U.S. patent application number 08/653034 was filed with the patent office on 2005-08-11 for novel compounds and methods for synthesis and therapy.
Invention is credited to BISCHOFBERGER, NORBERT W., KIM, CHOUNG U., LEW, WILLARD, LIU, HONGTAO, WILLIAMS, MATTHEW A..
Application Number | 20050176758 08/653034 |
Document ID | / |
Family ID | 27410155 |
Filed Date | 2005-08-11 |
United States Patent
Application |
20050176758 |
Kind Code |
A1 |
BISCHOFBERGER, NORBERT W. ;
et al. |
August 11, 2005 |
NOVEL COMPOUNDS AND METHODS FOR SYNTHESIS AND THERAPY
Abstract
Novel compounds are described. The compounds generally comprise
an acidic group, a basic group, a substituted amino or N-acyl and a
group having an optionally hydroxylated alkane moiety.
Pharmaceutical compositions comprising the inhibitors of the
invention are also described. Methods of inhibiting neuraminidase
in samples suspected of containing neuraminidase are also
described. Antigenic materials, polymers, antibodies, conjugates of
the compounds of the invention with labels, and assay methods for
detecting neuraminidase activity are also described.
Inventors: |
BISCHOFBERGER, NORBERT W.;
(SAN CARLOS, CA) ; KIM, CHOUNG U.; (SAN CARLOS,
CA) ; LEW, WILLARD; (SAN MATEO, CA) ; LIU,
HONGTAO; (FOSTER CITY, CA) ; WILLIAMS, MATTHEW
A.; (FOSTER CITY, CA) |
Correspondence
Address: |
GILEAD SCIENCES INC
333 LAKESIDE DR
FOSTER CITY
CA
94404
US
|
Family ID: |
27410155 |
Appl. No.: |
08/653034 |
Filed: |
May 24, 1996 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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08653034 |
May 24, 1996 |
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08606624 |
Feb 26, 1996 |
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5952375 |
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08606624 |
Feb 26, 1996 |
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08580567 |
Dec 29, 1995 |
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08580567 |
Dec 29, 1995 |
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08476946 |
Jun 6, 1995 |
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5866601 |
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08476946 |
Jun 6, 1995 |
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08395245 |
Feb 27, 1995 |
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Current U.S.
Class: |
514/310 |
Current CPC
Class: |
A61P 31/12 20180101;
A61P 31/16 20180101; Y02P 20/55 20151101; A61P 31/04 20180101; C07D
309/28 20130101; A61P 43/00 20180101 |
Class at
Publication: |
514/310 |
International
Class: |
A61K 031/47 |
Claims
1-21. (canceled)
22: A compound having the formula: 997wherein: R.sup.1 is H or
C.sub.1-C.sub.8 alkyl; R.sup.2 is H or CH.sub.3OCH.sub.2--; and X
is H or F; and the salts, solvates, and enantiomers thereof.
23: The compound of claim 22 having formula 345: 998
24: The compound of claim 22 having formula 500: 999
Description
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation-in-part application of
U.S. patent application Ser. No. 08/606,624, filed Feb. 26, 1996,
which was a continuation-in-part application of U.S. patent
application Ser. No. 08/580,567, filed Dec. 29, 1995, which was a
continuation-in-part application of U.S. patent application Ser.
No. 08/476,946, filed Jun. 6, 1995, which was a
continuation-in-part application of U.S. patent application Ser.
No. 08/395,245, filed Feb. 27, 1995, all of which are now pending
and are incorporated herein by reference in their entirety.
BACKGROUND OF THE INVENTION
[0002] 1. Field of the Invention
[0003] Neuraminidase (also known as sialidase, acylneuraminyl
hydrolase, and EC 3.2.1.18) is an enzyme common among animals and a
number of microorganisms. It is a glycohydrolase that cleaves
terminal alpha-ketosidically linked sialic acids from
glycoproteins, glycolipids and oligiosaccharides. Many of the
microorganisms containing neuraminidase are pathogenic to man and
other animals including fowl, horses, swine and seals. These
pathogenic organisms include influenza virus.
[0004] Neuraminidase has been implicated in the pathogenicity of
influenza viruses. It is thought to help the elution of newly
synthesized virons from infected cells and assist in the movement
of the virus (through its hydrolase activity) through the mucus of
the respiratory tract.
[0005] 2. Brief Description of Related Art
[0006] Itzstein, M. von et al.; "Nature", 363(6428):418-423 (1993),
discloses the rational design of sialidase-based inhibitors of
influenza virus replication. Colman, P. M. et al.; International
Patent Publication No. WO 92/06691 (Int. App. No. PCT/AU90/00501,
publication date Apr. 30, 1992), Itzstein, L. M. von et al.;
European Patent Publication No. 0 539 204 A1 (EP App. No.
92309684.6, publication date Apr. 28, 1993), and Itzstein, L. M.
von et al.; International Publication No. WO 91/16320 (Int. App.
No. PCT/AU91/00161, publication date Oct. 31, 1991) disclose
compounds that bind neuraminidase and are asserted to exhibited
antiviral activity in vivo.
OBJECTS OF THE INVENTION
[0007] A principal object of the invention is inhibition of
glycolytic enzymes such as neuraminidase, in particular the
selective inhibition of viral or bacterial neuraminidases.
[0008] An additional object of the invention is to provide
neuraminidase inhibitors that have a retarded rate of urinary
excretion, that enter into nasal or pulmonary secretions from the
systemic circulation, that have sufficient oral bioavailability to
be therapeutically effective, that possess elevated potency, that
exhibit clinically acceptable toxicity profiles and have other
desirable pharmacologic properties.
[0009] Another object is to provide improved and less costly
methods for synthesis of neuraminidase inhibitors.
[0010] A still further object is to provide improved methods for
administration of known and novel neuraminidase inhibitors.
[0011] An additional object is to provide compositions useful in
preparing polymers, surfactants or immunogens and for use in other
industrial processes and articles
[0012] These and other objects will be readily apparent to the
ordinary artisan from consideration of the invention as a
whole.
SUMMARY OF THE INVENTION
[0013] In accordance with the objects of this invention, compounds,
or compositions having formula (I) or (II) are provided herein:
1
[0014] wherein
[0015] A.sub.1 is --C(J.sub.1).dbd., or --N.dbd.;
[0016] A.sub.2 is --C(J.sub.1).sub.2--, --N(J.sub.1)--,
--N(O)(J.sub.1)--, --N(O).dbd., --S--, --S(O)--, --S(O).sub.2-- or
--O--;
[0017] E.sub.1 is --(CR.sub.1R.sub.1).sub.m1W.sub.1;
[0018] G.sub.1 is N.sub.3, --CN, --OH, --OR.sub.6a, --NO.sub.2, or
--(CR.sub.1R.sub.1).sub.m1W.sub.2;
[0019] T.sub.1 is --NR.sub.1W.sub.3, a heterocycle, or is taken
together with U.sub.1 or G.sub.1 to form a group having the
structure 2
[0020] U.sub.1 is H or --X.sub.1W.sub.6;
[0021] J.sub.1 and J.sub.1a are independently R.sub.1, Br, Cl, F,
I, CN, NO.sub.2 or N.sub.3;
[0022] J.sub.2 and J.sub.2a are independently H or R.sub.1;
[0023] R.sub.1 is independently H or alkyl of 1 to 12 carbon
atoms;
[0024] R.sub.2 is independently R.sub.3 or R.sub.4 wherein each
R.sub.4 is independently substituted with 0 to 3 R.sub.3
groups;
[0025] R.sub.3 is independently F, Cl, Br, I, --CN, N.sub.3,
--NO.sub.2, --OR.sub.6a, --OR.sub.1, --N(R.sub.1).sub.2,
--N(R.sub.1)(R.sub.6b), --N(R.sub.6b).sub.2, --SR.sub.1,
--SR.sub.6a, --S(O)R.sub.1, --S(O).sub.2R.sub.1, --S(O)OR.sub.1,
--S(O)OR.sub.6a, --S(O).sub.2OR.sub.1, S(O).sub.2OR.sub.6a,
--C(O)OR.sub.1, --C(O)R.sub.6c, --C(O)OR.sub.6a, --OC(O)R.sub.1,
--N(R.sub.1)(C(O)R.sub.1- ), --N(R.sub.6b)(C(O)R.sub.1),
--N(R.sub.1)(C(O)OR.sub.1), --N(R.sub.6b)(C(O)OR.sub.1),
--C(O)N(R.sub.1).sub.2, --C(O)N(R.sub.6b)(R.sub.1),
--C(O)N(R.sub.6b).sub.2, --C(NR.sub.1)(N(R.sub.1).sub.2),
--C(N(R.sub.6b))(N(R.sub.1).sub.2),
--C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--C(N(R.sub.6b))(N(R.sub.1)(R.sub.- 6b)),
--C(N(R.sub.1))(N(R.sub.6b).sub.2),
--C(N(R.sub.6b))(N(R.sub.6b).sub- .2),
--N(R.sub.1)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.1)C(N(R.sub.1)- )(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))- (N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.1- ))(N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.6b).sub.2),
--N(R.sub.1)C(N(R.sub.6b))- (N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.6b).sub.2), .dbd.O, .dbd.S,
.dbd.N(R.sub.1) or .dbd.N(R.sub.6b);
[0026] R.sub.4 is independently alkyl of 1 to 12 carbon atoms,
alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon
atoms;
[0027] R.sub.5 is independently R.sub.4 wherein each R.sub.4 is
substituted with 0 to 3 R.sub.3 groups;
[0028] R.sub.5a is independently alkylene of 1 to 12 carbon atoms,
alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon
atoms any one of which alkylene, alkenylene or alkynylene is
substituted with 0-3 R.sub.3 groups;
[0029] R.sub.6a is independently H or a protecting group for
hydroxyl or thio;
[0030] R.sub.6b is independently H, a protecting group for amino or
the residue of a carboxyl-containing compound;
[0031] R.sub.6c is independently H or the residue of an
amino-containing compound;
[0032] W.sub.1 is a group comprising an acidic hydrogen, a
protected acidic group, or an R.sub.6c amide of the group
comprising an acidic hydrogen;
[0033] W.sub.2 is a group comprising a basic heteroatom or a
protected basic heteroatom, or an R.sub.6b amide of the basic
heteroatom;
[0034] W.sub.3 is W.sub.4 or W.sub.5;
[0035] W.sub.4 is R.sub.5 or --C(O)R.sub.5, --C(O)W.sub.5,
--SO.sub.2R.sub.5, or --SO.sub.2W.sub.5;
[0036] W.sub.5 is carbocycle or heterocycle wherein W.sub.5 is
independently substituted with 0 to 3 R.sub.2 groups;
[0037] W.sub.6 is --R.sub.5, --W.sub.5, --R.sub.5aW.sub.5,
--C(O)OR.sub.6a, --C(O)R.sub.6c, --C(O)N(R.sub.6b).sub.2,
--C(NR.sub.6b)(N(R.sub.6b).sub.2), --C(NR.sub.6b)(N(H)(R.sub.6b)),
--C(N(H)(N(R.sub.6b).sub.2), --C(S)N(R.sub.6b).sub.2, or
--C(O)R.sub.2;
[0038] X.sub.1 is a bond, --O--, --N(H)--, --N(R.sub.5)--,
--N(OH)--, --N(OR.sub.5)--, --N(NH.sub.2)--, --N(N(H)(R.sub.5))--,
--N(N(R.sub.5).sub.2)--, --N(H)N(R.sub.5)--, --S--, --SO--, or
--SO.sub.2--; and
[0039] each m.sub.1 is independently an integer from 0 to 2;
[0040] provided, however, that compounds are excluded wherein:
[0041] (a) A.sub.1 is --CH.dbd. or --N.dbd. and A.sub.2 is
--CH.sub.2--;
[0042] (b) E.sub.1 is COOH, P(O)(OH).sub.2, SOOH, SO.sub.3H, or
tetrazol;
[0043] (c) G.sub.1 is CN, N(H)R.sub.20, N.sub.3, SR.sub.20,
OR.sub.20, guanidino, 3
[0044] (d) T.sub.1 is --NHR.sub.20;
[0045] (e) R.sub.20 is H; an acyl group having 1 to 4 carbon atoms;
a linear or cyclic alkyl group having 1 to 6 carbon atoms, or a
halogen-substituted analogue thereof; an allyl group or an
unsubstituted aryl group or an aryl substituted by a halogen, an OH
group, an NO.sub.2 group, an NH.sub.2 group or a COOH group;
[0046] (f) J.sub.1 is H and J.sub.1a is H, F Cl, Br or CN;
[0047] (g) J.sub.2 is H and J.sub.2a is H, CN or N.sub.3;
[0048] (h) U.sub.1 is CH.sub.2YR.sub.20a,
CHYR.sub.20aCH.sub.2YR.sub.20a or
CHYR.sub.20aCHYR.sub.20aCH.sub.2YR.sub.20a;
[0049] (i) R.sub.20a is H or acyl having 1 to 4 carbon atoms;
[0050] (j) Y is O, S, H or NH;
[0051] (k) 0 to 2 YR.sub.20a are H, and
[0052] (l) successive Y moieties in a U.sub.1 group are the same or
different, and when Y is H then R.sub.20a is a covalent bond,
[0053] and the pharmaceutically acceptable salts and solvates
thereof;
[0054] and the salts, solvates, resolved enantiomers and purified
diastereomers thereof.
[0055] Another embodiment of the invention is directed to compounds
of the formula: 4
[0056] wherein
[0057] E.sub.1 is --(CR.sub.1R.sub.1).sub.m1W.sub.1;
[0058] G.sub.1 is N.sub.3, --CN, --OH, --OR.sub.6a, --NO.sub.2, or
--(CR.sub.1R.sub.1).sub.m1W.sub.2;
[0059] T.sub.1 is --NR.sub.1W.sub.3, a heterocycle, or is taken
together with U.sub.1 or G.sub.1 to form a group having the
structure 5
[0060] U.sub.1 is H or --X.sub.1W.sub.6 and, if --X.sub.1W.sub.6,
then U.sub.1 is a branched chain;
[0061] J.sub.1 and J.sub.1a are independently R.sub.1, Br, Cl, F,
I, CN, NO.sub.2 or N.sub.3;
[0062] J.sub.2 and J.sub.2a are independently H or R.sub.1;
[0063] R.sub.1 is independently H or alkyl of 1 to 12 carbon
atoms;
[0064] R.sub.2 is independently R.sub.3 or R.sub.4 wherein each
R.sub.4 is independently substituted with 0 to 3 R.sub.3
groups;
[0065] R.sub.3 is independently F, Cl, Br, I, --CN, N.sub.3,
--NO.sub.2, --OR.sub.6a, --OR.sub.1, --N(R.sub.1).sub.2,
--N(R.sub.1)(R.sub.6b), --N(R.sub.6b).sub.2, --SR.sub.1,
--SR.sub.6a, --S(O)R.sub.1, --S(O).sub.2R.sub.1, --S(O)OR.sub.1,
--S(O)OR.sub.6a, --S(O).sub.2OR.sub.1, --S(O).sub.2OR.sub.6a,
--C(O)OR.sub.1, --C(O)R.sub.6c, --C(O)OR.sub.6a, --OC(O)R.sub.1,
--N(R.sub.1)(C(O)R.sub.1- ), --N(R.sub.6b)(C(O)R.sub.1),
--N(R.sub.1)(C(O)OR.sub.1), --N(R.sub.6b)(C(O)OR.sub.1),
--C(O)N(R.sub.1).sub.2, --C(O)N(R.sub.6b)(R.sub.1),
--C(O)N(R.sub.6b).sub.2, --C(NR.sub.1)(N(R.sub.1).sub.2),
--C(N(R.sub.6b))(N(R.sub.1).sub.2),
--C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--C(N(R.sub.6b))(N(R.sub.1)(R.sub.- 6b)),
--C(N(R.sub.1))(N(R.sub.6b).sub.2),
--C(N(R.sub.6b))(N(R.sub.6b).sub- .2),
--N(R.sub.1)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.1)C(N(R.sub.1)- )(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))- (N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.1- ))(N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.6b).sub.2),
--N(R.sub.1)C(N(R.sub.6b))- (N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.6b).sub.2), .dbd.O, .dbd.S,
.dbd.N(R.sub.1) or .dbd.N(R.sub.6b);
[0066] R.sub.4 is independently alkyl of 1 to 12 carbon atoms,
alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon
atoms;
[0067] R.sub.5 is independently R.sub.4 wherein each R.sub.4 is
substituted with 0 to 3 R.sub.3 groups;
[0068] R.sub.5a is independently alkylene of 1 to 12 carbon atoms,
alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon
atoms which is substituted with 0-3 R.sub.3 groups;
[0069] R.sub.6a is independently H or a protecting group for
hydroxyl or thio;
[0070] R.sub.6b is independently H, a protecting group for amino or
the residue of a carboxyl-containing compound;
[0071] R.sub.6c is independently H or the residue of an
amino-containing compound;
[0072] W.sub.1 is a group comprising an acidic hydrogen, a
protected acidic group, or an R.sub.6c amide of the group
comprising an acidic hydrogen;
[0073] W.sub.2 is a group comprising a basic heteroatom or a
protected basic heteroatom, or an R.sub.6b amide of the basic
heteroatom;
[0074] W.sub.3 is W.sub.4 or W.sub.5;
[0075] W.sub.4 is R.sub.5 or --C(O)R.sub.5, --C(O)W.sub.5,
--SO.sub.2R.sub.5, or --SO.sub.2W.sub.5;
[0076] W.sub.5 is carbocycle or heterocycle wherein W.sub.5 is
independently substituted with 0 to 3 R.sub.2 groups;
[0077] W.sub.6 is --R.sub.5, --W.sub.5, --R.sub.5aW.sub.5,
--C(O)OR.sub.6a, --C(O)R.sub.6c, --C(O)N(R.sub.6b).sub.2,
--C(NR.sub.6b)(N(R.sub.6b).sub.2), --C(S)N(R.sub.6b).sub.2, or
--C(O)R.sub.2;
[0078] X.sub.1 is a bond, --O--, --N(H)--, --N(R.sub.5)--,
--N(OH)--, --N(OR.sub.5)--, --N(NH.sub.2)--, --N(N(H)(R.sub.5))--,
--N(N(R.sub.5).sub.2)--, --N(H)N(R.sub.5)--, --S--, --SO--, or
--SO.sub.2--; and
[0079] each m.sub.1 is independently an integer from 0 to 2;
[0080] and the salts, solvates, resolved enantiomers and purified
diastereomers
[0081] Another embodiment of the invention is directed to compounds
of the formula: 6
[0082] wherein
[0083] E.sub.1 is --(CR.sub.1R.sub.1).sub.m1W.sub.1;
[0084] G.sub.1 is N.sub.3, --CN, --OH, --OR.sub.6a, --NO.sub.2, or
--(CR.sub.1R.sub.1).sub.m1W.sub.2;
[0085] T.sub.1 is --NR.sub.1W.sub.3, a heterocycle, or is taken
together with U.sub.1 or G.sub.1 to form a group having the
structure 7
[0086] U.sub.1 is H or --X.sub.1W.sub.6;
[0087] J.sub.1 and J.sub.1a are independently R.sub.1, Br, Cl, F,
I, CN, NO.sub.2 or N.sub.3;
[0088] J.sub.2 and J.sub.2a are independently H or R.sub.1;
[0089] R.sub.1 is independently H or alkyl of 1 to 12 carbon
atoms;
[0090] R.sub.2 is independently R.sub.3 or R.sub.4 wherein each
R.sub.4 is independently substituted with 0 to 3 R.sub.3
groups;
[0091] R.sub.3 is independently F, Cl, Br, I, --CN, N.sub.3,
--NO.sub.2, --OR.sub.6a, --OR.sub.1, --N(R.sub.1).sub.2,
--N(R.sub.1)(R.sub.6b), --N(R.sub.6b).sub.2, --SR.sub.1,
--SR.sub.6a, --S(O)R.sub.1, --S(O).sub.2R.sub.1, --S(O)OR.sub.1,
--S(O)OR.sub.6a, --S(O).sub.2OR.sub.1, --S(O).sub.2OR.sub.6a,
--C(O)OR.sub.1, --C(O)R.sub.6c, --C(O)OR.sub.6a, --OC(O)R.sub.1,
--N(R.sub.1)(C(O)R.sub.1- ), --N(R.sub.6b)(C(O)R.sub.1),
--N(R.sub.1)(C(O)OR.sub.1), --N(R.sub.6b)(C(O)OR.sub.1),
--C(O)N(R.sub.1).sub.2, --C(O)N(R.sub.6b)(R.sub.1),
--C(O)N(R.sub.6b).sub.2, --C(NR.sub.1)(N(R.sub.1).sub.2),
--C(N(R.sub.6b))(N(R.sub.1).sub.2),
--C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--C(N(R.sub.6b))(N(R.sub.1)(R.sub.- 6b)),
--C(N(R.sub.1))(N(R.sub.6b).sub.2),
--C(N(R.sub.6b))(N(R.sub.6b).sub- .2),
--N(R.sub.1)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.1)C(N(R.sub.1)- )(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))- (N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.1- ))(N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.6b).sub.2),
--N(R.sub.1)C(N(R.sub.6b))- (N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.6b).sub.2), .dbd.O, .dbd.S,
.dbd.N(R.sub.1) or .dbd.N(R.sub.6b);
[0092] R.sub.4 is independently alkyl of 1 to 12 carbon atoms,
alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon
atoms;
[0093] R.sub.5 is independently R.sub.4 wherein each R.sub.4 is
substituted with 0 to 3 R.sub.3 groups;
[0094] R.sub.5a is independently alkylene of 1 to 12 carbon atoms,
alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon
atoms which is substituted with 0-3 R.sub.3 groups;
[0095] R.sub.6a is independently H or a protecting group for
hydroxyl or thio;
[0096] R.sub.6b is independently H, a protecting group for amino or
the residue of a carboxyl-containing compound;
[0097] R.sub.6c is independently H or the residue of an
amino-containing compound;
[0098] W.sub.1 is a group comprising an acidic hydrogen, a
protected acidic group, or an R.sub.6c amide of the group
comprising an acidic hydrogen;
[0099] W.sub.2 is a group comprising a basic heteroatom or a
protected basic heteroatom, or an R.sub.6b amide of the basic
heteroatom;
[0100] W.sub.3 is W.sub.4 or W.sub.5;
[0101] W.sub.4 is R.sub.5 or --C(O)R.sub.5, --C(O)W.sub.5,
--SO.sub.2R.sub.5, or --SO.sub.2W.sub.5;
[0102] W.sub.5 is carbocycle or heterocycle wherein W.sub.5 is
independently substituted with 0 to 3 R.sub.2 groups;
[0103] W.sub.6 is --R.sub.5, --W.sub.5, --R.sub.5aW.sub.5,
--C(O)OR.sub.6a, --C(O)R.sub.6c, --C(O)N(R.sub.6b).sub.2,
--C(NR.sub.6b)(N(R.sub.6b).sub.2), --C(S)N(R.sub.6b).sub.2, or
--C(O)R.sub.2;
[0104] X.sub.1 is --O--, --N(H)--, --N(R.sub.5)--, --N(OH)--,
--N(OR.sub.5)--, --N(NH.sub.2)--, --N(N(H)(R.sub.5))--,
--N(N(R.sub.5).sub.2)--, --N(H)N(R.sub.5)--, --S--, --SO--, or
--SO.sub.2--; and
[0105] each m.sub.1 is independently an integer from 0 to 2;
[0106] and the salts, solvates, resolved enantiomers and purified
diastereomers thereof.
[0107] Another embodiment of the invention is directed to compounds
of the formula: 8
[0108] wherein:
[0109] E.sub.1 is --CO.sub.2R.sub.1;
[0110] G.sub.1 is --NH.sub.2, --N(H)(R.sub.5) or
--N(H)(C(N(H))(NH.sub.2))- ;
[0111] T.sub.1 is --N(H)(C(O)CH.sub.3);
[0112] U.sub.1 is --OR.sub.60;
[0113] R.sub.1 is H or an alkyl of 1, 2, 3, 4, 5, 6, 7, 8, 9, 10,
11, or 12 carbon atoms; and
[0114] R.sub.60 is a branched alkyl of 3, 4, 5, 6, 7, 8, 9, 10, 11,
or 12 carbon atoms;
[0115] and the salts, solvates, resolved enantiomers and purified
diastereomers thereof.
[0116] In another embodiment of the invention a compound or
composition of the invention is provided that further comprises a
pharmaceutically-acceptable carrier.
[0117] In another embodiment of the invention the activity of
neuraminidase is inhibited by a method comprising the step of
treating a sample suspected of containing neuraminidase with a
compound or composition of the invention.
[0118] Another embodiment of the invention provides a method for
inhibiting the activity of neuraminidase comprising the step of
contacting a sample suspected of containing neuraminidase with the
composition embodiments of the invention.
[0119] Another embodiment of this invention is a method for the
treatment or prophylaxis of influenza virus infection in a host
comprising administration to the host, by a route other than
topically to the respiratory tract, of a therapeutically effective
dose of an antivirally active compound described in WO 91/16320, WO
92/06691 or U.S. Pat. No. 5,360,817.
[0120] In other embodiments, novel methods for synthesis of the
compounds of this invention are provided. In one such embodiment, a
method is provided for using a compound of the formula: 9
[0121] wherein the method comprises treating compound 281 with a
compound of the formula:
R.sub.5--X.sub.1--H
[0122] to form a compound of the formula: 10
[0123] wherein:
[0124] X.sub.1 and R.sub.5 are as described above;
[0125] R.sub.51 is an acid stable protecting group for a carboxylic
acid; and
[0126] R.sub.54 aziridine activating group.
[0127] In another embodiment, a method is provided for using a
compound of the formula: 11
[0128] wherein the method comprises treating Quinic acid with a
geminal dialkoxyalkane or geminal dialkoxy cycloalkane and acid to
form a compound of the formula: 12
[0129] treating compound 274 with a metal alkoxide and an alkanol
to form a compound of the formula: 13
[0130] treating compound 275 with a sulfonic acid halide and an
amine to form a compound of the formula: 14
[0131] treating compound 276 with a dehydrating agent followed by
an acid and an alkanol to form a compound of the formula: 15
[0132] wherein:
[0133] R.sub.50 is a 1,2 diol protecting group;
[0134] R.sub.51 is an acid stable carboxylic acid protecting group;
and
[0135] R.sub.52 is a hydroxy activating group.
BRIEF DESCRIPTION OF THE DRAWINGS
[0136] FIGS. 1 and 2 depict the arterial oxygen saturation
(SaO.sub.2) levels of influenza-A infected mice treated with
varying i.p. doses of GG167
(4-guanidino-2,4-dideoxy-2,3-dehydro-N-acetylneuraminic acid), a
known anti-influenza compound (FIG. 1) and compound 203 of this
invention (FIG. 2): 50, 10, 2 and 0.5 mpk (mg/kg/day) of test
compounds and saline control are designated, respectively, by
squares, solid circles, triangles, diamonds and open circles. In
all Figures, *P<0.05, **P<0.01 compared to the saline
controls.
[0137] FIGS. 3-5 compare the SaO.sub.2 levels achieved in influenza
A infected mice treated with p.o. doses of ribavirin (triangles),
compound 203 (squares) and GG167 (solid circles); saline controls
are open circles: FIG. 3: 150 mpk of each of compound 203 and
GG167, 100 mpk ribavirin; FIG. 4: 50 mpk of each of compound 203
and GG167, 32 mpk of ribavirin; FIG. 5: 10 mpk of each of compound
203 and GG167, 10 mpk of ribavirin.
[0138] FIGS. 6-8 depict the SaO.sub.2 levels in influenza A
infected mice treated with low p.o. doses of compounds 262
(circles) and 260 (solid squares) and GG167 (triangles); saline
controls are open circles and uninfected controls are open squares:
FIG. 6: mpk of each of the test compounds; FIG. 7: 1 mpk of each
test compound; FIG. 8: 0.1 mpk of each test compound.
DETAILED DESCRIPTION
Compositions of the Invention
[0139] The compounds of this invention exclude compounds heretofore
known. However, as will be further apparent below in other
embodiments it is within the invention to use for antiviral
purposes known compounds heretofore only produced and used as
intermediates in the preparation of antiviral compounds. With
respect to the United States, the compounds or compositions herein
exclude compounds that are anticipated under 35 USC .sctn.102 or
obvious under 35 USC .sctn.103. In particular, the claims herein
shall be construed as excluding the compounds which are anticipated
by or not possessing novelty over WO 91/16320, WO 92/06691, U.S.
Pat. No. 5,360,817 or Chandler, M.; et al.; J. Chem. Soc. Perkin
Trans. 1, 1995, 1189-1197.
[0140] The foregoing notwithstanding, in an embodiment of the
invention one identifies compounds that may fall within the generic
scope of WO 91/16320, WO 92/06691, or U.S. Pat. No. 5,360,817 but
which have (a) formula Ia of the '320 application, (b) carbon for
group "A" in the '320 application, and (c) R.sup.5 of the '320 and
'691 applications being "--CH.sub.2YR.sup.6,
--CHYR.sup.6CH.sub.2YR.sup.6 or
--CHYR.sup.6CHYR.sup.6CH.sub.2YR.sup.6" where YR.sup.6 cannot be
either OH or protected OH in which the protecting group is capable
of hydrolysis to yield the free OH under conditions of the human
gastrointestinal tract, i.e. the compounds are stable to hydrolysis
in the gastrointestinal tract. Thus, typically excluded from this
embodiment are compounds of the '320 or '691 applications where
R.sup.5 therein is acetyl or other carbacyl having 1-4 carbon
atoms.
[0141] Recipes and methods for determining stability of compounds
in surrogate gastrointestinal secretions are known. Compounds are
defined herein as stable in the gastrointestinal tract where less
than about 50 mole percent of the protected groups are deprotected
in surrogate intestinal or gastric juice upon incubation for 1 hour
at 37.degree. C. Such compounds are suitable for use in this
embodiment. Note that simply because the compounds are stable to
the gastrointestinal tract does not mean that they cannot be
hydroyzed in vivo. Prodrugs typically will be stable in the
digestive system but are substantially hydroyzed to the parental
drug in the digestive lunem, liver or other metabolic organ, or
within cells in general.
[0142] It should be understood, however, that other embodiments of
this invention more fully described below contemplate the use of
compounds that are in fact specifically disclosed in WO 91/16320,
WO 92/06691, or U.S. Pat. No. 5,360,817, including those in which
YR.sup.6 is free hydroxyl, or hydroxyl protected by a readily
hydrolyzable group such as acetyl. In this instance, however, the
compounds are delivered by novel routes of administration.
[0143] In another embodiment, the compounds herein exclude those in
which
[0144] (a) E.sub.1 is --CO.sub.2H, --P(O)(OH).sub.2, --NO.sub.2,
--SO.sub.2H, --SO.sub.3H, tetrazolyl, --CH.sub.2CHO, --CHO, or
--CH(CHO).sub.2;
[0145] (b) G.sub.1 is --CN, N.sub.3, --NHR.sub.20, NR.sub.20,
--OR.sub.20, guanidino, SR.sub.20, --N(R.sub.20).fwdarw.O,
--N(R.sub.20)(OR.sub.20), --N(H)(R.sub.20)N(R.sub.20).sub.2,
unsubstituted pyrimidinyl, or unsubstituted
(pyrimidinyl)methyl;
[0146] (c) T.sub.1 is --NHR.sub.20, --NO.sub.2; and R.sub.20 is H;
an acyl group having 1 to 4 carbon atoms; a linear or cyclic alkyl
group having 1 to 6 carbon atoms, or a halogen-substituted analogue
thereof; an allyl group or an unsubstituted aryl group or an aryl
substituted by a halogen, an OH group, an NO.sub.2 group, an
NH.sub.2 group or a COOH group;
[0147] (d) each J.sub.1 is H; and
[0148] (e) X.sub.1 is a bond, --CH.sub.2-- or
--CH.sub.2CH.sub.2--;
[0149] in which case W.sub.6 is not H, W.sub.7 or --CH.sub.2W.sub.7
wherein W.sub.7 is H, --OR.sub.6a, --OR.sub.1, --N(R.sub.1).sub.2,
--N(R.sub.1)(R.sub.6b), --N(R.sub.6b).sub.2, --SR.sub.1, or
--SR.sub.6a.
[0150] In a further embodiment, the compounds of this invention are
those in which U.sub.1 is not --CH.sub.2OH, --CH.sub.2OAc, or
--CH.sub.2OCH.sub.2Ph.
[0151] In a further embodiment, the compounds of this invention are
those in which E.sub.1 is not --CH.sub.2OH, --CH.sub.2OTMS, or
--CHO.
[0152] In a further embodiment, the compounds of this invention are
those in which U.sub.1 is not bonded directly to the nuclear ring
by a carbon atom or U.sub.1 is not substituted with hydroxyl or
hydroxyester, in particular U.sub.1 is not polyhydroxyalkane,
especially --CH(OH)CH(OH)CH.sub.2OH. In a further embodiment,
U.sub.1 is a branched chain group R.sub.5 as described below or a
carbocycle which is substituted with at least one group
R.sub.5.
[0153] In a further embodiments, excluded from the invention are
compounds of the formula: 16
[0154] wherein:
[0155] 1. In formula (V):
[0156] A.sub.2 is --O-- or --CH.sub.2--;
[0157] E.sub.1 is --CO.sub.2H;
[0158] G.sub.1 is --N(H)(C(NH)(NH.sub.2));
[0159] T.sub.1 is --N(H)(Ac); and
[0160] U.sub.1 is of the formula: 17
[0161] 2. In formula (V):
[0162] A.sub.2 is --O-- or --CH.sub.2--;
[0163] E.sub.1 is --CO.sub.2H;
[0164] G.sub.1 is --NH.sub.2;
[0165] T.sub.1 is --N(H)(Ac); and
[0166] U.sub.1 is --CH.sub.2OH;
[0167] 3. In formula (V):
[0168] A.sub.2--CH.sub.2--;
[0169] E.sub.1 is --CH.sub.2OH or --CH.sub.2OTMS;
[0170] G.sub.1 is --N.sub.3;
[0171] T.sub.1 is --N(H)(Ac); and
[0172] U.sub.1 is --CH.sub.2OCH.sub.2Ph;
[0173] 4. In formula (V):
[0174] A.sub.2--CH.sub.2--;
[0175] E.sub.1 is --CO.sub.2H or --CO.sub.2CH.sub.3;
[0176] G.sub.1 is --N.sub.3;
[0177] T.sub.1 is --N(H)(Ac); and
[0178] U.sub.1 is --CH.sub.2OH;
[0179] 5. In formula (V):
[0180] A.sub.2--CH.sub.2--;
[0181] E.sub.1 is --CO.sub.2H, --CHO, or --CH.sub.2OH;
[0182] G.sub.1 is --N.sub.3;
[0183] T.sub.1 is --N(H)(Ac); and
[0184] U.sub.1 is --CH.sub.2OCH.sub.2Ph;
[0185] 6. In formula (VI):
[0186] A.sub.2--CH.sub.2--;
[0187] E.sub.1 is --CO.sub.2H;
[0188] G.sub.1 is --OCH.sub.3;
[0189] T.sub.1 is --NH.sub.2; and
[0190] U.sub.1 is --CH.sub.2OH; and
[0191] 7. In formula (VI):
[0192] A.sub.2--CH.sub.2--;
[0193] E.sub.1 is --CO.sub.2H;
[0194] G.sub.1 is --OCH.sub.3;
[0195] T.sub.1 is --N(H)(Ac); and
[0196] U.sub.1 is --CH.sub.2OAc.
[0197] Whenever a compound described herein is substituted with
more than one of the same designated group, e.g., "R.sub.1" or
"R.sub.6a", then it will be understood that the groups may be the
same or different, i.e., each group is independently selected.
[0198] "Heterocycle" as used herein includes by way of example and
not limitation these heterocycles described in Paquette, Leo A.;
"Principles of Modern Heterocyclic Chemistry" (W. A. Benjamin, New
York, 1968), particularly Chapters 1, 3, 4, 6, 7, and 9; "The
Chemistry of Heterocyclic Compounds, A series of Monographs" (John
Wiley & Sons, New York, 1950 to present), in particular Volumes
13, 14, 16, 19, and 28; and "J. Am. Chem. Soc.", 82:5566
(1960).
[0199] Examples of heterocycles include by way of example and not
limitation pyridyl, thiazolyl, tetrahydrothiophenyl, sulfur
oxidized tetrahydrothiophenyl, pyrimidinyl, furanyl, thienyl,
pyrrolyl, pyrazolyl, imidazolyl, tetrazolyl, benzofuranyl,
thianaphthalenyl, indolyl, indolenyl, quinolinyl, isoquinolinyl,
benzimidazolyl, piperidinyl, 4-piperidonyl, pyrrolidinyl,
2-pyrrolidonyl, pyrrolinyl, tetrahydrofuranyl,
tetrahydroquinolinyl, tetrahydroisoquinolinyl, decahydroquinolinyl,
octahydroisoquinolinyl, azocinyl, triazinyl, 6H-1,2,5-thiadiazinyl,
2H,6H-1,5,2-dithiazinyl, thienyl, thianthrenyl, pyranyl,
isobenzofuranyl, chromenyl, xanthenyl, phenoxathiinyl, 2H-pyrrolyl,
isothiazolyl, isoxazolyl, pyrazinyl, pyridazinyl, indolizinyl,
isoindolyl, 3H-indolyl, 1H-indazoly, purinyl, 4H-quinolizinyl,
phthalazinyl, naphthyridinyl, quinoxalinyl, quinazolinyl,
cinnolinyl, pteridinyl, 4aH-carbazolyl, carbazolyl,
.beta.-carbolinyl, phenanthridinyl, acridinyl, pyrimidinyl,
phenanthrolinyl, phenazinyl, phenothiazinyl, furazanyl,
phenoxazinyl, isochromanyl, chromanyl, imidazolidinyl,
imidazolinyl, pyrazolidinyl, pyrazolinyl, piperazinyl, indolinyl,
isoindolinyl, quinuclidinyl, morpholinyl, oxazolidinyl,
benzotriazolyl, benzisoxazolyl, oxindolyl, benzoxazolinyl, and
isatinoyl.
[0200] By way of example and not limitation, carbon bonded
heterocycles are bonded at position 2, 3, 4, 5, or 6 of a pyridine,
position 3, 4, 5, or 6 of a pyridazine, position 2, 4, 5, or 6 of a
pyrimidine, position 2, 3, 5, or 6 of a pyrazine, position 2, 3, 4,
or 5 of a furan, tetrahydrofuran, thiofuran, thiophene, pyrrole or
tetrahydropyrrole, position 2, 4, or 5 of an oxazole, imidazole or
thiazole, position 3, 4, or 5 of an isoxazole, pyrazole, or
isothiazole, position 2 or 3 of an aziridine, position 2, 3, or 4
of an azetidine, position 2, 3, 4, 5, 6, 7, or 8 of a quinoline or
position 1, 3, 4, 5, 6, 7, or 8 of an isoquinoline. Still more
typically, carbon bonded heterocycles include 2-pyridyl, 3-pyridyl,
4-pyridyl, 5-pyridyl, 6-pyridyl, 3-pyridazinyl, 4-pyridazinyl,
5-pyridazinyl, 6-pyridazinyl, 2-pyrimidinyl, 4-pyrimidinyl,
5-pyrimidinyl, 6-pyrimidinyl, 2-pyrazinyl, 3-pyrazinyl,
5-pyrazinyl, 6-pyrazinyl, 2-thiazolyl, 4-thiazolyl, or
5-thiazolyl.
[0201] By way of example and not limitation, nitrogen bonded
heterocycles are bonded at position 1 of an aziridine, azetidine,
pyrrole, pyrrolidine, 2-pyrroline, 3-pyrroline, imidazole,
imidazolidine, 2-imidazoline, 3-imidazoline, pyrazole, pyrazoline,
2-pyrazoline, 3-pyrazoline, piperidine, piperazine, indole,
indoline, 1H-indazole, position 2 of a isoindole, or isoindoline,
position 4 of a morpholine, and position 9 of a carbazole, or
.beta.-carboline. Still more typically, nitrogen bonded
heterocycles include 1-aziridyl, 1-azetedyl, 1-pyrrolyl,
1-imidazolyl, 1-pyrazolyl, and 1-piperidinyl.
[0202] "Alkyl" as used herein, unless stated to the contrary, is
C.sub.1-C.sub.12 hydrocarbon containing normal, secondary, tertiary
or cyclic carbon atoms. Examples are methyl (Me, --CH.sub.3), ethyl
(Et, --CH.sub.2CH.sub.3), 1-propyl (n-Pr, n-propyl,
--CH.sub.2CH.sub.2CH.sub.3- ), 2-propyl (i-Pr, i-propyl,
--CH(CH.sub.3).sub.2), 1-butyl (n-Bu, n-butyl,
--CH.sub.2CH.sub.2CH.sub.2CH.sub.3), 2-methyl-1-propyl (i-Bu,
i-butyl, --CH.sub.2CH(CH.sub.3).sub.2), 2-butyl (s-Bu, s-butyl,
--CH(CH.sub.3)CH.sub.2CH.sub.3), 2-methyl-2-propyl (t-Bu, t-butyl,
--C(CH.sub.3).sub.3), 1-pentyl (n-pentyl,
--CH.sub.2CH.sub.2CH.sub.2CH.su- b.2CH.sub.3), 2-pentyl
(--CH(CH.sub.3)CH.sub.2CH.sub.2CH.sub.3), 3-pentyl
(--CH(CH.sub.2CH.sub.3).sub.2), 2-methyl-2-butyl
(--C(CH.sub.3).sub.2CH.s- ub.2CH.sub.3), 3-methyl-2-butyl
(--CH(CH.sub.3)CH(CH.sub.3).sub.2), 3-methyl-1-butyl
(--CH.sub.2CH.sub.2CH(CH.sub.3).sub.2), 2-methyl-1-butyl
(--CH.sub.2CH(CH.sub.3)CH.sub.2CH.sub.3), 1-hexyl
(--CH.sub.2CH.sub.2CH.s- ub.2CH.sub.2CH.sub.2CH.sub.3), 2-hexyl
(--CH(CH.sub.3)CH.sub.2CH.sub.2CH.s- ub.2CH.sub.3), 3-hexyl
(--CH(CH.sub.2CH.sub.3)(CH.sub.2CH.sub.2CH.sub.3)),
2-methyl-2-pentyl (--C(CH.sub.3).sub.2CH.sub.2CH.sub.2CH.sub.3),
3-methyl-2-pentyl (--CH(CH.sub.3)CH(CH.sub.3)CH.sub.2CH.sub.3),
4-methyl-2-pentyl (--CH(CH.sub.3)CH.sub.2CH(CH.sub.3).sub.2),
3-methyl-3-pentyl (--C(CH.sub.3)(CH.sub.2CH.sub.3).sub.2),
2-methyl-3-pentyl (--CH(CH.sub.2CH.sub.3)CH(CH.sub.3).sub.2),
2,3-dimethyl-2-butyl (--C(CH.sub.3).sub.2CH(CH.sub.3).sub.2),
3,3-dimethyl-2-butyl (--CH(CH.sub.3)C(CH.sub.3).sub.3). Examples of
alkyl groups appear in Table 2 as groups 2-5, 7, 9, and
100-399.
[0203] The compositions of the invention comprise compounds of
either formula: 18
[0204] In the typical embodiment, the compounds of Formula I are
chosen.
[0205] J.sub.1 and J.sub.1a are independently R.sub.1, Br, Cl, F,
I, CN, NO.sub.2 or N.sub.3, typically R.sub.1 or F, more typically
H or F, more typically yet H.
[0206] J.sub.2 and J.sub.2a are independently H or R.sub.1,
typically H.
[0207] A.sub.1 is --C(J.sub.1).dbd., or --N.dbd., typically
--C(J.sub.1).dbd., more typically --CH.dbd..
[0208] A.sub.2 is --C(J.sub.1).sub.2--, --N(J.sub.1)--,
--N(O)(J.sub.1)--, --N(O).dbd., --S--, --S(O)--, --S(O).sub.2-- or
--O--, typically --C(J.sub.1).sub.2--, --N(J.sub.1)--, --S--, or
--O--, more typically --C(J.sub.1).sub.2--, or --O--, more
typically yet --CH.sub.2-- or --O--, still more typically
--CH.sub.2--.
[0209] E.sub.1 is --(CR.sub.1R.sub.1).sub.m1W.sub.1.
[0210] Typically, R.sub.1 is H or alkyl of 1 to 12 carbon atoms,
usually H or an alkyl of 1 to 4 or 5 to 10 carbon atoms, still more
typically, H or an alkyl of 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, or
12 carbon atoms, more typically yet, H or an alkyl of 1 to 3 carbon
atoms selected from methyl, ethyl, n-propyl, and i-propyl. Most
typically R.sub.1 is H.
[0211] m1 is an integer of 0 to 2, typically 0 or 1, most typically
0.
[0212] m2 is an integer of 0 to 1.
[0213] m3 is an integer of 1 to 3.
[0214] W.sub.1 is a group comprising an acidic hydrogen, a
protected acidic group or an R.sub.6c amide of the group comprising
an acidic hydrogen which, within the context of the invention,
means a group having a hydrogen atom that can be removed by a base
yielding an anion or its corresponding salt or solvate. The general
principles of acidity and basicity of organic materials are well
understood and are to be understood as defining W.sub.1. They will
not be detailed here. However, a description appears in
Streitwieser, A.; and Heathcock, C. H.; "Introduction to Organic
Chemistry, Second Edition" (Macmillan, N.Y., 1981), pages 60-64.
Generally, acidic groups of the invention have pK values less than
that of water, usually less than pK=10, typically less than pK=8,
and frequently less than pK=6. They include tetrazoles and the
acids of carbon, sulfur, phosphorous and nitrogen, typically the
carboxylic, sulfuric, sulfonic sulfinic, phosphoric and phosphonic
acids, together with the R.sub.6c amides and R.sub.6b esters of
those acids (R.sub.6a and R.sub.6c are defined below). Exemplary
W.sub.1 are --CO.sub.2H, --CO.sub.2R.sub.6a. --OSO.sub.3H,
--SO.sub.3H, --SO.sub.2H, --OPO.sub.3H.sub.2,
--PO.sub.3(R.sub.6a).sub.2, --PO.sub.3H.sub.2,
--PO.sub.3(H)(R.sub.6a), and --OPO.sub.3(R.sub.6a).sub.2. W.sub.1
typically E.sub.1, and E.sub.1 typically is --CO.sub.2H,
--CO.sub.2R.sub.6a, --CO.sub.2R.sub.4 or CO.sub.2R.sub.1, and most
typically is CO.sub.2R.sub.14 wherein R.sub.14 is normal or
terminally secondary C.sub.1-C.sub.6 alkyl.
[0215] W.sub.1 may also be a protected acidic group, which, within
the context of the invention means an acidic group as described
above that has been protected by one of the groups commonly used in
the art for such groups and are described below under R.sub.6a.
More typically, protected W.sub.1 is --CO.sub.2R.sub.1,
--SO.sub.3R.sub.1, --S(O)OR.sub.1, --P(O)(OR.sub.1).sub.2,
--C(O)NHSO.sub.2R.sub.4, or --SO.sub.2NHC(O)--R.sub.4, wherein
R.sub.1 is defined above.
[0216] Most typically, E.sub.1 is selected from
--C(O)O(CH.sub.2).sub.bCH(- (CH.sub.2).sub.cCH.sub.3).sub.2 where
b=0 to 4, c=0 to 4, and b+c=1 to 4, or from the group of 19
[0217] Exemplary E.sub.1 groups are listed in Tables 3a through
3b.
[0218] G.sub.1 is N.sub.3, --CN, --OH, OR.sub.6a, --NO.sub.2 or
--(CR.sub.1R.sub.1).sub.m1W.sub.2, wherein R.sub.1 and m1 are
defined above. Ordinarily, G.sub.1 is
--(CR.sub.1R.sub.1).sub.m1W.sub.2.
[0219] W.sub.2 is a group comprising a basic heteroatom, a
protected basic heteroatom or an R.sub.6b amide of the basic
heteroatom. W.sub.2 generally comprises a basic heteroatom, which,
within the context of the invention means an atom other than carbon
which is capable of protonation, typically by an acidic hydrogen
having an acidity in the range described above for W.sub.1. The
basic principles of basicity are described in Streitwieser and
Heathcock (op. cit.) and provide meaning for the term basic
heteroatom as will be understood by those ordinarily skilled in the
art. Generally, the basic heteroatoms employed in the compounds of
the invention have pK values for the corresponding protonated form
that are in the range of values described above for W.sub.1. Basic
heteroatoms include the heteroatoms common in organic compounds
which have an un-shared, non-bonding, n-type, or the like, electron
pair. By way of example and not limitation, typical basic
heteroatoms include the oxygen, nitrogen, and sulfur atoms of
groups such as alcohols, amines, amidines, guanidines, sulfides,
and the like, frequently, amines, amidines and guanidines.
Ordinarily, W.sub.2 is amino or an amino alkyl (generally lower
alkyl) group such as aminomethyl, aminoethyl or aminopropyl; an
amidinyl, or an amidinoalkyl group such as amidinomethyl,
amidinoethyl, or amidinopropyl; or guanidinyl, or a guanidinoalkyl
group such as guanidinomethyl, guanidinoethyl, or guanidinopropyl
(in each instance wherein the alkyl group serves to bridge the
basic substituent to the carbocyclic ring). More typically, W.sub.2
is amino, amidino, guanidino, heterocycle, heterocycle substituted
with 1 or 2 amino or guanidino groups (usually 1), or an alkyl of 2
to 3 carbon atoms substituted with amino or guanidino, or such
alkyl substituted with an amino and a second group selected from
the group consisting of hydroxy and amino. The heterocycles useful
as W.sub.2 include typically N or S-containing 5 or 6 membered
rings, wherein the ring contains 1 or 2 heteroatoms. Such
heterocycles generally are substituted at ring carbon atoms. They
may be saturated or unsaturated and may be linked to the core
cyclohexene by lower alkyl (m1=1 or 2) or by --NR.sub.1--. Still
more typically, W.sub.2 is --NHR.sub.1, --C(NH)(NH.sub.2),
--NR.sub.1--C(NR.sub.1)(NR.sub.1R.sub.3), --NH--C(NH)(NHR.sub.3),
--NH--C(NH)(NHR.sub.1), --NH--C(NH)NH.sub.2,
--CH(CH.sub.2NHR.sub.1)(CH.sub.2OH),
--CH(CH.sub.2NHR.sub.1)(CH.sub.2NHR.- sub.1),
--CH(NHR.sub.1)--(CR.sub.1R.sub.1).sub.m2--CH(NHR.sub.1)R.sub.1,
--CH(OH)--(CR.sub.1R.sub.1).sub.m2--CH(NHR.sub.1)R.sub.1, or
--CH(NHR.sub.1)--(CR.sub.1R.sub.1).sub.m2--CH(OH)R.sub.1,
--(CR.sub.1R.sub.1).sub.m2--S--C(NH)NH.sub.2,
--N.dbd.C(NHR.sub.1)(R.sub.- 3),
--N.dbd.C(SR.sub.1)N(R.sub.1).sub.2, --N(R.sub.1)C
(NH)N(R.sub.1)C.dbd.N, or --N.dbd.C(NHR.sub.1)(R.sub.1); wherein
each m2 is ordinarly 0, and ordinarily R.sub.1 is H and R.sub.3 is
C(O)N(R.sub.1).sub.2.
[0220] W.sub.2 optionally is a protected basic heteroatom which
within the context of the invention means a basic heteroatom as
described above that has been protected by R.sub.6b such as one of
the groups common in the art. Such groups are described in detail
in Greene (op. cit.) as set forth below. Such groups include by way
of example and not limitation, amides, carbamates, amino acetals,
imines, enamines, N-alkyl or N-aryl phosphinyls, N-alkyl or N-aryl
sulfenyls or sulfonyls, N-alkyl or N-aryl silyls, thioethers,
thioesters, disulfides, sulfenyls, and the like. In some
embodiments, the protecting group R.sub.6b will be cleavable under
physiological conditions, typically it will be cleavable in vivo
where, for example, the basic heteroatom forms an amide with an
organic acid or an amino acid such as a naturally occurring amino
acid or a polypeptide as described below for the R.sub.6a
group.
[0221] Typically G.sub.1 is selected from the group consisting of:
20
[0222] Further exemplary G.sub.1 groups are listed in Table 4.
[0223] T.sub.1 is --NR.sub.1W.sub.3 or heterocycle, or is taken
together with U.sub.1 or G.sub.1 to form a group having the
structure 21
[0224] where R.sub.6b is defined below, and R.sub.1 and W.sub.3 are
defined above. Generally T.sub.1 is selected from the group
consisting of: 22
[0225] Exemplary T.sub.1 groups are listed in Table 5.
[0226] W.sub.3 is W.sub.4 or W.sub.5, wherein W.sub.4 is R.sub.1 or
--C(O)R.sub.5, --C(O)W.sub.5, --SO.sub.2R.sub.5, or
--SO.sub.2W.sub.5. Typically, W.sub.3 is --C(O)R.sub.5 or
W.sub.5.
[0227] R.sub.2 is independently R.sub.3 or R.sub.4 as defined
below, with the proviso that each R.sub.4 is independently
substituted with 0 to 3 R.sub.3 groups;
[0228] R.sub.3 is independently F, Cl, Br, I, --CN, N.sub.3,
--NO.sub.2, --OR.sub.6a, --OR.sub.1, --N(R.sub.1).sub.2,
--N(R.sub.1)(R.sub.6b), --N(R.sub.6b).sub.2, --SR.sub.1,
--SR.sub.6a, --S(O)R.sub.1, --S(O).sub.2R.sub.1, --S(O)OR.sub.1,
--S(O)OR.sub.6a, --S(O).sub.2OR.sub.1, --S(O).sub.2OR.sub.6a,
--C(O)OR.sub.1, --C(O)R.sub.6c, --C(O)OR.sub.6a, --OC(O)R.sub.1,
--N(R.sub.1)(C(O)R.sub.1- ), --N(R.sub.6b)(C(O)R.sub.1),
--N(R.sub.1)(C(O)OR.sub.1), --N(R.sub.6b)(C(O)OR.sub.1),
--C(O)N(R.sub.1).sub.2, --C(O)N(R.sub.6b)(R.sub.1),
--C(O)N(R.sub.6b).sub.2, --C(NR.sub.1)(N(R.sub.1).sub.2),
--C(N(R.sub.6b))(N(R.sub.1).sub.2),
--C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--C(N(R.sub.6b))(N(R.sub.1)(R.sub.- 6b)),
--C(N(R.sub.1))(N(R.sub.6b).sub.2),
--C(N(R.sub.6b))(N(R.sub.6b).sub- .2),
--N(R.sub.1)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.1)C(N(R.sub.1)- )(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))- (N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.1- ))(N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.6b).sub.2),
--N(R.sub.1)C(N(R.sub.6b))- (N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.6b).sub.2), .dbd.O, .dbd.S,
.dbd.N(R.sub.1) or .dbd.N(R.sub.6b). Typically R.sub.3 is F, Cl,
--CN, N.sub.3, NO.sub.2, --OR.sub.6a, --OR.sub.1,
--N(R.sub.1).sub.2, --N(R.sub.1)(R.sub.6b), --N(R.sub.6b).sub.2,
--SR.sub.1, --SR.sub.6a, --C(O)OR.sub.1, --C(O)R.sub.6c,
--C(O)OR.sub.6a, --OC(O)R.sub.1, --NR.sub.1C(O)R.sub.1,
--N(R.sub.6b)C(O)R.sub.1, --C(O)N(R.sub.1).sub.2,
--C(O)N(R.sub.6b)(R.sub.1), --C(O)N(R.sub.6b).sub.2, or .dbd.O.
More typical R.sub.3 groups comprising R.sub.6b include
--C(O)N(R.sub.6b).sub.2, --C(O)N(R.sub.6b)(R.sub.1),
--C(S)N(R.sub.6b).sub.2, or --C(S)N(R.sub.6b)(R.sub.1). More
typically yet R.sub.3 is F, Cl, --CN, N.sub.3, --OR.sub.1,
--N(R.sub.1).sub.2, --SR.sub.1, --C(O)OR.sub.1, --OC(O)R.sub.1, or
.dbd.O. More typically still, R.sub.3 is F, --OR.sub.1,
--N(R.sub.1).sub.2, or .dbd.O. In the context of the present
application, ".dbd.O" denotes a double bonded oxygen atom (oxo),
and ".dbd.S" .dbd.N(R.sub.6b) and ".dbd.N(R.sub.1)" denote the
sulfur and nitrogen analogs.
[0229] R.sub.4 is alkyl of 1 to 12 carbon atoms, and alkynyl or
alkenyl of 2 to 12 carbon atoms. The alkyl R.sub.4's are typically
of 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, or 12 carbon atoms and the
alkenyl and alkynyl R.sub.4's are typically of 2, 3, 4, 5, 6, 7, 8,
9, 10, 11, or 12 carbon atoms. R.sub.4 ordinarily is alkyl (as
defined above). When R.sub.4 is alkenyl it is typically ethenyl
(--CH.dbd.CH.sub.2), 1-prop-1-enyl (--CH.dbd.CHCH.sub.3),
1-prop-2-enyl (--CH.sub.2CH.dbd.CH.sub.2), 2-prop-1-enyl
(--C(.dbd.CH.sub.2)(CH.sub.3)), 1-but-1-enyl
(--CH.dbd.CHCH.sub.2CH.sub.3), 1-but-2-enyl
(--CH.sub.2CH.dbd.CHCH.sub.3)- , 1-but-3-enyl
(--CH.sub.2CH.sub.2CH.dbd.CH.sub.2), 2-methyl-1-prop-1-enyl
(--CH.dbd.C(CH.sub.3).sub.2), 2-methyl-1-prop)-2-enyl
(--CH.sub.2C(.dbd.CH.sub.2)(CH.sub.3)), 2-but-1-enyl
(--C(.dbd.CH.sub.2)CH.sub.2CH.sub.3), 2-but-2-enyl
(--C(CH.sub.3).dbd.CHCH.sub.3), 2-but-3-enyl
(--CH(CH.sub.3)CH.dbd.CH.sub- .2), 1-pent-1-enyl
(--C.dbd.CHCH.sub.2CH.sub.2CH.sub.3), 1-pent-2-enyl
(--CHCH.dbd.CHCH.sub.2CH.sub.3), 1-pent-3-enyl
(--CHCH.sub.2CH.dbd.CHCH.s- ub.3), 1-pent-4-enyl
(--CHCH.sub.2CH.sub.2CH.dbd.CH.sub.2), 2-pent-1-enyl
(--C(.dbd.CH.sub.2)CH.sub.2CH.sub.2CH.sub.3), 2-pent-2-enyl
(--C(CH.sub.3).dbd.CH.sub.2CH.sub.2CH.sub.3), 2-pent-3-enyl
(--CH(CH.sub.3)CH.dbd.CHCH.sub.3), 2-pent-4-enyl
(--CH(CH.sub.3)CH.sub.2C- H.dbd.CH.sub.2) or 3-methyl-1-but-2-enyl
(--CH.sub.2CH.dbd.C(CH.sub.3).sub- .2). More typically, R.sub.4
alkenyl groups are of 2, 3 or 4 carbon atoms. When R.sub.4 is
alkynyl it is typically ethynyl (--CCH), 1-prop-1-ynyl
(--CCCH.sub.3), 1-prop-2-ynyl (--CH.sub.2CCH), 1-but-1-ynyl
(-CCCH.sub.2CH.sub.3), 1-but-2-ynyl (--CH.sub.2CCCH.sub.3),
1-but-3-ynyl (--CH.sub.2CH.sub.2CCH), 2-but-3-ynyl
(CH(CH.sub.3)CCH), 1-pent-1-ynyl (--CCCH.sub.2CH.sub.2CH.sub.3),
1-pent-2-ynyl (--CH.sub.2CCCH.sub.2CH.sub- .3), 1-pent-3-ynyl
(--CH.sub.2CH.sub.2CCCH.sub.3) or 1-pent-4-ynyl
(--CH.sub.2CH.sub.2CH.sub.2CCH). More typically, R.sub.4 alkynyl
groups are of 2, 3 or 4 carbon atoms.
[0230] R.sub.5 is R.sub.4, as defined above, or R.sub.4 substituted
with 0 to 3 R.sub.3 groups. Typically R.sub.5 is an alkyl of 1 to 4
carbon atoms substituted with 0 to 3 fluorine atoms.
[0231] R.sub.5a is alkylene of 1 to 12 carbon atoms, alkenylene of
2 to 12 carbon atoms, or alkynylene of 2-12 carbon atoms which is
substituted with 0-3 R.sub.3 groups. As defined above for R.sub.4,
R.sub.5a's are of 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, or 12 carbon
atoms when alkylene and of 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, or 12
carbon atoms when alkenylene or alkynylene. Each of the typical
R.sub.4 groups is a typicall R.sub.5a group with the proviso that
one of the hysrogen atoms of the described R.sub.4 group is removed
to form the open valence to a carbon atom through which the second
bond to the R.sub.5a is attached.
[0232] R.sub.10 is alkyl, alkenyl, alkynyl of 1 to 12 carbon atoms
substituted with 0 to 3 R.sub.2.
[0233] R.sub.11 is independently H or R.sub.10.
[0234] R.sub.12 is a cycloalkyl of 3 to 10 carbon atoms, or
cycloalkenyl of 4 to 10 carbon atoms.
[0235] R.sub.14 is normal or terminally secondary C.sub.1-C.sub.6
alkyl.
[0236] W.sub.5 is a carbocycle or heterocycle, with the proviso
that each W.sub.5 is independently substituted with 0 to 3 R.sub.2
groups. W.sub.5 carbocycles and T.sub.1 and W.sub.5 heterocycles
are stable chemical structures. Such structures are isolatable in
measurable yield, with measurable purity, from reaction mixtures at
temperatures from -78.degree. C. to 200.degree. C. Each W.sub.5 is
independently substituted with 0 to 3 R.sub.2 groups. Typically,
T.sub.1 and W.sub.5 are a saturated, unsaturated or aromatic ring
comprising a mono- or bicyclic carbocycle or heterocycle. More
typically, T.sub.1 or W.sub.5 has 3 to 10 ring atoms, still more
typically, 3 to 7 ring atoms, and ordinarily 3 to 6 ring atoms. The
T.sub.1 and W.sub.5 rings are saturated when containing 3 ring
atoms, saturated or monounsaturated when containing 4 ring atoms,
saturated, or mono- or diunsaturated when containing 5 ring atoms,
and saturated, mono- or diunsaturated, or aromatic when containing
6 ring atoms.
[0237] When W.sub.5 is carbocyclic, it is typically a 3 to 7 carbon
monocycle or a 7 to 12 carbon atom bicycle. More typically, W.sub.5
monocyclic carbocycles have 3 to 6 ring atoms, still more typically
5 or 6 ring atoms. W.sub.5 bicyclic carbocycles have 7 to 12 ring
atoms arranged as a bicyclo [4,5], [5,5], [5,6] or [6,6] system,
still more typically, 9 or 10 ring atoms arranged as a bicyclo
[5,6] or [6,6] system. Examples include cyclopropyl, cyclobutyl,
cyclopentyl, 1-cyclopent-1-enyl, 1-cyclopent-2-enyl,
1-cyclopent-3-enyl, cyclohexyl, 1-cyclohex-1-enyl,
1-cyclohex-2-enyl, 1-cyclohex-3-enyl, phenyl, spiryl and
naphthyl.
[0238] A T.sub.1 or W.sub.5 heterocycle is typically a monocycle
having 3 to 7 ring members (2 to 6 carbon atoms and 1 to 3
heteroatoms selected from N, O, P, and S) or a bicycle having 7 to
10 ring members (4 to 9 carbon atoms and 1 to 3 heteroatoms
selected from N, O, P, and S). More typically, T.sub.1 and W.sub.5
heterocyclic monocycles have 3 to 6 ring atoms (2 to 5 carbon atoms
and 1 to 2 heteroatoms selected from N, O, and S), still more
typically, 5 or 6 ring atoms (3 to 5 carbon atoms and 1 to 2
heteroatoms selected from N and S). T.sub.1 and W.sub.5
heterocyclic bicycles have 7 to 10 ring atoms (6 to 9 carbon atoms
and 1 to 2 heteroatoms selected from N, O, and S) arranged as a
bicyclo [4,5], [5,5], [5,6], or [6,6] system, still more typically,
9 to 10 ring atoms (8 to 9 carbon atoms and 1 to 2 hetero atoms
selected from N and S) arranged as a bicyclo [5,6] or [6,6]
system.
