA10 2 0.0038089 3.048 46 180.3474561 67.1158875 NEUROD1

Example 11

qPCR Validation of Biomarkers

[0176] Quantitative PCR with primers for markers elucidated by microarray analysis were run on MSRE-digested DNAs from the same sample groups as analyzed on microarrays. Marker sets for SYBRGreen qPCR were from Example 10f and Example 10d.

TABLE-US-00027 TABLE 13 Markers used for SYBRGreen-qPCR: Unique id Gene symbol Ahy_61_chr11: 32411664-32412266 +_401-464 WT1 349_hy_35-PitxA_chr4: 111777754-111778067 PITX2 Ahy_156_chr18: 74841510-74841935 +_336-389 SALL3 Ahy_265_chr5: 76046889-76047178 +_134-197 F2R Ahy_252_chr5: 1348529-1348893 +_138-187 TERT Ahy_289_chr7: 27180142-27180796 +_181-238 HOXA10 Ahy_233_chr3: 50352877-50353278 +_108-157 RASSF1 Ahy_257_chr5: 151046476-151047183 +_57-106 SPARC Ahy_212_chr3: 10181572-10181986 +_249-298 IRAK2 Ahy_332_chrX: 84385510-84385717 +_42-106 ZNF711 Ahy_51_chr11: 112851438-112851650 +_57-107 DRD2 Ahy_109_chr15: 76343347-76343876 +_373-428 DNAJA4 Ahy_202_chr21: 17806218-17806561 +_104-167 CXADR Ahy_143_chr17: 7532353-7532949 +_415-476 TP53 335_hy_4-Aktin_VL_chr7: 5538506-5538805 ACTB Ahy_261_chr5: 173247753-173248208 +_350-404 CPEB4 Ahy_181_chr2: 172672873-172673656 +_177-227 DLX2 Ahy_30_chr1: 6448693-6448938 +_57-107 TNFRSF25 Ahy_83_chr13: 32489371-32489688 +_181-245 KL Ahy_107_chr15: 65146236-65146654 +_305-366 SMAD3

[0177] Negative amplification (no Cp-value generated upon 45 cycles of PCR amplification with SYBR green) were set to Cp=45; all qPCR-Cp-values were subtracted from 45.01 to obtain transformed data directly comparable to microarray data,--thus the higher the value the more product was generated (resembles a lower Cp-value. Statistical testing of the transformed data was performed in the same manner as the microarray data using BRB-AT software.

[0178] Class comparison and different strategies/methods for class prediction using the qPCR enables correct classification of different sample groups. Although qPCR conditions were not optimized but run under our standard conditions, successful classification of groups with markers deduced from microarrayanalysis confirms reliability of methylation markers.

TABLE-US-00028 TABLE 14 9 markers from Table 13 showed significant class difference fold changes mean of mean of log log intensities intensities Unique id Gene symbol for N for T FoldDiff Ahy_30_chr1: TNFRSF25 7.40354 8.5125 0.46 6448693-6448938 +_57-107 Ahy_156_chr18: SALL3 1.59063 7.04229 0.02 74841510-74841935 +_336-389 Ahy_233_chr3: RASSF1 5.80167 7.95708 0.22 50352877-50353278 +_108-157 Ahy_252_chr5: TERT 0.01 1.1725 0.45 1348529-1348893 +_138-187 Ahy_257_chr5: SPARC 11.76 14.10521 0.20 151046476-151047183 +_57-106 Ahy_265_chr5: F2R 0.70917 4.87917 0.06 76046889-76047178 +_134-197 Ahy_289_chr7: HOXA10 1.67708 3.88125 0.22 27180142-27180796 +_181-238 Ahy_332_chrX: ZNF711 4.635 6.48875 0.28 84385510-84385717 +_42-106 349_hy_35- PITX2 5.48854 8.61813 0.11 PitxA_chr4: 111777754-111778067

Example 11a

CLASS Prediction: TU vs Normal: p<0.01>>SVM 100%, Paired Samples

Performance of Classifiers During Cross-Validation

Mean Percentage of Correction Classification:

TABLE-US-00029 [0179] Diagonal Compound Linear Support Covariate Discriminant 3-Nearest Nearest Vector Predictor Analysis 1-Nearest Neighbors Centroid Machines Correct? Correct? Neighbor Correct? Correct? Correct? Mean percent 96 98 94 94 94 100 of correct classification: n = 48

TABLE-US-00030 TABLE 15 Composition of classifier: Sorted by t-value Geometric mean Parametric % CV of intensities p-value t-value support (class N/class T) Gene symbol 1 1e-07 -6.184 100 0.0228499 SALL3 2 2e-07 -6.162 100 0.1142619 PITX2 3 4e-07 -5.879 100 0.1967986 SPARC 4 3.5e-06 -5.254 100 0.0555527 F2R 5 8.08e-05 -4.318 100 0.4467377 TERT 6 0.0009183 -3.538 100 0.2244683 RASSF1 7 0.0011335 -3.468 100 0.21701 HOXA10 8 0.0045818 2.978 100 1.7787126 CXADR 9 0.0012761 3.427 100 3.3134481 KL

Example 11b

CLASS Prediction: TU vs Normal: p<0.01

Performance of the Support Vector Machine Classifier:

TABLE-US-00031 [0180] Class Sensitivity Specificity PPV NPV N 0.917 0.875 0.88 0.913 T 0.875 0.917 0.913 0.88

Performance of the Bayesian Compound Covariate Classifier:

TABLE-US-00032 [0181] Class Sensitivity Specificity PPV NPV N 0.792 0.604 0.667 0.744 T 0.604 0.792 0.744 0.667

TABLE-US-00033 TABLE 16 Composition of classifier: Sorted by t-value Geom mean of Geom mean of Parametric % CV intensities in intensities in Fold- Gene p-value t-value support class 1 class 2 change Unique id symbol 1 <1e-07 -6.713 100 3.011798 131.8077746 0.0228499 Ahy_156_chr18:74841510- SALL3 74841935 +_336-389 2 <1e-07 -6.491 100 3468.2688243 17623.4446406 0.1967986 Ahy_257_chr5:151046476- SPARC 151047183 +_57-106 3 <1e-07 -6.208 100 44.8968301 392.9290497 0.1142619 349_hy_35-PitxA_chr4: PITX2 111777754-111778067 4 1e-06 -5.248 100 1.6348595 29.429 0.0555527 Ahy_265_chr5:76046889- F2R 76047178 +_134-197 5 3.91e-05.sup. -4.318 100 1.0069555 2.2540195 0.4467377 Ahy_252_chr5:1348529- TERT 1348893 +_138-187 6 0.0003748 -3.691 100 55.7796365 248.4967761 0.2244683 Ahy_233_chr3:50352877- RASSF1 50353278 +_108-157 7 0.0009309 -3.419 100 3.1978081 14.7357642 0.21701 Ahy_289_chr7:27180142- HOXA10 27180796 +_181-238 8 0.0009772 3.404 100 3114.5146028 939.9618007 3.3134481 Ahy_83_chr13:32489371- KL 32489688 +_181-245 Class 1: N; Class 2: T.

TABLE-US-00034 TABLE 16b Prediction rule from the linear predictors The prediction rule is defined by the inner sum of the weights (wi) and expression (xi) of significant genes. The expression is the log ratios for dual-channel data and log intensities for single-channel data. A sample is classified to the class N if the sum is greater than the threshold; that is, .SIGMA.iwi xi > threshold. The threshold for the Compound Covariate predictor is -172.255 The threshold for the Diagonal Linear Discriminant predictor is -15.376 The threshold for the Support Vector Machine predictor is 0.838 Diagonal Table. Compound Linear Support Gene Covariate Discriminant Vector Weights Genes Predictor Analysis Machines 1 Ahy_83_chr13: 3.4041 0.2794 1.2796 32489371-32489688 +_181-245 2 Ahy_156_chr18: -6.7126 -0.3444 -0.2136 74841510-74841935 +_336-389 3 Ahy_233_chr3: -3.6907 -0.2633 0.0512 50352877-50353278 +_108-157 4 Ahy_252_chr5: -4.3175 -0.6681 -1.1674 1348529-1348893 +_138-187 5 Ahy_257_chr5: -6.4911 -0.7486 -0.7093 151046476-151047183 +_57-106 6 Ahy_265_chr5: -5.2477 -0.2752 -0.0135 76046889-76047178 +_134-197 7 Ahy_289_chr7: -3.419 -0.221 -0.3187 27180142-27180796 +_181-238 8 349_hy_35- -6.2083 -0.5132 -0.353 PitxA_chr4: 111777754-111778067

Example 11c

Recursive Feature Extraction (n=10) Prediction: TU vs Normal.fwdarw.98% Correct, Paired Samples

TABLE-US-00035 [0182] TABLE 17 Composition of classifiers: Sorted by t-value Geometric mean Parametric % CV of intensities p-value t-value support (class N/class T) Gene symbol 1 1e-07 -6.184 100 0.0228499 SALL3 2 2e-07 -6.162 100 0.1142619 PITX2 3 4e-07 -5.879 100 0.1967986 SPARC 4 3.5e-06 -5.254 100 0.0555527 F2R 5 0.0011335 -3.468 100 0.21701 HOXA10 6 0.0188086 -2.434 92 0.5671786 DRD2 7 0.3539709 0.936 94 1.2886257 ACTB 8 0.1083921 1.637 100 1.8305684 DNAJA4 9 0.0045818 2.978 98 1.7787126 CXADR 10 0.0012761 3.427 100 3.3134481 KL

Example 11d

Greedy Pairs (6) Prediction: TU vs Normal: 88% SVM, UNpaired Samples

Performance of the Support Vector Machine Classifier:

TABLE-US-00036 [0183] Class Sensitivity Specificity PPV NPV N 0.896 0.854 0.86 0.891 T 0.854 0.896 0.891 0.86

Performance of the Bayesian Compound Covariate Classifier:

TABLE-US-00037 [0184] Class Sensitivity Specificity PPV NPV N 0.812 0.604 0.672 0.763 T 0.604 0.812 0.763 0.672

TABLE-US-00038 TABLE 18 Composition fo classifier: Sorted by t-value (Sorted by gene pairs) Geom mean of Geom mean of Parametric % CV intensities in intensities in Fold- Gene p-value t-value support class 1 class 2 change symbol 1 <1e-07 -6.713 100 3.011798 131.8077746 0.0228499 SALL3 2 <1e-07 -6.491 100 3468.2688243 17623.4446406 0.1967986 SPARC 3 <1e-07 -6.208 100 44.8968301 392.9290497 0.1142619 PITX2 4 1e-06 -5.248 100 1.6348595 29.429 0.0555527 F2R 5 3.91e-05.sup. -4.318 100 1.0069555 2.2540195 0.4467377 TERT 6 0.0003748 -3.691 100 55.7796365 248.4967761 0.2244683 RASSF1 7 0.0009309 -3.419 100 3.1978081 14.7357642 0.21701 HOXA10 8 0.0137274 -2.512 100 169.3121483 365.1891236 0.4636287 TNFRSF25 9 0.1465343 1.464 98 4255.1669082 2324.5057894 1.8305684 DNAJA4 10 0.1463194 1.465 50 326.8534389 203.1873409 1.6086309 TP53 11 0.0176345 2.416 100 2588.5288498 1455.2822633 1.7787126 CXADR 12 0.0009772 3.404 100 3114.5146028 939.9618007 3.3134481 KL Class 1: N; Class 2: T.

Cross-Validation ROC curve from the Bayesian Compound Covariate Predictor. The area under the curve is 0.944 (FIG. 1).

Example 11e

CLASS Prediction: Histology: p<0.05 Using all qPCRs for Class Prediction Analysis of Tumor-Subtype Versus Normal Lung Tissue

TABLE-US-00039 [0185] TABLE 19 Composition of classifier: Sorted by p-value Geom mean of Geom mean of Geom mean of Parametric % CV intensities in intensities in intensities in Gene p-value t-value support class 1 class 2 class 3 symbol 1 .sup. <1e-07 23.305 100 11832.9848147 3468.2688243 22878.8045137 SPARC 2 .sup. <1e-07 22.546 100 98.6115161 3.011798 159.4048479 SALL3 3 1e-07 19.146 100 7.6044403 1.6348595 71.4209691 F2R 4 1e-07 19.124 100 359.9316118 44.8968301 416.1715345 PITX2 5 2.81e-05 11.753 100 90.8736104 55.7796365 480.3462809 RASSF1 6 3.15e-05 11.611 100 48.8581148 3.1978081 6.7191365 HOXA10 7 0.0001543 9.66 100 1.9602703 1.0069555 2.4699516 TERT 8 0.0042218 5.802 100 1047.8074626 3114.5146028 875.3966524 KL 9 0.0233243 3.914 100 263.7738716 169.3121483 451.9439364 TNFRSF25 Class 1: AdenoCa; Class 2: N; Class 3: SqCCL.

Performance of Classifiers During Cross-Validation

[0186] Mean percent of correct classification, n=96:

TABLE-US-00040 Mean percent of correct classification, n = 96: Diagonal Linear 3-Nearest Nearest Discriminant 1-Nearest Neighbors Centroid Analysis Correct? Neighbor Correct? Correct? Mean percent of 72 74 74 72 correct classification:

Example 11f: Bintree Prediction: Histology--p<0.05 UNpaired Samples "Compound Covariate Classifier"

Optimal Binary Tree: Cross-Validation Error Rates for a Fixed Tree Structure Shown Below

TABLE-US-00041 [0187] Group 1 Group 2 Mis-classification Node Classes Classes rate (%) 1 AdenoCa, N 14.6 SqCCL 2 AdenoCa SqCCL 31.2

Results of Classification, Node 1:

TABLE-US-00042 [0188] TABLE 20 Composition of classifiers (10 genes): Sorted by p-value Geom mean of Geom mean of Parametric % CV intensities in intensities in Gene p-value t-value support group 1 group 2 symbol 1 <1e-07 6.713 100 131.8077753 3.011798 SALL3 2 <1e-07 6.491 100 17623.4448347 3468.2687994 SPARC 3 <1e-07 6.208 100 392.9290438 44.8968296 PITX2 4 1e-06 5.248 100 29.4290011 1.6348595 F2R 5 3.91e-05.sup. 4.317 100 2.2540195 1.0069556 TERT 6 0.0003748 3.691 100 248.4967776 55.779638 RASSF1 7 0.0009309 3.419 100 14.7357644 3.197808 HOXA10 8 0.0009772 -3.404 100 939.9618108 3114.5147006 KL 9 0.0137274 2.511 100 365.1891266 169.3121466 TNFRSF25 10 0.0176345 -2.416 100 1455.2823102 2588.528822 CXADR

Results of Classification, Node 2:

TABLE-US-00043 [0189] TABLE 21 Composition of classifier (3 genes): Sorted by p-value Geom mean of Geom mean of Parametric % CV intensities in intensities in Gene p-value t-value support group 1 group 2 symbol 1 0.0058346 2.892 50 48.8581156 6.7191366 HOXA10 2 0.0253305 -2.312 50 90.8736092 480.3462899 RASSF1 3 0.0330755 -2.197 49 7.6044405 71.4209719 F2R

Sequence CWU 1

1

1440150DNAArtificial Sequenceprobe/primer/pcr 1cggccggtca ggaatcccca tcctggagcg caggcggaga gccagtggct 50264DNAArtificial Sequenceprobe/primer/pcr 2ccaaaaaagg tgacactgcc ccctcccagt ggctccatgc tcctcagcta tggctgtccg 60ggcc 64353DNAArtificial Sequenceprobe/primer/pcr 3cgccccgccc ccgccaacaa ccgccgctct gattggcccg gcgcttgtct ctt 53450DNAArtificial Sequenceprobe/primer/pcr 4agcggcctca gcctgcgcac cccaggagcg tggatgacta cggccacccc 50563DNAArtificial Sequenceprobe/primer/pcr 5gcagccgaga gggtcaggcc cccataggtc ctcagcctgc ttcaacctca aaggggatgg 60ggg 63665DNAArtificial Sequenceprobe/primer/pcr 6tcctggcagc attaccacac tgctcacctg tgaagcaatc ttccggagac agggccaaag 60ggcca 65765DNAArtificial Sequenceprobe/primer/pcr 7ctgacaagag acatgcaggg ctgagaggca gctccttttt atagcggtta ggcttggcca 60gctgc 65864DNAArtificial Sequenceprobe/primer/pcr 8tggcatccac ttgcttgatc cagccagatt cccactccca tgccctctcc actattgcga 60ttgc 64962DNAArtificial Sequenceprobe/primer/pcr 9ctgcttcgtg ccctctggtg gctaaggcgt gtcattgcag tgccggcctc ctgtcatcct 60cc 621050DNAArtificial Sequenceprobe/primer/pcr 10ccggcgcact ccgactccga gcagtctctg tccttcgacc cgagccccgc 501153DNAArtificial Sequenceprobe/primer/pcr 11taggtggtga gttacttggc tcggagcggg cgaggggacg cgtgggcgga gcg 531265DNAArtificial Sequenceprobe/primer/pcr 12aaccacctga tcaaggaaaa ggaaggcaca gcggagcgca gagtgagaac caccaaccga 60ggcgc 651361DNAArtificial Sequenceprobe/primer/pcr 13cgggggtagg ctttgctgtc tgagggcgtc tggctgtgga gctgaaggag gcgctgctga 60g 611453DNAArtificial Sequenceprobe/primer/pcr 14gccccgcatc cctaatgagg gaatgaatgg agaggccccc tcggctggcg ccc 531550DNAArtificial Sequenceprobe/primer/pcr 15cggggccacg cgctaagggc ccgaacttgg cagctgaccg tcccggacag 501652DNAArtificial Sequenceprobe/primer/pcr 16ccaccgaaca cgccgcaccg gccaccgccg ttccctgata gattgctgat gc 521754DNAArtificial Sequenceprobe/primer/pcr 17gaactgggtc gtggaaggat cgcggggagc ggccctcagg ccttcggcct cact 541859DNAArtificial Sequenceprobe/primer/pcr 18ccagcacttt gggaggccga ggcgggcgga tcacgaggtc aggagatcga gaccatcct 591955DNAArtificial Sequenceprobe/primer/pcr 19ggcggctggt gcttgggtct acgggaatac gcataacagc ggccgtcagg gcgcc 552061DNAArtificial Sequenceprobe/primer/pcr 20tcagattcct cagggccgca gaggtgtgga gctggttggg ccggttcttc accctcctcc 60c 612154DNAArtificial Sequenceprobe/primer/pcr 21ctggccgagg tggccaccgg tgacgacaag aagcgcatca ttgactcagc ccgg 542253DNAArtificial Sequenceprobe/primer/pcr 22ctaaccttcc tcgccgcctt cctgcgggtg acccccaaac gccccagctc cgc 532350DNAArtificial Sequenceprobe/primer/pcr 23ccgacttgga cgcggccagc tggagaggcg gagcgccggg aggagacctt 502450DNAArtificial Sequenceprobe/primer/pcr 24acagagtcgg caccggcgtc cccagctctg ccgaagatcg cggtcgggtc 502562DNAArtificial Sequenceprobe/primer/pcr 25ggggatggag aactctcctc gcttcgtcct ctctcccggg gaatccctaa ccccgcactg 60cg 622655DNAArtificial Sequenceprobe/primer/pcr 26gtggctcggg tccacccggg ctgcgagccg gcagcacagg ccaataggca attag 552758DNAArtificial Sequenceprobe/primer/pcr 27ctcaccccgc gacttacccc acaccccgct ctccagaacc cccatatggg cgctcacc 582865DNAArtificial Sequenceprobe/primer/pcr 28acacaccact gcagcgttca aacgctggga agaagactcc cttgtggcac cggaaaccca 60cgagg 652950DNAArtificial Sequenceprobe/primer/pcr 29ccgccacgaa cttggggtgc agccgatagc gctcgcggaa gagccgcctc 503051DNAArtificial Sequenceprobe/primer/pcr 30ctccatagcc ctccgacggg cgcccagggg cttcccggct ccgtgctctc t 513165DNAArtificial Sequenceprobe/primer/pcr 31tggacacccc aagagctcac tcctccgcgg ttttatattc cgacttgcgc acaggagcgg 60ggtgc 653263DNAArtificial Sequenceprobe/primer/pcr 32ccgcccgttt cagcggcgca gcttctgtag ttgggctact ggaggggtcg ctcagaaacc 60tca 633369DNAArtificial Sequenceprobe/primer/pcr 33aacccaggct tgtcagccta agaacacggg atctcttcac tgtggttcat gtgtagagtg 60gagtttcca 693451DNAArtificial Sequenceprobe/primer/pcr 34cagtcccctg ccgtgcgctc gcattcctca gcccttgggt ggtccatggg a 513552DNAArtificial Sequenceprobe/primer/pcr 35caggtgggcg tctcaggggt gggagtggcc gcgtcgtgaa gcggagagag ga 523654DNAArtificial Sequenceprobe/primer/pcr 36ctgcaaggga tgactcaccc cagtgattca accgcgccac cgagcgcgga gctg 543759DNAArtificial Sequenceprobe/primer/pcr 37ttgtatggat ttcgcccagg ggaaagcgct ccaacgcgcg gtgcaaacgg aagccactg 593850DNAArtificial Sequenceprobe/primer/pcr 38gaggaccagg gccggcgtgc cggcgtccag cgaggatgcg cagactgcct 503957DNAArtificial Sequenceprobe/primer/pcr 39acgcaccgcg gctcctcgcg tccagccgcg gccaaggaag ttactactcg cccaaat 574051DNAArtificial Sequenceprobe/primer/pcr 40cgctgcctcg ccattgggcg gccgaacgca gccacgtcca atcagaggag t 514159DNAArtificial Sequenceprobe/primer/pcr 41gaggttctgg ggaccgggag agtggccacc ttcttcctcc tcgcgaagag caggccggg 594252DNAArtificial Sequenceprobe/primer/pcr 42agtgggattg gggcacttgg ggcgctcggg gcctgcgtcg gatactcggg tc 524357DNAArtificial Sequenceprobe/primer/pcr 43tcaagccgcc tcaggtgagc gctccttggc gctacttccg gtctcaggtg aggccgc 574470DNAArtificial Sequenceprobe/primer/pcr 44ttgtgacgtg tgttctgggc agggtttgag gttttggaac attttctaaa agggacagag 60agcaccctgc 704561DNAArtificial Sequenceprobe/primer/pcr 45cggggggaga agtcctggag cgggtttggg ttgcagtttc cttgtgccgg ggatcctgtc 60c 614661DNAArtificial Sequenceprobe/primer/pcr 46gaggattatt cgtcttctcc ccattccgct gccgccgctg ccaggcctct ggctgctgag 60g 614753DNAArtificial Sequenceprobe/primer/pcr 47ccctctctcc cctggcccgc aaagttttgg cggagccatc gctggggctg agc 534860DNAArtificial Sequenceprobe/primer/pcr 48ccagggggaa cttgtggcag tgcagcatct caggccaggg gaagccgtag gcctccatga 604957DNAArtificial Sequenceprobe/primer/pcr 49cgccacccag agcccgaggt ttgcccttca gaagcggacc cgcagactcc tcggact 575065DNAArtificial Sequenceprobe/primer/pcr 50cgccgaaatg aaacccgcct ccgttcgcct tcggaactgt cgtcacttcc gtcctcagac 60ttgga 655151DNAArtificial Sequenceprobe/primer/pcr 51tcccttgttt tgaggcggga acgcaaccct cgaccgccca ctgcgctccc a 515250DNAArtificial Sequenceprobe/primer/pcr 52ggcagccggg aaatcccgtg tccccactcg tggcagagga cgctgtgggg 505364DNAArtificial Sequenceprobe/primer/pcr 53cccccacagt tttcatgtga tcaggaattc agcataggct ataagacgga gtgctccatg 60tcaa 645453DNAArtificial Sequenceprobe/primer/pcr 54ggggttgtca tggcagcagc tccatccctg accgccactt tctcccggtg ccg 535557DNAArtificial Sequenceprobe/primer/pcr 55aagttccgcc agtgcacagc aaccaatggg cggaggggtc ctttgcccct gggttgc 575651DNAArtificial Sequenceprobe/primer/pcr 56agttgggccg gatcagctga cccgcgtgtt tgcacccgga ccggtcacgt g 515750DNAArtificial Sequenceprobe/primer/pcr 57gggccgctgc ctactgtggg cctgcaaggc gtgcaagcgc aagaccacca 505850DNAArtificial Sequenceprobe/primer/pcr 58acctccctgc tgcgtgtcgc aaaccgaaca gcgggcgttg gccctcctgc 505965DNAArtificial Sequenceprobe/primer/pcr 59gggacccgga gctccaggct gcgccttgcg cccgggtcag acattattta gctcttcggt 60tgagc 656052DNAArtificial Sequenceprobe/primer/pcr 60ggccgtgcgg ggctcaccgg agatcagagg cccggacagc ttcttgatcg cc 526164DNAArtificial Sequenceprobe/primer/pcr 61ccactgcctg cggtagaacc tggtcccgca tagcttggac tcggataagt caagttctct 60tcca 646253DNAArtificial Sequenceprobe/primer/pcr 62gggccgcagg cccctgagga gcgatgacgg aatataagct ggtggtggtg ggc 536350DNAArtificial Sequenceprobe/primer/pcr 63gcaggacccg gatgagagcg cacgcttcgg ggtctccggg aagtcgcggc 506451DNAArtificial Sequenceprobe/primer/pcr 64aagagggaaa ggcttccccg gccagctgcg cggcgactcc ggggactcca g 516550DNAArtificial Sequenceprobe/primer/pcr 65agggatggct tttgggctct gcccctcgct gctcccggcg tttggcgccc 506654DNAArtificial Sequenceprobe/primer/pcr 66gcccgctctc gggtgactcc gcaacctgtc gctcaggttc ctcctctccc ggcc 546757DNAArtificial Sequenceprobe/primer/pcr 67tgctggacat ccaccgcctc caggcagttt cgccgtcaca ccgtcgccat ctgtagc 576853DNAArtificial Sequenceprobe/primer/pcr 68ggccgcgaag cgactccgat cctccctctg agccttgctc agctctgccc cgc 536965DNAArtificial Sequenceprobe/primer/pcr 69cgcgcgttcg ctgcctcctc agctccagga tgatcggcca gaagacgctc tactcctttt 60tctcc 657052DNAArtificial Sequenceprobe/primer/pcr 70cgggggcgga ggaaacacct atgaaccctc cggcagcctt ccttgccggg cg 527150DNAArtificial Sequenceprobe/primer/pcr 71agggccagcc cttgggggct cccagatggg gcgtccacgt gacccactgc 507264DNAArtificial Sequenceprobe/primer/pcr 72gtgaaaggtc ggcgaaagag gagtaaagac ggcgagacgc gtccacgcag ggggagtctg 60tgcg 647350DNAArtificial Sequenceprobe/primer/pcr 73gcgctgaggt gcagcgcacg gggcttcacc tgcaacgtgt cgattggacg 507455DNAArtificial Sequenceprobe/primer/pcr 74gaggcctcat gcctccgggg aaaggaaggg gtggtggtgt ttgcgcaggg ggagc 557561DNAArtificial Sequenceprobe/primer/pcr 75cgaagtggaa accggagttg cgtcattgct cccacccgat atcaccttgg cagcgaccgc 60g 617662DNAArtificial Sequenceprobe/primer/pcr 76atggggtgct catcttcctg gagctgagga gctgggacgg gcatggggtg ctcatcctcc 60tg 627765DNAArtificial Sequenceprobe/primer/pcr 77ttccagccgg tgattgcaat ggacaccgaa ctgctgcgac aacagagacg ctacaactca 60ccgcg 657851DNAArtificial Sequenceprobe/primer/pcr 78cagagaagac tcacgcagtg agcagtccgc aagcccgctg gcggcagcgg c 517964DNAArtificial Sequenceprobe/primer/pcr 79gacacaccca cctcagcaga tctcagccca tccctcccag ctcagtgcac tcacccaacc 60ccac 648060DNAArtificial Sequenceprobe/primer/pcr 80cggagtgctg caagcgcaga aaatatacgt catgtgcgga ggcggagctt ccgccctgcg 608150DNAArtificial Sequenceprobe/primer/pcr 81ggcccaagga cgtgtgttgg tccagccccc cggttccccg agacccacgc 508263DNAArtificial Sequenceprobe/primer/pcr 82acctctggag cgggttagtg gtggtggtag tgggttggga cgagcgcgtc ttccgcagtc 60cca 638365DNAArtificial Sequenceprobe/primer/pcr 83cccttggaag gcgtggaatt aggagagaaa tcccttagtg ggcacacgag tgagtgcccc 60ttgga 658450DNAArtificial Sequenceprobe/primer/pcr 84ccggccgcct cccaggctgg aatccctcga cacttggtcc ttcccgcccc 508560DNAArtificial Sequenceprobe/primer/pcr 85tgcgtgggtc gcctcgcgtc tctctctccc accccacctc tgagatttct tgccagcacc 608659DNAArtificial Sequenceprobe/primer/pcr 86gacttcgcgt cgcccttcca cgagcgccac ttccactacg aggagcacct ggagcgcat 598752DNAArtificial Sequenceprobe/primer/pcr 87gaggctgcga gcctgggctc ccagggagtt cgactggcag aggcgggtgc ag 528862DNAArtificial Sequenceprobe/primer/pcr 88ccattctcct gcctcagcct cccaagtagc tgggactaca ggcgcctgcc accactcccg 60gc 628965DNAArtificial Sequenceprobe/primer/pcr 89caggggacgt tgaaattatt tttgtaacgg gagtcgggag aggacggggc gtgccccgac 60gtgcg 659054DNAArtificial Sequenceprobe/primer/pcr 90accctggaac gacgccaaac gcgaccccta ccagaggact cgcgcatgcg cagc 549150DNAArtificial Sequenceprobe/primer/pcr 91gttcccaaag ggtttctgca gtttcacgga gcttttcaca ttccactcgg 509251DNAArtificial Sequenceprobe/primer/pcr 92gaaagacacc gcggaactcc cgcgagcgga gacccgccaa ggcccctcca g 519350DNAArtificial Sequenceprobe/primer/pcr 93ccctctccgc cccaaacagc tccccactcc cccagcctgc ccccaccctc 509465DNAArtificial Sequenceprobe/primer/pcr 94attggggcta cactcaccac aagagcagca aacaaagcac tgggtgtggt agaggctgtc 60caggg 659560DNAArtificial Sequenceprobe/primer/pcr 95cccagcgggg cccttagcag agcctctcca atcctcggcg cctcccctac acagggttcg 609656DNAArtificial Sequenceprobe/primer/pcr 96gcgcccaagg ccctgcttct tcccccttcc tcttcccctt gcccagccgc gacttc 569750DNAArtificial Sequenceprobe/primer/pcr 97cccagccgag cagggggaag catccccagc tcccgcaccc aagtccctgg 509852DNAArtificial Sequenceprobe/primer/pcr 98gccgccacct gttgaggaaa gcgagcgcac ctcctgcagc tcaggctccg gg 529961DNAArtificial Sequenceprobe/primer/pcr 99cgggagcgga ttgggtctgg gagttcccag aggcggctat aagaaccggg aactgggcgc 60g 6110053DNAArtificial Sequenceprobe/primer/pcr 100ggcggggaag cgtatgtgcg tgatggggag tccgggcaag ccaggaaggc acc 5310150DNAArtificial Sequenceprobe/primer/pcr 101ggagcccgca gtgcgtgcga ggggctctcg gcaggtccag acgcctcgcc 5010253DNAArtificial Sequenceprobe/primer/pcr 102cgcatccggc tccgaaagct gcgcgcagcc atcatcaggg cccttctggt gtt 5310364DNAArtificial Sequenceprobe/primer/pcr 103gccgctgcca gtcgactcaa ccaccggagt ggcccctgca gttggatagc aacgagaatc 60ctcc 6410450DNAArtificial Sequenceprobe/primer/pcr 104ggcaggaaag ggcccgaagg cagcgaaggc gaacgcggcg caccaacctg 5010550DNAArtificial Sequenceprobe/primer/pcr 105acagggtctt cccacccaca gggcacccag gcgcagcgga gccaggaggg 5010655DNAArtificial Sequenceprobe/primer/pcr 106accagccgca caacttttga aggctcgccg gcccatgtgg ggtctttctg gcggc 5510762DNAArtificial Sequenceprobe/primer/pcr 107cagccgggca gataacaaaa cacaccccaa agtgggcctc gcatcggccc tcgcattcct 60gt 6210857DNAArtificial Sequenceprobe/primer/pcr 108ggcctcgacg ccgaggggtg tccctctcct ctcctggtca gggaacgcag caactga 5710956DNAArtificial Sequenceprobe/primer/pcr 109gggcggcagt cagagctgga gctccgggga atcagacggg cagccaaagg agcaga 5611051DNAArtificial Sequenceprobe/primer/pcr 110cggaagtgcc ccggtcctgg agggggtgga agttggggag cccaggcagg a 5111165DNAArtificial Sequenceprobe/primer/pcr 111ccgagaggga agaaaaaaat accctctttg ggccaggcac ggtggctcac ccctgtaatc 60ccagc 6511264DNAArtificial Sequenceprobe/primer/pcr 112tcccagcact ttgggaggct gaggcgagcg gatcacgaga tcagaagatc gagaccatcc 60tggc 6411353DNAArtificial Sequenceprobe/primer/pcr 113ccccgggacc ggataacgcc ctaaatcagc gcagctgagg cgaggccgtg gcc 5311451DNAArtificial Sequenceprobe/primer/pcr 114ctcgcgaccc cggctccggg cctctgccga cctcaggggc aggaaagagt c 5111551DNAArtificial Sequenceprobe/primer/pcr 115cccgaggctc gcccgactcc tggctgccct ggactcccct ccctcctccc t 5111652DNAArtificial Sequenceprobe/primer/pcr 116ctccagctgc actgccaccc agcctgcctg gtgctggtgc tcaacacgca gc 5211758DNAArtificial Sequenceprobe/primer/pcr 117ccggcctttc cgccagaggg cggcacagaa ctacaactcc cagcaagctc ccaaggcg 5811865DNAArtificial Sequenceprobe/primer/pcr 118gggaaggagc ctcagctccg ctccaggtcc tccaccaggt aggactggga ctcccttagg 60gcctg 6511950DNAArtificial Sequenceprobe/primer/pcr 119gggagtgtcc tcctccggga cagccggact cccgccgact tctgggcggc 5012052DNAArtificial Sequenceprobe/primer/pcr 120ggggagcgtg cggggtcgcc accatcggga cccccagagg agagaggact tg 5212152DNAArtificial Sequenceprobe/primer/pcr 121gacagatgca gtgcgtgcgc cggagcccaa gcgcacaaac ggaaagagcg gg 5212258DNAArtificial Sequenceprobe/primer/pcr 122tcctttgcgt ccggccctct ttcccctgac cataaaagca gccgctggct gctgggcc 5812360DNAArtificial Sequenceprobe/primer/pcr 123tgcggcttct ctcaccctgc caggccttcc cagcttccct gaggttgcct gctacacccg 6012452DNAArtificial Sequenceprobe/primer/pcr 124gccccagccc tgcgcccctt cctctcccgt cgtcaccgct tcccttcttc ca 5212551DNAArtificial Sequenceprobe/primer/pcr 125cccgcacccc tattgtccag ccagctggag ctccggccag atcccgggct g 5112660DNAArtificial Sequenceprobe/primer/pcr 126gcagagttcg tgcagggagt tcgcacatag gagagcaccg gtccgggagt gccaggctcg 6012751DNAArtificial Sequenceprobe/primer/pcr 127cggccggtgt gtgtccccgc aggagagtgt gctgggcaga cgatgctgga c 5112864DNAArtificial Sequenceprobe/primer/pcr 128tttttgggac aaccatggag gggtcctccg tctcggcctc