[0239] Typically T.sub.1 and W.sub.5 heterocycles are selected from
pyridyl, pyridazinyl, pyrimidinyl, pyrazinyl, s-triazinyl,
oxazolyl, imidazolyl, thiazolyl, isoxazolyl, pyrazolyl,
isothiazolyl, furanyl, thiofuranyl, thienyl, or pyrrolyl.
[0240] More typically, the heterocycle of T.sub.1 and W.sub.5 is
bonded through a carbon atom or nitrogen atom thereof. Still more
typically T.sub.1 heterocycles are bonded by a stable covalent bond
through a nitrogen atom thereof to the cyclohexene ring of the
compositions of the invention and W.sub.5 heterocycles are bonded
by a stable covalent bond through a carbon or nitrogen atom thereof
to the cyclohexene ring of the compositions of the invention.
Stable covalent bonds are chemically stable structures as described
above.
[0241] W.sub.5 optionally is selected from the group consisting of:
23
[0242] U.sub.1 is H or --X.sub.1W.sub.6, but typically the
latter.
[0243] X.sub.1 is a bond, --CR.sub.5R.sub.5--,
--(CR.sub.5R.sub.5).sub.2--- , --O--, --N(H)--, --N(R.sub.5)--,
--N(OH)--, --N(OR.sub.5)--, --N(NH.sub.2)--, --N(N(H)(R.sub.5))--,
--N(N(R.sub.5).sub.2)--, --N(H)N(R.sub.5)--, --S--, --SO--, or
--SO.sub.2--, typically X.sub.1 is a bond, --CR.sub.1R.sub.1--,
--(CR.sub.1R.sub.1).sub.2-- --O--, --NR.sub.1--, --N(OR.sub.1)--,
--N(NR.sub.1R.sub.1)--, --S--, --SO--, or --SO.sub.2--. Ordinarily
X.sub.1 is --O--, --NH--, --S--, --SO--, or --SO.sub.2--;
[0244] W.sub.6 is --R.sub.5, --W.sub.5, --R.sub.5aW.sub.5,
--C(O)OR.sub.6a, --C(O)R.sub.6c, --C(O)N(R.sub.6b).sub.2,
--C(NR.sub.6b)(N(R.sub.6b).sub.2), --C(NR.sub.6b)(N(H)(R.sub.6b)),
--C(N(H)(N(R.sub.6b).sub.2), --C(S)N(R.sub.6b).sub.2, or
--C(O)R.sub.2, typically is --R.sub.5, --W.sub.5, or
--R.sub.5aW.sub.5; in some embodiments, W.sub.6 is R.sub.1,
--C(O)--R.sub.1, --CHR.sub.1W.sub.7, --CH(R.sub.1).sub.aW.sub.7,
--CH(W.sub.7).sub.2, (where a is 0 or 1, but is 0 when W.sub.7 is
divalent) or --C(O)W.sub.7. In some embodiments, W.sub.6 is
--CHR.sub.1W.sub.7 or --C(O)W.sub.7, or W.sub.6 is
--(CH.sub.2).sub.m1CH((CH.sub.2).sub.m3R.sub.3).sub.2,
--(CH.sub.2).sub.m1C((CH.sub.2).sub.m3R.sub.3).sub.3;
--(CH.sub.2).sub.m1CH((CH.sub.2).sub.m3R.sub.5aW.sub.5).sub.2;
--(CH.sub.2).sub.m1CH((CH.sub.2).sub.m3R.sub.3)((CH.sub.2).sub.m3R.sub.5a-
W.sub.5);
--(CH.sub.2).sub.m1C((CH.sub.2).sub.m3R.sub.3).sub.2(CH.sub.2).s-
ub.m3R.sub.5aW.sub.5),
(CH.sub.2).sub.m1C((CH.sub.2).sub.m3R.sub.5aW.sub.5- ).sub.3 or
--(CH.sub.2).sub.m1C((CH.sub.2).sub.m3R.sub.3)((CH.sub.2).sub.m-
3R.sub.5aW.sub.5).sub.2; and wherein m.sub.3 is an integer from 1
to 3.
[0245] W.sub.7 is R.sub.3 or R.sub.5, but typically is alkyl of 1
to 12 carbons substituted with 0 to 3 R.sub.3 groups, the latter
typically selected from the group consisting of
--NR.sub.1(R.sub.6b), --N(R.sub.6b).sub.2, --OR.sub.6a, or
SR.sub.6a. More typically, W.sub.7 is --OR.sub.1 or an alkyl of 3
to 12 carbon atoms substituted with OR.sub.1.
[0246] In general, U.sub.1 is R.sub.1O--, --OCHR.sub.1W.sub.7,
24
[0247] Exemplary U.sub.1 groups are listed in Table 2.
[0248] An embodiment of the invention comprises a compound of the
formula: 25
[0249] wherein E.sub.2 is E.sub.1, but is typically selected from
the group consisting of: 26
[0250] and wherein G.sub.2 is G.sub.1, but is typically selected
from the group consisting of: 27
[0251] and wherein T.sub.2 is R.sub.4 or R.sub.5. Generally,
T.sub.2 is alkyl of 1 to 2 carbon atoms substituted with 0 to 3
fluorine atoms.
[0252] U.sub.2 is one of: 28
[0253] wherein R.sub.7 is H, --CH.sub.3, --CH.sub.2CH.sub.3,
--CH.sub.2CH.sub.2CH.sub.3, --OCH.sub.3, --OAc(--O--C(O)CH.sub.3),
--OH, --NH.sub.2, or --SH, typically H, --CH.sub.3 or
--CH.sub.2CH.sub.3.
[0254] Groups R.sub.6a and R.sub.6b are not critical
functionalities and may vary widely. When not H, their function is
to serve as intermediates for the parental drug substance. This
does not mean that they are biologically inactive. On the contrary,
a principal function of these groups is to convert the parental
drug into a prodrug, whereby the parental drug is released upon
conversion of the prodrug in vivo. Because active prodrugs are
absorbed more effectively than the parental drug they in fact often
possess greater potency in vivo than the parental drug. R.sub.6a
and R.sub.6b are removed either in vitro, in the instance of
chemical intermediates, or in vivo, in the case of prodrugs. With
chemical intermediates, it is not particularly important that the
resulting pro-functionality products, e.g. alcohols, be
physiologically acceptable, although in general it is more
desirable if the products are pharmacologically innocuous.
[0255] R.sub.6a is H or an ether- or ester-forming group.
"Ether-forming group" means a group which is capable of forming a
stable, covalent bond between the parental molecule and a group
having the formula: 29
[0256] Wherein V.sub.a is a tetravalent atom typically selected
from C and Si; V.sub.b is a trivalent atom typically selected from
B, Al, N, and P, more typically N and P; V.sub.c is a divalent atom
typically selected from O, S, and Se, more typically S; V.sub.1 is
a group bonded to V.sub.a, V.sub.b or V.sub.c by a stable, single
covalent bond, typically V.sub.1 is W.sub.6 groups, more typically
V.sub.1 is H, R.sub.2, W.sub.5, or --R.sub.5aW.sub.5, still more
typically H or R.sub.2; V.sub.2 is a group bonded to V.sub.a or
V.sub.b by a stable, double covalent bond, provided that V.sub.2 is
not .dbd.O, .dbd.S or .dbd.N--, typically V.sub.2 is
.dbd.C(V.sub.1).sub.2 wherein V.sub.1 is as described above; and
V.sub.3 is a group bonded to V.sub.a by a stable, triple covalent
bond, typically V.sub.3 is .ident.C(V.sub.1) wherein V.sub.1 is as
described above.
[0257] "Ester-forming group" means a group which is capable of
forming a stable, covalent bond between the parental molecule and a
group having the formula: 30
[0258] Wherein V.sub.a, V.sub.b, and V.sub.1, are as described
above; V.sub.d is a pentavalent atom typically selected from P and
N; V.sub.e is a hexavalent atom typically S; and V.sub.4 is a group
bonded to V.sub.a, V.sub.b, V.sub.d or V.sub.e by a stable, double
covalent bond, provided that at least one V.sub.4 is .dbd.O, .dbd.S
or .dbd.N--V.sub.1, typically V.sub.4, when other than .dbd.O,
.dbd.S or .dbd.N--, is .dbd.C(V.sub.1).sub.2 wherein V.sub.1 is as
described above.
[0259] Protecting groups for --OH functions (whether hydroxy, acid
or other functions) are embodiments of "ether- or ester-forming
groups".
[0260] Particularly of interest are ether- or ester-forming groups
that are capable of functioning as protecting groups in the
synthetic schemes set forth herein. However, some hydroxyl and thio
protecting groups are neither ether- nor ester-forming groups, as
will be understood by those skilled in the art, and are included
with amides, discussed under R.sub.6c below. R.sub.6c is capable of
protecting hydroxyl or thio groups such that hydrolysis from the
parental molecule yields hydroxyl or thio.
[0261] In its ester-forming role, R.sub.6a typically is bound to
any acidic group such as, by way of example and not limitation, a
--CO.sub.2H or --C(S)OH group, thereby resulting in
--CO.sub.2R.sub.6a. R.sub.6a for example is deduced from the
enumerated ester groups of WO 95/07920.
[0262] Examples of R.sub.6a include
[0263] C.sub.3-C.sub.12 heterocyle (described above) or aryl. These
aromatic groups optionally are polycyclic or monocyclic. Examples
include phenyl, spiryl, 2- and 3-pyrrolyl, 2- and 3-thienyl, 2- and
4-imidazolyl, 2-, 4- and 5-oxazolyl, 3- and 4-isoxazolyl, 2-, 4-
and 5-thiazolyl, 3-, 4- and 5-isothiazolyl, 3- and 4-pyrazolyl, 1-,
2-, 3- and 4-pyridinyl, and 1-, 2-, 4- and 5-pyrimidinyl,
C.sub.3-C.sub.12 heterocycle or aryl substituted with halo,
R.sub.1, R.sub.1--O--C.sub.1-C.sub.12 alkylene, C.sub.1-C.sub.12
alkoxy, CN, NO.sub.2, OH, carboxy, carboxyester, thiol, thioester,
C.sub.1-C.sub.12 haloalkyl (1-6 halogen atoms), C.sub.2-C.sub.12
alkenyl or C.sub.2-C.sub.12 alkynyl. Such groups include 2-, 3- and
4-alkoxyphenyl (C.sub.1-C.sub.12 alkyl), 2-, 3- and
4-methoxyphenyl, 2-, 3- and 4-ethoxyphenyl, 2,3-, 2,4-, 2,5-, 2,6-,
3,4- and 3,5-diethoxyphenyl, 2- and 3-carboethoxy-4-hydroxyphenyl,
2- and 3-ethoxy-4-hydroxyphenyl, 2- and 3-ethoxy-5-hydroxyphenyl,
2- and 3-ethoxy-6-hydroxyphenyl, 2-, 3- and 4-O-acetylphenyl, 2-,
3- and 4-dimethylaminophenyl, 2-, 3- and 4-methylmercaptophenyl,
2-, 3- and 4-halophenyl (including 2-, 3- and 4-fluorophenyl and
2-, 3- and 4-chlorophenyl), 2,3-, 2,4-, 2,5-, 2,6-, 3,4- and
3,5-dimethylphenyl, 2,3-, 2,4-, 2,5-, 2,6-, 3,4- and
3,5-biscarboxyethylphenyl, 2,3-, 2,4-, 2,5-, 2,6-, 3,4- and
3,5-dimethoxyphenyl, 2,3-, 2,4-, 2,5-, 2,6-, 3,4- and
3,5-dihalophenyl (including 2,4-difluorophenyl and
3,5-difluorophenyl), 2-, 3- and 4-haloalkylphenyl (1 to 5 halogen
atoms, C.sub.1-C.sub.12 alkyl including 4-trifluoromethylphenyl),
2-, 3- and 4-cyanophenyl, 2-, 3- and 4-nitrophenyl, 2-, 3- and
4-haloalkylbenzyl (1 to 5 halogen atoms, C.sub.1-C.sub.12 alkyl
including 4-trifluoromethylbenzyl and 2-, 3- and
4-trichloromethylphenyl and 2-, 3- and 4-trichloromethylphenyl),
4-N-methylpiperidinyl, 3-N-methylpiperidinyl, 1-ethylpiperazinyl,
benzyl, alkylsalicylphenyl (C.sub.1-C.sub.4 alkyl, including 2-, 3-
and 4-ethylsalicylphenyl), 2-,3- and 4-acetylphenyl,
1,8-dihydroxynaphthyl (--C.sub.10H.sub.6--OH) and aryloxy ethyl
[C.sub.6-C.sub.9 aryl (including phenoxy ethyl)],
2,2'-dihydroxybiphenyl, 2-, 3- and 4-N,N-dialkylaminophenol,
--C.sub.6H.sub.4CH.sub.2--N(CH.sub.3).sub.2, trimethoxybenzyl,
triethoxybenzyl, 2-alkyl pyridinyl (C.sub.1-4 alkyl); 31
[0264] C.sub.4-C.sub.8 esters of 2-carboxyphenyl; and
C.sub.1-C.sub.4 alkylene-C.sub.3-C.sub.6 aryl (including benzyl,
--CH.sub.2-pyrrolyl, --CH.sub.2-thienyl, --CH.sub.2-imidazolyl,
--CH.sub.2-oxazolyl, --CH.sub.2-isoxazolyl, --CH.sub.2-thiazolyl,
--CH.sub.2-isothiazolyl, --CH.sub.2-pyrazolyl, --CH.sub.2-pyridinyl
and --CH.sub.2-pyrimidinyl) substituted in the aryl moiety by 3 to
5 halogen atoms or 1 to 2 atoms or groups selected from halogen,
C.sub.1-C.sub.12 alkoxy (including methoxy and ethoxy), cyano,
nitro, OH, C.sub.1-C.sub.12 haloalkyl (1 to 6 halogen atoms;
including --CH.sub.2--CCl.sub.3), C.sub.1-C.sub.12 alkyl (including
methyl and ethyl), C.sub.2-C.sub.12 alkenyl or C.sub.2-C.sub.12
alkynyl;
[0265] alkoxy ethyl [C.sub.1-C.sub.6 alkyl including
--CH.sub.2--CH.sub.2--O--CH.sub.3 (methoxy ethyl)];
[0266] alkyl substituted by any of the groups set forth above for
aryl, in particular OH or by 1 to 3 halo atoms (including
--CH.sub.3, --CH(CH.sub.3).sub.2, --C(CH.sub.3).sub.3,
--CH.sub.2CH.sub.3, --(CH.sub.2).sub.2CH.sub.3,
--(CH.sub.2).sub.3CH.sub.3, --(CH.sub.2).sub.4CH.sub.3,
--(CH.sub.2).sub.5CH.sub.3, --CH.sub.2CH.sub.2F,
--CH.sub.2CH.sub.2Cl, --CH.sub.2CF.sub.3, and --CH.sub.2CCl.sub.3);
32
[0267] --N-2-propylmorpholino, 2,3-dihydro-6-hydroxyindene,
sesamol, catechol monoester, --CH.sub.2--C(O)--N(R.sup.1).sub.2,
--CH.sub.2--S(O)(R.sup.1), --CH.sub.2--S(O).sub.2(R.sup.1),
--CH.sub.2--CH(OC(O)CH.sub.2R.sup.1)--CH.sub.2(OC(O)CH.sub.2R.sup.1),
cholesteryl, enolpyruvate (HOOC--C(.dbd.CH.sub.2)--), glycerol;
[0268] a 5 or 6 carbon monosaccharide, disaccharide or
oligosaccharide (3 to 9 monosaccharide residues);
[0269] triglycerides such as .alpha.-D-.beta.-diglycerides (wherein
the fatty acids composing glyceride lipids generally are naturally
occurring saturated or unsaturated C.sub.6-26, C.sub.6-18 or
C.sub.6-10 fatty acids such as linoleic, lauric, myristic,
palmitic, stearic, oleic, palmitoleic, linolenic and the like fatty
acids) linked to acyl of the parental compounds herein through a
glyceryl oxygen of the triglyceride;
[0270] phospholipids linked to the carboxyl group through the
phosphate of the phospholipid;
[0271] phthalidyl (shown in FIG. 1 of Clayton et al., Antimicrob.
Agents Chemo. 5(6):670-671 [1974]);
[0272] cyclic carbonates such as
(5-R.sub.d-2-oxo-1,3-dioxolen-4-yl)methyl esters (Sakamoto et al.,
Chem. Pharm. Bull. 32(6)2241-2248 [1984]) where R.sub.d is R.sub.1,
R.sub.4 or aryl; and 33
[0273] The hydroxyl groups of the compounds of this invention
optionally are substituted with one of groups III, IV or V
disclosed in WO94/21604, or with isopropyl.
[0274] As further embodiments, Table A lists examples of R.sub.6a
ester moieties that for example can be bonded via oxygen to
--C(O)O-- and --P(O)(O--).sub.2 groups. Several R.sub.6c amidates
also are shown, which are bound directly to --C(O)-- or
--P(O).sub.2. Esters of structures 1-5, 8-10 and 16, 17, 19-22 are
synthesized by reacting the compound herein having a free hydroxyl
with the corresponding halide (chloride or acyl chloride and the
like) and N,N-dicylohexyl-N-morpholine carboxamidine (or another
base such as DBU, triethylamine, CsCO.sub.3, N,N-dimethylaniline
and the like) in DMF (or other solvent such as acetonitrile or
N-methylpyrrolidone). When W.sub.1 is phosphonate, the esters of
structures 5-7, 11, 12, 21, and 23-26 are synthesized by reaction
of the alcohol or alkoxide salt (or the corresponding amines in the
case of compounds such as 13, 14 and 15) with the
monochlorophosphonate or dichlorophosphonate (or another activated
phosphonate).
1TABLE A 1. --CH.sub.2--C(O)--N(R.sub.1).sub.2* 2.
--CH.sub.2--S(O)(R.sub.1) 3. --CH.sub.2--S(O).sub.2(R.sub.1) 4.
--CH.sub.2--O--C(O)--CH.sub.2--C.sub.6H.sub.5 5. 3-cholesteryl 6.
3-pyridyl 7. N-ethylmorpholino 8.
--CH.sub.2--O--C(O)--C.sub.6H.sub.5 9. --CH.sub.2--O--C(O)--CH.sub-
.2CH.sub.3 10. --CH.sub.2--O--C(O)--C(CH.sub.3).sub.3 11.
--CH.sub.2--CCl.sub.3 12. --C.sub.6H.sub.5 13.
--NH--CH.sub.2--C(O)O--CH.sub.2CH.sub.3 14.
--N(CH.sub.3)--CH.sub.2--C(O)O--CH.sub.2CH.sub.3 15. --NHR.sub.1
16. --CH.sub.2--O--C(O)--C.sub.10H.sub.15 17.
--CH.sub.2--O--C(O)--CH(CH.sub.3).sub.2 18.
--CH.sub.2--C#H(OC(O)CH.sub.2R.sub.1)--CH.sub.2--
--(OC(O)CH.sub.2R.sub.1)* 19. 34 20. 35 21. 36 22. 37 23. 38 24. 39
25. 40 26. 41 #--chiral center is (R), (S) or racemate.
[0275] Other esters that are suitable for use herein are described
in EP 632,048.
[0276] R.sub.6a also includes "double ester" forming
profunctionalities such as --CH.sub.2OC(O)OCH.sub.3, 42
[0277] --CH.sub.2OCON(CH.sub.3).sub.2, or alkyl- or
aryl-acyloxyalkyl groups of the structure --CH(R.sub.1 or
W.sub.5)O((CO)R.sub.37) or --CH(R.sub.1 or W.sub.5)((CO)OR.sub.38)
(linked to oxygen of the acidic group) wherein R.sub.37 and
R.sub.38 are alkyl, aryl, or alkylaryl groups (see U.S. Pat. No.
4,968,788). Frequently R.sub.37 and R.sub.38 are bulky groups such
as branched alkyl, ortho-substituted aryl, meta-substituted aryl,
or combinations thereof, including normal, secondary, iso- and
tertiary alkyls of 1-6 carbon atoms. An example is the
pivaloyloxymethyl group. These are of particular use with prodrugs
for oral administration. Examples of such useful R.sub.6a groups
are alkylacyloxymethyl esters and their derivatives, including
--CH(CH.sub.2CH.sub.2OCH.sub.3)OC(O)C(CH.sub- .3).sub.3, 43
[0278] --CH.sub.2OC(O)C.sub.10H.sub.15,
--CH.sub.2OC(O)C(CH.sub.3).sub.3,
--CH(CH.sub.2OCH.sub.3)OC(O)C(CH.sub.3).sub.3,
--CH(CH(CH.sub.3).sub.2)OC- (O)C(CH.sub.3).sub.3,
--CH.sub.2OC(O)CH.sub.2CH(CH.sub.3).sub.2,
--CH.sub.2OC(O)C.sub.6H.sub.11, --CH.sub.2OC(O)C.sub.6H.sub.5,
--CH.sub.2OC(O)C.sub.10H.sub.15, --CH.sub.2OC(O)CH.sub.2CH.sub.3,
--CH.sub.2OC(O)CH(CH.sub.3).sub.2, --CH.sub.2OC(O)C(CH.sub.3).sub.3
and --CH.sub.2OC(O)CH.sub.2C.sub.6H.sub.5.
[0279] For prodrug purposes, the ester typically chosen is one
heretofore used for antibiotic drugs, in particular the cyclic
carbonates, double esters, or the phthalidyl, aryl or alkyl
esters.
[0280] As noted, R.sub.6a, R.sub.6c and R.sub.6b groups optionally
are used to prevent side reactions with the protected group during
synthetic procedures, so they function as protecting groups (PRT)
during synthesis. For the most part the decision as to which groups
to protect, when to do so, and the nature of the PRT will be
dependent upon the chemistry of the reaction to be protected
against (e.g., acidic, basic, oxidative, reductive or other
conditions) and the intended direction of the synthesis. The PRT
groups do not need to be, and generally are not, the same if the
compound is substituted with multiple PRT. In general, PRT will be
used to protect carboxyl, hydroxyl or amino groups. The order of
deprotection to yield free groups is dependent upon the intended
direction of the synthesis and the reaction conditions to be
encountered, and may occur in any order as determined by the
artisan.
[0281] A very large number of R.sub.6a hydroxy protecting groups
and R.sub.6c amide-forming groups and corresponding chemical
cleavage reactions are described in "Protective Groups in Organic
Chemistry", Theodora W. Greene (John Wiley & Sons, Inc., New
York, 1991, ISBN 0-471-62301-6) ("Greene"). See also Kocienski,
Philip J.; "Protecting Groups" (Georg Thieme Verlag Stuttgart, New
York, 1994), which is incorporated by reference in its entirety
herein. In particular Chapter 1, Protecting Groups: An Overview,
pages 1-20, Chapter 2, Hydroxyl Protecting Groups, pages 21-94,
Chapter 3, Diol Protecting Groups, pages 95-117, Chapter 4,
Carboxyl Protecting Groups, pages 118-154, Chapter 5, Carbonyl
Protecting Groups, pages 155-184. For R.sub.6a carboxylic acid,
phosphonic acid, phosphonate, sulfonic acid and other protecting
groups for W.sub.1 acids see Greene as set forth below. Such groups
include by way of example and not limitation, esters, amides,
hydrazides, and the like.
[0282] In some embodiments the R.sub.6a protected acidic group is
an ester of the acidic group and R.sub.6a is the residue of a
hydroxyl-containing functionality. In other embodiments, an
R.sub.6c amino compound is used to protect the acid functionality.
The residues of suitable hydroxyl or amino-containing
functionalities are set forth above or are found in WO 95/07920. Of
particular interest are the residues of amino acids, amino acid
esters, polypeptides, or aryl alcohols. Typical amino acid,
polypeptide and carboxyl-esterified amino acid residues are
described on pages 11-18 and related text of WO 95/07920 as groups
L1 or L2. WO 95/07920 expressly teaches the amidates of phosphonic
acids, but it will be understood that such amidates are formed with
any of the acid groups set forth herein and the amino acid residues
set forth in WO 95/07920.
[0283] Typical R.sub.6a esters for protecting W.sub.1 acidic
functionalities are also described in WO 95/07920, again
understanding that the same esters can be formed with the acidic
groups herein as with the phosphonate of the '920 publication.
Typical ester groups are defined at least on WO 95/07920 pages
89-93 (under R.sup.31 or R.sup.35), the table on page 105, and
pages 21-23 (as R). Of particular interest are esters of
unsubstituted aryl such as phenyl or arylalkyl such benzyl, or
hydroxy-, halo-, alkoxy-, carboxy- and/or
alkylestercarboxy-substituted aryl or alkylaryl, especially phenyl,
ortho-ethoxyphenyl, or C.sub.1-C.sub.4 alkylestercarboxyphenyl
(salicylate C.sub.1-C.sub.12 alkylesters).
[0284] The protected acidic groups W.sub.1, particularly when using
the esters or amides of WO 95/07920, are useful as prodrugs for
oral administration. However, it is not essential that the W.sub.1
acidic group be protected in order for the compounds of this
invention to be effectively administered by the oral route. When
the compounds of the invention having protected groups, in
particular amino acid amidates or substituted and unsubstituted
aryl esters are administered systemically or orally they are
capable of hydrolytic cleavage in vivo to yield the free acid.
[0285] One or more of the acidic hydroxyls are protected. If more
than one acidic hydroxyl is protected then the same or a different
protecting group is employed, e.g., the esters may be different or
the same, or a mixed amidate and ester may be used.
[0286] Typical R.sub.6a hydroxy protecting groups described in
Greene (pages 14-118) include Ethers (Methyl); Substituted Methyl
Ethers (Methoxymethyl, Methylthiomethyl, t-Butylthiomethyl,
(Phenyldimethylsilyl)methoxymethyl, Benzyloxymethyl,
p-Methoxybenzyloxymethyl, (4-Methoxyphenoxy)methyl, Guaiacolmethyl,
t-Butoxymethyl, 4-Pentenyloxymethyl, Siloxymethyl,
2-Methoxyethoxymethyl, 2,2,2-Trichloroethoxymethyl,
Bis(2-chloroethoxy)methyl, 2-(Trimethylsilyl)ethoxymethyl,
Tetrahydropyranyl, 3-Bromotetrahydropyranyl,
Tetrahydropthiopyranyl, 1-Methoxycyclohexyl,
4-Methoxytetrahydropyranyl, 4-Methoxytetrahydrothiopyranyl,
4-Methoxytetrahydropthiopyranyl S,S-Dioxido,
1-[(2-Chloro-4-methyl)phenyl- ]-4-methoxypiperidin-4-yl, 35,
1,4-Dioxan-2-yl, Tetrahydrofuranyl, Tetrahydrothiofuranyl,
2,3,3a,4,5,6,7,7a-Octahydro-7,8,8-trimethyl-4,7-me-
thanobenzofuran-2-yl)); Substituted Ethyl Ethers (1-Ethoxyethyl,
1-(2-Chloroethoxy)ethyl, 1-Methyl-1-methoxyethyl,
1-Methyl-1-benzyloxyeth- yl, 1-Methyl-1-benzyloxy-2-fluoroethyl,
2,2,2-Trichloroethyl, 2-Trimethylsilylethyl,
2-(Phenylselenyl)ethyl, t-Butyl, Allyl, p-Chlorophenyl,
p-Methoxyphenyl, 2,4-Dinitrophenyl, Benzyl); Substituted Benzyl
Ethers (p-Methoxybenzyl, 3,4-Dimethoxybenzyl, o-Nitrobenzyl,
p-Nitrobenzyl, p-Halobenzyl, 2,6-Dichlorobenzyl, p-Cyanobenzyl,
p-Phenylbenzyl, 2- and 4-Picolyl, 3-Methyl-2-picolyl N-Oxido,
Diphenylmethyl, p,p'-Dinitrobenzhydryl, 5-Dibenzosuberyl,
Triphenylmethyl, .alpha.-Naphthyldiphenylmethyl,
p-methoxyphenyldiphenylm- ethyl, Di(p-methoxyphenyl)phenylmethyl,
Tri(p-methoxyphenyl)methyl,
4-(4'-Bromophenacyloxy)phenyldiphenylmethyl,
4,4',4"-Tris(4,5-dichloropht- halimidophenyl)methyl,
4,4',4"-Tris(levulinoyloxyphenyl)methyl,
4,4',4"-Tris(benzoyloxyphenyl)methyl,
3-(Imidazol-1-ylmethyl)bis(4',4"-di- methoxyphenyl)methyl,
1,1-Bis(4-methoxyphenyl)-1'-pyrenylmethyl, 9-Anthryl,
9-(9-Phenyl)xanthenyl, 9-(9-Phenyl-10-oxo)anthryl,
1,3-Benzodithiolan-2-yl, Benzisothiazolyl S,S-Dioxido); Silyl
Ethers (Trimethylsilyl, Triethylsilyl, Triisopropylsilyl,
Dimethylisopropylsilyl, Diethylisopropylsily, Dimethylthexylsilyl,
t-Butyldimethylsilyl, t-Butyldiphenylsilyl, Tribenzylsilyl,
Tri-p-xylylsilyl, Triphenylsilyl, Diphenylmethylsilyl,
t-Butylmethoxyphenylsilyl); Esters (Formate, Benzoylformate,
Acetate, Choroacetate, Dichloroacetate, Trichloroacetate,
Trifluoroacetate, Methoxyacetate, Triphenylmethoxyacetate,
Phenoxyacetate, p-Chlorophenoxyacetate, p-poly-Phenylacetate,
3-Phenylpropionate, 4-Oxopentanoate (Levulinate),
4,4-(Ethylenedithio)pentanoate, Pivaloate, Adamantoate, Crotonate,
4-Methoxycrotonate, Benzoate, p-Phenylbenzoate,
2,4,6-Trimethylbenzoate (Mesitoate)); Carbonates (Methyl,
9-Fluorenylmethyl, Ethyl, 2,2,2-Trichloroethyl,
2-(Trimethylsilyl)ethyl, 2-(Phenylsulfonyl)ethyl,
2-(Triphenylphosphonio)ethyl, Isobutyl, Vinyl, Allyl,
p-Nitrophenyl, Benzyl, p-Methoxybenzyl, 3,4-Dimethoxybenzyl,
o-Nitrobenzyl, p-Nitrobenzyl, S-Benzyl Thiocarbonate,
4-Ethoxy-1-naphthyl, Methyl Dithiocarbonate); Groups With Assisted
Cleavage (2-lodobenzoate, 4-Azidobutyrate,
4-Niotro-4-methylpentanoate, o-(Dibromomethyl)benzoate,
2-Formylbenzenesulfonate, 2-(Methylthiomethoxy)ethyl Carbonate,
4-(Methylthiomethoxy)butyrate,
2-(Methylthiomethoxymethyl)benzoate); Miscellaneous Esters
(2,6-Dichloro-4-methylphenoxyacetate,
2,6-Dichloro-4-(1,1,3,3tetramethylb- utyl)phenoxyacetate,
2,4-Bis(1,1-dimethylpropyl)phenoxyacetate, Chorodiphenylacetate,
Isobutyrate, Monosuccinoate, (E)-2-Methyl-2-butenoate (Tigloate),
o-(Methoxycarbonyl)benzoate, p-poly-Benzoate, .alpha.-Naphthoate,
Nitrate, Alkyl N,N,N',N'-Tetramethylphosphorodiamidate,
N-Phenylcarbamate, Borate, Dimethylphosphinothioyl,
2,4-Dinitrophenylsulfenate); and Sulfonates (Sulfate,
Methanesulfonate (Mesylate), Benzylsulfonate, Tosylate).
[0287] More typically, R.sub.6a hydroxy protecting groups include
substituted methyl ethers, substituted benzyl ethers, silyl ethers,
and esters including sulfonic acid esters, still more typically,
trialkylsilyl ethers, tosylates and acetates.
[0288] Typical 1,2-diol protecting groups (thus, generally where
two OH groups are taken together with the R.sub.6a protecting
functionality) are described in Greene at pages 118-142 and include
Cyclic Acetals and Ketals (Methylene, Ethylidene,
1-t-Butylethylidene, 1-Phenylethylidene,
(4-Methoxyphenyl)ethylidene, 2,2,2-Trichloroethylidene, Acetonide
(Isopropylidene), Cyclopentylidene, Cyclohexylidene,
Cycloheptylidene, Benzylidene, p-Methoxybenzylidene,
2,4-Dimethoxybenzylidene, 3,4-Dimethoxybenzylidene,
2-Nitrobenzylidene); Cyclic Ortho Esters (Methoxymethylene,
Ethoxymethylene, Dimethoxymethylene, 1-Methoxyethylidene,
1-Ethoxyethylidine, 1,2-Dimethoxyethylidene,
.alpha.-Methoxybenzylidene, 1-(N,N-Dimethylamino)ethylidene
Derivative, .alpha.-(N,N-Dimethylamino)benzylidene Derivative,
2-Oxacyclopentylidene); Silyl Derivatives (Di-t-butylsilylene
Group, 1,3-(1,1,3,3-Tetraisopropyldisiloxanylidene), and
Tetra-t-butoxydisiloxan- e-1,3-diylidene), Cyclic Carbonates,
Cyclic Boronates, Ethyl Boronate and Phenyl Boronate.
[0289] More typically, 1,2-diol protecting groups include those
shown in Table B, still more typically, epoxides, acetonides,
cyclic ketals and aryl acetals.
2 TABLE B 44 45 46 47 48 49 50 51 52 53 54
[0290] wherein R.sup.9 is C.sub.1-C.sub.6 alkyl.
[0291] R.sub.6b is H, a protecting group for amino or the residue
of a carboxyl-containing compound, in particular H, --C(O)R.sub.4,
an amino acid, a polypeptide or a protecting group not
--C(O)R.sub.4, amino acid or polypeptide. Amide-forming R.sub.6b
are found for instance in group G.sub.1. WhenR.sub.6b is an amino
acid or polypeptide it has the structure
R.sub.15NHCH(R.sub.16)C(O)--, where R.sub.15 is H, an amino acid or
polypeptide residue, or R.sub.5, and R.sub.16 is defined below.
[0292] R.sub.16 is lower alkyl or lower alkyl (C.sub.1-C.sub.6)
substituted with amino, carboxyl, amide, carboxyl ester, hydroxyl,
C.sub.6-C.sub.7 aryl, guanidinyl, imidazolyl, indolyl, sulffhydryl,
sulfoxide, and/or alkylphosphate. R.sub.10also is taken together
with the amino acid .alpha. N to form a proline residue
(R.sub.10.dbd.--CH.sub.2).- sub.3--). However, R.sub.10 is
generally the side group of a naturally-occuring amino acid such as
H, --CH.sub.3, --CH(CH.sub.3).sub.2,
--CH.sub.2--CH(CH.sub.3).sub.2, --CHCH.sub.3--CH.sub.2--CH.sub.3,
--CH.sub.2-C.sub.6H.sub.5, --CH.sub.2CH.sub.2--S--CH.sub.3,
--CH.sub.2OH, --CH(OH)--CH.sub.3, --CH.sub.2--SH,
--CH.sub.2--C.sub.6H.sub.4OH, --CH.sub.2--CO--NH.sub.2,
--CH.sub.2--CH.sub.2--CO--NH.sub.2, --CH.sub.2--COOH,
--CH.sub.2--CH.sub.2--COOH, --(CH.sub.2).sub.4--NH.sub.2 and
--(CH.sub.2).sub.3--NH--C(NH.sub.2)--NH.sub.2. R.sub.10 also
includes 1-guanidinoprop-3-yl, benzyl, 4-hydroxybenzyl,
imidazol-4-yl, indol-3-yl, methoxyphenyl and ethoxyphenyl.
[0293] R.sub.6b are residues of carboxylic acids for the most part,
but any of the typical amino protecting groups described by Greene
at pages 315-385 are useful. They include Carbamates (methyl and
ethyl, 9-fluorenylmethyl, 9(2-sulfo)fluoroenylmethyl,
9-(2,7-dibromo)fluorenylme- thyl,
2,7-di-t-buthyl-[9-(10,10-dioxo-10,10,10,10-tetrahydrothioxanthyl)]m-
ethyl, 4-methoxyphenacyl); Substituted Ethyl (2,2,2-trichoroethyl,
2-trimethylsilylethyl, 2-phenylethyl,
1-(1-adamantyl)-1-methylethyl, 1,1-dimethyl-2-haloethyl,
1,1-dimethyl-2,2-dibromoethyl, 1,1-dimethyl-2,2,2-trichloroethyl,
1-methyl-1-(4-biphenylyl)ethyl,
1-(3,5-di-t-butylphenyl)-1-methylethyl, 2-(2'- and
4'-pyridyl)ethyl, 2-(N,N-dicyclohexylcarboxamido)ethyl, t-butyl,
1-adamantyl, vinyl, allyl, 1-isopropylallyl, cinnamyl,
4-nitrocinnamyl, 8-quinolyl, N-hydroxypiperidinyl, alkyldithio,
benzyl, p-methoxybenzyl, p-nitrobenzyl, p-bromobenzyl,
p-chorobenzyl, 2,4-dichlorobenzyl, 4-methylsulfinylbenzyl,
9-anthrylmethyl, diphenylmethyl); Groups With Assisted Cleavage
(2-methylthioethyl, 2-methylsulfonylethyl,
2-(p-toluenesulfonyl)ethyl, [2-(1,3-dithianyl)]methyl,
4-methylthiophenyl, 2,4-dimethylthiophenyl, 2-phosphonioethyl,
2-triphenylphosphonioisopropyl, 1,1-dimethyl-2-cyanoethyl,
m-choro-p-acyloxybenzyl, p-(dihydroxyboryl)benzyl,
5-benzisoxazolylmethyl, 2-(trifluoromethyl)-6-chromonylmethyl);
Groups Capable of Photolytic Cleavage (m-nitrophenyl,
3,5-dimethoxybenzyl, o-nitrobenzyl, 3,4-dimethoxy-6-nitrobenzyl,
phenyl(o-nitrophenyl)methyl); Urea-Type Derivatives
(phenothiazinyl-(10)-carbonyl, N'-p-toluenesulfonylaminocarbonyl,
N'-phenylaminothiocarbonyl); Miscellaneous Carbamates (t-amyl,
S-benzyl thiocarbamate, p-cyanobenzyl, cyclobutyl, cyclohexyl,
cyclopentyl, cyclopropylmethyl, p-decyloxybenzyl,
diisopropylmethyl, 2,2-dimethoxycarbonylvinyl,
o-(N,N-dimethylcarboxamido- )benzyl,
1,1-dimethyl-3-(N,N-dimethylcarboxamido)propyl,
1,1-dimethylpropynyl, di(2-pyridyl)methyl, 2-furanylmethyl,
2-Iodoethyl, Isobornyl, Isobutyl, Isonicotinyl,
p-(p'-Methoxyphenylazo)benzyl, 1-methylcyclobutyl,
1-methylcyclohexyl, 1-methyl-1-cyclopropylmethyl,
1-methyl-1-(3,5-dimethoxyphenyl)ethyl,
1-methyl-1-(p-phenylazophenyl)ethy- l, 1-methyl-1-phenylethyl,
1-methyl-1-(4-pyridyl)ethyl, phenyl, p-(phenylazo)benzyl,
2,4,6-tri-t-butylphenyl, 4-(trimethylammonium)benzyl- ,
2,4,6-trimethylbenzyl); Amides (N-formyl, N-acetyl, N-choroacetyl,
N-trichoroacetyl, N-trifluoroacetyl, N-phenylacetyl,
N-3-phenylpropionyl, N-picolinoyl, N-3-pyridylcarboxamide,
N-benzoylphenylalanyl, N-benzoyl, N-p-phenylbenzoyl); Amides With
Assisted Cleavage (N-o-nitrophenylacetyl, N-o-nitrophenoxyacetyl,
N-acetoacetyl, (N'-dithiobenzyloxycarbonylamino)a- cetyl,
N-3-(p-hydroxyphenyl)propionyl, N-3-(o-nitrophenyl)propionyl,
N-2-methyl-2-(o-nitrophenoxy)propionyl,
N-2-methyl-2-(o-phenylazophenoxy)- propionyl, N-4-chlorobutyryl,
N-3-methyl-3-nitrobutyryl, N-o-nitrocinnamoyl, N-acetylmethionine,
N-o-nitrobenzoyl, N -o-(benzoyloxymethyl)benzoyl,
4,5-diphenyl-3-oxazolin-2-one); Cyclic Imide Derivatives
(N-phthalimide, N-dithiasuccinoyl, N-2,3-diphenylmaleoyl,
N-2,5-dimethylpyrrolyl, N-1,1,4,4-tetramethyldisil-
ylazacyclopentane adduct, 5-substituted
1,3-dimethyl-1,3,5-triazacyclohexa- n-2-one, 5-substituted
1,3-dibenzyl-1,3-5-triazacyclohexan-2-one, 1-substituted
3,5-dinitro-4-pyridonyl); N-Alkyl and N-Aryl Amines (N-methyl,
N-allyl, N-[2-(trimethylsilyl)ethoxy]methyl, N-3-acetoxypropyl,
N-(1-isopropyl-4-nitro-2-oxo-3-pyrrolin-3-yl), Quaternary Ammonium
Salts, N-benzyl, N-di(4-methoxyphenyl)methyl, N-5-dibenzosuberyl,
N-triphenylmethyl, N-(4-methoxyphenyl)diphenylmethyl,
N-9-phenylfluorenyl, N-2,7-dichloro-9-fluorenylmethylene,
N-ferrocenylmethyl, N-2-picolylamine N'-oxide), Imine Derivatives
(N-1,1-dimethylthiomethylene, N-benzylidene, N-p-methoxybenylidene,
N-diphenylmethylene, N-[(2-pyridyl)mesityl]methylene,
N,(N',N'-dimethylaminomethylene, N,N'-isopropylidene,
N-p-nitrobenzylidene, N-salicylidene, N-5-chlorosalicylidene,
N-(5-chloro-2-hydroxyphenyl)phenylmethylene, N-cyclohexylidene);
Enamine Derivatives (N-(5,5-dimethyl-3-oxo-1-cyclohexenyl));
N-Metal Derivatives (N-borane derivatives, N-diphenylborinic acid
derivatives, N-[phenyl(pentacarbonylchromium- or
-tungsten)]carbenyl, N-copper or N-zinc chelate); N-N Derivatives
(N-nitro, N-nitroso, N-oxide); N-P Derivatives
(N-diphenylphosphinyl, N-dimethylthiophosphinyl,
N-diphenylthiophosphinyl, N-dialkyl phosphoryl, N-dibenzyl
phosphoryl, N-diphenyl phosphoryl); N-Si Derivatives; N-S
Derivatives; N-Sulfenyl Derivatives (N-benzenesulfenyl,
N-o-nitrobenzenesulfenyl, N-2,4-dinitrobenzenesulfenyl,
N-pentachlorobenzenesulfenyl, N-2-nitro-4-methoxybenzenesulfenyl,
N-triphenylmethylsulfenyl, N-3-nitropyridinesulfenyl); and
N-sulfonyl Derivatives (N-p-toluenesulfonyl, N-benzenesulfonyl,
N-2,3,6-trimethyl-4-methoxybenze- nesulfonyl,
N-2,4,6-trimethoxybenzenesulfonyl, N-2,6-dimethyl-4-methoxyben-
zenesulfonyl, N-pentamethylbenzenesulfonyl,
N-2,3,5,6,-tetramethyl-4-metho- xybenzenesulfonyl,
N-4-methoxybenzenesulfonyl, N-2,4,6-trimethylbenzenesul- fonyl,
N-2,6-dimethoxy-4-methylbenzenesulfonyl,
N-2,2,5,7,8-pentamethylchr- oman-6-sulfonyl, N-methanesulfonyl,
N-.beta.-trimethylsilyethanesulfonyl, N-9-anthracenesulfonyl,
N-4-(4',8'-dimethoxynaphthylmethyl)benzenesulfony- l,
N-benzylsulfonyl, N-trifluoromethylsulfonyl,
N-phenacylsulfonyl).
[0294] More typically, protected amino groups include carbamates
and amides, still more typically, --NHC(O)R.sub.1 or
--CH.dbd.CR.sub.1N(R.sub- .1).sub.2. Another protecting group, also
usefull as a prodrug at the G.sub.1 site, particularly for amino or
--NH(R.sub.5), is: 55
[0295] see for example Alexander, J.; et al.; J. Med. Chem. 1996,
329 480-486.
[0296] R.sub.6c is H or the residue of an amino-containing
compound, in particular an amino acid, a polypeptide, a protecting
group, --NHSO.sub.2R.sub.4, NHC(O)R.sub.4, --N(R.sub.4).sub.2,
NH.sub.2 or --NH(R.sub.4)(H), whereby for example the carboxyl or
phosphonic acid groups of W.sub.1 are reacted with the amine to
form an amide, as in --C(O)R.sub.6c,--P(O)(R.sub.6c).sub.2
or--P(O)(OH)(R.sub.6c). In general, R.sub.6c has the structure
R.sub.17C(O)CH(R.sub.16)NH--, where R.sub.17 is OH, OR.sub.6a,
OR.sub.5, an amino acid or a polypeptide residue.
[0297] Amino acids are low molecular weight compounds, on the order
of less than about 1,000 MW, that contain at least one amino or
imino group and at least one carboxyl group. Generally the amino
acids will be found in nature, i.e., can be detected in biological
material such as bacteria or other microbes, plants, animals or
man. Suitable amino acids typically are alpha amino acids, i.e.
compounds characterized by one amino or imino nitrogen atom
separated from the carbon atom of one carboxyl group by a single
substituted or unsubstituted alpha carbon atom. Of particular
interest are hydrophobic residues such as mono-or di-alkyl or aryl
amino acids, cycloalkylamino acids and the like. These residues
contribute to cell permeability by increasing the partition
coefficient of the parental drug. Typically, the residue does not
contain a sulfhydryl or guanidino substituent.
[0298] Naturally-occurring amino acid residues are those residues
found naturally in plants, animals or microbes, especially proteins
thereof. Polypeptides most typically will be substantially composed
of such naturally-occurring amino acid residues. These amino acids
are glycine, alanine, valine, leucine, isoleucine, serine,
threonine, cysteine, methionine, glutamic acid, aspartic acid,
lysine, hydroxylysine, arginine, histidine, phenylalanine,
tyrosine, tryptophan, proline, asparagine, glutamine and
hydroxyproline.
[0299] When R.sub.6b and R.sub.6c are single amino acid residues or
polypeptides they usually are substituted at R.sub.3, W.sub.6,
W.sub.1 and/or W.sub.2, but typically only W.sub.1 or W.sub.2.
These conjugates are produced by forming an amide bond between a
carboxyl group of the amino acid (or C-terminal amino acid of a
polypeptide for example) and W.sub.2. Similarly, conjugates are
formed between W.sub.1 and an amino group of an amino acid or
polypeptide. Generally, only one of any site in the parental
molecule is amidated with an amino acid as described herein,
although it is within the scope of this invention to introduce
amino acids at more than one permitted site. Usually, a carboxyl
group of W.sub.1 is amidated with an amino acid. In general, the
.alpha.-amino or .alpha.-carboxyl group of the amino acid or the
terminal amino or carboxyl group of a polypeptide are bonded to the
parental functionalities, i.e., carboxyl or amino groups in the
amino acid side chains generally are not used to form the amide
bonds with the parental compound (although these groups may need to
be protected during synthesis of the conjugates as described
further below).
[0300] With respect to the carboxyl-containing side chains of amino
acids or polypeptides it will be understood that the carboxyl group
optionally will be blocked, e.g. by R.sub.6a, esterified with
R.sub.5 or amidated with R.sub.6c. Similarly, the amino side chains
R.sub.16 optionally will be blocked with R.sub.6b or substituted
with R.sub.5.
[0301] Such ester or amide bonds with side chain amino or carboxyl
groups, like the esters or amides with the parental molecule,
optionally are hydrolyzable in vivo or in vitro under acidic
(pH<3) or basic (pH>10) conditions. Alternatively, they are
substantially stable in the gastrointestinal tract of humans but
are hydrolyzed enzymatically in blood or in intracellular
environments. The esters or amino acid or polypeptide amidates also
are useful as intermediates for the preparation of the parental
molecule containing free amino or carboxyl groups. The free acid or
base of the parental compound, for example, is readily formed from
the esters or amino acid or polypeptide conjugates of this
invention by conventional hydrolysis procedures.
[0302] When an amino acid residue contains one or more chiral
centers, any of the D, L, meso, threo or erythro (as appropriate)
racemates, scalemates or mixtures thereof may be used. In general,
if the intermediates are to be hydrolyzed non-enzymatically (as
would be the case where the amides are used as chemical
intermediates for the free acids or free amines), D isomers are
useful. On the other hand, L isomers are more versatile since they
can be susceptible to both non-enzymatic and enzymatic hydrolysis,
and are more efficiently transported by amino acid or dipeptidyl
transport systems in the gastrointestinal tract.
[0303] Examples of suitable amino acids whose residues are
represented by R.sub.6b and R.sub.6c include the following:
[0304] Glycine;
[0305] Aminopolycarboxylic acids, e.g., aspartic acid,
.beta.-hydroxyaspartic acid, glutamic acid, .beta.-hydroxyglutamic
acid, .beta.-methylaspartic acid, .beta.-methylglutamic acid,
.beta.,.beta.-dimethylaspartic acid, .gamma.-hydroxyglutamic acid,
.beta.,.gamma.-dihydroxyglutamic acid, .beta.-phenylglutamic acid,
.gamma.-methyleneglutamic acid, 3-aminoadipic acid, 2-aminopimelic
acid, 2-aminosuberic acid and 2-aminosebacic acid;
[0306] Amino acid amides such as glutamine and asparagine;
[0307] Polyamino- or polybasic-monocarboxylic acids such as
arginine, lysine, .beta.-aminoalanine, .gamma.-aminobutyrine,
ornithine, citruline, homoarginine, homocitrulline, hydroxylysine,
allohydroxylsine and diaminobutyric acid;
[0308] Other basic amino acid residues such as histidine;
[0309] Diaminodicarboxylic acids such as
.alpha.,.alpha.'-diaminosuccinic acid,
.alpha.,.alpha.'-diaminoglutaric acid,
.alpha.,.alpha.'-diaminoadip- ic acid,
.alpha.,.alpha.'-diaminopimelic acid, .alpha.,.alpha.'-diamino-.b-
eta.-hydroxypimelic acid, .alpha.,.alpha.'-diaminosuberic acid,
.alpha.,.alpha.'-diaminoazelaic acid, and
.alpha.,.alpha.'-diaminosebacic acid;
[0310] Imino acids such as proline, hydroxyproline,
allohydroxyproline, .gamma.-methylproline, pipecolic acid,
5-hydroxypipecolic acid, and azetidine-2-carboxylic acid;
[0311] A mono- or di-alkyl (typically C.sub.1-C.sub.8 branched or
normal) amino acid such as alanine, valine, leucine, allylglycine,
butyrine, norvaline, norleucine, heptyline, .alpha.-methylserine,
.alpha.-amino-.alpha.-methyl-.gamma.-hydroxyvaleric acid,
.alpha.-amino-.alpha.-methyl-.delta.-hydroxyvaleric acid,
.alpha.-amino-.alpha.-methyl-.epsilon.-hydroxycaproic acid,
isovaline, .alpha.-methylglutamic acid, .alpha.-aminoisobutyric
acid, .alpha.-aminodiethylacetic acid,
.alpha.-aminodiisopropylacetic acid, .alpha.-aminodi-n-propylacetic
acid, .alpha.-aminodiisobutylacetic acid,
.alpha.-aminodi-n-butylacetic acid,
.alpha.-aminoethylisopropylacetic acid,
.alpha.-amino-n-propylacetic acid, .alpha.-aminodiisoamyacetic
acid, .alpha.-methylaspartic acid, .alpha.-methylglutamic acid,
1-aminocyclopropane-1-carboxylic acid, isoleucine, alloisoleucine,
tert-leucine, .beta.-methyltryptophan and
.alpha.-amino-.beta.-ethyl-.bet- a.-phenylpropionic acid;
[0312] .beta.-phenylserinyl;
[0313] Aliphatic .alpha.-amino-.beta.-hydroxy acids such as serine,
.beta.-hydroxyleucine, .beta.-hydroxynorleucine,
.beta.-hydroxynorvaline, and .alpha.-amino-.beta.-hydroxystearic
acid;
[0314] .alpha.-Amino, .alpha.-, .gamma.-, .delta.- or
.epsilon.-hydroxy acids such as homoserine,
.gamma.-hydroxynorvaline, .delta.-hydroxynorvaline and
epsilon-hydroxynorleucine residues; canavine and canaline;
.gamma.-hydroxyornithine;
[0315] 2-hexosaminic acids such as D-glucosaminic acid or
D-galactosaminic acid;
[0316] .alpha.-Amino-.beta.-thiols such as penicillamine,
.beta.-thiolnorvaline or .beta.-thiolbutyrine;
[0317] Other sulfur containing amino acid residues including
cysteine; homocystine, .beta.-phenylmethionine, methionine,
S-allyl-L-cysteine sulfoxide, 2-thiolhistidine, cystathionine, and
thiol ethers of cysteine or homocysteine;
[0318] Phenylalanine, tryptophan and ring-substituted .alpha. amino
acids such as the phenyl- or cyclohexylamino acids
a-aminophenylacetic acid, .alpha.-aminocyclohexylacetic acid and
.alpha.-amino-.beta.-cyclohexylpro- pionic acid; phenylalanine
analogues and derivatives comprising aryl, lower alkyl, hydroxy,
guanidino, oxyalkylether, nitro, sulfur or halo-substituted phenyl
(e.g., tyrosine, methyltyrosine and o-chloro-, p-chloro-,
3,4-dicloro, o-, m- or p-methyl-, 2,4,6-trimethyl-,
2-ethoxy-5-nitro-, 2-hydroxy-5-nitro- and p-nitro-phenylalanine);
furyl-, thienyl-, pyridyl-, pyrimidinyl-, purinyl- or
naphthyl-alanines; and tryptophan analogues and derivatives
including kynurenine, 3-hydroxykynurenine, 2-hydroxytryptophan and
4-carboxytryptophan;
[0319] .alpha.-Amino substituted amino acids including sarcosine
(N-methylglycine), N-benzylglycine, N-methylalanine,
N-benzylalanine, N-methylphenylalanine, N-benzylphenylalanine,
N-methylvaline and N-benzylvaline; and
[0320] .alpha.-Hydroxy and substituted x-hydroxy amino acids
including serine, threonine, allothreonine, phosphoserine and
phosphothreonine.
[0321] Polypeptides are polymers of amino acids in which a carboxyl
group of one amino acid monomer is bonded to an amino or imino
group of the next amino acid monomer by an amide bond. Polypeptides
include dipeptides, low molecular weight polypeptides (about
1500-5000 MW) and proteins. Proteins optionally contain 3, 5, 10,
50, 75, 100 or more residues, and suitably are substantially
sequence-homologous with human, animal, plant or microbial
proteins. They include enzymes (e.g., hydrogen peroxidase) as well
as immunogens such as KLH, or antibodies or proteins of any type
against which one wishes to raise an immune response. The nature
and identity of the polypeptide may vary widely.
[0322] The polypeptide amidates are useful as immunogens in raising
antibodies against either the polypeptide (if it is not immunogenic
in the animal to which it is administered) or against the epitopes
on the remainder of the compound of this invention.
[0323] Antibodies capable of binding to the parental non-peptidyl
compound are used to separate the parental compound from mixtures,
for example in diagnosis or manufacturing of the parental compound.
The conjugates of parental compound and polypeptide generally are
more immunogenic than the polypeptides in closely homologous
animals, and therefore make the polypeptide more immunogenic for
facilitating raising antibodies against it. Accordingly, the
polypeptide or protein may not need to be immunogenic in an animal
typically used to raise antibodies, e.g., rabbit, mouse, horse, or
rat, but the final product conjugate should be immunogenic in at
least one of such animals. The polypeptide optionally contains a
peptidolytic enzyme cleavage site at the peptide bond between the
first and second residues adjacent to the acidic heteroatom. Such
cleavage sites are flanked by enzymatic recognition structures,
e.g. a particular sequence of residues recognized by a peptidolytic
enzyme.
[0324] Peptidolytic enzymes for cleaving the polypeptide conjugates
of this invention are well known, and in particular include
carboxypeptidases. Carboxypeptidases digest polypeptides by
removing C-terminal residues, and are specific in many instances
for particular C-terminal sequences. Such enzymes and their
substrate requirements in general are well known. For example, a
dipeptide (having a given pair of residues and a free carboxyl
terminus) is covalently bonded through its ax-amino group to the
phosphorus or carbon atoms of the compounds herein. In embodiments
where W.sub.1 is phosphonate it is expected that this peptide will
be cleaved by the appropriate peptidolytic enzyme, leaving the
carboxyl of the proximal amino acid residue to autocatalytically
cleave the phosphonoamidate bond.
[0325] Suitable dipeptidyl groups (designated by their single
letter code) are AA, AR, AN, AD, AC, AE, AQ, AG, AH, AI, AL, AK,
AM, AF, AP, AS, AT, AW, AY, AV, RA, RR, RN, RD, RC, RE, RQ, RG, RH,
RI, RL, RK, RM, RF, RP, RS, RT, RW, RY, RV, NA, NR, NN, ND, NC, NE,
NQ, NG, NH, NI, NL, NK, NM, NF, NP, NS, NT, NW, NY, NV, DA, DR, DN,
DD, DC, DE, DQ, DG, DH, DI, DL, DK, DM, DF, DP, DS, DT, DW, DY, DV,
CA, CR, CN, CD, CC, CE, CQ, CG, CH, CI, CL, CK, CM, CF, CP, CS, CT,
CW, CY, CV, EA, ER, EN, ED, EC, EE, EQ, EG, EH, EI, EL, EK, EM, EF,
EP, ES, ET, EW, EY, EV, QA, QR, QN, QD, QC, QE, QQ, QG, QH, QI, QL,
QK, QM, QF, QP, QS, QT, QW, QY, QV, GA, GR, GN, GD, GC, GE, GQ, GG,
GH, GI, GL, GK, GM, GF, GP, GS, GT, GW, GY, GV, HA, HR, HN, HD, HC,
HE, HQ, HG, HH, HI, HL, HK, HM, HF, HP, HS, HT, HW, HY, HV, IA, IR,
IN, ID, IC, IE, IQ, IG, IH, II, IL, IK, IM, IF, IP, IS, IT, IW, IY,
IV, LA, LR, LN, LD, LC, LE, LQ, LG, LH, LI, LL, LK, LM, LF, LP, LS,
LT, LW, LY, LV, KA, KR, KN, KD, KC, KE, KQ, KG, KH, KI, KL, KK, KM,
KF, KP, KS, KT, KW, KY, KV, MA, MR, MN, MD, MC, ME, MQ, MG, MH, MI,
ML, MK, MM, MF, MP, MS, MT, MW, MY, MV, FA, FR, FN, FD, FC, FE, FQ,
FG, FH, FI, FL, FK, FM, FF, FP, FS, FT, FW, FY, FV, PA, PR, PN, PD,
PC, PE, PQ, PG, PH, PI, PL, PK, PM, PF, PP, PS, PT, PW, PY, PV, SA,
SR, SN, SD, SC, SE, SQ, SG, SH, SI, SL, SK, SM, SF, SP, SS, ST, SW,
SY, SV, TA, TR, TN, TD, TC, TE, TQ, TG, TH, TI, TL, TK, TM, TF, TP,
TS, TT, TW, TY, TV, WA, WR, WN, WD, WC, WE, WQ, WG, WH, WI, WL, WK,
WM, WF, WP, WS, WT, WW, WY, WV, YA, YR, YN, YD, YC, YE, YQ, YG, YH,
YI, YL, YK, YM, YF, YP, YS, YT, YW, YY, YV, VA, VR, VN, VD, VC, VE,
VQ, VG, VH, VI, VL, VK, VM, VF, VP, VS, VT, VW, VY and VV.
[0326] Tripeptide residues are also useful as R.sub.6b or R.sub.6c.
When W.sub.1 is phosphonate, the sequence -X4-pro-X5-(where X.sub.4
is any amino acid residue and X5 is an amino acid residue, a
carboxyl ester of proline, or hydrogen) will be cleaved by luminal
carboxypeptidase to yield X4 with a free carboxyl, which in turn is
expected to autocatalytically cleave the phosphonoamidate bond. The
carboxy group of X.sub.5 optionally is esterified with benzyl.
[0327] Dipeptide or tripeptide species can be selected on the basis
of known transport properties and/or susceptibility to peptidases
that can affect transport to intestinal mucosal or other cell
types. Dipeptides and tripeptides lacking an .alpha.-amino group
are transport substrates for the peptide transporter found in brush
border membrane of intestinal mucosal cells (Bai, J. P. F., "Pharm
Res." 9:969-978 (1992). Transport competent peptides can thus be
used to enhance bioavailability of the amidate compounds. Di- or
tripeptides having one or more amino acids in the D configuration
are also compatible with peptide transport and can be utilized in
the amidate compounds of this invention. Amino acids in the D
configuration can be used to reduce the susceptibility of a di- or
tripeptide to hydrolysis by proteases common to the brush border
such as aminopeptidase N (EC 3.4.11.2). In addition, di- or
tripeptides alternatively are selected on the basis of their
relative resistance to hydrolysis by proteases found in the lumen
of the intestine. For example, tripeptides or polypeptides lacking
asp and/or glu are poor substrates for aminopeptidase A (EC
3.4.11.7), di- or tripeptides lacking amino acid residues on the
N-terminal side of hydrophobic amino acids (leu, tyr, phe, val,
trp) are poor substrates for endopeptidase 24.11 (EC 3.4.24.11),
and peptides lacking a pro residue at the penultimate position at a
free carboxyl terminus are poor substrates for carboxypeptidase P
(EC 3.4.17). Similar considerations can also be applied to the
selection of peptides that are either relatively resistant or
relatively susceptible to hydrolysis by cytosolic, renal, hepatic,
serum or other peptidases. Such poorly cleaved polypeptide amidates
are immunogens or are useful for bonding to proteins in order to
prepare immunogens.
[0328] Another embodiment of the invention relates to compositions
of the formula (VII) or (VIII): 56
[0329] wherein E.sub.1, G.sub.1, T.sub.1, U.sub.1, J.sub.1,
J.sub.1a, J.sub.2 and J.sub.2a are as defined above except:
[0330] T.sub.1 is --NR.sub.1W.sub.3, a heterocycle, or is taken
together with G.sub.1 to form a group having the structure 57
[0331] X.sub.1 is a bond, --O--, --N(H)--, --N(R.sub.5)--, --S--,
--SO--, or --SO.sub.2--; and provided, however, that compounds are
excluded wherein U.sub.1 is H or --CH.sub.2CH(OH)CH.sub.2(OH);
[0332] and the salts, solvates, resolved enantiomers and purified
diastereomers thereof.
[0333] Each of the typical or ordinary embodiments of formula
(I)-(VI) detailed above are also typical embodiments of formula
(VII) and (VIII).
[0334] The synthesis of a number of compounds of the formula (VII)
and (VIII) wherein U.sub.1 is H or --CH.sub.2CH(OH)CH.sub.2(OH) are
provided in Nishimura, Y.; et al.; J. Antibiotics, 1993, 46(2),
300; 46(12), 1883; and Nat. Prod. Lett. 1992, 1(1), 39. Attachement
of U.sub.1 groups of the present invention proceed as described
therein.
Stereoisomers
[0335] The compounds of the invention are enriched or resolved
optical isomers at any or all asymmetric atoms. For example, the
chiral centers apparent from the depictions are provided as the
chiral isomers or racemic mixtures. Both racemic and diasteromeric
mixtures, as well as the individual optical isomers isolated or
synthesized, substantially free of their enantiomeric or
diastereomeric partners, are all within the scope of the invention.
The racemic mixtures are separated into their individual,
substantially optically pure isomers through well-known techniques
such as, for example, the separation of diastereomeric salts formed
with optically active adjuncts, e.g., acids or bases followed by
conversion back to the optically active substances. In most
instances, the desired optical isomer is synthesized by means of
stereospecific reactions, beginning with the appropriate
stereoisomer of the desired starting material.
[0336] Exemplary stereochemistry of the compounds of this invention
is set forth below in Table C.
3 TABLE C 58 59 Formula (I) E.sub.1 J.sub.1a J.sub.1b U.sub.1
T.sub.1 G.sub.1 -- -- .alpha. .beta. .alpha. .alpha. -- -- .beta.
.alpha. .alpha. .alpha. -- -- .alpha. .beta. .beta. .alpha. -- --
.alpha. .beta. .alpha. .beta. .beta. .alpha. .beta. .alpha. .beta.
.alpha. .alpha. .beta. .alpha. .beta. .beta. .beta. .beta. .alpha.
.beta. .beta. Formula (I) E.sub.1 J.sub.1.alpha. J.sub.1.beta.
J.sub.2 U.sub.1 T.sub.1 G.sub.1 -- .alpha. .beta. .alpha. .beta.
.alpha. .alpha. -- .beta. .alpha. .alpha. .beta. .alpha. .alpha. --
.alpha. .beta. .beta. .alpha. .alpha. .alpha. -- .alpha. .beta.
.alpha. .beta. .beta. .alpha. -- .alpha. .beta. .alpha. .beta.
.alpha. .beta. -- .beta. .alpha. .beta. .alpha. .alpha. .alpha. --
.beta. .alpha. .alpha. .beta. .beta. .alpha. -- .beta. .alpha.
.alpha. .beta. .alpha. .beta. -- .alpha. .beta. .beta. .alpha.
.beta. .alpha. -- .alpha. .beta. .beta. .alpha. .alpha. .beta. --
.alpha. .beta. .alpha. .beta. .beta. .beta. -- .beta. .alpha.
.beta. .alpha. .beta. .alpha. -- .beta. .alpha. .beta. .beta.
.alpha. .beta. -- .beta. .alpha. .alpha. .beta. .beta. .beta. --
.alpha. .beta. .beta. .alpha. .beta. .beta. -- .beta. .alpha.
.beta. .alpha. .beta. .beta.
[0337] The compounds of the invention can also exist as tautomeric
isomers in certain cases. For example, ene-amine tautomers can
exist for imidazole, guanidine, amidine, and tetrazole systems and
all their possible tautomeric forms are within the scope of the
invention.
Exemplary Enumerated Compounds
[0338] By way of example and not limitation, embodiment compounds
are named below in tabular format (Table 6). Generally, each
compound is depicted as a substituted nucleus in which the nucleus
is designated by capital letter and each substituent is designated
in order by lower case letter or number. Tables la and lb are a
schedule of nuclei which differ principally by the position of ring
unsaturation and the nature of ring substituents. Each nucleus is
given a alphabetical designation from Tables la and lb, and this
designation appears first in each compound name. Similarly, Tables
2a-av, 3a-b, 4a-c, and 5a-d list the selected Q.sub.1, Q.sub.2,
Q.sub.3 and Q.sub.4 substituents, again by letter or number
designation. Accordingly, each named compound will be depicted by a
capital letter designating the nucleus from Table 1a-1b, followed
by a number designating the Q.sub.1 substituent, a lower case
letter designating the Q.sub.2 substituent, a number designating
the Q.sub.3 substituent, and a lower case letter or letters
designating the Q.sub.4 substituent. Thus, structure 8, scheme 1,
is represented by A.49.a.4.i. Q.sub.1-Q.sub.4, it should be
understood, do not represent groups or atoms but are simply
connectivity designations.
4TABLE 1a 60 A 61 B 62 C 63 D 64 E 65 F 66 G 67 H 68 I 69 J 70 K 71
L 72 M 73 N 74 O 75 P 76 Q 77 R
[0339]
5TABLE 1b 78 S 79 T 80 U 81 V
[0340]
6TABLE 2a 82 1 83 2 84 3 85 4 86 5 87 6 88 7 89 8 90 9 91 10 92 11
93 12 94 13 95 14 96 15 97 16 98 17 99 18 100 19 101 20 102 21 103
22 104 23 105 24
[0341]
7TABLE 2b 106 25 107 26 108 27 109 28 110 29 111 30 112 31 113 32
114 33 115 34 116 35 117 36 118 37 119 38 120 39 121 40 122 41 123
42 124 43 125 44 126 45 127 46 128 47 129 48
[0342]
8TABLE 2c 130 49 131 50 132 51 133 52 134 53 135 54 136 55 137 56
138 57 139 58 140 59 141 60 142 61 143 62 144 63 145 64 146 65 147
66
[0343]
9TABLE 2d 148 67 149 68 150 69 151 70 152 71 153 72 154 73 155 74
156 75 157 76 158 77 159 78 160 79 161 80 162 81 163 82 164 83 165
84
[0344]
10TABLE 2e 166 85 167 86 168 87 169 88 170 89 171 90 172 91 173 92
174 93 175 94 176 95 177 96 178 97 179 98 180 100 181 101 182
102
[0345]
11TABLE 2f 183 184 185 186 187 188 189 190 191 192 193 194 195 196
197 198 199 200
[0346]
12TABLE 2g 201 202 203 204 205 206 207 208 209 210 211 212 213 214
215 216 217 218
[0347]
13TABLE 2h 219 220 221 222 223 224 225 226 227 228 229 230 231
[0348]
14TABLE 2i 232 233 234 235 236 237 238 239 240 241 242 243 244 245
246 247 248 249
[0349]
15TABLE 2j 250 251 252 253 254 255 256 257 258 259 260 261 262 263
264 265 266 267
[0350]
16TABLE 2k 268 269 270 271 272 273 274 275 276 277 278 279 280 281
282 283 284
[0351]
17TABLE 2l 285 286 287 288 289 290 291 292 293 294 295 296 297 298
299 300 301 302
[0352]
18TABLE 2m 303 304 305 306 307 308 309 310 311 312 313 314 315 316
317 318 319 320
[0353]
19TABLE 2n 321 322 323 324 325 326 327 328 329 330 331 332 333 334
335 336 337 338
[0354]
20TABLE 2o 339 340 341 342 343 344 345 346 347 348 349 350 351 352
353 354 355 356
[0355]
21TABLE 2p 357 277 358 278 359 279 360 280 361 281 362 282 363 283
364 284 365 285 366 286 367 287 368 288 369 289 370 290 371 291 372
292 373 293 374 294
[0356]
22TABLE 2q 375 295 376 296 377 297 378 298 379 299 380 300 381 301
382 302 383 303 384 304 385 305 386 306 387 307 388 308 389 309 390
310 391 311 392 312
[0357]
23TABLE 2r 393 313 394 314 395 315 396 316 397 317 398 318 399 319
400 320 401 321 402 322 403 323 404 324 405 325 406 326 407 327 408
328 409 329 410 330
[0358]
24TABLE 2s 411 331 412 332 413 333 414 334 415 335 416 336 417 337
418 338 419 339 420 340 421 341 422 342 423 343 424 344 425 345 426
346 427 347 428 348
[0359]
25TABLE 2t 429 349 430 350 431 351 432 352 433 353 434 354 435 355
436 356 437 357 438 358 439 359 440 360 441 361 442 362 443 363 444
364 445 365 446 366
[0360]
26TABLE 2u 447 367 448 368 449 369 450 370 451 371 452 372 453 373
454 374 455 375 456 376 457 377 458 378 459 379 460 380 461 381 462
382 463 383 464 384
[0361]
27TABLE 2v 465 385 466 386 467 387 468 388 469 389 470 390 471 391
472 392 473 393 474 394 475 395 476 396 477 397 478 398 479 399
[0362]
28TABLE 2w 480 400 481 401 482 402 483 403 484 404 485 405 486 406
487 407 488 408 489 409 490 410 491 411 492 412 493 413 494 414 495
415 496 416 497 417 498 418 499 419
[0363]
29TABLE 2x 500 420 501 421 502 422 503 423 504 424 505 425 506 426
507 427 508 428 509 429 510 430 511 431 512 432 513 433 514 434 515
435 516 436 517 437 518 438 519 439
[0364]
30TABLE 2y 520 440 521 441 522 442 523 443 524 444 525 445 526 446
527 447 528 448 529 449 530 450 531 451 532 452 533 453 534 454 535
455 536 456 537 457 538 458 539 459 540 460 541 461 542 462 543
666
[0365]
31TABLE 2z 544 463 545 464 546 465 547 466 548 467 549 468 550 469
551 470 552 471 553 472 554 473 555 474 556 475 557 476 558 477 559
478 560 479 561 480 562 481 563 482 564 483
[0366]
32TABLE 2aa 565 484 566 485 567 486 568 487 569 488 570 489 571 490
572 491 573 492 574 493 575 494 576 495 577 496 578 497 579 498 580
499 581 500 582 501 583 502 584 503 585 504
[0367]
33TABLE 2ab 586 505 587 506 588 507 589 508 590 509 591 510 592 511
593 512 594 513 595 514 596 515 597 516 598 517 599 518 600 519 601
520 602 521 603 522 604 523 605 524 606 525 607 526 608 527
[0368]
34TABLE 2ac 609 528 610 529 611 530 612 531 613 532 614 533 615 534
616 535 617 536 618 537 619 538 620 539 621 540 622 541 623 542 624
543 625 544 626 545 627 546 628 547 629 548
[0369]
35TABLE 2ad 630 549 631 550 632 551 633 552 634 553 635 554 636 555
637 556 638 557 639 558 640 559 641 560 642 561 643 562 644 563 645
564 646 565 647 566 648 567 649 568 650 569
[0370]
36TABLE 2ae 651 570 652 571 653 572 654 573 655 574 656 575 657 576
658 577 659 578 660 579 661 580 662 581 663 582 664 583 665 584 666
585 667 586 668 587 669 588 670 589 671 590
[0371]
37TABLE 2af 672 591 673 592 674 593 675 594 676 595 677 596 678 597
679 598 680 599 681 600 682 601 683 602 684 603 685 604 686 605 687
606 688 607
[0372]
38TABLE 2ag 689 608 690 609 691 610 692 611 693 612 694 613 695 614
696 615 697 616 698 617 699 618 700 619 701 620 702 621 703 622 704
623 705 624 706 625 707 626 708 627
[0373]
39TABLE 2ah 709 628 710 629 711 630 712 631 713 632 714 633 715 634
716 635 717 636 718 637 719 638 720 639 721 640 722 641 723 642 724
643 725 644 726 645 727 646 728 647
[0374]
40TABLE 2ai 729 648 730 649 731 650 732 651 733 652 734 653 735 654
736 655 737 656 738 657 739 658 740 659 741 660 742 661 743 662 744
663 745 664 746 665
[0375]
41TABLE 3a 747 a 748 b 749 c 750 d 751 e 752 f 753 g 754 h 755 i
756 j 757 k 758 l 759 m 760 n 761 o 762 p 763 q 764 r
[0376]
42TABLE 3b 765 s 766 t 767 u 768 v 769 w 770 x 771 y 772 z 773 A
774 B 775 C 776 D 777 E 778 F
[0377]
43TABLE 4a 779 1 780 2 781 3 782 4 783 5 784 6 785 7 786 8 787 9
788 10 789 11 790 12 791 13 792 14 793 15 794 16 795 17 796 18 797
19 798 20 799 21 800 22 801 23 802 24
[0378]
44TABLE 4b 803 25 804 26 805 27 806 28 807 29 808 30 809 31 810 32
811 33 812 34 813 35 814 36 815 37 816 38 817 39 818 40 819 41 820
42 821 43 822 44 823 45
[0379]
45TABLE 4c 824 46 825 47 826 48 827 49 828 50 829 51 830 52 831
53
[0380]
46TABLE 5a 832 a 833 b 834 c 835 d 836 e 837 f 838 g 839 h 840 i
841 j 842 k 843 l 844 m 845 n 846 o 847 p 848 q 849 r 850 s 851 t
852 u
[0381]
47TABLE 5b 853 v 854 w 855 x 856 y 857 z 858 aa 859 ab 860 ac 861
ad 862 ae 863 af 864 ag 865 ah 866 ai 867 aj 868 ak 869 al 870 am
871 an 872 ao
[0382]
48TABLE 5c 873 ap 874 aq 875 ar 876 as 877 at 878 au 879 av 880 aw
881 ax 882 ay 883 az 884 ba 885 bb 886 bc 887 bd 888 be 889 bf 890
bg 891 bh 892 bi 893 bj 894 bk
[0383]
49TABLE 6 Exemplary Enumerated Compounds A.17.a.4.i; A.17.a.4.v;
A.17.a.6.i; A.17.a.6.v; A.17.a.11.i; A.17.a.11.v; A.17.a.14.i;
A.17.a.14.v; A.17.a.15.i; A.17.a.15.v; A.17.a.18.i; A.17.a.18.v;
A.17.a.25.i; A.17.a.25.v; A.17.e.4.i; A.17.e.4.v; A.17.e.6.i;
A.17.e.6.v; A.17.e.11.i; A.17.e.11.v; A.17.e.14.i; A.17.e.14.v;
A.17.e.15.i; A.17.e.15.v; A.17.e.18.i; A.17.e.18.v; A.17.e.25.i;
A.17.e.25.v; A.17.g.4.i; A.17.g.4.v; A.17.g.6.i; A.17.g.6.v;
A.17.g.11.i; A.17.g.11.v; A.17.g.14.i; A.17.g.14.v; A.17.g.15.i;
A.17.g.15.v; A.17.g.18.i; A.17.g.18.v; A.17.g.25.i; A.17.g.25.v;
A.17.l.4.i; A.17.l.4.v; A.17.l.6.i; A.17.l.6.v; A.17.l.11.i;
A.17.l.11.v; A.17.l.14.i; A.17.l.14.v; A.17.l.15.i; A.17.l.15.v;
A.17.l.18.i; A.17.l.18.v; A.17.l.25.i; A.17.l.25.v; A.17.m.4.i;
A.17.m.4.v; A.17.m.6.i; A.17.m.6.v; A.17.m.11.i; A.17.m.11.v;
A.17.m.14.i; A.17.m.14.v; A.17.m.15.i; A.17.m.15.v; A.17.m.18.i;
A.17.m.18.v; A.17.m.25.i; A.17.m.25.v; A.17.o.4.i; A.17.o.4.v;
A.17.o.6.i; A.17.o.6.v; A.17.o.11.i; A.17.o.11.v; A.17.o.14.i;
A.17.o.14.v; A.17.o.15.i; A.17.o.15.v; A.17.o.18.i; A.17.o.18.v;
A.17.o.25.i; A.17.o.25.v; A.33.a.4.i; A.33.a.4.v; A.33.a.6.i;
A.33.a.6.v; A.33.a.11.i; A.33.a.11.v; A.33.a.14.i; A.33.a.14.v;
A.33.a.15.i; A.33.a.15.v; A.33.a.18.i; A.33.a.18.v; A.33.a.25.i;
A.33.a.25.v; A.33.e.4.i; A.33.e.4.v; A.33.e.6.i; A.33.e.6.v;
A.33.e.11.i; A.33.e.11.v; A.33.e.14.i; A.33.e.14.v; A.33.e.15.i;
A.33.e.15.v; A.33.e.18.i; A.33.e.18.v; A.33.e.25.i; A.33.e.25.v;
A.33.g.4.i; A.33.g.4.v; A.33.g.6.i; A.33.g.6.v; A.33.g.11.i;
A.33.g.11.v; A.33.g.14.i; A.33.g.14.v; A.33.g.15.i; A.33.g.15.v;
A.33.g.18.i; A.33.g.18.v; A.33.g.25.i; A.33.g.25.v; A.33.l.4.i;
A.33.l.4.v; A.33.l.6.i; A.33.l.6.v; A.33.l.11.i; A.33.l.11.v;
A.33.l.14.i; A.33.l.14.v; A.33.l.15.i; A.33.l.15.v; A.33.l.18.i;
A.33.l.18.v; A.33.l.25.i; A.33.l.25.v; A.33.m.4.i; A.33.m.4.v;
A.33.m.6.i; A.33.m.6.v; A.33.m.11.i; A.33.m.11.v; A.33.m.14.i;
A.33.m.14.v; A.33.m.15.i; A.33.m.15.v; A.33.m.18.i; A.33.m.18.v;
A.33.m.25.i; A.33.m.25.v; A.33.o.4.i; A.33.o.4.v; A.33.o.6.i;
A.33.o.6.v; A.33.o.11.i; A.33.o.11.v; A.33.o.14.i; A.33.o.14.v;
A.33.o.15.i; A.33.o.15.v; A.33.o.18.i; A.33.o.18.v; A.33.o.25.i;
A.33.o.25.v; A.49.a.4.i; A.49.a.4.v; A.49.a.6.i; A.49.a.6.v;
A.49.a.11.i; A.49.a.11.v; A.49.a.14.i; A.49.a.14.v; A.49.a.15.i;
A.49.a.15.v; A.49.a.18.i; A.49.a.18.v; A.49.a.25.i; A.49.a.25.v;
A.49.e.4.i; A.49.e.4.v; A.49.e.6.i; A.49.e.6.v; A.49.e.11.i;
A.49.e.11.v; A.49.e.14.i; A.49.e.14.v; A.49.e.15.i; A.49.e.15.v;
A.49.e.18.i; A.49.e.18.v; A.49.e.25.i; A.49.e.25.v; A.49.g.4.i;
A.49.g.4.v; A.49.g.6.i; A.49.g.6.v; A.49.g.11.i; A.49.g.11.v;
A.49.g.14.i; A.49.g.14.v; A.49.g.15.i; A.49.g.15.v; A.49.g.18.i;
A.49.g.18.v; A.49.g.25.i; A.49.g.25.v; A.49.l.4.i; A.49.l.4.v;
A.49.l.6.i; A.49.l.6.v; A.49.l.11.i; A.49.l.11.v; A.49.l.14.i;
A.49.l.14.v; A.49.l.15.i; A.49.l.15.v; A.49.l.18.i; A.49.l.18.v;
A.49.l.25.i; A.49.l.25.v; A.49.m.4.i; A.49.m.4.v; A.49.m.6.i;
A.49.m.6.v; A.49.m.11.i; A.49.m.11.v; A.49.m.14.i; A.49.m.14.v;
A.49.m.15.i; A.49.m.15.v; A.49.m.18.i; A.49.m.18.v; A.49.m.25.i;
A.49.m.25.v; A.49.o.4.i; A.49.o.4.v; A.49.o.6.i; A.49.o.6.v;
A.49.o.11.i; A.49.o.11.v; A.49.o.14.i; A.49.o.14.v; A.49.o.15.i;
A.49.o.15.v; A.49.o.18.i; A.49.o.18.v; A.49.o.25.i; A.49.o.25.v;
B.17.a.4.i; B.17.a.4.v; B.17.a.6.i; B.17.a.6.v; B.17.a.11.i;
B.17.a.11.v; B.17.a.14.i; B.17.a.14.v; B.17.a.15.i; B.17.a.15.v;
B.17.a.18.i; B.17.a.18.v; B.17.a.25.i; B.17.a.25.v; B.17.e.4.i;
B.17.e.4.v; B.17.e.6.i; B.17.e.6.v; B.17.e.11.i; B.17.e.11.v;
B.17.e.14.i; B.17.e.14.v; B.17.e.15.i; B.17.e.15.v; B.17.e.18.i;
B.17.e.18.v; B.17.e.25.i; B.17.e.25.v; B.17.g.4.i; B.17.g.4.v;
B.17.g.6.i; B.17.g.6.v; B.17.g.11.i; B.17.g.11.v; B.17.g.14.i;
B.17.g.14.v; B.17.g.15.i; B.17.g.15.v; B.17.g.18.i; B.17.g.18.v;
B.17.g.25.i; B.17.g.25.v; B.17.l.4.i; B.17.l.4.v; B.17.l.6.i;
B.17.l.6.v; B.17.l.11.i; B.17.l.11.v; B.17.l.14.i; B.17.l.14.v;
B.17.l.15.i; B.17.l.15.v; B.17.l.18.i; B.17.l.18.v; B.17.l.25.i;
B.17.l.25.v; B.17.m.4.i; B.17.m.4.v; B.17.m.6.i; B.17.m.6.v;
B.17.m.11.i; B.17.m.11.v; B.17.m.14.i; B.17.m.14.v; B.17.m.15.i;
B.17.m.15.v; B.17.m.18.i; B.17.m.18.v; B.17.m.25.i; B.17.m.25.v;
B.17.o.4.i; B.17.o.4.v; B.17.o.6.i; B.17.o.6.v; B.17.o.11.i;
B.17.o.11.v; B.17.o.14.i; B.17.o.14.v; B.17.o.15.i; B.17.o.15.v;
B.17.o.18.i; B.17.o.18.v; B.17.o.25.i; B.17.o.25.v; B.33.a.4.i;
B.33.a.4.v; B.33.a.6.i; B.33.a.6.v; B.33.a.11.i; B.33.a.11.v;
B.33.a.14.i; B.33.a.14.v; B.33.a.15.i; B.33.a.15.v; B.33.a.18.i;
B.33.a.18.v; B.33.a.25.i; B.33.a.25.v; B.33.e.4.i; B.33.e.4.v;
B.33.e.6.i; B.33.e.6.v; B.33.e.11.i; B.33.e.11.v; B.33.e.14.i;
B.33.e.14.v; B.33.e.15.i; B.33.e.15.v; B.33.e.18.i; B.33.e.18.v;
B.33.e.25.i; B.33.e.25.v; B.33.g.4.i; B.33.g.4.v; B.33.g.6.i;
B.33.g.6.v; B.33.g.11.i; B.33.g.11.v; B.33.g.14.i; B.33.g.14.v;
B.33.g.15.i; B.33.g.15.v; B.33.g.18.i; B.33.g.18.v; B.33.g.25.i;
B.33.g.25.v; B.33.l.4.i; B.33.l.4.v; B.33.l.6.i; B.33.l.6.v;
B.33.l.11.i; B.33.l.11.v; B.33.l.14.i; B.33.l.14.v; B.33.l.15.i;
B.33.l.15.v; B.33.l.18.i; B.33.l.18.v; B.33.l.25.i; B.33.l.25.v;
B.33.m.4.i; B.33.m.4.v; B.33.m.6.i; B.33.m.6.v; B.33.m.11.i;
B.33.m.11.v; B.33.m.14.i; B.33.m.14.v; B.33.m.15.i; B.33.m.15.v;
B.33.m.18.i; B.33.m.18.v; B.33.m.25.i; B.33.m.25.v; B.33.o.4.i;
B.33.o.4.v; B.33.o.6.i; B.33.o.6.v; B.33.o.11.i; B.33.o.11.v;
B.33.o.14.i; B.33.o.14.v; B.33.o.15.i; B.33.o.15.v; B.33.o.18.i;
B.33.o.18.v; B.33.o.25.i; B.33.o.25.v; B.49.a.4.i; B.49.a.4.v;
B.49.a.6.i; B.49.a.6.v; B.49.a.11.i; B.49.a.11.v; B.49.a.14.i;
B.49.a.14.v; B.49.a.15.i; B.49.a.15.v; B.49.a.18.i; B.49.a.18.v;
B.49.a.25.i; B.49.a.25.v; B.49.e.4.i; B.49.e.4.v; B.49.e.6.i;
B.49.e.6.v; B.49.e.11.i; B.49.e.11.v; B.49.e.14.i; B.49.e.14.v;
B.49.e.15.i; B.49.e.15.v; B.49.e.18.i; B.49.e.18.v; B.49.e.25.i;
B.49.e.25.v; B.49.g.4.i; B.49.g.4.v; B.49.g.6.i; B.49.g.6.v;
B.49.g.11.i; B.49.g.11.v; B.49.g.14.i; B.49.g.14.v; B.49.g.15.i;
B.49.g.15.v; B.49.g.18.i; B.49.g.18.v; B.49.g.25.i; B.49.g.25.v;
B.49.l.4.i; B.49.l.4.v; B.49.l.6.i; B.49.l.6.v; B.49.l.11.i;
B.49.l.11.v; B.49.l.14.i; B.49.l.14.v; B.49.l.15.i; B.49.l.15.v;
B.49.l.18.i; B.49.l.18.v; B.49.l.25.i; B.49.l.25.v; B.49.m.4.i;
B.49.m.4.v; B.49.m.6.i; B.49.m.6.v; B.49.m.11.i; B.49.m.11.v;
B.49.m.14.i; B.49.m.14.v; B.49.m.15.i; B.49.m.15.v; B.49.m.18.i;
B.49.m.18.v; B.49.m.25.i; B.49.m.25.v; B.49.o.4.i; B.49.o.4.v;
B.49.o.6.i; B.49.o.6.v; B.49.o.11.i; B.49.o.11.v; B.49.o.14.i;
B.49.o.14.v; B.49.o.15.i; B.49.o.15.v; B.49.o.18.i; B.49.o.18.v;
B.49.o.25.i; B.49.o.25.v; E.17.a.4.i; E.17.a.4.v; E.17.a.6.i;
E.17.a.6.v; E.17.a.11.i; E.17.a.11.v; E.17.a.14.i; E.17.a.14.v;
E.17.a.15.i; E.17.a.15.v; E.17.a.18.i; E.17.a.18.v; E.17.a.25.i;
E.17.a.25.v; E.17.e.4.i; E.17.e.4.v; E.17.e.6.i; E.17.e.6.v;
E.17.e.11.i; E.17.e.11.v; E.17.e.14.i; E.17.e.14.v; E.17.e.15.i;
E.17.e.15.v; E.17.e.18.i; E.17.e.18.v; E.17.e.25.i; E.17.e.25.v;
E.17.g.4.i; E.17.g.4.v; E.17.g.6.i; E.17.g.6.v; E.17.g.11.i;
E.17.g.11.v; E.17.g.14.i; E.17.g.14.v; E.17.g.15.i; E.17.g.15.v;
E.17.g.18.i; E.17.g.18.v; E.17.g.25.i; E.17.g.25.v; E.17.l.4.i;
E.17.l.4.v; E.17.l.6.i; E.17.l.6.v; E.17.l.11.i; E.17.l.11.v;
E.17.l.14.i; E.17.l.14.v; E.17.l.15.i; E.17.l.15.v; E.17.l.18.i;
E.17.l.18.v; E.17.l.25.i; E.17.l.25.v; E.17.m.4.i; E.17.m.4.v;
E.17.m.6.i; E.17.m.6.v; E.17.m.11.i; E.17.m.11.v; E.17.m.14.i;
E.17.m.14.v; E.17.m.15.i; E.17.m.15.v; E.17.m.18.i; E.17.m.18.v;
E.17.m.25.i; E.17.m.25.v; E.17.o.4.i; E.17.o.4.v; E.17.o.6.i;
E.17.o.6.v; E.17.o.11.i; E.17.o.11.v; E.17.o.14.i; E.17.o.14.v;
E.17.o.15.i; E.17.o.15.v; E.17.o.18.i; E.17.o.18.v; E.17.o.25.i;
E.17.o.25.v; E.33.a.4.i; E.33.a.4.v; E.33.a.6.i; E.33.a.6.v;
E.33.a.11.i; E.33.a.11.v; E.33.a.14.i; E.33.a.14.v; E.33.a.15.i;
E.33.a.15.v; E.33.a.18.i; E.33.a.18.v; E.33.a.25.i; E.33.a.25.v;
E.33.e.4.i; E.33.e.4.v; E.33.e.6.i; E.33.e.6.v; E.33.e.11.i;
E.33.e.11.v; E.33.e.14.i; E.33.e.14.v; E.33.e.15.i; E.33.e.15.v;
E.33.e.18.i; E.33.e.18.v; E.33.e.25.i; E.33.e.25.v; E.33.g.4.i;
E.33.g.4.v; E.33.g.6.i; E.33.g.6.v; E.33.g.11.i; E.33.g.11.v;
E.33.g.14.i; E.33.g.14.v; E.33.g.15.i; E.33.g.15.v; E.33.g.18.i;
E.33.g.18.v; E.33.g.25.i; E.33.g.25.v; E.33.l.4.i; E.33.l.4.v;
E.33.l.6.i; E.33.l.6.v; E.33.l.11.i; E.33.l.11.v; E.33.l.14.i;
E.33.l.14.v; E.33.l.15.i; E.33.l.15.v; E.33.l.18.i; E.33.l.18.v;
E.33.l.25.i; E.33.l.25.v; E.33.m.4.i; E.33.m.4.v; E.33.m.6.i;
E.33.m.6.v; E.33.m.11.i; E.33.m.11.v; E.33.m.14.i; E.33.m.14.v;
E.33.m.15.i; E.33.m.15.v; E.33.m.18.i; E.33.m.18.v; E.33.m.25.i;
E.33.m.25.v; E.33.o.4.i; E.33.o.4.v; E.33.o.6.i; E.33.o.6.v;
E.33.o.11.i; E.33.o.11.v; E.33.o.14.i; E.33.o.14.v; E.33.o.15.i;
E.33.o.15.v; E.33.o.18.i; E.33.o.18.v; E.33.o.25.i; E.33.o.25.v;
E.49.a.4.i; E.49.a.4.v; E.49.a.6.i; E.49.a.6.v; E.49.a.11.i;
E.49.a.11.v; E.49.a.14.i; E.49.a.14.v; E.49.a.15.i; E.49.a.15.v;
E.49.a.18.i; E.49.a.18.v; E.49.a.25.i; E.49.a.25.v; E.49.e.4.i;
E.49.e.4.v; E.49.e.6.i; E.49.e.6.v; E.49.e.11.i; E.49.e.11.v;
E.49.e.14.i; E.49.e.14.v; E.49.e.15.i; E.49.e.15.v; E.49.e.18.i;
E.49.e.18.v; E.49.e.25.i; E.49.e.25.v; E.49.g.4.i; E.49.g.4.v;
E.49.g.6.i; E.49.g.6.v; E.49.g.11.i; E.49.g.11.v; E.49.g.14.i;
E.49.g.14.v; E.49.g.15.i; E.49.g.15.v; E.49.g.18.i; E.49.g.18.v;
E.49.g.25.i; E.49.g.25.v; E.49.l.4.i; E.49.l.4.v; E.49.l.6.i;
E.49.l.6.v; E.49.l.11.i; E.49.l.11.v; E.49.l.14.i; E.49.l.14.v;
E.49.l.15.i; E.49.l.15.v; E.49.l.18.i; E.49.l.18.v; E.49.l.25.i;
E.49.l.25.v; E.49.m.4.i; E.49.m.4.v; E.49.m.6.i; E.49.m.6.v;
E.49.m.11.i; E.49.m.11.v; E.49.m.14.i; E.49.m.14.v; E.49.m.15.i;
E.49.m.15.v; E.49.m.18.i; E.49.m.18.v; E.49.m.25.i; E.49.m.25.v;
E.49.o.4.i; E.49.o.4.v; E.49.o.6.i; E.49.o.6.v; E.49.o.11.i;
E.49.o.11.v; E.49.o.14.i; E.49.o.14.v; E.49.o.15.i; E.49.o.15.v;
E.49.o.18.i; E.49.o.18.v; E.49.o.25.i; E.49.o.25.v; H.17.a.4.i;
H.17.a.4.v; H.17.a.6.i; H.17.a.6.v; H.17.a.11.i; H.17.a.11.v;
H.17.a.14.i; H.17.a.14.v; H.17.a.15.i; H.17.a.15.v; H.17.a.18.i;
H.17.a.18.v; H.17.a.25.i; H.17.a.25.v; H.17.e.4.i; H.17.e.4.v;
H.17.e.6.i; H.17.e.6.v; H.17.e.11.i; H.17.e.11.v; H.17.e.14.i;
H.17.e.14.v; H.17.e.15.i; H.17.e.15.v; H.17.e.18.i; H.17.e.18.v;
H.17.e.25.i; H.17.e.25.v; H.17.g.4.i; H.17.g.4.v; H.17.g.6.i;
H.17.g.6.v; H.17.g.11.i; H.17.g.11.v; H.17.g.14.i; H.17.g.14.v;
H.17.g.15.i; H.17.g.15.v; H.17.g.18.i; H.17.g.18.v; H.17.g.25.i;
H.17.g.25.v; H.17.l.4.i; H.17.l.4.v; H.17.l.6.i; H.17.l.6.v;
H.17.l.11.i; H.17.l.11.v; H.17.l.14.i; H.17.l.14.v; H.17.l.15.i;
H.17.l.15.v; H.17.l.18.i; H.17.l.18.v; H.17.l.25.i; H.17.l.25.v;
H.17.m.4.i; H.17.m.4.v; H.17.m.6.i; H.17.m.6.v; H.17.m.11.i;
H.17.m.11.v; H.17.m.14.i; H.17.m.14.v; H.17.m.15.i; H.17.m.15.v;
H.17.m.18.i; H.17.m.18.v; H.17.m.25.i; H.17.m.25.v; H.17.o.4.i;
H.17.o.4.v; H.17.o.6.i; H.17.o.6.v; H.17.o.11.i; H.17.o.11.v;
H.17.o.14.i; H.17.o.14.v; H.17.o.15.i; H.17.o.15.v; H.17.o.18.i;
H.17.o.18.v; H.17.o.25.i; H.17.o.25.v; H.33.a.4.i; H.33.a.4.v;
H.33.a.6.i; H.33.a.6.v; H.33.a.11.i; H.33.a.11.v; H.33.a.14.i;
H.33.a.14.v; H.33.a.15.i; H.33.a.15.v; H.33.a.18.i; H.33.a.18.v;
H.33.a.25.i; H.33.a.25.v; H.33.e.4.i; H.33.e.4.v; H.33.e.6.i;
H.33.e.6.v; H.33.e.11.i; H.33.e.11.v; H.33.e.14.i; H.33.e.14.v;
H.33.e.15.i; H.33.e.15.v; H.33.e.18.i; H.33.e.18.v; H.33.e.25.i;
H.33.e.25.v; H.33.g.4.i; H.33.g.4.v; H.33.g.6.i; H.33.g.6.v;
H.33.g.11.i; H.33.g.11.v; H.33.g.14.i; H.33.g.14.v; H.33.g.15.i;
H.33.g.15.v; H.33.g.18.i; H.33.g.18.v; H.33.g.25.i; H.33.g.25.v;
H.33.l.4.i; H.33.l.4.v; H.33.l.6.i; H.33.l.6.v; H.33.l.11.i;
H.33.l.11.v; H.33.l.14.i; H.33.l.14.v; H.33.l.15.i; H.33.l.15.v;
H.33.l.18.i; H.33.l.18.v; H.33.l.25.i; H.33.l.25.v; H.33.m.4.i;
H.33.m.4.v; H.33.m.6.i; H.33.m.6.v; H.33.m.11.i; H.33.m.11.v;
H.33.m.14.i; H.33.m.14.v; H.33.m.15.i; H.33.m.15.v; H.33.m.18.i;
H.33.m.18.v; H.33.m.25.i; H.33.m.25.v; H.33.o.4.i; H.33.o.4.v;
H.33.o.6.i; H.33.o.6.v; H.33.o.11.i; H.33.o.11.v; H.33.o.14.i;
H.33.o.14.v; H.33.o.15.i; H.33.o.15.v; H.33.o.18.i; H.33.o.18.v;
H.33.o.25.i; H.33.o.25.v; H.49.a.4.i; H.49.a.4.v; H.49.a.6.i;
H.49.a.6.v; H.49.a.11.i; H.49.a.11.v; H.49.a.14.i; H.49.a.14.v;
H.49.a.15.i; H.49.a.15.v; H.49.a.18.i; H.49.a.18.v; H.49.a.25.i;
H.49.a.25.v; H.49.e.4.i; H.49.e.4.v; H.49.e.6.i; H.49.e.6.v;
H.49.e.11.i; H.49.e.11.v; H.49.e.14.i; H.49.e.14.v; H.49.e.15.i;
H.49.e.15.v; H.49.e.18.i; H.49.e.18.v; H.49.e.25.i; H.49.e.25.v;
H.49.g.4.i; H.49.g.4.v; H.49.g.6.i; H.49.g.6.v; H.49.g.11.i;
H.49.g.11.v; H.49.g.14.i; H.49.g.14.v; H.49.g.15.i; H.49.g.15.v;
H.49.g.18.i; H.49.g.18.v; H.49.g.25.i; H.49.g.25.v; H.49.l.4.i;
H.49.l.4.v; H.49.l.6.i; H.49.l.6.v; H.49.l.11.i; H.49.l.11.v;
H.49.l.14.i; H.49.l.14.v; H.49.l.15.i; H.49.l.15.v; H.49.l.18.i;
H.49.l.18.v; H.49.l.25.i; H.49.l.25.v; H.49.m.4.i; H.49.m.4.v;
H.49.m.6.i; H.49.m.6.v; H.49.m.11.i; H.49.m.11.v; H.49.m.14.i;
H.49.m.14.v; H.49.m.15.i; H.49.m.15.v; H.49.m.18.i; H.49.m.18.v;
H.49.m.25.i; H.49.m.25.v; H.49.o.4.i; H.49.o.4.v; H.49.o.6.i;
H.49.o.6.v; H.49.o.11.i; H.49.o.11.v; H.49.o.14.i; H.49.o.14.v;
H.49.o.15.i; H.49.o.15.v; H.49.o.18.i; H.49.o.18.v; H.49.o.25.i;
H.49.o.25.v; I.17.a.4.i; I.17.a.4.v; I.17.a.6.i; I.17.a.6.v;
I.17.a.11.i; I.17.a.11.v; I.17.a.14.i; I.17.a.14.v; I.17.a.15.i;
I.17.a.15.v; I.17.a.18.i; I.17.a.18.v; I.17.a.25.i; I.17.a.25.v;
I.17.e.4.i; I.17.e.4.v; I.17.e.6.i; I.17.e.6.v; I.17.e.11.i;
I.17.e.11.v; I.17.e.14.i; I.17.e.14.v; I.17.e.15.i; I.17.e.15.v;
I.17.e.18.i; I.17.e.18.v; I.17.e.25.i; I.17.e.25.v; I.17.g.4.i;
I.17.g.4.v; I.17.g.6.i; I.17.g.6.v; I.17.g.11.i; I.17.g.11.v;
I.17.g.14.i; I.17.g.14.v; I.17.g.15.i; I.17.g.15.v; I.17.g.18.i;
I.17.g.18.v; I.17.g.25.i; I.17.g.25.v; I.17.l.4.i; I.17.l.4.v;
I.17.l.6.i; I.17.l.6.v; I.17.l.11.i; I.17.l.11.v; I.17.l.14.i
I.17.l.14.v; I.17.l.15.i; I.17.l.15.v; I.17.l.18.i; I.17.l.18.v;
I.17.l.25.i; I.17.l.25.v; I.17.m.4.i; I.17.m.4.v; I.17.m.6.i;
I.17.m.6.v; I.17.m.11.i; I.17.m.11.v; I.17.m.14.i; I.17.m.14.v;
I.17.m.15.i; I.17.m.15.v; I.17.m.18.i; I.17.m.18.v; I.17.m.25.i;
I.17.m.25.v; I.17.o.4.i; I.17.o.4.v; I.17.o.6.i; I.17.o.6.v;
I.17.o.11.i; I.17.o.11.v; I.17.o.14.i; I.17.o.14.v; I.17.o.15.i;
I.17.o.15.v; I.17.o.18.i; I.17.o.18.v; I.17.o.25.i; I.17.o.25.v;
I.33.a.4.i; I.33.a.4.v; I.33.a.6.i; I.33.a.6.v; I.33.a.11.i;
I.33.a.11.v; I.33.a.14.i; I.33.a.14.v; I.33.a.15.i; I.33.a.15.v;
I.33.a.18.i; I.33.a.18.v; I.33.a.25.i; I.33.a.25.v; I.33.e.4.i;
I.33.e.4.v; I.33.e.6.i; I.33.e.6.v; I.33.e.11.i; I.33.e.11.v;
I.33.e.14.i; I.33.e.14.v; I.33.e.15.i; I.33.e.15.v; I.33.e.18.i;
I.33.e.18.v; I.33.e.25.i; I.33.e.25.v; I.33.g.4.i; I.33.g.4.v;
I.33.g.6.i; I.33.g.6.v; I.33.g.11.i; I.33.g.11.v; I.33.g.14.i;
I.33.g.14.v; I.33.g.15.i; I.33.g.15.v; I.33.g.18.i; I.33.g.18.v;
I.33.g.25.i; I.33.g.25.v; I.33.l.4.i; I.33.l.4.v; I.33.l.6.i;
I.33.l.6.v; I.33.l.11.i; I.33.l.11.v; I.33.l.14.i; I.33.l.14.v;
I.33.l.15.i; I.33.l.15.v; I.33.l.18.i; I.33.l.18.v; I.33.l.25.i;
I.33.l.25.v; I.33.m.4.i; I.33.m.4.v; I.33.m.6.i; I.33.m.6.v;
I.33.m.11.i; I.33.m.11.v; I.33.m.14.i; I.33.m.14.v; I.33.m.15.i;
I.33.m.15.v; I.33.m.18.i; I.33.m.18.v; I.33.m.25.i; I.33.m.25.v;
I.33.o.4.i; I.33.o.4.v; I.33.o.6.i; I.33.o.6.v; I.33.o.11.i;
I.33.o.11.v; I.33.o.14.i; I.33.o.14.v; I.33.o.15.i; I.33.o.15.v;
I.33.o.18.i; I.33.o.18.v; I.33.o.25.i; I.33.o.25.v; I.49.a.4.i;
I.49.a.4.v; I.49.a.6.i; I.49.a.6.v; I.49.a.11.i; I.49.a.11.v;
I.49.a.14.i; I.49.a.14.v; I.49.a.15.i; I.49.a.15.v; I.49.a.18.i;
I.49.a.18.v; I.49.a.25.i; I.49.a.25.v; I.49.e.4.i; I.49.e.4.v;
I.49.e.6.i; I.49.e.6.v; I.49.e.11.i; I.49.e.11.v; I.49.e.14.i;
I.49.e.14.v; I.49.e.15.i; I.49.e.15.v; I.49.e.18.i; I.49.e.18.v;
I.49.e.25.i; I.49.e.25.v; I.49.g.4.i; I.49.g.4.v; I.49.g.6.i;
I.49.g.6.v; I.49.g.11.i; I.49.g.11.v; I.49.g.14.i; I.49.g.14.v;
I.49.g.15.i; I.49.g.15.v; I.49.g.18.i; I.49.g.18.v; I.49.g.25.i;
I.49.g.25.v; I.49.l.4.i; I.49.l.4.v; I.49.l.6.i; I.49.l.6.v;
I.49.l.11.i; I.49.l.11.v; I.49.l.14.i; I.49.l.14.v; I.49.l.15.i;
I.49.l.15.v; I.49.l.18.i; I.49.l.18.v; I.49.l.25.i; I.49.l.25.v;
I.49.m.4.i; I.49.m.4.v; I.49.m.6.i; L49.m.6.v; I.49.m.11.i;
I.49.m.11.v; I.49.m.14.i; I.49.m.14.v; I.49.m.15.i; I.49.m.15.v;
I.49.m.18.i; I.49.m.18.v; I.49.m.25.i; I.49.m.25.v; I.49.o.4.i;
I.49.o.4.v; I.49.o.6.i; I.49.o.6.v; I.49.o.11.i; I.49.o.11.v;
I.49.o.14.i; I.49.o.14.v; I.49.o.15.i; I.49.o.15.v; I.49.o.18.i;
I.49.o.18.v; I.49.o.25.i; I.49.o.25.v; L.17.a.4.i; L.17.a.4.v;
L.17.a.6.i; L.17.a.6.v; L.17.a.11.i; L.17.a.11.v; L.17.a.14.i;
L.17.a.14.v; L.17.a.15.i; L.17.a.15.v;
L.17.a.18.i; L.17.a.18.v; L.17.a.25.i; L.17.a.25.v; L.17.e.4.i;
L.17.e.4.v; L.17.e.6.i; L.17.e.6.v; L.17.e.11.i; L.17.e.11.v;
L.17.e.14.i; L.17.e.14.v; L.17.e.15.i; L.17.e.15.v; L.17.e.18.i;
L.17.e.18.v; L.17.e.25.i; L.17.e.25.v; L.17.g.4.i; L.17.g.4.v;
L.17.g.6.i; L.17.g.6.v; L.17.g.11.i; L.17.g.11.v; L.17.g.14.i;
L.17.g.14.v; L.17.g.15.i; L.17.g.15.v; L.17.g.18.i; L.17.g.18.v;
L.17.g.25.i; L.17.g.25.v; L.17.l.4.i; L.17.l.4.v; L.17.l.6.i;
L.17.l.6.v; L.17.l.11.i; L.17.l.11.v; L.17.l.14.i; L.17.l.14.v;
L.17.l.15.i; L.17.l.15.v; L.17.l.18.i; L.17.l.18.v; L.17.l.25.i;
L.17.l.25.v; L.17.m.4.i; L.17.m.4.v; L.17.m.6.i; L.17.m.6.v;
L.17.m.11.i; L.17.m.11.v; L.17.m.14.i; L.17.m.14.v; L.17.m.15.i;
L.17.m.15.v; L.17.m.18.i; L.17.m.18.v; L.17.m.25.i; L.17.m.25.v;
L.17.o.4.i; L.17.o.4.v; L.17.o.6.i; L.17.o.6.v; L.17.o.11.i;
L.17.o.11.v; L.17.o.14.i; L.17.o.14.v; L.17.o.15.i; L.17.o.15.v;
L.17.o.18.i; L.17.o.18.v; L.17.o.25.i; L.17.o.25.v; L.33.a.4.i;
L.33.a.4.v; L.33.a.6.i; L.33.a.6.v; L.33.a.11.i; L.33.a.11.v;
L.33.a.14.i; L.33.a.14.v; L.33.a.15.i; L.33.a.15.v; L.33.a.18.i;
L.33.a.18.v; L.33.a.25.i; L.33.a.25.v; L.33.e.4.i; L.33.e.4.v;
L.33.e.6.i; L.33.e.6.v; L.33.e.11.i; L.33.e.11.v; L.33.e.14.i;
L.33.e.14.v; L.33.e.15.i; L.33.e.15.v; L.33.e.18.i; L.33.e.18.v;
L.33.e.25.i; L.33.e.25.v; L.33.g.4.i; L.33.g.4.v; L.33.g.6.i;
L.33.g.6.v; L.33.g.11.i; L.33.g.11.v; L.33.g.14.i; L.33.g.14.v;
L.33.g.15.i; L.33.g.15.v; L.33.g.18.i; L.33.g.18.v; L.33.g.25.i;
L.33.g.25.v; L.33.l.4.i; L.33.l.4.v; L.33.l.6.i; L.33.l.6.v;
L.33.l.11.i; L.33.l.11.v; L.33.l.14.i; L.33.l.14.v; L.33.l.15.i;
L.33.l.15.v; L.33.l.18.i; L.33.l.18.v; L.33.l.25.i; L.33.l.25.v;
L.33.m.4.i; L.33.m.4.v; L.33.m.6.i; L.33.m.6.v; L.33.m.11.i;
L.33.m.11.v; L.33.m.14.i; L.33.m.14.v; L.33.m.15.i; L.33.m.15.v;
L.33.m.18.i; L.33.m.18.v; L.33.m.25.i; L.33.m.25.v; L.33.o.4.i;
L.33.o.4.v; L.33.o.6.i; L.33.o.6.v; L.33.o.11.i; L.33.o.11.v;
L.33.o.14.i; L.33.o.14.v; L.33.o.15.i; L.33.o.15.v; L.33.o.18.i;
L.33.o.18.v; L.33.o.25.i; L.33.o.25.v; L.49.a.4.i; L.49.a.4.v;
L.49.a.6.i; L.49.a.6.v; L.49.a.11.i; L.49.a.11.v; L.49.a.14.i;
L.49.a.14.v; L.49.a.15.i; L.49.a.15.v; L.49.a.18.i; L.49.a.18.v;
L.49.a.25.i; L.49.a.25.v; L.49.e.4.i; L.49.e.4.v; L.49.e.6.i;
L.49.e.6.v; L.49.e.11.i; L.49.e.11.v; L.49.e.14.i; L.49.e.14.v;
L.49.e.15.i; L.49.e.15.v; L.49.e.18.i; L.49.e.18.v; L.49.e.25.i;
L.49.e.25.v; L.49.g.4.i; L.49.g.4.v; L.49.g.6.i; L.49.g.6.v;
L.49.g.11.i; L.49.g.11.v; L.49.g.14.i; L.49.g.14.v; L.49.g.15.i;
L.49.g.15.v; L.49.g.18.i; L.49.g.18.v; L.49.g.25.i; L.49.g.25.v;
L.49.l.4.i; L.49.l.4.v; L.49.l.6.i; L.49.l.6.v; L.49.l.11.i;
L.49.l.11.v; L.49.l.14.i; L.49.l.14.v; L.49.l.15.i; L.49.l.15.v;
L.49.l.18.i; L.49.l.18.v; L.49.l.25.i; L.49.l.25.v; L.49.m.4.i;
L.49.m.4.v; L.49.m.6.i; L.49.m.6.v; L.49.m.11.i; L.49.m.11.v;
L.49.m.14.i; L.49.m.14.v; L.49.m.15.i; L.49.m.15.v; L.49.m.18.i;
L.49.m.18.v; L.49.m.25.i; L.49.m.25.v; L.49.o.4.i; L.49.o.4.v;
L.49.o.6.i; L.49.o.6.v; L.49.o.11.i; L.49.o.11.v; L.49.o.14.i;
L.49.o.14.v; L.49.o.15.i; L.49.o.15.v; L.49.o.18.i; L.49.o.18.v;
L.49.o.25.i; L.49.o.25.v; B.93.a.4.i; B.93.a.4.v; B.93.a.6.i;
B.93.a.6.v; B.93.a.11.i; B.93.a.11.v; B.93.a.14.i; B.93.a.14.v;
B.93.a.15.i; B.93.a.15.v; B.93.a.18.i; B.93.a.18.v; B.93.a.25.i;
B.93.a.25.v; B.93.e.4.i; B.93.e.4.v; B.93.e.6.i; B.93.e.6.v;
B.93.e.11.i; B.93.e.11.v; B.93.e.14.i; B.93.e.14.v; B.93.e.15.i;
B.93.e.15.v; B.93.e.18.i; B.93.e.18.v; B.93.e.25.i; B.93.e.25.v;
B.93.g.4.i; B.93.g.4.v; B.93.g.6.i; B.93.g.6.v; B.93.g.11.i;
B.93.g.11.v; B.93.g.14.i; B.93.g.14.v; B.93.g.15.i; B.93.g.15.v;
B.93.g.18.i; B.93.g.18.v; B.93.g.25.i; B.93.g.25.v; B.93.l.4.i;
B.93.l.4.v; B.93.l.6.i; B.93.l.6.v; B.93.l.11.i; B.93.l.11.v;
B.93.l.14.i; B.93.l.14.v; B.93.l.15.i; B.93.l.15.v; B.93.l.18.i;
B.93.l.18.v; B.93.l.25.i; B.93.l.25.v; B.93.m.4.i; B.93.m.4.v;
B.93.m.6.i; B.93.m.6.v; B.93.m.11.i; B.93.m.11.v; B.93.m.14.i;
B.93.m.14.v; B.93.m.15.i; B.93.m.15.v; B.93.m.18.i; B.93.m.18.v;
B.93.m.25.i; B.93.m.25.v; B.93.o.4.i; B.93.o.4.v; B.93.o.6.i;
B.93.o.6.v; B.93.o.11.i; B.93.o.11.v; B.93.o.14.i; B.93.o.14.v;
B.93.o.15.i; B.93.o.15.v; B.93.o.18.i; B.93.o.18.v; B.93.o.25.i;
B.93.o.25.v; B.94.a.4.i; B.94.a.4.v; B.94.a.6.i; B.94.a.6.v;
B.94.a.11.i; B.94.a.11.v; B.94.a.14.i; B.94.a.14.v; B.94.a.15.i;
B.94.a.15.v; B.94.a.18.i; B.94.a.18.v; B.94.a.25.i; B.94.a.25.v;
B.94.e.4.i; B.94.e.4.v; B.94.e.6.i; B.94.e.6.v; B.94.e.11.i;
B.94.e.11.v; B.94.e.14.i; B.94.e.14.v; B.94.e.15.i; B.94.e.15.v;
B.94.e.18.i; B.94.e.18.v; B.94.e.25.i; B.94.e.25.v; B.94.g.4.i;
B.94.g.4.v; B.94.g.6.i; B.94.g.6.v; B.94.g.11.i; B.94.g.11.v;
B.94.g.14.i; B.94.g.14.v; B.94.g.15.i; B.94.g.15.v; B.94.g.18.i;
B.94.g.18.v; B.94.g.25.i; B.94.g.25.v; B.94.l.4.i; B.94.l.4.v;
B.94.l.6.i; B.94.l.6.v; B.94.l.11.i; B.94.l.11.v; B.94.l.14.i;
B.94.l.14.v; B.94.l.15.i; B.94.l.15.v; B.94.l.18.i; B.94.l.18.v;
B.94.l.25.i; B.94.l.25.v; B.94.m.4.i; B.94.m.4.v; B.94.m.6.i;
B.94.m.6.v; B.94.m.11.i; B.94.m.11.v; B.94.m.14.i; B.94.m.14.v;
B.94.m.15.i; B.94.m.15.v; B.94.m.18.i; B.94.m.18.v; B.94.m.25.i;
B.94.m.25.v; B.94.o.4.i; B.94.o.4.v; B.94.o.6.i; B.94.o.6.v;
B.94.o.11.i; B.94.o.11.v; B.94.o.14.i; B.94.o.14.v; B.94.o.15.i;
B.94.o.15.v; B.94.o.18.i; B.94.o.18.v; B.94.o.25.i; B.94.o.25.v;
E.93.a.4.i; E.93.a.4.v; E.93.a.6.i; E.93.a.6.v; E.93.a.11.i;
E.93.a.11.v; E.93.a.14.i; E.93.a.14.v; E.93.a.15.i; E.93.a.15.v;
E.93.a.18.i; E.93.a.18.v; E.93.a.25.i; E.93.a.25.v; E.93.e.4.i;
E.93.e.4.v; E.93.e.6.i; E.93.e.6.v; E.93.e.11.i; E.93.e.11.v;
E.93.e.14.i; E.93.e.14.v; E.93.e.15.i; E.93.e.15.v; E.93.e.18.i;
E.93.e.18.v; E.93.e.25.i; E.93.e.25.v; E.93.g.4.i; E.93.g.4.v;
E.93.g.6.i; E.93.g.6.v; E.93.g.11.i; E.93.g.11.v; E.93.g.14.i;
E.93.g.14.v; E.93.g.15.i; E.93.g.15.v; E.93.g.18.i; E.93.g.18.v;
E.93.g.25.i; E.93.g.25.v; E.93.l.4.i; E.93.l.4.v; E.93.l.6.i;
E.93.l.6.v; E.93.l.11.i; E.93.l.11.v; E.93.l.14.i; E.93.l.14.v;
E.93.l.15.i; E.93.l.15.v; E.93.l.18.i; E.93.l.18.v; E.93.l.25.i;
E.93.l.25.v; E.93.m.4.i; E.93.m.4.v; E.93.m.6.i; E.93.m.6.v;
E.93.m.11.i; E.93.m.11.v; E.93.m.14.i; E.93.m.14.v; E.93.m.15.i;
E.93.m.15.v; E.93.m.18.i; E.93.m.18.v; E.93.m.25.i; E.93.m.25.v;
E.93.o.4.i; E.93.o.4.v; E.93.o.6.i; E.93.o.6.v; E.93.o.11.i;
E.93.o.11.v; E.93.o.14.i; E.93.o.14.v; E.93.o.15.i; E.93.o.15.v;
E.93.o.18.i; E.93.o.18.v; E.93.o.25.i; E.93.o.25.v; E.94.a.4.i;
E.94.a.4.v; E.94.a.6.i; E.94.a.6.v; E.94.a.11.i; E.94.a.11.v;
E.94.a.14.i; E.94.a.14.v; E.94.a.15.i; E.94.a.15.v; E.94.a.18.i;
E.94.a.18.v; E.94.a.25.i; E.94.a.25.v; E.94.e.4.i; E.94.e.4.v;
E.94.e.6.i; E.94.e.6.v; E.94.e.11.i; E.94.e.11.v; E.94.e.14.i;
E.94.e.14.v; E.94.e.15.i; E.94.e.15.v; E.94.e.18.i; E.94.e.18.v;
E.94.e.25.i; E.94.e.25.v; E.94.g.4.i; E.94.g.4.v; E.94.g.6.i;
E.94.g.6.v; E.94.g.11.i; E.94.g.11.v; E.94.g.14.i; E.94.g.14.v;
E.94.g.15.i; E.94.g.15.v; E.94.g.18.i; E.94.g.18.v; E.94.g.25.i;
E.94.g.25.v; E.94.l.4.i; E.94.l.4.v; E.94.l.6.i; E.94.l.6.v;
E.94.l.11.i; E.94.l.11.v; E.94.l.14.i; E.94.l.14.v; E.94.l.15.i;
E.94.l.15.v; E.94.l.18.i; E.94.l.18.v; E.94.l.25.i; E.94.l.25.v;
E.94.m.4.i; E.94.m.4.v; E.94.m.6.i; E.94.m.6.v; E.94.m.11.i;
E.94.m.11.v; E.94.m.14.i; E.94.m.14.v; E.94.m.15.i; E.94.m.15.v;
E.94.m.18.i; E.94.m.18.v; E.94.m.25.i; E.94.m.25.v; E.94.o.4.i;
E.94.o.4.v; E.94.o.6.i; E.94.o.6.v; E.94.o.11.i; E.94.o.11.v;
E.94.o.14.i; E.94.o.14.v; E.94.o.15.i; E.94.o.15.v; E.94.o.18.i;
E.94.o.18.v; E.94.o.25.i; E.94.o.25.v; I.93.a.4.i; I.93.a.4.v;
I.93.a.6.i; I.93.a.6.v; I.93.a.11.i; I.93.a.11.v; I.93.a.14.i;
I.93.a.14.v; I.93.a.15.i; I.93.a.15.v; I.93.a.18.i; I.93.a.18.v;
I.93.a.25.i; I.93.a.25.v; I.93.e.4.i; I.93.e.4.v; I.93.e.6.i;
I.93.e.6.v; I.93.e.11.i; I.93.e.11.v; I.93.e.14.i; I.93.e.14.v;
I.93.e.15.i; I.93.e.15.v; I.93.e.18.i; I.93.e.18.v; I.93.e.25.i;
I.93.e.25.v; I.93.g.4.i; I.93.g.4.v; I.93.g.6.i; I.93.g.6.v;
I.93.g.11.i; I.93.g.11.v; I.93.g.14.i; I.93.g.14.v; I.93.g.15.i;
I.93.g.15.v; I.93.g.18.i; I.93.g.18.v; I.93.g.25.i; I.93.g.25.v;
I.93.l.4.i; I.93.l.4.v; I.93.l.6.i; I.93.l.6.v; I.93.l.11.i;
I.93.l.11.v; I.93.l.14.i; I.93.l.14.v; I.93.l.15.i; I.93.l.15.v;
I.93.l.18.i; I.93.l.18.v; I.93.l.25.i; I.93.l.25.v; I.93.m.4.i;
I.93.m.4.v; I.93.m.6.i; I.93.m.6.v; I.93.m.11.i; I.93.m.11.v;
I.93.m.14.i; I.93.m.14.v; I.93.m.15.i; I.93.m.15.v; I.93.m.18.i;
I.93.m.18.v; I.93.m.25.i; I.93.m.25.v; I.93.o.4.i; I.93.o.4.v;
I.93.o.6.i; I.93.o.6.v; I.93.o.11.i; I.93.o.11.v; I.93.o.14.i;
I.93.o.14.v; I.93.o.15.i; I.93.o.15.v; I.93.o.18.i; I.93.o.18.v;
I.93.o.25.i; I.93.o.25.v; I.94.a.4.i; I.94.a.4.v; I.94.a.6.i;
I.94.a.6.v; I.94.a.11.i; I.94.a.11.v; I.94.a.14.i; I.94.a.14.v;
I.94.a.15.i; I.94.a.15.v; I.94.a.18.i; I.94.a.18.v; I.94.a.25.i;
I.94.a.25.v; I.94.e.4.i; I.94.e.4.v; I.94.e.6.i; I.94.e.6.v;
I.94.e.11.i; I.94.e.11.v; I.94.e.14.i; I.94.e.14.v; I.94.e.15.i;
I.94.e.15.v; I.94.e.18.i; I.94.e.18.v; I.94.e.25.i; I.94.e.25.v;
I.94.g.4.i; I.94.g.4.v; I.94.g.6.i; I.94.g.6.v; I.94.g.11.i;
I.94.g.11.v; I.94.g.14.i; I.94.g.14.v; I.94.g.15.i; I.94.g.15.v;
I.94.g.18.i; I.94.g.18.v; I.94.g.25.i; I.94.g.25.v; I.94.l.4.i;
I.94.l.4.v; I.94.l.6.i; I.94.l.6.v; I.94.l.11.i; I.94.l.11.v;
I.94.l.14.i; I.94.l.14.v; I.94.l.15.i; I.94.l.15.v; I.94.l.18.i;
I.94.l.18.v; I.94.l.25.i; I.94.l.25.v; I.94.m.4.i; I.94.m.4.v;
I.94.m.6.i; I.94.m.6.v; I.94.m.11.i; I.94.m.11.v; I.94.m.14.i;
I.94.m.14.v; I.94.m.15.i; I.94.m.15.v; I.94.m.18.i; I.94.m.18.v;