ttcgcatatc cccctccgtg 60atcc 6412965DNAArtificial Sequenceprobe/primer/pcr 129cggcgggtca gatctcgctc cctttcggac aacttacctc ggagaggagt caaggggaga 60gggga 6513060DNAArtificial Sequenceprobe/primer/pcr 130cccggacgag ctctcctatc ccgaagttgt ggacagtcga gacgctcagg gcagccgggc 6013158DNAArtificial Sequenceprobe/primer/pcr 131cggccggtgg aggggggaag ggaggaatgg tgtcaggggc ggatatctga gccctgag 5813265DNAArtificial Sequenceprobe/primer/pcr 132caccaaagcc accacccaag ccagcaccaa ggccaccacc atatcctccc ccaaagccac 60tacca 6513355DNAArtificial Sequenceprobe/primer/pcr 133ccgccaggcc cgctgggtgg aatgtggtca tgtttcagac tgccgatggc ttcca 5513456DNAArtificial Sequenceprobe/primer/pcr 134cctgtccgga tccctccccg ccttgctcag atctctggtt cgcggagctc cgaggc 5613564DNAArtificial Sequenceprobe/primer/pcr 135gcgcaggggc ccagttatct gagaaacccc acagcctgtc ccccgtccag gaagtctcag 60cgag 6413657DNAArtificial Sequenceprobe/primer/pcr 136tcctgcccca gtaagcgttg gaccgggaga cgcagtgctc agcatcggtc agcaggg 5713750DNAArtificial Sequenceprobe/primer/pcr 137gcgccgagga gtcgggacag ccccggagct tcatgcggct caacgacctg 5013858DNAArtificial Sequenceprobe/primer/pcr 138ggccccagcg gagactcggc agggctcagg tttcctggac cggatgactg acctgagc 5813952DNAArtificial Sequenceprobe/primer/pcr 139cgccggctgc gaagttgagc gaaaagtttg aggccggagg gagcgaggcc gg 5214053DNAArtificial Sequenceprobe/primer/pcr 140ggagccgctt ggcctcctcc acgaagggcc gcttctcgtc ctcgtccagc agc 5314164DNAArtificial Sequenceprobe/primer/pcr 141aaatgtggag ccaaacaata acagggctgc cgggcctctc agattgcgac ggtcctcctc 60ggcc 6414262DNAArtificial Sequenceprobe/primer/pcr 142cctctcagat tgcgacggtc ctcctcggcc tggcgggcaa acccctggtt tagcacttct 60ca 6214362DNAArtificial Sequenceprobe/primer/pcr 143tctccccacg cttccccgat gaataaaaat gcggactctg aactgatgcc accgcctccc 60ga 6214456DNAArtificial Sequenceprobe/primer/pcr 144gcccaatcgg aaggtggacc gaaatcccgc gacagcaaga ggcccgtagc gacccg 5614553DNAArtificial Sequenceprobe/primer/pcr 145cgtggggggc tgtttcccgt ctgtccagcc gcgcccactt ctcaggccca aag 5314662DNAArtificial Sequenceprobe/primer/pcr 146ggggccctcg tgttgctgaa cgagggcggg ttcgcgatgt aaataagccc agaggtgggg 60tc 6214764DNAArtificial Sequenceprobe/primer/pcr 147cctgggtccc ctcggctctc ggaagaaaaa ccaacagcat ctccagctct cgcgcggaat 60tgtc 6414862DNAArtificial Sequenceprobe/primer/pcr 148cataagatgc cctcctgcgg gccctcacct tttgacactg cctcccaccg cactggggtc 60aa 6214951DNAArtificial Sequenceprobe/primer/pcr 149atcccgctgc accacgccat gagcatgtcc tgcgactcgt ctccgcctgg c 5115050DNAArtificial Sequenceprobe/primer/pcr 150gcgcggtgaa gggcgtcagg tgcagctggc tggacatctc ggcgaagtcg 5015165DNAArtificial Sequenceprobe/primer/pcr 151catttctttc aattgtggac aagctgccaa gaggcttgag taggagagga gtgccgccga 60ggcgg 6515270DNAArtificial Sequenceprobe/primer/pcr 152aagttcactg agggttgtaa gagtcagaat ggactccatg gaagttatgg ggtgtgaatc 60aaacctcaca 7015362DNAArtificial Sequenceprobe/primer/pcr 153cagcactttg ggaggccgag gtgggcggat tgcctgaggt caggagtttg agaccagcct 60gg 6215450DNAArtificial Sequenceprobe/primer/pcr 154gggcaacaca cacagcagcg acagccggga ggtaagccgc gtcccagcgg 5015564DNAArtificial Sequenceprobe/primer/pcr 155ctgaggggag gagaaactgg gctgcggggg tccgggaggg tggattccga gaaactatgt 60gccc 6415654DNAArtificial Sequenceprobe/primer/pcr 156gtgtcccagc gcgttgacgc agcctgtgat ccctcgcgag gcgaggagaa ggtc 5415761DNAArtificial Sequenceprobe/primer/pcr 157aaccccgacc tcaggtgatc tgcccaaaag tgctgggatt acaggcgtca gccaccgcgc 60c 6115862DNAArtificial Sequenceprobe/primer/pcr 158aggacgaagt tgaccctgac cgggccgtct cccagttctg aggcccgggt cccactggaa 60ct 6215951DNAArtificial Sequenceprobe/primer/pcr 159ggagacgcgt tgccttcggc cgggaccact gcacctgccc gcgtgggtaa t 5116050DNAArtificial Sequenceprobe/primer/pcr 160cacaaaggcc aaggagggag tgcgcaggtc acgtgcgccg gtggtcagcg 5016151DNAArtificial Sequenceprobe/primer/pcr 161ctgacctggc gctgctgccc ctggtgcctg acggaggatg agaaggccgc c 5116261DNAArtificial Sequenceprobe/primer/pcr 162aaaagtggct cggaacccca aatcccggtt agattgcagg caccgccgga cgctggctcc 60c 6116351DNAArtificial Sequenceprobe/primer/pcr 163gttctgttgg gggcgaggcc cgcgcaagcc ccgcctcttc cccggcacca g 5116450DNAArtificial Sequenceprobe/primer/pcr 164gcgtcgacac tgcgcaagcc cagtcgcgcc tctccagagc gggaagagcg 5016565DNAArtificial Sequenceprobe/primer/pcr 165tgtctgagta ttgatcgaac ccaggagttc gagatcagct tgagcaagat agcgagaacc 60cccgc 6516651DNAArtificial Sequenceprobe/primer/pcr 166gaaagactgc agagggatcg aggcggccca ctgccagcac ggccagcgtg g 5116759DNAArtificial Sequenceprobe/primer/pcr 167ttagagtccc ctgggtgtgt gccccgcaga gggagctctg gcctcagtgc ccagtgtgc 5916859DNAArtificial Sequenceprobe/primer/pcr 168ttagagtccc ctgggtgtgt gccccgcaga gggagctctg gcctcagtgc ccagtgtgc 5916951DNAArtificial Sequenceprobe/primer/pcr 169ggggacgagc aggaaaaggc cggggtgggg gtggaattcc tcggcgggca g 5117064DNAArtificial Sequenceprobe/primer/pcr 170gggagcctga ggcaggagaa tcgcttgaat ccgggaggcg gaggttgcag taagccgaga 60tcgc 6417157DNAArtificial Sequenceprobe/primer/pcr 171ctttcggagg cctcattggc tgaaggtcgc cgtcgcccaa cgcaggccat tctgggt 5717264DNAArtificial Sequenceprobe/primer/pcr 172cctcctgggg tcaagtgatc atcctggctc aaccacccaa gtagccggga ctacgggtgg 60ccgc 6417357DNAArtificial Sequenceprobe/primer/pcr 173ccaatgcccc aacgcaggcc acccccggct cctctgtgga ctcacgaaga caaggtc 5717457DNAArtificial Sequenceprobe/primer/pcr 174ctctgagagc cacagtcagg tctgtcctca ggggtcgagg cggctgcgct ggggcct 5717550DNAArtificial Sequenceprobe/primer/pcr 175ggacagcccg ctcgggagtc gggcctggaa gcaggcggac agcgtcacct 5017663DNAArtificial Sequenceprobe/primer/pcr 176gccaggatgg tctcgatctc ctgaccttgt gatctgcccg cctcggcctc ccaaagtgtt 60ggg 6317765DNAArtificial Sequenceprobe/primer/pcr 177tgcccagggg agccctccat ttgtagaatg aatgagagtc caggttatga acagtgcctg 60gagtg 6517858DNAArtificial Sequenceprobe/primer/pcr 178gaccggtttt atcccgctga ggccctggga gatgggtctg gcgaggctcg taggccgc 5817965DNAArtificial Sequenceprobe/primer/pcr 179gcggaacctc aaattgcggc agcggaacct aaagtttcag ggtgagatgc gttgactcgc 60ggtgg 6518055DNAArtificial Sequenceprobe/primer/pcr 180gctcagtccc tccggtgtgc aggaccccgg aagtcctccc cgcacagctc tcgct 5518151DNAArtificial Sequenceprobe/primer/pcr 181cgggcaggcg ggaccgggag gtcaataact gcagcgtccg agctgagccc a 5118258DNAArtificial Sequenceprobe/primer/pcr 182cgcggtgggc cgacttcccc tcctcttccc tctctccttc ctttagcccg ctggcgcc 5818354DNAArtificial Sequenceprobe/primer/pcr 183tccccggcat gcgccatatg gtcttcccgg tccagccaag agcctggaac cacg 5418450DNAArtificial Sequenceprobe/primer/pcr 184ctccgcgctc agccaattag acgcggctgt tccgtgggcg ccaccgcctc 5018551DNAArtificial Sequenceprobe/primer/pcr 185gcgagagggt cgtccgctga gaagctgcgc cggagacgcg ggaagctgct g 5118650DNAArtificial Sequenceprobe/primer/pcr 186gacccgcctg cgtcgccacc ctctcgccgc tccctgccgc caccttcctc 5018753DNAArtificial Sequenceprobe/primer/pcr 187gaggggtccg ggacgaagcc acccgcgcgg tagggggcga cttagcggtt tca 5318865DNAArtificial Sequenceprobe/primer/pcr 188ccccgaacaa aaaattcaaa tgggaaagag aggcagatgg cagagaacag gggaggggct 60gggca 6518950DNAArtificial Sequenceprobe/primer/pcr 189gcggcgagga gggtcacagc cggaaagagg cagcggtggc gcctgcagac 5019050DNAArtificial Sequenceprobe/primer/pcr 190ggcggtctcc ggttcgccaa tgtggctggg tccgtaggct tgggcagcct 5019153DNAArtificial Sequenceprobe/primer/pcr 191cctccccttt gcgtgcggag ctgggctttg cgtgcgccgc ttctggaaag tcg 5319259DNAArtificial Sequenceprobe/primer/pcr 192agcctactca ctcccccaac tcccgggcgg tgactcatca acgagcacca gcggccaga 5919362DNAArtificial Sequenceprobe/primer/pcr 193caggaggtga ggaggtttcg acatggcggt gcagccgaag gagacgctgc agttggagag 60cg 6219461DNAArtificial Sequenceprobe/primer/pcr 194agatttcccg ccagcaggag ccgcgcggta gatgcggtgc ttttaggagc tccgtccgac 60a 6119565DNAArtificial Sequenceprobe/primer/pcr 195cgggcgtggt ggtgggcacc tgtaatccca gctactcaga aggttgaggc aggagaatcg 60cttga 6519659DNAArtificial Sequenceprobe/primer/pcr 196tcccaaatcc gagtctgcgg agcctgggag ggctcccagc ttcctatcca aaccgcgcc 5919757DNAArtificial Sequenceprobe/primer/pcr 197ccctggtcga gccccctttc ctcccgggtc cacagcgagt cccctgagga aggaggg 5719850DNAArtificial Sequenceprobe/primer/pcr 198cagggacccg cgagtccctg gacacgcact ggccaacgcc agaccccatc 5019950DNAArtificial Sequenceprobe/primer/pcr 199caagcagccc tcggccagac caagcacact ccctcggagg cctggcaggg 5020063DNAArtificial Sequenceprobe/primer/pcr 200gagaaggagc gacccccaaa acgaagcggc tggatctgac cttccaaggc ctgttggcga 60cgc 6320151DNAArtificial Sequenceprobe/primer/pcr 201ttcttccccg cagggtcagc gctggggctc cggccgtaga gccacgtgac c 5120264DNAArtificial Sequenceprobe/primer/pcr 202attcatttct gttatggaac tgtcgcggca ctacaaagtc tctatgtagt tataaataaa 60cgtt 6420350DNAArtificial Sequenceprobe/primer/pcr 203accgagtgcg ctgctgtgcg agtgggatcc gccgcgtcct tgctctgccc 5020454DNAArtificial Sequenceprobe/primer/pcr 204gtgtggtgag tgtgggtgtg tgcgcgtctc ctcgcgtccc tcgctgaggt gcct 5420562DNAArtificial Sequenceprobe/primer/pcr 205gcctgggctg ccagacgtcg ccatcattgt tccatgcaga tcatgcccat cctgtgcaga 60ag 6220651DNAArtificial Sequenceprobe/primer/pcr 206gcgggtccga ggcgcaaggc gagctggaga ccccgaaaac cagggccact c 5120763DNAArtificial Sequenceprobe/primer/pcr 207tctccatggt ggccattgcc tcctctctgc tccaaaggcg accccgagtc agggatgaga 60ggc 6320850DNAArtificial Sequenceprobe/primer/pcr 208cgcgggactc cgcgggatct cgctgttcct cgctctgctc ctggggagcc 5020958DNAArtificial Sequenceprobe/primer/pcr 209cgcccccttt ttggagggcc gatgaggtaa tgcggctctg ccattggtct gagggggc 5821055DNAArtificial Sequenceprobe/primer/pcr 210gttctgttgc caatgccatt cagaccccag tccgggattc cgcgctcggg gtgcg 5521156DNAArtificial Sequenceprobe/primer/pcr 211tttccgcgag cgcgttccat cctctaccga gcgcgcgcga agactacgga ggtcga 5621250DNAArtificial Sequenceprobe/primer/pcr 212acccgggttc agcgggtccc gatccgaggg cgtgcgagct gagcctcctg 5021350DNAArtificial Sequenceprobe/primer/pcr 213gagagtggac gcgggaaagc cggtggctcc cgccgtgggc cctactgtgc 5021464DNAArtificial Sequenceprobe/primer/pcr 214ggctacagcc gccatttcca cgctccacca atcaaatcca ttctcgagga agacgcaccg 60cccc 6421558DNAArtificial Sequenceprobe/primer/pcr 215agcgcgcaca aagcctgcgg gaggatccat tgtagcggtc gctcctcccc gcttagcg 5821651DNAArtificial Sequenceprobe/primer/pcr 216atcgggcgaa gctcgcggga aaccgctctg ggtgcgcagg acaaagacgc g 5121753DNAArtificial Sequenceprobe/primer/pcr 217cgacggagcc gtgtggaggc caaaactcct cccggaagcc gctactggcc ccg 5321865DNAArtificial Sequenceprobe/primer/pcr 218cgccccacta ctgcctgcag cgggcttcct tactccgcct gctggttcct actggaggag 60aggcc 6521954DNAArtificial Sequenceprobe/primer/pcr 219gcactcgtag cgcgctgggc gagccggacc ggaagttgaa gaagtgaagc gccg 5422064DNAArtificial Sequenceprobe/primer/pcr 220tgaagggagg gcttggtgtg gggacttgca ctgggcagag gggcagcttc cctgagagca 60gcta 6422150DNAArtificial Sequenceprobe/primer/pcr 221cgggagcgcc cggttgggga acgcgcggct ggcggcgtgg ggaccacccg 5022250DNAArtificial Sequenceprobe/primer/pcr 222cagcaccgga gagggcgcac tgcaaaggcg ggcagcagac cgtggagagc 5022352DNAArtificial Sequenceprobe/primer/pcr 223ggcgcagagg cgtcacgcac tccatggtaa cgacgctcgg cccgaagatg gc 5222450DNAArtificial Sequenceprobe/primer/pcr 224gccgcgtctg cgaaccggtg acctggtttc ccctccagcc ctcacggctg 5022561DNAArtificial Sequenceprobe/primer/pcr 225cgagctgttt gaggactggg atgccgagaa cgcgagcgat ccgagcaggg tttgtctggg 60c 6122656DNAArtificial Sequenceprobe/primer/pcr 226gcagcgctga gttgaagttg agtgagtcac tcgcgcgcac ggagcgacga cacccc 5622759DNAArtificial Sequenceprobe/primer/pcr 227cgcgcgctcg ccgtccgcca cataccgctc gtagtattcg tgctcagcct cgtagtggc 5922853DNAArtificial Sequenceprobe/primer/pcr 228cggaaggggt gaggccggaa gccgaagtgc cgcagggagt tagcggcgtc tcg 5322953DNAArtificial Sequenceprobe/primer/pcr 229gggggcgtcg ggcttgggac aggggaggat accagggcca ccttccccaa ccc 5323058DNAArtificial Sequenceprobe/primer/pcr 230cgggctggag ggttatctgg gaagtcagcc ccggcctcgg tcctctccac gttgctgc 5823165DNAArtificial Sequenceprobe/primer/pcr 231ggaacgaggt gtcctgggaa cactcccggg tctgtaactt cggacaaatc acgctcgctt 60tcccg 6523259DNAArtificial Sequenceprobe/primer/pcr 232aaacgagaga gtagccagac tctccgcgca tggagccgac ggcacccacc agcacaccg 5923350DNAArtificial Sequenceprobe/primer/pcr 233tactcacgcg cgcactgcag gcctttgcgc acgacgcccc agatgaagtc 5023458DNAArtificial Sequenceprobe/primer/pcr 234tgaccggaca gagcagagcg gggactgcaa ttcccagaag accccacggt aggggcgg 5823554DNAArtificial Sequenceprobe/primer/pcr 235agacaatccc ggagggggaa aggcgagcag ctggcagaga gcccagtgcc ggcc 5423653DNAArtificial Sequenceprobe/primer/pcr 236ggccgaagag tcgggagccg gagccgggag agcgaaagga gaggggacct ggc 5323752DNAArtificial Sequenceprobe/primer/pcr 237ccaggctccg ctcgtagaag tgcgcaggcg tcaccgcgca tccaggagcc ac 5223856DNAArtificial Sequenceprobe/primer/pcr 238ctctgatgac gctccaaggg aagaggaagt ggggatcggc gagcgggtgg gtgcgc 5623965DNAArtificial Sequenceprobe/primer/pcr 239tgaagggtaa tccgaggagg gctggtcact actttctggg tctggttttg cgttgagaat 60gcccc 6524057DNAArtificial Sequenceprobe/primer/pcr 240cggtcctgca tgcaatgcaa gcctgagctc tcccgccata aggctgcagc ggtgtgg 5724163DNAArtificial Sequenceprobe/primer/pcr 241cctggaggag gaggagtcag gccgggtagg agggctaagg aggttcccgg gaaggcaggg 60ccc 6324265DNAArtificial Sequenceprobe/primer/pcr 242gctgctgaca tgacttcttt gccactcggt gtcaaagtgg aggactccgc cttcggcaag 60ccggc 6524350DNAArtificial Sequenceprobe/primer/pcr 243gagcggcgca gggttggaga gggaagcgct cgtgcccacc ttgctcgcag 5024450DNAArtificial Sequenceprobe/primer/pcr 244ccgatgaccg cggggaggag gatggagatg ctctgtgccg gcagggtccc 5024550DNAArtificial Sequenceprobe/primer/pcr 245gccgccctac agacgttcgc acacctgggt gccagcgccc cagaggtccc 5024654DNAArtificial Sequenceprobe/primer/pcr 246gggccgcaat caggtggagt cgagaggccg gaggaggggc aggaggaagg ggtg 5424754DNAArtificial Sequenceprobe/primer/pcr 247cggcgggacc atgaagaagt tctctcggat gcccaagtcg gagggcggca gcgg 5424852DNAArtificial Sequenceprobe/primer/pcr 248gtgggcgcac gtgaccgaca tgtggctgta ttggtgcagc ccgccagggt gt 5224964DNAArtificial Sequenceprobe/primer/pcr 249gaaagagccg gaaacacctg gtctctcaag caggtacagc ccgcttctcc ccagcacccc 60ggtg 6425050DNAArtificial Sequenceprobe/primer/pcr 250gcagccgcag ctgaggtcac cccgctgagg tggtggggag gggaatggtt 5025150DNAArtificial Sequenceprobe/primer/pcr 251gggcggccag cggtgactcc agatgagccg gccgtccgcg ttcgcgccgc 5025250DNAArtificial Sequenceprobe/primer/pcr 252gggcaccacg aatgccggac gtgaagggga ggacggaggc gcgtagacgc 5025351DNAArtificial Sequenceprobe/primer/pcr 253gaggccgcca tcgcccctcc cccaacccgg agtgtgcccg taattaccgc c 5125450DNAArtificial Sequenceprobe/primer/pcr 254cgcggggaac gatgcaacct gttggtgacg cttggcaact gcaggggcgc 5025550DNAArtificial Sequenceprobe/primer/pcr

255cttgagacct caagccgcgc aggcgcccag ggcaggcagg tagcggccac 5025650DNAArtificial Sequenceprobe/primer/pcr 256cacaccgtcc tcgcccggag cgcagaggcc gacgccctac gagtggatgc 5025750DNAArtificial Sequenceprobe/primer/pcr 257cccttgcaca cgagctgacg gcgtgaacgg gggtgtcggg gttggtgcaa 5025863DNAArtificial Sequenceprobe/primer/pcr 258gcaaagtgat acctggccgt cccaccctct ggtcccagaa ggagctctcg ctggagccag 60gca 6325956DNAArtificial Sequenceprobe/primer/pcr 259ggttggggga ctgcccgggg cttagatggc tccgagcccg tttgagcgtg gtctcg 5626055DNAArtificial Sequenceprobe/primer/pcr 260cgttgaaagc gaagaaggag cggcagtcca gcagcaggca ttgcgccgct cgctc 5526155DNAArtificial Sequenceprobe/primer/pcr 261gagtcctcaa caacgacagc ggggactgcg ggaccagggt aaagcggcga cggcg 5526252DNAArtificial Sequenceprobe/primer/pcr 262gctcctgaga aagccctgcc cgctccgctc acggccgtgc cctggccaac tt 5226361DNAArtificial Sequenceprobe/primer/pcr 263gatgctgctg ccggagctga ggtcttgcct ggagatccga acgagacacc acgtcaaccg 60g 6126462DNAArtificial Sequenceprobe/primer/pcr 264tggtggcagg agagcgatga gacgggaaag tgtggggcaa agcttacagt cattggtcca 60ga 6226564DNAArtificial Sequenceprobe/primer/pcr 265ccactcgcag tctgcgtgtg ggggaaacga gtgcccggcg tatgaaacgc ctaacttcgc 60gaaa 6426651DNAArtificial Sequenceprobe/primer/pcr 266caggcggctc ccgcagtcta agggacctgg cgcgagtccg ggaagcggag g 5126750DNAArtificial Sequenceprobe/primer/pcr 267ctgcacgcgg tgcgaagggg ccagcaggga aggagcagag gatggggggt 5026864DNAArtificial Sequenceprobe/primer/pcr 268cggggccaca ggaccctggg gcttgagtca cacaagaatg tctctgggag acccgagaga 60ctca 6426954DNAArtificial Sequenceprobe/primer/pcr 269cttagaggag gaggagcagc ggcagcggca gcaggaggcg acagctgcca gccg 5427053DNAArtificial Sequenceprobe/primer/pcr 270ctcataccag ataggcgcga acgcctctgg cagcggcgtc cagggggtcc ggc 5327159DNAArtificial Sequenceprobe/primer/pcr 271gggtgctggc acatccgagg cgttctcccg actctggacc gacgtgatgg gtatcctgg 5927251DNAArtificial Sequenceprobe/primer/pcr 272catgataagc cagggacctc gcggcgcagg cggagggagg gagagcgtcg c 5127352DNAArtificial Sequenceprobe/primer/pcr 273ccccccactc aacagcgtgt ctccgagccc gctgatgcta ctgcacccgc cg 5227455DNAArtificial Sequenceprobe/primer/pcr 274tcccacctgc tgcccgagga agacttccgg gagaaacgct gtctccgagc ccccg 5527552DNAArtificial Sequenceprobe/primer/pcr 275ccaggtgaag ccgaagggga agcggatggg gttgctgaac gcggagtcgg cg 5227657DNAArtificial Sequenceprobe/primer/pcr 276cagtggccct gcgcgacgtt cggcgctacc agaactccga gctgctgatc agcaagc 5727758DNAArtificial Sequenceprobe/primer/pcr 277aaggattacc tcgccctgaa cgaggacctg cgctcctgga ccgcagcgga cactgcgg 5827864DNAArtificial Sequenceprobe/primer/pcr 278gcaggctcgt ggcggtcggt cagcggggcg ttctcccacc tgtagcgact caggttactg 60aaaa 6427950DNAArtificial Sequenceprobe/primer/pcr 279gagggaagtg ccctcctgca gcacgcgagg ttccgggacc ggctggcctg 5028054DNAArtificial Sequenceprobe/primer/pcr 280gaagcgcgac ctcgggcggt tggaggggct accgggtctt accagtccgt ggcg 5428150DNAArtificial Sequenceprobe/primer/pcr 281cccaacccga gcaagacctg cgctgaaacg gattggctgc cctccgcccg 5028251DNAArtificial Sequenceprobe/primer/pcr 282agccgctctc ccgattgccc gccgacatga gctgcaacgg aggctcccac c 5128355DNAArtificial Sequenceprobe/primer/pcr 283accacacggc caagggcacc tgaccctgtc aaaaccccaa atccagctgg gcgcg 5528465DNAArtificial Sequenceprobe/primer/pcr 284ccgaggcagc cggatcacga agtcaggagt tcgagaccag cctgaccaac atggtgaaac 60cccgt 6528550DNAArtificial Sequenceprobe/primer/pcr 285ccggcgtctc cgcgtggggc gcaccgtccg acccccccct cccggtgtgc 5028655DNAArtificial Sequenceprobe/primer/pcr 286ggcgcagatg gcgctcgctg cgagatggat gctccagggc gggtaatcac tcctg 5528750DNAArtificial Sequenceprobe/primer/pcr 287ccaggcctcc tggaaacggt gccggtgctg cagagcccgc gaggtgtctg 5028858DNAArtificial Sequenceprobe/primer/pcr 288ggcgagaggt gagaagggaa gagggctccc ggctctctcg gggcgggaat cagtgggc 5828958DNAArtificial Sequenceprobe/primer/pcr 289gcctgcctcg cctctgcccg agctgatgag cgagtcgacc aaaaaagagt tcgcggcg 5829064DNAArtificial Sequenceprobe/primer/pcr 290cattgcggga ccctatttat cccgacacct cccctgacgt gggctcggaa cgctcccttg 60gcag 6429150DNAArtificial Sequenceprobe/primer/pcr 291cgaaggccgg agccacagcg ctcggtgtag atgccgcacg gctggccctc 5029256DNAArtificial Sequenceprobe/primer/pcr 292gggctggatg agtccggaag tggagattgg ctgcttagtg acgcgcggcg tcccgg 5629352DNAArtificial Sequenceprobe/primer/pcr 293cgccagtgcg attctccctc ccggttccag tcgccgcgga cgatgcttcc tc 5229450DNAArtificial Sequenceprobe/primer/pcr 294cgtccgagaa agcgcctggc gggaggaggt gcgcggcttt ctgctccagg 5029557DNAArtificial Sequenceprobe/primer/pcr 295tccggctgcg ccacgctatc gagtcttccc tccctccttc tctgccccct ccgctcc 5729665DNAArtificial Sequenceprobe/primer/pcr 296cagcctcagt ttccccattg gtaaagcatt gacggtggtt gcggacggct tctgcggaca 60gagcc 6529761DNAArtificial Sequenceprobe/primer/pcr 297cctgagacag gccgaaccca actcttcaca gggccgaatt ctttgcccgc agcccagcac 60c 6129852DNAArtificial Sequenceprobe/primer/pcr 298cagagggggg tgccggggtc gcggactgcc accaggttga ggaaaggagg gg 5229960DNAArtificial Sequenceprobe/primer/pcr 299cgacatcctg cggacctact cgggcgcctt cgtctgcctg gagattgtaa gtggggccgc 6030054DNAArtificial Sequenceprobe/primer/pcr 300accgcctcct ccccgctgtc tgggtcgcag gccttagcga cgggctgttc tccg 5430153DNAArtificial Sequenceprobe/primer/pcr 301ctcgggactc cagggctgtc cctcccgcag gctgtccttc cacctccacc cca 5330258DNAArtificial Sequenceprobe/primer/pcr 302cggccgctcc tcgtaggcca ggctggaggc aagctccttc tcctcaaagc tgcgctgc 5830352DNAArtificial Sequenceprobe/primer/pcr 303catctcttcc cccgactccg acgactggtg cgtcttgccc ggacatgccc gg 5230461DNAArtificial Sequenceprobe/primer/pcr 304cccaagaccc taaagttcgt cgtcgtcatc gtcgcggtcc tgctgccagt gagtcccggc 60c 6130552DNAArtificial Sequenceprobe/primer/pcr 305cccactcttc ccctgactcc gacggcgggt tcgtcctgcc cagacatgcc cg 5230651DNAArtificial Sequenceprobe/primer/pcr 306gtccccctct ctctctgccc cctcccggtg ccaggcgcgc ttttccccag g 5130765DNAArtificial Sequenceprobe/primer/pcr 307cagcctgctg aggggaagag ggggtctccg ctcttcctca gtgcactctc tgactgaagc 60ccggc 6530851DNAArtificial Sequenceprobe/primer/pcr 308actgactccg gaggctgcag ggctggagtg cgcggggctc ctacggccga g 5130950DNAArtificial Sequenceprobe/primer/pcr 309ggccaggctc gggcaggggc cgtgctcagg tgcggcagac ggacgggccg 5031054DNAArtificial Sequenceprobe/primer/pcr 310ccgggcttct gggacgctca gccgtgcgct acccggtgca gctgctttct cacc 5431158DNAArtificial Sequenceprobe/primer/pcr 311tttaggtaga cgtggaggcg actcagatcg cctcgcggtt cccgggatgg cgcggtcg 5831253DNAArtificial Sequenceprobe/primer/pcr 312tgaccaggac cgcaggcaag caccgcggcg acggttccag ccaggaaaat gag 5331351DNAArtificial Sequenceprobe/primer/pcr 313gggccggacc cggcctctgg ctcgctcctg ctctttctca aacatggcgc g 5131463DNAArtificial Sequenceprobe/primer/pcr 314gccgcgctcc tcgcaccgcc ttctccgcag gtctttattc atcatctcat ctccctcttc 60ccc 6331550DNAArtificial Sequenceprobe/primer/pcr 315gagctgcgaa ctggtcggcg gcgcaaggcg cggactccgg tgagttgtgt 5031650DNAArtificial Sequenceprobe/primer/pcr 316gcccgcgttc ctctccctcc cgcctaccgc cactttcccg ccctgtgtgc 5031750DNAArtificial Sequenceprobe/primer/pcr 317acgcgtcgcg gagtcctcac tgccccgcct cgctctggca gagtggggag 5031857DNAArtificial Sequenceprobe/primer/pcr 318gcgagcagcg gcctccagcg ctggtggctc cctttatagg agcgctggag acacggg 5731955DNAArtificial Sequenceprobe/primer/pcr 319ggggaaggcg gagggcgagg ggaagagtca ctgagctgcg gggcataggg ggtcc 5532063DNAArtificial Sequenceprobe/primer/pcr 320ctctgctcgc gtgctgctct gaagttgttc cccgatgcgc cgtaggaagc tgggattctc 60cca 6332165DNAArtificial Sequenceprobe/primer/pcr 321agggaggtcg ttttcttcag ctccccaggt ggtctgtgct gggtgtgctg acggtccttt 60tggga 6532250DNAArtificial Sequenceprobe/primer/pcr 322gcccctggcc ctgactgctg gtgcgaggca gtgcacgact cagctggccg 5032357DNAArtificial Sequenceprobe/primer/pcr 323ggccgggtaa cggagaggga gtcgccagga atgtggctct ggggactgcc tcgctcg 5732460DNAArtificial Sequenceprobe/primer/pcr 324ggccgggact ttctggtaag gagaggaggt tacggggaac gacgcgctgc tttcatgccc 6032550DNAArtificial Sequenceprobe/primer/pcr 325cagtctgggg accggggagg cggggagagg gaaggggaaa gcgcggacgc 5032664DNAArtificial Sequenceprobe/primer/pcr 326gtctatcaaa agtcttttcg tttccccctc cccctttccc caccgcccac caaaatgagc 60cgcg 6432751DNAArtificial Sequenceprobe/primer/pcr 327atgccgccat cgcggttcat gccgttctcg tggttcacac cgccctcagg g 5132851DNAArtificial Sequenceprobe/primer/pcr 328tcccggtctt cggatccgag ccggtcctcg ggaaagagcc tgccaccgcg t 5132964DNAArtificial Sequenceprobe/primer/pcr 329tgagaggctc cggtaaagcc gtccggcaat gttccacctg gaaagttcca gggcagggga 60aggg 6433063DNAArtificial Sequenceprobe/primer/pcr 330cccagggaga gggagaggag gcgggtggga gaggaggagg gtgtatctcc tttcgtcggc 60ccg 6333150DNAArtificial Sequenceprobe/primer/pcr 331cccgtcttct ctcccgcagc tgcctcagtc ggctactctc agccaacccc 5033265DNAArtificial Sequenceprobe/primer/pcr 332gacccccctt tggcccccta ccctgcagca agggtagcgt gacgtaatgc aacctcagca 60tgtca 6533360DNAArtificial Sequenceprobe/primer/pcr 333ccccgaagcc cttgctttgt tctgtgagcg cctcgtgtca gccaggcgca gtgagctcac 6033457DNAArtificial Sequenceprobe/primer/pcr 334cgcgcggcct tccccctgcg aggatcgcca ttggcccggg ttggctttgg aaagcgg 5733565DNAArtificial Sequenceprobe/primer/pcr 335ccacccagtt caacgttcca cgaaccccca gaaccagccc tcatcaacag gcagcaagaa 60gggcc 6533657DNAArtificial Sequenceprobe/primer/pcr 336aagcagctgt gtaatccgct ggatgcggac cagggcgctc cccattcccg tcgggag 5733762DNAArtificial Sequenceprobe/primer/pcr 337ccacgcaccc cctctcagtg gcgtcggaac tgcaaagcac ctgtgagctt gcggaagtca 60gt 6233862DNAArtificial Sequenceprobe/primer/pcr 338ccacgcaccc cctctcagtg gcgtcggaac tgcaaagcac ctgtgagctt gcggaagtca 60gt 6233958DNAArtificial Sequenceprobe/primer/pcr 339ccctccaccg gaagtgaaac cgaaacggag ctgagcgcct gactgaggcc gaaccccc 5834065DNAArtificial Sequenceprobe/primer/pcr 340ttgtcccttt ttcgtttgct catccttttt ggcgctaact cttaggcagc cagcccagca 60gcccg 6534159DNAArtificial Sequenceprobe/primer/pcr 341ttctcaggcc tatgccggag cctcgagggc tggagagcgg gaagacaggc agtgctcgg 5934265DNAArtificial Sequenceprobe/primer/pcr 342cagcgtttcc tgtggcctct gggacctctt ggccagggac aaggacccgt gacttccttg 60cttgc 6534360DNAArtificial Sequenceprobe/primer/pcr 343aggcaggccc gcaagccgtg tgagccgtcg cagccgtggc atcgttgagg agtgctgttt 6034465DNAArtificial Sequenceprobe/primer/pcr 344gactctgggt atgttctcga aagttgttac aaccccaacc cagggttgac ctcaaacaca 60ggagg 6534557DNAArtificial Sequenceprobe/primer/pcr 345ctctggctct cctgctccat cgcgctcctc cgcgcccttg ccacctccaa cgcccgt 5734658DNAArtificial Sequenceprobe/primer/pcr 346cgggagcgcg gctgttcctg gtagggccgt gtcaggtgac ggatgtagct agggggcg 5834764DNAArtificial Sequenceprobe/primer/pcr 347ccccaagccg cagaaggacg acgggagggt aatgaagctg agcccaggtc tcctaggaag 60gaga 6434860DNAArtificial Sequenceprobe/primer/pcr 348gggctcttcc gccagcaccg gaggaagaaa gaggaggggc tggctggtca ccagagggtg 6034965DNAArtificial Sequenceprobe/primer/pcr 349ttctcttcca tcccatcctc ccttctggtc ctcctttcca cagtgggagt ccgtgctcct 60gctcc 6535057DNAArtificial Sequenceprobe/primer/pcr 350ccgcctctgt gcctccgcca acccgacaac gcttgctccc accccgatcc ccgcacc 5735157DNAArtificial Sequenceprobe/primer/pcr 351ccgcgccacg tgagggcggc aagagggcac tggccctgcg gcgaggcccc agcgagg 5735258DNAArtificial Sequenceprobe/primer/pcr 352cactgctgat aggtgcaggc aggacagtcc ctccaccgcg gctcggggcg tcctgatt 5835357DNAArtificial Sequenceprobe/primer/pcr 353cgggagcctc gcggacgtga cgccgcgggc ggaagtgacg ttttcccgcg gttggac 5735457DNAArtificial Sequenceprobe/primer/pcr 354tgtcctcccg gtgtcccgct tctccgcgcc ccagccgccg gctgccagct tttcggg 5735557DNAArtificial Sequenceprobe/primer/pcr 355ggtgtcgcga caggtcctat tgcgggtgtc tgcggtggga agggcggtgg tgactgg 5735662DNAArtificial Sequenceprobe/primer/pcr 356acatatgaca acgcctgcca tattgtccct gcggcaaaac ccaacacgaa aagcacacag 60ca 6235764DNAArtificial Sequenceprobe/primer/pcr 357ggaaaccctc acccaggaga tacacaggag cactggcttt ggcagcagct cacaatgaga 60aaga 6435865DNAArtificial Sequenceprobe/primer/pcr 358ttaccattgg cttagggaaa ggagcttact gggaactggg agctaggtgg cctgaggaga 60ctggg 6535957DNAArtificial Sequenceprobe/primer/pcr 359aagaacaggc acgcgtgctg gcagaaaccc ccggtatgac cgtgaaaacg gcccgcc 57360115DNAArtificial Sequenceprobe/primer/pcr 360ccggggactc cagggcgccc ctctgcggcc gacgcccggg gtgcagcggc cgccggggct 60ggggccggcg ggagtccgcg ggaccctcca gaagagcggc cggcgccgtg actca 11536120DNAArtificial Sequenceprobe/primer/pcr 361tcacgggggc ggggagacgc 2036222DNAArtificial Sequenceprobe/primer/pcr 362gcacagggtg gggcagggag ca 2236320DNAArtificial Sequenceprobe/primer/pcr 363accgggcctt ccgcgcccct 2036428DNAArtificial Sequenceprobe/primer/pcr 364tcccacctcc cccaacattc cagttcct 2836526DNAArtificial Sequenceprobe/primer/pcr 365tcacagagcc aggcaagcat gggtga 2636623DNAArtificial Sequenceprobe/primer/pcr 366ggagcagcag gctcgctcgg gga 2336722DNAArtificial Sequenceprobe/primer/pcr 367gcccaaagtg cggggccaac cc 2236829DNAArtificial Sequenceprobe/primer/pcr 368cggaaagagg aaggcatttg ctgggcaat 2936920DNAArtificial Sequenceprobe/primer/pcr 369ccagcggccc cgcgggattt 2037020DNAArtificial Sequenceprobe/primer/pcr 370ccgacagcgc ccggcccaga 2037120DNAArtificial Sequenceprobe/primer/pcr 371tgggccaatc cccgcggctg 2037220DNAArtificial Sequenceprobe/primer/pcr 372gggcggctgc ggggagcgat 2037320DNAArtificial Sequenceprobe/primer/pcr 373cgccaggacc gcgcacagca 2037421DNAArtificial Sequenceprobe/primer/pcr 374gcgggcaaga gagcgcggga g 2137520DNAArtificial Sequenceprobe/primer/pcr 375agcgcgcagc caggggcgac 2037621DNAArtificial Sequenceprobe/primer/pcr 376cgtgcgctca cccagccgca g 2137720DNAArtificial Sequenceprobe/primer/pcr 377tgagggcccg gggtggggct 2037820DNAArtificial Sequenceprobe/primer/pcr 378atatgcgccc ggcgcggtgg 2037920DNAArtificial Sequenceprobe/primer/pcr 379ccgcagggga aggccgggga 2038020DNAArtificial Sequenceprobe/primer/pcr 380tcctgaggcg gggccgtccg 2038120DNAArtificial Sequenceprobe/primer/pcr 381ggaggccggg gacgccgaga 2038220DNAArtificial Sequenceprobe/primer/pcr 382gccgccggct cccccgtatg 2038320DNAArtificial Sequenceprobe/primer/pcr 383gcaggagcga cgcgcgccaa 2038421DNAArtificial Sequenceprobe/primer/pcr 384cgggggaaac gcaggcgtcg g 2138521DNAArtificial Sequenceprobe/primer/pcr 385ccccccaccc tggacccgca g 2138620DNAArtificial Sequenceprobe/primer/pcr 386cgcccggctt tccggcgcac 2038720DNAArtificial Sequenceprobe/primer/pcr