I.94.m.25.i; I.94.m.25.v; I.94.o.4.i; I.94.o.4.v; I.94.o.6.i;
I.94.o.6.v; I.94.o.11.i; I.94.o.11.v; I.94.o.14.i; I.94.o.14.v;
I.94.o.15.i; I.94.o.15.v; I.94.o.18.i; I.94.o.18.v; I.94.o.25.i;
I.94.o.25.v; L.93.a.4.i; L.93.a.4.v; L.93.a.6.i; L.93.a.6.v;
L.93.a.11.i; L.93.a.11.v; L.93.a.14.i; L.93.a.14.v; L.93.a.15.i;
L.93.a.15.v; L.93.a.18.i; L.93.a.18.v; L.93.a.25.i; L.93.a.25.v;
L.93.e.4.i; L.93.e.4.v; L.93.e.6.i; L.93.e.6.v; L.93.e.11.i;
L.93.e.11.v; L.93.e.14.i; L.93.e.14.v; L.93.e.15.i; L.93.e.15.v;
L.93.e.18.i; L.93.e.18.v; L.93.e.25.i; L.93.e.25.v; L.93.g.4.i;
L.93.g.4.v; L.93.g.6.i; L.93.g.6.v; L.93.g.11.i; L.93.g.11.v;
L.93.g.14.i; L.93.g.14.v; L.93.g.15.i; L.93.g.15.v; L.93.g.18.i;
L.93.g.18.v; L.93.g.25.i; L.93.g.25.v; L.93.l.4.i; L.93.l.4.v;
L.93.l.6.i; L.93.l.6.v; L.93.l.11.i; L.93.l.11.v; L.93.l.14.i;
L.93.l.14.v; L.93.l.15.i; L.93.l.15.v; L.93.l.18.i; L.93.l.18.v;
L.93.l.25.i; L.93.l.25.v; L.93.m.4.i; L.93.m.4.v; L.93.m.6.i;
L.93.m.6.v; L.93.m.11.i; L.93.m.11.v; L.93.m.14.i; L.93.m.14.v;
L.93.m.15.i; L.93.m.15.v; L.93.m.18.i; L.93.m.18.v; L.93.m.25.i;
L.93.m.25.v; L.93.o.4.i; L.93.o.4.v; L.93.o.6.i; L.93.o.6.v;
L.93.o.11.i; L.93.o.11.v; L.93.o.14.i; L.93.o.14.v; L.93.o.15.i;
L.93.o.15.v; L.93.o.18.i; L.93.o.18.v; L.93.o.25.i; L.93.o.25.v;
L.94.a.4.i; L.94.a.4.v; L.94.a.6.i; L.94.a.6.v; L.94.a.11.i;
L.94.a.11.v; L.94.a.14.i; L.94.a.14.v; L.94.a.15.i; L.94.a.15.v;
L.94.a.18.i; L.94.a.18.v; L.94.a.25.i; L.94.a.25.v; L.94.e.4.i;
L.94.e.4.v; L.94.e.6.i; L.94.e.6.v; L.94.e.11.i; L.94.e.11.v;
L.94.e.14.i; L.94.e.14.v; L.94.e.15.i; L.94.e.15.v; L.94.e.18.i;
L.94.e.18.v; L.94.e.25.i; L.94.e.25.v; L.94.g.4.i; L.94.g.4.v;
L.94.g.6.i; L.94.g.6.v; L.94.g.11.i; L.94.g.11.v; L.94.g.14.i;
L.94.g.14.v; L.94.g.15.i; L.94.g.15.v; L.94.g.18.i; L.94.g.18.v;
L.94.g.25.i; L.94.g.25.v; L.94.l.4.i; L.94.l.4.v; L.94.l.6.i;
L.94.l.6.v; L.94.l.11.i; L.94.l.11.v; L.94.l.14.i; L.94.l.14.v;
L.94.l.15.i; L.94.l.15.v; L.94.l.18.i; L.94.l.18.v; L.94.l.25.i;
L.94.l.25.v; L.94.m.4.i; L.94.m.4.v; L.94.m.6.i; L.94.m.6.v;
L.94.m.11.i; L.94.m.11.v; L.94.m.14.i; L.94.m.14.v; L.94.m.15.i;
L.94.m.15.v; L.94.m.18.i; L.94.m.18.v; L.94.m.25.i; L.94.m.25.v;
L.94.o.4.i; L.94.o.4.v; L.94.o.6.i; L.94.o.6.v; L.94.o.11.i;
L.94.o.11.v; L.94.o.14.i; L.94.o.14.v; L.94.o.15.i; L.94.o.15.v;
L.94.o.18.i; L.94.o.18.v; L.94.o.25.i; L.94.o.25.v; O.93.a.4.i;
O.93.a.4.v; O.93.a.6.i; O.93.a.6.v; O.93.a.11.i; O.93.a.11.v;
O.93.a.14.i; O.93.a.14.v; O.93.a.15.i; O.93.a.15.v; O.93.a.18.i;
O.93.a.18.v; O.93.a.25.i; O.93.a.25.v; O.93.e.4.i; O.93.e.4.v;
O.93.e.6.i; O.93.e.6.v; O.93.e.11.i; O.93.e.11.v; O.93.e.14.i;
O.93.e.14.v; O.93.e.15.i; O.93.e.15.v; O.93.e.18.i; O.93.e.18.v;
O.93.e.25.i; O.93.e.25.v; O.93.g.4.i; O.93.g.4.v; O.93.g.6.i;
O.93.g.6.v; O.93.g.11.i; O.93.g.11.v; O.93.g.14.i; O.93.g.14.v;
O.93.g.15.i; O.93.g.15.v; O.93.g.18.i; O.93.g.18.v; O.93.g.25.i;
O.93.g.25.v; O.93.l.4.i; O.93.l.4.v; O.93.l.6.i; O.93.l.6.v;
O.93.l.11.i; O.93.l.11.v; O.93.l.14.i; O.93.l.14.v; O.93.l.15.i;
O.93.l.15.v; O.93.l.18.i; O.93.l.18.v; O.93.l.25.i; O.93.l.25.v;
O.93.m.4.i; O.93.m.4.v; O.93.m.6.i; O.93.m.6.v; O.93.m.11.i;
O.93.m.11.v; O.93.m.14.i; O.93.m.14.v; O.93.m.15.i; O.93.m.15.v;
O.93.m.18.i; O.93.m.18.v; O.93.m.25.i; O.93.m.25.v; O.93.o.4.i;
O.93.o.4.v; O.93.o.6.i; O.93.o.6.v; O.93.o.11.i; O.93.o.11.v;
O.93.o.14.i; O.93.o.14.v; O.93.o.15.i; O.93.o.15.v; O.93.o.18.i;
O.93.o.18.v; O.93.o.25.i; O.93.o.25.v; O.94.a.4.i; O.94.a.4.v;
O.94.a.6.i; O.94.a.6.v; O.94.a.11.i; O.94.a.11.v; O.94.a.14.i;
O.94.a.14.v; O.94.a.15.i; O.94.a.15.v; O.94.a.18.i; O.94.a.18.v;
O.94.a.25.i; O.94.a.25.v; O.94.e.4.i; O.94.e.4.v; O.94.e.6.i;
O.94.e.6.v; O.94.e.11.i; O.94.e.11.v; O.94.e.14.i; O.94.e.14.v;
O.94.e.15.i; O.94.e.15.v; O.94.e.18.i; O.94.e.18.v; O.94.e.25.i;
O.94.e.25.v; O.94.g.4.i; O.94.g.4.v; O.94.g.6.i; O.94.g.6.v;
O.94.g.11.i; O.94.g.11.v; O.94.g.14.i; O.94.g.14.v; O.94.g.15.i;
O.94.g.15.v; O.94.g.18.i; O.94.g.18.v; O.94.g.25.i; O.94.g.25.v;
O.94.l.4.i; O.94.l.4.v; O.94.l.6.i; O.94.l.6.v; O.94.l.11.i;
O.94.l.11.v; O.94.l.14.i; O.94.l.14.v; O.94.l.15.i; O.94.l.15.v;
O.94.l.18.i; O.94.l.18.v; O.94.l.25.i; O.94.l.25.v; O.94.m.4.i;
O.94.m.4.v; O.94.m.6.i; O.94.m.6.v; O.94.m.11.i; O.94.m.11.v;
O.94.m.14.i; O.94.m.14.v; O.94.m.15.i; O.94.m.15.v; O.94.m.18.i;
O.94.m.18.v; O.94.m.25.i; O.94.m.25.v; O.94.o.4.i; O.94.o.4.v;
O.94.o.6.i; O.94.o.6.v; O.94.o.11.i; O.94.o.11.v; O.94.o.14.i;
O.94.o.14.v; O.94.o.15.i; O.94.o.15.v; O.94.o.18.i; O.94.o.18.v;
O.94.o.25.i; O.94.o.25.v; P.93.a.4.i; P.93.a.4.v; P.93.a.6.i;
P.93.a.6.v; P.93.a.11.i; P.93.a.11.v; P.93.a.14.i; P.93.a.14.v;
P.93.a.15.i; P.93.a.15.v; P.93.a.18.i; P.93.a.18.v; P.93.a.25.i;
P.93.a.25.v; P.93.e.4.i; P.93.e.4.v; P.93.e.6.i; P.93.e.6.v;
P.93.e.11.i; P.93.e.11.v; P.93.e.14.i; P.93.e.14.v; P.93.e.15.i;
P.93.e.15.v; P.93.e.18.i; P.93.e.18.v; P.93.e.25.i; P.93.e.25.v;
P.93.g.4.i; P.93.g.4.v; P.93.g.6.i; P.93.g.6.v; P.93.g.11.i;
P.93.g.11.v; P.93.g.14.i; P.93.g.14.v; P.93.g.15.i; P.93.g.15.v;
P.93.g.18.i; P.93.g.18.v; P.93.g.25.i; P.93.g.25.v; P.93.l.4.i;
P.93.l.4.v; P.93.l.6.i; P.93.l.6.v; P.93.l.11.i; P.93.l.11.v;
P.93.l.14.i; P.93.l.14.v; P.93.l.15.i; P.93.l.15.v; P.93.l.18.i;
P.93.l.18.v; P.93.l.25.i; P.93.l.25.v; P.93.m.4.i; P.93.m.4.v;
P.93.m.6.i; P.93.m.6.v; P.93.m.11.i; P.93.m.11.v; P.93.m.14.i;
P.93.m.14.v; P.93.m.15.i; P.93.m.15.v; P.93.m.18.i; P.93.m.18.v;
P.93.m.25.i; P.93.m.25.v; P.93.o.4.i; P.93.o.4.v; P.93.o.6.i;
P.93.o.6.v; P.93.o.11.i; P.93.o.11.v; P.93.o.14.i; P.93.o.14.v;
P.93.o.15.i; P.93.o.15.v; P.93.o.18.i; P.93.o.18.v; P.93.o.25.i;
P.93.o.25.v; P.94.a.4.i; P.94.a.4.v; P.94.a.6.i; P.94.a.6.v;
P.94.a.11.i; P.94.a.11.v; P.94.a.14.i; P.94.a.14.v; P.94.a.15.i;
P.94.a.15.v; P.94.a.18.i; P.94.a.18.v; P.94.a.25.i; P.94.a.25.v;
P.94.e.4.i; P.94.e.4.v; P.94.e.6.i; P.94.e.6.v; P.94.e.11.i;
P.94.e.11.v; P.94.e.14.i; P.94.e.14.v; P.94.e.15.i; P.94.e.15.v;
P.94.e.18.i; P.94.e.18.v; P.94.e.25.i; P.94.e.25.v; P.94.g.4.i;
P.94.g.4.v; P.94.g.6.i; P.94.g.6.v; P.94.g.11.i; P.94.g.11.v;
P.94.g.14.i; P.94.g.14.v; P.94.g.15.i; P.94.g.15.v; P.94.g.18.i;
P.94.g.18.v; P.94.g.25.i; P.94.g.25.v; P.94.l.4.i; P.94.l.4.v;
P.94.l.6.i; P.94.l.6.v; P.94.l.11.i; P.94.l.11.v; P.94.l.14.i;
P.94.l.14.v; P.94.l.15.i; P.94.l.15.v; P.94.l.18.i; P.94.l.18.v;
P.94.l.25.i; P.94.l.25.v; P.94.m.4.i; P.94.m.4.v; P.94.m.6.i;
P.94.m.6.v; P.94.m.11.i; P.94.m.11.v; P.94.m.14.i; P.94.m.14.v;
P.94.m.15.i; P.94.m.15.v; P.94.m.18.i; P.94.m.18.v; P.94.m.25.i;
P.94.m.25.v; P.94.o.4.i; P.94.o.4.v; P.94.o.6.i; P.94.o.6.v;
P.94.o.11.i; P.94.o.11.v; P.94.o.14.i; P.94.o.14.v; P.94.o.15.i;
P.94.o.15.v; P.94.o.18.i; P.94.o.18.v; P.94.o.25.i; P.94.o.25.v;
A.2.a.4.o; A.2.a.4.bh; A.2.a.4.bi; A.2.a.4.bj; A.2.a.4.bk;
A.2.a.11.o; A.2.a.11.bh; A.2.a.11.bi; A.2.a.11.bj; A.2.a.11.bk;
A.2.a.15.i; A.2.a.15.o; A.2.a.15.bh; A.2.a.15.bi; A.2.a.15.bj;
A.2.a.15.bk; A.2.a.37.i; A.2.a.37.o; A.2.a.37.bh; A.2.a.37.bi;
A.2.a.37.bj;
A.2.a.37.bk; A.2.a.38.i; A.2.a.38.o; A.2.a.38.bh A.2.a.38.bi;
A.2.a.38.bj; A.2.a.38.bk; A.2.a.39.i; A.2.a.39.o; A.2.a.39.bh;
A.2.a.39.bi; A.2.a.39.bj; A.2.a.39.bk; A.2.a.40.i; A.2.a.40.o;
A.2.a.40.bh; A.2.a.40.bi; A.2.a.40.bj; A.2.a.40.bk; A.2.a.41.i;
A.2.a.41.o; A.2.a.41.bh; A.2.a.41.bi; A.2.a.41.bj; A.2.a.41.bk;
A.2.a.42.i; A.2.a.42.o; A.2.a.42.bh; A.2.a.42.bi; A.2.a.42.bj;
A.2.a.42.bk; A.2.a.43.i; A.2.a.43.o; A.2.a.43.bh; A.2.a.43.bi;
A.2.a.43.bj; A.2.a.43.bk; A.3.a.4.o; A.3.a.4.bh; A.3.a.4.bi;
A.3.a.4.bj; A.3.a.4.bk; A.3.a.11.o; A.3.a.11.bh; A.3.a.11.bi;
A.3.a.11.bj; A.3.a.11.bk; A.3.a.15.i; A.3.a.15.o; A.3.a.15.bh;
A.3.a.15.bi; A.3.a.15.bj; A.3.a.15.bk; A.3.a.37.i; A.3.a.37.o;
A.3.a.37.bh; A.3.a.37.bi; A.3.a.37.bj; A.3.a.37.bk; A.3.a.38.i;
A.3.a.38.o; A.3.a.38.bh; A.3.a.38.bi; A.3.a.38.bj; A.3.a.38.bk;
A.3.a.39.i; A.3.a.39.o; A.3.a.39.bh; A.3.a.39.bi; A.3.a.39.bj;
A.3.a.39.bk; A.3.a.40.i; A.3.a.40.o; A.3.a.40.bh; A.3.a.40.bi;
A.3.a.40.bj; A.3.a.40.bk; A.3.a.41.i; A.3.a.41.o; A.3.a.41.bh;
A.3.a.41.bi; A.3.a.41.bj; A.3.a.41.bk; A.3.a.42.i; A.3.a.42.o;
A.3.a.42.bh; A.3.a.42.bi; A.3.a.42.bj; A.3.a.42.bk; A.3.a.43.i;
A.3.a.43.o; A.3.a.43.bh; A.3.a.43.bi; A.3.a.43.bj; A.3.a.43.bk;
A.4.a.4.o; A.4.a.4.bh; A.4.a.4.bi; A.4.a.4.bj; A.4.a.4.bk;
A.4.a.11.o; A.4.a.11.bh; A.4.a.11.bi; A.4.a.11.bj; A.4.a.11.bk;
A.4.a.15.i; A.4.a.15.o; A.4.a.15.bh; A.4.a.15.bi; A.4.a.15.bj;
A.4.a.15.bk; A.4.a.37.i; A.4.a.37.o; A.4.a.37.bh; A.4.a.37.bi;
A.4.a.37.bj; A.4.a.37.bk; A.4.a.38.i; A.4.a.38.o; A.4.a.38.bh;
A.4.a.38.bi; A.4.a.38.bj; A.4.a.38.bk; A.4.a.39.i; A.4.a.39.o;
A.4.a.39.bh; A.4.a.39.bi; A.4.a.39.bj; A.4.a.39.bk; A.4.a.40.i;
A.4.a.40.o; A.4.a.40.bh; A.4.a.40.bi; A.4.a.40.bj; A.4.a.40.bk;
A.4.a.41.i; A.4.a.41.o; A.4.a.41.bh; A.4.a.41.bi; A.4.a.41.bj;
A.4.a.41.bk; A.4.a.42.i; A.4.a.42.o; A.4.a.42.bh; A.4.a.42.bi;
A.4.a.42.bj; A.4.a.42.bk; A.4.a.43.i; A.4.a.43.o; A.4.a.43.bh;
A.4.a.43.bi; A.4.a.43.bj; A.4.a.43.bk; A.7.a.4.o; A.7.a.4.bh;
A.7.a.4.bi; A.7.a.4.bj; A.7.a.4.bk; A.7.a.11.o; A.7.a.11.bh;
A.7.a.11.bi; A.7.a.11.bj; A.7.a.11.bk; A.7.a.15.i; A.7.a.15.o;
A.7.a.15.bh; A.7.a.15.bi; A.7.a.15.bj; A.7.a.15.bk; A.7.a.37.i;
A.7.a.37.o; A.7.a.37.bh; A.7.a.37.bi; A.7.a.37.bj; A.7.a.37.bk;
A.7.a.38.i; A.7.a.38.o; A.7.a.38.bh; A.7.a.38.bi; A.7.a.38.bj;
A.7.a.38.bk; A.7.a.39.i; A.7.a.39.o; A.7.a.39.bh; A.7.a.39.bi;
A.7.a.39.bj; A.7.a.39.bk; A.7.a.40.i; A.7.a.40.o; A.7.a.40.bh;
A.7.a.40.bi; A.7.a.40.bj; A.7.a.40.bk; A.7.a.41.i; A.7.a.41.o;
A.7.a.41.bh; A.7.a.41.bi; A.7.a.41.bj; A.7.a.41.bk; A.7.a.42.i;
A.7.a.42.o; A.7.a.42.bh; A.7.a.42.bi; A.7.a.42.bj; A.7.a.42.bk;
A.7.a.43.i; A.7.a.43.o; A.7.a.43.bh; A.7.a.43.bi; A.7.a.43.bj;
A.7.a.43.bk; A.17.a.4.i; A.17.a.4.o; A.17.a.4.bh; A.17.a.4.bi;
A.17.a.4.bj; A.17.a.4.bk; A.17.a.11.i; A.17.a.11.o; A.17.a.11.bh;
A.17.a.11.bi; A.17.a.11.bj; A.17.a.11.bk; A.17.a.15.i; A.17.a.15.o;
A.17.a.15.bh; A.17.a.15.bi; A.17.a.15.bj; A.17.a.15.bk;
A.17.a.37.i; A.17.a.37.o; A.17.a.37.bh; A.17.a.37.bi; A.17.a.37.bj;
A.17.a.37.bk; A.17.a.38.i; A.17.a.38.o; A.17.a.38.bh; A.17.a.38.bi;
A.17.a.38.bj; A.17.a.38.bk; A.17.a.39.i; A.17.a.39.o; A.17.a.39.bh;
A.17.a.39.bi; A.17.a.39.bj; A.17.a.39.bk; A.17.a.40.i; A.17.a.40.o;
A.17.a.40.bh; A.17.a.40.bi; A.17.a.40.bj; A.17.a.40.bk;
A.17.a.41.i; A.17.a.41.o; A.17.a.41.bh; A.17.a.41.bi; A.17.a.41.bj;
A.17.a.41.bk; A.17.a.42.i; A.17.a.42.o; A.17.a.42.bh; A.17.a.42.bi;
A.17.a.42.bj; A.17.a.42.bk; A.17.a.43.i; A.17.a.43.o; A.17.a.43.bh;
A.17.a.43.bi; A.17.a.43.bj; A.17.a.43.bk; A.18.a.4.i; A.18.a.4.o;
A.18.a.4.bh; A.18.a.4.bi; A.18.a.4.bj; A.18.a.4.bk; A.18.a.11.i;
A.18.a.11.o; A.18.a.11.bh; A.18.a.11.bi; A.18.a.11.bj;
A.18.a.11.bk; A.18.a.15.i; A.18.a.15.o; A.18.a.15.bh; A.18.a.15.bi;
A.18.a.15.bj; A.18.a.15.bk; A.18.a.37.i; A.18.a.37.o; A.18.a.37.bh;
A.18.a.37.bi; A.18.a.37.bj; A.18.a.37.bk; A.18.a.38.i; A.18.a.38.o;
A.18.a.38.bh; A.18.a.38.bi; A.18.a.38.bj; A.18.a.38.bk;
A.18.a.39.i; A.18.a.39.o; A.18.a.39.bh; A.18.a.39.bi; A.18.a.39.bj;
A.18.a.39.bk; A.18.a.40.i; A.18.a.40.o; A.18.a.40.bh; A.18.a.40.bi;
A.18.a.40.bj; A.18.a.40.bk; A.18 a.41.i; A.18.a.41.o; A.18.a.41.bh;
A.18.a.41.bi; A.18.a.41.bj; A.18.a.41.bk; A.18.a.42.i; A.18.a.42.o;
A.18.a.42.bh; A.18.a.42.bi; A.18.a.42.bj; A.18.a.42.bk;
A.18.a.43.i; A.18.a.43.o; A.18.a.43.bh; A.18.a.43.bi; A.18.a.43.bj;
A.18.a.43.bk; A.19.a.4.i; A.19.a.4.o; A.19.a.4.bh; A.19.a.4.bi;
A.19.a.4.bj; A.19.a.4.bk; A.19.a.11.i; A.19.a.11.o; A.19.a.11.bh;
A.19.a.11.bi; A.19.a.11.bj; A.19.a.11.bk; A.19.a.15.i; A.19.a.15.o;
A.19.a.15.bh; A.19.a.15.bi; A.19.a.15.bj; A.19.a.15.bk;
A.19.a.37.i; A.19.a.37.o; A.19.a.37.bh; A.19.a.37.bi; A.19.a.37.bj;
A.19.a.37.bk; A.19.a.38.i; A.19.a.38.o; A.19.a.38.bh; A.19.a.38.bi;
A.19.a.38.bj; A.19.a.38.bk; A.19.a.39.i; A.19.a.39.o; A.19.a.39.bh;
A.19.a.39.bi; A.19.a.39.bj; A.19.a.39.bk; A.19.a.40.i; A.19.a.40.o;
A.19.a.40.bh; A.19.a.40.bi; A.19.a.40.bj; A.19.a.40.bk;
A.19.a.41.i; A.19.a.41.o; A.19.a.41.bh; A.19.a.41.bi; A.19.a.41.bj;
A.19.a.41.bk; A.19.a.42.i; A.19.a.42.o; A.19.a.42.bh; A.19.a.42.bi;
A.19.a.42.bj; A.19.a.42.bk; A.19.a.43.i; A.19.a.43.o; A.19.a.43.bh;
A.19.a.43.bi; A.19.a.43.bj; A.19.a.43.bk; A.97.a.4.i; A.97.a.4.o;
A.97.a.4.bh; A.97.a.4.bi; A.97.a.4.bj; A.97.a.4.bk; A.97.a.11.i;
A.97.a.11.o; A.97.a.11.bh; A.97.a.11.bi; A.97.a.11.bj;
A.97.a.11.bk; A.97.a.15.i; A.97.a.15.o; A.97.a.15.bh; A.97.a.15.bi;
A.97.a.15.bj; A.97.a.15.bk; A.97.a.37.i; A.97.a.37.o; A.97.a.37.bh;
A.97.a.37.bi; A.97.a.37.bj; A.97.a.37.bk; A.97.a.38.i; A.97.a.38.o;
A.97.a.38.bh; A.97.a.38.bi; A.97.a.38.bj; A.97.a.38.bk;
A.97.a.39.i; A.97.a.39.o; A.97.a.39.bh; A.97.a.39.bi; A.97.a.39.bj;
A.97.a.39.bk; A.97.a.40.i; A.97.a.40.o; A.97.a.40.bh; A.97.a.40.bi;
A.97.a.40.bj; A.97.a.40.bk; A.97.a.41.i; A.97.a.41.o; A.97.a.41.bh;
A.97.a.41.bi; A.97.a.41.bj; A.97.a.41.bk; A.97.a.42.i; A.97.a.42.o;
A.97.a.42.bh; A.97.a.42.bi; A.97.a.42.bj; A.97.a.42.bk;
A.97.a.43.i; A.97.a.43.o; A.97.a.43.bh; A.97.a.43.bi; A.97.a.43.bj;
A.97.a.43.bk; A.98.a.4.i; A.98.a.4.o; A.98.a.4.bh; A.98.a.4.bi;
A.98.a.4.bj; A.98.a.4.bk; A.98.a.11.i; A.98.a.11.o; A.98.a.11.bh;
A.98.a.11.bi; A.98.a.11.bj; A.98.a.11.bk; A.98.a.15.i; A.98.a.15.o;
A.98.a.15.bh; A.98.a.15.bi; A.98.a.15.bj; A.98.a.15.bk;
A.98.a.37.i; A.98.a.37.o; A.98.a.37.bh; A.98.a.37.bi; A.98.a.37.bj;
A.98.a.37.bk; A.98.a.38.i; A.98.a.38.o; A.98.a.38.bh; A.98.a.38.bi;
A.98.a.38.bj; A.98.a.38.bk; A.98.a.39.i; A.98.a.39.o; A.98.a.39.bh;
A.98.a.39.bi; A.98.a.39.bj; A.98.a.39.bk; A.98.a.40.i; A.98.a.40.o;
A.98.a.40.bh; A.98.a.40.bi; A.98.a.40.bj; A.98.a.40.bk;
A.98.a.41.i; A.98.a.41.o; A.98.a.41.bh; A.98.a.41.bi; A.98.a.41.bj;
A.98.a.41.bk; A.98.a.42.i; A.98.a.42.o; A.98.a.42.bh; A.98.a.42.bi;
A.98.a.42.bj; A.98.a.42.bk; A.98.a.43.i; A.98.a.43.o; A.98.a.43.bh;
A.98.a.43.bi; A.98.a.43.bj; A.98.a.43.bk; A.2.a.4.i; A.3.a.4.i;
A.4.a.4.i; A.5.a.4.i; A.6.a.4.i; A.7.a.4.i; A.9.a.4.i; A.10.a.4.i;
A.15.a.4.i; A.100.a.4.i; A.101.a.4.i; A.102.a.4.i; A.103.a.4.i;
A.104.a.4.i; A.105.a.4.i; A.106.a.4.i; A.107.a.4.i; A.108.a.4.i;
A.109.a.4.i; A.110.a.4.i; A.111.a.4.i; A.112.a.4.i; A.113.a.4.i;
A.114.a.4.i; A.115.a.4.i; A.116.a.4.i; A.117.a.4.i; A.118.a.4.i;
A.119.a.4.i; A.120.a.4.i; A.121.a.4.i; A.122.a.4.i; A.123.a.4.i;
A.124.a.4.i; A.125.a.4.i; A.126.a.4.i; A.127.a.4.i; A.128.a.4.i;
A.129.a.4.i; A.130.a.4.i; A.131.a.4.i; A.132.a.4.i; A.133.a.4.i;
A.134.a.4.i; A.135.a.4.i; A.136.a.4.i; A.137.a.4.i; A.138.a.4.i;
A.139.a.4.i; A.140.a.4.i; A.141.a.4.i; A.142.a.4.i; A.143.a.4.i;
A.144.a.4.i; A.145.a.4.i; A.146.a.4.i; A.147.a.4.i; A.148.a.4.i;
A.149.a.4.i; A.150.a.4.i; A.151.a.4.i; A.152.a.4.i; A.153.a.4.i;
A.154.a.4.i; A.155.a.4.i; A.156.a.4.i; A.157.a.4.i; A.158.a.4.i;
A.159.a.4.i; A.160.a.4.i; A.161.a.4.i; A.162.a.4.i; A.163.a.4.i;
A.164.a.4.i; A.165.a.4.i; A.166.a.4.i; A.167.a.4.i; A.168.a.4.i;
A.169.a.4.i; A.170.a.4.i; A.171.a.4.i; A.172.a.4.i; A.173.a.4.i;
A.174.a.4.i; A.175.a.4.i; A.176.a.4.i; A.177.a.4.i; A.178.a.4.i;
A.179.a.4.i; A.180.a.4.i; A.181.a.4.i; A.182.a.4.i; A.183.a.4.i;
A.184.a.4.i; A.185.a.4.i; A.186.a.4.i; A.187.a.4.i; A.188.a.4.i;
A.189.a.4.i; A.190.a.4.i; A.191.a.4.i; A.192.a.4.i; A.193.a.4.i;
A.194.a.4.i; A.195.a.4.i; A.196.a.4.i; A.197.a.4.i; A.198.a.4.i;
A.199.a.4.i; A.200.a.4.i; A.201.a.4.i; A.202.a.4.i; A.203.a.4.i;
A.204.a.4.i; A.205.a.4.i; A.206.a.4.i; A.207.a.4.i; A.208.a.4.i;
A.209.a.4.i; A.210.a.4.i; A.211.a.4.i; A.212.a.4.i; A.213.a.4.i;
A.214.a.4.i; A.215.a.4.i; A.216.a.4.i; A.217.a.4.i; A.218.a.4.i;
A.219.a.4.i; A.220.a.4.i; A.221.a.4.i; A.222.a.4.i; A.223.a.4.i;
A.224.a.4.i; A.225.a.4.i; A.226.a.4.i; A.227.a.4.i; A.228.a.4.i;
A.229.a.4.i; A.230.a.4.i; A.231.a.4.i; A.232.a.4.i; A.233.a.4.i;
A.234.a.4.i; A.235.a.4.i; A.236.a.4.i; A.237.a.4.i; A.238.a.4.i;
A.239.a.4.i; A.240.a.4.i; A.241.a.4.i; A.242.a.4.i; A.243.a.4.i;
A.244.a.4.i; A.245.a.4.i; A.246.a.4.i; A.247.a.4.i; A.248.a.4.i;
A.249.a.4.i; A.250.a.4.i; A.251.a.4.i; A.252.a.4.i; A.253.a.4.i;
A.254.a.4.i; A.255.a.4.i; A.256.a.4.i; A.257.a.4.i; A.258.a.4.i;
A.259.a.4.i; A.260.a.4.i; A.261.a.4.i; A.262.a.4.i; A.263.a.4.i;
A.264.a.4.i; A.265.a.4.i; A.266.a.4.i; A.267.a.4.i; A.268.a.4.i;
A.269.a.4.i; A.270.a.4.i; A.271.a.4.i; A.272.a.4.i; A.273.a.4.i;
A.274.a.4.i; A.275.a.4.i; A.276.a.4.i; A.277.a.4.i; A.278.a.4.i;
A.279.a.4.i; A.280.a.4.i; A.281.a.4.i; A.282.a.4.i; A.283.a.4.i;
A.284.a.4.i; A.285.a.4.i; A.286.a.4.i; A.287.a.4.i; A.288.a.4.i;
A.289.a.4.i; A.290.a.4.i; A.291.a.4.i; A.292.a.4.i; A.293.a.4.i;
A.294.a.4.i; A.295.a.4.i; A.296.a.4.i; A.297.a.4.i; A.298.a.4.i;
A.299.a.4.i; A.300.a.4.i; A.301.a.4.i; A.302.a.4.i; A.303.a.4.i;
A.304.a.4.i; A.305.a.4.i; A.306.a.4.i; A.307.a.4.i; A.308.a.4.i;
A.309.a.4.i; A.310.a.4.i; A.311.a.4.i; A.312.a.4.i; A.313.a.4.i;
A.314.a.4.i; A.315.a.4.i; A.316.a.4.i; A.317.a.4.i; A.318.a.4.i;
A.319.a.4.i; A.320.a.4.i; A.321.a.4.i; A.323.a.4.i; A.324.a.4.i;
A.325.a.4.i; A.326.a.4.i; A.327.a.4.i; A.328.a.4.i; A.329.a.4.i;
A.330.a.4.i; A.331.a.4.i; A.332.a.4.i; A.333.a.4.i; A.334.a.4.i;
A.335.a.4.i; A.336.a.4.i; A.337.a.4.i; A.338.a.4.i; A.339.a.4.i;
A.340.a.4.i; A.341.a.4.i; A.342.a.4.i; A.343.a.4.i; A.344.a.4.i;
A.345.a.4.i; A.346.a.4.i; A.347.a.4.i; A.348.a.4.i; A.349.a.4.i;
A.350.a.4.i; A.351.a.4.i; A.352.a.4.i; A.353.a.4.i; A.354.a.4.i;
A.355.a.4.i; A.356.a.4.i; A.357.a.4.i; A.358.a.4.i; A.359.a.4.i;
A.360.a.4.i; A.361.a.4.i; A.362.a.4.i; A.363.a.4.i; A.364.a.4.i;
A.365.a.4.i; A.366.a.4.i; A.367.a.4.i; A.368.a.4.i; A.369.a.4.i;
A.370.a.4.i; A.371.a.4.i; A.372.a.4.i; A.373.a.4.i; A.374.a.4.i;
A.375.a.4.i; A.376.a.4.i; A.377.a.4.i; A.378.a.4.i; A.379.a.4.i;
A.380.a.4.i; A.381.a.4.i; A.382.a.4.i; A.383.a.4.i; A.384.a.4.i;
A.385.a.4.i; A.386.a.4.i; A.387.a.4.i; A.388.a.4.i; A.389.a.4.i;
A.390.a.4.i; A.391.a.4.i; A.392.a.4.i; A.393.a.4.i; A.394.a.4.i;
A.395.a.4.i; A.396.a.4.i; A.397.a.4.i; A.398.a.4.i; A.399.a.4.i;
A.400.a.4.i; A.401.a.4.i; A.402.a.4.i; A.403.a.4.i; A.404.a.4.i;
A.405.a.4.i; A.406.a.4.i; A.407.a.4.i; A.408.a.4.i; A.409.a.4.i;
A.410.a.4.i; A.411.a.4.i; A.412.a.4.i; A.413.a.4.i; A.414.a.4.i;
A.415.a.4.i; A.416.a.4.i; A.417.a.4.i; A.418.a.4.i; A.419.a.4.i;
A.420.a.4.i; A.421.a.4.i; A.422.a.4.i; A.423.a.4.i; A.424.a.4.i;
A.425.a.4.i; A.426.a.4.i; A.427.a.4.i; A.428.a.4.i; A.429.a.4.i;
A.430.a.4.i; A.431.a.4.i; A.432.a.4.i; A.433.a.4.i; A.434.a.4.i;
A.435.a.4.i; A.436.a.4.i; A.437.a.4.i; A.438.a.4.i; A.439.a.4.i;
A.440.a.4.i; A.441.a.4.i; A.442.a.4.i; A.443.a.4.i; A.444.a.4.i;
A.445.a.4.i; A.446.a.4.i; A.447.a.4.i; A.448.a.4.i; A.449.a.4.i;
A.450.a.4.i; A.451.a.4.i; A.452.a.4.i; A.453.a.4.i; A.454.a.4.i;
A.455.a.4.i; A.456.a.4.i; A.457.a.4.i; A.458.a.4.i; A.459.a.4.i;
A.460.a.4.i; A.461.a.4.i; A.462.a.4.i; A.463.a.4.i; A.464.a.4.i;
A.465.a.4.i; A.466.a.4.i; A.467.a.4.i; A.468.a.4.i; A.469.a.4.i;
A.470.a.4.i; A.471.a.4.i; A.472.a.4.i; A.473.a.4.i; A.474.a.4.i;
A.475.a.4.i; A.476.a.4.i; A.477.a.4.i; A.478.a.4.i; A.479.a.4.i;
A.480.a.4.i; A.481.a.4.i; A.482.a.4.i; A.483.a.4.i; A.484.a.4.i;
A.485.a.4.i; A.486.a.4.i; A.487.a.4.i; A.488.a.4.i; A.489.a.4.i;
A.490.a.4.i; A.491.a.4.i; A.492.a.4.i; A.493.a.4.i; A.494.a.4.i;
A.495.a.4.i; A.496.a.4.i; A.497.a.4.i; A.498.a.4.i; A.499.a.4.i;
A.500.a.4.i; A.501.a.4.i; A.502.a.4.i; A.503.a.4.i; A.504.a.4.i;
A.505.a.4.i; A.506.a.4.i; A.507.a.4.i; A.508.a.4.i; A.509.a.4.i;
A.510.a.4.i; A.511.a.4.i; A.512.a.4.i; A.512.a.4.i; A.513.a.4.i;
A.514.a.4.i; A.515.a.4.i; A.516.a.4.i; A.517.a.4.i; A.518.a.4.i;
A.519.a.4.i; A.520.a.4.i; A.521.a.4.i; A.522.a.4.i; A.523.a.4.i;
A.524.a.4.i; A.525.a.4.i; A.526.a.4.i; A.527.a.4.i; A.528.a.4.i;
A.529.a.4.i; A.530.a.4.i; A.531.a.4.i; A.532.a.4.i; A.533.a.4.i;
A.534.a.4.i; A.535.a.4.i; A.536.a.4.i; A.537.a.4.i; A.538.a.4.i;
A.539.a.4.i; A.540.a.4.i; A.541.a.4.i; A.542.a.4.i; A.543.a.4.i;
A.544.a.4.i; A.545.a.4.i; A.546.a.4.i; A.547.a.4.i; A.548.a.4.i;
A.549.a.4.i; A.550.a.4.i; A.551.a.4.i; A.552.a.4.i; A.553.a.4.i;
A.554.a.4.i; A.555.a.4.i; A.556.a.4.i; A.557.a.4.i; A.558.a.4.i;
A.559.a.4.i; A.560.a.4.i; A.561.a.4.i; A.562.a.4.i; A.563.a.4.i;
A.564.a.4.i; A.565.a.4.i; A.566.a.4.i; A.567.a.4.i; A.568.a.4.i;
A.569.a.4.i; A.570.a.4.i; A.571.a.4.i; A.572.a.4.i; A.573.a.4.i;
A.574.a.4.i; A.575.a.4.i; A.576.a.4.i; A.577.a.4.i; A.578.a.4.i;
A.579.a.4.i; A.580.a.4.i; A.581.a.4.i; A.582.a.4.i; A.583.a.4.i;
A.584.a.4.i; A.585.a.4.i; A.586.a.4.i; A.587.a.4.i; A.588.a.4.i;
A.589.a.4.i; A.590.a.4.i; A.591.a.4.i; A.592.a.4.i; A.593.a.4.i;
A.594.a.4.i; A.595.a.4.i; A.596.a.4.i; A.597.a.4.i; A.598.a.4.i;
A.599.a.4.i; A.600.a.4.i; A.601.a.4.i; A.602.a.4.i; A.603.a.4.i;
A.604.a.4.i; A.605.a.4.i; A.606.a.4.i; A.607.a.4.i; A.608.a.4.i;
A.609.a.4.i; A.610.a.4.i; A.611.a.4.i; A.612.a.4.i; A.613.a.4.i;
A.614.a.4.i; A.615.a.4.i; A.616.a.4.i; A.617.a.4.i; A.618.a.4.i;
A.619.a.4.i; A.620.a.4.i; A.621.a.4.i; A.622.a.4.i; A.623.a.4.i;
A.624.a.4.i; A.625.a.4.i; A.626.a.4.i; A.627.a.4.i; A.628.a.4.i;
A.629.a.4.i; A.630.a.4.i; A.631.a.4.i; A.632.a.4.i; A.633.a.4.i;
A.634.a.4.i; A.635.a.4.i; A.636.a.4.i; A.637.a.4.i; A.638.a.4.i;
A.639.a.4.i; A.640.a.4.i; A.641.a.4.i; A.642.a.4.i; A.643.a.4.i;
A.644.a.4.i; A.645.a.4.i; A.646.a.4.i; A.647.a.4.i; A.648.a.4.i;
A.649.a.4.i; A.650.a.4.i; A.651.a.4.i; A.652.a.4.i; A.653.a.4.i;
A.654.a.4.i; A.655.a.4.i; A.656.a.4.i; A.657.a.4.i; A.658.a.4.i;
A.659.a.4.i; A.660.a.4.i; A.2.a.11.i; A.3.a.11.i; A.4.a.11.i;
A.5.a.11.i; A.6.a.11.i; A.7.a.11.i; A.9.a.11.i; A.10.a.11.i;
A.15.a.11.i; A.100.a.11.i; A.101.a.11.i; A.102.a.11.i;
A.103.a.11.i; A.104.a.11.i; A.105.a.11.i; A.106.a.11.i;
A.107.a.11.i; A.108.a.11.i; A.109.a.11.i; A.110.a.11.i;
A.111.a.11.i; A.112.a.11.i; A.113.a.11.i; A.114.a.11.i;
A.115.a.11.i; A.116.a.11.i; A.117.a.11.i; A.118.a.11.i;
A.119.a.11.i; A.120.a.11.i; A.121.a.11.i; A.122.a.11.i;
A.123.a.11.i; A.124.a.11.i; A.125.a.11.i; A.126.a.11.i;
A.127.a.11.i; A.128.a.11.i; A.129.a.11.i; A.130.a.11.i;
A.131.a.11.i; A.132.a.11.i; A.133.a.11.i; A.134.a.11.i;
A.135.a.11.i; A.136.a.11.i; A.137.a.11.i; A.138.a.11.i;
A.139.a.11.i; A.140.a.11.i; A.141.a.11.i; A.142.a.11.i;
A.143.a.11.i; A.144.a.11.i; A.145.a.11.i; A.146.a.11.i;
A.147.a.11.i; A.148.a.11.i; A.149.a.11.i; A.150.a.11.i;
A.151.a.11.i; A.152.a.11.i; A.153.a.11.i; A.154.a.11.i;
A.155.a.11.i; A.156.a.11.i; A.157.a.11.i; A.158.a.11.i;
A.159.a.11.i; A.160.a.11.i; A.161.a.11.i; A.162.a.11.i;
A.163.a.11.i; A.164.a.11.i; A.165.a.11.i; A.166.a.11.i;
A.167.a.11.i; A.168.a.11.i; A.169.a.11.i; A.170.a.11.i;
A.171.a.11.i; A.172.a.11.i; A.173.a.11.i; A.174.a.11.i;
A.175.a.11.i; A.176.a.11.i; A.177.a.11.i; A.178.a.11.i;
A.179.a.11.i; A.180.a.11.i; A.181.a.11.i; A.182.a.11.i;
A.183.a.11.i; A.184.a.11.i; A.185.a.11.i; A.186.a.11.i;
A.187.a.11.i; A.188.a.11.i; A.189.a.11.i; A.190.a.11.i;
A.191.a.11.i; A.192.a.11.i; A.193.a.11.i; A.194.a.11.i;
A.195.a.11.i; A.196.a.11.i; A.197.a.11.i; A.198.a.11.i;
A.199.a.11.i; A.200.a.11.i; A.201.a.11.i; A.202.a.11.i;
A.203.a.11.i; A.204.a.11.i; A.205.a.11.i; A.206.a.11.i;
A.207.a.11.i; A.208.a.11.i; A.209.a.11.i; A.210.a.11.i;
A.211.a.11.i; A.212.a.11.i; A.213.a.11.i; A.214.a.11.i;
A.215.a.11.i; A.216.a.11.i; A.217.a.11.i; A.218.a.11.i;
A.219.a.11.i; A.220.a.11.i; A.221.a.11.i; A.222.a.11.i;
A.223.a.11.i; A.224.a.11.i; A.225.a.11.i; A.226.a.11.i;
A.227.a.11.i;
A.228.a.11.i; A.229.a.11.i; A.230.a.11.i; A.231.a.11.i;
A.232.a.11.i; A.233.a.11.i; A.234.a.11.i; A.235.a.11.i;
A.236.a.11.i; A.237.a.11.i; A.238.a.11.i; A.239.a.11.i;
A.240.a.11.i; A.241.a.11.i; A.242.a.11.i; A.243.a.11.i;
A.244.a.11.i; A.245.a.11.i; A.246.a.11.i; A.247.a.11.i;
A.248.a.11.i; A.249.a.11.i; A.250.a.11.i; A.251.a.11.i;
A.252.a.11.i; A.253.a.11.i; A.254.a.11.i; A.255.a.11.i;
A.256.a.11.i; A.257.a.11.i; A.258.a.11.i; A.259.a.11.i;
A.260.a.11.i; A.261.a.11.i; A.262.a.11.i; A.263.a.11.i;
A.264.a.11.i; A.265.a.11.i; A.266.a.11.i; A.267.a.11.i;
A.268.a.11.i; A.269.a.11.i; A.270.a.11.i; A.271.a.11.i;
A.272.a.11.i; A.273.a.11.i; A.274.a.11.i; A.275.a.11.i;
A.276.a.11.i; A.277.a.11.i; A.278.a.11.i; A.279.a.11.i;
A.280.a.11.i; A.281.a.11.i; A.282.a.11.i; A.283.a.11.i;
A.284.a.11.i; A.285.a.11.i; A.286.a.11.i; A.287.a.11.i;
A.288.a.11.i; A.289.a.11.i; A.290.a.11.i; A.291.a.11.i;
A.292.a.11.i; A.293.a.11.i; A.294.a.11.i; A.295.a.11.i;
A.296.a.11.i; A.297.a.11.i; A.298.a.11.i; A.299.a.11.i;
A.300.a.11.i; A.301.a.11.i; A.302.a.11.i; A.303.a.11.i;
A.304.a.11.i; A.305.a.11.i; A.306.a.11.i; A.307.a.11.i;
A.308.a.11.i; A.309.a.11.i; A.310.a.11.i; A.311.a.11.i;
A.312.a.11.i; A.313.a.11.i; A.314.a.11.i; A.315.a.11.i;
A.316.a.11.i; A.317.a.11.i; A.318.a.11.i; A.319.a.11.i;
A.320.a.11.i; A.321.a.11.i; A.323.a.11.i; A.324.a.11.i;
A.325.a.11.i; A.326.a.11.i; A.327.a.11.i; A.328.a.11.i;
A.329.a.11.i; A.330.a.11.i; A.331.a.11.i; A.332.a.11.i;
A.333.a.11.i; A.334.a.11.i; A.335.a.11.i; A.336.a.11.i;
A.337.a.11.i; A.338.a.11.i; A.339.a.11.i; A.340.a.11.i;
A.341.a.11.i; A.342.a.11.i; A.343.a.11.i; A.344.a.11.i;
A.345.a.11.i; A.346.a.11.i; A.347.a.11.i; A.348.a.11.i;
A.349.a.11.i; A.350.a.11.i; A.351.a.11.i; A.352.a.11.i;
A.353.a.11.i; A.354.a.11.i; A.355.a.11.i; A.356.a.11.i;
A.357.a.11.i; A.358.a.11.i; A.359.a.11.i; A.360.a.11.i;
A.361.a.11.i; A.362.a.11.i; A.363.a.11.i; A.364.a.11.i;
A.365.a.11.i; A.366.a.11.i; A.367.a.11.i; A.368.a.11.i;
A.369.a.11.i; A.370.a.11.i; A.371.a.11.i; A.372.a.11.i;
A.373.a.11.i; A.374.a.11.i; A.375.a.11.i; A.376.a.11.i;
A.377.a.11.i; A.378.a.11.i; A.379.a.11.i; A.380.a.11.i;
A.381.a.11.i; A.382.a.11.i; A.383.a.11.i; A.384.a.11.i;
A.385.a.11.i; A.386.a.11.i; A.387.a.11.i; A.388.a.11.i;
A.389.a.11.i; A.390.a.11.i; A.391.a.11.i; A.392.a.11.i;
A.393.a.11.i; A.394.a.11.i; A.395.a.11.i; A.396.a.11.i;
A.397.a.11.i; A.398.a.11.i; A.399.a.11.i; A.400.a.11.i;
A.401.a.11.i; A.402.a.11.i; A.403.a.11.i; A.404.a.11.i;
A.405.a.11.i; A.406.a.11.i; A.407.a.11.i; A.408.a.11.i;
A.409.a.11.i; A.410.a.11.i; A.411.a.11.i; A.412.a.11.i;
A.413.a.11.i; A.414.a.11.i; A.415.a.11.i; A.416.a.11.i;
A.417.a.11.i; A.418.a.11.i; A.419.a.11.i; A.420.a.11.i;
A.421.a.11.i; A.422.a.11.i; A.423.a.11.i; A.424.a.11.i;
A.425.a.11.i; A.426.a.11.i; A.427.a.11.i; A.428.a.11.i;
A.429.a.11.i; A.430.a.11.i; A.431.a.11.i; A.432.a.11.i;
A.433.a.11.i; A.434.a.11.i; A.435.a.11.i; A.436.a.11.i;
A.437.a.11.i; A.438.a.11.i; A.439.a.11.i; A.440.a.11.i;
A.441.a.11.i; A.442.a.11.i; A.443.a.11.i; A.444.a.11.i;
A.445.a.11.i; A.446.a.11.i; A.447.a.11.i; A.448.a.11.i;
A.449.a.11.i; A.450.a.11.i; A.451.a.11.i; A.452.a.11.i;
A.453.a.11.i; A.454.a.11.i; A.455.a.11.i; A.456.a.11.i;
A.457.a.11.i; A.458.a.11.i; A.459.a.11.i; A.460.a.11.i;
A.461.a.11.i; A.462.a.11.i; A.463.a.11.i; A.464.a.11.i;
A.465.a.11.i; A.466.a.11.i; A.467.a.11.i; A.468.a.11.i;
A.469.a.11.i; A.470.a.11.i; A.471.a.11.i; A.472.a.11.i;
A.473.a.11.i; A.474.a.11.i; A.475.a.11.i; A.476.a.11.i;
A.477.a.11.i; A.478.a.11.i; A.479.a.11.i; A.480.a.11.i;
A.481.a.11.i; A.482.a.11.i; A.483.a.11.i; A.484.a.11.i;
A.485.a.11.i; A.486.a.11.i; A.487.a.11.i; A.488.a.11.i;
A.489.a.11.i; A.490.a.11.i; A.491.a.11.i; A.492.a.11.i;
A.493.a.11.i; A.494.a.11.i; A.495.a.11.i; A.496.a.11.i;
A.497.a.11.i; A.498.a.11.i; A.499.a.11.i; A.500.a.11.i;
A.501.a.11.i; A.502.a.11.i; A.503.a.11.i; A.504.a.11.i;
A.505.a.11.i; A.506.a.11.i; A.507.a.11.i; A.508.a.11.i;
A.509.a.11.i; A.510.a.11.i; A.511.a.11.i; A.512.a.11.i;
A.512.a.11.i; A.513.a.11.i; A.514.a.11.i; A.515.a.11.i;
A.516.a.11.i; A.517.a.11.i; A.518.a.11.i; A.519.a.11.i;
A.520.a.11.i; A.521.a.11.i; A.522.a.11.i; A.523.a.11.i;
A.524.a.11.i; A.525.a.11.i; A.526.a.11.i; A.527.a.11.i;
A.528.a.11.i; A.529.a.11.i; A.530.a.11.i; A.531.a.11.i;
A.532.a.11.i; A.533.a.11.i; A.534.a.11.i; A.535.a.11.i;
A.536.a.11.i; A.537.a.11.i; A.538.a.11.i; A.539.a.11.i;
A.540.a.11.i; A.541.a.11.i; A.542.a.11.i; A.543.a.11.i;
A.544.a.11.i; A.545.a.11.i; A.546.a.11.i; A.547.a.11.i;
A.548.a.11.i; A.549.a.11.i; A.550.a.11.i; A.551.a.11.i;
A.552.a.11.i; A.553.a.11.i; A.554.a.11.i; A.555.a.11.i;
A.556.a.11.i; A.557.a.11.i; A.558.a.11.i; A.559.a.11.i;
A.560.a.11.i; A.561.a.11.i; A.562.a.11.i; A.563.a.11.i;
A.564.a.11.i; A.565.a.11.i; A.566.a.11.i; A.567.a.11.i;
A.568.a.11.i; A.569.a.11.i; A.570.a.11.i; A.571.a.11.i;
A.572.a.11.i; A.573.a.11.i; A.574.a.11.i; A.575.a.11.i;
A.576.a.11.i; A.577.a.11.i; A.578.a.11.i; A.579.a.11.i;
A.580.a.11.i; A.581.a.11.i; A.582.a.11.i; A.583.a.11.i;
A.584.a.11.i; A.585.a.11.i; A.586.a.11.i; A.587.a.11.i;
A.588.a.11.i; A.589.a.11.i; A.590.a.11.i; A.591.a.11.i;
A.592.a.11.i; A.593.a.11.i; A.594.a.11.i; A.595.a.11.i;
A.596.a.11.i; A.597.a.11.i; A.598.a.11.i; A.599.a.11.i;
A.600.a.11.i; A.601.a.11.i; A.602.a.11.i; A.603.a.11.i;
A.604.a.11.i; A.605.a.11.i; A.606.a.11.i; A.607.a.11.i;
A.608.a.11.i; A.609.a.11.i; A.610.a.11.i; A.611.a.11.i;
A.612.a.11.i; A.613.a.11.i; A.614.a.11.i; A.615.a.11.i;
A.616.a.11.i; A.617.a.11.i; A.618.a.11.i; A.619.a.11.i;
A.620.a.11.i; A.621.a.11.i; A.622.a.11.i; A.623.a.11.i;
A.624.a.11.i; A.625.a.11.i; A.626.a.11.i; A.627.a.11.i;
A.628.a.11.i; A.629.a.11.i; A.630.a.11.i; A.631.a.11.i;
A.632.a.11.i; A.633.a.11.i; A.634.a.11.i; A.635.a.11.i;
A.636.a.11.i; A.637.a.11.i; A.638.a.11.i; A.639.a.11.i;
A.640.a.11.i; A.641.a.11.i; A.642.a.11.i; A.643.a.11.i;
A.644.a.11.i; A.645.a.11.i; A.646.a.11.i; A.647.a.11.i;
A.648.a.11.i; A.649.a.11.i; A.650.a.11.i; A.651.a.11.i;
A.652.a.11.i; A.653.a.11.i; A.654.a.11.i; A.655.a.11.i;
A.656.a.11.i; A.657.a.11.i; A.658.a.11.i; A.659.a.11.i;
A.660.a.11.i; A.2.b.4.i; A.3.b.4.i; A.4.b.4.i; A.5.b.4.i;
A.6.b.4.i; A.7.b.4.i; A.9.b.4.i; A.10.b.4.i; A.15.b.4.i;
A.100.b.4.i; A.101.b.4.i; A.102.b.4.i; A.103.b.4.i; A.104.b.4.i;
A.105.b.4.i; A.106.b.4.i; A.107.b.4.i; A.108.b.4.i; A.109.b.4.i;
A.110.b.4.i; A.111.b.4.i; A.112.b.4.i; A.113.b.4.i; A.114.b.4.i;
A.115.b.4.i; A.116.b.4.i; A.117.b.4.i; A.118.b.4.i; A.119.b.4.i;
A.120.b.4.i; A.121.b.4.i; A.122.b.4.i; A.123.b.4.i; A.124.b.4.i;
A.125.b.4.i; A.126.b.4.i; A.127.b.4.i; A.128.b.4.i; A.129.b.4.i;
A.130.b.4.i; A.131.b.4.i; A.132.b.4.i; A.133.b.4.i; A.134.b.4.i;
A.135.b.4.i; A.136.b.4.i; A.137.b.4.i; A.138.b.4.i; A.139.b.4.i;
A.140.b.4.i; A.141.b.4.i; A.142.b.4.i; A.143.b.4.i; A.144.b.4.i;
A.145.b.4.i; A.146.b.4.i; A.147.b.4.i; A.148.b.4.i; A.149.b.4.i;
A.150.b.4.i; A.151.b.4.i; A.152.b.4.i; A.153.b.4.i; A.154.b.4.i;
A.155.b.4.i; A.156.b.4.i; A.157.b.4.i; A.158.b.4.i; A.159.b.4.i;
A.160.b.4.i; A.161.b.4.i; A.162.b.4.i; A.163.b.4.i; A.164.b.4.i;
A.165.b.4.i; A.166.b.4.i; A.167.b.4.i; A.168.b.4.i; A.169.b.4.i;
A.170.b.4.i; A.171.b.4.i; A.172.b.4.i; A.173.b.4.i; A.174.b.4.i;
A.175.b.4.i; A.176.b.4.i; A.177.b.4.i; A.178.b.4.i; A.179.b.4.i;
A.180.b.4.i; A.181.b.4.i; A.182.b.4.i; A.183.b.4.i; A.184.b.4.i;
A.185.b.4.i; A.186.b.4.i; A.187.b.4.i; A.188.b.4.i; A.189.b.4.i;
A.190.b.4.i; A.191.b.4.i; A.192.b.4.i; A.193.b.4.i; A.194.b.4.i;
A.195.b.4.i; A.196.b.4.i; A.197.b.4.i; A.198.b.4.i; A.199.b.4.i;
A.200.b.4.i; A.201.b.4.i; A.202.b.4.i; A.203.b.4.i; A.204.b.4.i;
A.205.b.4.i; A.206.b.4.i; A.207.b.4.i; A.208.b.4.i; A.209.b.4.i;
A.210.b.4.i; A.211.b.4.i; A.212.b.4.i; A.213.b.4.i; A.214.b.4.i;
A.215.b.4.i; A.216.b.4.i; A.217.b.4.i; A.218.b.4.i; A.219.b.4.i;
A.220.b.4.i; A.221.b.4.i; A.222.b.4.i; A.223.b.4.i; A.224.b.4.i;
A.225.b.4.i; A.226.b.4.i; A.227.b.4.i; A.228.b.4.i; A.229.b.4.i;
A.230.b.4.i; A.231.b.4.i; A.232.b.4.i; A.233.b.4.i; A.234.b.4.i;
A.235.b.4.i; A.236.b.4.i; A.237.b.4.i; A.238.b.4.i; A.239.b.4.i;
A.240.b.4.i; A.241.b.4.i; A.242.b.4.i; A.243.b.4.i; A.244.b.4.i;
A.245.b.4.i; A.246.b.4.i; A.247.b.4.i; A.248.b.4.i; A.249.b.4.i;
A.250.b.4.i; A.251.b.4.i; A.252.b.4.i; A.253.b.4.i; A.254.b.4.i;
A.255.b.4.i; A.256.b.4.i; A.257.b.4.i; A.258.b.4.i; A.259.b.4.i;
A.260.b.4.i; A.261.b.4.i; A.262.b.4.i; A.263.b.4.i; A.264.b.4.i;
A.265.b.4.i; A.266.b.4.i; A.267.b.4.i; A.268.b.4.i; A.269.b.4.i;
A.270.b.4.i; A.271.b.4.i; A.272.b.4.i; A.273.b.4.i; A.274.b.4.i;
A.275.b.4.i; A.276.b.4.i; A.277.b.4.i; A.278.b.4.i; A.279.b.4.i;
A.280.b.4.i; A.281.b.4.i; A.282.b.4.i; A.283.b.4.i; A.284.b.4.i;
A.285.b.4.i; A.286.b.4.i; A.287.b.4.i; A.288.b.4.i; A.289.b.4.i;
A.290.b.4.i; A.291.b.4.i; A.292.b.4.i; A.293.b.4.i; A.294.b.4.i;
A.295.b.4.i; A.296.b.4.i; A.297.b.4.i; A.298.b.4.i; A.299.b.4.i;
A.300.b.4.i; A.301.b.4.i; A.302.b.4.i; A.303.b.4.i; A.304.b.4.i;
A.305.b.4.i; A.306.b.4.i; A.307.b.4.i; A.308.b.4.i; A.309.b.4.i;
A.310.b.4.i; A.311.b.4.i; A.312.b.4.i; A.313.b.4.i; A.314.b.4.i;
A.315.b.4.i; A.316.b.4.i; A.317.b.4.i; A.318.b.4.i; A.319.b.4.i;
A.320.b.4.i; A.321.b.4.i; A.323.b.4.i; A.324.b.4.i; A.325.b.4.i;
A.326.b.4.i; A.327.b.4.i; A.328.b.4.i; A.329.b.4.i; A.330.b.4.i;
A.331.b.4.i; A.332.b.4.i; A.333.b.4.i; A.334.b.4.i; A.335.b.4.i;
A.336.b.4.i; A.337.b.4.i; A.338.b.4.i; A.339.b.4.i; A.340.b.4.i;
A.341.b.4.i; A.342.b.4.i; A.343.b.4.i; A.344.b.4.i; A.345.b.4.i;
A.346.b.4.i; A.347.b.4.i; A.348.b.4.i; A.349.b.4.i; A.350.b.4.i;
A.351.b.4.i; A.352.b.4.i; A.353.b.4.i; A.354.b.4.i; A.355.b.4.i;
A.356.b.4.i; A.357.b.4.i; A.358.b.4.i; A.359.b.4.i; A.360.b.4.i;
A.361.b.4.i; A.362.b.4.i; A.363.b.4.i; A.364.b.4.i; A.365.b.4.i;
A.366.b.4.i; A.367.b.4.i; A.368.b.4.i; A.369.b.4.i; A.370.b.4.i;
A.371.b.4.i; A.372.b.4.i; A.373.b.4.i; A.374.b.4.i; A.375.b.4.i;
A.376.b.4.i; A.377.b.4.i; A.378.b.4.i; A.379.b.4.i; A.380.b.4.i;
A.381.b.4.i; A.382.b.4.i; A.383.b.4.i; A.384.b.4.i; A.385.b.4.i;
A.386.b.4.i; A.387.b.4.i; A.388.b.4.i; A.389.b.4.i; A.390.b.4.i;
A.391.b.4.i; A.392.b.4.i; A.393.b.4.i; A.394.b.4.i; A.395.b.4.i;
A.396.b.4.i; A.397.b.4.i; A.398.b.4.i; A.399.b.4.i; A.400.b.4.i;
A.401.b.4.i; A.402.b.4.i; A.403.b.4.i; A.404.b.4.i; A.405.b.4.i;
A.406.b.4.i; A.407.b.4.i; A.408.b.4.i; A.409.b.4.i; A.410.b.4.i;
A.411.b.4.i; A.412.b.4.i; A.413.b.4.i; A.414.b.4.i; A.415.b.4.i;
A.416.b.4.i; A.417.b.4.i; A.418.b.4.i; A.419.b.4.i; A.420.b.4.i;
A.421.b.4.i; A.422.b.4.i; A.423.b.4.i; A.424.b.4.i; A.425.b.4.i;
A.426.b.4.i; A.427.b.4.i; A.428.b.4.i; A.429.b.4.i; A.430.b.4.i;
A.431.b.4.i; A.432.b.4.i; A.433.b.4.i; A.434.b.4.i; A.435.b.4.i;
A.436.b.4.i; A.437.b.4.i; A.438.b.4.i; A.439.b.4.i; A.440.b.4.i;
A.441.b.4.i; A.442.b.4.i; A.443.b.4.i; A.444.b.4.i; A.445.b.4.i;
A.446.b.4.i; A.447.b.4.i; A.448.b.4.i; A.449.b.4.i; A.450.b.4.i;
A.451.b.4.i; A.452.b.4.i; A.453.b.4.i; A.454.b.4.i; A.455.b.4.i;
A.456.b.4.i; A.457.b.4.i; A.458.b.4.i; A.459.b.4.i; A.460.b.4.i;
A.461.b.4.i; A.462.b.4.i; A.463.b.4.i; A.464.b.4.i; A.465.b.4.i;
A.466.b.4.i; A.467.b.4.i; A.468.b.4.i; A.469.b.4.i; A.470.b.4.i;
A.471.b.4.i; A.472.b.4.i; A.473.b.4.i; A.474.b.4.i; A.475.b.4.i;
A.476.b.4.i; A.477.b.4.i; A.478.b.4.i; A.479.b.4.i; A.480.b.4.i;
A.481.b.4.i; A.482.b.4.i; A.483.b.4.i; A.484.b.4.i; A.485.b.4.i;
A.486.b.4.i; A.487.b.4.i; A.488.b.4.i; A.489.b.4.i; A.490.b.4.i;
A.491.b.4.i; A.492.b.4.i; A.493.b.4.i; A.494.b.4.i; A.495.b.4.i;
A.496.b.4.i; A.497.b.4.i; A.498.b.4.i; A.499.b.4.i; A.500.b.4.i;
A.501.b.4.i; A.502.b.4.i; A.503.b.4.i; A.504.b.4.i; A.505.b.4.i;
A.506.b.4.i; A.507.b.4.i; A.508.b.4.i; A.509.b.4.i; A.510.b.4.i;
A.511.b.4.i; A.512.b.4.i; A.512.b.4.i; A.513.b.4.i; A.514.b.4.i;
A.515.b.4.i; A.516.b.4.i; A.517.b.4.i; A.518.b.4.i; A.519.b.4.i;
A.520.b.4.i; A.521.b.4.i; A.522.b.4.i; A.523.b.4.i; A.524.b.4.i;
A.525.b.4.i; A.526.b.4.i; A.527.b.4.i; A.528.b.4.i; A.529.b.4.i;
A.530.b.4.i; A.531.b.4.i; A.532.b.4.i; A.533.b.4.i; A.534.b.4.i;
A.535.b.4.i; A.536.b.4.i; A.537.b.4.i; A.538.b.4.i; A.539.b.4.i;
A.540.b.4.i; A.541.b.4.i; A.542.b.4.i; A.543.b.4.i; A.544.b.4.i;
A.545.b.4.i; A.546.b.4.i; A.547.b.4.i; A.548.b.4.i; A.549.b.4.i;
A.550.b.4.i; A.551.b.4.i; A.552.b.4.i; A.553.b.4.i; A.554.b.4.i;
A.555.b.4.i; A.556.b.4.i; A.557.b.4.i; A.558.b.4.i; A.559.b.4.i;
A.560.b.4.i; A.561.b.4.i; A.562.b.4.i; A.563.b.4.i; A.564.b.4.i;
A.565.b.4.i; A.566.b.4.i; A.567.b.4.i; A.568.b.4.i; A.569.b.4.i;
A.570.b.4.i; A.571.b.4.i; A.572.b.4.i; A.573.b.4.i; A.574.b.4.i;
A.575.b.4.i; A.576.b.4.i; A.577.b.4.i; A.578.b.4.i; A.579.b.4.i;
A.580.b.4.i; A.581.b.4.i; A.582.b.4.i; A.583.b.4.i; A.584.b.4.i;
A.585.b.4.i; A.586.b.4.i; A.587.b.4.i; A.588.b.4.i; A.589.b.4.i;
A.590.b.4.i; A.591.b.4.i; A.592.b.4.i; A.593.b.4.i; A.594.b.4.i;
A.595.b.4.i; A.596.b.4.i; A.597.b.4.i; A.598.b.4.i; A.599.b.4.i;
A.600.b.4.i; A.601.b.4.i; A.602.b.4.i; A.603.b.4.i; A.604.b.4.i;
A.605.b.4.i; A.606.b.4.i; A.607.b.4.i; A.608.b.4.i; A.609.b.4.i;
A.610.b.4.i; A.611.b.4.i; A.612.b.4.i; A.613.b.4.i; A.614.b.4.i;
A.615.b.4.i; A.616.b.4.i; A.617.b.4.i; A.618.b.4.i; A.619.b.4.i;
A.620.b.4.i; A.621.b.4.i; A.622.b.4.i; A.623.b.4.i; A.624.b.4.i;
A.625.b.4.i; A.626.b.4.i; A.627.b.4.i; A.628.b.4.i; A.629.b.4.i;
A.630.b.4.i; A.631.b.4.i; A.632.b.4.i; A.633.b.4.i; A.634.b.4.i;
A.635.b.4.i; A.636.b.4.i; A.637.b.4.i; A.638.b.4.i; A.639.b.4.i;
A.640.b.4.i; A.641.b.4.i; A.642.b.4.i; A.643.b.4.i; A.644.b.4.i;
A.645.b.4.i; A.646.b.4.i; A.647.b.4.i; A.648.b.4.i; A.649.b.4.i;
A.650.b.4.i; A.651.b.4.i; A.652.b.4.i; A.653.b.4.i; A.654.b.4.i;
A.655.b.4.i; A.656.b.4.i; A.657.b.4.i; A.658.b.4.i; A.659.b.4.i;
A.660.b.4.i; A.2.b.11.i; A.3.b.11.i; A.4.b.11.i; A.5.b.11.i;
A.6.b.11.i; A.7.b.11.i; A.9.b.11.i; A.10.b.11.i; A.15.b.11.i;
A.100.b.11.i; A.101.b.11.i; A.102.b.11.i; A.103.b.11.i;
A.104.b.11.i; A.105.b.11.i; A.106.b.11.i; A.107.b.11.i;
A.108.b.11.i; A.109.b.11.i; A.110.b.11.i; A.111.b.11.i;
A.112.b.11.i; A.113.b.11.i; A.114.b.11.i; A.115.b.11.i;
A.116.b.11.i; A.117.b.11.i; A.118.b.11.i; A.119.b.11.i;
A.120.b.11.i; A.121.b.11.i; A.122.b.11.i; A.123.b.11.i;
A.124.b.11.i; A.125.b.11.i; A.126.b.11.i; A.127.b.11.i;
A.128.b.11.i; A.129.b.11.i; A.130.b.11.i; A.131.b.11.i;
A.132.b.11.i; A.133.b.11.i; A.134.b.11.i; A.135.b.11.i;
A.136.b.11.i; A.137.b.11.i; A.138.b.11.i; A.139.b.11.i;
A.140.b.11.i; A.141.b.11.i; A.142.b.11.i; A.143.b.11.i;
A.144.b.11.i; A.145.b.11.i; A.146.b.11.i; A.147.b.11.i;
A.148.b.11.i; A.149.b.11.i; A.150.b.11.i; A.151.b.11.i;
A.152.b.11.i; A.153.b.11.i; A.154.b.11.i; A.155.b.11.i;
A.156.b.11.i; A.157.b.11.i; A.158.b.11.i; A.159.b.11.i;
A.160.b.11.i; A.161.b.11.i; A.162.b.11.i; A.163.b.11.i;
A.164.b.11.i; A.165.b.11.i; A.166.b.11.i; A.167.b.11.i;
A.168.b.11.i; A.169.b.11.i; A.170.b.11.i; A.171.b.11.i;
A.172.b.11.i; A.173.b.11.i; A.174.b.11.i; A.175.b.11.i;
A.176.b.11.i; A.177.b.11.i; A.178.b.11.i; A.179.b.11.i;
A.180.b.11.i; A.181.b.11.i; A.182.b.11.i; A.183.b.11.i;
A.184.b.11.i; A.185.b.11.i; A.186.b.11.i; A.187.b.11.i;
A.188.b.11.i; A.189.b.11.i; A.190.b.11.i; A.191.b.11.i;
A.192.b.11.i; A.193.b.11.i; A.194.b.11.i; A.195.b.11.i;
A.196.b.11.i; A.197.b.11.i; A.198.b.11.i; A.199.b.11.i;
A.200.b.11.i; A.201.b.11.i; A.202.b.11.i; A.203.b.11.i;
A.204.b.11.i; A.205.b.11.i; A.206.b.11.i; A.207.b.11.i;
A.208.b.11.i; A.209.b.11.i; A.210.b.11.i; A.211.b.11.i;
A.212.b.11.i; A.213.b.11.i; A.214.b.11.i; A.215.b.11.i;
A.216.b.11.i; A.217.b.11.i; A.218.b.11.i; A.219.b.11.i;
A.220.b.11.i; A.221.b.11.i; A.222.b.11.i; A.223.b.11.i;
A.224.b.11.i; A.225.b.11.i; A.226.b.11.i; A.227.b.11.i;
A.228.b.11.i; A.229.b.11.i; A.230.b.11.i; A.231.b.11.i;
A.232.b.11.i; A.233.b.11.i; A.234.b.11.i; A.235.b.11.i;
A.236.b.11.i; A.237.b.11.i; A.238.b.11.i; A.239.b.11.i;
A.240.b.11.i; A.241.b.11.i; A.242.b.11.i; A.243.b.11.i;
A.244.b.11.i; A.245.b.11.i; A.246.b.11.i; A.247.b.11.i;
A.248.b.11.i; A.249.b.11.i; A.250.b.11.i; A.251.b.11.i;
A.252.b.11.i; A.253.b.11.i; A.254.b.11.i; A.255.b.11.i;
A.256.b.11.i; A.257.b.11.i; A.258.b.11.i; A.259.b.11.i;
A.260.b.11.i; A.261.b.11.i; A.262.b.11.i; A.263.b.11.i;
A.264.b.11.i; A.265.b.11.i; A.266.b.11.i; A.267.b.11.i;
A.268.b.11.i; A.269.b.11.i; A.270.b.11.i; A.271.b.11.i;
A.272.b.11.i; A.273.b.11.i; A.274.b.11.i; A.275.b.11.i;
A.276.b.11.i; A.277.b.11.i; A.278.b.11.i; A.279.b.11.i;
A.280.b.11.i; A.281.b.11.i; A.282.b.11.i; A.283.b.11.i;
A.284.b.11.i; A.285.b.11.i; A.286.b.11.i; A.287.b.11.i;
A.288.b.11.i; A.289.b.11.i; A.290.b.11.i; A.291.b.11.i;
A.292.b.11.i; A.293.b.11.i; A.294.b.11.i; A.295.b.11.i;
A.296.b.11.i; A.297.b.11.i; A.298.b.11.i; A.299.b.11.i;
A.300.b.11.i; A.301.b.11.i; A.302.b.11.i; A.303.b.11.i;
A.304.b.11.i; A.305.b.11.i; A.306.b.11.i; A.307.b.11.i;
A.308.b.11.i; A.309.b.11.i; A.310.b.11.i; A.311.b.11.i;
A.312.b.11.i; A.313.b.11.i; A.314.b.11.i; A.315.b.11.i;
A.316.b.11.i; A.317.b.11.i; A.318.b.11.i; A.319.b.11.i;
A.320.b.11.i; A.321.b.11.i; A.323.b.11.i; A.324.b.11.i;
A.325.b.11.i; A.326.b.11.i; A.327.b.11.i; A.328.b.11.i;
A.329.b.11.i; A.330.b.11.i; A.331.b.11.i; A.332.b.11.i;
A.333.b.11.i; A.334.b.11.i; A.335.b.11.i; A.336.b.11.i;
A.337.b.11.i; A.338.b.11.i; A.339.b.11.i; A.340.b.11.i;
A.341.b.11.i; A.342.b.11.i; A.343.b.11.i; A.344.b.11.i;
A.345.b.11.i; A.346.b.11.i; A.347.b.11.i; A.348.b.11.i;
A.349.b.11.i; A.350.b.11.i; A.351.b.11.i; A.352.b.11.i;
A.353.b.11.i; A.354.b.11.i; A.355.b.11.i; A.356.b.11.i;
A.357.b.11.i; A.358.b.11.i; A.359.b.11.i; A.360.b.11.i;
A.361.b.11.i; A.362.b.11.i; A.363.b.11.i; A.364.b.11.i;
A.365.b.11.i; A.366.b.11.i; A.367.b.11.i; A.368.b.11.i;
A.369.b.11.i; A.370.b.11.i; A.371.b.11.i; A.372.b.11.i;
A.373.b.11.i; A.374.b.11.i; A.375.b.11.i; A.376.b.11.i;
A.377.b.11.i; A.378.b.11.i; A.379.b.11.i; A.380.b.11.i;
A.381.b.11.i; A.382.b.11.i; A.383.b.11.i; A.384.b.11.i;
A.385.b.11.i; A.386.b.11.i; A.387.b.11.i; A.388.b.11.i;
A.389.b.11.i; A.390.b.11.i; A.391.b.11.i; A.392.b.11.i;
A.393.b.11.i; A.394.b.11.i; A.395.b.11.i; A.396.b.11.i;
A.397.b.11.i; A.398.b.11.i; A.399.b.11.i; A.400.b.11.i;
A.401.b.11.i; A.402.b.11.i; A.403.b.11.i; A.404.b.11.i;
A.405.b.11.i; A.406.b.11.i; A.407.b.11.i; A.408.b.11.i;
A.409.b.11.i; A.410.b.11.i; A.411.b.11.i; A.412.b.11.i;
A.413.b.11.i; A.414.b.11.i; A.415.b.11.i; A.416.b.11.i;
A.417.b.11.i; A.418.b.11.i; A.419.b.11.i; A.420.b.11.i;
A.421.b.11.i; A.422.b.11.i; A.423.b.11.i; A.424.b.11.i;
A.425.b.11.i; A.426.b.11.i; A.427.b.11.i; A.428.b.11.i;
A.429.b.11.i; A.430.b.11.i; A.431.b.11.i; A.432.b.11.i;
A.433.b.11.i; A.434.b.11.i; A.435.b.11.i; A.436.b.11.i;
A.437.b.11.i; A.438.b.11.i; A.439.b.11.i; A.440.b.11.i;
A.441.b.11.i; A.442.b.11.i; A.443.b.11.i; A.444.b.11.i;
A.445.b.11.i; A.446.b.11.i; A.447.b.11.i; A.448.b.11.i;
A.449.b.11.i; A.450.b.11.i; A.451.b.11.i; A.452.b.11.i;
A.453.b.11.i; A.454.b.11.i; A.455.b.11.i; A.456.b.11.i;
A.457.b.11.i; A.458.b.11.i; A.459.b.11.i; A.460.b.11.i;
A.461.b.11.i; A.462.b.11.i; A.463.b.11.i; A.464.b.11.i;
A.465.b.11.i; A.466.b.11.i; A.467.b.11.i; A.468.b.11.i;
A.469.b.11.i; A.470.b.11.i; A.471.b.11.i; A.472.b.11.i;
A.473.b.11.i; A.474.b.11.i; A.475.b.11.i; A.476.b.11.i;
A.477.b.11.i; A.478.b.11.i; A.479.b.11.i; A.480.b.11.i;
A.481.b.11.i; A.482.b.11.i; A.483.b.11.i; A.484.b.11.i;
A.485.b.11.i; A.486.b.11.i; A.487.b.11.i; A.488.b.11.i;
A.489.b.11.i; A.490.b.11.i; A.491.b.11.i; A.492.b.11.i;
A.493.b.11.i; A.494.b.11.i; A.495.b.11.i; A.496.b.11.i;
A.497.b.11.i; A.498.b.11.i; A.499.b.11.i; A.500.b.11.i;
A.501.b.11.i; A.502.b.11.i; A.503.b.11.i; A.504.b.11.i;
A.505.b.11.i; A.506.b.11.i; A.507.b.11.i; A.508.b.11.i;
A.509.b.11.i; A.510.b.11.i; A.511.b.11.i; A.512.b.11.i;
A.512.b.11.i; A.513.b.11.i; A.514.b.11.i; A.515.b.11.i;
A.516.b.11.i; A.517.b.11.i; A.518.b.11.i; A.519.b.11.i;
A.520.b.11.i; A.521.b.11.i; A.522.b.11.i; A.523.b.11.i;
A.524.b.11.i; A.525.b.11.i; A.526.b.11.i; A.527.b.11.i;
A.528.b.11.i; A.529.b.11.i; A.530.b.11.i; A.531.b.11.i;
A.532.b.11.i; A.533.b.11.i; A.534.b.11.i; A.535.b.11.i;
A.536.b.11.i; A.537.b.11.i; A.538.b.11.i; A.539.b.11.i;
A.540.b.11.i; A.541.b.11.i; A.542.b.11.i; A.543.b.11.i;
A.544.b.11.i; A.545.b.11.i; A.546.b.11.i; A.547.b.11.i;
A.548.b.11.i; A.549.b.11.i; A.550.b.11.i; A.551.b.11.i;
A.552.b.11.i; A.553.b.11.i; A.554.b.11.i; A.555.b.11.i;
A.556.b.11.i; A.557.b.11.i; A.558.b.11.i; A.559.b.11.i;
A.560.b.11.i; A.561.b.11.i; A.562.b.11.i; A.563.b.11.i;
A.564.b.11.i; A.565.b.11.i; A.566.b.11.i; A.567.b.11.i;
A.568.b.11.i; A.569.b.11.i; A.570.b.11.i; A.571.b.11.i;
A.572.b.11.i; A.573.b.11.i; A.574.b.11.i; A.575.b.11.i;
A.576.b.11.i; A.577.b.11.i; A.578.b.11.i; A.579.b.11.i;
A.580.b.11.i; A.581.b.11.i; A.582.b.11.i; A.583.b.11.i;
A.584.b.11.i; A.585.b.11.i; A.586.b.11.i; A.587.b.11.i;
A.588.b.11.i; A.589.b.11.i; A.590.b.11.i; A.591.b.11.i;
A.592.b.11.i; A.593.b.11.i; A.594.b.11.i; A.595.b.11.i;
A.596.b.11.i; A.597.b.11.i; A.598.b.11.i; A.599.b.11.i;
A.600.b.11.i; A.601.b.11.i; A.602.b.11.i; A.603.b.11.i;
A.604.b.11.i; A.605.b.11.i; A.606.b.11.i; A.607.b.11.i;
A.608.b.11.i; A.609.b.11.i; A.610.b.11.i; A.611.b.11.i;
A.612.b.11.i; A.613.b.11.i; A.614.b.11.i; A.615.b.11.i;
A.616.b.11.i; A.617.b.11.i; A.618.b.11.i; A.619.b.11.i;
A.620.b.11.i; A.621.b.11.i; A.622.b.11.i; A.623.b.11.i;
A.624.b.11.i; A.625.b.11.i; A.626.b.11.i; A.627.b.11.i;
A.628.b.11.i; A.629.b.11.i; A.630.b.11.i; A.631.b.11.i;
A.632.b.11.i; A.633.b.11.i; A.634.b.11.i; A.635.b.11.i;
A.636.b.11.i; A.637.b.11.i; A.638.b.11.i; A.639.b.11.i;
A.640.b.11.i; A.641.b.11.i; A.642.b.11.i; A.643.b.11.i;
A.644.b.11.i; A.645.b.11.i; A.646.b.11.i; A.647.b.11.i;
A.648.b.11.i; A.649.b.11.i; A.650.b.11.i; A.651.b.11.i;
A.652.b.11.i; A.653.b.11.i; A.654.b.11.i; A.655.b.11.i;
A.656.b.11.i; A.657.b.11.i; A.658.b.11.i; A.659.b.11.i;
A.660.b.11.i; A.2.x.4.i; A.3.x.4.i; A.4.x.4.i; A.5.x.4.i;
A.6.x.4.i; A.7.x.4.i; A.9.x.4.i; A.10.x.4.i; A.15.x.4.i;
A.100.x.4.i; A.101.x.4.i; A.102.x.4.i; A.103.x.4.i; A.104.x.4.i;
A.105.x.4.i; A.106.x.4.i; A.107.x.4.i; A.108.x.4.i; A.109.x.4.i;
A.110.x.4.i; A.111.x.4.i; A.112.x.4.i; A.113.x.4.i; A.114.x.4.i;
A.115.x.4.i; A.116.x.4.i; A.117.x.4.i; A.118.x.4.i; A.119.x.4.i;
A.120.x.4.i; A.121.x.4.i; A.122.x.4.i; A.123.x.4.i; A.124.x.4.i;
A.125.x.4.i; A.126.x.4.i; A.127.x.4.i; A.128.x.4.i; A.129.x.4.i;
A.130.x.4.i; A.131.x.4.i; A.132.x.4.i; A.133.x.4.i; A.134.x.4.i;
A.135.x.4.i; A.136.x.4.i; A.137.x.4.i; A.138.x.4.i; A.139.x.4.i;
A.140.x.4.i; A.141.x.4.i; A.142.x.4.i; A.143.x.4.i; A.144.x.4.i;
A.145.x.4.i; A.146.x.4.i; A.147.x.4.i; A.148.x.4.i; A.149.x.4.i;
A.150.x.4.i; A.151.x.4.i; A.152.x.4.i; A.153.x.4.i; A.154.x.4.i;
A.155.x.4.i; A.156.x.4.i; A.157.x.4.i; A.158.x.4.i; A.159.x.4.i;
A.160.x.4.i; A.161.x.4.i; A.162.x.4.i; A.163.x.4.i; A.164.x.4.i;
A.165.x.4.i; A.166.x.4.i; A.167.x.4.i; A.168.x.4.i; A.169.x.4.i;
A.170.x.4.i; A.171.x.4.i; A.172.x.4.i; A.173.x.4.i; A.174.x.4.i;
A.175.x.4.i; A.176.x.4.i; A.177.x.4.i; A.178.x.4.i; A.179.x.4.i;
A.180.x.4.i; A.181.x.4.i; A.182.x.4.i; A.183.x.4.i; A.184.x.4.i;
A.185.x.4.i; A.186.x.4.i; A.187.x.4.i; A.188.x.4.i; A.189.x.4.i;
A.190.x.4.i; A.191.x.4.i; A.192.x.4.i; A.193.x.4.i; A.194.x.4.i;
A.195.x.4.i; A.196.x.4.i; A.197.x.4.i; A.198.x.4.i; A.199.x.4.i;
A.200.x.4.i; A.201.x.4.i; A.202.x.4.i; A.203.x.4.i; A.204.x.4.i;
A.205.x.4.i; A.206.x.4.i; A.207.x.4.i; A.208.x.4.i; A.209.x.4.i;
A.210.x.4.i; A.211.x.4.i; A.212.x.4.i; A.213.x.4.i; A.214.x.4.i;
A.215.x.4.i; A.216.x.4.i; A.217.x.4.i; A.218.x.4.i; A.219.x.4.i;
A.220.x.4.i; A.221.x.4.i; A.222.x.4.i; A.223.x.4.i; A.224.x.4.i;
A.225.x.4.i; A.226.x.4.i; A.227.x.4.i; A.228.x.4.i; A.229.x.4.i;
A.230.x.4.i; A.231.x.4.i; A.232.x.4.i; A.233.x.4.i; A.234.x.4.i;
A.235.x.4.i; A.236.x.4.i; A.237.x.4.i; A.238.x.4.i; A.239.x.4.i;
A.240.x.4.i; A.241.x.4.i; A.242.x.4.i; A.243.x.4.i; A.244.x.4.i;
A.245.x.4.i; A.246.x.4.i; A.247.x.4.i; A.248.x.4.i; A.249.x.4.i;
A.250.x.4.i; A.251.x.4.i; A.252.x.4.i; A.253.x.4.i; A.254.x.4.i;
A.255.x.4.i; A.256.x.4.i; A.257.x.4.i; A.258.x.4.i; A.259.x.4.i;
A.260.x.4.i; A.261.x.4.i; A.262.x.4.i; A.263.x.4.i; A.264.x.4.i;
A.265.x.4.i; A.266.x.4.i; A.267.x.4.i; A.268.x.4.i; A.269.x.4.i;
A.270.x.4.i; A.271.x.4.i; A.272.x.4.i; A.273.x.4.i; A.274.x.4.i;
A.275.x.4.i; A.276.x.4.i; A.277.x.4.i; A.278.x.4.i; A.279.x.4.i;
A.280.x.4.i; A.281.x.4.i; A.282.x.4.i; A.283.x.4.i; A.284.x.4.i;
A.285.x.4.i; A.286.x.4.i; A.287.x.4.i; A.288.x.4.i; A.289.x.4.i;
A.290.x.4.i; A.291.x.4.i; A.292.x.4.i; A.293.x.4.i; A.294.x.4.i;
A.295.x.4.i; A.296.x.4.i; A.297.x.4.i; A.298.x.4.i; A.299.x.4.i;
A.300.x.4.i; A.301.x.4.i; A.302.x.4.i; A.303.x.4.i; A.304.x.4.i;
A.305.x.4.i; A.306.x.4.i; A.307.x.4.i; A.308.x.4.i; A.309.x.4.i;
A.310.x.4.i; A.311.x.4.i; A.312.x.4.i; A.313.x.4.i; A.314.x.4.i;
A.315.x.4.i; A.316.x.4.i; A.317.x.4.i; A.318.x.4.i; A.319.x.4.i;
A.320.x.4.i; A.321.x.4.i; A.323.x.4.i; A.324.x.4.i; A.325.x.4.i;
A.326.x.4.i; A.327.x.4.i; A.328.x.4.i; A.329.x.4.i; A.330.x.4.i;
A.331.x.4.i; A.332.x.4.i; A.333.x.4.i; A.334.x.4.i; A.335.x.4.i;
A.336.x.4.i; A.337.x.4.i; A.338.x.4.i; A.339.x.4.i; A.340.x.4.i;
A.341.x.4.i; A.342.x.4.i; A.343.x.4.i; A.344.x.4.i; A.345.x.4.i;
A.346.x.4.i; A.347.x.4.i; A.348.x.4.i; A.349.x.4.i; A.350.x.4.i;
A.351.x.4.i; A.352.x.4.i; A.353.x.4.i; A.354.x.4.i; A.355.x.4.i;
A.356.x.4.i; A.357.x.4.i; A.358.x.4.i; A.359.x.4.i; A.360.x.4.i;
A.361.x.4.i; A.362.x.4.i; A.363.x.4.i; A.364.x.4.i; A.365.x.4.i;
A.366.x.4.i; A.367.x.4.i; A.368.x.4.i; A.369.x.4.i; A.370.x.4.i;
A.371.x.4.i; A.372.x.4.i; A.373.x.4.i; A.374.x.4.i; A.375.x.4.i;
A.376.x.4.i; A.377.x.4.i; A.378.x.4.i; A.379.x.4.i; A.380.x.4.i;
A.381.x.4.i; A.382.x.4.i; A.383.x.4.i; A.384.x.4.i; A.385.x.4.i;
A.386.x.4.i; A.387.x.4.i; A.388.x.4.i; A.389.x.4.i; A.390.x.4.i;
A.391.x.4.i; A.392.x.4.i; A.393.x.4.i; A.394.x.4.i; A.395.x.4.i;
A.396.x.4.i; A.397.x.4.i; A.398.x.4.i; A.399.x.4.i; A.400.x.4.i;
A.401.x.4.i; A.402.x.4.i; A.403.x.4.i; A.404.x.4.i; A.405.x.4.i;
A.406.x.4.i; A.407.x.4.i; A.408.x.4.i; A.409.x.4.i; A.410.x.4.i;
A.411.x.4.i; A.412.x.4.i; A.413.x.4.i; A.414.x.4.i; A.415.x.4.i;
A.416.x.4.i; A.417.x.4.i; A.418.x.4.i; A.419.x.4.i; A.420.x.4.i;
A.421.x.4.i; A.422.x.4.i; A.423.x.4.i; A.424.x.4.i; A.425.x.4.i;
A.426.x.4.i; A.427.x.4.i; A.428.x.4.i; A.429.x.4.i; A.430.x.4.i;
A.431.x.4.i; A.432.x.4.i; A.433.x.4.i; A.434.x.4.i; A.435.x.4.i;
A.436.x.4.i; A.437.x.4.i; A.438.x.4.i; A.439.x.4.i; A.440.x.4.i;
A.441.x.4.i; A.442.x.4.i; A.443.x.4.i; A.444.x.4.i; A.445.x.4.i;
A.446.x.4.i; A.447.x.4.i; A.448.x.4.i; A.449.x.4.i; A.450.x.4.i;
A.451.x.4.i; A.452.x.4.i; A.453.x.4.i; A.454.x.4.i; A.455.x.4.i;
A.456.x.4.i; A.457.x.4.i; A.458.x.4.i; A.459.x.4.i; A.460.x.4.i;
A.461.x.4.i; A.462.x.4.i; A.463.x.4.i; A.464.x.4.i; A.465.x.4.i;
A.466.x.4.i; A.467.x.4.i; A.468.x.4.i; A.469.x.4.i; A.470.x.4.i;
A.471.x.4.i; A.472.x.4.i; A.473.x.4.i; A.474.x.4.i; A.475.x.4.i;
A.476.x.4.i; A.477.x.4.i; A.478.x.4.i; A.479.x.4.i; A.480.x.4.i;
A.481.x.4.i; A.482.x.4.i; A.483.x.4.i; A.484.x.4.i; A.485.x.4.i;
A.486.x.4.i; A.487.x.4.i; A.488.x.4.i; A.489.x.4.i; A.490.x.4.i;
A.491.x.4.i; A.492.x.4.i; A.493.x.4.i; A.494.x.4.i; A.495.x.4.i;
A.496.x.4.i; A.497.x.4.i; A.498.x.4.i; A.499.x.4.i; A.500.x.4.i;
A.501.x.4.i; A.502.x.4.i; A.503.x.4.i; A.504.x.4.i; A.505.x.4.i;
A.506.x.4.i; A.507.x.4.i; A.508.x.4.i; A.509.x.4.i; A.510.x.4.i;
A.511.x.4.i; A.512.x.4.i; A.512.x.4.i; A.513.x.4.i; A.514.x.4.i;
A.515.x.4.i; A.516.x.4.i; A.517.x.4.i; A.518.x.4.i; A.519.x.4.i;
A.520.x.4.i; A.521.x.4.i; A.522.x.4.i; A.523.x.4.i; A.524.x.4.i;
A.525.x.4.i; A.526.x.4.i; A.527.x.4.i; A.528.x.4.i; A.529.x.4.i;
A.530.x.4.i; A.531.x.4.i; A.532.x.4.i; A.533.x.4.i; A.534.x.4.i;
A.535.x.4.i; A.536.x.4.i; A.537.x.4.i; A.538.x.4.i; A.539.x.4.i;
A.540.x.4.i; A.541.x.4.i; A.542.x.4.i; A.543.x.4.i; A.544.x.4.i;
A.545.x.4.i; A.546.x.4.i; A.547.x.4.i; A.548.x.4.i; A.549.x.4.i;
A.550.x.4.i; A.551.x.4.i; A.552.x.4.i; A.553.x.4.i; A.554.x.4.i;
A.555.x.4.i; A.556.x.4.i; A.557.x.4.i; A.558.x.4.i; A.559.x.4.i;
A.560.x.4.i; A.561.x.4.i; A.562.x.4.i; A.563.x.4.i; A.564.x.4.i;
A.565.x.4.i; A.566.x.4.i; A.567.x.4.i; A.568.x.4.i; A.569.x.4.i;
A.570.x.4.i; A.571.x.4.i; A.572.x.4.i; A.573.x.4.i; A.574.x.4.i;
A.575.x.4.i; A.576.x.4.i; A.577.x.4.i; A.578.x.4.i; A.579.x.4.i;
A.580.x.4.i; A.581.x.4.i; A.582.x.4.i; A.583.x.4.i; A.584.x.4.i;
A.585.x.4.i; A.586.x.4.i; A.587.x.4.i; A.588.x.4.i; A.589.x.4.i;
A.590.x.4.i; A.591.x.4.i; A.592.x.4.i; A.593.x.4.i; A.594.x.4.i;
A.595.x.4.i; A.596.x.4.i; A.597.x.4.i; A.598.x.4.i; A.599.x.4.i;
A.600.x.4.i; A.601.x.4.i; A.602.x.4.i; A.603.x.4.i; A.604.x.4.i;
A.605.x.4.i; A.606.x.4.i; A.607.x.4.i; A.608.x.4.i; A.609.x.4.i;
A.610.x.4.i; A.611.x.4.i; A.612.x.4.i; A.613.x.4.i; A.614.x.4.i;
A.615.x.4.i; A.616.x.4.i; A.617.x.4.i; A.618.x.4.i; A.619.x.4.i;
A.620.x.4.i; A.621.x.4.i; A.622.x.4.i; A.623.x.4.i; A.624.x.4.i;
A.625.x.4.i; A.626.x.4.i; A.627.x.4.i; A.628.x.4.i; A.629.x.4.i;
A.630.x.4.i; A.631.x.4.i; A.632.x.4.i; A.633.x.4.i; A.634.x.4.i;
A.635.x.4.i; A.636.x.4.i; A.637.x.4.i; A.638.x.4.i; A.639.x.4.i;
A.640.x.4.i; A.641.x.4.i; A.642.x.4.i; A.643.x.4.i; A.644.x.4.i;
A.645.x.4.i; A.646.x.4.i; A.647.x.4.i; A.648.x.4.i; A.649.x.4.i;
A.650.x.4.i; A.651.x.4.i; A.652.x.4.i; A.653.x.4.i; A.654.x.4.i;
A.655.x.4.i; A.656.x.4.i; A.657.x.4.i; A.658.x.4.i; A.659.x.4.i;
A.660.x.4.i; A.2.x.11.i; A.3.x.11.i; A.4.x.11.i; A.5.x.11.i;
A.6.x.11.i; A.7.x.11.i; A.9.x.11.i; A.10.x.11.i; A.15.x.11.i;
A.100.x.11.i; A.101.x.11.i; A.102.x.11.i; A.103.x.11.i;
A.104.x.11.i; A.105.x.11.i; A.106.x.11.i; A.107.x.11.i;
A.108.x.11.i; A.109.x.11.i; A.110.x.11.i; A.111.x.11.i;
A.112.x.11.i; A.113.x.11.i; A.114.x.11.i; A.115.x.11.i;
A.116.x.11.i; A.117.x.11.i; A.118.x.11.i; A.119.x.11.i;
A.120.x.11.i; A.121.x.11.i; A.122.x.11.i; A.123.x.11.i;
A.124.x.11.i; A.125.x.11.i; A.126.x.11.i; A.127.x.11.i;
A.128.x.11.i; A.129.x.11.i; A.130.x.11.i; A.131.x.11.i;
A.132.x.11.i; A.133.x.11.i; A.134.x.11.i; A.135.x.11.i;
A.136.x.11.i; A.137.x.11.i; A.138.x.11.i; A.139.x.11.i;
A.140.x.11.i; A.141.x.11.i; A.142.x.11.i; A.143.x.11.i;
A.144.x.11.i; A.145.x.11.i; A.146.x.11.i; A.147.x.11.i;
A.148.x.11.i; A.149.x.11.i; A.150.x.11.i; A.151.x.11.i;
A.152.x.11.i; A.153.x.11.i; A.154.x.11.i; A.155.x.11.i;
A.156.x.11.i; A.157.x.11.i; A.158.x.11.i; A.159.x.11.i;
A.160.x.11.i; A.161.x.11.i; A.162.x.11.i; A.163.x.11.i;
A.164.x.11.i; A.165.x.11.i; A.166.x.11.i; A.167.x.11.i;
A.168.x.11.i; A.169.x.11.i; A.170.x.11.i; A.171.x.11.i;
A.172.x.11.i; A.173.x.11.i; A.174.x.11.i; A.175.x.11.i;
A.176.x.11.i; A.177.x.11.i; A.178.x.11.i; A.179.x.11.i;
A.180.x.11.i; A.181.x.11.i; A.182.x.11.i; A.183.x.11.i;
A.184.x.11.i; A.185.x.11.i; A.186.x.11.i; A.187.x.11.i;
A.188.x.11.i; A.189.x.11.i; A.190.x.11.i; A.191.x.11.i;
A.192.x.11.i; A.193.x.11.i; A.194.x.11.i; A.195.x.11.i;
A.196.x.11.i; A.197.x.11.i; A.198.x.11.i; A.199.x.11.i;
A.200.x.11.i; A.201.x.11.i; A.202.x.11.i; A.203.x.11.i;
A.204.x.11.i; A.205.x.11.i; A.206.x.11.i; A.207.x.11.i;
A.208.x.11.i; A.209.x.11.i; A.210.x.11.i; A.211.x.11.i;
A.212.x.11.i; A.213.x.11.i; A.214.x.11.i; A.215.x.11.i;
A.216.x.11.i; A.217.x.11.i; A.218.x.11.i; A.219.x.11.i;
A.220.x.11.i; A.221.x.11.i; A.222.x.11.i; A.223.x.11.i;
A.224.x.11.i; A.225.x.11.i; A.226.x.11.i; A.227.x.11.i;
A.228.x.11.i; A.229.x.11.i; A.230.x.11.i; A.231.x.11.i;
A.232.x.11.i; A.233.x.11.i; A.234.x.11.i; A.235.x.11.i;
A.236.x.11.i; A.237.x.11.i; A.238.x.11.i; A.239.x.11.i;
A.240.x.11.i; A.241.x.11.i; A.242.x.11.i; A.243.x.11.i;
A.244.x.11.i; A.245.x.11.i; A.246.x.11.i; A.247.x.11.i;
A.248.x.11.i; A.249.x.11.i; A.250.x.11.i; A.251.x.11.i;
A.252.x.11.i; A.253.x.11.i; A.254.x.11.i; A.255.x.11.i;
A.256.x.11.i; A.257.x.11.i; A.258.x.11.i; A.259.x.11.i;
A.260.x.11.i; A.261.x.11.i; A.262.x.11.i; A.263.x.11.i;
A.264.x.11.i; A.265.x.11.i; A.266.x.11.i; A.267.x.11.i;
A.268.x.11.i; A.269.x.11.i; A.270.x.11.i; A.271.x.11.i;
A.272.x.11.i; A.273.x.11.i; A.274.x.11.i; A.275.x.11.i;
A.276.x.11.i; A.277.x.11.i; A.278.x.11.i; A.279.x.11.i;
A.280.x.11.i; A.281.x.11.i; A.282.x.11.i; A.283.x.11.i;
A.284.x.11.i; A.285.x.11.i; A.286.x.11.i; A.287.x.11.i;
A.288.x.11.i; A.289.x.11.i; A.290.x.11.i; A.291.x.11.i;
A.292.x.11.i; A.293.x.11.i; A.294.x.11.i; A.295.x.11.i;
A.296.x.11.i; A.297.x.11.i; A.298.x.11.i; A.299.x.11.i;
A.300.x.11.i; A.301.x.11.i; A.302.x.11.i; A.303.x.11.i;
A.304.x.11.i; A.305.x.11.i; A.306.x.11.i; A.307.x.11.i;
A.308.x.11.i; A.309.x.11.i; A.310.x.11.i; A.311.x.11.i;
A.312.x.11.i; A.313.x.11.i; A.314.x.11.i; A.315.x.11.i;
A.316.x.11.i; A.317.x.11.i; A.318.x.11.i; A.319.x.11.i;
A.320.x.11.i; A.321.x.11.i; A.323.x.11.i; A.324.x.11.i;
A.325.x.11.i; A.326.x.11.i; A.327.x.11.i; A.328.x.11.i;
A.329.x.11.i; A.330.x.11.i; A.331.x.11.i; A.332.x.11.i;
A.333.x.11.i; A.334.x.11.i; A.335.x.11.i; A.336.x.11.i;
A.337.x.11.i; A.338.x.11.i; A.339.x.11.i; A.340.x.11.i;
A.341.x.11.i; A.342.x.11.i; A.343.x.11.i; A.344.x.11.i;
A.345.x.11.i; A.346.x.11.i; A.347.x.11.i; A.348.x.11.i;
A.349.x.11.i; A.350.x.11.i; A.351.x.11.i; A.352.x.11.i;
A.353.x.11.i; A.354.x.11.i; A.355.x.11.i; A.356.x.11.i;
A.357.x.11.i; A.358.x.11.i; A.359.x.11.i; A.360.x.11.i;
A.361.x.11.i; A.362.x.11.i; A.363.x.11.i; A.364.x.11.i;
A.365.x.11.i; A.366.x.11.i; A.367.x.11.i; A.368.x.11.i;
A.369.x.11.i; A.370.x.11.i; A.371.x.11.i; A.372.x.11.i;
A.373.x.11.i; A.374.x.11.i; A.375.x.11.i; A.376.x.11.i;
A.377.x.11.i; A.378.x.11.i; A.379.x.11.i; A.380.x.11.i;
A.381.x.11.i; A.382.x.11.i; A.383.x.11.i; A.384.x.11.i;
A.385.x.11.i; A.386.x.11.i; A.387.x.11.i; A.388.x.11.i;
A.389.x.11.i; A.390.x.11.i; A.391.x.11.i; A.392.x.11.i;
A.393.x.11.i; A.394.x.11.i; A.395.x.11.i; A.396.x.11.i;
A.397.x.11.i; A.398.x.11.i; A.399.x.11.i; A.400.x.11.i;
A.401.x.11.i; A.402.x.11.i; A.403.x.11.i; A.404.x.11.i;
A.405.x.11.i; A.406.x.11.i; A.407.x.11.i; A.408.x.11.i;
A.409.x.11.i; A.410.x.11.i; A.411.x.11.i; A.412.x.11.i;
A.413.x.11.i; A.414.x.11.i; A.415.x.11.i; A.416.x.11.i;
A.417.x.11.i; A.418.x.11.i; A.419.x.11.i; A.420.x.11.i;
A.421.x.11.i; A.422.x.11.i; A.423.x.11.i; A.424.x.11.i;
A.425.x.11.i; A.426.x.11.i; A.427.x.11.i; A.428.x.11.i;
A.429.x.11.i; A.430.x.11.i; A.431.x.11.i; A.432.x.11.i;
A.433.x.11.i; A.434.x.11.i; A.435.x.11.i; A.436.x.11.i;
A.437.x.11.i; A.438.x.11.i; A.439.x.11.i; A.440.x.11.i;
A.441.x.11.i; A.442.x.11.i; A.443.x.11.i; A.444.x.11.i;
A.445.x.11.i; A.446.x.11.i; A.447.x.11.i; A.448.x.11.i;
A.449.x.11.i; A.450.x.11.i; A.451.x.11.i; A.452.x.11.i;
A.453.x.11.i; A.454.x.11.i; A.455.x.11.i; A.456.x.11.i;
A.457.x.11.i; A.458.x.11.i; A.459.x.11.i; A.460.x.11.i;
A.461.x.11.i; A.462.x.11.i; A.463.x.11.i; A.464.x.11.i;
A.465.x.11.i; A.466.x.11.i; A.467.x.11.i; A.468.x.11.i;
A.469.x.11.i; A.470.x.11.i; A.471.x.11.i; A.472.x.11.i;
A.473.x.11.i; A.474.x.11.i; A.475.x.11.i; A.476.x.11.i;
A.477.x.11.i; A.478.x.11.i; A.479.x.11.i; A.480.x.11.i;
A.481.x.11.i; A.482.x.11.i; A.483.x.11.i; A.484.x.11.i;
A.485.x.11.i; A.486.x.11.i; A.487.x.11.i; A.488.x.11.i;
A.489.x.11.i; A.490.x.11.i; A.491.x.11.i; A.492.x.11.i;
A.493.x.11.i; A.494.x.11.i; A.495.x.11.i; A.496.x.11.i;
A.497.x.11.i; A.498.x.11.i; A.499.x.11.i; A.500.x.11.i;
A.501.x.11.i; A.502.x.11.i; A.503.x.11.i; A.504.x.11.i;
A.505.x.11.i; A.506.x.11.i; A.507.x.11.i; A.508.x.11.i;
A.509.x.11.i; A.510.x.11.i; A.511.x.11.i; A.512.x.11.i;
A.512.x.11.i; A.513.x.11.i; A.514.x.11.i; A.515.x.11.i;
A.516.x.11.i; A.517.x.11.i; A.518.x.11.i; A.519.x.11.i;
A.520.x.11.i; A.521.x.11.i; A.522.x.11.i; A.523.x.11.i;
A.524.x.11.i; A.525.x.11.i; A.526.x.11.i; A.527.x.11.i;
A.528.x.11.i; A.529.x.11.i; A.530.x.11.i; A.531.x.11.i;
A.532.x.11.i; A.533.x.11.i; A.534.x.11.i; A.535.x.11.i;
A.536.x.11.i; A.537.x.11.i; A.538.x.11.i; A.539.x.11.i;
A.540.x.11.i; A.541.x.11.i; A.542.x.11.i; A.543.x.11.i;
A.544.x.11.i; A.545.x.11.i; A.546.x.11.i; A.547.x.11.i;
A.548.x.11.i; A.549.x.11.i; A.550.x.11.i; A.551.x.11.i;
A.552.x.11.i; A.553.x.11.i; A.554.x.11.i; A.555.x.11.i;
A.556.x.11.i; A.557.x.11.i; A.558.x.11.i; A.559.x.11.i;
A.560.x.11.i; A.561.x.11.i; A.562.x.11.i; A.563.x.11.i;
A.564.x.11.i; A.565.x.11.i; A.566.x.11.i; A.567.x.11.i;
A.568.x.11.i; A.569.x.11.i; A.570.x.11.i; A.571.x.11.i;
A.572.x.11.i; A.573.x.11.i; A.574.x.11.i; A.575.x.11.i;
A.576.x.11.i; A.577.x.11.i; A.578.x.11.i; A.579.x.11.i;
A.580.x.11.i; A.581.x.11.i; A.582.x.11.i; A.583.x.11.i;
A.584.x.11.i; A.585.x.11.i; A.586.x.11.i; A.587.x.11.i;
A.588.x.11.i; A.589.x.11.i; A.590.x.11.i; A.591.x.11.i;
A.592.x.11.i; A.593.x.11.i; A.594.x.11.i; A.595.x.11.i;
A.596.x.11.i; A.597.x.11.i; A.598.x.11.i; A.599.x.11.i;
A.600.x.11.i; A.601.x.11.i; A.602.x.11.i; A.603.x.11.i;
A.604.x.11.i; A.605.x.11.i; A.606.x.11.i; A.607.x.11.i;
A.608.x.11.i; A.609.x.11.i; A.610.x.11.i; A.611.x.11.i;
A.612.x.11.i; A.613.x.11.i; A.614.x.11.i; A.615.x.11.i;
A.616.x.11.i; A.617.x.11.i; A.618.x.11.i; A.619.x.11.i;
A.620.x.11.i; A.621.x.11.i; A.622.x.11.i; A.623.x.11.i;
A.624.x.11.i; A.625.x.11.i; A.626.x.11.i; A.627.x.11.i;
A.628.x.11.i; A.629.x.11.i; A.630.x.11.i; A.631.x.11.i;
A.632.x.11.i; A.633.x.11.i; A.634.x.11.i; A.635.x.11.i;
A.636.x.11.i; A.637.x.11.i; A.638.x.11.i; A.639.x.11.i;
A.640.x.11.i; A.641.x.11.i; A.642.x.11.i; A.643.x.11.i;
A.644.x.11.i; A.645.x.11.i; A.646.x.11.i; A.647.x.11.i;
A.648.x.11.i; A.649.x.11.i; A.650.x.11.i; A.651.x.11.i;
A.652.x.11.i; A.653.x.11.i; A.654.x.11.i; A.655.x.11.i;
A.656.x.11.i; A.657.x.11.i; A.658.x.11.i; A.659.x.11.i;
A.660.x.11.i; A.2.y.4.i; A.3.y.4.i; A.4.y.4.i; A.5.y.4.i;
A.6.y.4.i; A.7.y.4.i; A.9.y.4.i; A.10.y.4.i; A.15.y.4.i;
A.100.y.4.i; A.101.y.4.i; A.102.y.4.i; A.103.y.4.i; A.104.y.4.i;
A.105.y.4.i; A.106.y.4.i; A.107.y.4.i; A.108.y.4.i; A.109.y.4.i;
A.110.y.4.i; A.111.y.4.i; A.112.y.4.i; A.113.y.4.i; A.114.y.4.i;
A.115.y.4.i; A.116.y.4.i; A.117.y.4.i; A.118.y.4.i; A.119.y.4.i;
A.120.y.4.i; A.121.y.4.i; A.122.y.4.i; A.123.y.4.i; A.124.y.4.i;
A.125.y.4.i; A.126.y.4.i; A.127.y.4.i; A.128.y.4.i; A.129.y.4.i;
A.130.y.4.i; A.131.y.4.i; A.132.y.4.i; A.133.y.4.i; A.134.y.4.i;
A.135.y.4.i; A.136.y.4.i; A.137.y.4.i; A.138.y.4.i; A.139.y.4.i;
A.140.y.4.i; A.141.y.4.i; A.142.y.4.i; A.143.y.4.i; A.144.y.4.i;
A.145.y.4.i; A.146.y.4.i; A.147.y.4.i; A.148.y.4.i; A.149.y.4.i;
A.150.y.4.i; A.151.y.4.i; A.152.y.4.i; A.153.y.4.i; A.154.y.4.i;
A.155.y.4.i; A.156.y.4.i; A.157.y.4.i; A.158.y.4.i; A.159.y.4.i;
A.160.y.4.i; A.161.y.4.i; A.162.y.4.i; A.163.y.4.i; A.164.y.4.i;
A.165.y.4.i; A.166.y.4.i; A.167.y.4.i; A.168.y.4.i; A.169.y.4.i;
A.170.y.4.i; A.171.y.4.i; A.172.y.4.i; A.173.y.4.i; A.174.y.4.i;
A.175.y.4.i; A.176.y.4.i; A.177.y.4.i; A.178.y.4.i; A.179.y.4.i;
A.180.y.4.i; A.181.y.4.i; A.182.y.4.i; A.183.y.4.i; A.184.y.4.i;
A.185.y.4.i; A.186.y.4.i; A.187.y.4.i; A.188.y.4.i; A.189.y.4.i;
A.190.y.4.i; A.191.y.4.i; A.192.y.4.i; A.193.y.4.i; A.194.y.4.i;
A.195.y.4.i; A.196.y.4.i; A.197.y.4.i; A.198.y.4.i; A.199.y.4.i;
A.200.y.4.i; A.201.y.4.i; A.202.y.4.i; A.203.y.4.i; A.204.y.4.i;
A.205.y.4.i; A.206.y.4.i; A.207.y.4.i; A.208.y.4.i; A.209.y.4.i;
A.210.y.4.i; A.211.y.4.i; A.212.y.4.i; A.213.y.4.i; A.214.y.4.i;
A.215.y.4.i; A.216.y.4.i; A.217.y.4.i; A.218.y.4.i; A.219.y.4.i;
A.220.y.4.i; A.221.y.4.i; A.222.y.4.i; A.223.y.4.i; A.224.y.4.i;
A.225.y.4.i; A.226.y.4.i; A.227.y.4.i; A.228.y.4.i; A.229.y.4.i;
A.230.y.4.i; A.231.y.4.i; A.232.y.4.i; A.233.y.4.i; A.234.y.4.i;
A.235.y.4.i; A.236.y.4.i; A.237.y.4.i; A.238.y.4.i; A.239.y.4.i;
A.240.y.4.i; A.241.y.4.i; A.242.y.4.i; A.243.y.4.i; A.244.y.4.i;
A.245.y.4.i; A.246.y.4.i; A.247.y.4.i; A.248.y.4.i; A.249.y.4.i;
A.250.y.4.i; A.251.y.4.i; A.252.y.4.i; A.253.y.4.i; A.254.y.4.i;
A.255.y.4.i; A.256.y.4.i; A.257.y.4.i; A.258.y.4.i; A.259.y.4.i;
A.260.y.4.i; A.261.y.4.i; A.262.y.4.i; A.263.y.4.i; A.264.y.4.i;
A.265.y.4.i; A.266.y.4.i; A.267.y.4.i; A.268.y.4.i; A.269.y.4.i;
A.270.y.4.i; A.271.y.4.i; A.272.y.4.i; A.273.y.4.i; A.274.y.4.i;
A.275.y.4.i; A.276.y.4.i; A.277.y.4.i; A.278.y.4.i; A.279.y.4.i;
A.280.y.4.i; A.281.y.4.i; A.282.y.4.i; A.283.y.4.i; A.284.y.4.i;
A.285.y.4.i; A.286.y.4.i; A.287.y.4.i; A.288.y.4.i; A.289.y.4.i;
A.290.y.4.i; A.291.y.4.i; A.292.y.4.i; A.293.y.4.i; A.294.y.4.i;
A.295.y.4.i; A.296.y.4.i; A.297.y.4.i; A.298.y.4.i; A.299.y.4.i;
A.300.y.4.i; A.301.y.4.i; A.302.y.4.i; A.303.y.4.i; A.304.y.4.i;
A.305.y.4.i; A.306.y.4.i; A.307.y.4.i; A.308.y.4.i; A.309.y.4.i;
A.310.y.4.i; A.311.y.4.i; A.312.y.4.i; A.313.y.4.i; A.314.y.4.i;
A.315.y.4.i; A.316.y.4.i; A.317.y.4.i; A.318.y.4.i; A.319.y.4.i;
A.320.y.4.i; A.321.y.4.i; A.323.y.4.i; A.324.y.4.i; A.325.y.4.i;
A.326.y.4.i; A.327.y.4.i; A.328.y.4.i; A.329.y.4.i; A.330.y.4.i;
A.331.y.4.i; A.332.y.4.i; A.333.y.4.i; A.334.y.4.i; A.335.y.4.i;
A.336.y.4.i; A.337.y.4.i; A.338.y.4.i; A.339.y.4.i; A.340.y.4.i;
A.341.y.4.i; A.342.y.4.i; A.343.y.4.i; A.344.y.4.i; A.345.y.4.i;
A.346.y.4.i; A.347.y.4.i; A.348.y.4.i; A.349.y.4.i; A.350.y.4.i;
A.351.y.4.i; A.352.y.4.i; A.353.y.4.i; A.354.y.4.i; A.355.y.4.i;
A.356.y.4.i; A.357.y.4.i; A.358.y.4.i; A.359.y.4.i; A.360.y.4.i;
A.361.y.4.i; A.362.y.4.i; A.363.y.4.i; A.364.y.4.i; A.365.y.4.i;
A.366.y.4.i; A.367.y.4.i; A.368.y.4.i; A.369.y.4.i; A.370.y.4.i;
A.371.y.4.i; A.372.y.4.i; A.373.y.4.i; A.374.y.4.i; A.375.y.4.i;
A.376.y.4.i; A.377.y.4.i; A.378.y.4.i; A.379.y.4.i; A.380.y.4.i;
A.381.y.4.i; A.382.y.4.i; A.383.y.4.i; A.384.y.4.i; A.385.y.4.i;
A.386.y.4.i; A.387.y.4.i; A.388.y.4.i; A.389.y.4.i; A.390.y.4.i;
A.391.y.4.i; A.392.y.4.i; A.393.y.4.i; A.394.y.4.i; A.395.y.4.i;
A.396.y.4.i; A.397.y.4.i; A.398.y.4.i; A.399.y.4.i; A.400.y.4.i;
A.401.y.4.i; A.402.y.4.i; A.403.y.4.i; A.404.y.4.i; A.405.y.4.i;
A.406.y.4.i; A.407.y.4.i; A.408.y.4.i; A.409.y.4.i; A.410.y.4.i;
A.411.y.4.i; A.412.y.4.i; A.413.y.4.i; A.414.y.4.i; A.415.y.4.i;
A.416.y.4.i; A.417.y.4.i; A.418.y.4.i; A.419.y.4.i; A.420.y.4.i;
A.421.y.4.i; A.422.y.4.i; A.423.y.4.i; A.424.y.4.i; A.425.y.4.i;
A.426.y.4.i; A.427.y.4.i; A.428.y.4.i; A.429.y.4.i; A.430.y.4.i;
A.431.y.4.i; A.432.y.4.i; A.433.y.4.i; A.434.y.4.i; A.435.y.4.i;
A.436.y.4.i; A.437.y.4.i; A.438.y.4.i; A.439.y.4.i; A.440.y.4.i;
A.441.y.4.i; A.442.y.4.i; A.443.y.4.i; A.444.y.4.i; A.445.y.4.i;
A.446.y.4.i; A.447.y.4.i; A.448.y.4.i; A.449.y.4.i; A.450.y.4.i;
A.451.y.4.i; A.452.y.4.i; A.453.y.4.i; A.454.y.4.i; A.455.y.4.i;
A.456.y.4.i; A.457.y.4.i; A.458.y.4.i; A.459.y.4.i; A.460.y.4.i;
A.461.y.4.i; A.462.y.4.i; A.463.y.4.i; A.464.y.4.i; A.465.y.4.i;
A.466.y.4.i; A.467.y.4.i; A.468.y.4.i; A.469.y.4.i; A.470.y.4.i;
A.471.y.4.i; A.472.y.4.i; A.473.y.4.i; A.474.y.4.i; A.475.y.4.i;
A.476.y.4.i; A.477.y.4.i; A.478.y.4.i; A.479.y.4.i; A.480.y.4.i;
A.481.y.4.i; A.482.y.4.i; A.483.y.4.i; A.484.y.4.i; A.485.y.4.i;
A.486.y.4.i; A.487.y.4.i; A.488.y.4.i; A.489.y.4.i; A.490.y.4.i;
A.491.y.4.i; A.492.y.4.i; A.493.y.4.i; A.494.y.4.i; A.495.y.4.i;
A.496.y.4.i; A.497.y.4.i; A.498.y.4.i; A.499.y.4.i; A.500.y.4.i;
A.501.y.4.i; A.502.y.4.i; A.503.y.4.i; A.504.y.4.i; A.505.y.4.i;
A.506.y.4.i; A.507.y.4.i; A.508.y.4.i; A.509.y.4.i; A.510.y.4.i;
A.511.y.4.i; A.512.y.4.i; A.512.y.4.i; A.513.y.4.i; A.514.y.4.i;
A.515.y.4.i; A.516.y.4.i; A.517.y.4.i; A.518.y.4.i; A.519.y.4.i;
A.520.y.4.i; A.521.y.4.i; A.522.y.4.i; A.523.y.4.i; A.524.y.4.i;
A.525.y.4.i; A.526.y.4.i; A.527.y.4.i; A.528.y.4.i; A.529.y.4.i;
A.530.y.4.i; A.531.y.4.i; A.532.y.4.i; A.533.y.4.i; A.534.y.4.i;
A.535.y.4.i; A.536.y.4.i; A.537.y.4.i; A.538.y.4.i; A.539.y.4.i;
A.540.y.4.i; A.541.y.4.i; A.542.y.4.i; A.543.y.4.i; A.544.y.4.i;
A.545.y.4.i; A.546.y.4.i; A.547.y.4.i; A.548.y.4.i; A.549.y.4.i;
A.550.y.4.i; A.551.y.4.i; A.552.y.4.i; A.553.y.4.i; A.554.y.4.i;
A.555.y.4.i; A.556.y.4.i; A.557.y.4.i; A.558.y.4.i; A.559.y.4.i;
A.560.y.4.i; A.561.y.4.i; A.562.y.4.i; A.563.y.4.i; A.564.y.4.i;
A.565.y.4.i; A.566.y.4.i; A.567.y.4.i; A.568.y.4.i; A.569.y.4.i;
A.570.y.4.i; A.571.y.4.i; A.572.y.4.i; A.573.y.4.i; A.574.y.4.i;
A.575.y.4.i; A.576.y.4.i; A.577.y.4.i; A.578.y.4.i; A.579.y.4.i;
A.580.y.4.i; A.581.y.4.i; A.582.y.4.i; A.583.y.4.i; A.584.y.4.i;
A.585.y.4.i; A.586.y.4.i; A.587.y.4.i; A.588.y.4.i; A.589.y.4.i;
A.590.y.4.i; A.591.y.4.i; A.592.y.4.i; A.593.y.4.i; A.594.y.4.i;
A.595.y.4.i; A.596.y.4.i; A.597.y.4.i; A.598.y.4.i; A.599.y.4.i;
A.600.y.4.i; A.601.y.4.i; A.602.y.4.i; A.603.y.4.i; A.604.y.4.i;
A.605.y.4.i; A.606.y.4.i; A.607.y.4.i; A.608.y.4.i; A.609.y.4.i;
A.610.y.4.i; A.611.y.4.i; A.612.y.4.i; A.613.y.4.i; A.614.y.4.i;
A.615.y.4.i; A.616.y.4.i; A.617.y.4.i; A.618.y.4.i; A.619.y.4.i;
A.620.y.4.i; A.621.y.4.i; A.622.y.4.i; A.623.y.4.i; A.624.y.4.i;
A.625.y.4.i; A.626.y.4.i; A.627.y.4.i; A.628.y.4.i; A.629.y.4.i;
A.630.y.4.i; A.631.y.4.i; A.632.y.4.i; A.633.y.4.i; A.634.y.4.i;
A.635.y.4.i; A.636.y.4.i; A.637.y.4.i; A.638.y.4.i; A.639.y.4.i;
A.640.y.4.i; A.641.y.4.i; A.642.y.4.i; A.643.y.4.i; A.644.y.4.i;
A.645.y.4.i; A.646.y.4.i; A.647.y.4.i; A.648.y.4.i; A.649.y.4.i;
A.650.y.4.i; A.651.y.4.i; A.652.y.4.i; A.653.y.4.i; A.654.y.4.i;
A.655.y.4.i; A.656.y.4.i; A.657.y.4.i; A.658.y.4.i; A.659.y.4.i;
A.660.y.4.i; A.2.y.11.i; A.3.y.11.i; A.4.y.11.i; A.5.y.11.i;
A.6.y.11.i; A.7.y.11.i; A.9.y.11.i; A.10.y.11.i; A.15.y.11.i;
A.100.y.11.i; A.101.y.11.i; A.102.y.11.i; A.103.y.11.i;
A.104.y.11.i; A.105.y.11.i; A.106.y.11.i; A.107.y.11.i;
A.108.y.11.i; A.109.y.11.i; A.110.y.11.i; A.111.y.11.i;
A.112.y.11.i; A.113.y.11.i; A.114.y.11.i; A.115.y.11.i;
A.116.y.11.i; A.117.y.11.i; A.118.y.11.i; A.119.y.11.i;
A.120.y.11.i; A.121.y.11.i; A.122.y.11.i; A.123.y.11.i;
A.124.y.11.i; A.125.y.11.i; A.126.y.11.i; A.127.y.11.i;
A.128.y.11.i; A.129.y.11.i; A.130.y.11.i; A.131.y.11.i;
A.132.y.11.i; A.133.y.11.i; A.134.y.11.i; A.135.y.11.i;
A.136.y.11.i; A.137.y.11.i; A.138.y.11.i; A.139.y.11.i;
A.140.y.11.i; A.141.y.11.i; A.142.y.11.i; A.143.y.11.i;
A.144.y.11.i; A.145.y.11.i; A.146.y.11.i; A.147.y.11.i;
A.148.y.11.i; A.149.y.11.i; A.150.y.11.i; A.151.y.11.i;
A.152.y.11.i; A.153.y.11.i; A.154.y.11.i; A.155.y.11.i;
A.156.y.11.i; A.157.y.11.i; A.158.y.11.i; A.159.y.11.i;
A.160.y.11.i; A.161.y.11.i; A.162.y.11.i; A.163.y.11.i;
A.164.y.11.i; A.165.y.11.i; A.166.y.11.i; A.167.y.11.i;
A.168.y.11.i; A.169.y.11.i; A.170.y.11.i; A.171.y.11.i;
A.172.y.11.i; A.173.y.11.i; A.174.y.11.i; A.175.y.11.i;
A.176.y.11.i; A.177.y.11.i; A.178.y.11.i; A.179.y.11.i;
A.180.y.11.i; A.181.y.11.i; A.182.y.11.i; A.183.y.11.i;
A.184.y.11.i; A.185.y.11.i; A.186.y.11.i; A.187.y.11.i;
A.188.y.11.i; A.189.y.11.i; A.190.y.11.i; A.191.y.11.i;
A.192.y.11.i; A.193.y.11.i; A.194.y.11.i; A.195.y.11.i;
A.196.y.11.i; A.197.y.11.i; A.198.y.11.i; A.199.y.11.i;
A.200.y.11.i; A.201.y.11.i; A.202.y.11.i; A.203.y.11.i;
A.204.y.11.i; A.205.y.11.i; A.206.y.11.i; A.207.y.11.i;
A.208.y.11.i; A.209.y.11.i; A.210.y.11.i; A.211.y.11.i;
A.212.y.11.i; A.213.y.11.i; A.214.y.11.i; A.215.y.11.i;
A.216.y.11.i; A.217.y.11.i; A.218.y.11.i; A.219.y.11.i;
A.220.y.11.i; A.221.y.11.i; A.222.y.11.i; A.223.y.11.i;
A.224.y.11.i; A.225.y.11.i; A.226.y.11.i; A.227.y.11.i;
A.228.y.11.i; A.229.y.11.i; A.230.y.11.i; A.231.y.11.i;
A.232.y.11.i; A.233.y.11.i; A.234.y.11.i; A.235.y.11.i;
A.236.y.11.i; A.237.y.11.i; A.238.y.11.i; A.239.y.11.i;
A.240.y.11.i; A.241.y.11.i; A.242.y.11.i; A.243.y.11.i;
A.244.y.11.i; A.245.y.11.i; A.246.y.11.i; A.247.y.11.i;
A.248.y.11.i; A.249.y.11.i; A.250.y.11.i; A.251.y.11.i;
A.252.y.11.i; A.253.y.11.i; A.254.y.11.i; A.255.y.11.i;
A.256.y.11.i; A.257.y.11.i; A.258.y.11.i; A.259.y.11.i;
A.260.y.11.i; A.261.y.11.i; A.262.y.11.i; A.263.y.11.i;
A.264.y.11.i; A.265.y.11.i; A.266.y.11.i; A.267.y.11.i;
A.268.y.11.i; A.269.y.11.i; A.270.y.11.i; A.271.y.11.i;
A.272.y.11.i; A.273.y.11.i; A.274.y.11.i; A.275.y.11.i;
A.276.y.11.i; A.277.y.11.i; A.278.y.11.i; A.279.y.11.i;
A.280.y.11.i; A.281.y.11.i; A.282.y.11.i; A.283.y.11.i;
A.284.y.11.i; A.285.y.11.i; A.286.y.11.i; A.287.y.11.i;
A.288.y.11.i; A.289.y.11.i; A.290.y.11.i; A.291.y.11.i;
A.292.y.11.i; A.293.y.11.i; A.294.y.11.i; A.295.y.11.i;
A.296.y.11.i; A.297.y.11.i; A.298.y.11.i; A.299.y.11.i;
A.300.y.11.i; A.301.y.11.i; A.302.y.11.i; A.303.y.11.i;
A.304.y.11.i; A.305.y.11.i; A.306.y.11.i; A.307.y.11.i;
A.308.y.11.i; A.309.y.11.i; A.310.y.11.i; A.311.y.11.i;
A.312.y.11.i; A.313.y.11.i; A.314.y.11.i; A.315.y.11.i;
A.316.y.11.i; A.317.y.11.i; A.318.y.11.i; A.319.y.11.i;
A.320.y.11.i; A.321.y.11.i; A.323.y.11.i; A.324.y.11.i;