387ccgctgggcc gccccttgct 2038829DNAArtificial Sequenceprobe/primer/pcr 388cgcttctcca tagctcgcca cacacacac 2938920DNAArtificial Sequenceprobe/primer/pcr 389tccgcgcacg cgcaagtcca 2039024DNAArtificial Sequenceprobe/primer/pcr 390cgtctcaact caccgccgcc accg 2439128DNAArtificial Sequenceprobe/primer/pcr 391gacaaatgcg ctgctcggag agactgcc 2839225DNAArtificial Sequenceprobe/primer/pcr 392tgcgcctgcg cagtgcagct tagtg 2539329DNAArtificial Sequenceprobe/primer/pcr 393gaagtcaagg gctttcaacc tcccctgcc 2939422DNAArtificial Sequenceprobe/primer/pcr 394tggatcccgc acaggggctg ca 2239523DNAArtificial Sequenceprobe/primer/pcr 395gccgcctgtg gttttccgcg cat 2339620DNAArtificial Sequenceprobe/primer/pcr 396gcgcgctctc ccgcgcctct 2039720DNAArtificial Sequenceprobe/primer/pcr 397ttccggccca gccccaaccc 2039821DNAArtificial Sequenceprobe/primer/pcr 398tccgggtcag gcgcacaggg c 2139921DNAArtificial Sequenceprobe/primer/pcr 399gggggcggtg cctgcgccat a 2140022DNAArtificial Sequenceprobe/primer/pcr 400ggcgcgggcc ctcaggttct cc 2240120DNAArtificial Sequenceprobe/primer/pcr 401gcgtccgcgg ctcctcagcg 2040220DNAArtificial Sequenceprobe/primer/pcr 402gggaggcgcc cagcgagcca 2040327DNAArtificial Sequenceprobe/primer/pcr 403gcgcgcaggg ggccttatac aaagtcg 2740428DNAArtificial Sequenceprobe/primer/pcr 404cccccacccc ctttctttct gggttttg 2840520DNAArtificial Sequenceprobe/primer/pcr 405cgcgcgttcc ctcccgtccg 2040620DNAArtificial Sequenceprobe/primer/pcr 406gccggcggag gcagccgttc 2040721DNAArtificial Sequenceprobe/primer/pcr 407tgcctggtgc cccgagcgag c 2140820DNAArtificial Sequenceprobe/primer/pcr 408cggcggcggc gctacctgga 2040920DNAArtificial Sequenceprobe/primer/pcr 409gtggtggcca gcggggagcg 2041022DNAArtificial Sequenceprobe/primer/pcr 410ggcggcactg aactcgcggc aa 2241121DNAArtificial Sequenceprobe/primer/pcr 411cctcggcgat ccccggcctg a 2141220DNAArtificial Sequenceprobe/primer/pcr 412acgcagggag cgcgcggagg 2041328DNAArtificial Sequenceprobe/primer/pcr 413tgaaatactc ccccacagtt ttcatgtg 2841420DNAArtificial Sequenceprobe/primer/pcr 414tccgggcgca cggggagctg 2041520DNAArtificial Sequenceprobe/primer/pcr 415ggcggcggcg tccagccaga 2041620DNAArtificial Sequenceprobe/primer/pcr 416agggtcgccg aggccgtgcg 2041720DNAArtificial Sequenceprobe/primer/pcr 417ccgcgcctga tgcacgtggg 2041820DNAArtificial Sequenceprobe/primer/pcr 418gccgggagcg ggcggaggaa 2041920DNAArtificial Sequenceprobe/primer/pcr 419aggggcgcac cgggctggct 2042021DNAArtificial Sequenceprobe/primer/pcr 420tgccacggga ggaggcggga a 2142120DNAArtificial Sequenceprobe/primer/pcr 421cgggcatcgg cgcgggatga 2042220DNAArtificial Sequenceprobe/primer/pcr 422acaccgccgg cgcccaccac 2042320DNAArtificial Sequenceprobe/primer/pcr 423cccccaacag cgcgcagcga 2042420DNAArtificial Sequenceprobe/primer/pcr 424gccccgctgg ggacctggga 2042522DNAArtificial Sequenceprobe/primer/pcr 425tcccggggga cccactcgag gc 2242620DNAArtificial Sequenceprobe/primer/pcr 426gcccgcggag gggcacacca 2042720DNAArtificial Sequenceprobe/primer/pcr 427ggcccacgtg ctcgcgccaa 2042820DNAArtificial Sequenceprobe/primer/pcr 428cggcggagcg gcgaggagga 2042920DNAArtificial Sequenceprobe/primer/pcr 429gcctcgccgg ttcccgggtg 2043020DNAArtificial Sequenceprobe/primer/pcr 430gcaggcgcgc cgatggcgtt 2043124DNAArtificial Sequenceprobe/primer/pcr 431cctcccggct tctgcatcga gggc 2443220DNAArtificial Sequenceprobe/primer/pcr 432gcggtccgcg agtgggagcg 2043320DNAArtificial Sequenceprobe/primer/pcr 433agcagcgccg cctcccaccc 2043420DNAArtificial Sequenceprobe/primer/pcr 434ccgaccgtgc tggcggcgac 2043520DNAArtificial Sequenceprobe/primer/pcr 435tcccgggctc cgctcgccaa 2043626DNAArtificial Sequenceprobe/primer/pcr 436gcatggggtg ctcatcttcc cggagc 2643720DNAArtificial Sequenceprobe/primer/pcr 437cccgagagcc ggagcgggga 2043820DNAArtificial Sequenceprobe/primer/pcr 438gccgctgcag ggcgtctggg 2043922DNAArtificial Sequenceprobe/primer/pcr 439gcgctgcccc aagctggctt cc 2244026DNAArtificial Sequenceprobe/primer/pcr 440tcaggatgcc agcgtgacgg aagcaa 2644120DNAArtificial Sequenceprobe/primer/pcr 441gggcggtgcc atcgcgtcca 2044220DNAArtificial Sequenceprobe/primer/pcr 442ggtgggtcgc cgccgggaga 2044320DNAArtificial Sequenceprobe/primer/pcr 443aggcggaggg ccacgcaggg 2044420DNAArtificial Sequenceprobe/primer/pcr 444ggtccggggg cgccgctgat 2044520DNAArtificial Sequenceprobe/primer/pcr 445gcggcctgcg gctcggttcc 2044620DNAArtificial Sequenceprobe/primer/pcr 446cgggaaccgt ggcggcccct 2044720DNAArtificial Sequenceprobe/primer/pcr 447gcggggaagg cggggaaggc 2044818DNAArtificial Sequenceprobe/primer/pcr 448gcctcccggt ttcaggcc 1844920DNAArtificial Sequenceprobe/primer/pcr 449cagcccgcgc accgaccagc 2045023DNAArtificial Sequenceprobe/primer/pcr 450cccccagcca caccagacgt ggg 2345125DNAArtificial Sequenceprobe/primer/pcr 451tgggcttcct gccccatggt tccct 2545221DNAArtificial Sequenceprobe/primer/pcr 452tccgcgctgg gccgcagctt t 2145320DNAArtificial Sequenceprobe/primer/pcr 453gcatggcccg gtggcctgca 2045424DNAArtificial Sequenceprobe/primer/pcr 454tgggcagggg aggggagtgc ttga 2445521DNAArtificial Sequenceprobe/primer/pcr 455tccccggcgc cttcctcctc c 2145623DNAArtificial Sequenceprobe/primer/pcr 456tccaccgcgc ttcccggcta tgc 2345723DNAArtificial Sequenceprobe/primer/pcr 457cccgcatctg accgcaggac ccc 2345824DNAArtificial Sequenceprobe/primer/pcr 458tgcggacacg tgcttttccc gcat 2445929DNAArtificial Sequenceprobe/primer/pcr 459ggagctggaa gagtttgtga gggcggtcc 2946020DNAArtificial Sequenceprobe/primer/pcr 460cggccgccaa cgacgccaga 2046120DNAArtificial Sequenceprobe/primer/pcr 461agcgcccggt cagcccgcag 2046220DNAArtificial Sequenceprobe/primer/pcr 462tcccgccagg cccagcccct 2046327DNAArtificial Sequenceprobe/primer/pcr 463ccgattcttc ccagcagatg gccccaa 2746420DNAArtificial Sequenceprobe/primer/pcr 464acgcacaccg cccccaagcg 2046520DNAArtificial Sequenceprobe/primer/pcr 465taggccccga ggccggagcg 2046621DNAArtificial Sequenceprobe/primer/pcr 466ggggttcgcg cgagcgcttt g 2146723DNAArtificial Sequenceprobe/primer/pcr 467gccagtctcc cgccccctga gca 2346822DNAArtificial Sequenceprobe/primer/pcr 468tgaggaggca gcggaccggg ga 2246920DNAArtificial Sequenceprobe/primer/pcr 469gccggctcca cggacccacg 2047020DNAArtificial Sequenceprobe/primer/pcr 470gccgccaccg ccaccatgcc 2047129DNAArtificial Sequenceprobe/primer/pcr 471ttgagtaagg atgataccga gagggaaga 2947221DNAArtificial Sequenceprobe/primer/pcr 472tgggccaggc acggtggctc a 2147320DNAArtificial Sequenceprobe/primer/pcr 473cccggcgaag tgggcggctc 2047422DNAArtificial Sequenceprobe/primer/pcr 474ggcggcctta ccctgccgcg ag 2247520DNAArtificial Sequenceprobe/primer/pcr 475ggtggggccg gcgagggtca 2047622DNAArtificial Sequenceprobe/primer/pcr 476tcggcgcgga ccggctcctc ta 2247720DNAArtificial Sequenceprobe/primer/pcr 477ggcccatgcg gccccgtcac 2047822DNAArtificial Sequenceprobe/primer/pcr 478tgggattgcc aggggctgac cg 2247922DNAArtificial Sequenceprobe/primer/pcr 479cgccggagca cgcggctact ca 2248020DNAArtificial Sequenceprobe/primer/pcr 480ccctcggcgc cggcccgtta 2048120DNAArtificial Sequenceprobe/primer/pcr 481gcacagcggc ggcgagtggg 2048220DNAArtificial Sequenceprobe/primer/pcr 482tcacctcggg cggggcggac 2048320DNAArtificial Sequenceprobe/primer/pcr 483gagacggggc cgggcgcaga 2048421DNAArtificial Sequenceprobe/primer/pcr 484cgcattcggg ccgcaagctc c 2148520DNAArtificial Sequenceprobe/primer/pcr 485ggcccgaaag ggccggagcg 2048620DNAArtificial Sequenceprobe/primer/pcr 486acggcggccg ggtgaccgac 2048720DNAArtificial Sequenceprobe/primer/pcr 487tccaccggcg gccgctcacc 2048822DNAArtificial Sequenceprobe/primer/pcr 488gcggtcaggg acccccttcc cc 2248920DNAArtificial Sequenceprobe/primer/pcr 489cggccgaagc tgccgcccct 2049020DNAArtificial Sequenceprobe/primer/pcr 490ggcggccttg tgccgctggg 2049120DNAArtificial Sequenceprobe/primer/pcr 491tcgcgggagg agcggcgagg 2049225DNAArtificial Sequenceprobe/primer/pcr 492tgcccaccag aagcccatca ccacc 2549320DNAArtificial Sequenceprobe/primer/pcr 493tgggccatgt gccccacccc 2049420DNAArtificial Sequenceprobe/primer/pcr 494cccgccagcc cagggcgaga 2049524DNAArtificial Sequenceprobe/primer/pcr 495gccccctgtc cctttcccgg gact 2449623DNAArtificial Sequenceprobe/primer/pcr 496ggtgggggtc cgcacccagc aat 2349720DNAArtificial Sequenceprobe/primer/pcr 497ggggcccccg ggttgcgtga 2049824DNAArtificial Sequenceprobe/primer/pcr 498tgcctgcaca gacgacagca cccc 2449920DNAArtificial Sequenceprobe/primer/pcr 499aggccgcgcc gggctcaggt 2050023DNAArtificial Sequenceprobe/primer/pcr 500cggggtagtc gcgcaggtgt cgg 2350127DNAArtificial Sequenceprobe/primer/pcr 501tgcaggcgga gaatagcagc ctccctc 2750224DNAArtificial Sequenceprobe/primer/pcr 502ccggaaatgc tgctgcaaga ggca 2450329DNAArtificial Sequenceprobe/primer/pcr 503gcgtcggatc cctgagaact tcgaagcca 2950420DNAArtificial Sequenceprobe/primer/pcr 504cccggctccg cgggttccgt 2050521DNAArtificial Sequenceprobe/primer/pcr 505gcgtcgccgg ggctggacgt t 2150620DNAArtificial Sequenceprobe/primer/pcr 506ggggcctgcc gcctcgtcca 2050721DNAArtificial Sequenceprobe/primer/pcr 507cgcacaccgc tggcggacac c 2150825DNAArtificial Sequenceprobe/primer/pcr 508cgcaaaccat cttccccgac gcctt 2550920DNAArtificial Sequenceprobe/primer/pcr 509gggccctccg ccgcctccaa 2051023DNAArtificial Sequenceprobe/primer/pcr 510ccaccaccgt ggcaaagcgt ccc 2351124DNAArtificial Sequenceprobe/primer/pcr 511tcacagcccc ttcctgcccg aaca 2451229DNAArtificial Sequenceprobe/primer/pcr 512tgcttgatgc tcaccactgt tcttgctgc 2951321DNAArtificial Sequenceprobe/primer/pcr 513ggccaggccc ggtggctcac a 2151420DNAArtificial Sequenceprobe/primer/pcr 514tgcgggacgg gtggcgggaa 2051520DNAArtificial Sequenceprobe/primer/pcr 515ggcttggccc cgccacccag 2051620DNAArtificial Sequenceprobe/primer/pcr 516ggcggggaag gcgaccgcag 2051719DNAArtificial Sequenceprobe/primer/pcr 517ggcgcccaac caccacgcc 1951821DNAArtificial Sequenceprobe/primer/pcr 518gaaaagcccc ggccggcctc c 2151920DNAArtificial Sequenceprobe/primer/pcr 519ccgcaggtgc gggggagcgt 2052021DNAArtificial Sequenceprobe/primer/pcr 520ccccgcccac agcgcggagt t 2152120DNAArtificial Sequenceprobe/primer/pcr 521agcaggggcc cgggggcgat 2052223DNAArtificial Sequenceprobe/primer/pcr 522ccatgaccgc ggtggcttgt ggg 2352323DNAArtificial Sequenceprobe/primer/pcr 523ggcaggtgct cagcgggcag acg 2352420DNAArtificial Sequenceprobe/primer/pcr 524gggtgcgccc tgcgctggct 2052525DNAArtificial Sequenceprobe/primer/pcr 525gaatttggtc ctcctgcgcc tgcca 2552620DNAArtificial Sequenceprobe/primer/pcr 526tggcttccgc ggcgccaatc 2052722DNAArtificial Sequenceprobe/primer/pcr 527ggccaggaga ggggccgagc ct 2252820DNAArtificial Sequenceprobe/primer/pcr 528cgagcgccgg ccccccttct 2052923DNAArtificial Sequenceprobe/primer/pcr 529cggttgcgag ggcacccttt ggc 2353018DNAArtificial Sequenceprobe/primer/pcr 530tacccggacg cggtggcg 1853120DNAArtificial Sequenceprobe/primer/pcr 531gcgccgccga gcctcagcca 2053221DNAArtificial Sequenceprobe/primer/pcr 532tgcagcctca acctcctggg g 2153324DNAArtificial Sequenceprobe/primer/pcr 533ccttgccgac ccagcctcga tccc 2453421DNAArtificial Sequenceprobe/primer/pcr 534ggcggcgttc ggtggtgtcc c 2153520DNAArtificial Sequenceprobe/primer/pcr 535cccggactcc cccgcgcaga 2053620DNAArtificial Sequenceprobe/primer/pcr 536cggccccctg caagttccgc 2053719DNAArtificial Sequenceprobe/primer/pcr 537tgcccagggg agccctcca

1953823DNAArtificial Sequenceprobe/primer/pcr 538gccggctgca ggccctcact ggt 2353928DNAArtificial Sequenceprobe/primer/pcr 539tgtcacacct gccgatgaaa ctcctgcg 2854023DNAArtificial Sequenceprobe/primer/pcr 540cccctgcgca cccctaccag gca 2354120DNAArtificial Sequenceprobe/primer/pcr 541tcctggggga gcgcggtggg 2054220DNAArtificial Sequenceprobe/primer/pcr 542agtggggccg ggcgagtgcg 2054322DNAArtificial Sequenceprobe/primer/pcr 543gcgtccaggc tgtgcgctcc cc 2254420DNAArtificial Sequenceprobe/primer/pcr 544ggcgcggcgg tgcagcctct 2054520DNAArtificial Sequenceprobe/primer/pcr 545gaggcggcgg cggtggcagt 2054620DNAArtificial Sequenceprobe/primer/pcr 546cgcgcgaccc gccgattgtg 2054720DNAArtificial Sequenceprobe/primer/pcr 547ccgcggacgc cgctctgcac 2054823DNAArtificial Sequenceprobe/primer/pcr 548tgaacccggg aggcggaggt tgc 2354920DNAArtificial Sequenceprobe/primer/pcr 549tctcggcggc gcggggagtc 2055020DNAArtificial Sequenceprobe/primer/pcr 550aggcggccac gggaggggga 2055120DNAArtificial Sequenceprobe/primer/pcr 551ggacccgagc ggggcggaga 2055222DNAArtificial Sequenceprobe/primer/pcr 552aagcacctgg ggcggggcgg ag 2255320DNAArtificial Sequenceprobe/primer/pcr 553gccgctcggg ggacgtggga 2055420DNAArtificial Sequenceprobe/primer/pcr 554caccgccagc gtgccagccc 2055520DNAArtificial Sequenceprobe/primer/pcr 555tattcttggc cgggtgcggt 2055620DNAArtificial Sequenceprobe/primer/pcr 556ccgcttcccg cgagcgagcc 2055720DNAArtificial Sequenceprobe/primer/pcr 557cagccggcgc tccgcacctg 2055820DNAArtificial Sequenceprobe/primer/pcr 558gcggagcgcg cttggcctca 2055925DNAArtificial Sequenceprobe/primer/pcr 559ggcctcgagc ccacccagac ttggc 2556021DNAArtificial Sequenceprobe/primer/pcr 560tgccgcgccg taagggccac c 2156120DNAArtificial Sequenceprobe/primer/pcr 561acggcggtgg cggtgggtcg 2056227DNAArtificial Sequenceprobe/primer/pcr 562aacctgccca gttactgccc cactccg 2756320DNAArtificial Sequenceprobe/primer/pcr 563tccagcgccc gagccgtcca 2056420DNAArtificial Sequenceprobe/primer/pcr 564gctgctgctg cccgcgtccg 2056527DNAArtificial Sequenceprobe/primer/pcr 565cactgcttag gccacacgat cccccaa 2756620DNAArtificial Sequenceprobe/primer/pcr 566ggccggacgc gcctcccaag 2056720DNAArtificial Sequenceprobe/primer/pcr 567tcggccaggg tgccgagggc 2056820DNAArtificial Sequenceprobe/primer/pcr 568tccgcccgcc ccacagccag 2056920DNAArtificial Sequenceprobe/primer/pcr 569cgcgccccag cccacccact 2057020DNAArtificial Sequenceprobe/primer/pcr 570ccgtgctggg cgcaggggaa 2057120DNAArtificial Sequenceprobe/primer/pcr 571tgcgcacgcg cacagcctcc 2057220DNAArtificial Sequenceprobe/primer/pcr 572cggtgagtgc ggcccgggga 2057323DNAArtificial Sequenceprobe/primer/pcr 573tggccgagag ggagccccac acc 2357420DNAArtificial Sequenceprobe/primer/pcr 574cccagcgccg caacgcccag 2057520DNAArtificial Sequenceprobe/primer/pcr 575gccacaagcg ggcgggacgg 2057625DNAArtificial Sequenceprobe/primer/pcr 576tcctctggac aacggggagc gggaa 2557720DNAArtificial Sequenceprobe/primer/pcr 577cgcgggttcc cggcgtctcc 2057820DNAArtificial Sequenceprobe/primer/pcr 578gcgccgcccg tcctgcttgc 2057920DNAArtificial Sequenceprobe/primer/pcr 579acgcgcggcc ctcctgcacc 2058022DNAArtificial Sequenceprobe/primer/pcr 580gggcggggca agccctcacc tg 2258120DNAArtificial Sequenceprobe/primer/pcr 581gggagcgccc cctggcggtt 2058221DNAArtificial Sequenceprobe/primer/pcr 582gcgaatggtt cgcgccggcc t 2158320DNAArtificial Sequenceprobe/primer/pcr 583tttccgccgg ctgggccctc 2058420DNAArtificial Sequenceprobe/primer/pcr 584tctccgggtc ccccgcgtgc 2058525DNAArtificial Sequenceprobe/primer/pcr 585gcagcccggg tagggttcac cgaaa 2558624DNAArtificial Sequenceprobe/primer/pcr 586gggcggagag aggtcctgcc cagc 2458723DNAArtificial Sequenceprobe/primer/pcr 587ccctcacccc agccgcgacc ctt 2358827DNAArtificial Sequenceprobe/primer/pcr 588gcgatgacgg gatccgagag aaaggca 2758920DNAArtificial Sequenceprobe/primer/pcr 589tccgcaggcc gcgggaaagg 2059024DNAArtificial Sequenceprobe/primer/pcr 590ggccccagtc cacctctggg agcg 2459120DNAArtificial Sequenceprobe/primer/pcr 591gcttggccgc ccccgggatg 2059224DNAArtificial Sequenceprobe/primer/pcr 592ccctccatgc gcaatcccaa gggc 2459320DNAArtificial Sequenceprobe/primer/pcr 593gcggcgactg cgctgcccct 2059421DNAArtificial Sequenceprobe/primer/pcr 594tgggcttgcc tccccgcccc t 2159520DNAArtificial Sequenceprobe/primer/pcr 595ggcggcccaa ggagggcgaa 2059620DNAArtificial Sequenceprobe/primer/pcr 596gctgcgcggc tggcgatcca 2059722DNAArtificial Sequenceprobe/primer/pcr 597tcaccgcctc cggacccctc cc 2259822DNAArtificial Sequenceprobe/primer/pcr 598cccttccagc caccccgccc tg 2259922DNAArtificial Sequenceprobe/primer/pcr 599gcgggacacc gggaggacag cg 2260025DNAArtificial Sequenceprobe/primer/pcr 600ccctgggttc ccggcttctc agcca 2560122DNAArtificial Sequenceprobe/primer/pcr 601tggcggtgat gggcggagga gg 2260220DNAArtificial Sequenceprobe/primer/pcr 602ccagcccgcc cggagcccat 2060320DNAArtificial Sequenceprobe/primer/pcr 603tgcccgcggg ggaatcgcag 2060421DNAArtificial Sequenceprobe/primer/pcr 604tgccgcgagc ccgtctgctc c 2160520DNAArtificial Sequenceprobe/primer/pcr 605tgcggccccc tcccggctga 2060620DNAArtificial Sequenceprobe/primer/pcr 606gcagcagggc gcggcttccc 2060720DNAArtificial Sequenceprobe/primer/pcr 607gccgcagcac gctcggacgg 2060822DNAArtificial Sequenceprobe/primer/pcr 608tgcggagtgc gggtcgggaa gc 2260920DNAArtificial Sequenceprobe/primer/pcr 609ggcgcggggg caggtgagca 2061021DNAArtificial Sequenceprobe/primer/pcr 610ggcgcggggg caggtgagca t 2161121DNAArtificial Sequenceprobe/primer/pcr 611cagtgacggg cggtgggcct g 2161221DNAArtificial Sequenceprobe/primer/pcr 612cggcgaccct ttggccgctg g 2161319DNAArtificial Sequenceprobe/primer/pcr 613ccgcggcagc ccgggtgaa 1961420DNAArtificial Sequenceprobe/primer/pcr 614gggcgagcga gcgggaccga 2061521DNAArtificial Sequenceprobe/primer/pcr 615tggggcagtg ccggtgtgct g 2161621DNAArtificial Sequenceprobe/primer/pcr 616tcgctggcat tcgggccccc t 2161723DNAArtificial Sequenceprobe/primer/pcr 617ggagccgtga tggagccggg agg 2361825DNAArtificial Sequenceprobe/primer/pcr 618tgccagggtg tcttggctct ggcct 2561920DNAArtificial Sequenceprobe/primer/pcr 619ccggctccgg cggggaagga 2062021DNAArtificial Sequenceprobe/primer/pcr 620ggccagggtg ccgtcgcgct t 2162128DNAArtificial Sequenceprobe/primer/pcr 621tcggctcggt cctgaggaga aggactca 2862220DNAArtificial Sequenceprobe/primer/pcr 622gcgcggggaa cctgcggctg 2062321DNAArtificial Sequenceprobe/primer/pcr 623gccgccgctg ctttgggtgg g 2162422DNAArtificial Sequenceprobe/primer/pcr 624cacctgagcc cgcgggggaa cc 2262520DNAArtificial Sequenceprobe/primer/pcr 625gaacgccggc ctcaccggca 2062623DNAArtificial Sequenceprobe/primer/pcr 626cccgtggtcc cagcgctcct gct 2362720DNAArtificial Sequenceprobe/primer/pcr 627gtgcgacccg gcgcccaagc 2062824DNAArtificial Sequenceprobe/primer/pcr 628tggctctgcg ctgcctttgg tggc 2462920DNAArtificial Sequenceprobe/primer/pcr 629cgcgcgggcg gctcctttgt 2063024DNAArtificial Sequenceprobe/primer/pcr 630tggcccgttg gcgaggttag agcg 2463120DNAArtificial Sequenceprobe/primer/pcr 631gacccggcat ccgggcaggc 2063228DNAArtificial Sequenceprobe/primer/pcr 632gcccggactg taatcacgtc cactggga 2863320DNAArtificial Sequenceprobe/primer/pcr 633ccgccgccaa cgcgcaggtc 2063420DNAArtificial Sequenceprobe/primer/pcr 634cgctgccagc tgccgctccg 2063520DNAArtificial Sequenceprobe/primer/pcr 635agcgcccacc tgcgcctcgc 2063620DNAArtificial Sequenceprobe/primer/pcr 636gcgggccagg gcggcatgaa 2063722DNAArtificial Sequenceprobe/primer/pcr 637ggctgcgacc tggggtccga cg 2263822DNAArtificial Sequenceprobe/primer/pcr 638ggttaggagg gcggggcgcg tg 2263922DNAArtificial Sequenceprobe/primer/pcr 639cagcgcacca acgcaggcga gg 2264020DNAArtificial Sequenceprobe/primer/pcr 640tcggctggcc ccgcccactc 2064120DNAArtificial Sequenceprobe/primer/pcr 641cggggttgcc gtcgcagcca 2064221DNAArtificial Sequenceprobe/primer/pcr 642tccgcactcc cgcccggttc c 2164322DNAArtificial Sequenceprobe/primer/pcr 643ggaccccctg ggcagcaccc tg 2264418DNAArtificial Sequenceprobe/primer/pcr 644cgaggcagcc ggatcacg 1864520DNAArtificial Sequenceprobe/primer/pcr 645ggcgcgtgcg ggcgttgtcc 2064621DNAArtificial Sequenceprobe/primer/pcr 646ccaggatgcg gcagcgccca c 2164720DNAArtificial Sequenceprobe/primer/pcr 647cgatgcggcc cgcggaggag 2064821DNAArtificial Sequenceprobe/primer/pcr 648cgttctgcgc gcgcccgact c 2164923DNAArtificial Sequenceprobe/primer/pcr 649ccccgccgtg ggcgtagtaa ccg 2365020DNAArtificial Sequenceprobe/primer/pcr 650aacccgcccg ggcagctcca 2065120DNAArtificial Sequenceprobe/primer/pcr 651gcagcggtcg cgcctcgtcg 2065226DNAArtificial Sequenceprobe/primer/pcr 652cgcaatcgcg ctgtctctga aagggg 2665321DNAArtificial Sequenceprobe/primer/pcr 653ggagcgcccg ccgttgatgc c 2165420DNAArtificial Sequenceprobe/primer/pcr 654ccatggcccg ctgcgccctc 2065520DNAArtificial Sequenceprobe/primer/pcr 655tgggggcggg gtgcaggggt 2065620DNAArtificial Sequenceprobe/primer/pcr 656ccgaccctgc gcccggcagt 2065727DNAArtificial Sequenceprobe/primer/pcr 657cggcttcaag tccacggccc tgtgatg 2765820DNAArtificial Sequenceprobe/primer/pcr 658accccacctg cccgcgctgc 2065920DNAArtificial Sequenceprobe/primer/pcr 659ggcgcgcgga gacgcagcag 2066022DNAArtificial Sequenceprobe/primer/pcr 660cgtgagccgg cgctcctgat gc 2266120DNAArtificial Sequenceprobe/primer/pcr 661ctgccgcggg ggtgccaagg 2066220DNAArtificial Sequenceprobe/primer/pcr 662cctgctgcgc gcgctggctc 2066322DNAArtificial Sequenceprobe/primer/pcr 663cctggcggcc caggtcgctc ct 2266420DNAArtificial Sequenceprobe/primer/pcr 664gagcgccccg gccgcctgat 2066520DNAArtificial Sequenceprobe/primer/pcr 665cgccgcacgg gacagccagg 2066620DNAArtificial Sequenceprobe/primer/pcr 666gcccggacat gccccgccac 2066720DNAArtificial Sequenceprobe/primer/pcr 667cgggggccgc cgcctgactt 2066820DNAArtificial Sequenceprobe/primer/pcr 668ccagtggcgg ccctcggcct 2066921DNAArtificial Sequenceprobe/primer/pcr 669cgcccggcgc ggataacggt c 2167022DNAArtificial Sequenceprobe/primer/pcr 670tgctccgggt ggggagggag gc 2267122DNAArtificial Sequenceprobe/primer/pcr 671tgcctgggcg cagaacgggg tc 2267226DNAArtificial Sequenceprobe/primer/pcr 672gggtcctaat ccccaggctg cgctga 2667320DNAArtificial Sequenceprobe/primer/pcr 673tccgcgtccc cggctgctcc 2067423DNAArtificial Sequenceprobe/primer/pcr 674gggcagggct gacgttggga gcg 2367520DNAArtificial Sequenceprobe/primer/pcr 675gccgtgggcg caggggctgt 2067620DNAArtificial Sequenceprobe/primer/pcr 676cctgcgcacg cgggaagggc 2067721DNAArtificial Sequenceprobe/primer/pcr 677cgcggacgca gccgagctca a 2167820DNAArtificial Sequenceprobe/primer/pcr 678cgacccatgg cggggcaggc 2067920DNAArtificial Sequenceprobe/primer/pcr 679tccgctcccc gcccctggct 2068020DNAArtificial Sequenceprobe/primer/pcr 680tgtgccgcgc ggttgggagg 2068124DNAArtificial Sequenceprobe/primer/pcr 681tcactcacgc tctcagcccg ggga 2468223DNAArtificial Sequenceprobe/primer/pcr 682cggcaagcgg gcttcgggaa gaa 2368320DNAArtificial Sequenceprobe/primer/pcr 683ccccgcgggc cgggtgagaa 2068420DNAArtificial Sequenceprobe/primer/pcr 684cggcggcggc tggagagcga 2068520DNAArtificial Sequenceprobe/primer/pcr 685cgggccccgg gactcggctt 2068623DNAArtificial Sequenceprobe/primer/pcr 686gacggaatgt ggggtgcggg cct 2368721DNAArtificial Sequenceprobe/primer/pcr 687tgcggctgct gccgaggctc c 2168820DNAArtificial Sequenceprobe/primer/pcr 688accgctgcgc gagggagggg

2068922DNAArtificial Sequenceprobe/primer/pcr 689gggggtgcgg cgtctggtca gc 2269020DNAArtificial Sequenceprobe/primer/pcr 690ggccggggga aatgcggcct 2069128DNAArtificial Sequenceprobe/primer/pcr 691tgcctggtag gactgacggc tgcctttg 2869221DNAArtificial Sequenceprobe/primer/pcr 692agcgcgggcg cctcgatctc c 2169321DNAArtificial Sequenceprobe/primer/pcr 693tcccggctgg tcggcgctcc t 2169420DNAArtificial Sequenceprobe/primer/pcr 694ccggggctgg gacggcgctt 2069520DNAArtificial Sequenceprobe/primer/pcr 695gggcggggtg gggctggagc 2069620DNAArtificial Sequenceprobe/primer/pcr 696gtgcggttgg gcggggccct 2069720DNAArtificial Sequenceprobe/primer/pcr 697ggcggtgcct ccggggctca 2069820DNAArtificial Sequenceprobe/primer/pcr 698ggcggtgcct ccggggctca 2069920DNAArtificial Sequenceprobe/primer/pcr 699cgggagcccg cccccgagag 2070022DNAArtificial Sequenceprobe/primer/pcr 700tcctgccatc cgcgcctttg ca 2270123DNAArtificial Sequenceprobe/primer/pcr 701aggcacaggg gcagctccgg cac 2370223DNAArtificial Sequenceprobe/primer/pcr 702cgacccctcc gaccgtgctt ccg 2370320DNAArtificial Sequenceprobe/primer/pcr 703cccgcagggt ggctgcgtcc 2070420DNAArtificial Sequenceprobe/primer/pcr 704gcgtctgccg gcccctcccc 2070520DNAArtificial Sequenceprobe/primer/pcr 705taggccgccg ggcagccacc 2070620DNAArtificial Sequenceprobe/primer/pcr 706ggggagcggg gacgcgagca 2070722DNAArtificial Sequenceprobe/primer/pcr 707gccggctggc tccccactct gc 2270822DNAArtificial Sequenceprobe/primer/pcr 708tcgctcacgg cgtccccttg cc 2270920DNAArtificial Sequenceprobe/primer/pcr 709tccccgctgc cctggcgctc 2071021DNAArtificial Sequenceprobe/primer/pcr 710ggccagaggc aggcccgcag c 2171122DNAArtificial Sequenceprobe/primer/pcr 711tgcccgggtc atcggacggg ag 2271220DNAArtificial Sequenceprobe/primer/pcr 712cccagtgcgc acggcgaggc 2071320DNAArtificial Sequenceprobe/primer/pcr 713agcgtcccag cccgcgcacc 2071420DNAArtificial Sequenceprobe/primer/pcr 714tgctcccccg ggtcggagcc 2071520DNAArtificial Sequenceprobe/primer/pcr 715cgctcgcatt ggggcgcgtc 2071621DNAArtificial Sequenceprobe/primer/pcr 716tgcggcaagc ccgccatgat g 2171731DNAArtificial Sequenceprobe/primer/pcr 717tcttgagcct caggagtgaa aaggcccctt g 3171832DNAArtificial Sequenceprobe/primer/pcr 718ggaccatgag tgtttccatg cttggcatca ga 3271925DNAArtificial Sequenceprobe/primer/pcr 719tcagccactg cttcgcaggc tgacg 2572020DNAArtificial Sequenceprobe/primer/pcr 720cggccagctg cgcggcgact 2072122DNAArtificial Sequenceprobe/primer/pcr 721tcggagaagc gcgaggggtc ca 2272220DNAArtificial Sequenceprobe/primer/pcr 722gccgggtggg ggctgccttg 2072320DNAArtificial Sequenceprobe/primer/pcr 723tcctcgcccg gcgcgattgg 2072423DNAArtificial Sequenceprobe/primer/pcr 724ggccgtgcag ttggtcccct ggc 2372525DNAArtificial Sequenceprobe/primer/pcr 725gcgagcctgc tgctcctctg gcacc 2572626DNAArtificial Sequenceprobe/primer/pcr 726gccagagctg tgcaggctcg gcattt 2672727DNAArtificial Sequenceprobe/primer/pcr 727tgcccagcaa atgccttcct ctttccg 2772824DNAArtificial Sequenceprobe/primer/pcr 728tggcctgacc accaatgcag ggga 2472924DNAArtificial Sequenceprobe/primer/pcr 729tccacctggg cttctgggca ggga 2473020DNAArtificial Sequenceprobe/primer/pcr 730agctggcctg cgccccgctg 2073120DNAArtificial Sequenceprobe/primer/pcr 731agccgcggca gcgccagtcc 2073222DNAArtificial Sequenceprobe/primer/pcr 732ggggccgggc cgctcagtct ct 2273327DNAArtificial Sequenceprobe/primer/pcr 733gcagtgagcg tcaggagcac gtccagg 2773420DNAArtificial Sequenceprobe/primer/pcr 734cccgatcccc cggcgcgaat 2073520DNAArtificial Sequenceprobe/primer/pcr 735ggcgtgaccg tggcgcggaa 2073622DNAArtificial Sequenceprobe/primer/pcr 736agcggcccgc agagctccac cc 2273720DNAArtificial Sequenceprobe/primer/pcr 737ggcaggcggg cgcagggaag 2073821DNAArtificial Sequenceprobe/primer/pcr 738tctgccccgg gttcacgcca t 2173920DNAArtificial Sequenceprobe/primer/pcr 739cgggcgggcc ctggcgagta 2074022DNAArtificial Sequenceprobe/primer/pcr 740gcaagcccgc caccccaggg ac 2274121DNAArtificial Sequenceprobe/primer/pcr 741ggcccaggcg gatggggttg g 2174226DNAArtificial Sequenceprobe/primer/pcr 742tccgagaggc gtgtggtagc gggaga 2674320DNAArtificial Sequenceprobe/primer/pcr 743aggcggccgc gggcgttagc 2074420DNAArtificial Sequenceprobe/primer/pcr 744aaggcagcgc gggccaccga 2074520DNAArtificial Sequenceprobe/primer/pcr 745ggcatcctgc ccgccgcctg 2074620DNAArtificial Sequenceprobe/primer/pcr 746tggggcgggg tctcgccgtc 2074720DNAArtificial Sequenceprobe/primer/pcr 747tcgggctcgc gcacctcccc 2074821DNAArtificial Sequenceprobe/primer/pcr 748ccaggtgcgc gcttcgctcc c 2174920DNAArtificial Sequenceprobe/primer/pcr 749acctgcgcca ccgccccacc 2075022DNAArtificial Sequenceprobe/primer/pcr 750gccgagcaga gggggcacct gg 2275120DNAArtificial Sequenceprobe/primer/pcr 751tcgcgccgct ctgcgttggg 2075220DNAArtificial Sequenceprobe/primer/pcr 752ccgccggggc agaaggcgag 2075327DNAArtificial Sequenceprobe/primer/pcr 753tccactggac aggggtggga gcctctg 2775420DNAArtificial Sequenceprobe/primer/pcr 754gcccaccggc gctgcgctct 2075520DNAArtificial Sequenceprobe/primer/pcr 755gcggtgccag ccccgctgtg 2075622DNAArtificial Sequenceprobe/primer/pcr 756gacccgcctg cgtcctccag gg 2275723DNAArtificial Sequenceprobe/primer/pcr 757cccatcacag ccgcccaacc agc 2375820DNAArtificial Sequenceprobe/primer/pcr 758gagcggggcg gagccgagga 2075929DNAArtificial Sequenceprobe/primer/pcr 759tgcaattgtg cagtggctgc gtttgtttc 2976027DNAArtificial Sequenceprobe/primer/pcr 760cccgaccgga tgctccttga ctttgcc 2776120DNAArtificial Sequenceprobe/primer/pcr 761gcgagcgcgc gcaccgattg 2076221DNAArtificial Sequenceprobe/primer/pcr 762cactccgccg gccgctcctc a 2176320DNAArtificial Sequenceprobe/primer/pcr 763tcgggggtcc cggccgaatg 2076428DNAArtificial Sequenceprobe/primer/pcr 764gctctcccag ctgcacgcca acttcttg 2876523DNAArtificial Sequenceprobe/primer/pcr 765ggaggagcct ggcgctggcg agt 2376623DNAArtificial Sequenceprobe/primer/pcr 766tggctctgga ccgcagccgg gta 2376720DNAArtificial Sequenceprobe/primer/pcr 767acggcggcgt cccgggtcaa 2076822DNAArtificial Sequenceprobe/primer/pcr 768tggccaagcg ctgccactcg ga 2276920DNAArtificial Sequenceprobe/primer/pcr 769cgcaggccgc tgcggtggag 2077021DNAArtificial Sequenceprobe/primer/pcr 770gcgcctgcgc catgtccacc a 2177123DNAArtificial Sequenceprobe/primer/pcr 771tggtgcctcc cgcaaccctt ggc 2377220DNAArtificial Sequenceprobe/primer/pcr 772gcccggctcc aggcggggaa 2077322DNAArtificial Sequenceprobe/primer/pcr 773gcaatgctgg ctgacctgga cc 2277420DNAArtificial Sequenceprobe/primer/pcr 774cgcccgcccg tcgggatgag 2077521DNAArtificial Sequenceprobe/primer/pcr 775tgcccccacc atcccccacc a 2177620DNAArtificial Sequenceprobe/primer/pcr 776ggcgcgagcg gcgggaactg 2077719DNAArtificial Sequenceprobe/primer/pcr 777ggcgccgctc gcgcatggt 1977820DNAArtificial Sequenceprobe/primer/pcr 778cccgctctgc cccgtcgcac 2077920DNAArtificial Sequenceprobe/primer/pcr 779gtagcgcggg cgagcgggga 2078020DNAArtificial Sequenceprobe/primer/pcr 780agcgccgagc agggcgcgaa 2078120DNAArtificial Sequenceprobe/primer/pcr 781ggcggcggcc acgcaggttc 2078221DNAArtificial Sequenceprobe/primer/pcr 782ccctcccgca cgctgggttg c 2178320DNAArtificial Sequenceprobe/primer/pcr 783tcacggccgc atccgccaca 2078420DNAArtificial Sequenceprobe/primer/pcr 784cggcgccggc cgctcttctg 2078524DNAArtificial Sequenceprobe/primer/pcr 785ccggcagaga atgggagcgg gagg 2478620DNAArtificial Sequenceprobe/primer/pcr 786tcggccgggg cgccaggtct 2078720DNAArtificial Sequenceprobe/primer/pcr 787tggggctgcg ggcgatgcct 2078820DNAArtificial Sequenceprobe/primer/pcr 788ggctgcgggg accggggtgt 2078920DNAArtificial Sequenceprobe/primer/pcr 789cggcccaagc cgcgcctcac 2079020DNAArtificial Sequenceprobe/primer/pcr 790ccgcgcccgg aaccgctgct 2079120DNAArtificial Sequenceprobe/primer/pcr 791tcggccggga gcgtgggagc 2079224DNAArtificial Sequenceprobe/primer/pcr 792tgcagacatt ggcgcgttcc tcca 2479321DNAArtificial Sequenceprobe/primer/pcr 793ggacccacgc gccgagccca t 2179428DNAArtificial Sequenceprobe/primer/pcr 794ggagggggcg agtgagggat taggtccg 2879521DNAArtificial Sequenceprobe/primer/pcr 795tcccctcacg ccgatgccac g 2179622DNAArtificial Sequenceprobe/primer/pcr 796ccatgcccgc cccagctcct ca 2279725DNAArtificial Sequenceprobe/primer/pcr 797ccgccgtgat gttctgttcg ccacc 2579823DNAArtificial Sequenceprobe/primer/pcr 798cgtggctgcc cctgcactcg tcg 2379926DNAArtificial Sequenceprobe/primer/pcr 799tctggccagt ccgtgaaggc ctctga 2680020DNAArtificial Sequenceprobe/primer/pcr 800ccggggtgca agggccacgc 2080120DNAArtificial Sequenceprobe/primer/pcr 801cgccgcgctt cctcccgacg 2080220DNAArtificial Sequenceprobe/primer/pcr 802agcgacccgg ggcgtgaggc 2080329DNAArtificial Sequenceprobe/primer/pcr 803tgcggaaacc tatcaccgct tcctttcca 2980420DNAArtificial Sequenceprobe/primer/pcr 804ggcagggcgg ggcagggttg 2080526DNAArtificial Sequenceprobe/primer/pcr 805gggtctccag actgatgggc cggtga 2680624DNAArtificial Sequenceprobe/primer/pcr 806cgctgaagcc gctgctgtcg ctga 2480720DNAArtificial Sequenceprobe/primer/pcr 807tcccacgctc ccgccgagcc 2080820DNAArtificial Sequenceprobe/primer/pcr 808aaatatgccg gacgcggtgg 2080920DNAArtificial Sequenceprobe/primer/pcr 809cgcctttccg cggcgggagc 2081020DNAArtificial Sequenceprobe/primer/pcr 810cccagcccag gccgcaggca 2081125DNAArtificial Sequenceprobe/primer/pcr 811ccccgcaggg gacctcataa cccaa 2581223DNAArtificial Sequenceprobe/primer/pcr 812gagttggctc ggcgtccctg gca 2381322DNAArtificial Sequenceprobe/primer/pcr 813tccctccgcc tggtgggtcc cc 2281426DNAArtificial Sequenceprobe/primer/pcr 814tgacccctgg cacatcagga aagggc 2681521DNAArtificial Sequenceprobe/primer/pcr 815tgccccgcaa gaacggccca g 2181622DNAArtificial Sequenceprobe/primer/pcr 816ggcctcggag tgcgacgcga gc 2281722DNAArtificial Sequenceprobe/primer/pcr 817gcgccaaccc agacccgcgc tt 2281820DNAArtificial Sequenceprobe/primer/pcr 818tgcaagcgcg gaggctgcga 2081920DNAArtificial Sequenceprobe/primer/pcr 819agccgggcca cgggcagaca 2082020DNAArtificial Sequenceprobe/primer/pcr 820cccgggcggc cacaaagggc 2082123DNAArtificial Sequenceprobe/primer/pcr 821ccccatccca ggtgaccgcc ctg 2382224DNAArtificial Sequenceprobe/primer/pcr 822tgactctggg ggaagcacgc gacg 2482320DNAArtificial Sequenceprobe/primer/pcr 823ggtgcggccg aagccgtcgc 2082420DNAArtificial Sequenceprobe/primer/pcr 824tgcccctcgg gccctcgctg 2082520DNAArtificial Sequenceprobe/primer/pcr 825ggccacgggg accggggaca 2082620DNAArtificial Sequenceprobe/primer/pcr 826gggcgccgca gggcgacaac 2082724DNAArtificial Sequenceprobe/primer/pcr 827gcagcgcgct ttgggaagga aggc 2482820DNAArtificial Sequenceprobe/primer/pcr 828gggttccacc cgcgcccacg 2082920DNAArtificial Sequenceprobe/primer/pcr 829tcgcggccca gacccccgac 2083022DNAArtificial Sequenceprobe/primer/pcr 830cgagacccgg tgcgcctggg ag 2283118DNAArtificial Sequenceprobe/primer/pcr 831aggtgcccgc caccatgc 1883223DNAArtificial Sequenceprobe/primer/pcr 832cgcccaggct ggagtgcagt ggc 2383322DNAArtificial Sequenceprobe/primer/pcr 833gccggcgagg tctccgcggt ct 2283420DNAArtificial Sequenceprobe/primer/pcr 834cgcagggcca ccggctcgga 2083520DNAArtificial Sequenceprobe/primer/pcr 835gccccggagc atgcgcgaga 2083624DNAArtificial Sequenceprobe/primer/pcr 836cccctgggga cccctgccat cctt 2483720DNAArtificial Sequenceprobe/primer/pcr 837ttaccccgcg ccgcgccacc 2083820DNAArtificial Sequenceprobe/primer/pcr 838gcgggccgag cccaccaacc 2083920DNAArtificial