A.325.y.11.i; A.326.y.11.i; A.327.y.11.i; A.328.y.11.i;
A.329.y.11.i; A.330.y.11.i; A.331.y.11.i; A.332.y.11.i;
A.333.y.11.i; A.334.y.11.i; A.335.y.11.i; A.336.y.11.i;
A.337.y.11.i; A.338.y.11.i; A.339.y.11.i; A.340.y.11.i;
A.341.y.11.i; A.342.y.11.i; A.343.y.11.i; A.344.y.11.i;
A.345.y.11.i; A.346.y.11.i; A.347.y.11.i; A.348.y.11.i;
A.349.y.11.i; A.350.y.11.i; A.351.y.11.i; A.352.y.11.i;
A.353.y.11.i; A.354.y.11.i; A.355.y.11.i; A.356.y.11.i;
A.357.y.11.i; A.358.y.11.i; A.359.y.11.i; A.360.y.11.i;
A.361.y.11.i; A.362.y.11.i; A.363.y.11.i; A.364.y.11.i;
A.365.y.11.i; A.366.y.11.i; A.367.y.11.i; A.368.y.11.i;
A.369.y.11.i; A.370.y.11.i; A.371.y.11.i; A.372.y.11.i;
A.373.y.11.i; A.374.y.11.i; A.375.y.11.i; A.376.y.11.i;
A.377.y.11.i; A.378.y.11.i; A.379.y.11.i; A.380.y.11.i;
A.381.y.11.i; A.382.y.11.i; A.383.y.11.i; A.384.y.11.i;
A.385.y.11.i; A.386.y.11.i; A.387.y.11.i; A.388.y.11.i;
A.389.y.11.i; A.390.y.11.i; A.391.y.11.i; A.392.y.11.i;
A.393.y.11.i; A.394.y.11.i; A.395.y.11.i; A.396.y.11.i;
A.397.y.11.i; A.398.y.11.i; A.399.y.11.i; A.400.y.11.i;
A.401.y.11.i; A.402.y.11.i; A.403.y.11.i; A.404.y.11.i;
A.405.y.11.i; A.406.y.11.i; A.407.y.11.i; A.408.y.11.i;
A.409.y.11.i; A.410.y.11.i; A.411.y.11.i; A.412.y.11.i;
A.413.y.11.i; A.414.y.11.i; A.415.y.11.i; A.416.y.11.i;
A.417.y.11.i; A.418.y.11.i; A.419.y.11.i; A.420.y.11.i;
A.421.y.11.i; A.422.y.11.i; A.423.y.11.i; A.424.y.11.i;
A.425.y.11.i; A.426.y.11.i; A.427.y.11.i; A.428.y.11.i;
A.429.y.11.i; A.430.y.11.i; A.431.y.11.i; A.432.y.11.i;
A.433.y.11.i; A.434.y.11.i; A.435.y.11.i; A.436.y.11.i;
A.437.y.11.i; A.438.y.11.i; A.439.y.11.i; A.440.y.11.i;
A.441.y.11.i; A.442.y.11.i; A.443.y.11.i; A.444.y.11.i;
A.445.y.11.i; A.446.y.11.i; A.447.y.11.i; A.448.y.11.i;
A.449.y.11.i; A.450.y.11.i; A.451.y.11.i; A.452.y.11.i;
A.453.y.11.i; A.454.y.11.i; A.455.y.11.i; A.456.y.11.i;
A.457.y.11.i; A.458.y.11.i; A.459.y.11.i; A.460.y.11.i;
A.461.y.11.i; A.462.y.11.i; A.463.y.11.i; A.464.y.11.i;
A.465.y.11.i; A.466.y.11.i; A.467.y.11.i; A.468.y.11.i;
A.469.y.11.i; A.470.y.11.i; A.471.y.11.i; A.472.y.11.i;
A.473.y.11.i; A.474.y.11.i; A.475.y.11.i; A.476.y.11.i;
A.477.y.11.i; A.478.y.11.i; A.479.y.11.i; A.480.y.11.i;
A.481.y.11.i; A.482.y.11.i; A.483.y.11.i; A.484.y.11.i;
A.485.y.11.i; A.486.y.11.i; A.487.y.11.i; A.488.y.11.i;
A.489.y.11.i; A.490.y.11.i; A.491.y.11.i; A.492.y.11.i;
A.493.y.11.i; A.494.y.11.i; A.495.y.11.i; A.496.y.11.i;
A.497.y.11.i; A.498.y.11.i; A.499.y.11.i; A.500.y.11.i;
A.501.y.11.i; A.502.y.11.i; A.503.y.11.i; A.504.y.11.i;
A.505.y.11.i; A.506.y.11.i; A.507.y.11.i; A.508.y.11.i;
A.509.y.11.i; A.510.y.11.i; A.511.y.11.i; A.512.y.11.i;
A.512.y.11.i; A.513.y.11.i; A.514.y.11.i; A.515.y.11.i;
A.516.y.11.i; A.517.y.11.i; A.518.y.11.i; A.519.y.11.i;
A.520.y.11.i; A.521.y.11.i; A.522.y.11.i; A.523.y.11.i;
A.524.y.11.i; A.525.y.11.i; A.526.y.11.i; A.527.y.11.i;
A.528.y.11.i; A.529.y.11.i; A.530.y.11.i; A.531.y.11.i;
A.532.y.11.i; A.533.y.11.i; A.534.y.11.i; A.535.y.11.i;
A.536.y.11.i; A.537.y.11.i; A.538.y.11.i; A.539.y.11.i;
A.540.y.11.i; A.541.y.11.i; A.542.y.11.i; A.543.y.11.i;
A.544.y.11.i; A.545.y.11.i; A.546.y.11.i; A.547.y.11.i;
A.548.y.11.i; A.549.y.11.i; A.550.y.11.i; A.551.y.11.i;
A.552.y.11.i; A.553.y.11.i; A.554.y.11.i; A.555.y.11.i;
A.556.y.11.i; A.557.y.11.i; A.558.y.11.i; A.559.y.11.i;
A.560.y.11.i; A.561.y.11.i; A.562.y.11.i; A.563.y.11.i;
A.564.y.11.i; A.565.y.11.i; A.566.y.11.i; A.567.y.11.i;
A.568.y.11.i; A.569.y.11.i; A.570.y.11.i; A.571.y.11.i;
A.572.y.11.i; A.573.y.11.i; A.574.y.11.i; A.575.y.11.i;
A.576.y.11.i; A.577.y.11.i; A.578.y.11.i; A.579.y.11.i;
A.580.y.11.i; A.581.y.11.i; A.582.y.11.i; A.583.y.11.i;
A.584.y.11.i; A.585.y.11.i; A.586.y.11.i; A.587.y.11.i;
A.588.y.11.i; A.589.y.11.i; A.590.y.11.i; A.591.y.11.i;
A.592.y.11.i; A.593.y.11.i; A.594.y.11.i; A.595.y.11.i;
A.596.y.11.i; A.597.y.11.i; A.598.y.11.i; A.599.y.11.i;
A.600.y.11.i; A.601.y.11.i; A.602.y.11.i; A.603.y.11.i;
A.604.y.11.i; A.605.y.11.i; A.606.y.11.i; A.607.y.11.i;
A.608.y.11.i; A.609.y.11.i; A.610.y.11.i; A.611.y.11.i;
A.612.y.11.i; A.613.y.11.i; A.614.y.11.i; A.615.y.11.i;
A.616.y.11.i; A.617.y.11.i; A.618.y.11.i; A.619.y.11.i;
A.620.y.11.i; A.621.y.11.i; A.622.y.11.i; A.623.y.11.i;
A.624.y.11.i; A.625.y.11.i; A.626.y.11.i; A.627.y.11.i;
A.628.y.11.i; A.629.y.11.i; A.630.y.11.i; A.631.y.11.i;
A.632.y.11.i; A.633.y.11.i; A.634.y.11.i; A.635.y.11.i;
A.636.y.11.i; A.637.y.11.i; A.638.y.11.i; A.639.y.11.i;
A.640.y.11.i; A.641.y.11.i; A.642.y.11.i; A.643.y.11.i;
A.644.y.11.i; A.645.y.11.i; A.646.y.11.i; A.647.y.11.i;
A.648.y.11.i; A.649.y.11.i; A.650.y.11.i; A.651.y.11.i;
A.652.y.11.i; A.653.y.11.i; A.654.y.11.i; A.655.y.11.i;
A.656.y.11.i; A.657.y.11.i; A.658.y.11.i; A.659.y.11.i;
A.660.y.11.i; A.2.z.4.i; A.3.z.4.i; A.4.z.4.i; A.5.z.4.i;
A.6.z.4.i; A.7.z.4.i; A.9.z.4.i; A.10.z.4.i; A.15.z.4.i;
A.100.z.4.i; A.101.z.4.i; A.102.z.4.i; A.103.z.4.i; A.104.z.4.i;
A.105.z.4.i; A.106.z.4.i; A.107.z.4.i; A.108.z.4.i; A.109.z.4.i;
A.110.z.4.i; A.111.z.4.i; A.112.z.4.i; A.113.z.4.i; A.114.z.4.i;
A.115.z.4.i; A.116.z.4.i; A.117.z.4.i; A.118.z.4.i; A.119.z.4.i;
A.120.z.4.i; A.121.z.4.i; A.122.z.4.i; A.123.z.4.i; A.124.z.4.i;
A.125.z.4.i; A.126.z.4.i; A.127.z.4.i; A.128.z.4.i; A.129.z.4.i;
A.130.z.4.i; A.131.z.4.i; A.132.z.4.i; A.133.z.4.i; A.134.z.4.i;
A.135.z.4.i; A.136.z.4.i; A.137.z.4.i; A.138.z.4.i; A.139.z.4.i;
A.140.z.4.i; A.141.z.4.i; A.142.z.4.i; A.143.z.4.i; A.144.z.4.i;
A.145.z.4.i; A.146.z.4.i; A.147.z.4.i; A.148.z.4.i; A.149.z.4.i;
A.150.z.4.i; A.151.z.4.i; A.152.z.4.i; A.153.z.4.i; A.154.z.4.i;
A.155.z.4.i; A.156.z.4.i; A.157.z.4.i; A.158.z.4.i; A.159.z.4.i;
A.160.z.4.i; A.161.z.4.i; A.162.z.4.i; A.163.z.4.i; A.164.z.4.i;
A.165.z.4.i; A.166.z.4.i; A.167.z.4.i; A.168.z.4.i; A.169.z.4.i;
A.170.z.4.i; A.171.z.4.i; A.172.z.4.i; A.173.z.4.i; A.174.z.4.i;
A.175.z.4.i; A.176.z.4.i; A.177.z.4.i; A.178.z.4.i; A.179.z.4.i;
A.180.z.4.i; A.181.z.4.i; A.182.z.4.i; A.183.z.4.i; A.184.z.4.i;
A.185.z.4.i; A.186.z.4.i; A.187.z.4.i; A.188.z.4.i; A.189.z.4.i;
A.190.z.4.i; A.191.z.4.i; A.192.z.4.i; A.193.z.4.i; A.194.z.4.i;
A.195.z.4.i; A.196.z.4.i; A.197.z.4.i; A.198.z.4.i; A.199.z.4.i;
A.200.z.4.i; A.201.z.4.i; A.202.z.4.i; A.203.z.4.i; A.204.z.4.i;
A.205.z.4.i; A.206.z.4.i; A.207.z.4.i; A.208.z.4.i; A.209.z.4.i;
A.210.z.4.i; A.211.z.4.i; A.212.z.4.i; A.213.z.4.i; A.214.z.4.i;
A.215.z.4.i; A.216.z.4.i; A.217.z.4.i; A.218.z.4.i; A.219.z.4.i;
A.220.z.4.i; A.221.z.4.i; A.222.z.4.i; A.223.z.4.i; A.224.z.4.i;
A.225.z.4.i; A.226.z.4.i; A.227.z.4.i; A.228.z.4.i; A.229.z.4.i;
A.230.z.4.i; A.231.z.4.i; A.232.z.4.i; A.233.z.4.i; A.234.z.4.i;
A.235.z.4.i; A.236.z.4.i; A.237.z.4.i; A.238.z.4.i; A.239.z.4.i;
A.240.z.4.i; A.241.z.4.i; A.242.z.4.i; A.243.z.4.i; A.244.z.4.i;
A.245.z.4.i; A.246.z.4.i; A.247.z.4.i; A.248.z.4.i; A.249.z.4.i;
A.250.z.4.i; A.251.z.4.i; A.252.z.4.i; A.253.z.4.i; A.254.z.4.i;
A.255.z.4.i; A.256.z.4.i; A.257.z.4.i; A.258.z.4.i; A.259.z.4.i;
A.260.z.4.i; A.261.z.4.i; A.262.z.4.i; A.263.z.4.i; A.264.z.4.i;
A.265.z.4.i; A.266.z.4.i; A.267.z.4.i; A.268.z.4.i; A.269.z.4.i;
A.270.z.4.i; A.271.z.4.i; A.272.z.4.i; A.273.z.4.i; A.274.z.4.i;
A.275.z.4.i; A.276.z.4.i; A.277.z.4.i; A.278.z.4.i; A.279.z.4.i;
A.280.z.4.i; A.281.z.4.i; A.282.z.4.i; A.283.z.4.i; A.284.z.4.i;
A.285.z.4.i; A.286.z.4.i; A.287.z.4.i; A.288.z.4.i; A.289.z.4.i;
A.290.z.4.i; A.291.z.4.i; A.292.z.4.i; A.293.z.4.i; A.294.z.4.i;
A.295.z.4.i; A.296.z.4.i; A.297.z.4.i; A.298.z.4.i; A.299.z.4.i;
A.300.z.4.i; A.301.z.4.i; A.302.z.4.i; A.303.z.4.i; A.304.z.4.i;
A.305.z.4.i; A.306.z.4.i; A.307.z.4.i; A.308.z.4.i; A.309.z.4.i;
A.310.z.4.i; A.311.z.4.i; A.312.z.4.i; A.313.z.4.i; A.314.z.4.i;
A.315.z.4.i; A.316.z.4.i; A.317.z.4.i; A.318.z.4.i; A.319.z.4.i;
A.320.z.4.i; A.321.z.4.i; A.323.z.4.i; A.324.z.4.i; A.325.z.4.i;
A.326.z.4.i; A.327.z.4.i; A.328.z.4.i; A.329.z.4.i; A.330.z.4.i;
A.331.z.4.i; A.332.z.4.i; A.333.z.4.i; A.334.z.4.i; A.335.z.4.i;
A.336.z.4.i; A.337.z.4.i; A.338.z.4.i; A.339.z.4.i; A.340.z.4.i;
A.341.z.4.i; A.342.z.4.i; A.343.z.4.i; A.344.z.4.i; A.345.z.4.i;
A.346.z.4.i; A.347.z.4.i; A.348.z.4.i; A.349.z.4.i; A.350.z.4.i;
A.351.z.4.i; A.352.z.4.i; A.353.z.4.i; A.354.z.4.i; A.355.z.4.i;
A.356.z.4.i; A.357.z.4.i; A.358.z.4.i; A.359.z.4.i; A.360.z.4.i;
A.361.z.4.i; A.362.z.4.i; A.363.z.4.i; A.364.z.4.i; A.365.z.4.i;
A.366.z.4.i; A.367.z.4.i; A.368.z.4.i; A.369.z.4.i; A.370.z.4.i;
A.371.z.4.i; A.372.z.4.i; A.373.z.4.i; A.374.z.4.i; A.375.z.4.i;
A.376.z.4.i; A.377.z.4.i; A.378.z.4.i; A.379.z.4.i; A.380.z.4.i;
A.381.z.4.i; A.382.z.4.i; A.383.z.4.i; A.384.z.4.i; A.385.z.4.i;
A.386.z.4.i; A.387.z.4.i; A.388.z.4.i; A.389.z.4.i; A.390.z.4.i;
A.391.z.4.i; A.392.z.4.i; A.393.z.4.i; A.394.z.4.i; A.395.z.4.i;
A.396.z.4.i; A.397.z.4.i; A.398.z.4.i; A.399.z.4.i; A.400.z.4.i;
A.401.z.4.i; A.402.z.4.i; A.403.z.4.i; A.404.z.4.i; A.405.z.4.i;
A.406.z.4.i; A.407.z.4.i; A.408.z.4.i; A.409.z.4.i; A.410.z.4.i;
A.411.z.4.i; A.412.z.4.i; A.413.z.4.i; A.414.z.4.i; A.415.z.4.i;
A.416.z.4.i; A.417.z.4.i; A.418.z.4.i; A.419.z.4.i; A.420.z.4.i;
A.421.z.4.i; A.422.z.4.i; A.423.z.4.i; A.424.z.4.i; A.425.z.4.i;
A.426.z.4.i; A.427.z.4.i; A.428.z.4.i; A.429.z.4.i; A.430.z.4.i;
A.431.z.4.i; A.432.z.4.i; A.433.z.4.i; A.434.z.4.i; A.435.z.4.i;
A.436.z.4.i; A.437.z.4.i; A.438.z.4.i; A.439.z.4.i; A.440.z.4.i;
A.441.z.4.i; A.442.z.4.i; A.443.z.4.i; A.444.z.4.i; A.445.z.4.i;
A.446.z.4.i; A.447.z.4.i; A.448.z.4.i; A.449.z.4.i; A.450.z.4.i;
A.451.z.4.i; A.452.z.4.i; A.453.z.4.i; A.454.z.4.i; A.455.z.4.i;
A.456.z.4.i; A.457.z.4.i; A.458.z.4.i; A.459.z.4.i; A.460.z.4.i;
A.461.z.4.i; A.462.z.4.i; A.463.z.4.i; A.464.z.4.i; A.465.z.4.i;
A.466.z.4.i; A.467.z.4.i; A.468.z.4.i; A.469.z.4.i; A.470.z.4.i;
A.471.z.4.i; A.472.z.4.i; A.473.z.4.i; A.474.z.4.i; A.475.z.4.i;
A.476.z.4.i; A.477.z.4.i; A.478.z.4.i; A.479.z.4.i; A.480.z.4.i;
A.481.z.4.i; A.482.z.4.i; A.483.z.4.i; A.484.z.4.i; A.485.z.4.i;
A.486.z.4.i; A.487.z.4.i; A.488.z.4.i; A.489.z.4.i; A.490.z.4.i;
A.491.z.4.i; A.492.z.4.i; A.493.z.4.i; A.494.z.4.i; A.495.z.4.i;
A.496.z.4.i; A.497.z.4.i; A.498.z.4.i; A.499.z.4.i; A.500.z.4.i;
A.501.z.4.i; A.502.z.4.i; A.503.z.4.i; A.504.z.4.i; A.505.z.4.i;
A.506.z.4.i; A.507.z.4.i; A.508.z.4.i; A.509.z.4.i; A.510.z.4.i;
A.511.z.4.i; A.512.z.4.i; A.512.z.4.i; A.513.z.4.i; A.514.z.4.i;
A.515.z.4.i; A.516.z.4.i; A.517.z.4.i; A.518.z.4.i; A.519.z.4.i;
A.520.z.4.i; A.521.z.4.i; A.522.z.4.i; A.523.z.4.i; A.524.z.4.i;
A.525.z.4.i; A.526.z.4.i; A.527.z.4.i; A.528.z.4.i; A.529.z.4.i;
A.530.z.4.i; A.531.z.4.i; A.532.z.4.i; A.533.z.4.i; A.534.z.4.i;
A.535.z.4.i; A.536.z.4.i; A.537.z.4.i; A.538.z.4.i; A.539.z.4.i;
A.540.z.4.i; A.541.z.4.i; A.542.z.4.i; A.543.z.4.i; A.544.z.4.i;
A.545.z.4.i; A.546.z.4.i; A.547.z.4.i; A.548.z.4.i; A.549.z.4.i;
A.550.z.4.i; A.551.z.4.i; A.552.z.4.i; A.553.z.4.i; A.554.z.4.i;
A.555.z.4.i; A.556.z.4.i; A.557.z.4.i; A.558.z.4.i; A.559.z.4.i;
A.560.z.4.i; A.561.z.4.i; A.562.z.4.i; A.563.z.4.i; A.564.z.4.i;
A.565.z.4.i; A.566.z.4.i; A.567.z.4.i; A.568.z.4.i; A.569.z.4.i;
A.570.z.4.i; A.571.z.4.i; A.572.z.4.i; A.573.z.4.i; A.574.z.4.i;
A.575.z.4.i; A.576.z.4.i; A.577.z.4.i; A.578.z.4.i; A.579.z.4.i;
A.580.z.4.i; A.581.z.4.i; A.582.z.4.i; A.583.z.4.i; A.584.z.4.i;
A.585.z.4.i; A.586.z.4.i; A.587.z.4.i; A.588.z.4.i; A.589.z.4.i;
A.590.z.4.i; A.591.z.4.i; A.592.z.4.i; A.593.z.4.i; A.594.z.4.i;
A.595.z.4.i; A.596.z.4.i; A.597.z.4.i; A.598.z.4.i; A.599.z.4.i;
A.600.z.4.i; A.601.z.4.i; A.602.z.4.i; A.603.z.4.i; A.604.z.4.i;
A.605.z.4.i; A.606.z.4.i; A.607.z.4.i; A.608.z.4.i; A.609.z.4.i;
A.610.z.4.i; A.611.z.4.i; A.612.z.4.i; A.613.z.4.i; A.614.z.4.i;
A.615.z.4.i; A.616.z.4.i; A.617.z.4.i; A.618.z.4.i; A.619.z.4.i;
A.620.z.4.i; A.621.z.4.i; A.622.z.4.i; A.623.z.4.i; A.624.z.4.i;
A.625.z.4.i; A.626.z.4.i; A.627.z.4.i; A.628.z.4.i; A.629.z.4.i;
A.630.z.4.i; A.631.z.4.i; A.632.z.4.i; A.633.z.4.i; A.634.z.4.i;
A.635.z.4.i; A.636.z.4.i; A.637.z.4.i; A.638.z.4.i; A.639.z.4.i;
A.640.z.4.i; A.641.z.4.i; A.642.z.4.i; A.643.z.4.i; A.644.z.4.i;
A.645.z.4.i; A.646.z.4.i; A.647.z.4.i; A.648.z.4.i; A.649.z.4.i;
A.650.z.4.i; A.651.z.4.i; A.652.z.4.i; A.653.z.4.i; A.654.z.4.i;
A.655.z.4.i; A.656.z.4.i; A.657.z.4.i; A.658.z.4.i; A.659.z.4.i;
A.660.z.4.i; A.2.z.11.i; A.3.z.11.i; A.4.z.11.i; A.5.z.11.i;
A.6.z.11.i; A.7.z.11.i; A.9.z.11.i; A.10.z.11.i; A.15.z.11.i;
A.100.z.11.i; A.101.z.11.i; A.102.z.11.i; A.103.z.11.i;
A.104.z.11.i; A.105.z.11.i; A.106.z.11.i; A.107.z.11.i;
A.108.z.11.i; A.109.z.11.i; A.110.z.11.i; A.111.z.11.i;
A.112.z.11.i; A.113.z.11.i; A.114.z.11.i; A.115.z.11.i;
A.116.z.11.i; A.117.z.11.i; A.118.z.11.i; A.119.z.11.i;
A.120.z.11.i; A.121.z.11.i; A.122.z.11.i; A.123.z.11.i;
A.124.z.11.i; A.125.z.11.i; A.126.z.11.i; A.127.z.11.i;
A.128.z.11.i; A.129.z.11.i; A.130.z.11.i; A.131.z.11.i;
A.132.z.11.i; A.133.z.11.i; A.134.z.11.i; A.135.z.11.i;
A.136.z.11.i; A.137.z.11.i; A.138.z.11.i; A.139.z.11.i;
A.140.z.11.i; A.141.z.11.i; A.142.z.11.i; A.143.z.11.i;
A.144.z.11.i; A.145.z.11.i; A.146.z.11.i; A.147.z.11.i;
A.148.z.11.i; A.149.z.11.i; A.150.z.11.i; A.151.z.11.i;
A.152.z.11.i; A.153.z.11.i; A.154.z.11.i; A.155.z.11.i;
A.156.z.11.i; A.157.z.11.i; A.158.z.11.i; A.159.z.11.i;
A.160.z.11.i; A.161.z.11.i; A.162.z.11.i; A.163.z.11.i;
A.164.z.11.i; A.165.z.11.i; A.166.z.11.i; A.167.z.11.i;
A.168.z.11.i; A.169.z.11.i; A.170.z.11.i; A.171.z.11.i;
A.172.z.11.i; A.173.z.11.i; A.174.z.11.i; A.175.z.11.i;
A.176.z.11.i; A.177.z.11.i; A.178.z.11.i; A.179.z.11.i;
A.180.z.11.i; A.181.z.11.i; A.182.z.11.i; A.183.z.11.i;
A.184.z.11.i; A.185.z.11.i; A.186.z.11.i; A.187.z.11.i;
A.188.z.11.i; A.189.z.11.i; A.190.z.11.i; A.191.z.11.i;
A.192.z.11.i; A.193.z.11.i; A.194.z.11.i; A.195.z.11.i;
A.196.z.11.i; A.197.z.11.i; A.198.z.11.i; A.199.z.11.i;
A.200.z.11.i; A.201.z.11.i; A.202.z.11.i; A.203.z.11.i;
A.204.z.11.i; A.205.z.11.i; A.206.z.11.i; A.207.z.11.i;
A.208.z.11.i; A.209.z.11.i; A.210.z.11.i; A.211.z.11.i;
A.212.z.11.i; A.213.z.11.i; A.214.z.11.i; A.215.z.11.i;
A.216.z.11.i; A.217.z.11.i; A.218.z.11.i; A.219.z.11.i;
A.220.z.11.i; A.221.z.11.i; A.222.z.11.i; A.223.z.11.i;
A.224.z.11.i; A.225.z.11.i; A.226.z.11.i; A.227.z.11.i;
A.228.z.11.i; A.229.z.11.i; A.230.z.11.i; A.231.z.11.i;
A.232.z.11.i; A.233.z.11.i; A.234.z.11.i; A.235.z.11.i;
A.236.z.11.i; A.237.z.11.i; A.238.z.11.i; A.239.z.11.i;
A.240.z.11.i; A.241.z.11.i; A.242.z.11.i; A.243.z.11.i;
A.244.z.11.i; A.245.z.11.i; A.246.z.11.i; A.247.z.11.i;
A.248.z.11.i; A.249.z.11.i; A.250.z.11.i; A.251.z.11.i;
A.252.z.11.i; A.253.z.11.i; A.254.z.11.i; A.255.z.11.i;
A.256.z.11.i; A.257.z.11.i; A.258.z.11.i; A.259.z.11.i;
A.260.z.11.i; A.261.z.11.i; A.262.z.11.i; A.263.z.11.i;
A.264.z.11.i; A.265.z.11.i; A.266.z.11.i; A.267.z.11.i;
A.268.z.11.i; A.269.z.11.i; A.270.z.11.i; A.271.z.11.i;
A.272.z.11.i; A.273.z.11.i; A.274.z.11.i; A.275.z.11.i;
A.276.z.11.i; A.277.z.11.i; A.278.z.11.i; A.279.z.11.i;
A.280.z.11.i; A.281.z.11.i; A.282.z.11.i; A.283.z.11.i;
A.284.z.11.i; A.285.z.11.i; A.286.z.11.i; A.287.z.11.i;
A.288.z.11.i; A.289.z.11.i; A.290.z.11.i; A.291.z.11.i;
A.292.z.11.i; A.293.z.11.i; A.294.z.11.i; A.295.z.11.i;
A.296.z.11.i; A.297.z.11.i; A.298.z.11.i; A.299.z.11.i;
A.300.z.11.i; A.301.z.11.i; A.302.z.11.i; A.303.z.11.i;
A.304.z.11.i; A.305.z.11.i; A.306.z.11.i; A.307.z.11.i;
A.308.z.11.i; A.309.z.11.i; A.310.z.11.i; A.311.z.11.i;
A.312.z.11.i; A.313.z.11.i; A.314.z.11.i; A.315.z.11.i;
A.316.z.11.i; A.317.z.11.i; A.318.z.11.i; A.319.z.11.i;
A.320.z.11.i; A.321.z.11.i; A.323.z.11.i; A.324.z.11.i;
A.325.z.11.i; A.326.z.11.i; A.327.z.11.i; A.328.z.11.i;
A.329.z.11.i; A.330.z.11.i; A.331.z.11.i; A.332.z.11.i;
A.333.z.11.i; A.334.z.11.i; A.335.z.11.i; A.336.z.11.i;
A.337.z.11.i; A.338.z.11.i; A.339.z.11.i; A.340.z.11.i;
A.341.z.11.i; A.342.z.11.i; A.343.z.11.i; A.344.z.11.i;
A.345.z.11.i; A.346.z.11.i; A.347.z.11.i; A.348.z.11.i;
A.349.z.11.i; A.350.z.11.i; A.351.z.11.i; A.352.z.11.i;
A.353.z.11.i; A.354.z.11.i; A.355.z.11.i; A.356.z.11.i;
A.357.z.11.i; A.358.z.11.i; A.359.z.11.i; A.360.z.11.i;
A.361.z.11.i; A.362.z.11.i; A.363.z.11.i; A.364.z.11.i;
A.365.z.11.i; A.366.z.11.i; A.367.z.11.i; A.368.z.11.i;
A.369.z.11.i; A.370.z.11.i; A.371.z.11.i; A.372.z.11.i;
A.373.z.11.i; A.374.z.11.i; A.375.z.11.i; A.376.z.11.i;
A.377.z.11.i; A.378.z.11.i; A.379.z.11.i; A.380.z.11.i;
A.381.z.11.i; A.382.z.11.i; A.383.z.11.i; A.384.z.11.i;
A.385.z.11.i; A.386.z.11.i; A.387.z.11.i; A.388.z.11.i;
A.389.z.11.i; A.390.z.11.i; A.391.z.11.i; A.392.z.11.i;
A.393.z.11.i; A.394.z.11.i; A.395.z.11.i; A.396.z.11.i;
A.397.z.11.i; A.398.z.11.i; A.399.z.11.i; A.400.z.11.i;
A.401.z.11.i; A.402.z.11.i; A.403.z.11.i; A.404.z.11.i;
A.405.z.11.i; A.406.z.11.i; A.407.z.11.i; A.408.z.11.i;
A.409.z.11.i; A.410.z.11.i; A.411.z.11.i; A.412.z.11.i;
A.413.z.11.i; A.414.z.11.i; A.415.z.11.i; A.416.z.11.i;
A.417.z.11.i; A.418.z.11.i; A.419.z.11.i; A.420.z.11.i;
A.421.z.11.i; A.422.z.11.i; A.423.z.11.i; A.424.z.11.i;
A.425.z.11.i; A.426.z.11.i; A.427.z.11.i; A.428.z.11.i;
A.429.z.11.i; A.430.z.11.i; A.431.z.11.i; A.432.z.11.i;
A.433.z.11.i; A.434.z.11.i; A.435.z.11.i; A.436.z.11.i;
A.437.z.11.i; A.438.z.11.i; A.439.z.11.i; A.440.z.11.i;
A.441.z.11.i; A.442.z.11.i; A.443.z.11.i; A.444.z.11.i;
A.445.z.11.i; A.446.z.11.i; A.447.z.11.i; A.448.z.11.i;
A.449.z.11.i; A.450.z.11.i; A.451.z.11.i; A.452.z.11.i;
A.453.z.11.i; A.454.z.11.i; A.455.z.11.i; A.456.z.11.i;
A.457.z.11.i; A.458.z.11.i; A.459.z.11.i; A.460.z.11.i;
A.461.z.11.i; A.462.z.11.i; A.463.z.11.i; A.464.z.11.i;
A.465.z.11.i; A.466.z.11.i; A.467.z.11.i; A.468.z.11.i;
A.469.z.11.i; A.470.z.11.i; A.471.z.11.i; A.472.z.11.i;
A.473.z.11.i; A.474.z.11.i; A.475.z.11.i; A.476.z.11.i;
A.477.z.11.i; A.478.z.11.i; A.479.z.11.i; A.480.z.11.i;
A.481.z.11.i; A.482.z.11.i; A.483.z.11.i; A.484.z.11.i;
A.485.z.11.i; A.486.z.11.i; A.487.z.11.i; A.488.z.11.i;
A.489.z.11.i; A.490.z.11.i; A.491.z.11.i; A.492.z.11.i;
A.493.z.11.i; A.494.z.11.i; A.495.z.11.i; A.496.z.11.i;
A.497.z.11.i; A.498.z.11.i; A.499.z.11.i; A.500.z.11.i;
A.501.z.11.i; A.502.z.11.i; A.503.z.11.i; A.504.z.11.i;
A.505.z.11.i; A.506.z.11.i; A.507.z.11.i; A.508.z.11.i;
A.509.z.11.i; A.510.z.11.i; A.511.z.11.i; A.512.z.11.i;
A.512.z.11.i; A.513.z.11.i; A.514.z.11.i; A.515.z.11.i;
A.516.z.11.i; A.517.z.11.i; A.518.z.11.i; A.519.z.11.i;
A.520.z.11.i; A.521.z.11.i; A.522.z.11.i; A.523.z.11.i;
A.524.z.11.i; A.525.z.11.i; A.526.z.11.i; A.527.z.11.i;
A.528.z.11.i; A.529.z.11.i; A.530.z.11.i; A.531.z.11.i;
A.532.z.11.i; A.533.z.11.i; A.534.z.11.i; A.535.z.11.i;
A.536.z.11.i; A.537.z.11.i; A.538.z.11.i; A.539.z.11.i;
A.540.z.11.i; A.541.z.11.i; A.542.z.11.i; A.543.z.11.i;
A.544.z.11.i; A.545.z.11.i; A.546.z.11.i; A.547.z.11.i;
A.548.z.11.i; A.549.z.11.i; A.550.z.11.i; A.551.z.11.i;
A.552.z.11.i; A.553.z.11.i; A.554.z.11.i; A.555.z.11.i;
A.556.z.11.i; A.557.z.11.i; A.558.z.11.i; A.559.z.11.i;
A.560.z.11.i; A.561.z.11.i; A.562.z.11.i; A.563.z.11.i;
A.564.z.11.i; A.565.z.11.i; A.566.z.11.i; A.567.z.11.i;
A.568.z.11.i; A.569.z.11.i; A.570.z.11.i; A.571.z.11.i;
A.572.z.11.i; A.573.z.11.i; A.574.z.11.i; A.575.z.11.i;
A.576.z.11.i; A.577.z.11.i; A.578.z.11.i; A.579.z.11.i;
A.580.z.11.i; A.581.z.11.i; A.582.z.11.i; A.583.z.11.i;
A.584.z.11.i; A.585.z.11.i; A.586.z.11.i; A.587.z.11.i;
A.588.z.11.i; A.589.z.11.i; A.590.z.11.i; A.591.z.11.i;
A.592.z.11.i; A.593.z.11.i; A.594.z.11.i; A.595.z.11.i;
A.596.z.11.i; A.597.z.11.i; A.598.z.11.i; A.599.z.11.i;
A.600.z.11.i; A.601.z.11.i; A.602.z.11.i; A.603.z.11.i;
A.604.z.11.i; A.605.z.11.i; A.606.z.11.i; A.607.z.11.i;
A.608.z.11.i; A.609.z.11.i; A.610.z.11.i; A.611.z.11.i;
A.612.z.11.i; A.613.z.11.i; A.614.z.11.i; A.615.z.11.i;
A.616.z.11.i; A.617.z.11.i; A.618.z.11.i; A.619.z.11.i;
A.620.z.11.i; A.621.z.11.i; A.622.z.11.i; A.623.z.11.i;
A.624.z.11.i; A.625.z.11.i; A.626.z.11.i; A.627.z.11.i;
A.628.z.11.i; A.629.z.11.i; A.630.z.11.i; A.631.z.11.i;
A.632.z.11.i; A.633.z.11.i; A.634.z.11.i; A.635.z.11.i;
A.636.z.11.i; A.637.z.11.i; A.638.z.11.i; A.639.z.11.i;
A.640.z.11.i; A.641.z.11.i; A.642.z.11.i; A.643.z.11.i;
A.644.z.11.i; A.645.z.11.i; A.646.z.11.i; A.647.z.11.i;
A.648.z.11.i; A.649.z.11.i; A.650.z.11.i; A.651.z.11.i;
A.652.z.11.i; A.653.z.11.i; A.654.z.11.i; A.655.z.11.i;
A.656.z.11.i; A.657.z.11.i; A.658.z.11.i; A.659.z.11.i;
A.660.z.11.i; A.2.A.4.i; A.3.A.4.i; A.4.A.4.i; A.5.A.4.i;
A.6.A.4.i; A.7.A.4.i; A.9.A.4.i; A.10.A.4.i; A.15.A.4.i;
A.100.A.4.i; A.101.A.4.i; A.102.A.4.i; A.103.A.4.i; A.104.A.4.i;
A.105.A.4.i; A.106.A.4.i; A.107.A.4.i; A.108.A.4.i; A.109.A.4.i;
A.110.A.4.i; A.111.A.4.i; A.112.A.4.i; A.113.A.4.i; A.114.A.4.i;
A.115.A.4.i; A.116.A.4.i; A.117.A.4.i; A.118.A.4.i; A.119.A.4.i;
A.120.A.4.i; A.121.A.4.i; A.122.A.4.i; A.123.A.4.i; A.124.A.4.i;
A.125.A.4.i; A.126.A.4.i; A.127.A.4.i; A.128.A.4.i; A.129.A.4.i;
A.130.A.4.i; A.131.A.4.i; A.132.A.4.i; A.133.A.4.i; A.134.A.4.i;
A.135.A.4.i; A.136.A.4.i; A.137.A.4.i; A.138.A.4.i; A.139.A.4.i;
A.140.A.4.i; A.141.A.4.i; A.142.A.4.i; A.143.A.4.i; A.144.A.4.i;
A.145.A.4.i; A.146.A.4.i; A.147.A.4.i; A.148.A.4.i; A.149.A.4.i;
A.150.A.4.i; A.151.A.4.i; A.152.A.4.i; A.153.A.4.i; A.154.A.4.i;
A.155.A.4.i; A.156.A.4.i; A.157.A.4.i; A.158.A.4.i; A.159.A.4.i;
A.160.A.4.i; A.161.A.4.i; A.162.A.4.i; A.163.A.4.i; A.164.A.4.i;
A.165.A.4.i; A.166.A.4.i; A.167.A.4.i; A.168.A.4.i; A.169.A.4.i;
A.170.A.4.i; A.171.A.4.i; A.172.A.4.i; A.173.A.4.i; A.174.A.4.i;
A.175.A.4.i; A.176.A.4.i; A.177.A.4.i; A.178.A.4.i; A.179.A.4.i;
A.180.A.4.i; A.181.A.4.i; A.182.A.4.i; A.183.A.4.i; A.184.A.4.i;
A.185.A.4.i; A.186.A.4.i; A.187.A.4.i; A.188.A.4.i; A.189.A.4.i;
A.190.A.4.i; A.191.A.4.i; A.192.A.4.i; A.193.A.4.i; A.194.A.4.i;
A.195.A.4.i; A.196.A.4.i; A.197.A.4.i; A.198.A.4.i; A.199.A.4.i;
A.200.A.4.i; A.201.A.4.i; A.202.A.4.i; A.203.A.4.i; A.204.A.4.i;
A.205.A.4.i; A.206.A.4.i; A.207.A.4.i; A.208.A.4.i; A.209.A.4.i;
A.210.A.4.i; A.211.A.4.i; A.212.A.4.i; A.213.A.4.i; A.214.A.4.i;
A.215.A.4.i; A.216.A.4.i; A.217.A.4.i; A.218.A.4.i; A.219.A.4.i;
A.220.A.4.i; A.221.A.4.i; A.222.A.4.i; A.223.A.4.i; A.224.A.4.i;
A.225.A.4.i; A.226.A.4.i; A.227.A.4.i; A.228.A.4.i; A.229.A.4.i;
A.230.A.4.i; A.231.A.4.i; A.232.A.4.i; A.233.A.4.i; A.234.A.4.i;
A.235.A.4.i; A.236.A.4.i; A.237.A.4.i; A.238.A.4.i; A.239.A.4.i;
A.240.A.4.i; A.241.A.4.i; A.242.A.4.i; A.243.A.4.i; A.244.A.4.i;
A.245.A.4.i; A.246.A.4.i; A.247.A.4.i; A.248.A.4.i; A.249.A.4.i;
A.250.A.4.i; A.251.A.4.i; A.252.A.4.i; A.253.A.4.i; A.254.A.4.i;
A.255.A.4.i; A.256.A.4.i; A.257.A.4.i; A.258.A.4.i; A.259.A.4.i;
A.260.A.4.i; A.261.A.4.i; A.262.A.4.i; A.263.A.4.i; A.264.A.4.i;
A.265.A.4.i; A.266.A.4.i; A.267.A.4.i; A.268.A.4.i; A.269.A.4.i;
A.270.A.4.i; A.271.A.4.i; A.272.A.4.i; A.273.A.4.i; A.274.A.4.i;
A.275.A.4.i; A.276.A.4.i; A.277.A.4.i; A.278.A.4.i; A.279.A.4.i;
A.280.A.4.i; A.281.A.4.i; A.282.A.4.i; A.283.A.4.i; A.284.A.4.i;
A.285.A.4.i; A.286.A.4.i; A.287.A.4.i; A.288.A.4.i; A.289.A.4.i;
A.290.A.4.i; A.291.A.4.i; A.292.A.4.i; A.293.A.4.i; A.294.A.4.i;
A.295.A.4.i; A.296.A.4.i; A.297.A.4.i; A.298.A.4.i; A.299.A.4.i;
A.300.A.4.i; A.301.A.4.i; A.302.A.4.i; A.303.A.4.i; A.304.A.4.i;
A.305.A.4.i; A.306.A.4.i; A.307.A.4.i; A.308.A.4.i; A.309.A.4.i;
A.310.A.4.i; A.311.A.4.i; A.312.A.4.i; A.313.A.4.i; A.314.A.4.i;
A.315.A.4.i; A.316.A.4.i; A.317.A.4.i; A.318.A.4.i; A.319.A.4.i;
A.320.A.4.i; A.321.A.4.i; A.323.A.4.i; A.324.A.4.i; A.325.A.4.i;
A.326.A.4.i; A.327.A.4.i; A.328.A.4.i; A.329.A.4.i; A.330.A.4.i;
A.331.A.4.i; A.332.A.4.i; A.333.A.4.i; A.334.A.4.i; A.335.A.4.i;
A.336.A.4.i; A.337.A.4.i; A.338.A.4.i; A.339.A.4.i; A.340.A.4.i;
A.341.A.4.i; A.342.A.4.i; A.343.A.4.i; A.344.A.4.i; A.345.A.4.i;
A.346.A.4.i; A.347.A.4.i; A.348.A.4.i; A.349.A.4.i; A.350.A.4.i;
A.351.A.4.i; A.352.A.4.i; A.353.A.4.i; A.354.A.4.i; A.355.A.4.i;
A.356.A.4.i; A.357.A.4.i; A.358.A.4.i; A.359.A.4.i; A.360.A.4.i;
A.361.A.4.i; A.362.A.4.i; A.363.A.4.i; A.364.A.4.i; A.365.A.4.i;
A.366.A.4.i; A.367.A.4.i; A.368.A.4.i; A.369.A.4.i; A.370.A.4.i;
A.371.A.4.i; A.372.A.4.i; A.373.A.4.i; A.374.A.4.i; A.375.A.4.i;
A.376.A.4.i; A.377.A.4.i; A.378.A.4.i; A.379.A.4.i; A.380.A.4.i;
A.381.A.4.i; A.382.A.4.i; A.383.A.4.i; A.384.A.4.i; A.385.A.4.i;
A.386.A.4.i; A.387.A.4.i; A.388.A.4.i; A.389.A.4.i; A.390.A.4.i;
A.391.A.4.i; A.392.A.4.i; A.393.A.4.i; A.394.A.4.i; A.395.A.4.i;
A.396.A.4.i; A.397.A.4.i; A.398.A.4.i; A.399.A.4.i; A.400.A.4.i;
A.401.A.4.i; A.402.A.4.i; A.403.A.4.i; A.404.A.4.i; A.405.A.4.i;
A.406.A.4.i; A.407.A.4.i; A.408.A.4.i; A.409.A.4.i; A.410.A.4.i;
A.411.A.4.i; A.412.A.4.i; A.413.A.4.i; A.414.A.4.i; A.415.A.4.i;
A.416.A.4.i; A.417.A.4.i; A.418.A.4.i; A.419.A.4.i; A.420.A.4.i;
A.421.A.4.i; A.422.A.4.i; A.423.A.4.i; A.424.A.4.i; A.425.A.4.i;
A.426.A.4.i; A.427.A.4.i; A.428.A.4.i; A.429.A.4.i; A.430.A.4.i;
A.431.A.4.i; A.432.A.4.i; A.433.A.4.i; A.434.A.4.i; A.435.A.4.i;
A.436.A.4.i; A.437.A.4.i; A.438.A.4.i; A.439.A.4.i; A.440.A.4.i;
A.441.A.4.i; A.442.A.4.i; A.443.A.4.i; A.444.A.4.i; A.445.A.4.i;
A.446.A.4.i; A.447.A.4.i; A.448.A.4.i; A.449.A.4.i; A.450.A.4.i;
A.451.A.4.i; A.452.A.4.i; A.453.A.4.i; A.454.A.4.i; A.455.A.4.i;
A.456.A.4.i; A.457.A.4.i; A.458.A.4.i; A.459.A.4.i; A.460.A.4.i;
A.461.A.4.i; A.462.A.4.i; A.463.A.4.i; A.464.A.4.i; A.465.A.4.i;
A.466.A.4.i; A.467.A.4.i; A.468.A.4.i; A.469.A.4.i; A.470.A.4.i;
A.471.A.4.i; A.472.A.4.i; A.473.A.4.i; A.474.A.4.i; A.475.A.4.i;
A.476.A.4.i; A.477.A.4.i; A.478.A.4.i; A.479.A.4.i; A.480.A.4.i;
A.481.A.4.i; A.482.A.4.i; A.483.A.4.i; A.484.A.4.i; A.485.A.4.i;
A.486.A.4.i; A.487.A.4.i; A.488.A.4.i; A.489.A.4.i; A.490.A.4.i;
A.491.A.4.i; A.492.A.4.i; A.493.A.4.i; A.494.A.4.i; A.495.A.4.i;
A.496.A.4.i; A.497.A.4.i; A.498.A.4.i; A.499.A.4.i; A.500.A.4.i;
A.501.A.4.i; A.502.A.4.i; A.503.A.4.i; A.504.A.4.i; A.505.A.4.i;
A.506.A.4.i; A.507.A.4.i; A.508.A.4.i; A.509.A.4.i; A.510.A.4.i;
A.511.A.4.i; A.512.A.4.i; A.512.A.4.i; A.513.A.4.i; A.514.A.4.i;
A.515.A.4.i; A.516.A.4.i; A.517.A.4.i; A.518.A.4.i; A.519.A.4.i;
A.520.A.4.i; A.521.A.4.i; A.522.A.4.i; A.523.A.4.i; A.524.A.4.i;
A.525.A.4.i; A.526.A.4.i; A.527.A.4.i; A.528.A.4.i; A.529.A.4.i;
A.530.A.4.i; A.531.A.4.i; A.532.A.4.i; A.533.A.4.i; A.534.A.4.i;
A.535.A.4.i; A.536.A.4.i; A.537.A.4.i; A.538.A.4.i; A.539.A.4.i;
A.540.A.4.i; A.541.A.4.i; A.542.A.4.i; A.543.A.4.i; A.544.A.4.i;
A.545.A.4.i; A.546.A.4.i; A.547.A.4.i; A.548.A.4.i; A.549.A.4.i;
A.550.A.4.i; A.551.A.4.i; A.552.A.4.i; A.553.A.4.i; A.554.A.4.i;
A.555.A.4.i; A.556.A.4.i; A.557.A.4.i; A.558.A.4.i; A.559.A.4.i;
A.560.A.4.i; A.561.A.4.i; A.562.A.4.i; A.563.A.4.i; A.564.A.4.i;
A.565.A.4.i; A.566.A.4.i; A.567.A.4.i; A.568.A.4.i; A.569.A.4.i;
A.570.A.4.i; A.571.A.4.i; A.572.A.4.i; A.573.A.4.i; A.574.A.4.i;
A.575.A.4.i; A.576.A.4.i; A.577.A.4.i; A.578.A.4.i; A.579.A.4.i;
A.580.A.4.i; A.581.A.4.i; A.582.A.4.i; A.583.A.4.i; A.584.A.4.i;
A.585.A.4.i; A.586.A.4.i; A.587.A.4.i; A.588.A.4.i; A.589.A.4.i;
A.590.A.4.i; A.591.A.4.i; A.592.A.4.i; A.593.A.4.i; A.594.A.4.i;
A.595.A.4.i; A.596.A.4.i; A.597.A.4.i; A.598.A.4.i; A.599.A.4.i;
A.600.A.4.i; A.601.A.4.i; A.602.A.4.i; A.603.A.4.i; A.604.A.4.i;
A.605.A.4.i; A.606.A.4.i; A.607.A.4.i; A.608.A.4.i; A.609.A.4.i;
A.610.A.4.i; A.611.A.4.i; A.612.A.4.i; A.613.A.4.i; A.614.A.4.i;
A.615.A.4.i; A.616.A.4.i; A.617.A.4.i; A.618.A.4.i; A.619.A.4.i;
A.620.A.4.i; A.621.A.4.i; A.622.A.4.i; A.623.A.4.i; A.624.A.4.i;
A.625.A.4.i; A.626.A.4.i; A.627.A.4.i; A.628.A.4.i; A.629.A.4.i;
A.630.A.4.i; A.631.A.4.i; A.632.A.4.i; A.633.A.4.i; A.634.A.4.i;
A.635.A.4.i; A.636.A.4.i; A.637.A.4.i; A.638.A.4.i; A.639.A.4.i;
A.640.A.4.i; A.641.A.4.i; A.642.A.4.i; A.643.A.4.i; A.644.A.4.i;
A.645.A.4.i; A.646.A.4.i; A.647.A.4.i; A.648.A.4.i; A.649.A.4.i;
A.650.A.4.i; A.651.A.4.i; A.652.A.4.i; A.653.A.4.i; A.654.A.4.i;
A.655.A.4.i; A.656.A.4.i; A.657.A.4.i; A.658.A.4.i; A.659.A.4.i;
A.660.A.4.i; A.2.A.11.i; A.3.A.11.i; A.4.A.11.i; A.5.A.11.i;
A.6.A.11.i; A.7.A.11.i; A.9.A.11.i; A.10.A.11.i; A.15.A.11.i;
A.100.A.11.i; A.101.A.11.i; A.102.A.11.i; A.103.A.11.i;
A.104.A.11.i; A.105.A.11.i; A.106.A.11.i; A.107.A.11.i;
A.108.A.11.i; A.109.A.11.i; A.110.A.11.i; A.111.A.11.i;
A.112.A.11.i; A.113.A.11.i; A.114.A.11.i; A.115.A.11.i;
A.116.A.11.i; A.117.A.11.i; A.118.A.11.i; A.119.A.11.i;
A.120.A.11.i; A.121.A.11.i; A.122.A.11.i; A.123.A.11.i;
A.124.A.11.i; A.125.A.11.i; A.126.A.11.i; A.127.A.11.i;
A.128.A.11.i; A.129.A.11.i; A.130.A.11.i; A.131.A.11.i;
A.132.A.11.i; A.133.A.11.i; A.134.A.11.i; A.135.A.11.i;
A.136.A.11.i; A.137.A.11.i; A.138.A.11.i; A.139.A.11.i;
A.140.A.11.i; A.141.A.11.i; A.142.A.11.i; A.143.A.11.i;
A.144.A.11.i; A.145.A.11.i; A.146.A.11.i; A.147.A.11.i;
A.148.A.11.i; A.149.A.11.i; A.150.A.11.i; A.151.A.11.i;
A.152.A.11.i; A.153.A.11.i; A.154.A.11.i; A.155.A.11.i;
A.156.A.11.i; A.157.A.11.i; A.158.A.11.i; A.159.A.11.i;
A.160.A.11.i; A.161.A.11.i; A.162.A.11.i; A.163.A.11.i;
A.164.A.11.i; A.165.A.11.i; A.166.A.11.i; A.167.A.11.i;
A.168.A.11.i; A.169.A.11.i; A.170.A.11.i; A.171.A.11.i;
A.172.A.11.i; A.173.A.11.i; A.174.A.11.i; A.175.A.11.i;
A.176.A.11.i; A.177.A.11.i; A.178.A.11.i; A.179.A.11.i;
A.180.A.11.i; A.181.A.11.i; A.182.A.11.i; A.183.A.11.i;
A.184.A.11.i; A.185.A.11.i; A.186.A.11.i; A.187.A.11.i;
A.188.A.11.i; A.189.A.11.i; A.190.A.11.i; A.191.A.11.i;
A.192.A.11.i; A.193.A.11.i; A.194.A.11.i; A.195.A.11.i;
A.196.A.11.i; A.197.A.11.i; A.198.A.11.i; A.199.A.11.i;
A.200.A.11.i; A.201.A.11.i; A.202.A.11.i; A.203.A.11.i;
A.204.A.11.i; A.205.A.11.i; A.206.A.11.i; A.207.A.11.i;
A.208.A.11.i; A.209.A.11.i; A.210.A.11.i; A.211.A.11.i;
A.212.A.11.i; A.213.A.11.i; A.214.A.11.i; A.215.A.11.i;
A.216.A.11.i; A.217.A.11.i; A.218.A.11.i; A.219.A.11.i;
A.220.A.11.i; A.221.A.11.i; A.222.A.11.i; A.223.A.11.i;
A.224.A.11.i; A.225.A.11.i; A.226.A.11.i; A.227.A.11.i;
A.228.A.11.i; A.229.A.11.i; A.230.A.11.i; A.231.A.11.i;
A.232.A.11.i; A.233.A.11.i; A.234.A.11.i; A.235.A.11.i;
A.236.A.11.i; A.237.A.11.i; A.238.A.11.i; A.239.A.11.i;
A.240.A.11.i; A.241.A.11.i; A.242.A.11.i; A.243.A.11.i;
A.244.A.11.i; A.245.A.11.i; A.246.A.11.i; A.247.A.11.i;
A.248.A.11.i; A.249.A.11.i; A.250.A.11.i; A.251.A.11.i;
A.252.A.11.i; A.253.A.11.i; A.254.A.11.i; A.255.A.11.i;
A.256.A.11.i; A.257.A.11.i; A.258.A.11.i; A.259.A.11.i;
A.260.A.11.i; A.261.A.11.i; A.262.A.11.i; A.263.A.11.i;
A.264.A.11.i; A.265.A.11.i; A.266.A.11.i; A.267.A.11.i;
A.268.A.11.i; A.269.A.11.i; A.270.A.11.i; A.271.A.11.i;
A.272.A.11.i; A.273.A.11.i; A.274.A.11.i; A.275.A.11.i;
A.276.A.11.i; A.277.A.11.i; A.278.A.11.i; A.279.A.11.i;
A.280.A.11.i; A.281.A.11.i; A.282.A.11.i; A.283.A.11.i;
A.284.A.11.i; A.285.A.11.i; A.286.A.11.i; A.287.A.11.i;
A.288.A.11.i; A.289.A.11.i; A.290.A.11.i; A.291.A.11.i;
A.292.A.11.i; A.293.A.11.i; A.294.A.11.i; A.295.A.11.i;
A.296.A.11.i; A.297.A.11.i; A.298.A.11.i; A.299.A.11.i;
A.300.A.11.i; A.301.A.11.i; A.302.A.11.i; A.303.A.11.i;
A.304.A.11.i; A.305.A.11.i; A.306.A.11.i; A.307.A.11.i;
A.308.A.11.i; A.309.A.11.i; A.310.A.11.i; A.311.A.11.i;
A.312.A.11.i; A.313.A.11.i; A.314.A.11.i; A.315.A.11.i;
A.316.A.11.i; A.317.A.11.i; A.318.A.11.i; A.319.A.11.i;
A.320.A.11.i; A.321.A.11.i; A.323.A.11.i; A.324.A.11.i;
A.325.A.11.i; A.326.A.11.i; A.327.A.11.i; A.328.A.11.i;
A.329.A.11.i; A.330.A.11.i; A.331.A.11.i; A.332.A.11.i;
A.333.A.11.i; A.334.A.11.i; A.335.A.11.i; A.336.A.11.i;
A.337.A.11.i; A.338.A.11.i; A.339.A.11.i; A.340.A.11.i;
A.341.A.11.i; A.342.A.11.i; A.343.A.11.i; A.344.A.11.i;
A.345.A.11.i; A.346.A.11.i; A.347.A.11.i; A.348.A.11.i;
A.349.A.11.i; A.350.A.11.i; A.351.A.11.i; A.352.A.11.i;
A.353.A.11.i; A.354.A.11.i; A.355.A.11.i; A.356.A.11.i;
A.357.A.11.i; A.358.A.11.i; A.359.A.11.i; A.360.A.11.i;
A.361.A.11.i; A.362.A.11.i; A.363.A.11.i; A.364.A.11.i;
A.365.A.11.i; A.366.A.11.i; A.367.A.11.i; A.368.A.11.i;
A.369.A.11.i; A.370.A.11.i; A.371.A.11.i; A.372.A.11.i;
A.373.A.11.i; A.374.A.11.i; A.375.A.11.i; A.376.A.11.i;
A.377.A.11.i; A.378.A.11.i; A.379.A.11.i; A.380.A.11.i;
A.381.A.11.i; A.382.A.11.i; A.383.A.11.i; A.384.A.11.i;
A.385.A.11.i; A.386.A.11.i; A.387.A.11.i; A.388.A.11.i;
A.389.A.11.i; A.390.A.11.i; A.391.A.11.i; A.392.A.11.i;
A.393.A.11.i; A.394.A.11.i; A.395.A.11.i; A.396.A.11.i;
A.397.A.11.i; A.398.A.11.i; A.399.A.11.i; A.400.A.11.i;
A.401.A.11.i; A.402.A.11.i; A.403.A.11.i; A.404.A.11.i;
A.405.A.11.i; A.406.A.11.i; A.407.A.11.i; A.408.A.11.i;
A.409.A.11.i; A.410.A.11.i; A.411.A.11.i; A.412.A.11.i;
A.413.A.11.i; A.414.A.11.i; A.415.A.11.i; A.416.A.11.i;
A.417.A.11.i; A.418.A.11.i; A.419.A.11.i; A.420.A.11.i;
A.421.A.11.i; A.422.A.11.i; A.423.A.11.i; A.424.A.11.i;
A.425.A.11.i; A.426.A.11.i; A.427.A.11.i; A.428.A.11.i;
A.429.A.11.i; A.430.A.11.i; A.431.A.11.i; A.432.A.11.i;
A.433.A.11.i; A.434.A.11.i; A.435.A.11.i; A.436.A.11.i;
A.437.A.11.i; A.438.A.11.i; A.439.A.11.i; A.440.A.11.i;
A.441.A.11.i; A.442.A.11.i; A.443.A.11.i; A.444.A.11.i;
A.445.A.11.i; A.446.A.11.i; A.447.A.11.i; A.448.A.11.i;
A.449.A.11.i; A.450.A.11.i; A.451.A.11.i; A.452.A.11.i;
A.453.A.11.i; A.454.A.11.i; A.455.A.11.i; A.456.A.11.i;
A.457.A.11.i; A.458.A.11.i; A.459.A.11.i; A.460.A.11.i;
A.461.A.11.i; A.462.A.11.i; A.463.A.11.i; A.464.A.11.i;
A.465.A.11.i; A.466.A.11.i; A.467.A.11.i; A.468.A.11.i;
A.469.A.11.i;
A.470.A.11.i; A.471.A.11.i; A.472.A.11.i; A.473.A.11.i;
A.474.A.11.i; A.475.A.11.i; A.476.A.11.i; A.477.A.11.i;
A.478.A.11.i; A.479.A.11.i; A.480.A.11.i; A.481.A.11.i;
A.482.A.11.i; A.483.A.11.i; A.484.A.11.i; A.485.A.11.i;
A.486.A.11.i; A.487.A.11.i; A.488.A.11.i; A.489.A.11.i;
A.490.A.11.i; A.491.A.11.i; A.492.A.11.i; A.493.A.11.i;
A.494.A.11.i; A.495.A.11.i; A.496.A.11.i; A.497.A.11.i;
A.498.A.11.i; A.499.A.11.i; A.500.A.11.i; A.501.A.11.i;
A.502.A.11.i; A.503.A.11.i; A.504.A.11.i; A.505.A.11.i;
A.506.A.11.i; A.507.A.11.i; A.508.A.11.i; A.509.A.11.i;
A.510.A.11.i; A.511.A.11.i; A.512.A.11.i; A.512.A.11.i;
A.513.A.11.i; A.514.A.11.i; A.515.A.11.i; A.516.A.11.i;
A.517.A.11.i; A.518.A.11.i; A.519.A.11.i; A.520.A.11.i;
A.521.A.11.i; A.522.A.11.i; A.523.A.11.i; A.524.A.11.i;
A.525.A.11.i; A.526.A.11.i; A.527.A.11.i; A.528.A.11.i;
A.529.A.11.i; A.530.A.11.i; A.531.A.11.i; A.532.A.11.i;
A.533.A.11.i; A.534.A.11.i; A.535.A.11.i; A.536.A.11.i;
A.537.A.11.i; A.538.A.11.i; A.539.A.11.i; A.540.A.11.i;
A.541.A.11.i; A.542.A.11.i; A.543.A.11.i; A.544.A.11.i;
A.545.A.11.i; A.546.A.11.i; A.547.A.11.i; A.548.A.11.i;
A.549.A.11.i; A.550.A.11.i; A.551.A.11.i; A.552.A.11.i;
A.553.A.11.i; A.554.A.11.i; A.555.A.11.i; A.556.A.11.i;
A.557.A.11.i; A.558.A.11.i; A.559.A.11.i; A.560.A.11.i;
A.561.A.11.i; A.562.A.11.i; A.563.A.11.i; A.564.A.11.i;
A.565.A.11.i; A.566.A.11.i; A.567.A.11.i; A.568.A.11.i;
A.569.A.11.i; A.570.A.11.i; A.571.A.11.i; A.572.A.11.i;
A.573.A.11.i; A.574.A.11.i; A.575.A.11.i; A.576.A.11.i;
A.577.A.11.i; A.578.A.11.i; A.579.A.11.i; A.580.A.11.i;
A.581.A.11.i; A.582.A.11.i; A.583.A.11.i; A.584.A.11.i;
A.585.A.11.i; A.586.A.11.i; A.587.A.11.i; A.588.A.11.i;
A.589.A.11.i; A.590.A.11.i; A.591.A.11.i; A.592.A.11.i;
A.593.A.11.i; A.594.A.11.i; A.595.A.11.i; A.596.A.11.i;
A.597.A.11.i; A.598.A.11.i; A.599.A.11.i; A.600.A.11.i;
A.601.A.11.i; A.602.A.11.i; A.603.A.11.i; A.604.A.11.i;
A.605.A.11.i; A.606.A.11.i; A.607.A.11.i; A.608.A.11.i;
A.609.A.11.i; A.610.A.11.i; A.611.A.11.i; A.612.A.11.i;
A.613.A.11.i; A.614.A.11.i; A.615.A.11.i; A.616.A.11.i;
A.617.A.11.i; A.618.A.11.i; A.619.A.11.i; A.620.A.11.i;
A.621.A.11.i; A.622.A.11.i; A.623.A.11.i; A.624.A.11.i;
A.625.A.11.i; A.626.A.11.i; A.627.A.11.i; A.628.A.11.i;
A.629.A.11.i; A.630.A.11.i; A.631.A.11.i; A.632.A.11.i;
A.633.A.11.i; A.634.A.11.i; A.635.A.11.i; A.636.A.11.i;
A.637.A.11.i; A.638.A.11.i; A.639.A.11.i; A.640.A.11.i;