Sequenceprobe/primer/pcr 839gcgcggtggc cgcttggagg 2084020DNAArtificial Sequenceprobe/primer/pcr 840cccgccagcg gcctgtgcct 2084120DNAArtificial Sequenceprobe/primer/pcr 841cgcgcatgcc aagcccgctg 2084223DNAArtificial Sequenceprobe/primer/pcr 842ggcgcaggag cagttggggt cca 2384323DNAArtificial Sequenceprobe/primer/pcr 843tggggtaggc ggaacgccaa ggg 2384420DNAArtificial Sequenceprobe/primer/pcr 844cccgcttcac gcccccaccg 2084520DNAArtificial Sequenceprobe/primer/pcr 845gcagcccggg tgggcaaggc 2084623DNAArtificial Sequenceprobe/primer/pcr 846tgcagttgcc cttgccctgc gac 2384720DNAArtificial Sequenceprobe/primer/pcr 847tggccgggcg cctccatcgt 2084821DNAArtificial Sequenceprobe/primer/pcr 848gcctgcgatg ggctcggtgg g 2184920DNAArtificial Sequenceprobe/primer/pcr 849ccgcggttcg catggcgctc 2085022DNAArtificial Sequenceprobe/primer/pcr 850tgggccatct cgagccgctg cc 2285121DNAArtificial Sequenceprobe/primer/pcr 851tgggggagtg cgggtcggag c 2185220DNAArtificial Sequenceprobe/primer/pcr 852ctgccgcgcc cccagcacct 2085320DNAArtificial Sequenceprobe/primer/pcr 853ggctgctggc ggggccgtct 2085420DNAArtificial Sequenceprobe/primer/pcr 854gggcgcggcg acttgggggt 2085523DNAArtificial Sequenceprobe/primer/pcr 855aaactgcgac tgcgcggcgt gag 2385620DNAArtificial Sequenceprobe/primer/pcr 856tgctggggcc gtgggggtgc 2085720DNAArtificial Sequenceprobe/primer/pcr 857tccgcgctgc ccgggtcctt 2085820DNAArtificial Sequenceprobe/primer/pcr 858gtggcggccc ccgcggatct 2085920DNAArtificial Sequenceprobe/primer/pcr 859ggggaggcgc caccgccgtt 2086020DNAArtificial Sequenceprobe/primer/pcr 860ggagcgggag ggcgctggga 2086132DNAArtificial Sequenceprobe/primer/pcr 861tgaaggctgt cagtcgtgga agtgagaagt gc 3286233DNAArtificial Sequenceprobe/primer/pcr 862ggagaaaatc caattgaagg ctgtcagtcg tgg 3386322DNAArtificial Sequenceprobe/primer/pcr 863ggggacaacc ggggcggatc cc 2286423DNAArtificial Sequenceprobe/primer/pcr 864cccgggagga gaggcgaaca gcg 2386520DNAArtificial Sequenceprobe/primer/pcr 865agtgcgcggg tgccgggtgg 2086623DNAArtificial Sequenceprobe/primer/pcr 866tggcatcccc tacccgggcc cta 2386727DNAArtificial Sequenceprobe/primer/pcr 867gaggctggtt ccttgtcgtc ggttggg 2786820DNAArtificial Sequenceprobe/primer/pcr 868gcggggtcag gccggggtca 2086922DNAArtificial Sequenceprobe/primer/pcr 869ggcagcggct ggagcggtgt ca 2287020DNAArtificial Sequenceprobe/primer/pcr 870gcccgggcac acgccccatc 2087120DNAArtificial Sequenceprobe/primer/pcr 871gcaccgccac gcccactgcc 2087229DNAArtificial Sequenceprobe/primer/pcr 872tgtcatgctt ctttctcccc actgactca 2987322DNAArtificial Sequenceprobe/primer/pcr 873gcccaggctg gggtgcaatg gc 2287420DNAArtificial Sequenceprobe/primer/pcr 874cgcctcgggg gccacggcat 2087520DNAArtificial Sequenceprobe/primer/pcr 875cgtgggtcct ggcccgggga 2087621DNAArtificial Sequenceprobe/primer/pcr 876tccccgggcg gccattaggc a 2187721DNAArtificial Sequenceprobe/primer/pcr 877ggcgggggtg ggagtgatcc c 2187823DNAArtificial Sequenceprobe/primer/pcr 878cgtcagtccc ggctgcgagt cca 2387920DNAArtificial Sequenceprobe/primer/pcr 879ccggggtccg cgccatgctg 2088020DNAArtificial Sequenceprobe/primer/pcr 880catggcgggg cccgagcgac 2088122DNAArtificial Sequenceprobe/primer/pcr 881ccgcctcctt gccccgacac cc 2288223DNAArtificial Sequenceprobe/primer/pcr 882tcggacacgc cttcgcctca gcc 2388320DNAArtificial Sequenceprobe/primer/pcr 883cgagctgggc gcaggcgcaa 2088422DNAArtificial Sequenceprobe/primer/pcr 884gcggggttgt gtgtggcgga gg 2288520DNAArtificial Sequenceprobe/primer/pcr 885accgcgcccg gcctgcaaag 2088621DNAArtificial Sequenceprobe/primer/pcr 886gcggggccag agaggccgga a 2188726DNAArtificial Sequenceprobe/primer/pcr 887gccccaaggg aagatgcagg gaggaa 2688826DNAArtificial Sequenceprobe/primer/pcr 888gccccaaggg aagatgcagg gaggaa 2688920DNAArtificial Sequenceprobe/primer/pcr 889gcccgcacgt gcaccaccca 2089029DNAArtificial Sequenceprobe/primer/pcr 890gggtgacgaa gtggtgtctt taccgagga 2989120DNAArtificial Sequenceprobe/primer/pcr 891ccgccgtgcg cctgtgggaa 2089220DNAArtificial Sequenceprobe/primer/pcr 892ggctgctgcg ggaggatcac 2089329DNAArtificial Sequenceprobe/primer/pcr 893tgggcatcca gaaaaatggt ggtgatggc 2989420DNAArtificial Sequenceprobe/primer/pcr 894gccgcgccgg gccctatgag 2089520DNAArtificial Sequenceprobe/primer/pcr 895ccgccatgcg ggcagggacc 2089625DNAArtificial Sequenceprobe/primer/pcr 896tgttacaggc tggacacggt ggctc 2589720DNAArtificial Sequenceprobe/primer/pcr 897cggaacttgc agggggccga 2089826DNAArtificial Sequenceprobe/primer/pcr 898tgcaaaatcc tccccttccc gcaccc 2689920DNAArtificial Sequenceprobe/primer/pcr 899gcgctggagc cacgcgacga 2090020DNAArtificial Sequenceprobe/primer/pcr 900ggggtccgct cccgcgttcg 2090122DNAArtificial Sequenceprobe/primer/pcr 901cgccccgggc tgagagctgg gt 2290220DNAArtificial Sequenceprobe/primer/pcr 902ggcccttcgg gggccgggtt 2090323DNAArtificial Sequenceprobe/primer/pcr 903tggccacaaa ggggccggaa tgg 2390420DNAArtificial Sequenceprobe/primer/pcr 904accccagcgc gtgggcggag 2090520DNAArtificial Sequenceprobe/primer/pcr 905gggctgcggg gcgccttgac 2090620DNAArtificial Sequenceprobe/primer/pcr 906gcaccgcggc tggagcggac 2090725DNAArtificial Sequenceprobe/primer/pcr 907aggcgatccc aaggctgttg gaggc 2590821DNAArtificial Sequenceprobe/primer/pcr 908tccacccgcc ttggcctccc a 2190920DNAArtificial Sequenceprobe/primer/pcr 909cggcgggaag gcggggcaag 2091020DNAArtificial Sequenceprobe/primer/pcr 910ggagccgcgg cgtgagtgcg 2091120DNAArtificial Sequenceprobe/primer/pcr 911ggccggcacc ccacgccaag 2091220DNAArtificial Sequenceprobe/primer/pcr 912gcggggcgga gcgcacacct 2091320DNAArtificial Sequenceprobe/primer/pcr 913gcggccagca gcgcgtcctc 2091421DNAArtificial Sequenceprobe/primer/pcr 914ccgacagccg gcaaggccca a 2191530DNAArtificial Sequenceprobe/primer/pcr 915ttgtttttgt ttgtttgttt tgaaagggag 3091620DNAArtificial Sequenceprobe/primer/pcr 916ccccggtttc cccgcgcctc 2091721DNAArtificial Sequenceprobe/primer/pcr 917ggctggacgc gccctccgac a 2191820DNAArtificial Sequenceprobe/primer/pcr 918tcccacgcgc ccgcccctac 2091920DNAArtificial Sequenceprobe/primer/pcr 919cggccacgcc ttccgcggtg 2092020DNAArtificial Sequenceprobe/primer/pcr 920ggctccgctg gggcgcaggt 2092120DNAArtificial Sequenceprobe/primer/pcr 921gccgccccgt gtcgtgcgtc 2092225DNAArtificial Sequenceprobe/primer/pcr 922ggcgtcagtt ggagtgtggg gtcgg 2592320DNAArtificial Sequenceprobe/primer/pcr 923ccgagcgggg tgggccggat 2092421DNAArtificial Sequenceprobe/primer/pcr 924catcgcgcgg gacccaaccc a 2192527DNAArtificial Sequenceprobe/primer/pcr 925cagtgggtgg atctcacctg ccttcgg 2792620DNAArtificial Sequenceprobe/primer/pcr 926gaggccgcgg ggctccgaca 2092728DNAArtificial Sequenceprobe/primer/pcr 927gagcctgccc tataaaatcc ggggctcg 2892820DNAArtificial Sequenceprobe/primer/pcr 928tcccggcggg tggtgcctga 2092920DNAArtificial Sequenceprobe/primer/pcr 929tctgagcgcc cgccgcctgc 2093020DNAArtificial Sequenceprobe/primer/pcr 930ggctgccggc gcgggaccta 2093122DNAArtificial Sequenceprobe/primer/pcr 931tccggggcat tccctccgcg at 2293220DNAArtificial Sequenceprobe/primer/pcr 932tggcggcggc ccctgctcgt 2093320DNAArtificial Sequenceprobe/primer/pcr 933cggcgcgcga ctgggaggga 2093421DNAArtificial Sequenceprobe/primer/pcr 934ggcgccagcg caaccagagc g 2193520DNAArtificial Sequenceprobe/primer/pcr 935cgaaggtggc gcggcctgga 2093620DNAArtificial Sequenceprobe/primer/pcr 936cccagcgggc ttcgcgggag 2093720DNAArtificial Sequenceprobe/primer/pcr 937cccgcttgcc ccgcccccta 2093825DNAArtificial Sequenceprobe/primer/pcr 938cccacacctc cacctgctgg tgcct 2593920DNAArtificial Sequenceprobe/primer/pcr 939atgcagcccc gccggcaacg 2094021DNAArtificial Sequenceprobe/primer/pcr 940ccggatgccc ggtgtgcctg g 2194124DNAArtificial Sequenceprobe/primer/pcr 941gcgagcaggg acgcagctct ggtg 2494220DNAArtificial Sequenceprobe/primer/pcr 942cgcgctcggc ccgctcagtg 2094320DNAArtificial Sequenceprobe/primer/pcr 943tggtgccggc agggagggga 2094420DNAArtificial Sequenceprobe/primer/pcr 944gggcggtggc gatggctggc 2094528DNAArtificial Sequenceprobe/primer/pcr 945ggctgttggt ctttttccca gccccgaa 2894621DNAArtificial Sequenceprobe/primer/pcr 946ccgggccggc agcgcagatg t 2194720DNAArtificial Sequenceprobe/primer/pcr 947cggagggcga tggggccctg 2094820DNAArtificial Sequenceprobe/primer/pcr 948ggggccgggc tgcgaagctg 2094921DNAArtificial Sequenceprobe/primer/pcr 949tgcctgggca ccccacggac g 2195022DNAArtificial Sequenceprobe/primer/pcr 950gccctacgtc cgggcagcac gc 2295120DNAArtificial Sequenceprobe/primer/pcr 951ctgtgcgcgt ccccgccgtg 2095220DNAArtificial Sequenceprobe/primer/pcr 952tgcagcggcg cctcggaccc 2095320DNAArtificial Sequenceprobe/primer/pcr 953ccgctgggcg cgctgggaag 2095424DNAArtificial Sequenceprobe/primer/pcr 954ggcgcatgct ctgcgcgtat tggc 2495522DNAArtificial Sequenceprobe/primer/pcr 955gggtgggcgg gccgttctga gg 2295620DNAArtificial Sequenceprobe/primer/pcr 956gggctgccgg gttggcgcag 2095721DNAArtificial Sequenceprobe/primer/pcr 957ggcgcgtgcg gaaaagctgc g 2195820DNAArtificial Sequenceprobe/primer/pcr 958tccaggccgc cctcgggtca 2095920DNAArtificial Sequenceprobe/primer/pcr 959ggggaggggg cgcagccaga 2096026DNAArtificial Sequenceprobe/primer/pcr 960ggcagcgtgg tcttccactt ccccct 2696125DNAArtificial Sequenceprobe/primer/pcr 961gggatcgagg gatcgaggca gggga 2596221DNAArtificial Sequenceprobe/primer/pcr 962cggccatgag cgcctccacg c 2196320DNAArtificial Sequenceprobe/primer/pcr 963cccggtgtgc ggcagcgacg 2096420DNAArtificial Sequenceprobe/primer/pcr 964ttggggcggc cggaagccag 2096520DNAArtificial Sequenceprobe/primer/pcr 965cgcagcggcg gcgtctcggt 2096622DNAArtificial Sequenceprobe/primer/pcr 966ccgcgacctc cccaagccac cc 2296720DNAArtificial Sequenceprobe/primer/pcr 967ggcggccgac cgcgaacacc 2096823DNAArtificial Sequenceprobe/primer/pcr 968ccccatttcc gagtccggca gca 2396926DNAArtificial Sequenceprobe/primer/pcr 969cccagcctgg cctctcctct caggca 2697029DNAArtificial Sequenceprobe/primer/pcr 970cggctctttc ctcctcaaga gatgcggtg 2997120DNAArtificial Sequenceprobe/primer/pcr 971cgccgccgtc cctggtgcag 2097220DNAArtificial Sequenceprobe/primer/pcr 972tggggacccc tcgccgcctg 2097320DNAArtificial Sequenceprobe/primer/pcr 973gcgcccagcc cgccccaaga 2097420DNAArtificial Sequenceprobe/primer/pcr 974caggggacgc gggcgtgcag 2097520DNAArtificial Sequenceprobe/primer/pcr 975ccgggcgggg cccaactgct 2097621DNAArtificial Sequenceprobe/primer/pcr 976cccgagcagg gccggagcag a 2197723DNAArtificial Sequenceprobe/primer/pcr 977cccctccaca ttcccgcggt cct 2397826DNAArtificial Sequenceprobe/primer/pcr 978tcctttgtgg cctgggcagg atgcag 2697920DNAArtificial Sequenceprobe/primer/pcr 979gcagcgcgcg gtttggggct 2098020DNAArtificial Sequenceprobe/primer/pcr 980gaggcctgcg ggcgctgctg 2098121DNAArtificial Sequenceprobe/primer/pcr 981tcacggttgc tgggccgtcg c 2198220DNAArtificial Sequenceprobe/primer/pcr 982cggggtgggc ctcgcggaga 2098320DNAArtificial Sequenceprobe/primer/pcr 983gcctgcgctc ctggcgccct 2098428DNAArtificial Sequenceprobe/primer/pcr 984cgccttcgga gagcagagtc aacacgga 2898528DNAArtificial Sequenceprobe/primer/pcr 985tgcccctaaa tgagaaaggg cccttgag 2898620DNAArtificial Sequenceprobe/primer/pcr 986gccacgcccc gggaccggaa 2098720DNAArtificial Sequenceprobe/primer/pcr 987tcccgcccag gggcctccca 2098820DNAArtificial Sequenceprobe/primer/pcr 988ccccgcgccc ggccaaagaa 2098920DNAArtificial Sequenceprobe/primer/pcr 989ggaccgccgc acagccccaa

2099020DNAArtificial Sequenceprobe/primer/pcr 990gggcagcggt ggccgtgcat 2099120DNAArtificial Sequenceprobe/primer/pcr 991ttcctgcgcc gccccctccc 2099222DNAArtificial Sequenceprobe/primer/pcr 992ggcgtctccc tgtccccgcc tg 2299320DNAArtificial Sequenceprobe/primer/pcr 993gccggcctcg cgcaccgtgt 2099420DNAArtificial Sequenceprobe/primer/pcr 994cccgggacgt gcgcgcttgg 2099520DNAArtificial Sequenceprobe/primer/pcr 995tgtcccccga gccgccctgc 2099622DNAArtificial Sequenceprobe/primer/pcr 996tcgctctcgt gcagcggcgt ca 2299721DNAArtificial Sequenceprobe/primer/pcr 997cccgcgcgct gcagcatctc c 2199820DNAArtificial Sequenceprobe/primer/pcr 998ccccagctgc cgccatcgca 2099920DNAArtificial Sequenceprobe/primer/pcr 999gcccgggccc gcctcaagga 20100022DNAArtificial Sequenceprobe/primer/pcr 1000tgccggcgag gccttttctc gg 22100120DNAArtificial Sequenceprobe/primer/pcr 1001ggcgggtggg gagcgcgaac 20100220DNAArtificial Sequenceprobe/primer/pcr 1002cccgccgccg ctggtcacct 20100320DNAArtificial Sequenceprobe/primer/pcr 1003ccggctgcct cggcctccca 20100418DNAArtificial Sequenceprobe/primer/pcr 1004ggtgtgcacc accacgcc 18100520DNAArtificial Sequenceprobe/primer/pcr 1005ggcgcgtccc ggcggcttct 20100620DNAArtificial Sequenceprobe/primer/pcr 1006agtccctgcg ccccgccctg 20100724DNAArtificial Sequenceprobe/primer/pcr 1007tgcccccaaa ctttccgcct gcac 24100820DNAArtificial Sequenceprobe/primer/pcr 1008cttgcggcca cccggcgagc 20100922DNAArtificial Sequenceprobe/primer/pcr 1009tcgcgcggaa actctggctc gg 22101021DNAArtificial Sequenceprobe/primer/pcr 1010gctgcggccc agagggggtg a 21101120DNAArtificial Sequenceprobe/primer/pcr 1011cggcgggctt gggtcccgtg 20101220DNAArtificial Sequenceprobe/primer/pcr 1012tcccccgccg caccagcacc 20101320DNAArtificial Sequenceprobe/primer/pcr 1013gcgcggtgcg gggacctgct 20101420DNAArtificial Sequenceprobe/primer/pcr 1014gccggacgct cgccccgcat 20101525DNAArtificial Sequenceprobe/primer/pcr 1015gagtgctctg cagccccgac atggg 25101622DNAArtificial Sequenceprobe/primer/pcr 1016ccgcgcagac gtcggagccc aa 22101720DNAArtificial Sequenceprobe/primer/pcr 1017tggccgaggc gcgtggcgag 20101820DNAArtificial Sequenceprobe/primer/pcr 1018ggccgcgctg ccccagggat 20101920DNAArtificial Sequenceprobe/primer/pcr 1019ccgggggcgg acgcagagga 20102022DNAArtificial Sequenceprobe/primer/pcr 1020gggggcggag cctgggaatg gg 22102120DNAArtificial Sequenceprobe/primer/pcr 1021gggcgggccc tgtgggtgga 20102223DNAArtificial Sequenceprobe/primer/pcr 1022ccgctccccc atctccacgg acg 23102320DNAArtificial Sequenceprobe/primer/pcr 1023gacccaggga ggcgcgggga 20102420DNAArtificial Sequenceprobe/primer/pcr 1024tgcccggccg caggtgacca 20102520DNAArtificial Sequenceprobe/primer/pcr 1025gcgccgggag tgggcaggga 20102620DNAArtificial Sequenceprobe/primer/pcr 1026acccaggccg gcgcgggaag 20102720DNAArtificial Sequenceprobe/primer/pcr 1027ttcccgccgc ccggtcctca 20102820DNAArtificial Sequenceprobe/primer/pcr 1028cgcgccggtg acggacgtgg 20102925DNAArtificial Sequenceprobe/primer/pcr 1029aaccctccca gccaaaacgg gctca 25103020DNAArtificial Sequenceprobe/primer/pcr 1030cgggcgaggc cgccctttgg 20103120DNAArtificial Sequenceprobe/primer/pcr 1031ggccgcggac gcccaggaaa 20103225DNAArtificial Sequenceprobe/primer/pcr 1032ccgtttggaa cgtggcccaa gaggc 25103320DNAArtificial Sequenceprobe/primer/pcr 1033cccgcctccg ctccccgctt 20103421DNAArtificial Sequenceprobe/primer/pcr 1034ggtggcggcg gcagaggagg a 21103520DNAArtificial Sequenceprobe/primer/pcr 1035cgcggggagc agaggcggtg 20103619DNAArtificial Sequenceprobe/primer/pcr 1036gggcgcccgc gctgagggt 19103720DNAArtificial Sequenceprobe/primer/pcr 1037gggcctggcc tcccggcgat 20103820DNAArtificial Sequenceprobe/primer/pcr 1038cacccggcgt ccgcaccagc 20103920DNAArtificial Sequenceprobe/primer/pcr 1039cggcgctggt ttggcggcct 20104021DNAArtificial Sequenceprobe/primer/pcr 1040ccaggagccc cggaggccac g 21104126DNAArtificial Sequenceprobe/primer/pcr 1041gcgatctcct gcccaggtgt gtgctc 26104220DNAArtificial Sequenceprobe/primer/pcr 1042actgcccggg ctcgccgcac 20104320DNAArtificial Sequenceprobe/primer/pcr 1043tgcggcaacg gtggcacccc 20104424DNAArtificial Sequenceprobe/primer/pcr 1044ggagcgaagc tggcggaacc cacc 24104520DNAArtificial Sequenceprobe/primer/pcr 1045ggcggccgac ggggctttgc 20104620DNAArtificial Sequenceprobe/primer/pcr 1046ggccgcgggt gcctcggtct 20104721DNAArtificial Sequenceprobe/primer/pcr 1047gcgctccagc catggcgcgt t 21104820DNAArtificial Sequenceprobe/primer/pcr 1048gccggacggg cgtggggaga 20104920DNAArtificial Sequenceprobe/primer/pcr 1049tcccccgcga ctgcccctcc 20105020DNAArtificial Sequenceprobe/primer/pcr 1050gggtggcagc gggtgcggaa 20105120DNAArtificial Sequenceprobe/primer/pcr 1051gctcgcccgc tcgcagccaa 20105222DNAArtificial Sequenceprobe/primer/pcr 1052cgaggttccg cagcccgagc ca 22105321DNAArtificial Sequenceprobe/primer/pcr 1053gcgcggggga ccgaaaccgt g 21105420DNAArtificial Sequenceprobe/primer/pcr 1054gccgagcccg gcccaaagcc 20105522DNAArtificial Sequenceprobe/primer/pcr 1055tgccaacgtt cacccggctg gc 22105628DNAArtificial Sequenceprobe/primer/pcr 1056gacagtgcga gggaaaacca ccttcccc 28105720DNAArtificial Sequenceprobe/primer/pcr 1057gggtcgggcc gggctggagc 20105820DNAArtificial Sequenceprobe/primer/pcr 1058gggtcgggcc gggctggagc 20105920DNAArtificial Sequenceprobe/primer/pcr 1059gcggggccga ggggctgagc 20106020DNAArtificial Sequenceprobe/primer/pcr 1060gcccggccac ctcggggagc 20106125DNAArtificial Sequenceprobe/primer/pcr 1061actgtctgcc aagccagccc caggg 25106220DNAArtificial Sequenceprobe/primer/pcr 1062ggatggtggc gccgggctgc 20106325DNAArtificial Sequenceprobe/primer/pcr 1063tccaggaggg ccaggtcaca gctgc 25106421DNAArtificial Sequenceprobe/primer/pcr 1064cggctggctc gcttggctgg c 21106520DNAArtificial Sequenceprobe/primer/pcr 1065tccggcgctg ttgggcagcc 20106620DNAArtificial Sequenceprobe/primer/pcr 1066cctgcgcacg cgggaagggc 20106727DNAArtificial Sequenceprobe/primer/pcr 1067tcttcccttc tttcccacgc tgctccg 27106820DNAArtificial Sequenceprobe/primer/pcr 1068cagcgccccc gcctccagca 20106920DNAArtificial Sequenceprobe/primer/pcr 1069gctgcgcggc tggcgatcca 20107022DNAArtificial Sequenceprobe/primer/pcr 1070gccgacgacc ggagggccca ct 22107120DNAArtificial Sequenceprobe/primer/pcr 1071tgcccaggct ggcccctcgg 20107220DNAArtificial Sequenceprobe/primer/pcr 1072cgcggccctc cccagccctc 20107320DNAArtificial Sequenceprobe/primer/pcr 1073ccccgcccgg caactgagcg 20107420DNAArtificial Sequenceprobe/primer/pcr 1074aagagcccgc gcgccgagcc 20107523DNAArtificial Sequenceprobe/primer/pcr 1075tgcccactgc ggttaccccg cat 23107625DNAArtificial Sequenceprobe/primer/pcr 1076gcatggtggt ggacatgtgc ggtca 25107733DNAArtificial Sequenceprobe/primer/pcr 1077catagaagag gaaggcaaag gctgtgacag gca 33107832DNAArtificial Sequenceprobe/primer/pcr 1078tcatcctaga cttgcagtca agatgcctgc cc 32107920DNAArtificial Sequenceprobe/primer/pcr 1079agccagcggt gccggtgccc 20108020DNAArtificial Sequenceprobe/primer/pcr 1080gccccgctcc gccccagtgc 201081219DNAArtificial Sequenceprobe/primer/pcr 1081cacgggggcg gggagacgcg gggtgcactt ctcgccccga gggcctccgg cgaagcaacc 60cggcagccgc ggcgcccgag ggcctggcgc tggtctgggg ctgcgccggg ggcgcctggc 120tctggggtgc ggccggtcag gaatccccat cctggagcgc aggcggagag ccagtggctg 180ggggcgggaa ggcttcttgg acccctcgcg cttctccga 2191082243DNAArtificial Sequenceprobe/primer/pcr 1082cacagggtgg ggcagggagc atcagggggc aggcagccac acccccgaca catcaagaca 60cctgagtggc aggttcaagc cggaggcgct gtatttccac acaggaagaa ggccaaaaaa 120ggtgacactg ccccctccca gtggctccat gctcctcagc tatggctgtc cgggccgcct 180cactcaaagc cttgccctcc gctgctgcca ggctccttgc atgcaaggca gcccccaccc 240ggc 2431083255DNAArtificial Sequenceprobe/primer/pcr 1083accgggcctt ccgcgcccct cgccccacgc cgcgggtgcg gtcctccctc cagcagaggg 60ttccgggcgc cggcgcggcc cgcacggggc cgggagccct tcctgccggc cgggtgcgcg 120cggcgccgcc gacagctgtt tgccatcggc gccgctcccg cccgcgtccc ggtgcgcgcc 180ccgcccccgc caacaaccgc cgctctgatt ggcccggcgc ttgtctcttc tctccccgca 240gccaatcgcg ccggg 2551084231DNAArtificial Sequenceprobe/primer/pcr 1084cccacctccc ccaacattcc agttccttct tttccttcta ctcttcagcg gcctcagcct 60gcgcacccca ggagcgtgga tgactacggc caccccgggc gcgcacccct ttcccaccac 120cccagcatct ctgcagccca ggacacccgc ctcccccaca ccccgcatcc ggtgtgtctc 180cgcctggccc ggccggcgcg gcaggcgggc caggggacca actgcacggc c 2311085174DNAArtificial Sequenceprobe/primer/pcr 1085cacagagcca ggcaagcatg ggtgagagct cagaccatcc ttgttggact aaaaggaagg 60ggcagactgc ccatgggggg cagccgagag ggtcaggccc ccataggtcc tcagcctgct 120tcaacctcaa aggggatggg gggctgagtg gtgccagagg agcagcaggc tcgc 1741086255DNAArtificial Sequenceprobe/primer/pcr 1086ggagcagcag gctcgctcgg ggagagtagg gccttaggat agaagggaaa tgaactaaac 60aaccagcttc ctcccaaacc agtttcaggc cagggctggg aatttcacaa aaaagcagaa 120ggcgctctgt gaacatttcc tgccccgccc cagccccctt cctggcagca ttaccacact 180gctcacctgt gaagcaatct tccggagaca gggccaaagg gccaagtgcc ccagtcagga 240gctgcctata aatgc 2551087255DNAArtificial Sequenceprobe/primer/pcr 1087gcccaaagtg cggggccaac ccagacagtc ccacttacca ggtcttctga aagacagctg 60acaagagaca tgcagggctg agaggcagct cctttttata gcggttaggc ttggccagct 120gcccacagct tcaggccatc agagacagct tctccctgcc agagttgcta cagtctctgg 180tttctcaacc aggtgaatgt ggcaatcact gtgcagaatg aaaattttgg gtggggaggt 240aggagaagcg gaaag 2551088167DNAArtificial Sequenceprobe/primer/pcr 1088ggaaagagga aggcatttgc tgggcaatag tgcccagaag gaaaaagcag gtaggggggc 60tctttttctg ggctgctggc atccacttgc ttgatccagc cagattccca ctcccatgcc 120ctctccacta ttgcgattgc taatcccctg cattggtggt caggcca 1671089236DNAArtificial Sequenceprobe/primer/pcr 1089cagcggcccc gcgggatttt gcccagctgc ttcgtgccct ctggtggcta aggcgtgtca 60ttgcagtgcc ggcctcctgt catcctccct ttcttgtccg ccagaccctc tggcgccctg 120cttacgactc aaacaggaga cagtgctgat tcatttccaa gcggccttcc tacacccaca 180cctgcttcac atagatgagg tttcccggac agtccctgcc cagaagccca ggtgga 2361090210DNAArtificial Sequenceprobe/primer/pcr 1090ccgacagcgc ccggcccaga tccccacgcc tgccaggagc aagccgagag ccagccggcc 60ggcgcactcc gactccgagc agtctctgtc cttcgacccg agccccgcgc cctttccggg 120acccctgccc cgcgggcagc gctgccaacc tgccggccat ggagaccccg tcccagcggc 180gcgccacccg cagcggggcg caggccagct 2101091255DNAArtificial Sequenceprobe/primer/pcr 1091gggccaatcc ccgcggctgg gcagagcgac ccgagggcgg cgccctgcag accacgtggc 60ccgggaggcg ccgaggccag gtaggtggtg agttacttgg ctcggagcgg gcgaggggac 120gcgtgggcgg agcggggctg gccagcctcg gcccccatga cccgctgtcc tgtgcccttt 180cccagcgatg ggcgtgcagc cccccaactt ctcctgggtg cttccgggcc ggctggcggg 240actggcgctg ccgcg 2551092255DNAArtificial Sequenceprobe/primer/pcr 1092ggcggctgcg gggagcgatt ttccagcccg gtttgtgctc tgtgtgtttg tctgcctctg 60gagggctggg tcctccttat tcacaggtga gtcacaccct gaaacacagg ctctcttcct 120gtcaggactg agtcaggtag aagagtcgat aaaaccacct gatcaaggaa aaggaaggca 180cagcggagcg cagagtgaga accaccaacc gaggcgccgg gcagcgaccc ctgcagcgga 240gacagagact gagcg 2551093155DNAArtificial Sequenceprobe/primer/pcr 1093gccaggaccg cgcacagcag cagggcgcgg gcgagcatcg cagcggcggg cagggcgcgg 60cgcgggggta ggctttgctg tctgagggcg tctggctgtg gagctgaagg aggcgctgct 120gaggagttcc tggacgtgct cctgacgctc actgc 1551094255DNAArtificial Sequenceprobe/primer/pcr 1094cgggcaagag agcgcgggag gaggaggagg agaaaaagga ggaggaggag gaggaggagg 60cggccccgca tccctaatga gggaatgaat ggagaggccc cctcggctgg cgcccgccca 120cccggcggcg gccgccaagt gcctctgggc gctgcgtgcc gcgcccgctg ctccgcgcgc 180agccggctcg ggccgctcct cctgactgag gcgcggcggc ggcggtggct gtgaccgcgc 240ggaccgagcc gagac 2551095255DNAArtificial Sequenceprobe/primer/pcr 1095gcgcgcagcc aggggcgacg cttccgctcc gagccgcggc ccggggccac gcgctaaggg 60cccgaacttg gcagctgacc gtcccggaca gggaggccct tcagcctcga cgcggcctgc 120gtcctccgga gggccctgct ccgcccggga agcgtccgcc tcccgcccgc ccgcccgcag 180atgtcgctgc ccctctggct gtcccggcct gaccgccgcg cgccgccctg ctgctcacct 240acttccgcgc cacgg 2551096215DNAArtificial Sequenceprobe/primer/pcr 1096gtgcgctcac ccagccgcag gcgcctgagc ggccagagcc gccaccgaac acgccgcacc 60ggccaccgcc gttccctgat agattgctga tgcctggccg cgggaacgcc cacggaaccc 120gcgtccacgg ggcggggccg gcggcgcgcg cgccccctgc cggccggggg gcggagtttc 180ccgggcgcct gccgggtgga gctctgcggg ccgct 2151097255DNAArtificial Sequenceprobe/primer/pcr 1097gagggcccgg ggtggggctg cgccctgagg gccctgccct gccctccgca cgcctctggc 60cacggtccct tccccggctg tgggtctgcg gcccctgcgt gcgcagcgct cctggcctct 120gcggccagcg cgggggcgga gagaggagag tgcccggcag gcggcggctg ggccggcccg 180gaactgggtc gtggaaggat cgcggggagc ggccctcagg ccttcggcct cactgcgtcc 240ccacttccct gcgcc 2551098217DNAArtificial Sequenceprobe/primer/pcr 1098tatgcgcccg gcgcggtggc tcacgcctgt aatcccagca ctttgggagg ccgaggcggg 60cggatcacga ggtcaggaga tcgagaccat cctgactaac acggtgaaac cccgtctcta 120ctaaaaatac aaaaattagc cgggcgcggt ggcgggtgcc tgtagtccca gctacttggg 180aggctgaggc aggagaatgg cgtgaacccg gggcaga 2171099244DNAArtificial Sequenceprobe/primer/pcr 1099cgcaggggaa ggccggggag ggaggtgtga agcggcggct ggtgcttggg tctacgggaa 60tacgcataac agcggccgtc agggcgccgg gcaggcggag acggcgcggc ttcccccggg 120ggcggccggc gcgggcgcct cctcggccgc cgctgccgcg agaagcggga aagcagaagc 180ggcggggccc