A.641.A.11.i; A.642.A.11.i; A.643.A.11.i; A.644.A.11.i;
A.645.A.11.i; A.646.A.11.i; A.647.A.11.i; A.648.A.11.i;
A.649.A.11.i; A.650.A.11.i; A.651.A.11.i; A.652.A.11.i;
A.653.A.11.i; A.654.A.11.i; A.655.A.11.i; A.656.A.11.i;
A.657.A.11.i; A.658.A.11.i; A.659.A.11.i; A.660.A.11.i; A.2.B.4.i;
A.3.B.4.i; A.4.B.4.i; A.5.B.4.i; A.6.B.4.i; A.7.B.4.i; A.9.B.4.i;
A.10.B.4.i; A.15.B.4.i; A.100.B.4.i; A.101.B.4.i; A.102.B.4.i;
A.103.B.4.i; A.104.B.4.i; A.105.B.4.i; A.106.B.4.i; A.107.B.4.i;
A.108.B.4.i; A.109.B.4.i; A.110.B.4.i; A.111.B.4.i; A.112.B.4.i;
A.113.B.4.i; A.114.B.4.i; A.115.B.4.i; A.116.B.4.i; A.117.B.4.i;
A.118.B.4.i; A.119.B.4.i; A.120.B.4.i; A.121.B.4.i; A.122.B.4.i;
A.123.B.4.i; A.124.B.4.i; A.125.B.4.i; A.126.B.4.i; A.127.B.4.i;
A.128.B.4.i; A.129.B.4.i; A.130.B.4.i; A.131.B.4.i; A.132.B.4.i;
A.133.B.4.i; A.134.B.4.i; A.135.B.4.i; A.136.B.4.i; A.137.B.4.i;
A.138.B.4.i; A.139.B.4.i; A.140.B.4.i; A.141.B.4.i; A.142.B.4.i;
A.143.B.4.i; A.144.B.4.i; A.145.B.4.i; A.146.B.4.i; A.147.B.4.i;
A.148.B.4.i; A.149.B.4.i; A.150.B.4.i; A.151.B.4.i; A.152.B.4.i;
A.153.B.4.i; A.154.B.4.i; A.155.B.4.i; A.156.B.4.i; A.157.B.4.i;
A.158.B.4.i; A.159.B.4.i; A.160.B.4.i; A.161.B.4.i; A.162.B.4.i;
A.163.B.4.i; A.164.B.4.i; A.165.B.4.i; A.166.B.4.i; A.167.B.4.i;
A.168.B.4.i; A.169.B.4.i; A.170.B.4.i; A.171.B.4.i; A.172.B.4.i;
A.173.B.4.i; A.174.B.4.i; A.175.B.4.i; A.176.B.4.i; A.177.B.4.i;
A.178.B.4.i; A.179.B.4.i; A.180.B.4.i; A.181.B.4.i; A.182.B.4.i;
A.183.B.4.i; A.184.B.4.i; A.185.B.4.i; A.186.B.4.i; A.187.B.4.i;
A.188.B.4.i; A.189.B.4.i; A.190.B.4.i; A.191.B.4.i; A.192.B.4.i;
A.193.B.4.i; A.194.B.4.i; A.195.B.4.i; A.196.B.4.i; A.197.B.4.i;
A.198.B.4.i; A.199.B.4.i; A.200.B.4.i; A.201.B.4.i; A.202.B.4.i;
A.203.B.4.i; A.204.B.4.i; A.205.B.4.i; A.206.B.4.i; A.207.B.4.i;
A.208.B.4.i; A.209.B.4.i; A.210.B.4.i; A.211.B.4.i; A.212.B.4.i;
A.213.B.4.i; A.214.B.4.i; A.215.B.4.i; A.216.B.4.i; A.217.B.4.i;
A.218.B.4.i; A.219.B.4.i; A.220.B.4.i; A.221.B.4.i; A.222.B.4.i;
A.223.B.4.i; A.224.B.4.i; A.225.B.4.i; A.226.B.4.i; A.227.B.4.i;
A.228.B.4.i; A.229.B.4.i; A.230.B.4.i; A.231.B.4.i; A.232.B.4.i;
A.233.B.4.i; A.234.B.4.i; A.235.B.4.i; A.236.B.4.i; A.237.B.4.i;
A.238.B.4.i; A.239.B.4.i; A.240.B.4.i; A.241.B.4.i; A.242.B.4.i;
A.243.B.4.i; A.244.B.4.i; A.245.B.4.i; A.246.B.4.i; A.247.B.4.i;
A.248.B.4.i; A.249.B.4.i; A.250.B.4.i; A.251.B.4.i; A.252.B.4.i;
A.253.B.4.i; A.254.B.4.i; A.255.B.4.i; A.256.B.4.i; A.257.B.4.i;
A.258.B.4.i; A.259.B.4.i; A.260.B.4.i; A.261.B.4.i; A.262.B.4.i;
A.263.B.4.i; A.264.B.4.i; A.265.B.4.i; A.266.B.4.i; A.267.B.4.i;
A.268.B.4.i; A.269.B.4.i; A.270.B.4.i; A.271.B.4.i; A.272.B.4.i;
A.273.B.4.i; A.274.B.4.i; A.275.B.4.i; A.276.B.4.i; A.277.B.4.i;
A.278.B.4.i; A.279.B.4.i; A.280.B.4.i; A.281.B.4.i; A.282.B.4.i;
A.283.B.4.i; A.284.B.4.i; A.285.B.4.i; A.286.B.4.i; A.287.B.4.i;
A.288.B.4.i; A.289.B.4.i; A.290.B.4.i; A.291.B.4.i; A.292.B.4.i;
A.293.B.4.i; A.294.B.4.i; A.295.B.4.i; A.296.B.4.i; A.297.B.4.i;
A.298.B.4.i; A.299.B.4.i; A.300.B.4.i; A.301.B.4.i; A.302.B.4.i;
A.303.B.4.i; A.304.B.4.i; A.305.B.4.i; A.306.B.4.i; A.307.B.4.i;
A.308.B.4.i; A.309.B.4.i; A.310.B.4.i; A.311.B.4.i; A.312.B.4.i;
A.313.B.4.i; A.314.B.4.i; A.315.B.4.i; A.316.B.4.i; A.317.B.4.i;
A.318.B.4.i; A.319.B.4.i; A.320.B.4.i; A.321.B.4.i; A.323.B.4.i;
A.324.B.4.i; A.325.B.4.i; A.326.B.4.i; A.327.B.4.i; A.328.B.4.i;
A.329.B.4.i; A.330.B.4.i; A.331.B.4.i; A.332.B.4.i; A.333.B.4.i;
A.334.B.4.i; A.335.B.4.i; A.336.B.4.i; A.337.B.4.i; A.338.B.4.i;
A.339.B.4.i; A.340.B.4.i; A.341.B.4.i; A.342.B.4.i; A.343.B.4.i;
A.344.B.4.i; A.345.B.4.i; A.346.B.4.i; A.347.B.4.i; A.348.B.4.i;
A.349.B.4.i; A.350.B.4.i; A.351.B.4.i; A.352.B.4.i; A.353.B.4.i;
A.354.B.4.i; A.355.B.4.i; A.356.B.4.i; A.357.B.4.i; A.358.B.4.i;
A.359.B.4.i; A.360.B.4.i; A.361.B.4.i; A.362.B.4.i; A.363.B.4.i;
A.364.B.4.i; A.365.B.4.i; A.366.B.4.i; A.367.B.4.i; A.368.B.4.i;
A.369.B.4.i; A.370.B.4.i; A.371.B.4.i; A.372.B.4.i; A.373.B.4.i;
A.374.B.4.i; A.375.B.4.i; A.376.B.4.i; A.377.B.4.i; A.378.B.4.i;
A.379.B.4.i; A.380.B.4.i; A.381.B.4.i; A.382.B.4.i; A.383.B.4.i;
A.384.B.4.i; A.385.B.4.i; A.386.B.4.i; A.387.B.4.i; A.388.B.4.i;
A.389.B.4.i; A.390.B.4.i; A.391.B.4.i; A.392.B.4.i; A.393.B.4.i;
A.394.B.4.i; A.395.B.4.i; A.396.B.4.i; A.397.B.4.i; A.398.B.4.i;
A.399.B.4.i; A.400.B.4.i; A.401.B.4.i; A.402.B.4.i; A.403.B.4.i;
A.404.B.4.i; A.405.B.4.i; A.406.B.4.i; A.407.B.4.i; A.408.B.4.i;
A.409.B.4.i; A.410.B.4.i; A.411.B.4.i; A.412.B.4.i; A.413.B.4.i;
A.414.B.4.i; A.415.B.4.i; A.416.B.4.i; A.417.B.4.i; A.418.B.4.i;
A.419.B.4.i; A.420.B.4.i; A.421.B.4.i; A.422.B.4.i; A.423.B.4.i;
A.424.B.4.i; A.425.B.4.i; A.426.B.4.i; A.427.B.4.i; A.428.B.4.i;
A.429.B.4.i; A.430.B.4.i; A.431.B.4.i; A.432.B.4.i; A.433.B.4.i;
A.434.B.4.i; A.435.B.4.i; A.436.B.4.i; A.437.B.4.i; A.438.B.4.i;
A.439.B.4.i; A.440.B.4.i; A.441.B.4.i; A.442.B.4.i; A.443.B.4.i;
A.444.B.4.i; A.445.B.4.i; A.446.B.4.i; A.447.B.4.i; A.448.B.4.i;
A.449.B.4.i; A.450.B.4.i; A.451.B.4.i; A.452.B.4.i; A.453.B.4.i;
A.454.B.4.i; A.455.B.4.i; A.456.B.4.i; A.457.B.4.i; A.458.B.4.i;
A.459.B.4.i; A.460.B.4.i; A.461.B.4.i; A.462.B.4.i; A.463.B.4.i;
A.464.B.4.i; A.465.B.4.i; A.466.B.4.i; A.467.B.4.i; A.468.B.4.i;
A.469.B.4.i; A.470.B.4.i; A.471.B.4.i; A.472.B.4.i; A.473.B.4.i;
A.474.B.4.i; A.475.B.4.i; A.476.B.4.i; A.477.B.4.i; A.478.B.4.i;
A.479.B.4.i; A.480.B.4.i; A.481.B.4.i; A.482.B.4.i; A.483.B.4.i;
A.484.B.4.i; A.485.B.4.i; A.486.B.4.i; A.487.B.4.i; A.488.B.4.i;
A.489.B.4.i; A.490.B.4.i; A.491.B.4.i; A.492.B.4.i; A.493.B.4.i;
A.494.B.4.i; A.495.B.4.i; A.496.B.4.i; A.497.B.4.i; A.498.B.4.i;
A.499.B.4.i; A.500.B.4.i; A.501.B.4.i; A.502.B.4.i; A.503.B.4.i;
A.504.B.4.i; A.505.B.4.i; A.506.B.4.i; A.507.B.4.i; A.508.B.4.i;
A.509.B.4.i; A.510.B.4.i; A.511.B.4.i; A.512.B.4.i; A.512.B.4.i;
A.513.B.4.i; A.514.B.4.i; A.515.B.4.i; A.516.B.4.i; A.517.B.4.i;
A.518.B.4.i; A.519.B.4.i; A.520.B.4.i; A.521.B.4.i; A.522.B.4.i;
A.523.B.4.i; A.524.B.4.i; A.525.B.4.i; A.526.B.4.i; A.527.B.4.i;
A.528.B.4.i; A.529.B.4.i; A.530.B.4.i; A.531.B.4.i; A.532.B.4.i;
A.533.B.4.i; A.534.B.4.i; A.535.B.4.i; A.536.B.4.i; A.537.B.4.i;
A.538.B.4.i; A.539.B.4.i; A.540.B.4.i; A.541.B.4.i; A.542.B.4.i;
A.543.B.4.i; A.544.B.4.i; A.545.B.4.i; A.546.B.4.i; A.547.B.4.i;
A.548.B.4.i; A.549.B.4.i; A.550.B.4.i; A.551.B.4.i; A.552.B.4.i;
A.553.B.4.i; A.554.B.4.i; A.555.B.4.i; A.556.B.4.i; A.557.B.4.i;
A.558.B.4.i; A.559.B.4.i; A.560.B.4.i; A.561.B.4.i; A.562.B.4.i;
A.563.B.4.i; A.564.B.4.i; A.565.B.4.i; A.566.B.4.i; A.567.B.4.i;
A.568.B.4.i; A.569.B.4.i; A.570.B.4.i; A.571.B.4.i; A.572.B.4.i;
A.573.B.4.i; A.574.B.4.i; A.575.B.4.i; A.576.B.4.i; A.577.B.4.i;
A.578.B.4.i; A.579.B.4.i; A.580.B.4.i; A.581.B.4.i; A.582.B.4.i;
A.583.B.4.i; A.584.B.4.i; A.585.B.4.i; A.586.B.4.i; A.587.B.4.i;
A.588.B.4.i; A.589.B.4.i; A.590.B.4.i; A.591.B.4.i; A.592.B.4.i;
A.593.B.4.i; A.594.B.4.i; A.595.B.4.i; A.596.B.4.i; A.597.B.4.i;
A.598.B.4.i; A.599.B.4.i; A.600.B.4.i; A.601.B.4.i; A.602.B.4.i;
A.603.B.4.i; A.604.B.4.i; A.605.B.4.i; A.606.B.4.i; A.607.B.4.i;
A.608.B.4.i; A.609.B.4.i; A.610.B.4.i; A.611.B.4.i; A.612.B.4.i;
A.613.B.4.i; A.614.B.4.i; A.615.B.4.i; A.616.B.4.i; A.617.B.4.i;
A.618.B.4.i; A.619.B.4.i; A.620.B.4.i; A.621.B.4.i; A.622.B.4.i;
A.623.B.4.i; A.624.B.4.i; A.625.B.4.i; A.626.B.4.i; A.627.B.4.i;
A.628.B.4.i; A.629.B.4.i; A.630.B.4.i; A.631.B.4.i; A.632.B.4.i;
A.633.B.4.i; A.634.B.4.i; A.635.B.4.i; A.636.B.4.i; A.637.B.4.i;
A.638.B.4.i; A.639.B.4.i; A.640.B.4.i; A.641.B.4.i; A.642.B.4.i;
A.643.B.4.i; A.644.B.4.i; A.645.B.4.i; A.646.B.4.i; A.647.B.4.i;
A.648.B.4.i; A.649.B.4.i; A.650.B.4.i; A.651.B.4.i; A.652.B.4.i;
A.653.B.4.i; A.654.B.4.i; A.655.B.4.i; A.656.B.4.i; A.657.B.4.i;
A.658.B.4.i; A.659.B.4.i; A.660.B.4.i; A.2.B.11.i; A.3.B.11.i;
A.4.B.11.i; A.5.B.11.i; A.6.B.11.i; A.7.B.11.i; A.9.B.11.i;
A.10.B.11.i; A.15.B.11.i; A.100.B.11.i; A.101.B.11.i; A.102.B.11.i;
A.103.B.11.i; A.104.B.11.i; A.105.B.11.i; A.106.B.11.i;
A.107.B.11.i; A.108.B.11.i; A.109.B.11.i; A.110.B.11.i;
A.111.B.11.i; A.112.B.11.i; A.113.B.11.i; A.114.B.11.i;
A.115.B.11.i; A.116.B.11.i; A.117.B.11.i; A.118.B.11.i;
A.119.B.11.i; A.120.B.11.i; A.121.B.11.i; A.122.B.11.i;
A.123.B.11.i; A.124.B.11.i; A.125.B.11.i; A.126.B.11.i;
A.127.B.11.i; A.128.B.11.i; A.129.B.11.i; A.130.B.11.i;
A.131.B.11.i; A.132.B.11.i; A.133.B.11.i; A.134.B.11.i;
A.135.B.11.i; A.136.B.11.i; A.137.B.11.i; A.138.B.11.i;
A.139.B.11.i; A.140.B.11.i; A.141.B.11.i; A.142.B.11.i;
A.143.B.11.i; A.144.B.11.i; A.145.B.11.i; A.146.B.11.i;
A.147.B.11.i; A.148.B.11.i; A.149.B.11.i; A.150.B.11.i;
A.151.B.11.i; A.152.B.11.i; A.153.B.11.i; A.154.B.11.i;
A.155.B.11.i; A.156.B.11.i; A.157.B.11.i; A.158.B.11.i;
A.159.B.11.i; A.160.B.11.i; A.161.B.11.i; A.162.B.11.i;
A.163.B.11.i; A.164.B.11.i; A.165.B.11.i; A.166.B.11.i;
A.167.B.11.i; A.168.B.11.i; A.169.B.11.i; A.170.B.11.i;
A.171.B.11.i; A.172.B.11.i; A.173.B.11.i; A.174.B.11.i;
A.175.B.11.i; A.176.B.11.i; A.177.B.11.i; A.178.B.11.i;
A.179.B.11.i; A.180.B.11.i; A.181.B.11.i; A.182.B.11.i;
A.183.B.11.i; A.184.B.11.i; A.185.B.11.i; A.186.B.11.i;
A.187.B.11.i; A.188.B.11.i; A.189.B.11.i; A.190.B.11.i;
A.191.B.11.i; A.192.B.11.i; A.193.B.11.i; A.194.B.11.i;
A.195.B.11.i; A.196.B.11.i; A.197.B.11.i; A.198.B.11.i;
A.199.B.11.i; A.200.B.11.i; A.201.B.11.i; A.202.B.11.i;
A.203.B.11.i; A.204.B.11.i; A.205.B.11.i; A.206.B.11.i;
A.207.B.11.i; A.208.B.11.i; A.209.B.11.i; A.210.B.11.i;
A.211.B.11.i; A.212.B.11.i; A.213.B.11.i; A.214.B.11.i;
A.215.B.11.i; A.216.B.11.i; A.217.B.11.i; A.218.B.11.i;
A.219.B.11.i; A.220.B.11.i; A.221.B.11.i; A.222.B.11.i;
A.223.B.11.i; A.224.B.11.i; A.225.B.11.i; A.226.B.11.i;
A.227.B.11.i; A.228.B.11.i; A.229.B.11.i; A.230.B.11.i;
A.231.B.11.i; A.232.B.11.i; A.233.B.11.i; A.234.B.11.i;
A.235.B.11.i; A.236.B.11.i; A.237.B.11.i; A.238.B.11.i;
A.239.B.11.i; A.240.B.11.i; A.241.B.11.i; A.242.B.11.i;
A.243.B.11.i; A.244.B.11.i; A.245.B.11.i; A.246.B.11.i;
A.247.B.11.i; A.248.B.11.i; A.249.B.11.i; A.250.B.11.i;
A.251.B.11.i; A.252.B.11.i; A.253.B.11.i; A.254.B.11.i;
A.255.B.11.i; A.256.B.11.i; A.257.B.11.i; A.258.B.11.i;
A.259.B.11.i; A.260.B.11.i; A.261.B.11.i; A.262.B.11.i;
A.263.B.11.i; A.264.B.11.i; A.265.B.11.i; A.266.B.11.i;
A.267.B.11.i; A.268.B.11.i; A.269.B.11.i; A.270.B.11.i;
A.271.B.11.i; A.272.B.11.i; A.273.B.11.i; A.274.B.11.i;
A.275.B.11.i; A.276.B.11.i; A.277.B.11.i; A.278.B.11.i;
A.279.B.11.i; A.280.B.11.i; A.281.B.11.i; A.282.B.11.i;
A.283.B.11.i; A.284.B.11.i; A.285.B.11.i; A.286.B.11.i;
A.287.B.11.i; A.288.B.11.i; A.289.B.11.i; A.290.B.11.i;
A.291.B.11.i; A.292.B.11.i; A.293.B.11.i; A.294.B.11.i;
A.295.B.11.i; A.296.B.11.i; A.297.B.11.i; A.298.B.11.i;
A.299.B.11.i; A.300.B.11.i; A.301.B.11.i; A.302.B.11.i;
A.303.B.11.i; A.304.B.11.i; A.305.B.11.i; A.306.B.11.i;
A.307.B.11.i; A.308.B.11.i; A.309.B.11.i; A.310.B.11.i;
A.311.B.11.i; A.312.B.11.i; A.313.B.11.i; A.314.B.11.i;
A.315.B.11.i; A.316.B.11.i; A.317.B.11.i; A.318.B.11.i;
A.319.B.11.i; A.320.B.11.i; A.321.B.11.i; A.323.B.11.i;
A.324.B.11.i; A.325.B.11.i; A.326.B.11.i; A.327.B.11.i;
A.328.B.11.i; A.329.B.11.i; A.330.B.11.i; A.331.B.11.i;
A.332.B.11.i; A.333.B.11.i; A.334.B.11.i; A.335.B.11.i;
A.336.B.11.i; A.337.B.11.i; A.338.B.11.i; A.339.B.11.i;
A.340.B.11.i; A.341.B.11.i; A.342.B.11.i; A.343.B.11.i;
A.344.B.11.i; A.345.B.11.i; A.346.B.11.i; A.347.B.11.i;
A.348.B.11.i; A.349.B.11.i; A.350.B.11.i; A.351.B.11.i;
A.352.B.11.i; A.353.B.11.i; A.354.B.11.i; A.355.B.11.i;
A.356.B.11.i; A.357.B.11.i; A.358.B.11.i; A.359.B.11.i;
A.360.B.11.i; A.361.B.11.i; A.362.B.11.i; A.363.B.11.i;
A.364.B.11.i; A.365.B.11.i; A.366.B.11.i; A.367.B.11.i;
A.368.B.11.i; A.369.B.11.i; A.370.B.11.i; A.371.B.11.i;
A.372.B.11.i; A.373.B.11.i; A.374.B.11.i; A.375.B.11.i;
A.376.B.11.i; A.377.B.11.i; A.378.B.11.i; A.379.B.11.i;
A.380.B.11.i; A.381.B.11.i; A.382.B.11.i; A.383.B.11.i;
A.384.B.11.i; A.385.B.11.i; A.386.B.11.i; A.387.B.11.i;
A.388.B.11.i; A.389.B.11.i; A.390.B.11.i; A.391.B.11.i;
A.392.B.11.i; A.393.B.11.i; A.394.B.11.i; A.395.B.11.i;
A.396.B.11.i; A.397.B.11.i; A.398.B.11.i; A.399.B.11.i;
A.400.B.11.i; A.401.B.11.i; A.402.B.11.i; A.403.B.11.i;
A.404.B.11.i; A.405.B.11.i; A.406.B.11.i; A.407.B.11.i;
A.408.B.11.i; A.409.B.11.i; A.410.B.11.i; A.411.B.11.i;
A.412.B.11.i; A.413.B.11.i; A.414.B.11.i; A.415.B.11.i;
A.416.B.11.i; A.417.B.11.i; A.418.B.11.i; A.419.B.11.i;
A.420.B.11.i; A.421.B.11.i; A.422.B.11.i; A.423.B.11.i;
A.424.B.11.i; A.425.B.11.i; A.426.B.11.i; A.427.B.11.i;
A.428.B.11.i; A.429.B.11.i; A.430.B.11.i; A.431.B.11.i;
A.432.B.11.i; A.433.B.11.i; A.434.B.11.i; A.435.B.11.i;
A.436.B.11.i; A.437.B.11.i; A.438.B.11.i; A.439.B.11.i;
A.440.B.11.i; A.441.B.11.i; A.442.B.11.i; A.443.B.11.i;
A.444.B.11.i; A.445.B.11.i; A.446.B.11.i; A.447.B.11.i;
A.448.B.11.i; A.449.B.11.i; A.450.B.11.i; A.451.B.11.i;
A.452.B.11.i; A.453.B.11.i; A.454.B.11.i; A.455.B.11.i;
A.456.B.11.i; A.457.B.11.i; A.458.B.11.i; A.459.B.11.i;
A.460.B.11.i; A.461.B.11.i; A.462.B.11.i; A.463.B.11.i;
A.464.B.11.i; A.465.B.11.i; A.466.B.11.i; A.467.B.11.i;
A.468.B.11.i; A.469.B.11.i; A.470.B.11.i; A.471.B.11.i;
A.472.B.11.i; A.473.B.11.i; A.474.B.11.i; A.475.B.11.i;
A.476.B.11.i; A.477.B.11.i; A.478.B.11.i; A.479.B.11.i;
A.480.B.11.i; A.481.B.11.i; A.482.B.11.i; A.483.B.11.i;
A.484.B.11.i; A.485.B.11.i; A.486.B.11.i; A.487.B.11.i;
A.488.B.11.i; A.489.B.11.i; A.490.B.11.i; A.491.B.11.i;
A.492.B.11.i; A.493.B.11.i; A.494.B.11.i; A.495.B.11.i;
A.496.B.11.i; A.497.B.11.i; A.498.B.11.i; A.499.B.11.i;
A.500.B.11.i; A.501.B.11.i; A.502.B.11.i; A.503.B.11.i;
A.504.B.11.i; A.505.B.11.i; A.506.B.11.i; A.507.B.11.i;
A.508.B.11.i; A.509.B.11.i; A.510.B.11.i; A.511.B.11.i;
A.512.B.11.i; A.512.B.11.i; A.513.B.11.i; A.514.B.11.i;
A.515.B.11.i;
A.516.B.11.i; A.517.B.11.i; A.518.B.11.i; A.519.B.11.i;
A.520.B.11.i; A.521.B.11.i; A.522.B.11.i; A.523.B.11.i;
A.524.B.11.i; A.525.B.11.i; A.526.B.11.i; A.527.B.11.i;
A.528.B.11.i; A.529.B.11.i; A.530.B.11.i; A.531.B.11.i;
A.532.B.11.i; A.533.B.11.i; A.534.B.11.i; A.535.B.11.i;
A.536.B.11.i; A.537.B.11.i; A.538.B.11.i; A.539.B.11.i;
A.540.B.11.i; A.541.B.11.i; A.542.B.11.i; A.543.B.11.i;
A.544.B.11.i; A.545.B.11.i; A.546.B.11.i; A.547.B.11.i;
A.548.B.11.i; A.549.B.11.i; A.550.B.11.i; A.551.B.11.i;
A.552.B.11.i; A.553.B.11.i; A.554.B.11.i; A.555.B.11.i;
A.556.B.11.i; A.557.B.11.i; A.558.B.11.i; A.559.B.11.i;
A.560.B.11.i; A.561.B.11.i; A.562.B.11.i; A.563.B.11.i;
A.564.B.11.i; A.565.B.11.i; A.566.B.11.i; A.567.B.11.i;
A.568.B.11.i; A.569.B.11.i; A.570.B.11.i; A.571.B.11.i;
A.572.B.11.i; A.573.B.11.i; A.574.B.11.i; A.575.B.11.i;
A.576.B.11.i; A.577.B.11.i; A.578.B.11.i; A.579.B.11.i;
A.580.B.11.i; A.581.B.11.i; A.582.B.11.i; A.583.B.11.i;
A.584.B.11.i; A.585.B.11.i; A.586.B.11.i; A.587.B.11.i;
A.588.B.11.i; A.589.B.11.i; A.590.B.11.i; A.591.B.11.i;
A.592.B.11.i; A.593.B.11.i; A.594.B.11.i; A.595.B.11.i;
A.596.B.11.i; A.597.B.11.i; A.598.B.11.i; A.599.B.11.i;
A.600.B.11.i; A.601.B.11.i; A.602.B.11.i; A.603.B.11.i;
A.604.B.11.i; A.605.B.11.i; A.606.B.11.i; A.607.B.11.i;
A.608.B.11.i; A.609.B.11.i; A.610.B.11.i; A.611.B.11.i;
A.612.B.11.i; A.613.B.11.i; A.614.B.11.i; A.615.B.11.i;
A.616.B.11.i; A.617.B.11.i; A.618.B.11.i; A.619.B.11.i;
A.620.B.11.i; A.621.B.11.i; A.622.B.11.i; A.623.B.11.i;
A.624.B.11.i; A.625.B.11.i; A.626.B.11.i; A.627.B.11.i;
A.628.B.11.i; A.629.B.11.i; A.630.B.11.i; A.631.B.11.i;
A.632.B.11.i; A.633.B.11.i; A.634.B.11.i; A.635.B.11.i;
A.636.B.11.i; A.637.B.11.i; A.638.B.11.i; A.639.B.11.i;
A.640.B.11.i; A.641.B.11.i; A.642.B.11.i; A.643.B.11.i;
A.644.B.11.i; A.645.B.11.i; A.646.B.11.i; A.647.B.11.i;
A.648.B.11.i; A.649.B.11.i; A.650.B.11.i; A.651.B.11.i;
A.652.B.11.i; A.653.B.11.i; A.654.B.11.i; A.655.B.11.i;
A.656.B.11.i; A.657.B.11.i; A.658.B.11.i; A.659.B.11.i;
A.660.B.11.i; A.2.C.4.i; A.3.C.4.i; A.4.C.4.i; A.5.C.4.i;
A.6.C.4.i; A.7.C.4.i; A.9.C.4.i; A.10.C.4.i; A.15.C.4.i;
A.100.C.4.i; A.101.C.4.i; A.102.C.4.i; A.103.C.4.i; A.104.C.4.i;
A.105.C.4.i; A.106.C.4.i; A.107.C.4.i; A.108.C.4.i; A.109.C.4.i;
A.110.C.4.i; A.111.C.4.i; A.112.C.4.i; A.113.C.4.i; A.114.C.4.i;
A.115.C.4.i; A.116.C.4.i; A.117.C.4.i; A.118.C.4.i; A.119.C.4.i;
A.120.C.4.i; A.121.C.4.i; A.122.C.4.i; A.123.C.4.i; A.124.C.4.i;
A.125.C.4.i; A.126.C.4.i; A.127.C.4.i; A.128.C.4.i; A.129.C.4.i;
A.130.C.4.i; A.131.C.4.i; A.132.C.4.i; A.133.C.4.i; A.134.C.4.i;
A.135.C.4.i; A.136.C.4.i; A.137.C.4.i; A.138.C.4.i; A.139.C.4.i;
A.140.C.4.i; A.141.C.4.i; A.142.C.4.i; A.143.C.4.i; A.144.C.4.i;
A.145.C.4.i; A.146.C.4.i; A.147.C.4.i; A.148.C.4.i; A.149.C.4.i;
A.150.C.4.i; A.151.C.4.i; A.152.C.4.i; A.153.C.4.i; A.154.C.4.i;
A.155.C.4.i; A.156.C.4.i; A.157.C.4.i; A.158.C.4.i; A.159.C.4.i;
A.160.C.4.i; A.161.C.4.i; A.162.C.4.i; A.163.C.4.i; A.164.C.4.i;
A.165.C.4.i; A.166.C.4.i; A.167.C.4.i; A.168.C.4.i; A.169.C.4.i;
A.170.C.4.i; A.171.C.4.i; A.172.C.4.i; A.173.C.4.i; A.174.C.4.i;
A.175.C.4.i; A.176.C.4.i; A.177.C.4.i; A.178.C.4.i; A.179.C.4.i;
A.180.C.4.i; A.181.C.4.i; A.182.C.4.i; A.183.C.4.i; A.184.C.4.i;
A.185.C.4.i; A.186.C.4.i; A.187.C.4.i; A.188.C.4.i; A.189.C.4.i;
A.190.C.4.i; A.191.C.4.i; A.192.C.4.i; A.193.C.4.i; A.194.C.4.i;
A.195.C.4.i; A.196.C.4.i; A.197.C.4.i; A.198.C.4.i; A.199.C.4.i;
A.200.C.4.i; A.201.C.4.i; A.202.C.4.i; A.203.C.4.i; A.204.C.4.i;
A.205.C.4.i; A.206.C.4.i; A.207.C.4.i; A.208.C.4.i; A.209.C.4.i;
A.210.C.4.i; A.211.C.4.i; A.212.C.4.i; A.213.C.4.i; A.214.C.4.i;
A.215.C.4.i; A.216.C.4.i; A.217.C.4.i; A.218.C.4.i; A.219.C.4.i;
A.220.C.4.i; A.221.C.4.i; A.222.C.4.i; A.223.C.4.i; A.224.C.4.i;
A.225.C.4.i; A.226.C.4.i; A.227.C.4.i; A.228.C.4.i; A.229.C.4.i;
A.230.C.4.i; A.231.C.4.i; A.232.C.4.i; A.233.C.4.i; A.234.C.4.i;
A.235.C.4.i; A.236.C.4.i; A.237.C.4.i; A.238.C.4.i; A.239.C.4.i;
A.240.C.4.i; A.241.C.4.i; A.242.C.4.i; A.243.C.4.i; A.244.C.4.i;
A.245.C.4.i; A.246.C.4.i; A.247.C.4.i; A.248.C.4.i; A.249.C.4.i;
A.250.C.4.i; A.251.C.4.i; A.252.C.4.i; A.253.C.4.i; A.254.C.4.i;
A.255.C.4.i; A.256.C.4.i; A.257.C.4.i; A.258.C.4.i; A.259.C.4.i;
A.260.C.4.i; A.261.C.4.i; A.262.C.4.i; A.263.C.4.i; A.264.C.4.i;
A.265.C.4.i; A.266.C.4.i; A.267.C.4.i; A.268.C.4.i; A.269.C.4.i;
A.270.C.4.i; A.271.C.4.i; A.272.C.4.i; A.273.C.4.i; A.274.C.4.i;
A.275.C.4.i; A.276.C.4.i; A.277.C.4.i; A.278.C.4.i; A.279.C.4.i;
A.280.C.4.i; A.281.C.4.i; A.282.C.4.i; A.283.C.4.i; A.284.C.4.i;
A.285.C.4.i; A.286.C.4.i; A.287.C.4.i; A.288.C.4.i; A.289.C.4.i;
A.290.C.4.i; A.291.C.4.i; A.292.C.4.i; A.293.C.4.i; A.294.C.4.i;
A.295.C.4.i; A.296.C.4.i; A.297.C.4.i; A.298.C.4.i; A.299.C.4.i;
A.300.C.4.i; A.301.C.4.i; A.302.C.4.i; A.303.C.4.i; A.304.C.4.i;
A.305.C.4.i; A.306.C.4.i; A.307.C.4.i; A.308.C.4.i; A.309.C.4.i;
A.310.C.4.i; A.311.C.4.i; A.312.C.4.i; A.313.C.4.i; A.314.C.4.i;
A.315.C.4.i; A.316.C.4.i; A.317.C.4.i; A.318.C.4.i; A.319.C.4.i;
A.320.C.4.i; A.321.C.4.i; A.323.C.4.i; A.324.C.4.i; A.325.C.4.i;
A.326.C.4.i; A.327.C.4.i; A.328.C.4.i; A.329.C.4.i; A.330.C.4.i;
A.331.C.4.i; A.332.C.4.i; A.333.C.4.i; A.334.C.4.i; A.335.C.4.i;
A.336.C.4.i; A.337.C.4.i; A.338.C.4.i; A.339.C.4.i; A.340.C.4.i;
A.341.C.4.i; A.342.C.4.i; A.343.C.4.i; A.344.C.4.i; A.345.C.4.i;
A.346.C.4.i; A.347.C.4.i; A.348.C.4.i; A.349.C.4.i; A.350.C.4.i;
A.351.C.4.i; A.352.C.4.i; A.353.C.4.i; A.354.C.4.i; A.355.C.4.i;
A.356.C.4.i; A.357.C.4.i; A.358.C.4.i; A.359.C.4.i; A.360.C.4.i;
A.361.C.4.i; A.362.C.4.i; A.363.C.4.i; A.364.C.4.i; A.365.C.4.i;
A.366.C.4.i; A.367.C.4.i; A.368.C.4.i; A.369.C.4.i; A.370.C.4.i;
A.371.C.4.i; A.372.C.4.i; A.373.C.4.i; A.374.C.4.i; A.375.C.4.i;
A.376.C.4.i; A.377.C.4.i; A.378.C.4.i; A.379.C.4.i; A.380.C.4.i;
A.381.C.4.i; A.382.C.4.i; A.383.C.4.i; A.384.C.4.i; A.385.C.4.i;
A.386.C.4.i; A.387.C.4.i; A.388.C.4.i; A.389.C.4.i; A.390.C.4.i;
A.391.C.4.i; A.392.C.4.i; A.393.C.4.i; A.394.C.4.i; A.395.C.4.i;
A.396.C.4.i; A.397.C.4.i; A.398.C.4.i; A.399.C.4.i; A.400.C.4.i;
A.401.C.4.i; A.402.C.4.i; A.403.C.4.i; A.404.C.4.i; A.405.C.4.i;
A.406.C.4.i; A.407.C.4.i; A.408.C.4.i; A.409.C.4.i; A.410.C.4.i;
A.411.C.4.i; A.412.C.4.i; A.413.C.4.i; A.414.C.4.i; A.415.C.4.i;
A.416.C.4.i; A.417.C.4.i; A.418.C.4.i; A.419.C.4.i; A.420.C.4.i;
A.421.C.4.i; A.422.C.4.i; A.423.C.4.i; A.424.C.4.i; A.425.C.4.i;
A.426.C.4.i; A.427.C.4.i; A.428.C.4.i; A.429.C.4.i; A.430.C.4.i;
A.431.C.4.i; A.432.C.4.i; A.433.C.4.i; A.434.C.4.i; A.435.C.4.i;
A.436.C.4.i; A.437.C.4.i; A.438.C.4.i; A.439.C.4.i; A.440.C.4.i;
A.441.C.4.i; A.442.C.4.i; A.443.C.4.i; A.444.C.4.i; A.445.C.4.i;
A.446.C.4.i; A.447.C.4.i; A.448.C.4.i; A.449.C.4.i; A.450.C.4.i;
A.451.C.4.i; A.452.C.4.i; A.453.C.4.i; A.454.C.4.i; A.455.C.4.i;
A.456.C.4.i; A.457.C.4.i; A.458.C.4.i; A.459.C.4.i; A.460.C.4.i;
A.461.C.4.i; A.462.C.4.i; A.463.C.4.i; A.464.C.4.i; A.465.C.4.i;
A.466.C.4.i; A.467.C.4.i; A.468.C.4.i; A.469.C.4.i; A.470.C.4.i;
A.471.C.4.i; A.472.C.4.i; A.473.C.4.i; A.474.C.4.i; A.475.C.4.i;
A.476.C.4.i; A.477.C.4.i; A.478.C.4.i; A.479.C.4.i; A.480.C.4.i;
A.481.C.4.i; A.482.C.4.i; A.483.C.4.i; A.484.C.4.i; A.485.C.4.i;
A.486.C.4.i; A.487.C.4.i; A.488.C.4.i; A.489.C.4.i; A.490.C.4.i;
A.491.C.4.i; A.492.C.4.i; A.493.C.4.i; A.494.C.4.i; A.495.C.4.i;
A.496.C.4.i; A.497.C.4.i; A.498.C.4.i; A.499.C.4.i; A.500.C.4.i;
A.501.C.4.i; A.502.C.4.i; A.503.C.4.i; A.504.C.4.i; A.505.C.4.i;
A.506.C.4.i; A.507.C.4.i; A.508.C.4.i; A.509.C.4.i; A.510.C.4.i;
A.511.C.4.i; A.512.C.4.i; A.512.C.4.i; A.513.C.4.i; A.514.C.4.i;
A.515.C.4.i; A.516.C.4.i; A.517.C.4.i; A.518.C.4.i; A.519.C.4.i;
A.520.C.4.i; A.521.C.4.i; A.522.C.4.i; A.523.C.4.i; A.524.C.4.i;
A.525.C.4.i; A.526.C.4.i; A.527.C.4.i; A.528.C.4.i; A.529.C.4.i;
A.530.C.4.i; A.531.C.4.i; A.532.C.4.i; A.533.C.4.i; A.534.C.4.i;
A.535.C.4.i; A.536.C.4.i; A.537.C.4.i; A.538.C.4.i; A.539.C.4.i;
A.540.C.4.i; A.541.C.4.i; A.542.C.4.i; A.543.C.4.i; A.544.C.4.i;
A.545.C.4.i; A.546.C.4.i; A.547.C.4.i; A.548.C.4.i; A.549.C.4.i;
A.550.C.4.i; A.551.C.4.i; A.552.C.4.i; A.553.C.4.i; A.554.C.4.i;
A.555.C.4.i; A.556.C.4.i; A.557.C.4.i; A.558.C.4.i; A.559.C.4.i;
A.560.C.4.i; A.561.C.4.i; A.562.C.4.i; A.563.C.4.i; A.564.C.4.i;
A.565.C.4.i; A.566.C.4.i; A.567.C.4.i; A.568.C.4.i; A.569.C.4.i;
A.570.C.4.i; A.571.C.4.i; A.572.C.4.i; A.573.C.4.i; A.574.C.4.i;
A.575.C.4.i; A.576.C.4.i; A.577.C.4.i; A.578.C.4.i; A.579.C.4.i;
A.580.C.4.i; A.581.C.4.i; A.582.C.4.i; A.583.C.4.i; A.584.C.4.i;
A.585.C.4.i; A.586.C.4.i; A.587.C.4.i; A.588.C.4.i; A.589.C.4.i;
A.590.C.4.i; A.591.C.4.i; A.592.C.4.i; A.593.C.4.i; A.594.C.4.i;
A.595.C.4.i; A.596.C.4.i; A.597.C.4.i; A.598.C.4.i; A.599.C.4.i;
A.600.C.4.i; A.601.C.4.i; A.602.C.4.i; A.603.C.4.i; A.604.C.4.i;
A.605.C.4.i; A.606.C.4.i; A.607.C.4.i; A.608.C.4.i; A.609.C.4.i;
A.610.C.4.i; A.611.C.4.i; A.612.C.4.i; A.613.C.4.i; A.614.C.4.i;
A.615.C.4.i; A.616.C.4.i; A.617.C.4.i; A.618.C.4.i; A.619.C.4.i;
A.620.C.4.i; A.621.C.4.i; A.622.C.4.i; A.623.C.4.i; A.624.C.4.i;
A.625.C.4.i; A.626.C.4.i; A.627.C.4.i; A.628.C.4.i; A.629.C.4.i;
A.630.C.4.i; A.631.C.4.i; A.632.C.4.i; A.633.C.4.i; A.634.C.4.i;
A.635.C.4.i; A.636.C.4.i; A.637.C.4.i; A.638.C.4.i; A.639.C.4.i;
A.640.C.4.i; A.641.C.4.i; A.642.C.4.i; A.643.C.4.i; A.644.C.4.i;
A.645.C.4.i; A.646.C.4.i; A.647.C.4.i; A.648.C.4.i; A.649.C.4.i;
A.650.C.4.i; A.651.C.4.i; A.652.C.4.i; A.653.C.4.i; A.654.C.4.i;
A.655.C.4.i; A.656.C.4.i; A.657.C.4.i; A.658.C.4.i; A.659.C.4.i;
A.660.C.4.i; A.2.C.11.i; A.3.C.11.i; A.4.C.11.i; A.5.C.11.i;
A.6.C.11.i; A.7.C.11.i; A.9.C.11.i; A.10.C.11.i; A.15.C.11.i;
A.100.C.11.i; A.101.C.11.i; A.102.C.11.i; A.103.C.11.i;
A.104.C.11.i; A.105.C.11.i; A.106.C.11.i; A.107.C.11.i;
A.108.C.11.i; A.109.C.11.i; A.110.C.11.i; A.111.C.11.i;
A.112.C.11.i; A.113.C.11.i; A.114.C.11.i; A.115.C.11.i;
A.116.C.11.i; A.117.C.11.i; A.118.C.11.i; A.119.C.11.i;
A.120.C.11.i; A.121.C.11.i; A.122.C.11.i; A.123.C.11.i;
A.124.C.11.i; A.125.C.11.i; A.126.C.11.i; A.127.C.11.i;
A.128.C.11.i; A.129.C.11.i; A.130.C.11.i; A.131.C.11.i;
A.132.C.11.i; A.133.C.11.i; A.134.C.11.i; A.135.C.11.i;
A.136.C.11.i; A.137.C.11.i; A.138.C.11.i; A.139.C.11.i;
A.140.C.11.i; A.141.C.11.i; A.142.C.11.i; A.143.C.11.i;
A.144.C.11.i; A.145.C.11.i; A.146.C.11.i; A.147.C.11.i;
A.148.C.11.i; A.149.C.11.i; A.150.C.11.i; A.151.C.11.i;
A.152.C.11.i; A.153.C.11.i; A.154.C.11.i; A.155.C.11.i;
A.156.C.11.i; A.157.C.11.i; A.158.C.11.i; A.159.C.11.i;
A.160.C.11.i; A.161.C.11.i; A.162.C.11.i; A.163.C.11.i;
A.164.C.11.i; A.165.C.11.i; A.166.C.11.i; A.167.C.11.i;
A.168.C.11.i; A.169.C.11.i; A.170.C.11.i; A.171.C.11.i;
A.172.C.11.i; A.173.C.11.i; A.174.C.11.i; A.175.C.11.i;
A.176.C.11.i; A.177.C.11.i; A.178.C.11.i; A.179.C.11.i;
A.180.C.11.i; A.181.C.11.i; A.182.C.11.i; A.183.C.11.i;
A.184.C.11.i; A.185.C.11.i; A.186.C.11.i; A.187.C.11.i;
A.188.C.11.i; A.189.C.11.i; A.190.C.11.i; A.191.C.11.i;
A.192.C.11.i; A.193.C.11.i; A.194.C.11.i; A.195.C.11.i;
A.196.C.11.i; A.197.C.11.i; A.198.C.11.i; A.199.C.11.i;
A.200.C.11.i; A.201.C.11.i; A.202.C.11.i; A.203.C.11.i;
A.204.C.11.i; A.205.C.11.i; A.206.C.11.i; A.207.C.11.i;
A.208.C.11.i; A.209.C.11.i; A.210.C.11.i; A.211.C.11.i;
A.212.C.11.i; A.213.C.11.i; A.214.C.11.i; A.215.C.11.i;
A.216.C.11.i; A.217.C.11.i; A.218.C.11.i; A.219.C.11.i;
A.220.C.11.i; A.221.C.11.i; A.222.C.11.i; A.223.C.11.i;
A.224.C.11.i; A.225.C.11.i; A.226.C.11.i; A.227.C.11.i;
A.228.C.11.i; A.229.C.11.i; A.230.C.11.i; A.231.C.11.i;
A.232.C.11.i; A.233.C.11.i; A.234.C.11.i; A.235.C.11.i;
A.236.C.11.i; A.237.C.11.i; A.238.C.11.i; A.239.C.11.i;
A.240.C.11.i; A.241.C.11.i; A.242.C.11.i; A.243.C.11.i;
A.244.C.11.i; A.245.C.11.i; A.246.C.11.i; A.247.C.11.i;
A.248.C.11.i; A.249.C.11.i; A.250.C.11.i; A.251.C.11.i;
A.252.C.11.i; A.253.C.11.i; A.254.C.11.i; A.255.C.11.i;
A.256.C.11.i; A.257.C.11.i; A.258.C.11.i; A.259.C.11.i;
A.260.C.11.i; A.261.C.11.i; A.262.C.11.i; A.263.C.11.i;
A.264.C.11.i; A.265.C.11.i; A.266.C.11.i; A.267.C.11.i;
A.268.C.11.i; A.269.C.11.i; A.270.C.11.i; A.271.C.11.i;
A.272.C.11.i; A.273.C.11.i; A.274.C.11.i; A.275.C.11.i;
A.276.C.11.i; A.277.C.11.i; A.278.C.11.i; A.279.C.11.i;
A.280.C.11.i; A.281.C.11.i; A.282.C.11.i; A.283.C.11.i;
A.284.C.11.i; A.285.C.11.i; A.286.C.11.i; A.287.C.11.i;
A.288.C.11.i; A.289.C.11.i; A.290.C.11.i; A.291.C.11.i;
A.292.C.11.i; A.293.C.11.i; A.294.C.11.i; A.295.C.11.i;
A.296.C.11.i; A.297.C.11.i; A.298.C.11.i; A.299.C.11.i;
A.300.C.11.i; A.301.C.11.i; A.302.C.11.i; A.303.C.11.i;
A.304.C.11.i; A.305.C.11.i; A.306.C.11.i; A.307.C.11.i;
A.308.C.11.i; A.309.C.11.i; A.310.C.11.i; A.311.C.11.i;
A.312.C.11.i; A.313.C.11.i; A.314.C.11.i; A.315.C.11.i;
A.316.C.11.i; A.317.C.11.i; A.318.C.11.i; A.319.C.11.i;
A.320.C.11.i; A.321.C.11.i; A.323.C.11.i; A.324.C.11.i;
A.325.C.11.i; A.326.C.11.i; A.327.C.11.i; A.328.C.11.i;
A.329.C.11.i; A.330.C.11.i; A.331.C.11.i; A.332.C.11.i;
A.333.C.11.i; A.334.C.11.i; A.335.C.11.i; A.336.C.11.i;
A.337.C.11.i; A.338.C.11.i; A.339.C.11.i; A.340.C.11.i;
A.341.C.11.i; A.342.C.11.i; A.343.C.11.i; A.344.C.11.i;
A.345.C.11.i; A.346.C.11.i; A.347.C.11.i; A.348.C.11.i;
A.349.C.11.i; A.350.C.11.i; A.351.C.11.i; A.352.C.11.i;
A.353.C.11.i; A.354.C.11.i; A.355.C.11.i; A.356.C.11.i;
A.357.C.11.i; A.358.C.11.i; A.359.C.11.i; A.360.C.11.i;
A.361.C.11.i; A.362.C.11.i; A.363.C.11.i; A.364.C.11.i;
A.365.C.11.i; A.366.C.11.i; A.367.C.11.i; A.368.C.11.i;
A.369.C.11.i; A.370.C.11.i; A.371.C.11.i; A.372.C.11.i;
A.373.C.11.i; A.374.C.11.i; A.375.C.11.i; A.376.C.11.i;
A.377.C.11.i; A.378.C.11.i; A.379.C.11.i; A.380.C.11.i;
A.381.C.11.i; A.382.C.11.i; A.383.C.11.i; A.384.C.11.i;
A.385.C.11.i; A.386.C.11.i; A.387.C.11.i; A.388.C.11.i;
A.389.C.11.i; A.390.C.11.i; A.391.C.11.i; A.392.C.11.i;
A.393.C.11.i; A.394.C.11.i; A.395.C.11.i; A.396.C.11.i;
A.397.C.11.i; A.398.C.11.i; A.399.C.11.i; A.400.C.11.i;
A.401.C.11.i; A.402.C.11.i; A.403.C.11.i; A.404.C.11.i;
A.405.C.11.i; A.406.C.11.i; A.407.C.11.i; A.408.C.11.i;
A.409.C.11.i; A.410.C.11.i; A.411.C.11.i; A.412.C.11.i;
A.413.C.11.i; A.414.C.11.i; A.415.C.11.i; A.416.C.11.i;
A.417.C.11.i; A.418.C.11.i; A.419.C.11.i; A.420.C.11.i;
A.421.C.11.i; A.422.C.11.i; A.423.C.11.i; A.424.C.11.i;
A.425.C.11.i; A.426.C.11.i; A.427.C.11.i; A.428.C.11.i;
A.429.C.11.i; A.430.C.11.i; A.431.C.11.i; A.432.C.11.i;
A.433.C.11.i; A.434.C.11.i; A.435.C.11.i; A.436.C.11.i;
A.437.C.11.i; A.438.C.11.i; A.439.C.11.i; A.440.C.11.i;
A.441.C.11.i; A.442.C.11.i; A.443.C.11.i; A.444.C.11.i;
A.445.C.11.i; A.446.C.11.i; A.447.C.11.i; A.448.C.11.i;
A.449.C.11.i; A.450.C.11.i; A.451.C.11.i; A.452.C.11.i;
A.453.C.11.i; A.454.C.11.i; A.455.C.11.i; A.456.C.11.i;
A.457.C.11.i; A.458.C.11.i; A.459.C.11.i; A.460.C.11.i;
A.461.C.11.i; A.462.C.11.i; A.463.C.11.i; A.464.C.11.i;
A.465.C.11.i; A.466.C.11.i; A.467.C.11.i; A.468.C.11.i;
A.469.C.11.i; A.470.C.11.i; A.471.C.11.i; A.472.C.11.i;
A.473.C.11.i; A.474.C.11.i; A.475.C.11.i; A.476.C.11.i;
A.477.C.11.i; A.478.C.11.i; A.479.C.11.i; A.480.C.11.i;
A.481.C.11.i; A.482.C.11.i; A.483.C.11.i; A.484.C.11.i;
A.485.C.11.i; A.486.C.11.i; A.487.C.11.i; A.488.C.11.i;
A.489.C.11.i; A.490.C.11.i; A.491.C.11.i; A.492.C.11.i;
A.493.C.11.i; A.494.C.11.i; A.495.C.11.i; A.496.C.11.i;
A.497.C.11.i; A.498.C.11.i; A.499.C.11.i; A.500.C.11.i;
A.501.C.11.i; A.502.C.11.i; A.503.C.11.i; A.504.C.11.i;
A.505.C.11.i; A.506.C.11.i; A.507.C.11.i; A.508.C.11.i;
A.509.C.11.i; A.510.C.11.i; A.511.C.11.i; A.512.C.11.i;
A.512.C.11.i; A.513.C.11.i; A.514.C.11.i; A.515.C.11.i;
A.516.C.11.i; A.517.C.11.i; A.518.C.11.i; A.519.C.11.i;
A.520.C.11.i; A.521.C.11.i; A.522.C.11.i; A.523.C.11.i;
A.524.C.11.i; A.525.C.11.i; A.526.C.11.i; A.527.C.11.i;
A.528.C.11.i; A.529.C.11.i; A.530.C.11.i; A.531.C.11.i;
A.532.C.11.i; A.533.C.11.i; A.534.C.11.i; A.535.C.11.i;
A.536.C.11.i; A.537.C.11.i; A.538.C.11.i; A.539.C.11.i;
A.540.C.11.i; A.541.C.11.i; A.542.C.11.i; A.543.C.11.i;
A.544.C.11.i; A.545.C.11.i; A.546.C.11.i; A.547.C.11.i;
A.548.C.11.i; A.549.C.11.i; A.550.C.11.i; A.551.C.11.i;
A.552.C.11.i; A.553.C.11.i; A.554.C.11.i; A.555.C.11.i;
A.556.C.11.i; A.557.C.11.i; A.558.C.11.i; A.559.C.11.i;
A.560.C.11.i; A.561.C.11.i; A.562.C.11.i; A.563.C.11.i;
A.564.C.11.i; A.565.C.11.i;
A.566.C.11.i; A.567.C.11.i; A.568.C.11.i; A.569.C.11.i;
A.570.C.11.i; A.571.C.11.i; A.572.C.11.i; A.573.C.11.i;
A.574.C.11.i; A.575.C.11.i; A.576.C.11.i; A.577.C.11.i;
A.578.C.11.i; A.579.C.11.i; A.580.C.11.i; A.581.C.11.i;
A.582.C.11.i; A.583.C.11.i; A.584.C.11.i; A.585.C.11.i;
A.586.C.11.i; A.587.C.11.i; A.588.C.11.i; A.589.C.11.i;
A.590.C.11.i; A.591.C.11.i; A.592.C.11.i; A.593.C.11.i;
A.594.C.11.i; A.595.C.11.i; A.596.C.11.i; A.597.C.11.i;
A.598.C.11.i; A.599.C.11.i; A.600.C.11.i; A.601.C.11.i;
A.602.C.11.i; A.603.C.11.i; A.604.C.11.i; A.605.C.11.i;
A.606.C.11.i; A.607.C.11.i; A.608.C.11.i; A.609.C.11.i;
A.610.C.11.i; A.611.C.11.i; A.612.C.11.i; A.613.C.11.i;
A.614.C.11.i; A.615.C.11.i; A.616.C.11.i; A.617.C.11.i;
A.618.C.11.i; A.619.C.11.i; A.620.C.11.i; A.621.C.11.i;
A.622.C.11.i; A.623.C.11.i; A.624.C.11.i; A.625.C.11.i;
A.626.C.11.i; A.627.C.11.i; A.628.C.11.i; A.629.C.11.i;
A.630.C.11.i; A.631.C.11.i; A.632.C.11.i; A.633.C.11.i;
A.634.C.11.i; A.635.C.11.i; A.636.C.11.i; A.637.C.11.i;
A.638.C.11.i; A.639.C.11.i; A.640.C.11.i; A.641.C.11.i;
A.642.C.11.i; A.643.C.11.i; A.644.C.11.i; A.645.C.11.i;
A.646.C.11.i; A.647.C.11.i; A.648.C.11.i; A.649.C.11.i;
A.650.C.11.i; A.651.C.11.i; A.652.C.11.i; A.653.C.11.i;
A.654.C.11.i; A.655.C.11.i; A.656.C.11.i; A.657.C.11.i;
A.658.C.11.i; A.659.C.11.i; A.660.C.11.i; A.2.D.4.i; A.3.D.4.i;
A.4.D.4.i; A.5.D.4.i; A.6.D.4.i; A.7.D.4.i; A.9.D.4.i; A.10.D.4.i;
A.15.D.4.i; A.100.D.4.i; A.101.D.4.i; A.102.D.4.i; A.103.D.4.i;
A.104.D.4.i; A.105.D.4.i; A.106.D.4.i; A.107.D.4.i; A.108.D.4.i;
A.109.D.4.i; A.110.D.4.i; A.111.D.4.i; A.112.D.4.i; A.113.D.4.i;
A.114.D.4.i; A.115.D.4.i; A.116.D.4.i; A.117.D.4.i; A.118.D.4.i;
A.119.D.4.i; A.120.D.4.i; A.121.D.4.i; A.122.D.4.i; A.123.D.4.i;
A.124.D.4.i; A.125.D.4.i; A.126.D.4.i; A.127.D.4.i; A.128.D.4.i;
A.129.D.4.i; A.130.D.4.i; A.131.D.4.i; A.132.D.4.i; A.133.D.4.i;
A.134.D.4.i; A.135.D.4.i; A.136.D.4.i; A.137.D.4.i; A.138.D.4.i;
A.139.D.4.i; A.140.D.4.i; A.141.D.4.i; A.142.D.4.i; A.143.D.4.i;
A.144.D.4.i; A.145.D.4.i; A.146.D.4.i; A.147.D.4.i; A.148.D.4.i;
A.149.D.4.i; A.150.D.4.i; A.151.D.4.i; A.152.D.4.i; A.153.D.4.i;
A.154.D.4.i; A.155.D.4.i; A.156.D.4.i; A.157.D.4.i; A.158.D.4.i;
A.159.D.4.i; A.160.D.4.i; A.161.D.4.i; A.162.D.4.i; A.163.D.4.i;
A.164.D.4.i; A.165.D.4.i; A.166.D.4.i; A.167.D.4.i; A.168.D.4.i;
A.169.D.4.i; A.170.D.4.i; A.171.D.4.i; A.172.D.4.i; A.173.D.4.i;
A.174.D.4.i; A.175.D.4.i; A.176.D.4.i; A.177.D.4.i; A.178.D.4.i;
A.179.D.4.i; A.180.D.4.i; A.181.D.4.i; A.182.D.4.i; A.183.D.4.i;
A.184.D.4.i; A.185.D.4.i; A.186.D.4.i; A.187.D.4.i; A.188.D.4.i;
A.189.D.4.i; A.190.D.4.i; A.191.D.4.i; A.192.D.4.i; A.193.D.4.i;
A.194.D.4.i; A.195.D.4.i; A.196.D.4.i; A.197.D.4.i; A.198.D.4.i;
A.199.D.4.i; A.200.D.4.i; A.201.D.4.i; A.202.D.4.i; A.203.D.4.i;
A.204.D.4.i; A.205.D.4.i; A.206.D.4.i; A.207.D.4.i; A.208.D.4.i;
A.209.D.4.i; A.210.D.4.i; A.211.D.4.i; A.212.D.4.i; A.213.D.4.i;
A.214.D.4.i; A.215.D.4.i; A.216.D.4.i; A.217.D.4.i; A.218.D.4.i;
A.219.D.4.i; A.220.D.4.i; A.221.D.4.i; A.222.D.4.i; A.223.D.4.i;
A.224.D.4.i; A.225.D.4.i; A.226.D.4.i; A.227.D.4.i; A.228.D.4.i;
A.229.D.4.i; A.230.D.4.i; A.231.D.4.i; A.232.D.4.i; A.233.D.4.i;
A.234.D.4.i; A.235.D.4.i; A.236.D.4.i; A.237.D.4.i; A.238.D.4.i;
A.239.D.4.i; A.240.D.4.i; A.241.D.4.i; A.242.D.4.i; A.243.D.4.i;
A.244.D.4.i; A.245.D.4.i; A.246.D.4.i; A.247.D.4.i; A.248.D.4.i;
A.249.D.4.i; A.250.D.4.i; A.251.D.4.i; A.252.D.4.i; A.253.D.4.i;
A.254.D.4.i; A.255.D.4.i; A.256.D.4.i; A.257.D.4.i; A.258.D.4.i;
A.259.D.4.i; A.260.D.4.i; A.261.D.4.i; A.262.D.4.i; A.263.D.4.i;
A.264.D.4.i; A.265.D.4.i; A.266.D.4.i; A.267.D.4.i; A.268.D.4.i;
A.269.D.4.i; A.270.D.4.i; A.271.D.4.i; A.272.D.4.i; A.273.D.4.i;
A.274.D.4.i; A.275.D.4.i; A.276.D.4.i; A.277.D.4.i; A.278.D.4.i;
A.279.D.4.i; A.280.D.4.i; A.281.D.4.i; A.282.D.4.i; A.283.D.4.i;
A.284.D.4.i; A.285.D.4.i; A.286.D.4.i; A.287.D.4.i; A.288.D.4.i;
A.289.D.4.i; A.290.D.4.i; A.291.D.4.i; A.292.D.4.i; A.293.D.4.i;
A.294.D.4.i; A.295.D.4.i; A.296.D.4.i; A.297.D.4.i; A.298.D.4.i;
A.299.D.4.i; A.300.D.4.i; A.301.D.4.i; A.302.D.4.i; A.303.D.4.i;
A.304.D.4.i; A.305.D.4.i; A.306.D.4.i; A.307.D.4.i; A.308.D.4.i;
A.309.D.4.i; A.310.D.4.i; A.311.D.4.i; A.312.D.4.i; A.313.D.4.i;
A.314.D.4.i; A.315.D.4.i; A.316.D.4.i; A.317.D.4.i; A.318.D.4.i;
A.319.D.4.i; A.320.D.4.i; A.321.D.4.i; A.323.D.4.i; A.324.D.4.i;
A.325.D.4.i; A.326.D.4.i; A.327.D.4.i; A.328.D.4.i; A.329.D.4.i;
A.330.D.4.i; A.331.D.4.i; A.332.D.4.i; A.333.D.4.i; A.334.D.4.i;
A.335.D.4.i; A.336.D.4.i; A.337.D.4.i; A.338.D.4.i; A.339.D.4.i;
A.340.D.4.i; A.341.D.4.i; A.342.D.4.i; A.343.D.4.i; A.344.D.4.i;
A.345.D.4.i; A.346.D.4.i; A.347.D.4.i; A.348.D.4.i; A.349.D.4.i;
A.350.D.4.i; A.351.D.4.i; A.352.D.4.i; A.353.D.4.i; A.354.D.4.i;
A.355.D.4.i; A.356.D.4.i; A.357.D.4.i; A.358.D.4.i; A.359.D.4.i;
A.360.D.4.i; A.361.D.4.i; A.362.D.4.i; A.363.D.4.i; A.364.D.4.i;
A.365.D.4.i; A.366.D.4.i; A.367.D.4.i; A.368.D.4.i; A.369.D.4.i;
A.370.D.4.i; A.371.D.4.i; A.372.D.4.i; A.373.D.4.i; A.374.D.4.i;
A.375.D.4.i; A.376.D.4.i; A.377.D.4.i; A.378.D.4.i; A.379.D.4.i;
A.380.D.4.i; A.381.D.4.i; A.382.D.4.i; A.383.D.4.i; A.384.D.4.i;
A.385.D.4.i; A.386.D.4.i; A.387.D.4.i; A.388.D.4.i; A.389.D.4.i;
A.390.D.4.i; A.391.D.4.i; A.392.D.4.i; A.393.D.4.i; A.394.D.4.i;
A.395.D.4.i; A.396.D.4.i; A.397.D.4.i; A.398.D.4.i; A.399.D.4.i;
A.400.D.4.i; A.401.D.4.i; A.402.D.4.i; A.403.D.4.i; A.404.D.4.i;
A.405.D.4.i; A.406.D.4.i; A.407.D.4.i; A.408.D.4.i; A.409.D.4.i;
A.410.D.4.i; A.411.D.4.i; A.412.D.4.i; A.413.D.4.i; A.414.D.4.i;