gggcctcagg gcgcaggggg cggcgcccgg ccactactcg ccagggcccg 240cccg 2441100249DNAArtificial Sequenceprobe/primer/pcr 1100cctgaggcgg ggccgtccgg caccctgtga tggggcgtgg cccctgggga ggctcccacc 60agccctcaga ttcctcaggg ccgcagaggt gtggagctgg ttgggccggt tcttcaccct 120cctcccctgg tgcttgcctg tgccccagca gggtgacagt gatgtagtag cgggtcctcc 180tggaagaggg acgcgtgtgt agggtctggg caggctctgg caaggcagtc cctggggtgg 240cgggcttgc 2491101187DNAArtificial Sequenceprobe/primer/pcr 1101gaggccgggg acgccgagag ccgggtcttc tacctgaaga tgaagggtga ctactaccgc 60tacctggccg aggtggccac cggtgacgac aagaagcgca tcattgactc agcccggtca 120gcctaccagg aggccatgga catcagcaag aaggagatgc cgcccaccaa ccccatccgc 180ctgggcc 1871102239DNAArtificial Sequenceprobe/primer/pcr 1102ccgccggctc ccccgtatga ggagctgcca tagctttcga atccacctgt tttgaacaac 60aggattagtg cctgtgccac gtcccacgcc tccgagaaac ccgcaggctc ccggaggctt 120cgccccttca aacactgccc gagtctccct aaccttcctc gccgccttcc tgcgggtgac 180ccccaaacgc cccagctccg ctcccgccct tcctctcccg ctaccacacg cctctcgga 2391103187DNAArtificial Sequenceprobe/primer/pcr 1103caggagcgac gcgcgccaaa aggcggcggg aaggaggcgg ggcagagcgc gcccgggacc 60ccgacttgga cgcggccagc tggagaggcg gagcgccggg aggagacctt ggccccgccg 120cgactcggtg gcccgcgctg ccttcccgcg cgccgggcta aaaaggcgct aacgcccgcg 180gccgcct 1871104255DNAArtificial Sequenceprobe/primer/pcr 1104cgggggaaac gcaggcgtcg ggcacagagt cggcaccggc gtccccagct ctgccgaaga 60tcgcggtcgg gtctggcccg cgggaggggc cctggcgccg gacctgcttc ggccctgcgt 120gggcggcctc gccgggctct gcaggagcga cgcgcgccaa aaggcggcgg gaaggaggcg 180gggcagagcg cgcccgggac cccgacttgg acgcggccag ctggagaggc ggagcgccgg 240gaggagacct tggcc 2551105221DNAArtificial Sequenceprobe/primer/pcr 1105ccccccaccc tggacccgca ggctcaggag tccacgcggg gagaggggat ggagaactct 60cctcgcttcg tcctctctcc cggggaatcc ctaaccccgc actgcgttac ctgtcgcttt 120ggggaggccg ctgccgggat ccggccccga acagcccggg ggggcagggg cgggggtcgt 180cgaggggatg ggggcagaga gcaggcggcg ggcaggatgc c 2211106174DNAArtificial Sequenceprobe/primer/pcr 1106gcccggcttt ccggcgcact ccagggggcg tggctcgggt ccacccgggc tgcgagccgg 60cagcacaggc caataggcaa ttagcgcgcg ccaggctgcc ttccccgcgc cggacccggg 120acgtctgaac ggaagttcga cccatcggcg acccgacggc gagaccccgc ccca 1741107255DNAArtificial Sequenceprobe/primer/pcr 1107cgctgggccg ccccttgctc ttagccagag gtagcccctc accccgcgac ttaccccaca 60ccccgctctc cagaaccccc atatgggcgc tcaccgcccg cccgcacagc tcgaacaggg 120cggggggagc gttggggccc gaggccgagc tcttcgctgg cgccgcctcc cgggacgtgg 180cctccatggt cgttgccgcc gctacctcac agaaccagca actccgggcg cgccaggcct 240cgggcgccgc catct 2551108253DNAArtificial Sequenceprobe/primer/pcr 1108gcttctccat agctcgccac acacacacac acacgccacg caccgtataa aagcctaaat 60gacacaccac tgcagcgttc aaacgctggg aagaagactc ccttgtggca ccggaaaccc 120acgaggttgg aagtgggagg ggaagagggc cagatacttc acctgaaaat ccgccaggat 180catctcccgg tccatgttgg acgccatggc ggccgccgag ttccgcggct ccgggagcga 240agcgcgcacc tgg 2531109255DNAArtificial Sequenceprobe/primer/pcr 1109ccgcgcacgc gcaagtccag gccgccgcgg ccctggaata gagactcgcc cttgatgtcc 60ctctcgaagt agtaggcggc atcgccgata tccacgtcac cggcggcctt ctgagacgtg 120ttctgccgca gctcgatctg gatggtgggc tgctcgtagt gcacggccgc cacgaacttg 180gggtgcagcc gatagcgctc gcggaagagc cgcctcagct cggcgtccag gtctgagtgg 240ttgaaggcgc cggcg 2551110233DNAArtificial Sequenceprobe/primer/pcr 1110gtctcaactc accgccgcca ccgccgcgca gccccgcggc cgctgctcca tagccctccg 60acgggcgccc aggggcttcc cggctccgtg ctctctgccc gtcgtggttc cgccttcagc 120cccgcgcccg cagggcccgc cccgcgccgt cgagaagggc ccgcctggcg ggcgggggga 180ggcggggccg cccgagccca accgagtccg accaggtgcc ccctctgctc ggc 2331111203DNAArtificial Sequenceprobe/primer/pcr 1111acaaatgcgc tgctcggaga gactgccgcg gcaaccaact ggacacccca agagctcact 60cctccgcggt tttatattcc gacttgcgca caggagcggg gtgcgggggc gcagggagtg 120tgggtaacag gcatagattc cgcttgcgca atacgtggta agaaaccagc tgtgaggggc 180tggcccaacg cagagcggcg cga 2031112181DNAArtificial Sequenceprobe/primer/pcr 1112gcgcctgcgc agtgcagctt agtgcgtcgg cgcgcagttc tcccgcccgt ttcagcggcg 60cagcttctgt agttgggcta ctggaggggt cgctcagaaa cctcatactt ctcgggtcag 120ggaaggtttg ggaggatgct gaggcctgag atctcatcaa cctcgccttc tgccccggcg 180g 1811113172DNAArtificial Sequenceprobe/primer/pcr 1113aagtcaaggg ctttcaacct cccctgcccc attcatacag tggaaggtct aacccaggct 60tgtcagccta agaacacggg atctcttcac tgtggttcat gtgtagagtg gagtttccat 120gctgagagag acaagcaaag aagaccagag gctcccaccc ctgtccagtg ga 1721114254DNAArtificial Sequenceprobe/primer/pcr 1114tggatcccgc acaggggctg caggtggagc tacctgccag tcccctgccg tgcgctcgca 60ttcctcagcc cttgggtggt ccatgggact gggcgccatg gagcaggggg tggtgcttgt 120cggggaggct ggggccgcac aggagcccat ggagtgggtg ggaggctcag gcatggcggg 180ctgcaggtcc ggagccctgc cctgcgggaa cgcagctaag gctcggtgag aaatagagcg 240cagcgccggt gggc 2541115255DNAArtificial Sequenceprobe/primer/pcr 1115ccgcctgtgg ttttccgcgc attgtgaggg atgaggggtg gaggtggtat tagacgcagc 60cgaatcctcc ctcagagtcc gccaggtggg cgtctcaggg gtgggagtgg ccgcgtcgtg 120aagcggagag aggatttctc tcctggtcct ggagaaggcc cccggcggcc ggcggcatcc 180ctcgctggcg agtcccggga gcgaggtggt ctctgcaggg gaggaagttc ccgggcggcg 240cggcctgcgt cacag 2551116231DNAArtificial Sequenceprobe/primer/pcr 1116cgcgctctcc cgcgcctctg cccgcccccg gcgcccgccc ccgccgctcc tcccgactcc 60ccgcccccgg cccgggtcac ttgccgtcgc ggtgggcggc ccccggcgag tccacacccc 120tgccccgcct cctcccggta ggaaactccg ggaccctgca agggatgact caccccagtg 180attcaaccgc gccaccgagc gcggagctgc cctggaggac gcaggcgggt c 2311117246DNAArtificial Sequenceprobe/primer/pcr 1117tccggcccag ccccaacccc gacctaagta accggctatc ggccacccat tggctgaagt 60ccctgagcac ctgttgggag gaaggctgct gcgtgcagcc ggaaagtcct gcgtccctcc 120gctcttaccg cggcaggaac cacagcctcc ccgaacctca gggtttgtat ggatttcgcc 180caggggaaag cgctccaacg cgcggtgcaa acggaagcca ctggctggtt gggcggctgt 240gatggg 2461118237DNAArtificial Sequenceprobe/primer/pcr 1118ccgggtcagg cgcacagggc agcggcgctg ccggaggacc agggccggcg tgccggcgtc 60cagcgaggat gcgcagactg cctcaggccc ggcgccgccg cacagggcat gcgccgaccc 120ggtcgggcgg gaacaccccg cccctcccgg gctccgcccc agctccgccc ccgcgcgccc 180cggccccgcc cccgcgcgct ctcttgcttt tctcaggtcc tcggctccgc cccgctc 2371119255DNAArtificial Sequenceprobe/primer/pcr 1119ggggcggtgc ctgcgccata tatgggagcg gccgcccctc gccgcgcccc tcgccgccgc 60cgccgccgcg ctcgccgact gactgcctga cggcgccgcg agccggcccg agccccgcga 120gccccgcgag ccccgccgcc gccgagcgcc accgagcgcc gccgccgccc cccgccacgc 180accgcggctc ctcgcgtcca gccgcggcca aggaagttac tactcgccca aataaatctt 240gaaaagaaac aaacg 2551120255DNAArtificial Sequenceprobe/primer/pcr 1120gcgcgggccc tcaggttctc cctatcgaag cggtctatgg agatagttgg atactcggcc 60atctgcccct cgaaagaact catagcgccg ccgatcccag agtccgggac cccaaaaccg 120cagctgaagc caaggccagc cctgaccgcg ccgccacttc cgggaagccg cgcgctgcct 180cgccattggg cggccgaacg cagccacgtc caatcagagg agtccggaga ccgggggcaa 240agtcaaggag catcc 2551121255DNAArtificial Sequenceprobe/primer/pcr 1121cgtccgcggc tcctcagcgt ccccctttac ggtctgggcg gactgcgggg gctggggagg 60ttctggggac cgggagagtg gccaccttct tcctcctcgc gaagagcagg ccgggcctac 120ccgtccgccc gctctgccgt ccgctggccg gccgactgct gcccgatcac tcctgaggcc 180gccgttgggc gacagggcgg tgcgggagga ggactgcgca ggcgcagtgg gccaggcggc 240ccggcgacca atcgg 2551122255DNAArtificial Sequenceprobe/primer/pcr 1122ggaggcgccc agcgagccag agtggtggct ggtcccgcgc ggtgagtggg attggggcac 60ttggggcgct cggggcctgc gtcggatact cgggtccgct cgggagcgcg ctggccgcaa 120cgagggcggc gcgggcccgg gcgatggcgt ggcttgcgtc tcccgcctcc gggcagggcc 180tggccgccgg gcgggggcgg gagggccacg cgggcccagg gtggggccgc ggcctgcgcg 240gcgggcgggc cgggt 2551123255DNAArtificial Sequenceprobe/primer/pcr 1123cgcgcagggg gccttataca aagtcggaga agtagctggg tcgctggccg gccagggact 60caagccgcct caggtgagcg ctccttggcg ctacttccgg tctcaggtga ggccgccgga 120agcgggcact tggccctaag acccgctaca gtgcgtcctc gctgacaggc tcaatcacca 180cggcgaggcc aaggcgcggg gccgcggccc gcccgagaag cctgagctgg gccccgacac 240cccctgcccg acatt 2551124168DNAArtificial Sequenceprobe/primer/pcr 1124ccccaccccc tttctttctg ggttttgatg tggatgtctt tctatttgtt caggaaattg 60tgacgtgtgt tctgggcagg gtttgaggtt ttggaacatt ttctaaaagg gacagagagc 120accctgctac atttcctaat caagaagttg gcgtgcagct gggagagc 1681125224DNAArtificial Sequenceprobe/primer/pcr 1125gcgcgttccc tcccgtccgc ccccaagccc cgcgggcctc gcccaccctg cccgccgccc 60ctccgccggc ggccgccctc tgcggcgccc ctttccggtc agtggagggg cgggaggagg 120ggcgggggtg cgcggggcgg ggggagaagt cctggagcgg gtttgggttg cagtttcctt 180gtgccgggga tcctgtcccc tactcgccag cgccaggctc ctcc 2241126154DNAArtificial Sequenceprobe/primer/pcr 1126ccggcggagg cagccgttcg gaggattatt cgtcttctcc ccattccgct gccgccgctg 60ccaggcctct ggctgctgag gagaagcagg cccagtcgct gcaaccatcc agcagccgcc 120gcagcagcca ttacccggct gcggtccaga gcca 1541127255DNAArtificial Sequenceprobe/primer/pcr 1127gcctggtgcc ccgagcgagc cgggagtagc tgcggcggtg cccgccccct ctctccgccc 60ctccagcgga gctggtctcc ggccgggcac cgtcgcgggc ccccctggcc cggccacctg 120ggaccgtgct ggggagtctg ccacttccct ctctcccctg gcccgcaaag ttttggcgga 180gccatcgctg gggctgagcg cgcccccggg gggagatcgg ggagcgcccg atgccgggcg 240gccggagcca ttgac 2551128255DNAArtificial Sequenceprobe/primer/pcr 1128ggcggcggcg ctacctggag gcgcggtggc gggcaggtgc ccgaactgca cggcgatgca 60gaggtcgttg tccaggggga acttgtggca gtgcagcatc tcaggccagg ggaagccgta 120ggcctccatg agcggcgcgc agccggcgcg cacggcctcg cacagcgagc ggcacgggta 180gatgggccgg tcgagacaga cgggcgcaaa gagcgagcac aggaagacct gcgtatccga 240gtggcagcgc ttggc 2551129255DNAArtificial Sequenceprobe/primer/pcr 1129tggtggccag cggggagcgc ccgggcgcca tcggcgcgtc ctgctccacc agggcgaccc 60tgggcgctga gaagcgggaa tcttccttgg ggaccagggc gacgcctcct gctgccgccc 120ccggcgggac agccgcggct cctcctccag ccgccgcgcc acccagagcc cgaggtttgc 180ccttcagaag cggacccgca gactcctcgg actcagagcc atcctcctcc tcaacctcca 240ccgcagcggc ctgcg 2551130255DNAArtificial Sequenceprobe/primer/pcr 1130gcggcactga actcgcggca atttgtcccg cctctttcgc ttcacggcag ccaatcgctt 60ccgccagaga aagaaaggcg ccgaaatgaa acccgcctcc gttcgccttc ggaactgtcg 120tcacttccgt cctcagactt ggaggggcgg ggatgaggag ggcggggagg acgacgaggg 180cgaagagggt gggtgagagc cccggagccc gagccgaagg gcgagccgca aacgctaagt 240cgctggccat tggtg 2551131206DNAArtificial Sequenceprobe/primer/pcr 1131ctcggcgatc cccggcctga acgggtagga ggggttgggg gattccgcca tcccttgttt 60tgaggcggga acgcaaccct cgaccgccca ctgcgctccc acccacaccc agagtaataa 120gctgtgattg caggctgggt cctcaccgtc tgctcgccag tcttctcctt tgaggactca 180gaagccaagg gttgcgggag gcacca 2061132242DNAArtificial Sequenceprobe/primer/pcr 1132cgcagggagc gcgcggaggc ccgcagggtg cccgcctggc cgcagaggcc gcgacgcccc 60ctccgccacc ctcgggccgc cgaaagaacg ggcagccggg aaatcccgtg tccccactcg 120tggcagagga cgctgtgggg cgggcgggct gcgggctccc ggcgccttcc cgcagaggcg 180gcgacagcgg ccgccccccc cgcggggccg ggccggggaa ctttccccgc ctggagccgg 240gc 2421133255DNAArtificial Sequenceprobe/primer/pcr 1133gaaatactcc cccacagttt tcatgtgatc aggaattcag cataggctat aagacggagt 60gctccatgtc aatagagaat atttccacag gtgtgctagg cacttgtggt agatgttgca 120gggaagtcag gactggggac agcttggtcc ctacttcaag gttacagtct aggagctgag 180agtggcaaag tgacctgatt ctacagggta aaagccccag agataaatga cataggtcca 240ggtcagccag cattg 2551134255DNAArtificial Sequenceprobe/primer/pcr 1134ccgggcgcac ggggagctgg gcggacggcg gcccccgcct cctccgggga cgcggcacga 60gacgcgggga cgcgcggacg ccacgctcag cggccgcccc cggcctccgc gccgccttcc 120tcccgggagc agccccgacg cgcgcgggcc cggaccgccg gggttgtcat ggcagcagct 180ccatccctga ccgccacttt ctcccggtgc cgcctcggag cgagcgggct ggcgggcggc 240gcggactgcg cgctc 2551135255DNAArtificial Sequenceprobe/primer/pcr 1135gcggcggcgt ccagccagag ccctgtggaa gcggcggcga cacttgggct gggcagtgtc 60tctgatgcct cccagcgcca gcgactgctc ttattcccgc cgctgtgggt cgggaaagtt 120ccgccagtgc acagcaacca atgggcggag gggtcctttg cccctgggtt gcgtcaccct 180catgcttcca gaacctggag gatccagcag gaccgtccca cttgtatttg cattgaggtc 240attgatggaa atggt 2551136230DNAArtificial Sequenceprobe/primer/pcr 1136gggtcgccga ggccgtgcgc ttatagccgg gatgacgccg cagttgggcc ggatcagctg 60acccgcgtgt ttgcacccgg accggtcacg tgggcgcggc cggcgtgcgc ggggcggggc 120ggagcggggc ctggcctggg cggggcaacc tcggcgcacg cgcacagcgc ccgggcgggg 180ggcggggtgg tggtgcgcct gccgcgccta cagttcccgc cgctcgcgcc 2301137219DNAArtificial Sequenceprobe/primer/pcr 1137cgcgcctgat gcacgtgggc gcgctcctga aacccgaaga gcactcgcac ttccccgcgg 60cggtgcaccc ggccccgggc gcacgtgagg acgagcatgt gcgcgcgccc agcgggcacc 120accaggcggg ccgctgccta ctgtgggcct gcaaggcgtg caagcgcaag accaccaacg 180ccgaccgccg caaggccgcc accatgcgcg agcggcgcc 2191138234DNAArtificial Sequenceprobe/primer/pcr 1138ccgggagcgg gcggaggaag ggccgggcgt ccggcgcaag cccgcgccgc cccagccccg 60gccccggccc ggcccgcaca cgccgcttac ctggaagccg gcgacgctgc cgcccacctc 120cctgctgcgt gtcgcaaacc gaacagcggg cgttggccct cctgccggac actcctctgc 180cagcgccgct ctggccgagt cgcgggggcc gaatgtgcga cggggcagag cggg 2341139244DNAArtificial Sequenceprobe/primer/pcr 1139ggggcgcacc gggctggctc ctctgtccgg cccgggagcc cgaggcgcta cggggtgcgc 60gggacagcga gcgggcgggt gcgcccgggc gcggcggcgg cagcgtcggg gacccggagc 120tccaggctgc gccttgcgcc cgggtcagac attatttagc tcttcggttg agcttcgatt 180ggtcaaacgg cgccgccccc ccccccccgc cccccgcccc ccgctccccg ctcgcccgcg 240ctac 2441140255DNAArtificial Sequenceprobe/primer/pcr 1140gccacgggag gaggcgggaa cccagcgagg cccccgaggg ctggggggac cggccggccg 60gacaaagcgg ggccgggccg ggccggggcg gggccgtgcg gggctcaccg gagatcagag 120gcccggacag cttcttgatc gccgcgccgt tggcgctggc ggccgcggtg ccggccgcgg 180gacgtcccga aatccccgag tgcagctggt cagcgagagg ctcctggccg cgctgcccct 240ggttcgcgcc ctgct 2551141255DNAArtificial Sequenceprobe/primer/pcr 1141cgggcatcgg cgcgggatga gaaaccaacc tgatacttat cgtgtgccga gttccctcct 60tgtatcctga ctaagcacag cgaataaccc tgtccttgtt ctaaccccag gtcttgaaga 120aatactgtcc cagctgagcc ccgcgtttac aagatgaaga ggcgccccag atgcgctgaa 180agaaaggcca aagctcgtgc ctccttccac tgcctgcggt agaacctggt cccgcatagc 240ttggactcgg ataag 2551142255DNAArtificial Sequenceprobe/primer/pcr 1142acaccgccgg cgcccaccac caccagctta tattccgtca tcgctcctca ggggcctgcg 60gcccggggtc ctcctacagg gtctcctgcc ccacctgcca aggagggccc tgctcagcca 120ggcccaggcc cagccccagg ccccacaggg cagctgctgg cagggccatc tgaagggcaa 180acccacagcg gtccctgggc cccaacgcca ggcagcaagg actgcagcgt gcctacctgt 240gcagctgcaa cccag 2551143255DNAArtificial Sequenceprobe/primer/pcr 1143ccccaacagc gcgcagcgaa ctccactgcc gctgcctccg ccccagagac acgttgcagg 60ccagagcggc cggggcgcgg ggcatcacgg gacggcctca cctggcctct tggaggactc 120ccgaagcccg aggccgccaa ccgaaggagg ccccgccccc ggaggcaccg cctcgcctct 180ttccgccagc gcccgcagga cccggatgag agcgcacgct tcggggtctc cgggaagtcg 240cggcgccttc ggatg 2551144165DNAArtificial Sequenceprobe/primer/pcr 1144ccccgctggg gacctgggaa agagggaaag gcttccccgg ccagctgcgc ggcgactccg 60gggactccag ggcgcccctc tgcggccgac gcccggggtg cagcggccgc cggggctggg 120gccggcggga gtccgcggga ccctccagaa gagcggccgg cgccg 1651145247DNAArtificial Sequenceprobe/primer/pcr 1145cccgggggac ccactcgagg cggacggggc cccctgcacc cctcttccct ggcggggaga 60aaggctgcag cggggcgatt tgcatttcta tgaaaaccgg actacagggg caactccgcc 120gcagggcagg

cgcggcgcct cagggatggc ttttgggctc tgcccctcgc tgctcccggc 180gtttggcgcc cgcgccccct ccccctgcgc ccgcccccgc ccccctcccg ctcccattct 240ctgccgg 2471146255DNAArtificial Sequenceprobe/primer/pcr 1146cccgcggagg ggcacaccag gcgggtgttg gggaggacgc agagggctgg ggctggagcc 60caggcggggc agggggcggg gcggagctgg gtccgaggcc ggcgggggcg cctccatccc 120acgccctcct cccccgcgcg cccgcccgct ctcgggtgac tccgcaacct gtcgctcagg 180ttcctcctct cccggccccg ccccggcccg gccccgccga gcgtcccacc cgcccgcggg 240agacctggcg ccccg 2551147255DNAArtificial Sequenceprobe/primer/pcr 1147gcccacgtgc tcgcgccaac ccctacgccc cagcgcgcct tctccaccca cgcacgggcc 60tcggacgcat ttccagcccc ggcgttggtt gtggatgctg gacatccacc gcctccaggc 120agtttcgccg tcacaccgtc gccatctgta gccaaagcaa aacatatcct aactgagact 180ttgcagctct tgtggccact ctgggctcac cgggaacatg agtggaagag cccgagtgaa 240ggccagaggc atcgc 2551148254DNAArtificial Sequenceprobe/primer/pcr 1148ggcggagcgg cgaggaggag gagcaggagc gcgcagccag cgggtccacg catctcagca 60cttccagacc aactccggca ccttccacac ccctgcccgg gctgggggct ccgagagcgg 120ccgcgaagcg actccgatcc tccctctgag ccttgctcag ctctgccccg cgcctcccgg 180gctccggtcc gcgcggcggg gtccctgctc ctgcgccccg ggcgcgcttc ccggacaccc 240cggtccccgc agcc 2541149201DNAArtificial Sequenceprobe/primer/pcr 1149cctcgccggt tcccgggtgg cgcgcgttcg ctgcctcctc agctccagga tgatcggcca 60gaagacgctc tactcctttt tctcccccag ccccgccagg aagcgacacg cccccagccc 120cgagccggcc gtccagggga ccggcgtggc tggggtgcct gaggaaagcg gagatgcggc 180ggtgaggcgc ggcttgggcc g 2011150130DNAArtificial Sequenceprobe/primer/pcr 1150caggcgcgcc gatggcgttt ctgaggtgac gccgcccaca ccgggcttct ccgggggcgg 60aggaaacacc tatgaaccct ccggcagcct tccttgccgg gcgccaggta agcagcggtt 120ccgggcgcgg 1301151203DNAArtificial Sequenceprobe/primer/pcr 1151ctcccggctt ctgcatcgag ggccttccag ggccagccct tgggggctcc cagatggggc 60gtccacgtga cccactgccc ccacgcccgc gcgcgggccc cagcagcccc agagctgcgc 120caacttcgtt cactccgcgc tcaccttacg ggggtccccg cgtgaccgca tggggtagcc 180cctgctccca cgctcccggc cga 2031152255DNAArtificial Sequenceprobe/primer/pcr 1152cggtccgcga gtgggagcgg ctgcttgtgg gcagggtgga cgcggggcca cgtcttggcc 60ggcgttttgc ggggtcttcc tgttctgaac gcgcgtaact tttgcctcag tatctcactt 120cttggaatcc ggcggcgttc acgtgtgtgc tccagagaag ggcgccagag ggtattccct 180gaaagtgaaa ggtcggcgaa agaggagtaa agacggcgag acgcgtccac gcagggggag 240tctgtgcggt ttgga 2551153255DNAArtificial Sequenceprobe/primer/pcr 1153gcagcgccgc ctcccacccc gggcttgtgc tgaatgggtt ctgattgtgc acggggtgca 60cactgggcat ttcttggaag gggcacactg acgcgcgcac acacgccccc gacgcgcacg 120cgccccgcgc gcactcacac tcacccccgc gcacactcac ccccgcgcac actcacgctg 180ccgccgcgct gaggtgcagc gcacggggct tcacctgcaa cgtgtcgatt ggacggatgg 240gctcggcgcg tgggt 2551154203DNAArtificial Sequenceprobe/primer/pcr 1154cgaccgtgct ggcggcgact tcaccgcagt cggctcccag ggagaaagcc tggcgagtga 60ggcgcgaaac cggaggggtc ggcgaggatg cgggcgaagg accgagcgtg gaggcctcat 120gcctccgggg aaaggaaggg gtggtggtgt ttgcgcaggg ggagcgaggg ggagccggac 180ctaatccctc actcgccccc tcc 2031155255DNAArtificial Sequenceprobe/primer/pcr 1155cccgggctcc gctcgccaac ctgttactgc tgcagaacgc caggaagctc agcctgatcc 60cacagattag ggtaaaatat cccggggggc cgaagtggaa accggagttg cgtcattgct 120cccacccgat atcaccttgg cagcgaccgc ggctgaccac gttcccggcc tgtcgcgaat 180ctcacccaag ggagctgagt ctcagcttcc ctggtccctg gtcccgagtt ccgccttccc 240cccccgcccc gtggc 2551156255DNAArtificial Sequenceprobe/primer/pcr 1156catggggtgc tcatcttccc ggagctgagg agctggggcg ggcatggggt gctcatcttc 60ctggagctga ggagctggga cgggcatggg gtgctcatcc tcctggagct gaggatctgg 120ggcgggtgtg ggatgctcat cctcctggag ctgaggagct ggggcgggca tggggtgctc 180atcttcccgg agctgaggag ctggggcggg catggggtgc tcatcttccc agagctgagg 240agctggggcg ggcat 2551157202DNAArtificial Sequenceprobe/primer/pcr 1157ccgagagccg gagcggggag ggcccgccaa gtcagcattc cagccggtga ttgcaatgga 60caccgaactg ctgcgacaac agagacgcta caactcaccg cgggtcctgc tgagcgacag 120cacccccttg gagcccccgc ccttgtatct catggaggat tacgtgggca gccccgtggt 180ggcgaacaga acatcacggc gg 2021158169DNAArtificial Sequenceprobe/primer/pcr 1158ccgctgcagg gcgtctgggc ttctgggggc agagaagact cacgcagtga gcagtccgca 60agcccgctgg cggcagcggc ggtgctccgt ccagggcgag aagctgcagc gctcgggccg 120gggtccctcc tgtcgcagca gctcctcgac gagtgcaggg gcagccacg 1691159213DNAArtificial Sequenceprobe/primer/pcr 1159gcgctgcccc aagctggctt ccgctgcctg ctctgggctg ggctgggctg ggctgggctg 60gtaggacctg ctcccagggc gggaggggac acacccacct cagcagatct cagcccatcc 120ctcccagctc agtgcactca cccaacccca cacgggccaa ggagagagtg aagaggaagc 180attgccctca gaggccttca cggactggcc aga 2131160255DNAArtificial Sequenceprobe/primer/pcr 1160caggatgcca gcgtgacgga agcaagtaac caccaaggca tcaccactgg cgctaaactt 60ctcacttccg gagtgctgca agcgcagaaa atatacgtca tgtgcggagg cggagcttcc 120gccctgcgcg tcgtattaga cggaaaccga gcgggcccat ttttcatggg tttgcggacc 180caccagcgaa ggcgggaggt gtcgcaggga catcttctgg ctgtttccgt cgcctgcgtg 240gcccttgcac cccgg 2551161248DNAArtificial Sequenceprobe/primer/pcr 1161ggcggtgcca tcgcgtccac ttccccggcc gccccattcc agctccggag ctcggccgca 60gaaacgcccg ctccagaagg cggcccccgc cccccggccc aaggacgtgt gttggtccag 120ccccccggtt ccccgagacc cacgcggccg ggcaaccgct ctgggtctcg cggtccctcc 180ccgcgccagg ttcctggccg ggcagtccgg ggccggcggg ctcacctgcg tcgggaggaa 240gcgcggcg 2481162189DNAArtificial Sequenceprobe/primer/pcr 1162gtgggtcgcc gccgggagaa gcgtgagggg acagatttgt gaccggcgcg gtttttgtca 60gcttactccg gccaaaaaag aactgcacct ctggagcggg ttagtggtgg tggtagtggg 120ttgggacgag cgcgtcttcc gcagtcccag tccagcgtgg cgggggagcg cctcacgccc 180cgggtcgct 1891163239DNAArtificial Sequenceprobe/primer/pcr 1163ggcggagggc cacgcagggg agacagaggg cctccacagg ggccaggggg aagtgtggga 60actgagtctc ccccagacga ggcttcactt ggacacgtgt atgtggtcac cgggggaaac 120tgagcagttc tgacttccct tggaaggcgt ggaattagga gagaaatccc ttagtgggca 180cacgagtgag tgccccttgg agtccatctg tggaaaggaa gcggtgatag gtttccgca 2391164205DNAArtificial Sequenceprobe/primer/pcr 1164gtccgggggc gccgctgatt ggccgattca acagacgcgg gtgggcagct cagccgcatc 60gctaagcccg gccgcctccc aggctggaat ccctcgacac ttggtccttc ccgccccgcc 120cttccgtgcc ctgcccttcc ctgcccttcc ccgccctgcc ccgcccggcc cggcccggcc 180ctgcccaacc ctgccccgcc ctgcc 2051165255DNAArtificial Sequenceprobe/primer/pcr 1165cggcctgcgg ctcggttccc gcctcttccc cacccccagc cccgcgctgc cctctcggtc 60cccctgcgcg accccaggct cggcccctgc ccggcctgcc ggggtggccc gggggtgggg 120tgggagccct ttgtctgcgt gggtcgcctc gcgtctctct ctcccacccc acctctgaga 180tttcttgcca gcacctggag cccgaaacca gaagagttgt cagcccaaca agaatatagg 240atcaccggcc catca 2551166255DNAArtificial Sequenceprobe/primer/pcr 1166gggaaccgtg gcggcccctc ctggccctgg gaggtggtcc cgctgccccc ctgacttccg 60tgcactgagc ccctggccct gcccgcagcc ccggccctgg actcggcggc cgcggaggac 120ctgtcggacg cgctgtgcga gtttgacgcg gtgctggccg acttcgcgtc gcccttccac 180gagcgccact tccactacga ggagcacctg gagcgcatga agcggcgcag cagcgccagt 240gtcagcgaca gcagc 2551167255DNAArtificial Sequenceprobe/primer/pcr 1167cggggaaggc ggggaaggcg gggaaggcgg ggaaggcggg gaaggcgggg aaggcgggga 60tggtgagacg gtgaggcggg gcggggcctg gggcgcgggc ggggcgggga ggggtggggc 120ggggcccggg ggcgctggac cgcggtgctg cgggacggat tcccggcggc tgcgcgggag 180gctgcgagcc tgggctccca gggagttcga ctggcagagg cgggtgcagg gaacccgcgg 240ctcggcggga gcgtg 2551168218DNAArtificial Sequenceprobe/primer/pcr 1168cctcccggtt tcaggccatt ctcctgcctc agcctcccaa gtagctggga ctacaggcgc 60ctgccaccac tcccggctaa ttttttgtat ttttagtaga gacgggggtt tcaccgtgtt 120agccaggatg gtctcgatct gcttacctcg tgatccgccc gcctcggcct cccaaagtgc 180tgggattaca ggcgtgagcc accgcgtccg gcatattt 2181169255DNAArtificial Sequenceprobe/primer/pcr 1169agcccgcgca ccgaccagcg ccccagttcc ccacagacgc cggcgggccc gggagcctcg 60cggacgtgac gccgcgggcg gaagtgacgt tttcccgcgg ttggacgcgg cgctcagttg 120ccgggcgggg gagggcgcgt ccggtttttc tcaggggacg ttgaaattat ttttgtaacg 180ggagtcggga gaggacgggg cgtgccccga cgtgcgcgcg cgtcgtcctc cccggcgctc 240ctccacagct cgctg 2551170221DNAArtificial Sequenceprobe/primer/pcr 1170ccccagccac accagacgtg ggagcttagg atgagagcgg cctccgagca gatgatcacc 60ctggaacgac gccaaacgcg acccctacca gaggactcgc gcatgcgcag cgcagcctgg 120gccggcggcc tgggcaggat gtagtcgcga gcagcgcacc gggcccacgc cagcggaatt 180gcgcatgcgc agggccgcct ctgcctgcgg cctgggctgg g 2211171255DNAArtificial Sequenceprobe/primer/pcr 1171tgggcttcct gccccatggt tccctctgtt cccaaagggt ttctgcagtt tcacggagct 60tttcacattc cactcggttt tttttttttt gagactcgct ctgtcgccca ggctggaatg 120cagtggcgcg atctcggctc actgcaagct ccgcctcccg ggttcacgcc attctgcttc 180agcctcccaa gtagctggga ttataggcgc ccgccaccac gcccggctaa tggctaattt 240tttgtatttt ttttt 2551172153DNAArtificial Sequenceprobe/primer/pcr 1172ccgcgctggg ccgcagcttt ccggagcgca gaggaagctg gccagcctgc agatagcact 60gggaaagaca ccgcggaact cccgcgagcg gagacccgcc aaggcccctc cagggacctg 120tcttcctaac tgccagggac gccgagccaa ctc 1531173255DNAArtificial Sequenceprobe/primer/pcr 1173gcatggcccg gtggcctgca ctccagtgag gtggctgaac tctgaccagc caagagaaaa 60cccccctctc cgccccaaac agctccccac tcccccagcc tgcccccacc ctccccacat 120tccagtcttt cactgtcgcc ccaggcaact tggctgccca agaccaagcc ccaccaagaa 180gctggagggc caggcaagtc caggatgggc aagcagggaa gcacgagagg gagaaacaga 240ggtgaggaag gaagg 2551174239DNAArtificial Sequenceprobe/primer/pcr 1174gggcagggga ggggagtgct tgagtattgg ggctacactc accacaagag cagcaaacaa 60agcactgggt gtggtagagg ctgtccaggg cctggcaggc attgctctgc ccatagatgc 120ctttgttgca cttgatacag gtgcctgaga agagaaaagt gtcacactct actcccccag 180gtcaaaacca gggattccca agctttcctg actgcccttt cctgatgtgc caggggtca 2391175255DNAArtificial Sequenceprobe/primer/pcr 1175ccccggcgcc ttcctcctcc ggactccgct gcatgcctcg cttgcggtgg tccgatcggc 60tttctccggg agctttcctc tccccgccac gcccccgtct ccccggccgt ccccgcgcct 120ctcggcctcc ctttcattag ccccacatct gtctttccca tgggagggag cgcgcgcctt 180ccgcccagcg gggcccttag cagagcctct ccaatcctcg gcgcctcccc tacacagggt 240tcgctgggcc gttct 2551176202DNAArtificial Sequenceprobe/primer/pcr 1176ccaccgcgct tcccggctat gcgaaagtga aaacgagggg cgcccaaggc cctgcttctt 60cccccttcct cttccccttg cccagccgcg acttcttcct cactgatctc ccgggggcgg 120agacgctgag ttccccggag acgagttagt caccaagaag aggcggtgac agagagcgcg 180gctcgcgtcg cactccgagg cc 2021177255DNAArtificial Sequenceprobe/primer/pcr 1177ccgcatctga ccgcaggacc ccagcgctac caagtgcctg ttcttggacc cccagccgag 60cagggggaag catccccagc tcccgcaccc aagtccctgg cgccgctgcc gggccgccct 120ccctgatgcc cagcgcgcag cctgccggcg ccgcgccttc tggacggctc tcgccgcacc 180tcctgagctc agcccgcggc cccgcagtgg ggcggcctca cttactggcg gggaagcgcg 240ggtctgggtt ggcgc 2551178233DNAArtificial Sequenceprobe/primer/pcr 1178gcggacacgt gcttttcccg cattaggggg ggtctcccgg cgcgcgcccc gccgccacct 60gttgaggaaa gcgagcgcac ctcctgcagc tcaggctccg ggcgccagcc ctgccccgca 120gccccagagc ccgtcgcagc tcgggtggtc cctccccggc ccagcgctcg ccgcctgctc 180ttcgccctgc aagtttcaag aggcagttat ttctcgcagc ctccgcgctt gca 2331179226DNAArtificial Sequenceprobe/primer/pcr 1179gagctggaag agtttgtgag ggcggtcccg ggagcggatt gggtctggga gttcccagag 60gcggctataa gaaccgggaa ctgggcgcgg ggagctgagt tgctggtagt gcccgtggtg 120cttggttcga ggtggccgtt agttgactcc gcggagttca tctccctggt tttcccgtcc 180taacgtcgct cgcctttcag tcaggatgtc tgcccgtggc ccggct 2261180255DNAArtificial Sequenceprobe/primer/pcr 1180ggccgccaac gacgccagag ccggaaatga cgacaacggt gagggttctc gggcggggcc 60tgggacaggc agctccgggg tccgcggttt cacatcggaa acaaaacagc ggctggtctg 120gaaggaacct gagctacgag ccgcggcggc agcggggcgg cggggaagcg tatgtgcgtg 180atggggagtc cgggcaagcc aggaaggcac cgcggacatg ggcggccgcg ggcagggccc 240ggccctttgt ggccg 2551181183DNAArtificial Sequenceprobe/primer/pcr 1181gcgcccggtc agcccgcagc gcccggccag cccgcagcgc cggagcccgc agtgcgtgcg 60aggggctctc ggcaggtcca gacgcctcgc cgagcccagc ccgcagctcc ccgggccgcg 120ccgcgcccgc ccacagggcc cacagccctg cttcggctct cagggcggtc acctgggatg 180ggg 1831182195DNAArtificial Sequenceprobe/primer/pcr 1182cccgccaggc ccagcccctc cctggccagc cccgtccttg tccccaaact gggcccgccc 60ggccgccagg ccgccgggcc tccggggccc tcgcgcatcc ggctccgaaa gctgcgcgca 120gccatcatca gggcccttct ggtgttagaa gagaccccgg catcatcttt tcgtcgcgtg 180cttcccccag agtca 1951183171DNAArtificial Sequenceprobe/primer/pcr 1183cgattcttcc cagcagatgg ccccaaagtt cagttcctga attgcctcgc ggagccgcgg 60gctgcaacgt gaggcggccg ctgccagtcg actcaaccac cggagtggcc cctgcagttg 120gatagcaacg agaatcctcc aggggtgcag ggcgacggct tcggccgcac c 1711184255DNAArtificial Sequenceprobe/primer/pcr 1184cgcacaccgc ccccaagcgg ccggccgagg gagcgccgcg gcagcgggag aggcgtctct 60gtgggccccc tggcagccgc ggcaggaaag ggcccgaagg cagcgaaggc gaacgcggcg 120caccaacctg ccggccccgc cgacgccgcg ctcacctccc tccggggcgg gcgtggggcc 180agctcaggac aggcgctcgg gggacgcgtg tcctcacccc acggggacgg tggaggagag 240tcagcgaggg cccga 2551185169DNAArtificial Sequenceprobe/primer/pcr 1185aggccccgag gccggagcgg cggagggggc ggcccctccc acagggtctt cccacccaca 60gggcacccag gcgcagcgga gccaggaggg ggcttacccg cgggcaggga cggagcacgc 120cggggccctg gaggggcgac gctcgctcgt gtccccggtc cccgtggcc 1691186249DNAArtificial Sequenceprobe/primer/pcr 1186gggttcgcgc gagcgctttg tgctcatgga ccagccgcac aacttttgaa ggctcgccgg 60cccatgtggg gtctttctgg cggcgcgccg cctgcagccc ccctaaagcg cgggggctgg 120agttgttgag cagccccgcc gctgtggtcc atgtagccgc tggccgcgcg cggactgcgg 180ctcggcgtgc gcgtgttccc ggccgtcccg cctcggcgag ctccctcatg ttgtcgccct 240gcggcgccc 2491187255DNAArtificial Sequenceprobe/primer/pcr 1187ccagtctccc gccccctgag catgcacgca ctttggttgc agtgcaatgc tctgacttcc 60aaatgggaga gacaagtggc ggaaaatagg gtcttctccc acctcccacc cccccatccc 120gactcttttg cccttctttt ggtccaagag attttgaaac cgtgcagaac gagggagagg 180ggcaggctgc agccgggcag ataacaaaac acaccccaaa gtgggcctcg catcggccct 240cgcattcctg tagag 2551188233DNAArtificial Sequenceprobe/primer/pcr 1188gaggaggcag cggaccgggg acaccctggg ggaacttccc gagctccgcg acctcgaagc 60ctggcccttc cttctccctg gtcctacatg cctccctccc ccactgtccg gggtcctggc 120ctcgacgccg aggggtgtcc ctctcctctc ctggtcaggg aacgcagcaa ctgaggcggc 180gcggcccaga tgagacggga agcgcctgcg ggccgtgggc gcgggtggaa ccc 2331189232DNAArtificial Sequenceprobe/primer/pcr 1189ccggctccac ggacccacgg aagggcaagg gggcggcctc ggggcggcgg gacagttgtc 60ggagggcgcc ctccaggccc aagccgcctt ctccggcccc cgccatggcc cggggcggca 120gtcagagctg gagctccggg gaatcagacg ggcagccaaa ggagcagacg cccgagaagc 180ccaggtgagc ggctgggccg cgccggacgg gcgtcggggg tctgggccgc ga 2321190247DNAArtificial Sequenceprobe/primer/pcr 1190ccgccaccgc caccatgccc aacttcgccg gcacctggaa gatgcgcagc agcgagaatt 60tcgacgagct gctcaaggca ctgggtaagc tggtgcagag ggcgcgcccc gacggggaga 120tgcggcccgg aggtgccctg gtcccggaag tgccccggtc ctggaggggg tggaagttgg 180ggagcccagg caggagggag tccccggggc aatagatcgc cttgtctccc aggcgcaccg 240ggtctcg 2471191203DNAArtificial Sequenceprobe/primer/pcr 1191tgagtaagga tgataccgag agggaagaaa aaaataccct ctttgggcca ggcacggtgg 60ctcacccctg taatcccagc actttgggag gctgaggcga gcggatcacg agatcagaag 120atcgagacca tcctggctaa cacagtgaaa ccccatctct accaaaaata caaaaaatta 180gccaggcatg gtggcgggca cct 2031192255DNAArtificial Sequenceprobe/primer/pcr 1192tgggccaggc

acggtggctc acccctgtaa tcccagcact ttgggaggct gaggcgagcg 60gatcacgaga tcagaagatc gagaccatcc tggctaacac agtgaaaccc catctctacc 120aaaaatacaa aaaattagcc aggcatggtg gcgggcacct gtagtcccag ctacttggga 180ggctgaggca ggagaatcct ttgaacccag gaggcggagc ttgcagtgag ctgagattgt 240gccactgcac tccag 2551193255DNAArtificial Sequenceprobe/primer/pcr 1193ccggcgaagt gggcggctcc ccaagcgccc aggctgcgca gcacgatggc cgcccccgcc 60gcgcaccgcg tgtgcccgca cgcccgcccc ctgcgccccg gggacgcctc tccgcccctc 120cccctgcccc tccgcccacc gcgcggtcgc cccacgccgc gggcgctgct tcgccgcccg 180ggaggccgcc tcccgccccg ggaccggata acgccctaaa tcagcgcagc tgaggcgagg 240ccgtggcccc cgcag 2551194255DNAArtificial Sequenceprobe/primer/pcr 1194gcggccttac cctgccgcga gcgcctgtga cagcggcgcc gctgtgctcg cgaccccggc 60tccgggcctc tgccgacctc aggggcagga aagagtcgcc cggcgggatg ggcggggagg 120ctgggtgcgc ggcggccgtg ggtgccgagg gccgcgtgaa gagcctgggt ctggtgttcg 180aggacgagcg caagggctgc tattccagcg gcgagacagt ggccgggcac gtgctgctgg 240aggcgtccga gccgg 2551195217DNAArtificial Sequenceprobe/primer/pcr 1195gtggggccgg cgagggtcag gggcatcgcg gccgcgaccc cattctgcag cccccgaggc 60tcgcccgact cctggctgcc ctggactccc ctccctcctc cctcccgcct cctcgcccag 120ggcccggctc acctggcggc ggggcgcggg acgccgcggg cgggacggcg gggggctccg 180gggcgctccg gggcggctct cgcgcatgct ccggggc 2171196250DNAArtificial Sequenceprobe/primer/pcr 1196cggcgcggac cggctcctct accactttct ccagctgcac tgccacccag cctgcctggt 60gctggtgctc aacacgcagc cggccgagga ggtgcggccg cgctggcgcg ggagtgaggg 120gactccgaga gtgttgaggg cctcctgagc ggatgcgagg cctctgacag ggatggaggg 180gctctgaggg ggattcaggc ccctgacact acgcgatgac acagagaagg atggcagggg 240tccccagggg 2501197215DNAArtificial Sequenceprobe/primer/pcr 1197gcccatgcgg ccccgtcacg tgatgcaagg atcgccggcc tttccgccag agggcggcac 60agaactacaa ctcccagcaa gctcccaagg cggccctccg cgcaatgccg ctaccggaag 120tgcgggtcgc gcttccggcg gcgtcccggg gccagggggg tgcgcctttc tccgcgtcgg 180ggcggcccgg agcgcggtgg cgcggcgcgg ggtaa 2151198184DNAArtificial Sequenceprobe/primer/pcr 1198gggattgcca ggggctgacc ggagtgttgc tgggaaggag cctcagctcc gctccaggtc 60ctccaccagg taggactggg actcccttag ggcctggagg agcaagtcct tgcaggtcca 120gttccaggct ggtgtgaaac tgaagagctt ccgcatcttg cttgggttgg tgggctcggc 180ccgc 1841199234DNAArtificial Sequenceprobe/primer/pcr 1199gccggagcac gcggctactc aggccgaacc ccgacccgga cccggcacgc ggcctcggcg 60agggcgggcg ggagtgtcct cctccgggac agccggactc ccgccgactt ctgggcggcg 120gggagggctc caggcccggc tctcccgggc ccccgcacgc gatgcgcggc ccctgcagct 180gctccgtgcc ccgagacgcg cccgaggcct cggacctcca agcggccacc gcgc 2341200255DNAArtificial Sequenceprobe/primer/pcr 1200cctcggcgcc ggcccgttag ttgcccgggc ccgagccggc cgggcccgcg ggttgccgag 60cccgctgacg tcagcccggg tttccccccc ccaccggggc ttccccatcc cccgaggctt 120cccgggaggg ctgcgagtcc ggggagcgtg cggggtcgcc accatcggga cccccagagg 180agagaggact tggggcggga gccgcgcggg acgctgtccc cctcccgccc cccaccccat 240ttacagattg ggaga 2551201205DNAArtificial Sequenceprobe/primer/pcr 1201cacagcggcg gcgagtgggt cgtgcacgcg gatgcggggt gggagtgggg gcgcacgcgc 60gggcgtgggc gagcgggccc cggcagtgca cacacacggc aggggcgggc gacagatgca 120gtgcgtgcgc cggagcccaa gcgcacaaac ggaaagagcg ggcgcggtgc gcaggggcgg 180gcgcccagcg ggcttggcat gcgcg 2051202220DNAArtificial Sequenceprobe/primer/pcr 1202cacctcgggc ggggcggact cggctgggcg gactcagcgg ggcgggcgca ggcgcagggc 60gggtcctttg cgtccggccc tctttcccct gaccataaaa gcagccgctg gctgctgggc 120cctaccaagc cttccacgtg cgccttatag cctctcaact tcttgcttgg gatctccaac 180ctcaccgcgg ctcgaaatgg accccaactg ctcctgcgcc 2201203255DNAArtificial Sequenceprobe/primer/pcr 1203agacggggcc gggcgcagac gccccgcccc gcccttgcac ccagcccgct gagtccgcac 60cgcccgcggt cccggcctgg gctgtgcgca ggagatgggc caagtgcaag gtcccttgag 120cgcagctggg cgcacaccgc aggacggccc ctttcgcacc ggctcgcgag ggaggcgctg 180tgccccccgt gtgcggcttc tctcaccctg ccaggccttc ccagcttccc tgaggttgcc 240tgctacaccc gcccc 2551204255DNAArtificial Sequenceprobe/primer/pcr 1204gcattcgggc cgcaagctcc gcgccccagc cctgcgcccc ttcctctccc gtcgtcaccg 60cttcccttct tccaagaaag ttcgggtcct gaggagcgga gcggcctgga agcctcgcgc 120gctccggacc ccccagtgat gggagtgggg ggtgggtggt gaggggcgag cgcggctttc 180ctgccccctc cagcgcagac cgaggcgggg gcgtctggcc gcggagtccg cggggtgggc 240tcgcgcgggc ggtgg 2551205171DNAArtificial Sequenceprobe/primer/pcr 1205gcccgaaagg gccggagcgt gtcccccgcc agggcgcagg ccccagcccc ccgcacccct 60attgtccagc cagctggagc tccggccaga tcccgggctg ccgcctctgc tgccttccct 120gagcgggagc ggagcgcaga gaaaagttca agccttgccc acccgggctg c 1711206212DNAArtificial Sequenceprobe/primer/pcr 1206cggcggccgg gtgaccgacc actgcttacc aggaggggag actggcaggg ggggctcaag 60gaacatctgg tgggtgtccc cttcacaaga ctcggcctgc agagttcgtg cagggagttc 120gcacatagga gagcaccggt ccgggagtgc caggctcgtg cccggccggg gagaggagtg 180ggagactaag tcgcagggca agggcaactg ca 2121207255DNAArtificial Sequenceprobe/primer/pcr 1207ccaccggcgg ccgctcacct cctgctcctt ctcctggtcc gggcgggccg gcctgggctc 60ccactccaga gggcagccgg tccttcgccg gtgcccaggc cgcagggctg atgcccccgc 120tcagctgagg gaaggggaag tggaggggag aagtgccggg ctggggccag gcggccaggg 180cgccgcacgg ctctcacccg gccggtgtgt gtccccgcag gagagtgtgc tgggcagacg 240atgctggaca cgatg 2551208239DNAArtificial Sequenceprobe/primer/pcr 1208cggtcaggga cccccttccc ccttcaagct gactccctcc cacaaggctc ttcagatctc 60gttgtatttt gggattgatg ggggaaaaat ccaaatttgt ttgtttgctt cccttttttc 120ggtggtgggg aaaggtggca ggctttttgg gacaaccatg gaggggtcct ccgtctcggc 180ctcttcgcat atccccctcc gtgatcctgc cttccccccc caccgagccc atcgcaggc 2391209240DNAArtificial Sequenceprobe/primer/pcr 1209ggccgaagct gccgcccctc ctcccaaccg gcgggtcaga tctcgctccc tttcggacaa 60cttacctcgg agaggagtca aggggagagg ggaggggagg gggggagggg gcaagagaga 120gaggggggag aagagggatc ttctcgctta tttcattgtt cccccatctt cagggagcgg 180gggcagcggc tcctcaaggc ggcgggcgcc ggcgtcttca gagcgccatg cgaaccgcgg 2401210255DNAArtificial Sequenceprobe/primer/pcr 1210gcggccttgt gccgctgggg gctcctcctc gccctcttgc cccccggagc cgcgagcacc 60caaggtgggt ctggtgtggg gaggggacgg agcagcggcg ggaccctgcc ctgtggatgc 120cccgccgagg tcccgcggcc ggcggggcca gaggggcccg gacgagctct cctatcccga 180agttgtggac agtcgagacg ctcagggcag ccgggccctg gggccctcgg gcgggagggg 240gcagttacac ggcag 2551211241DNAArtificial Sequenceprobe/primer/pcr 1211cgcgggagga gcggcgaggc cctcacctgg cgccttttat gcccgcggcc ggtggagggg 60ggaagggagg aatggtgtca ggggcggata tctgagccct gaggaatttg caggctcctg 120agagcaaata tgggctctct ccccattggt caattccctc ccctcccaga gaccagaggc 180ccctgccctc cagaggtgcc ccgccccggt ccgcgcagaa gctccgaccc gcactccccc 240a 2411212223DNAArtificial Sequenceprobe/primer/pcr 1212gcccaccaga agcccatcac caccagcaaa gccaccacca aagccaccac ccaagccagc 60accaaggcca ccaccatatc ctcccccaaa gccactacca aagctgctgc tgctgctgct 120gaagccaccg ccatagccgc cccccagccc gcaggctccc ccagaggaga agcgggagga 180tgagacagac aggccgcccc cgtaggtgct gggggcgcgg cag 2231213165DNAArtificial Sequenceprobe/primer/pcr 1213gggccatgtg ccccacccca cagccccacc ctgccctgcc caccacccca agcccggccc 60tgggtcccag ggtcccgcca ggcccgctgg gtggaatgtg gtcatgtttc agactgccga 120tggcttccac ttcccagaca ggcccagacg gccccgccag cagcc 1651214177DNAArtificial Sequenceprobe/primer/pcr 1214ccgccagccc agggcgagag tcagggacgc ggcgtcgggc gagctgcgcg ggccccgggg 60gaggcgcgac cccggaggca cctgtccgga tccctccccg ccttgctcag atctctggtt 120cgcggagctc cgaggcgcgc tcggcccgaa ccgcgcgacc cccaagtcgc cgcgccc 1771215151DNAArtificial Sequenceprobe/primer/pcr 1215gccccctgtc cctttcccgg gactctacta cctttaccca gagcagaggg tgaaggcctc 60ctgagcgcag gggcccagtt atctgagaaa ccccacagcc tgtcccccgt ccaggaagtc 120tcagcgagct cacgccgcgc agtcgcagtt t 1511216209DNAArtificial Sequenceprobe/primer/pcr 1216gtgggggtcc gcacccagca ataacccggg tcttcccgct ccggctcctg ccccagtaag 60cgttggaccg ggagacgcag tgctcagcat cggtcagcag ggggcgcaag gaccccgccc 120cgccgagtcc gcgccaaagt ttctcatcct ccacccgccc acgctccgca ccccctccgc 180ggctgcccag cacccccacg gccccagca 2091217220DNAArtificial Sequenceprobe/primer/pcr 1217gggcccccgg gttgcgtgag gacacctcct ctgaggggcg ccgcttgccc ctctccggat 60cgcccggggc cccggctggc cagaggatgg acgaggagga ggatggagcg ggcgccgagg 120agtcgggaca gccccggagc ttcatgcggc tcaacgacct gtcgggggcc gggggccggc 180cggggccggg gtcagcagaa aaggacccgg gcagcgcgga 2201218212DNAArtificial Sequenceprobe/primer/pcr 1218gcctgcacag acgacagcac ccccggcggg ggagagcggc cccagcggag actcggcagg 60gctcaggttt cctggaccgg atgactgacc tgagcccggg gcccgggcgg cgctggccgg 120gcacaggatg cgcggcccgg agagcgcatc ccggccatcc gcccgcgctc ggccccgcag 180cgcagctgct gcagatccgc gggggccgcc ac 2121219244DNAArtificial Sequenceprobe/primer/pcr 1219ggccgcgccg ggctcaggtt ccacccccgg gagcgcgggg cggagccagg ccggcgccga 60ggctcagtgc cctccccgct ccgcggcgcc ggctgcgaag ttgagcgaaa agtttgaggc 120cggagggagc gaggccgggg agtccgctcc agcggggcgc tccagtccct cagacgtggg 180ctgagcttgg gacgagctgc gttccgcccc aggccactgt agggaacggc ggtggcgcct 240cccc 2441220253DNAArtificial Sequenceprobe/primer/pcr 1220ggggtagtcg cgcaggtgtc gggcgcggag ccgcttggcc tcctccacga agggccgctt 60ctcgtcctcg tccagcagct tccactgcgc gcccaggcgc ttggagatct cggagttgtg 120catcttgggg ttctgctgcg ccatctggcg gcgctgagcg gagctccaca ccatgaacgc 180gttcatcggc cgcttcacct tctccagggg cagcgtcccg ggggccgcgg ggctcccagc 240gccctcccgc tcc 2531221255DNAArtificial Sequenceprobe/primer/pcr 1221tgcaggcgga gaatagcagc ctccctctgc caagtaagag gaaccggcct aaaggacatt 60ttctctctct ctcctcccct ctcatcgggt gaatagtgag ctgctccggc aaaaagaaac 120cggaaatgct gctgcaagag gcagaaatgt aaatgtggag ccaaacaata acagggctgc 180cgggcctctc agattgcgac ggtcctcctc ggcctggcgg gcaaacccct ggtttagcac 240ttctcacttc cacga 2551222163DNAArtificial Sequenceprobe/primer/pcr 1222ccggaaatgc tgctgcaaga ggcagaaatg taaatgtgga gccaaacaat aacagggctg 60ccgggcctct cagattgcga cggtcctcct cggcctggcg ggcaaacccc tggtttagca 120cttctcactt ccacgactga cagccttcaa ttggattttc tcc 1631223233DNAArtificial Sequenceprobe/primer/pcr 1223gcgtcggatc cctgagaact tcgaagccat cctggctgag gctaatctcc gctgtgcttc 60ctctgcagta tgaagacttt ggagactcaa ccgttagctc cggactgctg tccttcagac 120caggacccag ctccagccca tccttctccc cacgcttccc cgatgaataa aaatgcggac 180tctgaactga tgccaccgcc tcccgaaagg ggggatccgc cccggttgtc ccc 2331224172DNAArtificial Sequenceprobe/primer/pcr 1224ccggctccgc gggttccgtg ggtcgcccgc gaaatctgat ccgggatgcg gcggcccaat 60cggaaggtgg accgaaatcc cgcgacagca agaggcccgt agcgacccgc ggtgctaagg 120aacacagtgc tttcaaaaga attggcgtcc gctgttcgcc tctcctcccg gg 1721225255DNAArtificial Sequenceprobe/primer/pcr 1225cgtcgccggg gctggacgtt cgcagcggcg cttcggaagg gggccccgcg ggagcagccg 60cccgcgtctc cagcagcttc cccttgccag gcgccgcgcg cgcccggtat ccccgggtgt 120ccacctgtgc gtggggggct gtttcccgtc tgtccagccg cgcccacttc tcaggcccaa 180aggccagcag gaagggtccc ggaggtggct gggggcgtcc acctgagaag ctccgctctc 240gctcagacac cccac 2551226255DNAArtificial Sequenceprobe/primer/pcr 1226gggcctgccg cctcgtccac cgtccgtcgt gaggccggca gcggacacgt gctcatccca 60cggggaggcc ccgcgcagcg cggaggacgc gcctgagaga gaaaaggggt tcgggagaag 120cccgaggacc cggcccgtga ctgggcgcgc cctatgcaaa tgagcgggcg gggccctcgt 180gttgctgaac gagggcgggt tcgcgatgta aataagccca gaggtggggt ctttggagag 240cacttagggc ccggg 2551227173DNAArtificial Sequenceprobe/primer/pcr 1227gcacaccgct ggcggacacc ccagtaacaa gtgagagcgc tccaccccgc agtccccccc 60gcctctcctc cctgggtccc ctcggctctc ggaagaaaaa ccaacagcat ctccagctct 120cgcgcggaat tgtctcttca actttaccca accgacgaca aggaaccagc ctc 1731228216DNAArtificial Sequenceprobe/primer/pcr 1228gcaaaccatc ttccccgacg ccttccacat aagatgccct cctgcgggcc ctcacctttt 60gacactgcct cccaccgcac tggggtcaac tctcacccaa gggttccgcc accttccacc 120accaaaccag cctgtccctg ccacatgccc cccgggcccc agcgctcatc ctctgcccag 180gcccgctctt gacccctgac cccggcctga ccccgc 2161229236DNAArtificial Sequenceprobe/primer/pcr 1229ggccctccgc cgcctccaac cgcgcaccag gagctgggca cggcggcagc ggcggcagcg 60gcggcgtcgc gctcggccat ggtcaccagc atggcctcga tcctggacgg cggcgactac 120cggcccgagc tctccatccc gctgcaccac gccatgagca tgtcctgcga ctcgtctccg 180cctggcatgg gcatgagcaa cacctacacc acgctgacac cgctccagcc gctgcc 2361230247DNAArtificial Sequenceprobe/primer/pcr 1230caccaccgtg gcaaagcgtc cccgcgcggt gaagggcgtc aggtgcagct ggctggacat 60ctcggcgaag tcgcggcggt agcggcggga gaagtcgtcg ccggcctggc ggagggtcag 120gtggaccaca ggtggcaccg ggctgagcgc aggccccgcg gcggcgccgg gggcagccgg 180ggtctgcagc ggcgaggtcc tggcgaccgg gtcccgggat gcggctggat ggggcgtgtg 240cccgggc 2471231185DNAArtificial Sequenceprobe/primer/pcr 1231cacagcccct tcctgcccga acatgttgga ggccttttgg aagctgtgca gacaacagta 60acttcagcct gaatcatttc tttcaattgt ggacaagctg ccaagaggct tgagtaggag 120aggagtgccg ccgaggcggg gcggggcggg gcgtggagct gggctggcag tgggcgtggc 180ggtgc 1851232242DNAArtificial Sequenceprobe/primer/pcr 1232gcttgatgct caccactgtt cttgctgctc aagggaaacc aagtatatat ttgtggatag 60atcctaactc agatgatact gtcagaatat ataagattcc tataccacat cctgaactct 120gaaagttgca gttctacgta gaagttcact gagggttgta agagtcagaa tggactccat 180ggaagttatg gggtgtgaat caaacctcac aggtgagtca gtggggagaa agaagcatga 240ca 2421233255DNAArtificial Sequenceprobe/primer/pcr 1233ggccaggccc ggtggctcac acctgtaatc ccagcacttt gggaggccga ggtgggcgga 60ttgcctgagg tcaggagttt gagaccagcc tggccaacat ggtgaaaccc cgtctctact 120aaaaatacca aaaattagcc agtcgtagtg gtgggcacct gtaatcccag ctattcagga 180ggctgaggca ggaggatcac ttgaacccaa gaggcgggag ttgcagtgag cagagatcac 240gccattgcac cccag 2551234255DNAArtificial Sequenceprobe/primer/pcr 1234gcgggacggg tggcgggaag gagggaggcg cggctgggga gagcgctcgg gagctgccgg 60gcgctgcgga ccccgtttag tcctaacctc aatcctgcga gggaggggac gcatcgtcct 120cctcgcctta cagacgccga aacggagggt cccattaggg acgtgactgg cgcgggcaac 180acacacagca gcgacagccg ggaggtaagc cgcgtcccag cggctccgcg gccgggctcg 240cagtcgcccc agtga 2551235255DNAArtificial Sequenceprobe/primer/pcr 1235gcttggcccc gccacccaga cccctccccc gggggcgccc agcttggcct ctgggtcccg 60gcgcacgcgg accccaagtc ggggaggccg ggctgaccgc ggccgcctcc ccggctccgg 120gtaggaggtg ggcagagaag gtgggctgag gggaggagaa actgggctgc gggggtccgg 180gagggtggat tccgagaaac tatgtgccca gctgaccctg cccgccccgc cgcggccctg 240cagtccccgg gccag 2551236211DNAArtificial Sequenceprobe/primer/pcr 1236gcggggaagg cgaccgcagc ccacctaccg ctggacgcgg gttggggacc ccgccgcccg 60gccagctttg ttcgggggcc cgcggcccct cccgggcccc cgcaccgcct cgggtgaccc 120gcggtgtccc agcgcgttga cgcagcctgt gatccctcgc gaggcgagga gaaggtcggg 180ggcttggctc tgcctaatgg ccgcccgggg a 2111237221DNAArtificial Sequenceprobe/primer/pcr 1237gcgcccaacc accacgcccg cctaattttt gtatttttag tagagacggg ttttcaccat 60tttggccagg ctggtctcga accccgacct caggtgatct gcccaaaagt gctgggatta 120caggcgtcag ccaccgcgcc cggccgggac cctctcttct aactcggagc tgggtgtggg 180gacctccagt cctaaaacaa gggatcactc ccacccccgc c 2211238179DNAArtificial Sequenceprobe/primer/pcr 1238aaaagccccg gccggcctcc ccagggtccc cgaggacgaa gttgaccctg accgggccgt 60ctcccagttc tgaggcccgg gtcccactgg aactcgcgtc tgagccgccg tcccggaccc 120ccggtgcccg ccggtccgca gaccctgcac cgggcttgga ctcgcagccg ggactgacg 1791239184DNAArtificial Sequenceprobe/primer/pcr 1239cgcaggtgcg ggggagcgtg cggccgggtc catgcgcctg cgggcggcgg ggggagacgc 60gttgccttcg gccgggacca ctgcacctgc ccgcgtgggt aatgcgcccg ccgcagactc 120cgcgcacgac tccgcctggg agcgcgttgg gggccgttgg agtccagcat ggcgcggacc 180ccgg

1841240241DNAArtificial Sequenceprobe/primer/pcr 1240cccgcccaca gcgcggagtt tagtctgcgc gtgcctcgct cgagaacgcg ctcgtgcgca 60tgcccacaaa ggccaaggag ggagtgcgca ggtcacgtgc gccggtggtc agcgcgcgca 120ttgcctgccc cggaagtggt cggcgcgcgg cgcggcgcgc ctgggcgcta agatggcggc 180ggcgtgagtt gcatgttgtg tgaggatccc ggggccgccg cgtcgctcgg gccccgccat 240g 2411241255DNAArtificial Sequenceprobe/primer/pcr 1241gcaggggccc gggggcgatg ccacccggtg ccgactgagg ccaccgcacc atggcccgct 60cgctgacctg gcgctgctgc ccctggtgcc tgacggagga tgagaaggcc gccgcccggg 120tggaccagga gatcaacagg atcctcttgg agcagaagaa gcaggaccgc ggggagctga 180agctgctgct tttgggtgag tccagggtcg gtgggcggtg ggtggtgggc agtgggcggt 240ggccagccgg caggg 2551242171DNAArtificial Sequenceprobe/primer/pcr 1242catgaccgcg gtggcttgtg ggaaaagtgg ctcggaaccc caaatcccgg ttagattgca 60ggcaccgccg gacgctggct cccggaggtt ttagttttcc ctctaccagg agtgtgaaga 120cacagagact tattgcgctg gcgaagatgg ctgaggcgaa ggcgtgtccg a 1711243166DNAArtificial Sequenceprobe/primer/pcr 1243gcaggtgctc agcgggcaga cgccccgccc cgccccgcca ggttctgttg ggggcgaggc 60ccgcgcaagc cccgcctctt ccccggcacc aggggcgggc ccaggtgcgc ccagggccgg 120ggagcggccg cgcaggtgcc tgccctttgc gcctgcgccc agctcg 1661244187DNAArtificial Sequenceprobe/primer/pcr 1244ggtgcgccct gcgctggcta aagtgcgcaa gcgcgcgagg ctcgggcctt tcaaaccccg 60gcgcgccggc gccggcgtcg acactgcgca agcccagtcg cgcctctcca gagcgggaag 120agcgctgcgt tccttagcaa cgagcgtttc ctccagcccc gcctccctcc gccacacaca 180accccgc 1871245222DNAArtificial Sequenceprobe/primer/pcr 1245aatttggtcc tcctgcgcct gccaagattg tctgagtatt gatcgaaccc aggagttcga 60gatcagcttg agcaagatag cgagaacccc cgcccctcca cctcgtctca aaaaaaaaaa 120aaaatcgtct cagtagcgaa tagtctaacg gagaatgaca gggaaattgg tgatcctttc 180tgggcccaag agttagaaat ggctttgcag gccgggcgcg gt 2221246200DNAArtificial Sequenceprobe/primer/pcr 1246ggcttccgcg gcgccaatct ccacccgcag tctccgcctc ccgcacctgt ggtccgggcc 60tcacggtttc agcgccgcga ggcctcacct gctggtcttg gagcctcaag ggaaagactg 120cagagggatc gaggcggccc actgccagca cggccagcgt ggcccagggc tcgcagcact 180tccggcctct ctggccccgc 2001247202DNAArtificial Sequenceprobe/primer/pcr 1247gccaggagag gggccgagcc tgcacaggag cttcctcggt tttccgagcg ccggcccccc 60ttctctgcct gggaggaggt ggttagagtc ccctgggtgt gtgccccgca gagggagctc 120tggcctcagt gcccagtgtg cagaccaatg agagccccag agagaaagac ggtcatttcc 180tccctgcatc ttcccttggg gc 2021248158DNAArtificial Sequenceprobe/primer/pcr 1248cgagcgccgg ccccccttct ctgcctggga ggaggtggtt agagtcccct gggtgtgtgc 60cccgcagagg gagctctggc ctcagtgccc agtgtgcaga ccaatgagag ccccagagag 120aaagacggtc atttcctccc tgcatcttcc cttggggc 1581249203DNAArtificial Sequenceprobe/primer/pcr 1249ggttgcgagg gcaccctttg gcccgggggc gcgcaggaga gggcaggggc caggggtttc 60ctgggcgagg gcgcggggac gagcaggaaa aggccggggt gggggtggaa ttcctcggcg 120ggcagggggc gcatgcgccg ggcaccgtgg ggcgggacgt ggcccgggag gagctggggg 180gactgggtgg tgcacgtgcg ggc 2031250168DNAArtificial Sequenceprobe/primer/pcr 1250acccggacgc ggtggcgcgc gcctgtaatc ccagctactc gggagcctga ggcaggagaa 60tcgcttgaat ccgggaggcg gaggttgcag taagccgaga tcgcgccact gcaccccagc 120ctgggcgaca gagcaagact cctcggtaaa gacaccactt cgtcaccc 1681251255DNAArtificial Sequenceprobe/primer/pcr 1251cgccgccgag cctcagccac gcctctgtgc agcggggaag actcctctcg cgccttctca 60gtcagtcacg gatgatgctg acccagcgct ccggggcttt ctaccaagta atcagtccag 120acaaatgcca aaacgaccgc cacaaggagg acaacggaag tcccgccgcg accgcgcgtg 180cgcttacgga aacaccacct ttcggaggcc tcattggctg aaggtcgccg tcgcccaacg 240caggccattc tgggt 2551252179DNAArtificial Sequenceprobe/primer/pcr 1252gcagcctcaa cctcctgggg tcaagtgatc atcctggctc aaccacccaa gtagccggga 60ctacgggtgg ccgccaccat gcccggataa tttttttatt tttgtggaga tgggggtccc 120acgatgttgc ccagtccagt cttgaactcc tgggctcaag tgatcctccc gcagcagcc 1791253150DNAArtificial Sequenceprobe/primer/pcr 1253cttgccgacc cagcctcgat cccctgcggc gtccaggtcc caatgcccca acgcaggcca 60cccccggctc ctctgtggac tcacgaagac aaggtccggc cgctcgggcc gcgagagtcg 120cgccatcacc accatttttc tggatgccca 1501254255DNAArtificial Sequenceprobe/primer/pcr 1254gcggcgttcg gtggtgtccc ggtgcagcca cgcgagagta gaagggtgga aaggggaggt 60gcccagtgaa atggagcctg tcccgtgcac tttcgggcat ttcgagcatc ttgtgggctc 120tcccaagtcg cggcccctcc tctgagagcc acagtcaggt ctgtcctcag gggtcgaggc 180ggctgcgctg gggcctcggc ccgggaggag gcggggggca cggcctttcc attttccctg 240ctcccctctg cagaa 2551255151DNAArtificial Sequenceprobe/primer/pcr 1255ccggactccc ccgcgcagac caccgtgcca ggacagcccg ctcgggagtc gggcctggaa 60gcaggcggac agcgtcacct ccccgcagcc gccggctggg acccgcggcc agcctttacc 120caggctcgcc cggtccctgc ccgcatggcg g 1511256237DNAArtificial Sequenceprobe/primer/pcr 1256ggccccctgc aagttccgcc tcccgggttc acaccattct cctgcctcag cctccccagc 60agctgggact acaggcacct gccgccacgc ccggctaatt ttttgtattt ttagtagaga 120cagggtttca ccatgttagc caggatggtc tcgatctcct gaccttgtga tctgcccgcc 180tcggcctccc aaagtgttgg gattacaggc gtgagccacc gtgtccagcc tgtaaca 2371257194DNAArtificial Sequenceprobe/primer/pcr 1257gcccagggga gccctccatt tgtagaatga atgagagtcc aggttatgaa cagtgcctgg 60agtgtaggaa caccctcctt tgcctctttg acaggtctgc atcataacac tttttttttt 120tttttgagac agagtctcac tctgtcgccc aggctggagt gcagtggcac gatctcggcc 180ccctgcaagt tccg 1941258207DNAArtificial Sequenceprobe/primer/pcr 1258ccggctgcag gccctcactg gttgggtccg cccgcgaggg tgccctgggc ccggtgtctc 60tcctccttct gaagtttgtt cccatccacc cggcatcacc gaccggtttt atcccgctga 120ggccctggga gatgggtctg gcgaggctcg taggccgcgg attggctggc tgggtgcagg 180ggggtgcggg aaggggagga ttttgca 2071259255DNAArtificial Sequenceprobe/primer/pcr 1259gtcacacctg ccgatgaaac tcctgcgtaa gaagatcgag aagcggaacc tcaaattgcg 60gcagcggaac ctaaagtttc agggtgagat gcgttgactc gcggtggctc agaagaccca 120cgcgcgagcc ctggcgcgtt cgggcggccg ggggcccagc tgctctgtgt gacggaggca 180gcttcccctg cagcgtgtgt gattggggag agtgaaaagg cagcttccac tcgggacccg 240cgctgctgcc cactc 2551260255DNAArtificial Sequenceprobe/primer/pcr 1260ccctgcgcac ccctaccagg caggctcgct gcctttcctc cctcttgtct ctccagagcc 60ggatcttcaa ggggagcctc cgtgcccccg gctgctcagt ccctccggtg tgcaggaccc 120cggaagtcct ccccgcacag ctctcgcttc tctttgcagc ctgtttctgc gccggaccag 180tcgaggactc tggacagtag aggccccggg acgaccgagc tgatggcgtc ttcgacccca 240tcttcgtccg caacc 2551261255DNAArtificial Sequenceprobe/primer/pcr 1261cctgggggag cgcggtgggg gtaagataag ggatgggggc tccgagggct gggaactgca 60ggaaggaaag aagcggcggg gccgcccggg tcaaggggcc acgtggggga gggcgggcag 120gcgggaccgg gaggtcaata actgcagcgt ccgagctgag cccaggggag cgggcgagga 180gaaagaagcc tcagagcgcc cgggaagcct cgcgcgcctg ggaggcttcc atctcccggg 240acccagctct cagcc 2551262255DNAArtificial Sequenceprobe/primer/pcr 1262gtggggccgg gcgagtgcgc ggcatcccag gccggcccga acgctccgcc cgcggtgggc 60cgacttcccc tcctcttccc tctctccttc ctttagcccg ctggcgccgg acacgctgcg 120cctcatctct tggggcgttc ttccccgttg gccaaccgtc gcatcccgtg caactttggg 180gtagtggccg tttagtgttg aatgttcccc accgagagcg catggcttgg gaagcgaggc 240gcgaacccgg ccccc 2551263234DNAArtificial Sequenceprobe/primer/pcr 1263cgtccaggct gtgcgctccc cgttctcccc tcctccccac ttctccccac gccttgctcg 60tctcccgccc tcctccgaca accgctcccc tcaccctcca cccctacccc cgcccctcct 120ccttcctccc cggcatgcgc catatggtct tcccggtcca gccaagagcc tggaaccacg 180tgacctgccc atttgtatgc cgcggagcgc tccattccgg cccctttgtg gcca 2341264255DNAArtificial Sequenceprobe/primer/pcr 1264gcgcggcggt gcagcctctc ccgagcgcgc tgggtcgcct ctgctcggtc tggggtctgc 60caggcgcgat ccccccggtg cagccgagcc cctccgcaga ctctgcgcag gaaagcgaaa 120ctacccggca ggagaaaagg cagcgctggc gcccggcccc cttccgcccc caccaatcac 180cgggcggctc cgcgctcagc caattagacg cggctgttcc gtgggcgcca ccgcctccct 240ctgcgggccg ctgct 2551265255DNAArtificial Sequenceprobe/primer/pcr 1265aggcggcggc ggtggcagtg gcacccggcg gggaagcagc agccaaaccc gcgcatgatc 60tcgagagttt cagcaacatc cagggactgg gctcagcccc ggagcgagag ggtcgtccgc 120tgagaagctg cgccggagac gcgggaagct gctgccataa ggagggagct ctgggaagcc 180ggaggacagg aggagacggg agtccagggg cagacgagtg gagcccgagg aggcagggtg 240gagggagagt caagg 2551266255DNAArtificial Sequenceprobe/primer/pcr 1266gcgcgacccg ccgattgtgt cgagtcagca gcggcagcgg ggacgcgcga agccatggct 60cccgcccgcg ctcgggaggg cgccgggggt cctgcgcctc cgggaggttt gtggccgagc 120gcggcgcggc cccgagcggc cccgcagcgc ccggctcccc gccgctcgct ctccaggcgc 180cgacccgcct gcgtcgccac cctctcgccg ctccctgccg ccaccttcct cccgcccggg 240tgccgggcgt ccgct 2551267255DNAArtificial Sequenceprobe/primer/pcr 1267cgcggacgcc gctctgcacc tgttgccgcc gtcactcatc ccgccaggcg ggcggggccg 60cgcgggtggc ttggtcagga cctgccattc agcccagtcg ggctccggtg ctcgccccgg 120acggcgcccc aagcgggtcc cggccccgct gagcacctcc agcagtggca cagcctctgg 180aggggtccgg gacgaagcca cccgcgcggt agggggcgac ttagcggttt cagcctccaa 240cagccttggg atcgc 2551268197DNAArtificial Sequenceprobe/primer/pcr 1268tgaacccggg aggcggaggt tgctgtgagc cgagatggca ccattgcact ccagcctggg 60caacaagagc gaaactccgt cccccgaaca aaaaattcaa atgggaaaga gaggcagatg 120gcagagaaca ggggaggggc tgggcaccgt ggctcatgcc tgtaatccca gcactttggg 180aggccaaggc gggtgga 1971269224DNAArtificial Sequenceprobe/primer/pcr 1269ctcggcggcg cggggagtcg gaggacgcag ccaagcggcg gcggcgagga gggtcacagc 60cggaaagagg cagcggtggc gcctgcagac gccgcgcagc ccgggcagcc ccacagcgca 120agctggctgc cgcggcggcg ggggctttat cggcggcgcc gcgcgggccc ccgccccttc 180ctgccgcccc cgcccccggc ccgccttgcc ccgccttccc gccg 2241270255DNAArtificial Sequenceprobe/primer/pcr 1270aggcggccac gggaggggga ggggctggca acggcgccgt gggggcgggg ctcgctttgt 60gcaaggtccg cgctgattgg gccgtgggcg cgcgggtccc ggcctgcgtc gtgggactgg 120cgtttttggc gccggctgtg aggggagcgc gggggtggtg gaatcgggcg gtctccggtt 180cgccaatgtg gctgggtccg taggcttggg cagccttgga gttcctcaga gaccccgcgc 240tcggtcccgg cacgc 2551271255DNAArtificial Sequenceprobe/primer/pcr 1271gacccgagcg gggcggagag tggcaggagg aggcgaatct ccgcgctccg gcgaacttta 60tcgggttgaa gtttctgctg tcgcctcccc tttgcgtgcg gagctgggct ttgcgtgcgc 120cgcttctgga aagtcggctc cagtcatatc cctgggcgct gcctgcggcc gctcctcccg 180cgcttctcac ggcacctgac acgcggaggc ggcggccgag ggtggggtgc cggccaccac 240cacccttggc gtggg 2551272218DNAArtificial Sequenceprobe/primer/pcr 1272agcacctggg gcggggcgga gcggggcgcg cgggcccaca cctgtggaga gggccgcgcc 60ccaactgcag cgccggggct gggggagggg agcctactca ctcccccaac tcccgggcgg 120tgactcatca acgagcacca gcggccagag gtgagcagtc ccgggaaggg gccgagaggc 180ggggccgcca ggtcgggcag gtgtgcgctc cgccccgc 2181273253DNAArtificial Sequenceprobe/primer/pcr 1273ccgctcgggg gacgtgggag gggaggcggg aaacagctta gtgggtgtgg ggtcgcgcat 60tttcttcaac caggaggtga ggaggtttcg acatggcggt gcagccgaag gagacgctgc 120agttggagag cgcggccgag gtcggcttcg tgcgcttctt tcagggcatg ccggagaagc 180cgaccaccac agtgcgcctt ttcgaccggg gcgacttcta tacggcgcac ggcgaggacg 240cgctgctggc cgc 2531274255DNAArtificial Sequenceprobe/primer/pcr 1274accgccagcg tgccagcccc gcccctaccc accagtgtgc cagccccgcc cttccccacg 60tcgccgcgcg cccgggggcg gggcctggcg cgcaccgccc gcgcacggcg aggcgcctgt 120tgattggcca ctggggcccg ggttcctccg gcggagcgcg cctcccccca gatttcccgc 180cagcaggagc cgcgcggtag atgcggtgct tttaggagct ccgtccgaca gaacggttgg 240gccttgccgg ctgtc 2551275255DNAArtificial Sequenceprobe/primer/pcr 1275attcttggcc gggtgcggtg gctcacgcct gtaatcccag cactttggga ggctgaggtg 60ggtggatcac ctgaggtcaa gagttcgaga ccagcctggc caacatggtg aaaccccgtc 120tctactaaaa atacaaaaat tagccgggcg tggtggtggg cacctgtaat cccagctact 180cagaaggttg aggcaggaga atcgcttgaa cccgggagaa ggaggttgca gtgagccgag 240atcgcgccat tgcac 2551276255DNAArtificial Sequenceprobe/primer/pcr 1276cgcttcccgc gagcgagccg cccagagcgc tctgctggcg gcagaggcgg cggcgaggct 60ggcgcgcttg ccgccgtctg ctcgccccgc ggaggcgacc tgggcagacg ctgctgggaa 120ctttgaaaaa ctttcctgga gccaggcttg ccgcagattc gaggggaagc ctcggccgcg 180tcccaccccc tcccaaatcc gagtctgcgg agcctgggag ggctcccagc ttcctatcca 240aaccgcgccg gggca 2551277255DNAArtificial Sequenceprobe/primer/pcr 1277agccggcgct ccgcacctgc ccctcagcgc ctgccgtccg ccccaccgcc gcggcgcccc 60gcactcctgg gcgggccagg ggagcgggct gggcgggcga tcgggcacgc gggatccctg 120gtcgagcccc ctttcctccc gggtccacag cgagtcccct gaggaaggag ggacctggga 180ggaaaccacc ctctggggcg gctccggcct ccagcccccg ccccgtctca tcgcgccggg 240cgcccggtgc gcctg 2551278255DNAArtificial Sequenceprobe/primer/pcr 1278cggagcgcgc ttggcctcac aggacagtgg gtgtggctgg ggtgacgggg cagggtgggg 60aagactggcc taacaccagc gccctctgcc ccatggctgg ccagggaccc gcgagtccct 120ggacacgcac tggccaacgc cagaccccat ctcatcgggt ggggaagtcg cggggacact 180gtcagggcgc cgaagtccgg acccggctca gaggcggtgg caggtgaatt gctgcggcgc 240cgggtagggg cgggc 2551279255DNAArtificial Sequenceprobe/primer/pcr 1279ggcctcgagc ccacccagac ttggccaagc agccctcggc cagaccaagc acactccctc 60ggaggcctgg cagggcccct gctttaccct gccccccacg ccccgccccg acccgaccct 120cccaggcagc ccctcagcgt ctgccgcccg cccttgggcc tttccggcca gcccctccct 180ccgcccacgc ccagaacagc ccatgctctt ggaggagagc aggtgggctt gaccgggact 240ggcccctcac cgcgg 2551280255DNAArtificial Sequenceprobe/primer/pcr 1280gccgcgccgt aagggccacc cccagaggcc gaggaggtgg ggctggcctg gctttctggc 60caggtggggc ttgtccaacc ccacaaacat cagggctcac cctggatgtg gaagagaagg 120agcgaccccc aaaacgaagc ggctggatct gaccttccaa ggcctgttgg cgacgcaggg 180cccccaggag gcagagcgcg cgcctggccc gggcgatggg cctcccgtcc ccccagggct 240gcctccccgc cggtg 2551281236DNAArtificial Sequenceprobe/primer/pcr 1281cggcggtggc ggtgggtcgg cgaccggcgg gccgaagact ggaagcccgg gccgctgagg 60ctccgcagcc ccctccgcgc cgccccggcc cgcccccgcc gcgccgcccc ttccctcccc 120gcgcccgccc cttcttcccc gcagggtcag cgctggggct ccggccgtag agccacgtga 180ccctggcagg ccctgctcgc ggggcttggc gacaaggacg cacgacacgg ggcggc 2361282194DNAArtificial Sequenceprobe/primer/pcr 1282acctgcccag ttactgcccc actccgcgga ataagctctt acccaccgct cctcttcttc 60aattcatttc tgttatggaa ctgtcgcggc actacaaagt ctctatgtag ttataaataa 120acgttatctg gaagagcagc cgacaacaac tttcaagatc tccaattccc cgaccccaca 180ctccaactga cgcc 1941283255DNAArtificial Sequenceprobe/primer/pcr 1283ccagcgcccg agccgtccag gcggccagca ggagcagtgc caaaccgggc agcatcgcga 60ccctgcgcgg ggcaccgagt gcgctgctgt gcgagtggga tccgccgcgt ccttgctctg 120cccgcgccgc caccgccgcc gtctcccggg gcccccgcgc acgctcctcc gcgtgctctc 180gcctaccgct gccgaggaaa ctgacggagc ccgagcgcgg cggcggggct cagagccagg 240cgagtcagct gatcc 2551284233DNAArtificial Sequenceprobe/primer/pcr 1284ctgctgctgc ccgcgtccga ggctcgcggg cggcgggccc gggtgagtgc acacccggcg 60cgctgccggg ctcccggatg tgtcaccttg tcccgctgca gccgagatgc cgggggagcg 120gggccttcca caccccctcc gtgggtgtgt ggtgagtgtg ggtgtgtgcg cgtctcctcg 180cgtccctcgc tgaggtgcct actgtgtctg catgggttgg gtcccgcgcg atg 2331285182DNAArtificial Sequenceprobe/primer/pcr 1285actgcttagg ccacacgatc ccccaagcct gggctgccag acgtcgccat cattgttcca 60tgcagatcat gcccatcctg tgcagaaggt cactatagga acacatggca cagggaagaa 120aacgcccata gaaattcaca tggtgcttgt ctaaaccgaa ggcaggtgag atccacccac 180tg 1821286255DNAArtificial Sequenceprobe/primer/pcr 1286gccggacgcg cctcccaagg gcgcgggtcc gaggcgcaag gcgagctgga gaccccgaaa 60accagggcca ctcggggagt gtcaggaagc acgactgggc gccttaggac gtccgggcag 120acgcggcccc cgaggagccc cagaggagcc ccagaggagc cgcctgaccc ggccccgacg 180tgcgcgatcg agcccgggct cgccaaagcc cccgcgcccc tccggcccgg acaggccgag 240tggacattgt

cggag 2551287152DNAArtificial Sequenceprobe/primer/pcr 1287cggccagggt gccgagggcc agcatggaca ccaggaccag ggcgcagatc accttgttct 60ccatggtggc cattgcctcc tctctgctcc aaaggcgacc ccgagtcagg gatgagaggc 120cgcccgagcc ccggatttta tagggcaggc tc 1521288243DNAArtificial Sequenceprobe/primer/pcr 1288ccgcccgccc cacagccagc ggctccgcgc cccctgcagc cacgatgccc gcggcccggc 60cgcccgccgc gggactccgc gggatctcgc tgttcctcgc tctgctcctg gggagcccgg 120cggcagcgct ggagcgaggt aagcgccccg aggggcgggg cgggcagggg gcaaagttgc 180cgggagagcg gggcagccag gggtcggggc tgaccagggc gactcaggca ccacccgccg 240gga 2431289255DNAArtificial Sequenceprobe/primer/pcr 1289gcgccccagc ccacccactc gcgtgcccac ggcggcatta ttccctataa ggatctgaac 60gatccggggg cggccccgcc ccgttacccc ttgcccccgg ccccgccccc tttttggagg 120gccgatgagg taatgcggct ctgccattgg tctgaggggg cgggccccaa cagcccgagg 180cggggtcccc gggggcccag cgctatatca ctcggccgcc caggcagcgg cgcagagcgg 240gcagcaggca ggcgg 2551290244DNAArtificial Sequenceprobe/primer/pcr 1290cgtgctgggc gcaggggaaa cagcgacgca cgggacaaaa caagcttgca gaacagcagg 60gggcagagag gctgtaaaca agccaacggg ctgcacttgt agcggttctg ttgccaatgc 120cattcagacc ccagtccggg attccgcgct cggggtgcga gaggccgctc ccggggaggg 180gcgggacccg ggcggggcgg gaggggcggg gcgcccgggc ctattaggtc ccgcgccggc 240agcc 2441291179DNAArtificial Sequenceprobe/primer/pcr 1291gcgcacgcgc acagcctccg gccggctatt tccgcgagcg cgttccatcc tctaccgagc 60gcgcgcgaag actacggagg tcgactcggg agcgcgcacg cagctccgcc ccgcgtccga 120cccgcggatc ccgcggcgtc cggcccgggt ggtctggatc gcggagggaa tgccccgga 1791292226DNAArtificial Sequenceprobe/primer/pcr 1292ggtgagtgcg gcccggggag gggaggggac cagggcgacc ggagccccca gcgatcccgc 60ctggagcggc cgccaagctc cctcgggcac ccgggttcag cgggtcccga tccgagggcg 120tgcgagctga gcctcctgga ccgggtccgc cgcggacctc ggcctgtcac ctgaaggtgc 180cgcgtggtct ctgaggacgt ctgtcgacga gcaggggccg ccgcca 2261293255DNAArtificial Sequenceprobe/primer/pcr 1293ggccgagagg gagccccaca cctcggtctc cccagaccgg ccctggccgg gggcatcccc 60ctaaacttcg gatccctcct cggaaatggg accctctctg ggccgcctcc cagcggtggt 120ggcgaggagc aaacgacacc aggtagcctg ccgcggggca gagagtggac gcgggaaagc 180cggtggctcc cgccgtgggc cctactgtgc gcgggcggcg gccgagcccg ggccgctccc 240tcccagtcgc gcgcc 2551294243DNAArtificial Sequenceprobe/primer/pcr 1294ccagcgccgc aacgcccagg gtgtggggcg gagtaagatg tgaaacctct tcagctcacg 60gcaccgggct gcaaccgagg tctgaatgtt gcgaaagcgc cccagacgcc gccgctgctt 120tccggccgcc ccctcggcta cagccgccat ttccacgctc caccaatcaa atccattctc 180gaggaagacg caccgccccc acacgccccg accaatcgct cgcgctctgg ttgcgctggc 240gcc 2431295250DNAArtificial Sequenceprobe/primer/pcr 1295ccacaagcgg gcgggacggc tggagactgc cgggacagcg gctgccggtg ctacgcgggt 60ggtgggcggc ccggaaatga gcgccctccg gggacagggg gctctgcggg gcggcgacag 120ctggattccc agcgcgcaca aagcctgcgg gaggatccat tgtagcggtc gctcctcccc 180gcttagcgag ggcgggcgca ggggcggggg atgtcgaagg gtcaggtttg tccaggccgc 240gccaccttcg 2501296249DNAArtificial Sequenceprobe/primer/pcr 1296cctctggaca acggggagcg ggaaaaaagc tacgcaggag cttggatcgg gcgaagctcg 60cgggaaaccg ctctgggtgc gcaggacaaa gacgcgggga cagcggggag ggccggccgc 120agcctgccgg gctgccccca cggcgcggaa cgcgcgcagc aacctccacc aggcctccgc 180gtctggactc ccgccctgcc tctgggcctc ctccgcccac cggcggcgtc tcccgcgaag 240cccgctggg 2491297178DNAArtificial Sequenceprobe/primer/pcr 1297gcgggttccc ggcgtctcca aagctaccgc tgccggaaga gcgcggcgcc cgacggagcc 60gtgtggaggc caaaactcct cccggaagcc gctactggcc ccgcttgcca ggcccagcgt 120cttttctgca taggacccgg gggaagccgg gaagccgtta gggggcgggg caagcggg 1781298255DNAArtificial Sequenceprobe/primer/pcr 1298cgccgcccgt cctgcttgct gctgggtccg gttgccgagg cggaaaagtc gcaagctcct 60tcagtcagtc ttcttcctca gctccttccg actccggaag ctgctgtttg ggcccaggct 120ccctgcatcc gagagccctg ggctgactgc ttctgaggcc ccgccccact actgcctgca 180gcgggcttcc ttactccgcc tgctggttcc tactggagga gaggccagca tgcttgtcag 240gcaccagcag gtgga 2551299255DNAArtificial Sequenceprobe/primer/pcr 1299cgcgcggccc tcctgcacct cggccagcac tcgtagcgcg ctgggcgagc cggaccggaa 60gttgaagaag tgaagcgccg cgcgcgccgc ctgctgcagg agcctgcgcg ggaccccagc 120atcctgaggc tgcccagggt cgtcggggtc cccggacccc gcgggcgccg ccaccggggc 180gagcaacagc agcagcgcga gcagcggggc ggtggggcgc gggcccctgg gcccggacca 240gggagcaggc agccg 2551300255DNAArtificial Sequenceprobe/primer/pcr 1300ggcggggcaa gccctcacct gcgccaatca gggtgcggag taggccccgc aggcgcctca 60cccattgagg gggcgggctg acagagcaga ggaaggaagg gggtgagggg cctgtggtgg 120ggatcctggg gctgtcgggc tgagtatgcc gtgtgggtgg agaggaagcc tcggggaaat 180cgcccaggtg aagggagggc ttggtgtggg gacttgcact gggcagaggg gcagcttccc 240tgagagcagc taagc 2551301129DNAArtificial Sequenceprobe/primer/pcr 1301ggagcgcccc ctggcggttt cagggcggct caccgagagg gcgccgggag cgcccggttg 60gggaacgcgc ggctggcggc gtggggacca cccggcagga ccaggcacca gagctgcgtc 120cctgctcgc 1291302255DNAArtificial Sequenceprobe/primer/pcr 1302cgaatggttc gcgccggcct atatttaccc gagatcttcc tcccggacgg caaggatgtg 60aggcaggcga gccggacgcc gctcgcagca ccggagaggg cgcactgcaa aggcgggcag 120cagaccgtgg agagcccggg agcggagctg gacaccgcct cggagggaag aaatgaggta 180gcggcggttc ccggacccgg ccatgcccgt cccctgttct cggagcccag cgccgtctcg 240gccaggccag cccgg 2551303255DNAArtificial Sequenceprobe/primer/pcr 1303ttccgccggc tgggccctcc gtctaccccc agcggcgagg ggcggggccg gcgcgggcgc 60agaggcgtca cgcactccat ggtaacgacg ctcggcccga agatggcggc cgaatggggc 120ggaggagtgg gttactcggg ctcaggcccg ggccggagcc ggtggcgctg gagcgggtct 180gtgtgggtcc gaagcgtttt actcctgttg ggcgggctcc gggccagcgc cacatctact 240cccgtctcct tgggc 2551304255DNAArtificial Sequenceprobe/primer/pcr 1304ctccgggtcc cccgcgtgcc cggcccgccc cggcccgctt cccgggcgct gtcttactcc 60gggcccgggg cgcctgctcc gcgccgcgtc tgcgaaccgg tgacctggtt tcccctccag 120ccctcacggc tgtccgactt gcgcggcggt ggcggcggcg gccaagagca ggcaaacccg 180gctccgccag gggcgcagcg aggaaatggc ctcctggcgc acaccccgcc gccgccgcca 240gccatcgcca ccgcc 2551305255DNAArtificial Sequenceprobe/primer/pcr 1305cagcccgggt agggttcacc gaaagttcac tcgcatatat taggcaattc aatctttcat 60tctgtgtgac agaagtagta ggaagtgagc tgttcagagg caggagggtc tattctttgc 120caaagggggg accagaattc ccccatgcga gctgtttgag gactgggatg ccgagaacgc 180gagcgatccg agcagggttt gtctgggcac cgtcggggta ggatccggaa cgcattcgga 240aggctttttg caagc 2551306255DNAArtificial Sequenceprobe/primer/pcr 1306ggcggagaga ggtcctgccc agctgttggc gaggagtttc ctgtttcccc cgcagcgctg 60agttgaagtt gagtgagtca ctcgcgcgca cggagcgacg acacccccgc gcgtgcaccc 120gctcgggaca ggagccggac tcctgtgcag cttccctcgg ccgccggggg cctccccgcg 180cctcgccggc ctccaggccc cctcctggct ggcgagcggg cgccacatct ggcccgcaca 240tctgcgctgc cggcc 2551307255DNAArtificial Sequenceprobe/primer/pcr 1307cctcacccca gccgcgaccc ttcaaggcca agaggcggca gagcccgagg cctgcacgag 60cagctctctc ttcaggagtg aaggaggcca cgggcaagtc gccctgacgc agacgctcca 120ccagggccgc gcgctcgccg tccgccacat accgctcgta gtattcgtgc tcagcctcgt 180agtggcgcct gacgtcgcgt tcgcgggtag ctacgatgag gcggcgacag accaggcaca 240gggccccatc gccct 2551308255DNAArtificial Sequenceprobe/primer/pcr 1308cgatgacggg atccgagaga aaggcaaggc ggaaggggtg aggccggaag ccgaagtgcc 60gcagggagtt agcggcgtct cggttgccat ggagaccagg agctccaaaa cgcggaggtc 120tttagcgtcc cggaccaacg agtgccaggg gacaatgtgg gcgccaactt cgccaccagc 180cgggtccagc agccccagcc agcccacctg gaagtcctcc ttgtattcct ccctcgccta 240ctctgaggcc ttcca 2551309240DNAArtificial Sequenceprobe/primer/pcr 1309ccgcaggccg cgggaaaggc gcgccgagtc ctgcagctgc tctcccggtt cgggaaacgc 60gcggggcggg ggcgtcgggc ttgggacagg ggaggatacc agggccacct tccccaaccc 120aggccgcggg ggcccggcct ccccgatgca gaccacagcg ccctcacggg ctgccctcag 180gccgcgcagc gggcagccgc cagccgtcac cccggggagc gtccgtgggg tgcccaggca 2401310206DNAArtificial Sequenceprobe/primer/pcr 1310gccccagtcc acctctggga gcgcctgcgc cgctccgcgg agagtccgtg gatctcacag 60tgagcgagtt gggacccagg gaggggaaaa gagaggaccc cggcgagcca ttgctggggc 120ggcgggctgg agggttatct gggaagtcag ccccggcctc ggtcctctcc acgttgctgc 180ctacgcgtgc tgcccggacg tagggc 2061311206DNAArtificial Sequenceprobe/primer/pcr 1311cttggccgcc cccgggatgg ggcgaggggt tcccgagggc ttgggagggc ggcttgggag 60agagctccgg ctccggaacg aggtgtcctg ggaacactcc cgggtctgta acttcggaca 120aatcacgctc gctttcccgg cctcagtgtg ccgttctgta acttgggtct aaccccggct 180cgcacacacg gcggggacgc gcacag 2061312247DNAArtificial Sequenceprobe/primer/pcr 1312cctccatgcg caatcccaag ggcggagagg aatttcagca gctacgagca acagaaagga 60aacgagagag tagccagact ctccgcgcat ggagccgacg gcacccacca gcacaccgcc 120ggcgccccca gccactactg cacgtccgcc cccgccccgc cccgctccgc ccggcgcacc 180tgatgcccaa actggttgca cgggaagccg agcaccacca ggccccgggg tccgaggcgc 240cgctgca 2471313255DNAArtificial Sequenceprobe/primer/pcr 1313gcggcgactg cgctgcccct tggctgcccc ttccgctctc gtaggcgcgc ggggccacta 60ctcacgcgcg cactgcaggc ctttgcgcac gacgccccag atgaagtcgc cacagaggtc 120gcaccacgtg tgcgtggcgg gccccgcggg ctggaagcgg tggccacggc cagggaccag 180ctgccgtgtg gggttgcacg cggtgccccg cgcgatgcgc agcgcgttgg cacgctccag 240ccgggtgcgg ccctt 2551314255DNAArtificial Sequenceprobe/primer/pcr 1314gggcttgcct ccccgcccct accttccagg atgttgacag ctgggaatga aaggcagagg 60gagggagcgc ggggccggag cgccgcctgg gagtgtgccc actgggtggc cgcctgaggg 120acccgggaac agagggcaaa aagtcctgtg accggacaga gcagagcggg gactgcaatt 180cccagaagac cccacggtag gggcgggacc caagatggcc gcttgtctgg ggacaggagc 240ggaggccaat acgcg 2551315239DNAArtificial Sequenceprobe/primer/pcr 1315gcggcccaag gagggcgaac gcctaagact gcaaaggctc gggggagaac ggctctcgga 60gaacgggctg gggaaggacg tggctctgaa gacggacagc cctgaggaac cgcggggcgc 120ccagatggaa ctcgttagcg ccccgagtgc agacaatccc ggagggggaa aggcgagcag 180ctggcagaga gcccagtgcc ggccaaccgc gcgagcgcct cagaacggcc cgcccaccc 2391316255DNAArtificial Sequenceprobe/primer/pcr 1316ctgcgcggct ggcgatccag gagcgagcac agcgcccggg cgagcgccgg ggggagcgag 60caggggcgac gagaaacgag gcaggggagg gaagcagatg ccagcgggcc gaagagtcgg 120gagccggagc cgggagagcg aaaggagagg ggacctggcg gggcacttag gagccaaccg 180aggagcagga gcacggactc ccactgtgga aaggaggacc agaagggagg atgggatgga 240agagaagaaa aagca 2551317174DNAArtificial Sequenceprobe/primer/pcr 1317caccgcctcc ggacccctcc ctcatcagaa agcccaggct ccgctcgtag aagtgcgcag 60gcgtcaccgc gcatccagga gccacgtgtc aggagtcacg tgtcaggtgt cacgtgtcag 120gcgtcacgtg gctggaggcc gttggagcgc ctgcgcagct tttccgcacg cgcc 1741318229DNAArtificial Sequenceprobe/primer/pcr 1318ccttccagcc accccgccct gggcgcctct ggcgcgctct gatgacgctc caagggaaga 60ggaagtgggg atcggcgagc gggtgggtgc gcctcgggcc gcgggactcg cagccgccac 120cgccgctgcc gcctctacgg ccgcgtcaga actgaagaga ggaaggggag gagccgagtc 180gagcctaagc tgccgcccga tcttacccct gacccgaggg cggcctgga 2291319255DNAArtificial Sequenceprobe/primer/pcr 1319cgggacaccg ggaggacagc gcgggcgagg cgctgcaagc ccgcgcgcag ctccgggggg 60ctccgacccg ggggagcaga atgagccgtt gctggggcac agccagagtt ttcttggcct 120tttttatgca aatctggagg gtggggggag caagggagga gccaatgaag ggtaatccga 180ggagggctgg tcactacttt ctgggtctgg ttttgcgttg agaatgcccc tcacgcgctt 240gctggaaggg aattc 2551320198DNAArtificial Sequenceprobe/primer/pcr 1320cctgggttcc cggcttctca gccactggag ctgccagtct caaattaccg gaggggaggg 60agggcaggcc tggatctcag gatctcggtc ctgcatgcaa tgcaagcctg agctctcccg 120ccataaggct gcagcggtgt gggctccttg tgcccagatc ctttgtattc atagggggaa 180gtggaagacc acgctgcc 1981321255DNAArtificial Sequenceprobe/primer/pcr 1321ggcggtgatg ggcggaggag gaggaagagg aggaggagga agaggaggag ggggaaaacg 60atgacaggag ctggggccgg ggggggaaat tggggggacg cgggcggagg cgcggtgcgc 120gccggcggtg gcgggcacga gccccgcgcc tggaggagga ggagtcaggc cgggtaggag 180ggctaaggag gttcccggga aggcagggcc ccccctcccc cccctccccc ccccccacac 240acacacactc ccctg 2551322255DNAArtificial Sequenceprobe/primer/pcr 1322cagcccgccc ggagcccatg cccggcggct ggccagtgct gcggcagaag ggggggcccg 60gctctgcatg gccccggctg ctgacatgac ttctttgcca ctcggtgtca aagtggagga 120ctccgccttc ggcaagccgg cggggggagg cgcgggccag gcccccagcg ccgccgcggc 180cacggcagcc gccatgggcg cggacgagga gggggccaag cccaaagtgt ccccttcgct 240cctgcccttc agcgt 2551323242DNAArtificial Sequenceprobe/primer/pcr 1323gcccgcgggg gaatcgcagt gagcagcgcg gggcgaggcc gccgcggacg ccccgtcgga 60tgtgcccttc gctgggccga gcggcgcagg gttggagagg gaagcgctcg tgcccacctt 120gctcgcaggt gcccttgctg acctgggtga tggccttctc cccgcggctc tcggccctct 180ggctggcggc gcgcagctgg cagccgctcg ggtaggtggt gccgtcgctg ccgcacaccg 240gg 2421324186DNAArtificial Sequenceprobe/primer/pcr 1324gccgcgagcc cgtctgctcc cgccctgccc gtgcactctc cgcagccgcc ctccgccaag 60ccccagcgcc cgctcccatc gccgatgacc gcggggagga ggatggagat gctctgtgcc 120ggcagggtcc ctgcgctgct gctctgcctg ggtaagttct ccccctctgg cttccggccg 180ccccaa 1861325253DNAArtificial Sequenceprobe/primer/pcr 1325gcggccccct cccggctgag cctataaagc ggcaggtgcg cgccgcccta cagacgttcg 60cacacctggg tgccagcgcc ccagaggtcc cgggacagcc cgaggcgccg cgcccgccgc 120cccgagctcc ccaagccttc gagagcggcg cacactcccg gtctccactc gctcttccaa 180cacccgctcg ttttggcggc agctcgtgtc ccagagaccg agttgcccca gagaccgaga 240cgccgccgct gcg 2531326255DNAArtificial Sequenceprobe/primer/pcr 1326cagcagggcg cggcttccct ttcccggggc ctggggccgc aatcaggtgg agtcgagagg 60ccggaggagg ggcaggagga aggggtgcgg tcgcgatccg gacccggagc cagcgcggag 120cacctgcgcc cgcggctgac accttcgctc gcagtttgtt cgcagtttac tcgcacacca 180gtttccccca ccgcgctttg ggtaagttca gcctcccggc gcgtccccgc gagcctcgcc 240cacagccgcc tgctg 2551327255DNAArtificial Sequenceprobe/primer/pcr 1327ccgcagcacg ctcggacggg ccaggggcgg cgacccctcg cggacgcccg gctgcgcgcc 60gggccgggga cttgcccttg cacgctccct gcgccctcca gctcgccggc gggaccatga 120agaagttctc tcggatgccc aagtcggagg gcggcagcgg cggcggagcg gcgggtggcg 180gggctggcgg ggccggggcc ggggccggct gcggctccgg cggctcgtcc gtgggggtcc 240gggtgttcgc ggtcg 2551328199DNAArtificial Sequenceprobe/primer/pcr 1328gcggagtgcg ggtcgggaag cggagagaga agcagctgtg taatccgctg gatgcggacc 60agggcgctcc ccattcccgt cgggagcccg ccgattggct gggtgtgggc gcacgtgacc 120gacatgtggc tgtattggtg cagcccgcca gggtgtcact ggagacagaa tggaggtgct 180gccggactcg gaaatgggg 1991329255DNAArtificial Sequenceprobe/primer/pcr 1329gcgcgggggc aggtgagcat gcgaaggttg gaggccgcgc cccttgctga ggcgcagctg 60gctgctcttt tcgggccggc atacgcgcgc agccgcagct gaggtcaccc cgctgaggtg 120gtggggaggg gaatggttat tcttgaggca ccgcatctct tgaggaggaa agagccggaa 180acacctggtc tctcaagcag gtacagcccg cttctcccca gcaccccggt gtgggcttcc 240caaggtcctg cctga 2551330178DNAArtificial Sequenceprobe/primer/pcr 1330ggcgcggggg caggtgagca tgcgaaggtt ggaggccgcg ccccttgctg aggcgcagct 60ggctgctctt ttcgggccgg catacgcgcg cagccgcagc tgaggtcacc ccgctgaggt 120ggtggggagg ggaatggtta ttcttgaggc accgcatctc ttgaggagga aagagccg 1781331152DNAArtificial Sequenceprobe/primer/pcr 1331agtgacgggc ggtgggcctg gggcggccag cggtgactcc agatgagccg gccgtccgcg 60ttcgcgccgc ggcggtgcgg ttgtcgcgga tcagcaggat cggagtgcgg ggctgctggg 120cggaggcgtt ggctgcacca gggacggcgg cg 1521332255DNAArtificial Sequenceprobe/primer/pcr 1332ggcgaccctt tggccgctgg cctgatccgg agacccaggg ctgcctccag gtccggacgc 60ggggcgtcgg gctccgggca ccacgaatgc cggacgtgaa ggggaggacg gaggcgcgta 120gacgcggctg

gggacgaacc cgaggacgca ttgctccctg gacgggcacg cgggacctcc 180cggagtgcct ccctgcaaca cttccccgcg acttgggctc cttgacacag gcccgtcatt 240tctctttgca ggttc 2551333255DNAArtificial Sequenceprobe/primer/pcr 1333cgcggcagcc cgggtgaatg gagcgaggcg gcaggtcatc cccgtgcagc gcccgggtat 60ttgcataatt tatgctcgcg ggaggccgcc atcgcccctc ccccaacccg gagtgtgccc 120gtaattaccg ccggccaatc ggcggcgtcg cgcggccccg ggagtcggct cgggctaagc 180tggccagggc gtctccaggc agtgaaacag aggcggggtc ggcgggcgat tagcggccga 240ggcacgctcc tcttg 2551334250DNAArtificial Sequenceprobe/primer/pcr 1334ggcgagcgag cgggaccgag cggggagcgg gtggaggcgg cgccacggcg cgcacacact 60cgcacacacg cgctcccact ccacccccgg ccgctccccg cccgaggggc cgcgcggcgg 120ccgcggggaa cgatgcaacc tgttggtgac gcttggcaac tgcaggggcg cccgcggtcc 180ctgcccccac gccctccgcg cgggccccgc caccccggcc ccgacggcgc ctgcacgccc 240gcgtcccctg 2501335206DNAArtificial Sequenceprobe/primer/pcr 1335ggggcagtgc cggtgtgctg ccctctgcct tgagacctca agccgcgcag gcgcccaggg 60caggcaggta gcggccacag aagagccaaa agctcccggg ttggctggta aggacaccac 120ctccagcttt agccctctgg ggccagccag ggtagccggg aagcagtggt ggcccgccct 180ccagggagca gttgggcccc gcccgg 2061336255DNAArtificial Sequenceprobe/primer/pcr 1336cgctggcatt cgggccccct ccagacttta gcccggtgcc ggcgccccct gggcccggcc 60cgggcctcct ggcgcagccc ctcgggggcc cgggcacacc gtcctcgccc ggagcgcaga 120ggccgacgcc ctacgagtgg atgcggcgca gcgtggcggc cggaggcggc ggtggcagcg 180gtaaggaccc ttccctcgcc ctgcgcctct ggacctgcag gtgctcgggc gcggcccagg 240ccgccccctg tctga 2551337213DNAArtificial Sequenceprobe/primer/pcr 1337gagccgtgat ggagccggga ggagaggcgc atcctcagca gagcttccct cccttgcaca 60cgagctgacg gcgtgaacgg gggtgtcggg gttggtgcaa ctatagaagg gaaaggctgg 120gcgggggtca cacatacctc agtggcaggc aggcaggcgg caggcagagc gcgctctccg 180ggcagtctga aggaccgcgg gaatgtggag ggg 2131338185DNAArtificial Sequenceprobe/primer/pcr 1338gccagggtgt cttggctctg gcctgagtcg ggtatgtgaa agccttttgg ggcaggaagg 60ggcaaagtga tacctggccg tcccaccctc tggtcccaga aggagctctc gctggagcca 120ggcagcctcc agtccccctc ctttcagcct tgtcattctc tgcatcctgc ccaggccaca 180aagga 1851339175DNAArtificial Sequenceprobe/primer/pcr 1339cggctccggc ggggaaggag gcgggctgcg gctgcggctg gggctgaagc tggggctggg 60gttgggggac tgcccggggc ttagatggct ccgagcccgt ttgagcgtgg tctcggactg 120ctaactggac caacggcaac tgtctgatga gtgccagccc caaaccgcgc gctgc 1751340255DNAArtificial Sequenceprobe/primer/pcr 1340gccagggtgc cgtcgcgctt ggcgccgtcc agggcggcgc tgcgctcgtc cagcaacacc 60acggcgtggt aggcgccggc cagcaggcgg ccgcggagct cggcgttggg cacgatgtgc 120tccaggccca tggcgccctt ggcccggcgc cgcacgatgg tgctgaagcg cacgttgaca 180gagccggcga tgtggccggc gttgaaagcg aagaaggagc ggcagtccag cagcaggcat 240tgcgccgctc gctcc 2551341217DNAArtificial Sequenceprobe/primer/pcr 1341cggctcggtc ctgaggagaa ggactcagcc gcggctgcgg gacccgggca ccgggaggcg 60gtggcggcgg cggcggcggc agcagcggcg acagcagagg aggaagagga ggaagaagga 120aagaaaaaga agaaccagga ggagtcctca acaacgacag cggggactgc gggaccaggg 180taaagcggcg acggcggcga cggcccagca accgtga 2171342255DNAArtificial Sequenceprobe/primer/pcr 1342cgcggggaac ctgcggctgc ccgggcaagg ccacgaggct tcttataccc ggtcctcgcc 60cctccagcgc cggcctcgcc cgcgctcctg agaaagccct gcccgctccg ctcacggccg 120tgccctggcc aacttcctgc tgcggccggc gggccctggg aagcccgtgc ccccttccct 180gcccgggcct cgaggacttc ctcttggcag gcgctggggc cctctgagag caggcaggcc 240cggcctttgt ctccg 2551343255DNAArtificial Sequenceprobe/primer/pcr 1343ccgccgctgc tttgggtggg gggctgacag ggctgcgcgc gtcgcgctct tggctggggc 60tgcgcgggcc cggggcgctg cgggcggctc agcggcagct gccgcgctct gcgcctcctc 120tgggcgcact gcctgggagc acgagactgg tttgtctgat gctgctgccg gagctgaggt 180cttgcctgga gatccgaacg agacaccacg tcaaccggcg cggggagtcc cgtgaagaca 240tgagggcgcc aggag 2551344255DNAArtificial Sequenceprobe/primer/pcr 1344acctgagccc gcgggggaac ccccccccca cccccgggga acccccccca cccccgccgc 60cccccgcctg caagttgtta ccagtaaata aaagggatcc tattttagca agccacacag 120cattagaggg caaataatag tttggtggca ggagagcgat gagacgggaa agtgtggggc 180aaagcttaca gtcattggtc cagattctaa ctggcctgtt agccaaaaag taaggttttc 240tttacctccg tgttg 2551345255DNAArtificial Sequenceprobe/primer/pcr 1345aacgccggcc tcaccggcag acgcgcgccc tcctcccaga tgcgcaggtg accccggcgg 60gcggcgcggg aaagggaaga gctccgcgag gccgcgcggg ggggaagcgg gagaagccgc 120tcttcctatt ccactcgcag tctgcgtgtg ggggaaacga gtgcccggcg tatgaaacgc 180ctaacttcgc gaaataaaga gagacgtata aaagttcaag aattctgtcc agactcaagg 240gccctttctc attta 2551346184DNAArtificial Sequenceprobe/primer/pcr 1346ccgtggtccc agcgctcctg ctatttgcat tccaaagcag acacctcatg cgctcaaccc 60cgcccgcagg cggctcccgc agtctaaggg acctggcgcg agtccgggaa gcggagggcg 120cagctgcgca gggaaggggg ccgggggcgg gaccagggcg cgcgttccgg tcccggggcg 180tggc 1841347255DNAArtificial Sequenceprobe/primer/pcr 1347tgcgacccgg cgcccaagca gcctgggacc ttgcgcggac ctgacccctt cagaccgcag 60gcagtctggg aggaggtccg gccgggggag gtgcaggatc cccgccgtgt ctctttgacg 120acttggggac tgtcacggtt ctctcccggc gcccctgggt tcttttgtcc tgcacgcggt 180gcgaaggggc cagcagggaa ggagcagagg atggggggtg gggttgttgg agccccgcgg 240aggtctggga ggccc 2551348166DNAArtificial Sequenceprobe/primer/pcr 1348ggctctgcgc tgcctttggt ggctcctccc tggtcctcta aatgtgacac caggcggatg 60cggggccaca ggaccctggg gcttgagtca cacaagaatg tctctgggag acccgagaga 120ctcacagtta tgaaacagga ccatggttct ttggccgggc gcgggg 1661349255DNAArtificial Sequenceprobe/primer/pcr 1349gcgcgggcgg ctcctttgtg tccagccgcc gccaccggag ctcccggggc ctccgcgggg 60agcgcgtccc ccgcatccgc ccgacccccg gggctggcac gtgctgcgcc cggtccgctg 120agggggcgga ggccccgatc tccccgaccc cccttctctg cttagaggag gaggagcagc 180ggcagcggca gcaggaggcg acagctgcca gccgaggagg cgcggcggag aggggactgc 240ggtcagctgc gtcca 2551350255DNAArtificial Sequenceprobe/primer/pcr 1350ggcccgttgg cgaggttaga gcgccaggtt gtaagaatcg ggtctgtgga cctcatacca 60gataggcgcg aacgcctctg gcagcggcgt ccagggggtc cggcggcact cgcggtgggg 120ctgcctgggt tgcgggtgac gatctgcggg gtcccgcacc cggccccgcg gagcccggac 180ccgcacgtag gcggcgcggc aaaggcacac cctcctcgcg gccgcgaacc cagcgccgtc 240ctcgcagcgc ggcaa 2551351255DNAArtificial Sequenceprobe/primer/pcr 1351acccggcatc cgggcaggct gcgcgcgggt gcggggcgag ggcgccgcgg ggactgggac 60gcacggcccg cgcgcgggac acggccatgg aggacgcggg agcagctggc ccggggccgg 120agcctgagcc cgagcccgag ccggagcccg agcccgcgcc ggagccggaa ccggagccca 180agccgggtgc tggcacatcc gaggcgttct cccgactctg gaccgacgtg atgggtatcc 240tggtaagtta cctgg 2551352156DNAArtificial Sequenceprobe/primer/pcr 1352cccggactgt aatcacgtcc actgggaact ggcgcagtag tggaggggac gcgatcaggc 60ccgtggctgc gcccagagca tgataagcca gggacctcgc ggcgcaggcg gagggaggga 120gagcgtcgcg gacccaggcg gggacaggga gacgcc 1561353238DNAArtificial Sequenceprobe/primer/pcr 1353cgccgccaac gcgcaggtct acggtcagac cggcctcccc tacggccccg ggtctgaggc 60tgcggcgttc ggctccaacg gcctgggggg tttcccccca ctcaacagcg tgtctccgag 120cccgctgatg ctactgcacc cgccgccgca gctgtcgcct ttcctgcagc cccacggcca 180gcaggtgccc tactacctgg agaacgagcc cagcggctac acggtgcgcg aggccggc 2381354255DNAArtificial Sequenceprobe/primer/pcr 1354gctgccagct gccgctccgg ctcccacttc ccacctgctg cccgaggaag acttccggga 60gaaacgctgt ctccgagccc ccgcgccgcc gcgctccctc cgctgcagca gcggccaccg 120ggtgcgcccg gagccctggg acggcctaaa ccagtatctc gcgggccccg cgccgggctc 180cgggaatggc cgcagcagcc ctggcgaccc gggcccctcg gagctcccct tcaggatcgt 240gcaccaagcg cgcac 2551355255DNAArtificial Sequenceprobe/primer/pcr 1355gcgcccacct gcgcctcgcg gggtccccga ggtcccgcca ccgagcgccc aaggcgggat 60cccagcgcgt cctgcagccc gcccagcttc agggccggcc cggcgcgcgc aggtgcggca 120ctcaccggcc aggtgaagcc gaaggggaag cggatggggt tgctgaacgc ggagtcggcg 180cccccgccgt cgggcagact gaaggagtcg acgcccagca cgggggtgac ggcgctgccg 240taggtgcagg gcggc 2551356149DNAArtificial Sequenceprobe/primer/pcr 1356cgggccaggg cggcatgaag aagtcccgcc gctacgtgcc cggcacagtg gccctgcgcg 60acgttcggcg ctaccagaac tccgagctgc tgatcagcaa gctgccgctc ctgcgagagc 120tcggcggtga cgccgctgca cgagagcga 1491357250DNAArtificial Sequenceprobe/primer/pcr 1357gctgcgacct ggggtccgac ggacgcctcc tccgcgggta tgaacagtat gcctacgatg 60gcaaggatta cctcgccctg aacgaggacc tgcgctcctg gaccgcagcg gacactgcgg 120ctcagatctc caagcgcaag tgtgaggcgg ccaatgtggc tgaacaaagg agagcctacc 180tggagggcac gtgcgtggag tggctccaca gatacctgga gaacgggaag gagatgctgc 240agcgcgcggg 2501358155DNAArtificial Sequenceprobe/primer/pcr 1358gttaggaggg cggggcgcgt gcgcgcgcac ctcgctcacg cgccggcgcg ctccttttgc 60aggctcgtgg cggtcggtca gcggggcgtt ctcccacctg tagcgactca ggttactgaa 120aaggcgggaa aacgctgcga tggcggcagc tgggg 1551359207DNAArtificial Sequenceprobe/primer/pcr 1359agcgcaccaa cgcaggcgag ggactggggg aggagggaag tgccctcctg cagcacgcga 60ggttccggga ccggctggcc tgctggaact cggccaggct cagctggctc ggcgctgggc 120agccaggagc ctgggccccg gggagggcgg tcccgggcgg cgcggtgggc cgagcgcggg 180tcccgcctcc ttgaggcggg cccgggc 2071360173DNAArtificial Sequenceprobe/primer/pcr 1360cggctggccc cgcccactct ccgcggccgg aagtggcggc gccgagtgag gtaaatgcgt 60gcccggaagc gcgacctcgg gcggttggag gggctaccgg gtcttaccag tccgtggcgg 120gagtcccgga ggaccctcga cgggggagtt gccgagaaaa ggcctcgccg gca 1731361225DNAArtificial Sequenceprobe/primer/pcr 1361ggggttgccg tcgcagccag ctgagtgttg cgccaggggg acaggtatgt tccaggcagt 60ggcaagccca acccgagcaa gacctgcgct gaaacggatt ggctgccctc cgcccggagt 120ccgttctccc tgcagcggcc agtgcagagc tcagaggctc agaaactcgc tctcagcccc 180ctggaggcgg agcccgggag ataaggttcg cgctccccac ccgcc 2251362223DNAArtificial Sequenceprobe/primer/pcr 1362ccgcactccc gcccggttcc ccggccgtcc gcctatcctt ggccccctcc gctttctccg 60cgccggcccg cctcgcttat gcctcggcgc tgagccgctc tcccgattgc ccgccgacat 120gagctgcaac ggaggctccc acccgcggat caacactctg ggccgcatga tccgcgccga 180gtctggcccg gacctgcgct acgaggtgac cagcggcggc ggg 2231363150DNAArtificial Sequenceprobe/primer/pcr 1363ggaccccctg ggcagcaccc tggccaccct tccatccaca acatccagac cacacggcca 60agggcacctg accctgtcaa aaccccaaat ccagctgggc gcggtggctc atgcctgtaa 120tcccagcatt tgggaggccg aggcagccgg 1501364107DNAArtificial Sequenceprobe/primer/pcr 1364gaggcagccg gatcacgaag tcaggagttc gagaccagcc tgaccaacat ggtgaaaccc 60cgtctctact aaaatacaaa aattagccgg gcgtggtggt gcacacc 1071365244DNAArtificial Sequenceprobe/primer/pcr 1365gcgcgtgcgg gcgttgtccc ggcaaccagg gggcggggct gggcgtggca ccgccccgcg 60ctccgctgcc aggggcggga gggaggaatg gttgcttcac gccccggggg aagagacggg 120aagctcggct ctgggttgcg ggccccggcg tctccgcgtg gggcgcaccg tccgaccccc 180ccctcccggt gtgcagcgcc ccgcaccgcc ccgcctcgcc tgggagaagc cgccgggacg 240cgcc 2441366255DNAArtificial Sequenceprobe/primer/pcr 1366caggatgcgg cagcgcccac ccgcgcggcg tggagggggc cgggggcggc gctcggcgca 60gatggcgctc gctgcgagat ggatgctcca gggcgggtaa tcactcctgg ctcaacacag 120catcccgggc ggagcggatg ccagatccca ccgctaagag cctgggctgg gaaagcaatc 180tttccaggca gcccccagcc cggtgcgccg gccccgacaa gtcccagccc tcggaggcag 240ggcggggcgc aggga 2551367255DNAArtificial Sequenceprobe/primer/pcr 1367gatgcggccc gcggaggaga gagcaggagg acggacggga gggacctccg cggggagggc 60gcgcggggga ggcggggagg gaggcgggag ggggagggga cggtgtggat ggccccgagg 120tccaaaaaga aagcgcccaa cggctggacg cacaccccgc caggcctcct ggaaacggtg 180ccggtgctgc agagcccgcg aggtgtctgg gagttgggcg agagctgcag acttggaggc 240tcttatacct ccgtg 2551368193DNAArtificial Sequenceprobe/primer/pcr 1368gttctgcgcg cgcccgactc cgctgcccgc cccgccaggc ctccgggagg tgggggctgg 60gaggcgtccc ccgctcccgc cccctcccca ccgttcaatg aaagatgaac tggcgagagg 120tgagaaggga agagggctcc cggctctctc ggggcgggaa tcagtgggcc agagctcgcc 180gggtggccgc aag 1931369255DNAArtificial Sequenceprobe/primer/pcr 1369cccgccgtgg gcgtagtaac cgccaccgcc gccgcccccc gcgccaccac caccgccgcc 60tgcctcgcct ctgcccgagc tgatgagcga gtcgaccaaa aaagagttcg cggcggggct 120ctccgagcat gacattgttg tgggataatt tggcgaaggg agcagatagc cctttctggc 180tgacatttct tgtgcaaaac atgctgaata cgattagcaa tccccccgca ccgcggcggg 240cgcccgcagc caatc 2551370212DNAArtificial Sequenceprobe/primer/pcr 1370acccgcccgg gcagctccag tcccggactc cgcagctcgg agcgcagcca gccacggcca 60ttgcgggacc ctatttatcc cgacacctcc cctgacgtgg gctcggaacg ctcccttggc 120agctgcagcc gcggcgcggg ctccccctcg gccgccccac ccccaggccc gtcggtgcag 180aagcggtgac atcaccccct ctgggccgca gc 2121371221DNAArtificial Sequenceprobe/primer/pcr 1371cagcggtcgc gcctcgtcgg gcgacggctg gcagcgaagg ccggagccac agcgctcggt 60gtagatgccg cacggctggc cctcgctcag tgcgcacgtc aggcagcagc cgcagcccgg 120ctcgcgcacc agctccgcgc acacggcggg cggaggcgcg cactgggcca gtgcacgcgc 180gtcgcacggc tcgcagcgca ccacgggacc caagcccgcc g 2211372237DNAArtificial Sequenceprobe/primer/pcr 1372gcaatcgcgc tgtctctgaa aggggtggag aaggggctgg atgagtccgg aagtggagat 60tggctgctta gtgacgcgcg gcgtcccgga agttgacaga tacagggcga gaggcagtgg 120aggcgggact tggatagggg cggaacctga gactaccttt ctgcgatcac aggattcccg 180gcggtgactt gaccccggaa gtggggtgtg aagctccggt gctggtgcgg cggggga 2371373230DNAArtificial Sequenceprobe/primer/pcr 1373gagcgcccgc cgttgatgcc ccagctgctc tggccgcgat gggcactgca ggggctttcc 60tgtgcgcggg gtctccagca tctccacgaa ggcagagttg ggggtctggc agcgcgttct 120ggactttgcc cgccgccagt gcgattctcc ctcccggttc cagtcgccgc ggacgatgct 180tcctcccacc caccgcccgc gggctcagag agcaggtccc cgcaccgcgc 2301374255DNAArtificial Sequenceprobe/primer/pcr 1374catggcccgc tgcgccctct ccgccggttg gggagagaag ctcctggagc ggccagatac 60ctgttggctc ctgagcagca tcgcccagtg cagcctccgt caggaaaagc agcagaatcg 120acagccccag ggggcgagcg gggtccatgg tgcagggggt cgggcggccc gctgggcaag 180gcgtccgaga aagcgcctgg cgggaggagg tgcgcggctt tctgctccag gcggcccggg 240tgcccgcttt atgcg 2551375216DNAArtificial Sequenceprobe/primer/pcr 1375gggggcgggg tgcaggggtg gaggggcggg gaggcgggct ccggctgcgc cacgctatcg 60agtcttccct ccctccttct ctgccccctc cgctcccgct ggagccctcc accctacaag 120tggcctacag ggcacaggtg aggcgggact ggacagctcc tgctttgatc gccggagatc 180tgcaaattct gcccatgtcg gggctgcaga gcactc 2161376179DNAArtificial Sequenceprobe/primer/pcr 1376cgaccctgcg cccggcagtc cccgggggcc gtgcgcccgg cccaggctcg gaggtccagc 60ccagcggcgg ctcaggctgc gcgcctggct cccagcctca gtttccccat tggtaaagca 120ttgacggtgg ttgcggacgg cttctgcgga cagagccttg ggctccgacg tctgcgcgg 1791377214DNAArtificial Sequenceprobe/primer/pcr 1377ggcttcaagt ccacggccct gtgatgggat gtgggcaggg cctgagacag gccgaaccca 60actcttcaca gggccgaatt ctttgcccgc agcccagcac cccgaaggag cttgcctcgg 120cttcaaggcg cacctaatgg gcaccggatc gctggggcgc tgaggatgcc gctccggggc 180ctccacgagg cggcctcgcc acgcgcctcg gcca 2141378255DNAArtificial Sequenceprobe/primer/pcr 1378ccccacctgc ccgcgctgct tctacctgaa actggccaag ggcccgagcc cggaccggag 60ccgtgacttc cctccgccgg ccacggggct gcccggatcc gccgggttat gtcgcttggc 120tttgggctca ggggtcaccg tgggcagagg ggggtgccgg ggtcgcggac tgccaccagg 180ttgaggaaag gaggggcctt ttggctgggg aaagagcgtg gtgggggacc cgcggccgat 240ggaatccctg gggca 2551379255DNAArtificial Sequenceprobe/primer/pcr 1379gcgcgcggag acgcagcagc ggcagcggca gcatgtcggc cggcggagcg tcagtcccgc 60cgcccccgaa ccccgccgtg tccttcccgc cgccccgggg tcaccctgcc cgccggcccc 120gacatcctgc ggacctactc gggcgccttc gtctgcctgg agattgtaag tggggccgcc 180ggagcgaggg tcgcgcgggg agcgaggaca ggcggcggca tccttgtccc ccgggctgtc 240ttcctctgcg tccgc 2551380242DNAArtificial Sequenceprobe/primer/pcr 1380gtgagccggc

gctcctgatg cggagaggtg cggccatgtc ctggctggga gcgaagcgcc 60ctcgctcggg cagtcggagc gaactgtctc ccgcgcgctc cgccagccgg gccctcccgc 120tgggcccacc ccccgagggg cggggccaga gcgggcggca ccgcctcctc cccgctgtct 180gggtcgcagg ccttagcgac gggctgttct ccggccccgc cccattccca ggctccgccc 240cc 2421381255DNAArtificial Sequenceprobe/primer/pcr 1381tgccgcgggg gtgccaaggg aagtgccagc tcagagggac catgtgggcg caggcaccca 60ggcggcgccg ggaggcctct cgggactcca gggctgtccc tcccgcaggc tgtccttcca 120cctccacccc aggccaacgc cctcccgcca gcccagggtc ctgtgtcctc gagtccttcc 180tgggcaccct ggtcccatcc ttagccctgc ccgaggggcc cagccctgct ccaaaagggc 240tgtggctcca cccac 2551382232DNAArtificial Sequenceprobe/primer/pcr 1382ctgctgcgcg cgctggctct tctgcgaggc ctgcttgagc ttgttgccgc ctttgggctc 60cgggccctcc agctcgtccc tgcagcgccg cggccgctcc tcgtaggcca ggctggaggc 120aagctccttc tcctcaaagc tgcgctgcag cttctggagg gcgccctccc tctccaacag 180cttctgctcc agctcctgga tgctgcactc gtccgtggag atgggggagc gg 2321383255DNAArtificial Sequenceprobe/primer/pcr 1383ctggcggccc aggtcgctcc tgcccaaccc ggggacccat ctcttccccc gactccgacg 60actggtgcgt cttgcccgga catgcccggc cgcaggcgac ccgggccacg cacccccgcc 120gtgtccccct ctctccctgc cctctccagg cgccaggcac gctcttcccc agccagggac 180cgcggcgggg actcaccaac agcaggaccg cggcgacaac gagcacaagg gtcttgggga 240cccggggccc aggcc 2551384242DNAArtificial Sequenceprobe/primer/pcr 1384agcgccccgg ccgcctgatg gccgaggcag ggtgcgaccc aggacccagg acggcgtcgg 60gaaccatacc atggcccgga tccccaagac cctaaagttc gtcgtcgtca tcgtcgcggt 120cctgctgcca gtgagtcccg gccgcggtcc ctggctgggg aagagcgcac ctggcgccgg 180gagggggcag ggagacgggg acacggcagg gatgcctggc cctggtcacc tgcggccggg 240ca 2421385191DNAArtificial Sequenceprobe/primer/pcr 1385gccgcacggg acagccaggg ggagcgcgcg ctctgctccc tcgcggcccg gtcgctcctg 60cccagcccgg gcaccccact cttcccctga ctccgacggc gggttcgtcc tgcccagaca 120tgcccggccg caggcgaccc gggccaagca tccccaccgt gtccccctct ctccctgccc 180actcccggcg c 1911386203DNAArtificial Sequenceprobe/primer/pcr 1386cccggacatg ccccgccaca agtgacccgg gccaggcacc cccgccgcgt ccccctctct 60ctctgccccc tcccggtgcc aggcgcgctt ttccccaggc aggaccgcgg tggggactca 120cctgcagcag gaccccgacg acgacaaact tgaaggtctt gtggacccgg agccgagggc 180tggcttcccg cgccggcctg ggt 2031387251DNAArtificial Sequenceprobe/primer/pcr 1387cgggggccgc cgcctgactt cggacaccgg ccccgcaccc gccaggaggg gagggaaggg 60gaggcgggga gagcgacggc ggggggcggg cggtggaccc cgcctccccc ggcacagcct 120gctgagggga agagggggtc tccgctcttc ctcagtgcac tctctgactg aagcccggcg 180cgtggggtgc agcgggagtg cgaggggact ggacaggtgg gaagatggga atgaggaccg 240ggcggcggga a 2511388252DNAArtificial Sequenceprobe/primer/pcr 1388cagtggcggc cctcggcctg cggtcggagg cggcgcgggc ggggaggcgg cgctgcgggc 60tgggtgcgcc ccggctcccg gaggtgcggc gagcaggaag gcgcggggcg gcgggcgcgc 120ggcactgact ccggaggctg cagggctgga gtgcgcgggg ctcctacggc cgagccctcg 180gagccgcccc gcgcagccaa tcagctcccg gcggggcgag ccgcactcgt taccacgtcc 240gtcaccggcg cg 2521389166DNAArtificial Sequenceprobe/primer/pcr 1389gcccggcgcg gataacggtc cggcgggagg acacggcggt ccctacagca tcgcggcggg 60ccaggctcgg gcaggggccg tgctcaggtg cggcagacgg acgggccggc gcctctgaag 120tcacccggct cctttacgaa ctgagcccgt tttggctggg agggtt 1661390219DNAArtificial Sequenceprobe/primer/pcr 1390gctccgggtg gggagggagg ctggcagctc acccccgggg gcgaggggtc tgcgttagcc 60gtagccacgg gagcccgggc ttctgggacg ctcagccgtg cgctacccgg tgcagctgct 120ttctcaccag ctcgcgggtg ggtcctgccg cggctcggcg acccgcgccc ccttgcgagc 180gacccagcgt gaaaccagcc caaagggcgg cctcgcccg 2191391235DNAArtificial Sequenceprobe/primer/pcr 1391gcctgggcgc agaacggggt ccctcggcag gaccctcgcc gcgacagcct cagcagggga 60tcgtcgagca aaagcccgca ggaatgctcc tttctggggc cccgccctcc cggccgacag 120cttttaggta gacgtggagg cgactcagat cgcctcgcgg ttcccgggat ggcgcggtcg 180cccccaacgc gaggctgcct ggggcacccg gctcttttcc tgggcgtccg cggcc 2351392215DNAArtificial Sequenceprobe/primer/pcr 1392ggtcctaatc cccaggctgc gctgacagga ttaggctccg ttcctcccca taatgttccc 60aggacgagcc tcatggggac gaactacaaa tcccagcatg caccagtctt cgcccgcccg 120gcgggagggc aacggctgac caggaccgca ggcaagcacc gcggcgacgg ttccagccag 180gaaaatgaga gcctcttggg ccacgttcca aacgg 2151393255DNAArtificial Sequenceprobe/primer/pcr 1393ccgcgtcccc ggctgctcct cctcgtgctg gcggcggcgg cggcggcggc ggcggcgctg 60ctcccggggg cgacgggtga gcggcggcgc ggcgggcggg cgactgcggg gcgcgcgggc 120cggacccggc ctctggctcg ctcctgctct ttctcaaaca tggcgcgggg ccgggggcgc 180aggtggcggc gccggggccc gggccgggct ctcgtggcgc cgcgcggctc ggcggctgcc 240gggcgaaccg caagc 2551394255DNAArtificial Sequenceprobe/primer/pcr 1394ggcagggctg acgttgggag cgctatgagc tgccgggcag ggtcctcacc gggggcttcc 60tctgcgggcc agggctgccg ggcgccaccg ggacgcgagc gcgcacgcct cggcccggcg 120gccgcgctcc tcgcaccgcc ttctccgcag gtctttattc atcatctcat ctccctcttc 180cccttctcct tctcctttgc ctccttctcc tttgcctcct tctcctcctc ttcctccccc 240tcctccacca ccacc 2551395248DNAArtificial Sequenceprobe/primer/pcr 1395ccgtgggcgc aggggctgtg gccggggcgg tgggcgggcg gtgccgccag gtgagactgg 60ctgccgtggc gcggagctgc gaactggtcg gcggcgcaag gcgcggactc cggtgagttg 120tgtggagcgc gcgcggccat gggcgcgggc cacgggcggg tgggagggtg gggggccaga 180ggggcggggg agggtcactc ggcggctccc ggtgccgccg ccgcccgcca ccgcctctgc 240tccccgcg 2481396159DNAArtificial Sequenceprobe/primer/pcr 1396cctgcgcacg cgggaagggc tgccggaggc gcccgtaggg aggcgcgcgc gcgggcggct 60cagggcccgc gttcctctcc ctcccgccta ccgccacttt cccgccctgt gtgcgccccc 120acccccacca ccatcttccc accctcagcg cgggcgccc 1591397199DNAArtificial Sequenceprobe/primer/pcr 1397gcggacgcag ccgagctcaa agccgctctg gccgcagggt gcggacgcgt cgcggagtcc 60tcactgcccc gcctcgctct ggcagagtgg ggagccagcc ggcaaagaat tccgttttca 120gctgggccaa ggggccggcg tctccccacc cccttaggct ccgccccctg tccgctgtga 180tcgccgggag gccaggccc 1991398227DNAArtificial Sequenceprobe/primer/pcr 1398gacccatggc ggggcaggcg gcggcgctgt cgggcgggca ggggtggcgg gaggcggtgg 60cgcagcgagc agcggcctcc agcgctggtg gctcccttta taggagcgct ggagacacgg 120gccccgcccg ccctgcagcc ccgccctgca gtcccggagc gccgaggagt gcgcgccccc 180tcgcccccgc cccacctcgg ctgggaggct ggtgcggacg ccgggtg 2271399255DNAArtificial Sequenceprobe/primer/pcr 1399ccgctccccg cccctggctc cgcctggccc cactcccctc cgcgcgcctt ccctcttctc 60ccccgctccc cgcggacgct cctctctttc ccagtgggcc aactttatgc tgaaatttct 120tttctgccct tttttgggat gtttccccat tgggaggcgg agccgggctg cggcggggaa 180ggcggagggc gaggggaaga gtcactgagc tgcggggcat agggggtccg gggcgaggtg 240ccttctccca cccag 2551400191DNAArtificial Sequenceprobe/primer/pcr 1400tgtgccgcgc ggttgggagg agggtcgtga gcgtgagcgt gggagcgctg ggggctctgc 60tcgcgtgctg ctctgaagtt gttccccgat gcgccgtagg aagctgggat tctcccatcc 120ggacgtggga cgcaggggag gggtaggttt caccgtccgg gctgatgact cgtggcctcc 180ggggctcctg g 1911401184DNAArtificial Sequenceprobe/primer/pcr 1401cactcacgct ctcagcccgg ggaatcccag cggggaggag ggagggaggt cgttttcttc 60agctccccag gtggtctgtg ctgggtgtgc tgacggtcct tttgggaaaa caggtccacc 120tttgccagcg taattcagaa agagatgtaa ttttctgaga gcacacacct gggcaggaga 180tcgc 1841402255DNAArtificial Sequenceprobe/primer/pcr 1402ggcaagcggg cttcgggaag aatgcagttg gtgaggaagc tcggcgaggc gtgcccgtgc 60agctgcccct ggccctgact gctggtgcga ggcagtgcac gactcagctg gccggggcct 120gctgtcccgc cggtgccacg cacctgcaga cgcccgggct gtgccatctc ctgggccggt 180ccgggggctg gggcggggcg aaaaagaaaa agctctgatc tctgccttcg cctcgcgcag 240ctgtgcggcg agccc 2551403255DNAArtificial Sequenceprobe/primer/pcr 1403cccgcgggcc gggtgagaac aggtggcgcc ggcccgacca ggcgctttgt gtcggggcgc 60gaggatctgg agcgaactgc tgcgcctcgg tgggccgctc ccttccctcc cttgctcccc 120cgggcggccg cacgccgggt cggccgggta acggagaggg agtcgccagg aatgtggctc 180tggggactgc ctcgctcggg gaaggggaga gggtggccac ggtgttagga gaggcgcggg 240agccgagagg tggcg 2551404239DNAArtificial Sequenceprobe/primer/pcr 1404ggcggcggct ggagagcgag gaggagcggg tggccccgcg ctgcgcccgc cctcgcctca 60cctggcgcag gtaggtgtgg ccgcgtcccc tacccggccg ggactttctg gtaaggagag 120gaggttacgg ggaacgacgc gctgctttca tgccctttct tgttctacct tcatcggccg 180aggtaaaagt gctgaaacca tgtgaataaa atacaggtgg gttccgccag cttcgctcc 2391405253DNAArtificial Sequenceprobe/primer/pcr 1405gggccccggg actcggcttg cacgagccag tctggggacc ggggaggcgg ggagagggaa 60ggggaaagcg cggacgcggc ccaaacctcc agtagccgca gccgccgtcg ccgagtaggg 120ccgggcagcc agccgggcct ggcgcagcat cagtgcccgc tgccgcttcc gctcgatact 180cgcccgcacc gaggcaggca gctccgcggg ttgctctaaa gccgccgcct ccggcaaagc 240cccgtcggcc gcc 2531406209DNAArtificial Sequenceprobe/primer/pcr 1406acggaatgtg gggtgcgggc ctgaatatta taaacaaaac caaaaaacac tggctggaaa 60ggaagtaagc ggattcttcg taaagtctat caaaagtctt ttcgtttccc cctccccctt 120tccccaccgc ccaccaaaat gagccgcgtt tgagcacctc aggtctggaa agccggccag 180gagtggggga gaccgaggca cccgcggcc 2091407255DNAArtificial Sequenceprobe/primer/pcr 1407gcggctgctg ccgaggctcc tggtttccac cgccgccctc ggggatcatg ccgccatcgc 60ggttcatgcc gttctcgtgg ttcacaccgc cctcagggtt catattaccc atgaggcctg 120gagctccttg gccaacatgg ccttctgcgc ttgatgctgc ccccagctga ggtgtggggc 180ttatttttac ctggtataca ctcaggcagt agaacacggt gtcgtggacg agcgaacgcg 240ccatggctgg agcgc 2551408200DNAArtificial Sequenceprobe/primer/pcr 1408ccgctgcgcg agggaggggg cccgaggcgc ccccggcccg ccctcctccc ggtcttcgga 60tccgagccgg tcctcgggaa agagcctgcc accgcgtccc cgcagccacc ctctccgcgt 120gcccggccct ctccagtggc gggggcacgt gggcgcgcgg ggtgcgtggc aagccgcccc 180tctccccacg cccgtccggc 2001409230DNAArtificial Sequenceprobe/primer/pcr 1409ggggtgcggc gtctggtcag ccaggggtga attctcagga ctggtcggca gtcaaggtga 60ggaccctgag tgtaaactga agagaccacc cccacctgta acaaagaggg ccccactaag 120tcccgcttct gcatttggtc ctgagaggct ccggtaaagc cgtccggcaa tgttccacct 180ggaaagttcc agggcagggg aagggtgggg ggaggggcag tcgcggggga 2301410246DNAArtificial Sequenceprobe/primer/pcr 1410gccgggggaa atgcggcctc taagctctcc gctgaggcgg cttggaagga atagtgactg 60acgtggaggt gggggaggtg gctggcccgg gcgaggccca gggagaggga gaggaggcgg 120gtgggagagg aggagggtgt atctcctttc gtcggcccgc cccttggctt ctgcactgat 180ggtgggtgga tgagtaatgc atccaggaag cctggaggcc tgtggtttcc gcacccgctg 240ccaccc 2461411230DNAArtificial Sequenceprobe/primer/pcr 1411tgcctggtag gactgacggc tgcctttgtc ctcctcctct ccaccccgcc tccccccacc 60ctgccttccc cccctccccc gtcttctctc ccgcagctgc ctcagtcggc tactctcagc 120caacccccct caccaccctt ctccccaccc gcccccccgc ccccgtcggc ccagcgctgc 180cagcccgagt ttgcagagag gtaactccct ttggctgcga gcgggcgagc 2301412184DNAArtificial Sequenceprobe/primer/pcr 1412gcgcgggcgc ctcgatctcc cgcgcgcgcg cgtgcgcgag accccccttt ggccccctac 60cctgcagcaa gggtagcgtg acgtaatgca acctcagcat gtcagcagca atataaagga 120gaatgaggcg gcgcgcctcc cagacgcaga gtagattgtg attggctcgg gctgcggaac 180ctcg 1841413240DNAArtificial Sequenceprobe/primer/pcr 1413cccggctggt cggcgctcct cgcaggcggt gtcccggtcc ggagcgatct gcgcgctcgg 60ccccgcggcc gcgccctccc cgaagccctt gctttgttct gtgagcgcct cgtgtcagcc 120aggcgcagtg agctcacggg ggcgtcccgg gtccgcatcc tcccaggagc tggggagccg 180ctcgctgggc gcggacccgc tgcctgacgc tgcaaactac acggtttcgg tcccccgcgc 2401414129DNAArtificial Sequenceprobe/primer/pcr 1414ccggggctgg gacggcgctt ccaggcggag aaagacctcc gcgggccgcg cgcggccttc 60cccctgcgag gatcgccatt ggcccgggtt ggctttggaa agcggcggtg gctttgggcc 120gggctcggc 1291415255DNAArtificial Sequenceprobe/primer/pcr 1415gggcggggtg gggctggagc tcctgtctct tggccagctg aatggaggcc cagtggcaac 60acaggtcctg cctggggatc aggtctgctc tgcaccccac cttgctgcct ggagccgccc 120acctgacaac ctctcatccc tgctctgcag atccggtccc atccccactg cccaccccac 180ccccccagca ctccacccag ttcaacgttc cacgaacccc cagaaccagc cctcatcaac 240aggcagcaag aaggg 2551416255DNAArtificial Sequenceprobe/primer/pcr 1416gtgcggttgg gcggggccct gtgccccact gcggagtgcg ggtcgggaag cggagagaga 60agcagctgtg taatccgctg gatgcggacc agggcgctcc ccattcccgt cgggagcccg 120ccgattggct gggtgtgggc gcacgtgacc gacatgtggc tgtattggtg cagcccgcca 180gggtgtcact ggagacagaa tggaggtgct gccggactcg gaaatggggt aggtgctgga 240gccaccatgg ccagg 2551417127DNAArtificial Sequenceprobe/primer/pcr 1417ggcggtgcct ccggggctca cctggctgca gccacgcacc ccctctcagt ggcgtcggaa 60ctgcaaagca cctgtgagct tgcggaagtc agttcagact ccagcccgct ccagcccggc 120ccgaccc 1271418127DNAArtificial Sequenceprobe/primer/pcr 1418ggcggtgcct ccggggctca cctggctgca gccacgcacc ccctctcagt ggcgtcggaa 60ctgcaaagca cctgtgagct tgcggaagtc agttcagact ccagcccgct ccagcccggc 120ccgaccc 1271419255DNAArtificial Sequenceprobe/primer/pcr 1419cgggagcccg cccccgagag gtgggctgcg ggcgctcgag gcccagccgc cgccgccgcc 60gccgccgccg ccgcctccgc cgccgccgcc gccgccgccg ccgccgcgct gccgcacgcc 120ccctggcagc ggcgcctccg tcaccgccgc cgcccgcgct cgccgtcggc ccgccgcccg 180ctcagaggcg gccctccacc ggaagtgaaa ccgaaacgga gctgagcgcc tgactgaggc 240cgaacccccg gcccg 2551420255DNAArtificial Sequenceprobe/primer/pcr 1420tcctgccatc cgcgcctttg cacttttctt tttgagttga catttcttgg tgctttttgg 60tttctcgctg ttgttgggtg ctttttggtt tgttcttgtc cctttttcgt ttgctcatcc 120tttttggcgc taactcttag gcagccagcc cagcagcccg aagcccgggc agccgcgctc 180cgcggccccg gggcagcgcg gcgggaaccg cagccaagcc ccccgacacg gggcgcacgg 240gggccgggca gcccg 2551421255DNAArtificial Sequenceprobe/primer/pcr 1421aggcacaggg gcagctccgg cacggctttc tcaggcctat gccggagcct cgagggctgg 60agagcgggaa gacaggcagt gctcggggag ttgcagcagg acgtcaccag gagggcgaag 120cggccacggg aggggggccc cgggacattg cgcagcaagg aggctgcagg ggctcggcct 180gcgggcgccg gtcccacgag gcactgcggc ccagggtctg gtgcggagag ggcccacagt 240ggacttggtg acgct 2551422255DNAArtificial Sequenceprobe/primer/pcr 1422cgacccctcc gaccgtgctt ccggtgaggg tcctgggccc ctttcccact ctctagagac 60agagaaatag ggcttcgggc gcccagcgtt tcctgtggcc tctgggacct cttggccagg 120gacaaggacc cgtgacttcc ttgcttgctg tgtggcccgg gagcagctca gacgctggct 180ccttctgtcc ctctgcccgt ggacattagc tcaagtcact gatcagtcac aggggtggcc 240tgtcaggtca ggcgg 2551423213DNAArtificial Sequenceprobe/primer/pcr 1423cccgcagggt ggctgcgtcc ttccagggcc tggcctgagg gcaggggtgg tttgctcccc 60cttcagcctc cgggggctgg ggtcagtgcg gtgctaacac ggctctctct gtgctgtggg 120acttccaggc aggcccgcaa gccgtgtgag ccgtcgcagc cgtggcatcg ttgaggagtg 180ctgtttccgc agctgtgacc tggccctcct gga 2131424255DNAArtificial Sequenceprobe/primer/pcr 1424gcgtctgccg gcccctcccc ttgtccgtcc cctccgcgcc gctggcgcgc gccttctgaa 60tgccaagcat tgccataaac tccggggaca aaagcctggg tcacaaaagc cccctctaga 120agttcacacc ctgaggcttc cctggcaagg ctgggggccg tttggccctt ccatgtggac 180tgcaaaaaca gtgttggaat gcaggactct gggtatgttc tcgaaagttg ttacaacccc 240aacccagggt tgacc 2551425117DNAArtificial Sequenceprobe/primer/pcr 1425taggccgccg ggcagccacc gcgctcctct ggctctcctg ctccatcgcg ctcctccgcg 60cccttgccac ctccaacgcc cgtgcccagc agcgcgcggc tgcccaacag cgccgga 1171426255DNAArtificial Sequenceprobe/primer/pcr 1426ggggagcggg gacgcgagca gcaccagaat ccgcgggagc gcggctgttc ctggtagggc 60cgtgtcaggt gacggatgta gctagggggc gagctgcctg gagttgcgtt ccaggcgtcc 120ggcccctggg ccgtcaccgc ggggcgcccg cgctgagggt gggaagatgg tggtgggggt 180gggggcgcac acagggcggg aaagtggcgg taggcgggag ggagaggaac gcgggccctg 240agccgcccgc gcgcg 2551427255DNAArtificial Sequenceprobe/primer/pcr 1427gccggctggc

tccccactct gccagagcga ggcggggcag tgaggactcc gcgacgcgtc 60cgcaccctgc ggccagagcg gctttgagct cggctgcgtc cgcgctaggc gctttttccc 120agaagcaatc caggcgcgcc cgctggttct tgagcgccag gaaaagcccg gagctaacga 180ccggccgctc ggccactgca cggggcccca agccgcagaa ggacgacggg agggtaatga 240agctgagccc aggtc 2551428255DNAArtificial Sequenceprobe/primer/pcr 1428tcgctcacgg cgtccccttg cctggaaaga taccgcggtc cctccagagg atttgaggga 60cagggtcgga gggggctctt ccgccagcac cggaggaaga aagaggaggg gctggctggt 120caccagaggg tggggcggac cgcgtgcgct cggcggctgc ggagaggggg agagcaggca 180gcgggcggcg gggagcagca tggagccggc ggcggggagc agcatggagc cttcggctga 240ctggctggcc acggc 2551429255DNAArtificial Sequenceprobe/primer/pcr 1429tccccgctgc cctggcgctc cccctttgat ttattagggc tgccgggttg gcgcagattg 60ctttttcttc tcttccatcc catcctccct tctggtcctc ctttccacag tgggagtccg 120tgctcctgct cctcggttgg ctcctaagtg ccccgccagg tcccctctcc tttcgctctc 180ccggctccgg ctcccgactc ttcggcccgc tggcatctgc ttccctcccc tgcctcgttt 240ctcgtcgccc ctgct 2551430115DNAArtificial Sequenceprobe/primer/pcr 1430ggccagaggc aggcccgcag ctccctgccc cgcctctgtg cctccgccaa cccgacaacg 60cttgctccca ccccgatccc cgcacccgcg cgaagtgggc cctccggtcg tcggc 1151431109DNAArtificial Sequenceprobe/primer/pcr 1431tgcccgggtc atcggacggg aggccgcgcc acgtgagggc ggcaagaggg cactggccct 60gcggcgaggc cccagcgagg ggcgcttccc cgaggggcca gcctgggca 1091432170DNAArtificial Sequenceprobe/primer/pcr 1432cccagtgcgc acggcgaggc agtagcccgg ccccgcactg ctgataggtg caggcaggac 60agtccctcca ccgcggctcg gggcgtcctg attggtgcgg agccacgtca gtcgcacccg 120gagaagggtc tgggaggagg cggaggcgga gagggctggg gagggccgcg 1701433138DNAArtificial Sequenceprobe/primer/pcr 1433agcgtcccag cccgcgcacc gaccagcgcc ccagttcccc acagacgccg gcgggcccgg 60gagcctcgcg gacgtgacgc cgcgggcgga agtgacgttt tcccgcggtt ggacgcggcg 120ctcagttgcc gggcgggg 1381434255DNAArtificial Sequenceprobe/primer/pcr 1434tgctcccccg ggtcggagcc ccccggagct gcgcgcgggc ttgcagcgcc tcgcccgcgc 60tgtcctcccg gtgtcccgct tctccgcgcc ccagccgccg gctgccagct tttcggggcc 120ccgagtcgca cccagcgaag agagcgggcc cgggacaagc tcgaactccg gccgcctcgc 180ccttccccgg ctccgctccc tctgccccct cggggtcgcg cgcccacgat gctgcagggc 240cctggctcgc tgctg 2551435124DNAArtificial Sequenceprobe/primer/pcr 1435cgctcgcatt ggggcgcgtc ccccatccgc ccccaactgt ggtgtcgcga caggtcctat 60tgcgggtgtc tgcggtggga agggcggtgg tgactgggag catgcggggt aaccgcagtg 120ggca 1241436196DNAArtificial Sequenceprobe/primer/pcr 1436tgcggcaagc ccgccatgat gtccacgtga caaaagccat gatatacata tgacaacgcc 60tgccatattg tccctgcggc aaaacccaac acgaaaagca cacagcaaag acaaagaggc 120ccgccatgtt ttacactgcg gcaagacctt cagccgccat cttttcctgt gtgaccgcac 180atgtccacca ccatgc 1961437128DNAArtificial Sequenceprobe/primer/pcr 1437tcttgagcct caggagtgaa aaggcccctt gggaaaccct cacccaggag atacacagga 60gcactggctt tggcagcagc tcacaatgag aaagatgcct gtcacagcct ttgccttcct 120cttctatg 1281438255DNAArtificial Sequenceprobe/primer/pcr 1438ggaccatgag tgtttccatg cttggcatca gacatgtctt ctacccctat tcagtctgtc 60atccactggt caagaatccc aaacattcta aaactgtgtc cacatctctt ctgggtaact 120cttatgattg gagggcttcc tgaggtgtga agtctatcac agatccagtg actaacttct 180agcttcatct tattctcact taggggagaa gagttgaggc ccaagcaaac ctcttcttac 240cattggctta gggaa 2551439255DNAArtificial Sequenceprobe/primer/pcr 1439tcagccactg cttcgcaggc tgacgttact gacgtggtgc cagcgacgga gggcgagaac 60gccagcgcgg cgcagccgga cgtgaacgcg cagatcaccg cagcggttgc ggcagaaaac 120agccgcatta tggggatcct caactgtgag gaggctcacg gacgcgaaga acaggcacgc 180gtgctggcag aaacccccgg tatgaccgtg aaaacggccc gccgcattct ggccgcagca 240ccacagagtg cacag 2551440155DNAArtificial Sequenceprobe/primer/pcr 1440cggccagctg cgcggcgact ccggggactc cagggcgccc ctctgcggcc gacgcccggg 60gtgcagcggc cgccggggct ggggccggcg ggagtccgcg ggaccctcca gaagagcggc 120cggcgccgtg actcagcact ggggcggagc ggggc 155

Claims

1.-15. (canceled)

16. A nucleic acid primer or hybridization probe set specific for at least one potentially methylated region of at least one marker gene suitable to diagnose or predict lung cancer or a lung cancer type.

17. The set of claim 16, wherein the at least one the marker gene is further defined as WT1, SALL3, TERT, ACTB, or CPEB4.

18. The set of claim 16, wherein the lung cancer is adenocarcinoma or squamous cell carcinoma.

19. The set of claim 16, further comprising a nucleic acid primer or hybridization probe specific for at least one additional marker gene defined as ABCB 1, ACTB, AIM1L, APC, AREG, BMP2K, BOLL, C5AR1, C5orf4, CADM1, CDH13, CDX1, CLIC4, COL21A1, CPEB4, CXADR, DLX2, DNAJA4, DPH1, DRD2, EFS, ERBB2, ERCC1, ESR2, F2R, FAM43A, GABRA2, GAD1, GBP2, GDNF, GNA15, GNAS, HECW2, HIC1, HIST1H2AG, HLAG, HOXA1, HOXA10, HSD17B4, HSPA2, IRAK2, ITGA4, JUB, KCNJ15, KCNQ1, KIF5B, KL, KRT14, KRT17, LAMC2, MAGEB2, MBD2, MSH4, MT1G, MT3, MTHFR, NEUROD1, NHLH2, NKX2-1, ONECUT2, PENK, PITX2, PLAGL1, PTTG1, PYCARD, RASSF1, S100A8, SALL3, SERPINB5, SERPINE1, SERPINI1, SFRP2, SLC25A31, SMAD3, SPARC, SPHK1, SRGN, TERT, THRB, TJP2, TMEFF2, TNFRSF10C, TNFRSF25, TP53, ZDHHCI1, ZNF256, ZNF711, F2R, HOXA10, KL, SALL3, SPARC, TNFRSF25, or WT1.

20. The set of claim 16, further defined as a nucleic acid primer or hybridization probe set comprising nucleic acid primers or hybridization probes being specific for potentially methylated regions of at least 50% of the marker genes in at least one of the following combinations: WT1, DLX2, SALL3, TERT, PITX2, HOXA10, F2R, CPEB4, NHLH2, SMAD3, ACTB, HOXA1, BOLL, APC, MT1G, PENK, SPARC, DNAJA4, RASSF1, HLA-G, ERCC1, ONECUT2, APC, ABCB1, ZNF573, KCNJ15, ZDHHC11, SFRP2, GDNF, PTTG1, SERPINI1, and TNFRSF10C; WT1, PITX2, SALL3, F2R, DLX2, TERT, HOXA10, MSH4, NHLH2, GNA15, PENK, RASSF1, BOLL, HOXA1, ONECUT2, ABCB1, SPARC, MT1G, HSPA2, SFRP2, PYCARD, GAD1, C5orf4, C5AR1, GNDF, ZDHHC11, SERPINE1, NKX2-1, PITX2, C5AR1, GDNF, ZDHHC11, SERPINE1, NKX2-1, PITX2, C5AR1, ZNF256, FAM43A, SFRP2, MT3, SERPINE1M, CLIC4, TNFRSF10C, GABRA2, MTHFR, ESR2, NEUROG1, PITX2, PLAGL1, TMEFF2, PTTG1, CADM1, S100A8, EFS, JUB, ITGA4, MAGEB2, ERBB2, SRGN, GNAS, TJP2, KCNJ15, SLC25A31, ZNF573, TNFRSF25, APC, KCNQ1, LAMC2, SPHK1 DNAJA4, APC, MBD2, ERCC1 HLA-G, CXADR, TP53, ACTB, KL, SMAD3, HIST1H2AG, and CPEB4; WT1 DLX2, SALL3, TERT, TNFRSF25, ACTB, SMAD3, and CPEB4; WT1, DLX2, SALL3, TERT, PITX2, TNFRSF25, KL, ACTB, SMAD3, and CPEB4; WT1, PITX2, SALL3, DLX2, TERT, HOXA10, RASSF1, SPARC, IRAK2, ZNF711, DNAJA4, HLA-Q, CXADR, TP53, ACTB, and CPEB4; WT1, PITX2, SALL3, F2R, TERT, HOXA10, RASSF1, SPARC, IRAK2, ZNF711, DRD2, DNAJA4, CXADR, TP53, ACTB, and CPEB4; WT1, ACTB, DLX2, PITX2, SALL3, HOXA10, TERT, CPEB4, HLA-G, SPARC, RASSF1, DNAJA4, CXADR, TP53, IRAK2, and ZNF711; F2R, ZNF256, CDH13, SERPINB5, KRT14, DLX2, AREG, THRB, HSD17B4, SPARC, HECW2, and COL21A1; KL, HIST1H2AG, TJP2, SRGN, CDX1, TNFRSF25, APC, HIC1, APC, GNA15, ACTB, WT1, KRT17, AIM1L, DPH1, PITX2, PITX2, KIF5B, BMP2K, GBP2, NHLH2, GDNF, and BOLL; WT1, DLX2, SALL3, TERT, PITX2, HOXA10, F2R, CPEB4, NHLH2, SMAD3, ACTB, HOXA1, BOLL, APC, MT1G, PENK, SPARC, DNAJA4, RASSF1, HLA-G, ERCC1, ONECUT2, APC, ABCB1, ZNF573, KCNJ15, ZDHHC11, SFRP2, GDNF, PTTG1, SERPINI1, and TNFRSF10C; HOXA10 and NEUROD1; WT1, PITX2, SALL3, F2R, TERT, HOXA10, RASSF1, SPARC, IRAK2, ZNF711, DRD2, DNAJA4, CXADR, TP53, ACTB, CPEB4, DLX2, TNFRSF25, KL, and SMAD3; TNFRSF25, SALL3, RASSF1, TERT, SPARC, F2R, HOXA10, ZNF711, and PITX2 SALL3, PITX2, SPARC, F2R, TERT, RASSF1, HOXA10, CXADR, and KL SALL3, SPARC, PITX2, F2R, TERT, RASSF1, HOXA10, and KL; SALL3, PITX2, SPARC, F2R, HOXA10, DRD2, ACTB, DNAJA4, CXADR, KL; SALL3, SPARC, PITX2, F2R, TERT, RASSF1, HOXA10, TNFRSF25, DNAJA4, TP53, CXADR, and KL; SPARC, SALL3, F2R, PITX2, RASSF1, HOXA10, TERT, KL, and TNFRSF25; SALL3, SPARC, PITX2, F2R, TERT, RASSF1, HOXA10, KL, TNFRSF25, CXADR; and HOXA10, RASSF1, and F2R.

21. The set of claim 20, further defined as comprising nucleic acid primers or hybridization probes being specific for potentially methylated regions of at least 60% of the marker genes in at least one of the combinations.

22. The set of claim 21, further defined as comprising nucleic acid primers or hybridization probes being specific for potentially methylated regions of at least 70% of the marker genes in at least one of the combinations.

23. The set of claim 22, further defined as comprising nucleic acid primers or hybridization probes being specific for potentially methylated regions of at least 80% of the marker genes in at least one of the combinations.

24. The set of claim 23, further defined as comprising nucleic acid primers or hybridization probes being specific for potentially methylated regions of at least 90% of the marker genes in at least one of the combinations.

25. The set of claim 24, further defined as comprising nucleic acid primers or hybridization probes being specific for potentially methylated regions of 100% of the marker genes in at least one of the combinations.

26. The set of claim 16, further defined as comprising not more than 100000 probes or primer pairs.

27. The set of claim 26, further defined as comprising immobilized probes on a solid surface.

28. The set of claim 26, wherein the primer pairs and probes are specific for a methylated upstream region of an open reading frame of the marker genes.

29. The set of claim 26, wherein the probes or primers are specific for methylation in the genetic regions defined by any of SEQ ID NOs 1081 to 1440 including the adjacent up to 500 base pairs corresponding to any of gene marker IDs 1 to 359.

30. The set of claim 29, wherein the probes or primers are specific for methylation in the genetic regions defined by any of SEQ ID NOs 1081 to 1440 including the adjacent up to 300 base pairs corresponding to any of gene marker IDs 1 to 359.

31. The set of claim 29, wherein the probes or primers are specific for methylation in the genetic regions defined by any of SEQ ID NOs 1081 to 1440 including the adjacent up to 200 base pairs corresponding to any of gene marker IDs 1 to 359.

32. The set of claim 29, wherein the probes or primers are specific for methylation in the genetic regions defined by any of SEQ ID NOs 1081 to 1440 including the adjacent up to 100 base pairs corresponding to any of gene marker IDs 1 to 359.

33. The set of claim 29, wherein the probes or primers are specific for methylation in the genetic regions defined by any of SEQ ID NOs 1081 to 1440 including the adjacent up to 50 base pairs corresponding to any of gene marker IDs 1 to 359.

34. The set of claim 29, wherein the probes or primers are specific for methylation in the genetic regions defined by any of SEQ ID NOs 1081 to 1440 including the adjacent up to 10 base pairs corresponding to any of gene marker IDs 1 to 359.

35. The set of claim 29, wherein the probes or primers are of SEQ ID NOs 1 to 1080.

36. A method of identifying or predicting a lung cancer or a lung cancer type in a patient, comprising: obtaining a sample comprising DNA from a patient; obtaining a set of nucleic acid primers or hybridization probes of claim 16; using the set to determine methylation status of genes in the sample for which the members of the set are specific; and comparing the methylation status of the genes with the status of a confirmed lung cancer type positive and/or negative state, thereby identifying lung cancer or lung cancer type, if any, in the patient.

37. The method of claim 36, wherein the methylation status is determined by methylation specific PCR analysis, methylation specific digestion analysis and either or both of hybridization analysis to non-digested or digested fragments or PCR amplification analysis of non-digested or digested fragments.

38. A method of determining a subset of diagnostic markers for potentially methylated genes from the genes of gene marker IDs 1-359 of Table 1, suitable for the diagnosis or prognosis of lung cancer or lung cancer type, comprising: a) obtaining data of the methylation status of at least 50 random genes selected from the 359 genes of gene marker IDs 1-359 in at least 1 sample of a confirmed lung cancer or lung cancer type state and at least one sample of a lung cancer or lung cancer type negative state; b) correlating the results of the obtained methylation status with the lung cancer or lung cancer type; c) optionally repeating the obtaining a) and correlating b) steps for a different combination of at least 50 random genes selected from the 359 genes of gene marker IDs 1-359; and d) selecting as many marker genes which in a classification analysis have a p-value of less than 0.1 in a random-variance t-test, or selecting as many marker genes which in a classification analysis together have a correct lung cancer or lung cancer type prediction of at least 70% in a cross-validation test; wherein the selected markers form the subset of diagnostic markers.

39. The method of claim 38, wherein a) is further defined as comprising obtaining data of the methylation status of at least 50 random genes selected from the 359 genes of gene marker IDs 1-359 in at least 5 samples of a confirmed lung cancer or lung cancer type state.

40. The method of claim 38, wherein the correlated results for each gene b) are rated by their correct correlation to the disease or tumor type positive state, preferably by p-value test, and selected in step d) in order of the rating.

41. The method of claim 38, wherein the at least 50 genes of step a) are at least 100 genes.

42. The method of claim 41, wherein the at least 100 genes of step a) are at least 250 genes.

43. The method of claim 42, wherein the at least 250 genes of step a) are all of the genes.

44. The method of claim 38, wherein not more than 40 marker genes are selected in step d) for the subset.

45. The method of claim 38, wherein the step a) of obtaining data of the methylation status comprises determining data of the methylation status by methylation specific PCR analysis, methylation specific digestion analysis, or hybridization analysis to non-digested or digested fragments, or PCR amplification analysis of non-digested or digested fragments.

46. A method of identifying or predicting a lung cancer or a lung cancer type in a patient, comprising: obtaining a sample comprising DNA from a patient; providing a set of a diagnostic subset of markers identified by a method of claim 38; using the set to determine methylation status of genes in the sample for which the members of the set are specific; and comparing the methylation status of the genes with the status of a confirmed lung cancer type positive and/or negative state, thereby identifying lung cancer or lung cancer type, if any, in the patient.

47. The method of claim 46, wherein the methylation status is determined by methylation specific PCR analysis, methylation specific digestion analysis and either or both of hybridization analysis to non-digested or digested fragments or PCR amplification analysis of non-digested or digested fragments.