A.415.D.4.i; A.416.D.4.i; A.417.D.4.i; A.418.D.4.i; A.419.D.4.i;
A.420.D.4.i; A.421.D.4.i; A.422.D.4.i; A.423.D.4.i; A.424.D.4.i;
A.425.D.4.i; A.426.D.4.i; A.427.D.4.i; A.428.D.4.i; A.429.D.4.i;
A.430.D.4.i; A.431.D.4.i; A.432.D.4.i; A.433.D.4.i; A.434.D.4.i;
A.435.D.4.i; A.436.D.4.i; A.437.D.4.i; A.438.D.4.i; A.439.D.4.i;
A.440.D.4.i; A.441.D.4.i; A.442.D.4.i; A.443.D.4.i; A.444.D.4.i;
A.445.D.4.i; A.446.D.4.i; A.447.D.4.i; A.448.D.4.i; A.449.D.4.i;
A.450.D.4.i; A.451.D.4.i; A.452.D.4.i; A.453.D.4.i; A.454.D.4.i;
A.455.D.4.i; A.456.D.4.i; A.457.D.4.i; A.458.D.4.i; A.459.D.4.i;
A.460.D.4.i; A.461.D.4.i; A.462.D.4.i; A.463.D.4.i; A.464.D.4.i;
A.465.D.4.i; A.466.D.4.i; A.467.D.4.i; A.468.D.4.i; A.469.D.4.i;
A.470.D.4.i; A.471.D.4.i; A.472.D.4.i; A.473.D.4.i; A.474.D.4.i;
A.475.D.4.i; A.476.D.4.i; A.477.D.4.i; A.478.D.4.i; A.479.D.4.i;
A.480.D.4.i; A.481.D.4.i; A.482.D.4.i; A.483.D.4.i; A.484.D.4.i;
A.485.D.4.i; A.486.D.4.i; A.487.D.4.i; A.488.D.4.i; A.489.D.4.i;
A.490.D.4.i; A.491.D.4.i; A.492.D.4.i; A.493.D.4.i; A.494.D.4.i;
A.495.D.4.i; A.496.D.4.i; A.497.D.4.i; A.498.D.4.i; A.499.D.4.i;
A.500.D.4.i; A.501.D.4.i; A.502.D.4.i; A.503.D.4.i; A.504.D.4.i;
A.505.D.4.i; A.506.D.4.i; A.507.D.4.i; A.508.D.4.i; A.509.D.4.i;
A.510.D.4.i; A.511.D.4.i; A.512.D.4.i; A.512.D.4.i; A.513.D.4.i;
A.514.D.4.i; A.515.D.4.i; A.516.D.4.i; A.517.D.4.i; A.518.D.4.i;
A.519.D.4.i; A.520.D.4.i; A.521.D.4.i; A.522.D.4.i; A.523.D.4.i;
A.524.D.4.i; A.525.D.4.i; A.526.D.4.i; A.527.D.4.i; A.528.D.4.i;
A.529.D.4.i; A.530.D.4.i; A.531.D.4.i; A.532.D.4.i; A.533.D.4.i;
A.534.D.4.i; A.535.D.4.i; A.536.D.4.i; A.537.D.4.i; A.538.D.4.i;
A.539.D.4.i; A.540.D.4.i; A.541.D.4.i; A.542.D.4.i; A.543.D.4.i;
A.544.D.4.i; A.545.D.4.i; A.546.D.4.i; A.547.D.4.i; A.548.D.4.i;
A.549.D.4.i; A.550.D.4.i; A.551.D.4.i; A.552.D.4.i; A.553.D.4.i;
A.554.D.4.i; A.555.D.4.i; A.556.D.4.i; A.557.D.4.i; A.558.D.4.i;
A.559.D.4.i; A.560.D.4.i; A.561.D.4.i; A.562.D.4.i; A.563.D.4.i;
A.564.D.4.i; A.565.D.4.i; A.566.D.4.i; A.567.D.4.i; A.568.D.4.i;
A.569.D.4.i; A.570.D.4.i; A.571.D.4.i; A.572.D.4.i; A.573.D.4.i;
A.574.D.4.i; A.575.D.4.i; A.576.D.4.i; A.577.D.4.i; A.578.D.4.i;
A.579.D.4.i; A.580.D.4.i; A.581.D.4.i; A.582.D.4.i; A.583.D.4.i;
A.584.D.4.i; A.585.D.4.i; A.586.D.4.i; A.587.D.4.i; A.588.D.4.i;
A.589.D.4.i; A.590.D.4.i; A.591.D.4.i; A.592.D.4.i; A.593.D.4.i;
A.594.D.4.i; A.595.D.4.i; A.596.D.4.i; A.597.D.4.i; A.598.D.4.i;
A.599.D.4.i; A.600.D.4.i; A.601.D.4.i; A.602.D.4.i; A.603.D.4.i;
A.604.D.4.i; A.605.D.4.i; A.606.D.4.i; A.607.D.4.i; A.608.D.4.i;
A.609.D.4.i; A.610.D.4.i; A.611.D.4.i; A.612.D.4.i; A.613.D.4.i;
A.614.D.4.i; A.615.D.4.i; A.616.D.4.i; A.617.D.4.i; A.618.D.4.i;
A.619.D.4.i; A.620.D.4.i; A.621.D.4.i; A.622.D.4.i; A.623.D.4.i;
A.624.D.4.i; A.625.D.4.i; A.626.D.4.i; A.627.D.4.i; A.628.D.4.i;
A.629.D.4.i; A.630.D.4.i; A.631.D.4.i; A.632.D.4.i; A.633.D.4.i;
A.634.D.4.i; A.635.D.4.i; A.636.D.4.i; A.637.D.4.i; A.638.D.4.i;
A.639.D.4.i; A.640.D.4.i; A.641.D.4.i; A.642.D.4.i; A.643.D.4.i;
A.644.D.4.i; A.645.D.4.i; A.646.D.4.i; A.647.D.4.i; A.648.D.4.i;
A.649.D.4.i; A.650.D.4.i; A.651.D.4.i; A.652.D.4.i; A.653.D.4.i;
A.654.D.4.i; A.655.D.4.i; A.656.D.4.i; A.657.D.4.i; A.658.D.4.i;
A.659.D.4.i; A.660.D.4.i; A.2.D.11.i; A.3.D.11.i; A.4.D.11.i;
A.5.D.11.i; A.6.D.11.i; A.7.D.11.i; A.9.D.11.i; A.10.D.11.i;
A.15.D.11.i; A.100.D.11.i; A.101.D.11.i; A.102.D.11.i;
A.103.D.11.i; A.104.D.11.i; A.105.D.11.i; A.106.D.11.i;
A.107.D.11.i; A.108.D.11.i; A.109.D.11.i; A.110.D.11.i;
A.111.D.11.i; A.112.D.11.i; A.113.D.11.i; A.114.D.11.i;
A.115.D.11.i; A.116.D.11.i; A.117.D.11.i; A.118.D.11.i;
A.119.D.11.i; A.120.D.11.i; A.121.D.11.i; A.122.D.11.i;
A.123.D.11.i; A.124.D.11.i; A.125.D.11.i; A.126.D.11.i;
A.127.D.11.i; A.128.D.11.i; A.129.D.11.i; A.130.D.11.i;
A.131.D.11.i; A.132.D.11.i; A.133.D.11.i; A.134.D.11.i;
A.135.D.11.i; A.136.D.11.i; A.137.D.11.i; A.138.D.11.i;
A.139.D.11.i; A.140.D.11.i; A.141.D.11.i; A.142.D.11.i;
A.143.D.11.i; A.144.D.11.i; A.145.D.11.i; A.146.D.11.i;
A.147.D.11.i; A.148.D.11.i; A.149.D.11.i; A.150.D.11.i;
A.151.D.11.i; A.152.D.11.i; A.153.D.11.i; A.154.D.11.i;
A.155.D.11.i; A.156.D.11.i; A.157.D.11.i; A.158.D.11.i;
A.159.D.11.i; A.160.D.11.i; A.161.D.11.i; A.162.D.11.i;
A.163.D.11.i; A.164.D.11.i; A.165.D.11.i; A.166.D.11.i;
A.167.D.11.i; A.168.D.11.i; A.169.D.11.i; A.170.D.11.i;
A.171.D.11.i; A.172.D.11.i; A.173.D.11.i; A.174.D.11.i;
A.175.D.11.i; A.176.D.11.i; A.177.D.11.i; A.178.D.11.i;
A.179.D.11.i; A.180.D.11.i; A.181.D.11.i; A.182.D.11.i;
A.183.D.11.i; A.184.D.11.i; A.185.D.11.i; A.186.D.11.i;
A.187.D.11.i; A.188.D.11.i; A.189.D.11.i; A.190.D.11.i;
A.191.D.11.i; A.192.D.11.i; A.193.D.11.i; A.194.D.11.i;
A.195.D.11.i; A.196.D.11.i; A.197.D.11.i; A.198.D.11.i;
A.199.D.11.i; A.200.D.11.i; A.201.D.11.i; A.202.D.11.i;
A.203.D.11.i; A.204.D.11.i; A.205.D.11.i; A.206.D.11.i;
A.207.D.11.i; A.208.D.11.i; A.209.D.11.i; A.210.D.11.i;
A.211.D.11.i; A.212.D.11.i; A.213.D.11.i; A.214.D.11.i;
A.215.D.11.i; A.216.D.11.i; A.217.D.11.i; A.218.D.11.i;
A.219.D.11.i; A.220.D.11.i; A.221.D.11.i; A.222.D.11.i;
A.223.D.11.i; A.224.D.11.i; A.225.D.11.i; A.226.D.11.i;
A.227.D.11.i; A.228.D.11.i; A.229.D.11.i; A.230.D.11.i;
A.231.D.11.i; A.232.D.11.i; A.233.D.11.i; A.234.D.11.i;
A.235.D.11.i; A.236.D.11.i; A.237.D.11.i; A.238.D.11.i;
A.239.D.11.i; A.240.D.11.i; A.241.D.11.i; A.242.D.11.i;
A.243.D.11.i; A.244.D.11.i; A.245.D.11.i; A.246.D.11.i;
A.247.D.11.i; A.248.D.11.i; A.249.D.11.i; A.250.D.11.i;
A.251.D.11.i; A.252.D.11.i; A.253.D.11.i; A.254.D.11.i;
A.255.D.11.i; A.256.D.11.i; A.257.D.11.i; A.258.D.11.i;
A.259.D.11.i; A.260.D.11.i; A.261.D.11.i; A.262.D.11.i;
A.263.D.11.i; A.264.D.11.i; A.265.D.11.i; A.266.D.11.i;
A.267.D.11.i; A.268.D.11.i; A.269.D.11.i; A.270.D.11.i;
A.271.D.11.i; A.272.D.11.i; A.273.D.11.i; A.274.D.11.i;
A.275.D.11.i; A.276.D.11.i; A.277.D.11.i; A.278.D.11.i;
A.279.D.11.i; A.280.D.11.i; A.281.D.11.i; A.282.D.11.i;
A.283.D.11.i; A.284.D.11.i; A.285.D.11.i; A.286.D.11.i;
A.287.D.11.i; A.288.D.11.i; A.289.D.11.i; A.290.D.11.i;
A.291.D.11.i; A.292.D.11.i; A.293.D.11.i; A.294.D.11.i;
A.295.D.11.i; A.296.D.11.i; A.297.D.11.i; A.298.D.11.i;
A.299.D.11.i; A.300.D.11.i; A.301.D.11.i; A.302.D.11.i;
A.303.D.11.i; A.304.D.11.i; A.305.D.11.i; A.306.D.11.i;
A.307.D.11.i; A.308.D.11.i; A.309.D.11.i; A.310.D.11.i;
A.311.D.11.i; A.312.D.11.i; A.313.D.11.i; A.314.D.11.i;
A.315.D.11.i; A.316.D.11.i; A.317.D.11.i; A.318.D.11.i;
A.319.D.11.i; A.320.D.11.i; A.321.D.11.i; A.323.D.11.i;
A.324.D.11.i; A.325.D.11.i; A.326.D.11.i; A.327.D.11.i;
A.328.D.11.i; A.329.D.11.i; A.330.D.11.i; A.331.D.11.i;
A.332.D.11.i; A.333.D.11.i; A.334.D.11.i; A.335.D.11.i;
A.336.D.11.i; A.337.D.11.i; A.338.D.11.i; A.339.D.11.i;
A.340.D.11.i; A.341.D.11.i; A.342.D.11.i; A.343.D.11.i;
A.344.D.11.i; A.345.D.11.i; A.346.D.11.i; A.347.D.11.i;
A.348.D.11.i; A.349.D.11.i; A.350.D.11.i; A.351.D.11.i;
A.352.D.11.i; A.353.D.11.i; A.354.D.11.i; A.355.D.11.i;
A.356.D.11.i; A.357.D.11.i; A.358.D.11.i; A.359.D.11.i;
A.360.D.11.i; A.361.D.11.i; A.362.D.11.i; A.363.D.11.i;
A.364.D.11.i; A.365.D.11.i; A.366.D.11.i; A.367.D.11.i;
A.368.D.11.i; A.369.D.11.i; A.370.D.11.i; A.371.D.11.i;
A.372.D.11.i; A.373.D.11.i; A.374.D.11.i; A.375.D.11.i;
A.376.D.11.i; A.377.D.11.i; A.378.D.11.i; A.379.D.11.i;
A.380.D.11.i; A.381.D.11.i; A.382.D.11.i; A.383.D.11.i;
A.384.D.11.i; A.385.D.11.i; A.386.D.11.i; A.387.D.11.i;
A.388.D.11.i; A.389.D.11.i; A.390.D.11.i; A.391.D.11.i;
A.392.D.11.i; A.393.D.11.i; A.394.D.11.i; A.395.D.11.i;
A.396.D.11.i; A.397.D.11.i; A.398.D.11.i; A.399.D.11.i;
A.400.D.11.i; A.401.D.11.i; A.402.D.11.i; A.403.D.11.i;
A.404.D.11.i; A.405.D.11.i; A.406.D.11.i; A.407.D.11.i;
A.408.D.11.i; A.409.D.11.i; A.410.D.11.i; A.411.D.11.i;
A.412.D.11.i; A.413.D.11.i; A.414.D.11.i; A.415.D.11.i;
A.416.D.11.i; A.417.D.11.i; A.418.D.11.i; A.419.D.11.i;
A.420.D.11.i; A.421.D.11.i; A.422.D.11.i; A.423.D.11.i;
A.424.D.11.i; A.425.D.11.i; A.426.D.11.i; A.427.D.11.i;
A.428.D.11.i; A.429.D.11.i; A.430.D.11.i; A.431.D.11.i;
A.432.D.11.i; A.433.D.11.i; A.434.D.11.i; A.435.D.11.i;
A.436.D.11.i; A.437.D.11.i; A.438.D.11.i; A.439.D.11.i;
A.440.D.11.i; A.441.D.11.i; A.442.D.11.i; A.443.D.11.i;
A.444.D.11.i; A.445.D.11.i; A.446.D.11.i; A.447.D.11.i;
A.448.D.11.i; A.449.D.11.i; A.450.D.11.i; A.451.D.11.i;
A.452.D.11.i; A.453.D.11.i; A.454.D.11.i; A.455.D.11.i;
A.456.D.11.i; A.457.D.11.i; A.458.D.11.i; A.459.D.11.i;
A.460.D.11.i; A.461.D.11.i; A.462.D.11.i; A.463.D.11.i;
A.464.D.11.i; A.465.D.11.i; A.466.D.11.i; A.467.D.11.i;
A.468.D.11.i; A.469.D.11.i; A.470.D.11.i; A.471.D.11.i;
A.472.D.11.i; A.473.D.11.i; A.474.D.11.i; A.475.D.11.i;
A.476.D.11.i; A.477.D.11.i; A.478.D.11.i; A.479.D.11.i;
A.480.D.11.i; A.481.D.11.i; A.482.D.11.i; A.483.D.11.i;
A.484.D.11.i; A.485.D.11.i; A.486.D.11.i; A.487.D.11.i;
A.488.D.11.i; A.489.D.11.i; A.490.D.11.i; A.491.D.11.i;
A.492.D.11.i; A.493.D.11.i; A.494.D.11.i; A.495.D.11.i;
A.496.D.11.i; A.497.D.11.i; A.498.D.11.i; A.499.D.11.i;
A.500.D.11.i; A.501.D.11.i; A.502.D.11.i; A.503.D.11.i;
A.504.D.11.i; A.505.D.11.i; A.506.D.11.i; A.507.D.11.i;
A.508.D.11.i; A.509.D.11.i; A.510.D.11.i; A.511.D.11.i;
A.512.D.11.i; A.512.D.11.i; A.513.D.11.i; A.514.D.11.i;
A.515.D.11.i; A.516.D.11.i; A.517.D.11.i; A.518.D.11.i;
A.519.D.11.i; A.520.D.11.i; A.521.D.11.i; A.522.D.11.i;
A.523.D.11.i; A.524.D.11.i; A.525.D.11.i; A.526.D.11.i;
A.527.D.11.i; A.528.D.11.i; A.529.D.11.i; A.530.D.11.i;
A.531.D.11.i; A.532.D.11.i; A.533.D.11.i; A.534.D.11.i;
A.535.D.11.i; A.536.D.11.i; A.537.D.11.i; A.538.D.11.i;
A.539.D.11.i; A.540.D.11.i; A.541.D.11.i; A.542.D.11.i;
A.543.D.11.i; A.544.D.11.i; A.545.D.11.i; A.546.D.11.i;
A.547.D.11.i; A.548.D.11.i; A.549.D.11.i; A.550.D.11.i;
A.551.D.11.i; A.552.D.11.i; A.553.D.11.i; A.554.D.11.i;
A.555.D.11.i; A.556.D.11.i; A.557.D.11.i; A.558.D.11.i;
A.559.D.11.i; A.560.D.11.i; A.561.D.11.i; A.562.D.11.i;
A.563.D.11.i; A.564.D.11.i; A.565.D.11.i; A.566.D.11.i;
A.567.D.11.i; A.568.D.11.i; A.569.D.11.i; A.570.D.11.i;
A.571.D.11.i; A.572.D.11.i; A.573.D.11.i; A.574.D.11.i;
A.575.D.11.i; A.576.D.11.i; A.577.D.11.i; A.578.D.11.i;
A.579.D.11.i; A.580.D.11.i; A.581.D.11.i; A.582.D.11.i;
A.583.D.11.i; A.584.D.11.i; A.585.D.11.i; A.586.D.11.i;
A.587.D.11.i; A.588.D.11.i; A.589.D.11.i; A.590.D.11.i;
A.591.D.11.i; A.592.D.11.i; A.593.D.11.i; A.594.D.11.i;
A.595.D.11.i; A.596.D.11.i; A.597.D.11.i; A.598.D.11.i;
A.599.D.11.i; A.600.D.11.i; A.601.D.11.i; A.602.D.11.i;
A.603.D.11.i; A.604.D.11.i; A.605.D.11.i; A.606.D.11.i;
A.607.D.11.i; A.608.D.11.i; A.609.D.11.i; A.610.D.11.i;
A.611.D.11.i; A.612.D.11.i; A.613.D.11.i; A.614.D.11.i;
A.615.D.11.i;
A.616.D.11.i; A.617.D.11.i; A.618.D.11.i; A.619.D.11.i;
A.620.D.11.i; A.621.D.11.i; A.622.D.11.i; A.623.D.11.i;
A.624.D.11.i; A.625.D.11.i; A.626.D.11.i; A.627.D.11.i;
A.628.D.11.i; A.629.D.11.i; A.630.D.11.i; A.631.D.11.i;
A.632.D.11.i; A.633.D.11.i; A.634.D.11.i; A.635.D.11.i;
A.636.D.11.i; A.637.D.11.i; A.638.D.11.i; A.639.D.11.i;
A.640.D.11.i; A.641.D.11.i; A.642.D.11.i; A.643.D.11.i;
A.644.D.11.i; A.645.D.11.i; A.646.D.11.i; A.647.D.11.i;
A.648.D.11.i; A.649.D.11.i; A.650.D.11.i; A.651.D.11.i;
A.652.D.11.i; A.653.D.11.i; A.654.D.11.i; A.655.D.11.i;
A.656.D.11.i; A.657.D.11.i; A.658.D.11.i; A.659.D.11.i;
A.660.D.11.i; A.2.E.4.i; A.3.E.4.i; A.4.E.4.i; A.5.E.4.i;
A.6.E.4.i; A.7.E.4.i; A.9.E.4.i; A.10.E.4.i; A.15.E.4.i;
A.100.E.4.i; A.101.E.4.i; A.102.E.4.i; A.103.E.4.i; A.104.E.4.i;
A.105.E.4.i; A.106.E.4.i; A.107.E.4.i; A.108.E.4.i; A.109.E.4.i;
A.110.E.4.i; A.111.E.4.i; A.112.E.4.i; A.113.E.4.i; A.114.E.4.i;
A.115.E.4.i; A.116.E.4.i; A.117.E.4.i; A.118.E.4.i; A.119.E.4.i;
A.120.E.4.i; A.121.E.4.i; A.122.E.4.i; A.123.E.4.i; A.124.E.4.i;
A.125.E.4.i; A.126.E.4.i; A.127.E.4.i; A.128.E.4.i; A.129.E.4.i;
A.130.E.4.i; A.131.E.4.i; A.132.E.4.i; A.133.E.4.i; A.134.E.4.i;
A.135.E.4.i; A.136.E.4.i; A.137.E.4.i; A.138.E.4.i; A.139.E.4.i;
A.140.E.4.i; A.141.E.4.i; A.142.E.4.i; A.143.E.4.i; A.144.E.4.i;
A.145.E.4.i; A.146.E.4.i; A.147.E.4.i; A.148.E.4.i; A.149.E.4.i;
A.150.E.4.i; A.151.E.4.i; A.152.E.4.i; A.153.E.4.i; A.154.E.4.i;
A.155.E.4.i; A.156.E.4.i; A.157.E.4.i; A.158.E.4.i; A.159.E.4.i;
A.160.E.4.i; A.161.E.4.i; A.162.E.4.i; A.163.E.4.i; A.164.E.4.i;
A.165.E.4.i; A.166.E.4.i; A.167.E.4.i; A.168.E.4.i; A.169.E.4.i;
A.170.E.4.i; A.171.E.4.i; A.172.E.4.i; A.173.E.4.i; A.174.E.4.i;
A.175.E.4.i; A.176.E.4.i; A.177.E.4.i; A.178.E.4.i; A.179.E.4.i;
A.180.E.4.i; A.181.E.4.i; A.182.E.4.i; A.183.E.4.i; A.184.E.4.i;
A.185.E.4.i; A.186.E.4.i; A.187.E.4.i; A.188.E.4.i; A.189.E.4.i;
A.190.E.4.i; A.191.E.4.i; A.192.E.4.i; A.193.E.4.i; A.194.E.4.i;
A.195.E.4.i; A.196.E.4.i; A.197.E.4.i; A.198.E.4.i; A.199.E.4.i;
A.200.E.4.i; A.201.E.4.i; A.202.E.4.i; A.203.E.4.i; A.204.E.4.i;
A.205.E.4.i; A.206.E.4.i; A.207.E.4.i; A.208.E.4.i; A.209.E.4.i;
A.210.E.4.i; A.211.E.4.i; A.212.E.4.i; A.213.E.4.i; A.214.E.4.i;
A.215.E.4.i; A.216.E.4.i; A.217.E.4.i; A.218.E.4.i; A.219.E.4.i;
A.220.E.4.i; A.221.E.4.i; A.222.E.4.i; A.223.E.4.i; A.224.E.4.i;
A.225.E.4.i; A.226.E.4.i; A.227.E.4.i; A.228.E.4.i; A.229.E.4.i;
A.230.E.4.i; A.231.E.4.i; A.232.E.4.i; A.233.E.4.i; A.234.E.4.i;
A.235.E.4.i; A.236.E.4.i; A.237.E.4.i; A.238.E.4.i; A.239.E.4.i;
A.240.E.4.i; A.241.E.4.i; A.242.E.4.i; A.243.E.4.i; A.244.E.4.i;
A.245.E.4.i; A.246.E.4.i; A.247.E.4.i; A.248.E.4.i; A.249.E.4.i;
A.250.E.4.i; A.251.E.4.i; A.252.E.4.i; A.253.E.4.i; A.254.E.4.i;
A.255.E.4.i; A.256.E.4.i; A.257.E.4.i; A.258.E.4.i; A.259.E.4.i;
A.260.E.4.i; A.261.E.4.i; A.262.E.4.i; A.263.E.4.i; A.264.E.4.i;
A.265.E.4.i; A.266.E.4.i; A.267.E.4.i; A.268.E.4.i; A.269.E.4.i;
A.270.E.4.i; A.271.E.4.i; A.272.E.4.i; A.273.E.4.i; A.274.E.4.i;
A.275.E.4.i; A.276.E.4.i; A.277.E.4.i; A.278.E.4.i; A.279.E.4.i;
A.280.E.4.i; A.281.E.4.i; A.282.E.4.i; A.283.E.4.i; A.284.E.4.i;
A.285.E.4.i; A.286.E.4.i; A.287.E.4.i; A.288.E.4.i; A.289.E.4.i;
A.290.E.4.i; A.291.E.4.i; A.292.E.4.i; A.293.E.4.i; A.294.E.4.i;
A.295.E.4.i; A.296.E.4.i; A.297.E.4.i; A.298.E.4.i; A.299.E.4.i;
A.300.E.4.i; A.301.E.4.i; A.302.E.4.i; A.303.E.4.i; A.304.E.4.i;
A.305.E.4.i; A.306.E.4.i; A.307.E.4.i; A.308.E.4.i; A.309.E.4.i;
A.310.E.4.i; A.311.E.4.i; A.312.E.4.i; A.313.E.4.i; A.314.E.4.i;
A.315.E.4.i; A.316.E.4.i; A.317.E.4.i; A.318.E.4.i; A.319.E.4.i;
A.320.E.4.i; A.321.E.4.i; A.323.E.4.i; A.324.E.4.i; A.325.E.4.i;
A.326.E.4.i; A.327.E.4.i; A.328.E.4.i; A.329.E.4.i; A.330.E.4.i;
A.331.E.4.i; A.332.E.4.i; A.333.E.4.i; A.334.E.4.i; A.335.E.4.i;
A.336.E.4.i; A.337.E.4.i; A.338.E.4.i; A.339.E.4.i; A.340.E.4.i;
A.341.E.4.i; A.342.E.4.i; A.343.E.4.i; A.344.E.4.i; A.345.E.4.i;
A.346.E.4.i; A.347.E.4.i; A.348.E.4.i; A.349.E.4.i; A.350.E.4.i;
A.351.E.4.i; A.352.E.4.i; A.353.E.4.i; A.354.E.4.i; A.355.E.4.i;
A.356.E.4.i; A.357.E.4.i; A.358.E.4.i; A.359.E.4.i; A.360.E.4.i;
A.361.E.4.i; A.362.E.4.i; A.363.E.4.i; A.364.E.4.i; A.365.E.4.i;
A.366.E.4.i; A.367.E.4.i; A.368.E.4.i; A.369.E.4.i; A.370.E.4.i;
A.371.E.4.i; A.372.E.4.i; A.373.E.4.i; A.374.E.4.i; A.375.E.4.i;
A.376.E.4.i; A.377.E.4.i; A.378.E.4.i; A.379.E.4.i; A.380.E.4.i;
A.381.E.4.i; A.382.E.4.i; A.383.E.4.i; A.384.E.4.i; A.385.E.4.i;
A.386.E.4.i; A.387.E.4.i; A.388.E.4.i; A.389.E.4.i; A.390.E.4.i;
A.391.E.4.i; A.392.E.4.i; A.393.E.4.i; A.394.E.4.i; A.395.E.4.i;
A.396.E.4.i; A.397.E.4.i; A.398.E.4.i; A.399.E.4.i; A.400.E.4.i;
A.401.E.4.i; A.402.E.4.i; A.403.E.4.i; A.404.E.4.i; A.405.E.4.i;
A.406.E.4.i; A.407.E.4.i; A.408.E.4.i; A.409.E.4.i; A.410.E.4.i;
A.411.E.4.i; A.412.E.4.i; A.413.E.4.i; A.414.E.4.i; A.415.E.4.i;
A.416.E.4.i; A.417.E.4.i; A.418.E.4.i; A.419.E.4.i; A.420.E.4.i;
A.421.E.4.i; A.422.E.4.i; A.423.E.4.i; A.424.E.4.i; A.425.E.4.i;
A.426.E.4.i; A.427.E.4.i; A.428.E.4.i; A.429.E.4.i; A.430.E.4.i;
A.431.E.4.i; A.432.E.4.i; A.433.E.4.i; A.434.E.4.i; A.435.E.4.i;
A.436.E.4.i; A.437.E.4.i; A.438.E.4.i; A.439.E.4.i; A.440.E.4.i;
A.441.E.4.i; A.442.E.4.i; A.443.E.4.i; A.444.E.4.i; A.445.E.4.i;
A.446.E.4.i; A.447.E.4.i; A.448.E.4.i; A.449.E.4.i; A.450.E.4.i;
A.451.E.4.i; A.452.E.4.i; A.453.E.4.i; A.454.E.4.i; A.455.E.4.i;
A.456.E.4.i; A.457.E.4.i; A.458.E.4.i; A.459.E.4.i; A.460.E.4.i;
A.461.E.4.i; A.462.E.4.i; A.463.E.4.i; A.464.E.4.i; A.465.E.4.i;
A.466.E.4.i; A.467.E.4.i; A.468.E.4.i; A.469.E.4.i; A.470.E.4.i;
A.471.E.4.i; A.472.E.4.i; A.473.E.4.i; A.474.E.4.i; A.475.E.4.i;
A.476.E.4.i; A.477.E.4.i; A.478.E.4.i; A.479.E.4.i; A.480.E.4.i;
A.481.E.4.i; A.482.E.4.i; A.483.E.4.i; A.484.E.4.i; A.485.E.4.i;
A.486.E.4.i; A.487.E.4.i; A.488.E.4.i; A.489.E.4.i; A.490.E.4.i;
A.491.E.4.i; A.492.E.4.i; A.493.E.4.i; A.494.E.4.i; A.495.E.4.i;
A.496.E.4.i; A.497.E.4.i; A.498.E.4.i; A.499.E.4.i; A.500.E.4.i;
A.501.E.4.i; A.502.E.4.i; A.503.E.4.i; A.504.E.4.i; A.505.E.4.i;
A.506.E.4.i; A.507.E.4.i; A.508.E.4.i; A.509.E.4.i; A.510.E.4.i;
A.511.E.4.i; A.512.E.4.i; A.512.E.4.i; A.513.E.4.i; A.514.E.4.i;
A.515.E.4.i; A.516.E.4.i; A.517.E.4.i; A.518.E.4.i; A.519.E.4.i;
A.520.E.4.i; A.521.E.4.i; A.522.E.4.i; A.523.E.4.i; A.524.E.4.i;
A.525.E.4.i; A.526.E.4.i; A.527.E.4.i; A.528.E.4.i; A.529.E.4.i;
A.530.E.4.i; A.531.E.4.i; A.532.E.4.i; A.533.E.4.i; A.534.E.4.i;
A.535.E.4.i; A.536.E.4.i; A.537.E.4.i; A.538.E.4.i; A.539.E.4.i;
A.540.E.4.i; A.541.E.4.i; A.542.E.4.i; A.543.E.4.i; A.544.E.4.i;
A.545.E.4.i; A.546.E.4.i; A.547.E.4.i; A.548.E.4.i; A.549.E.4.i;
A.550.E.4.i; A.551.E.4.i; A.552.E.4.i; A.553.E.4.i; A.554.E.4.i;
A.555.E.4.i; A.556.E.4.i; A.557.E.4.i; A.558.E.4.i; A.559.E.4.i;
A.560.E.4.i; A.561.E.4.i; A.562.E.4.i; A.563.E.4.i; A.564.E.4.i;
A.565.E.4.i; A.566.E.4.i; A.567.E.4.i; A.568.E.4.i; A.569.E.4.i;
A.570.E.4.i; A.571.E.4.i; A.572.E.4.i; A.573.E.4.i; A.574.E.4.i;
A.575.E.4.i; A.576.E.4.i; A.577.E.4.i; A.578.E.4.i; A.579.E.4.i;
A.580.E.4.i; A.581.E.4.i; A.582.E.4.i; A.583.E.4.i; A.584.E.4.i;
A.585.E.4.i; A.586.E.4.i; A.587.E.4.i; A.588.E.4.i; A.589.E.4.i;
A.590.E.4.i; A.591.E.4.i; A.592.E.4.i; A.593.E.4.i; A.594.E.4.i;
A.595.E.4.i; A.596.E.4.i; A.597.E.4.i; A.598.E.4.i; A.599.E.4.i;
A.600.E.4.i; A.601.E.4.i; A.602.E.4.i; A.603.E.4.i; A.604.E.4.i;
A.605.E.4.i; A.606.E.4.i; A.607.E.4.i; A.608.E.4.i; A.609.E.4.i;
A.610.E.4.i; A.611.E.4.i; A.612.E.4.i; A.613.E.4.i; A.614.E.4.i;
A.615.E.4.i; A.616.E.4.i; A.617.E.4.i; A.618.E.4.i; A.619.E.4.i;
A.620.E.4.i; A.621.E.4.i; A.622.E.4.i; A.623.E.4.i; A.624.E.4.i;
A.625.E.4.i; A.626.E.4.i; A.627.E.4.i; A.628.E.4.i; A.629.E.4.i;
A.630.E.4.i; A.631.E.4.i; A.632.E.4.i; A.633.E.4.i; A.634.E.4.i;
A.635.E.4.i; A.636.E.4.i; A.637.E.4.i; A.638.E.4.i; A.639.E.4.i;
A.640.E.4.i; A.641.E.4.i; A.642.E.4.i; A.643.E.4.i; A.644.E.4.i;
A.645.E.4.i; A.646.E.4.i; A.647.E.4.i; A.648.E.4.i; A.649.E.4.i;
A.650.E.4.i; A.651.E.4.i; A.652.E.4.i; A.653.E.4.i; A.654.E.4.i;
A.655.E.4.i; A.656.E.4.i; A.657.E.4.i; A.658.E.4.i; A.659.E.4.i;
A.660.E.4.i; A.2.E.11.i; A.3.E.11.i; A.4.E.11.i; A.5.E.11.i;
A.6.E.11.i; A.7.E.11.i; A.9.E.11.i; A.10.E.11.i; A.15.E.11.i;
A.100.E.11.i; A.101.E.11.i; A.102.E.11.i; A.103.E.11.i;
A.104.E.11.i; A.105.E.11.i; A.106.E.11.i; A.107.E.11.i;
A.108.E.11.i; A.109.E.11.i; A.110.E.11.i; A.111.E.11.i;
A.112.E.11.i; A.113.E.11.i; A.114.E.11.i; A.115.E.11.i;
A.116.E.11.i; A.117.E.11.i; A.118.E.11.i; A.119.E.11.i;
A.120.E.11.i; A.121.E.11.i; A.122.E.11.i; A.123.E.11.i;
A.124.E.11.i; A.125.E.11.i; A.126.E.11.i; A.127.E.11.i;
A.128.E.11.i; A.129.E.11.i; A.130.E.11.i; A.131.E.11.i;
A.132.E.11.i; A.133.E.11.i; A.134.E.11.i; A.135.E.11.i;
A.136.E.11.i; A.137.E.11.i; A.138.E.11.i; A.139.E.11.i;
A.140.E.11.i; A.141.E.11.i; A.142.E.11.i; A.143.E.11.i;
A.144.E.11.i; A.145.E.11.i; A.146.E.11.i; A.147.E.11.i;
A.148.E.11.i; A.149.E.11.i; A.150.E.11.i; A.151.E.11.i;
A.152.E.11.i; A.153.E.11.i; A.154.E.11.i; A.155.E.11.i;
A.156.E.11.i; A.157.E.11.i; A.158.E.11.i; A.159.E.11.i;
A.160.E.11.i; A.161.E.11.i; A.162.E.11.i; A.163.E.11.i;
A.164.E.11.i; A.165.E.11.i; A.166.E.11.i; A.167.E.11.i;
A.168.E.11.i; A.169.E.11.i; A.170.E.11.i; A.171.E.11.i;
A.172.E.11.i; A.173.E.11.i; A.174.E.11.i; A.175.E.11.i;
A.176.E.11.i; A.177.E.11.i; A.178.E.11.i; A.179.E.11.i;
A.180.E.11.i; A.181.E.11.i; A.182.E.11.i; A.183.E.11.i;
A.184.E.11.i; A.185.E.11.i; A.186.E.11.i; A.187.E.11.i;
A.188.E.11.i; A.189.E.11.i; A.190.E.11.i; A.191.E.11.i;
A.192.E.11.i; A.193.E.11.i; A.194.E.11.i; A.195.E.11.i;
A.196.E.11.i; A.197.E.11.i; A.198.E.11.i; A.199.E.11.i;
A.200.E.11.i; A.201.E.11.i; A.202.E.11.i; A.203.E.11.i;
A.204.E.11.i; A.205.E.11.i; A.206.E.11.i; A.207.E.11.i;
A.208.E.11.i; A.209.E.11.i; A.210.E.11.i; A.211.E.11.i;
A.212.E.11.i; A.213.E.11.i; A.214.E.11.i; A.215.E.11.i;
A.216.E.11.i; A.217.E.11.i; A.218.E.11.i; A.219.E.11.i;
A.220.E.11.i; A.221.E.11.i; A.222.E.11.i; A.223.E.11.i;
A.224.E.11.i; A.225.E.11.i; A.226.E.11.i; A.227.E.11.i;
A.228.E.11.i; A.229.E.11.i; A.230.E.11.i; A.231.E.11.i;
A.232.E.11.i; A.233.E.11.i; A.234.E.11.i; A.235.E.11.i;
A.236.E.11.i; A.237.E.11.i; A.238.E.11.i; A.239.E.11.i;
A.240.E.11.i; A.241.E.11.i; A.242.E.11.i; A.243.E.11.i;
A.244.E.11.i; A.245.E.11.i; A.246.E.11.i; A.247.E.11.i;
A.248.E.11.i; A.249.E.11.i; A.250.E.11.i; A.251.E.11.i;
A.252.E.11.i; A.253.E.11.i; A.254.E.11.i; A.255.E.11.i;
A.256.E.11.i; A.257.E.11.i; A.258.E.11.i; A.259.E.11.i;
A.260.E.11.i; A.261.E.11.i; A.262.E.11.i; A.263.E.11.i;
A.264.E.11.i; A.265.E.11.i; A.266.E.11.i; A.267.E.11.i;
A.268.E.11.i; A.269.E.11.i; A.270.E.11.i; A.271.E.11.i;
A.272.E.11.i; A.273.E.11.i; A.274.E.11.i; A.275.E.11.i;
A.276.E.11.i; A.277.E.11.i; A.278.E.11.i; A.279.E.11.i;
A.280.E.11.i; A.281.E.11.i; A.282.E.11.i; A.283.E.11.i;
A.284.E.11.i; A.285.E.11.i; A.286.E.11.i; A.287.E.11.i;
A.288.E.11.i; A.289.E.11.i; A.290.E.11.i; A.291.E.11.i;
A.292.E.11.i; A.293.E.11.i; A.294.E.11.i; A.295.E.11.i;
A.296.E.11.i; A.297.E.11.i; A.298.E.11.i; A.299.E.11.i;
A.300.E.11.i; A.301.E.11.i; A.302.E.11.i; A.303.E.11.i;
A.304.E.11.i; A.305.E.11.i; A.306.E.11.i; A.307.E.11.i;
A.308.E.11.i; A.309.E.11.i; A.310.E.11.i; A.311.E.11.i;
A.312.E.11.i; A.313.E.11.i; A.314.E.11.i; A.315.E.11.i;
A.316.E.11.i; A.317.E.11.i; A.318.E.11.i; A.319.E.11.i;
A.320.E.11.i; A.321.E.11.i; A.323.E.11.i; A.324.E.11.i;
A.325.E.11.i; A.326.E.11.i; A.327.E.11.i; A.328.E.11.i;
A.329.E.11.i; A.330.E.11.i; A.331.E.11.i; A.332.E.11.i;
A.333.E.11.i; A.334.E.11.i; A.335.E.11.i; A.336.E.11.i;
A.337.E.11.i; A.338.E.11.i; A.339.E.11.i; A.340.E.11.i;
A.341.E.11.i; A.342.E.11.i; A.343.E.11.i; A.344.E.11.i;
A.345.E.11.i; A.346.E.11.i; A.347.E.11.i; A.348.E.11.i;
A.349.E.11.i; A.350.E.11.i; A.351.E.11.i; A.352.E.11.i;
A.353.E.11.i; A.354.E.11.i; A.355.E.11.i; A.356.E.11.i;
A.357.E.11.i; A.358.E.11.i; A.359.E.11.i; A.360.E.11.i;
A.361.E.11.i; A.362.E.11.i; A.363.E.11.i; A.364.E.11.i;
A.365.E.11.i; A.366.E.11.i; A.367.E.11.i; A.368.E.11.i;
A.369.E.11.i; A.370.E.11.i; A.371.E.11.i; A.372.E.11.i;
A.373.E.11.i; A.374.E.11.i; A.375.E.11.i; A.376.E.11.i;
A.377.E.11.i; A.378.E.11.i; A.379.E.11.i; A.380.E.11.i;
A.381.E.11.i; A.382.E.11.i; A.383.E.11.i; A.384.E.11.i;
A.385.E.11.i; A.386.E.11.i; A.387.E.11.i; A.388.E.11.i;
A.389.E.11.i; A.390.E.11.i; A.391.E.11.i; A.392.E.11.i;
A.393.E.11.i; A.394.E.11.i; A.395.E.11.i; A.396.E.11.i;
A.397.E.11.i; A.398.E.11.i; A.399.E.11.i; A.400.E.11.i;
A.401.E.11.i; A.402.E.11.i; A.403.E.11.i; A.404.E.11.i;
A.405.E.11.i; A.406.E.11.i; A.407.E.11.i; A.408.E.11.i;
A.409.E.11.i; A.410.E.11.i; A.411.E.11.i; A.412.E.11.i;
A.413.E.11.i; A.414.E.11.i; A.415.E.11.i; A.416.E.11.i;
A.417.E.11.i; A.418.E.11.i; A.419.E.11.i; A.420.E.11.i;
A.421.E.11.i; A.422.E.11.i; A.423.E.11.i; A.424.E.11.i;
A.425.E.11.i; A.426.E.11.i; A.427.E.11.i; A.428.E.11.i;
A.429.E.11.i; A.430.E.11.i; A.431.E.11.i; A.432.E.11.i;
A.433.E.11.i; A.434.E.11.i; A.435.E.11.i; A.436.E.11.i;
A.437.E.11.i; A.438.E.11.i; A.439.E.11.i; A.440.E.11.i;
A.441.E.11.i; A.442.E.11.i; A.443.E.11.i; A.444.E.11.i;
A.445.E.11.i; A.446.E.11.i; A.447.E.11.i; A.448.E.11.i;
A.449.E.11.i; A.450.E.11.i; A.451.E.11.i; A.452.E.11.i;
A.453.E.11.i; A.454.E.11.i; A.455.E.11.i; A.456.E.11.i;
A.457.E.11.i; A.458.E.11.i; A.459.E.11.i; A.460.E.11.i;
A.461.E.11.i; A.462.E.11.i; A.463.E.11.i; A.464.E.11.i;
A.465.E.11.i; A.466.E.11.i; A.467.E.11.i; A.468.E.11.i;
A.469.E.11.i; A.470.E.11.i; A.471.E.11.i; A.472.E.11.i;
A.473.E.11.i; A.474.E.11.i; A.475.E.11.i; A.476.E.11.i;
A.477.E.11.i; A.478.E.11.i; A.479.E.11.i; A.480.E.11.i;
A.481.E.11.i; A.482.E.11.i; A.483.E.11.i; A.484.E.11.i;
A.485.E.11.i; A.486.E.11.i; A.487.E.11.i; A.488.E.11.i;
A.489.E.11.i; A.490.E.11.i; A.491.E.11.i; A.492.E.11.i;
A.493.E.11.i; A.494.E.11.i; A.495.E.11.i; A.496.E.11.i;
A.497.E.11.i; A.498.E.11.i; A.499.E.11.i; A.500.E.11.i;
A.501.E.11.i; A.502.E.11.i; A.503.E.11.i; A.504.E.11.i;
A.505.E.11.i; A.506.E.11.i; A.507.E.11.i; A.508.E.11.i;
A.509.E.11.i; A.510.E.11.i; A.511.E.11.i; A.512.E.11.i;
A.512.E.11.i; A.513.E.11.i; A.514.E.11.i; A.515.E.11.i;
A.516.E.11.i; A.517.E.11.i; A.518.E.11.i; A.519.E.11.i;
A.520.E.11.i; A.521.E.11.i; A.522.E.11.i; A.523.E.11.i;
A.524.E.11.i; A.525.E.11.i; A.526.E.11.i; A.527.E.11.i;
A.528.E.11.i; A.529.E.11.i; A.530.E.11.i; A.531.E.11.i;
A.532.E.11.i; A.533.E.11.i; A.534.E.11.i; A.535.E.11.i;
A.536.E.11.i; A.537.E.11.i; A.538.E.11.i; A.539.E.11.i;
A.540.E.11.i; A.541.E.11.i; A.542.E.11.i; A.543.E.11.i;
A.544.E.11.i; A.545.E.11.i; A.546.E.11.i; A.547.E.11.i;
A.548.E.11.i; A.549.E.11.i; A.550.E.11.i; A.551.E.11.i;
A.552.E.11.i; A.553.E.11.i; A.554.E.11.i; A.555.E.11.i;
A.556.E.11.i; A.557.E.11.i; A.558.E.11.i; A.559.E.11.i;
A.560.E.11.i; A.561.E.11.i; A.562.E.11.i; A.563.E.11.i;
A.564.E.11.i; A.565.E.11.i; A.566.E.11.i; A.567.E.11.i;
A.568.E.11.i; A.569.E.11.i; A.570.E.11.i; A.571.E.11.i;
A.572.E.11.i; A.573.E.11.i; A.574.E.11.i; A.575.E.11.i;
A.576.E.11.i; A.577.E.11.i; A.578.E.11.i; A.579.E.11.i;
A.580.E.11.i; A.581.E.11.i; A.582.E.11.i; A.583.E.11.i;
A.584.E.11.i; A.585.E.11.i; A.586.E.11.i; A.587.E.11.i;
A.588.E.11.i; A.589.E.11.i; A.590.E.11.i; A.591.E.11.i;
A.592.E.11.i; A.593.E.11.i; A.594.E.11.i; A.595.E.11.i;
A.596.E.11.i; A.597.E.11.i; A.598.E.11.i; A.599.E.11.i;
A.600.E.11.i; A.601.E.11.i; A.602.E.11.i; A.603.E.11.i;
A.604.E.11.i; A.605.E.11.i; A.606.E.11.i; A.607.E.11.i;
A.608.E.11.i; A.609.E.11.i; A.610.E.11.i; A.611.E.11.i;
A.612.E.11.i; A.613.E.11.i; A.614.E.11.i; A.615.E.11.i;
A.616.E.11.i; A.617.E.11.i; A.618.E.11.i; A.619.E.11.i;
A.620.E.11.i; A.621.E.11.i; A.622.E.11.i; A.623.E.11.i;
A.624.E.11.i; A.625.E.11.i; A.626.E.11.i; A.627.E.11.i;
A.628.E.11.i; A.629.E.11.i; A.630.E.11.i; A.631.E.11.i;
A.632.E.11.i; A.633.E.11.i; A.634.E.11.i; A.635.E.11.i;
A.636.E.11.i; A.637.E.11.i; A.638.E.11.i; A.639.E.11.i;
A.640.E.11.i; A.641.E.11.i; A.642.E.11.i; A.643.E.11.i;
A.644.E.11.i; A.645.E.11.i; A.646.E.11.i; A.647.E.11.i;
A.648.E.11.i; A.649.E.11.i; A.650.E.11.i; A.651.E.11.i;
A.652.E.11.i; A.653.E.11.i; A.654.E.11.i; A.655.E.11.i;
A.656.E.11.i; A.657.E.11.i; A.658.E.11.i; A.659.E.11.i;
A.660.E.11.i; A.2.F.4.i; A.3.F.4.i; A.4.F.4.i; A.5.F.4.i;
A.6.F.4.i; A.7.F.4.i; A.9.F.4.i; A.10.F.4.i; A.15.F.4.i;
A.100.F.4.i; A.101.F.4.i; A.102.F.4.i; A.103.F.4.i; A.104.F.4.i;
A.105.F.4.i; A.106.F.4.i; A.107.F.4.i; A.108.F.4.i; A.109.F.4.i;
A.110.F.4.i; A.111.F.4.i; A.112.F.4.i; A.113.F.4.i; A.114.F.4.i;
A.115.F.4.i; A.116.F.4.i; A.117.F.4.i; A.118.F.4.i; A.119.F.4.i;
A.120.F.4.i; A.121.F.4.i; A.122.F.4.i; A.123.F.4.i; A.124.F.4.i;
A.125.F.4.i; A.126.F.4.i; A.127.F.4.i; A.128.F.4.i; A.129.F.4.i;
A.130.F.4.i; A.131.F.4.i; A.132.F.4.i; A.133.F.4.i; A.134.F.4.i;
A.135.F.4.i; A.136.F.4.i; A.137.F.4.i; A.138.F.4.i; A.139.F.4.i;
A.140.F.4.i; A.141.F.4.i; A.142.F.4.i; A.143.F.4.i; A.144.F.4.i;
A.145.F.4.i; A.146.F.4.i; A.147.F.4.i; A.148.F.4.i; A.149.F.4.i;
A.150.F.4.i; A.151.F.4.i; A.152.F.4.i; A.153.F.4.i; A.154.F.4.i;
A.155.F.4.i; A.156.F.4.i; A.157.F.4.i; A.158.F.4.i; A.159.F.4.i;
A.160.F.4.i; A.161.F.4.i; A.162.F.4.i; A.163.F.4.i; A.164.F.4.i;
A.165.F.4.i; A.166.F.4.i; A.167.F.4.i; A.168.F.4.i; A.169.F.4.i;
A.170.F.4.i; A.171.F.4.i; A.172.F.4.i; A.173.F.4.i; A.174.F.4.i;
A.175.F.4.i; A.176.F.4.i; A.177.F.4.i; A.178.F.4.i; A.179.F.4.i;
A.180.F.4.i; A.181.F.4.i; A.182.F.4.i; A.183.F.4.i; A.184.F.4.i;
A.185.F.4.i; A.186.F.4.i; A.187.F.4.i; A.188.F.4.i; A.189.F.4.i;
A.190.F.4.i; A.191.F.4.i; A.192.F.4.i; A.193.F.4.i; A.194.F.4.i;
A.195.F.4.i; A.196.F.4.i; A.197.F.4.i; A.198.F.4.i; A.199.F.4.i;
A.200.F.4.i; A.201.F.4.i; A.202.F.4.i; A.203.F.4.i; A.204.F.4.i;
A.205.F.4.i; A.206.F.4.i; A.207.F.4.i; A.208.F.4.i; A.209.F.4.i;
A.210.F.4.i; A.211.F.4.i; A.212.F.4.i; A.213.F.4.i; A.214.F.4.i;
A.215.F.4.i; A.216.F.4.i; A.217.F.4.i; A.218.F.4.i; A.219.F.4.i;
A.220.F.4.i; A.221.F.4.i; A.222.F.4.i; A.223.F.4.i; A.224.F.4.i;
A.225.F.4.i; A.226.F.4.i; A.227.F.4.i; A.228.F.4.i; A.229.F.4.i;
A.230.F.4.i; A.231.F.4.i; A.232.F.4.i; A.233.F.4.i; A.234.F.4.i;
A.235.F.4.i; A.236.F.4.i; A.237.F.4.i; A.238.F.4.i; A.239.F.4.i;
A.240.F.4.i; A.241.F.4.i; A.242.F.4.i; A.243.F.4.i; A.244.F.4.i;
A.245.F.4.i; A.246.F.4.i; A.247.F.4.i; A.248.F.4.i; A.249.F.4.i;
A.250.F.4.i; A.251.F.4.i; A.252.F.4.i; A.253.F.4.i; A.254.F.4.i;
A.255.F.4.i; A.256.F.4.i; A.257.F.4.i; A.258.F.4.i; A.259.F.4.i;
A.260.F.4.i; A.261.F.4.i; A.262.F.4.i; A.263.F.4.i; A.264.F.4.i;
A.265.F.4.i; A.266.F.4.i; A.267.F.4.i; A.268.F.4.i; A.269.F.4.i;
A.270.F.4.i; A.271.F.4.i; A.272.F.4.i; A.273.F.4.i; A.274.F.4.i;
A.275.F.4.i; A.276.F.4.i; A.277.F.4.i; A.278.F.4.i; A.279.F.4.i;
A.280.F.4.i; A.281.F.4.i; A.282.F.4.i; A.283.F.4.i; A.284.F.4.i;
A.285.F.4.i; A.286.F.4.i; A.287.F.4.i; A.288.F.4.i; A.289.F.4.i;
A.290.F.4.i; A.291.F.4.i; A.292.F.4.i; A.293.F.4.i; A.294.F.4.i;
A.295.F.4.i; A.296.F.4.i; A.297.F.4.i; A.298.F.4.i; A.299.F.4.i;
A.300.F.4.i; A.301.F.4.i; A.302.F.4.i; A.303.F.4.i; A.304.F.4.i;
A.305.F.4.i; A.306.F.4.i; A.307.F.4.i; A.308.F.4.i; A.309.F.4.i;
A.310.F.4.i; A.311.F.4.i; A.312.F.4.i; A.313.F.4.i; A.314.F.4.i;
A.315.F.4.i; A.316.F.4.i; A.317.F.4.i; A.318.F.4.i; A.319.F.4.i;
A.320.F.4.i; A.321.F.4.i; A.323.F.4.i; A.324.F.4.i; A.325.F.4.i;
A.326.F.4.i; A.327.F.4.i; A.328.F.4.i; A.329.F.4.i; A.330.F.4.i;
A.331.F.4.i; A.332.F.4.i; A.333.F.4.i; A.334.F.4.i; A.335.F.4.i;
A.336.F.4.i; A.337.F.4.i; A.338.F.4.i; A.339.F.4.i; A.340.F.4.i;
A.341.F.4.i; A.342.F.4.i; A.343.F.4.i; A.344.F.4.i; A.345.F.4.i;
A.346.F.4.i; A.347.F.4.i; A.348.F.4.i; A.349.F.4.i; A.350.F.4.i;
A.351.F.4.i; A.352.F.4.i; A.353.F.4.i; A.354.F.4.i; A.355.F.4.i;
A.356.F.4.i; A.357.F.4.i; A.358.F.4.i; A.359.F.4.i; A.360.F.4.i;
A.361.F.4.i; A.362.F.4.i; A.363.F.4.i; A.364.F.4.i; A.365.F.4.i;
A.366.F.4.i; A.367.F.4.i; A.368.F.4.i; A.369.F.4.i; A.370.F.4.i;
A.371.F.4.i; A.372.F.4.i; A.373.F.4.i; A.374.F.4.i; A.375.F.4.i;
A.376.F.4.i; A.377.F.4.i; A.378.F.4.i; A.379.F.4.i; A.380.F.4.i;
A.381.F.4.i; A.382.F.4.i; A.383.F.4.i; A.384.F.4.i; A.385.F.4.i;
A.386.F.4.i; A.387.F.4.i; A.388.F.4.i; A.389.F.4.i; A.390.F.4.i;
A.391.F.4.i; A.392.F.4.i; A.393.F.4.i; A.394.F.4.i; A.395.F.4.i;
A.396.F.4.i; A.397.F.4.i; A.398.F.4.i; A.399.F.4.i; A.400.F.4.i;
A.401.F.4.i; A.402.F.4.i; A.403.F.4.i; A.404.F.4.i; A.405.F.4.i;
A.406.F.4.i; A.407.F.4.i; A.408.F.4.i; A.409.F.4.i; A.410.F.4.i;
A.411.F.4.i; A.412.F.4.i; A.413.F.4.i; A.414.F.4.i; A.415.F.4.i;
A.416.F.4.i; A.417.F.4.i; A.418.F.4.i; A.419.F.4.i; A.420.F.4.i;
A.421.F.4.i; A.422.F.4.i; A.423.F.4.i; A.424.F.4.i; A.425.F.4.i;
A.426.F.4.i; A.427.F.4.i; A.428.F.4.i; A.429.F.4.i; A.430.F.4.i;
A.431.F.4.i; A.432.F.4.i; A.433.F.4.i; A.434.F.4.i; A.435.F.4.i;
A.436.F.4.i; A.437.F.4.i; A.438.F.4.i; A.439.F.4.i; A.440.F.4.i;
A.441.F.4.i; A.442.F.4.i; A.443.F.4.i; A.444.F.4.i; A.445.F.4.i;
A.446.F.4.i; A.447.F.4.i; A.448.F.4.i; A.449.F.4.i; A.450.F.4.i;
A.451.F.4.i; A.452.F.4.i; A.453.F.4.i; A.454.F.4.i; A.455.F.4.i;
A.456.F.4.i; A.457.F.4.i; A.458.F.4.i; A.459.F.4.i; A.460.F.4.i;
A.461.F.4.i; A.462.F.4.i; A.463.F.4.i; A.464.F.4.i; A.465.F.4.i;
A.466.F.4.i; A.467.F.4.i; A.468.F.4.i; A.469.F.4.i; A.470.F.4.i;
A.471.F.4.i; A.472.F.4.i; A.473.F.4.i; A.474.F.4.i; A.475.F.4.i;
A.476.F.4.i; A.477.F.4.i; A.478.F.4.i; A.479.F.4.i; A.480.F.4.i;
A.481.F.4.i; A.482.F.4.i; A.483.F.4.i; A.484.F.4.i; A.485.F.4.i;
A.486.F.4.i; A.487.F.4.i; A.488.F.4.i; A.489.F.4.i; A.490.F.4.i;
A.491.F.4.i; A.492.F.4.i; A.493.F.4.i; A.494.F.4.i; A.495.F.4.i;
A.496.F.4.i; A.497.F.4.i; A.498.F.4.i; A.499.F.4.i; A.500.F.4.i;
A.501.F.4.i; A.502.F.4.i; A.503.F.4.i; A.504.F.4.i; A.505.F.4.i;
A.506.F.4.i; A.507.F.4.i; A.508.F.4.i; A.509.F.4.i; A.510.F.4.i;
A.511.F.4.i; A.512.F.4.i; A.512.F.4.i; A.513.F.4.i; A.514.F.4.i;
A.515.F.4.i; A.516.F.4.i; A.517.F.4.i; A.518.F.4.i; A.519.F.4.i;
A.520.F.4.i; A.521.F.4.i; A.522.F.4.i; A.523.F.4.i; A.524.F.4.i;
A.525.F.4.i; A.526.F.4.i; A.527.F.4.i; A.528.F.4.i; A.529.F.4.i;
A.530.F.4.i; A.531.F.4.i; A.532.F.4.i; A.533.F.4.i; A.534.F.4.i;
A.535.F.4.i; A.536.F.4.i; A.537.F.4.i; A.538.F.4.i; A.539.F.4.i;
A.540.F.4.i; A.541.F.4.i; A.542.F.4.i; A.543.F.4.i; A.544.F.4.i;
A.545.F.4.i; A.546.F.4.i; A.547.F.4.i; A.548.F.4.i; A.549.F.4.i;
A.550.F.4.i; A.551.F.4.i; A.552.F.4.i; A.553.F.4.i; A.554.F.4.i;
A.555.F.4.i; A.556.F.4.i; A.557.F.4.i; A.558.F.4.i; A.559.F.4.i;
A.560.F.4.i; A.561.F.4.i; A.562.F.4.i; A.563.F.4.i; A.564.F.4.i;
A.565.F.4.i; A.566.F.4.i; A.567.F.4.i; A.568.F.4.i; A.569.F.4.i;
A.570.F.4.i; A.571.F.4.i; A.572.F.4.i; A.573.F.4.i; A.574.F.4.i;
A.575.F.4.i; A.576.F.4.i; A.577.F.4.i; A.578.F.4.i; A.579.F.4.i;
A.580.F.4.i; A.581.F.4.i; A.582.F.4.i; A.583.F.4.i; A.584.F.4.i;
A.585.F.4.i; A.586.F.4.i; A.587.F.4.i; A.588.F.4.i; A.589.F.4.i;
A.590.F.4.i; A.591.F.4.i; A.592.F.4.i; A.593.F.4.i; A.594.F.4.i;
A.595.F.4.i; A.596.F.4.i; A.597.F.4.i; A.598.F.4.i; A.599.F.4.i;
A.600.F.4.i; A.601.F.4.i; A.602.F.4.i; A.603.F.4.i; A.604.F.4.i;
A.605.F.4.i; A.606.F.4.i; A.607.F.4.i; A.608.F.4.i; A.609.F.4.i;
A.610.F.4.i; A.611.F.4.i; A.612.F.4.i; A.613.F.4.i; A.614.F.4.i;
A.615.F.4.i; A.616.F.4.i; A.617.F.4.i; A.618.F.4.i; A.619.F.4.i;
A.620.F.4.i; A.621.F.4.i; A.622.F.4.i; A.623.F.4.i; A.624.F.4.i;
A.625.F.4.i; A.626.F.4.i; A.627.F.4.i; A.628.F.4.i; A.629.F.4.i;
A.630.F.4.i; A.631.F.4.i; A.632.F.4.i; A.633.F.4.i; A.634.F.4.i;
A.635.F.4.i; A.636.F.4.i; A.637.F.4.i; A.638.F.4.i; A.639.F.4.i;
A.640.F.4.i; A.641.F.4.i; A.642.F.4.i; A.643.F.4.i; A.644.F.4.i;
A.645.F.4.i; A.646.F.4.i; A.647.F.4.i; A.648.F.4.i; A.649.F.4.i;
A.650.F.4.i; A.651.F.4.i; A.652.F.4.i; A.653.F.4.i; A.654.F.4.i;
A.655.F.4.i; A.656.F.4.i; A.657.F.4.i; A.658.F.4.i; A.659.F.4.i;
A.660.F.4.i; A.2.F.11.i; A.3.F.11.i; A.4.F.11.i; A.5.F.11.i;
A.6.F.11.i; A.7.F.11.i; A.9.F.11.i; A.10.F.11.i; A.15.F.11.i;
A.100.F.11.i; A.101.F.11.i; A.102.F.11.i; A.103.F.11.i;
A.104.F.11.i; A.105.F.11.i; A.106.F.11.i; A.107.F.11.i;
A.108.F.11.i; A.109.F.11.i; A.110.F.11.i; A.111.F.11.i;
A.112.F.11.i; A.113.F.11.i; A.114.F.11.i; A.115.F.11.i;
A.116.F.11.i; A.117.F.11.i; A.118.F.11.i; A.119.F.11.i;
A.120.F.11.i; A.121.F.11.i; A.122.F.11.i; A.123.F.11.i;
A.124.F.11.i; A.125.F.11.i; A.126.F.11.i; A.127.F.11.i;
A.128.F.11.i; A.129.F.11.i; A.130.F.11.i; A.131.F.11.i;
A.132.F.11.i; A.133.F.11.i; A.134.F.11.i; A.135.F.11.i;
A.136.F.11.i; A.137.F.11.i; A.138.F.11.i; A.139.F.11.i;
A.140.F.11.i; A.141.F.11.i; A.142.F.11.i; A.143.F.11.i;
A.144.F.11.i; A.145.F.11.i; A.146.F.11.i; A.147.F.11.i;
A.148.F.11.i; A.149.F.11.i; A.150.F.11.i; A.151.F.11.i;
A.152.F.11.i; A.153.F.11.i; A.154.F.11.i; A.155.F.11.i;
A.156.F.11.i; A.157.F.11.i; A.158.F.11.i; A.159.F.11.i;
A.160.F.11.i; A.161.F.11.i; A.162.F.11.i; A.163.F.11.i;
A.164.F.11.i; A.165.F.11.i; A.166.F.11.i; A.167.F.11.i;
A.168.F.11.i; A.169.F.11.i; A.170.F.11.i; A.171.F.11.i;
A.172.F.11.i; A.173.F.11.i; A.174.F.11.i; A.175.F.11.i;
A.176.F.11.i; A.177.F.11.i; A.178.F.11.i; A.179.F.11.i;
A.180.F.11.i; A.181.F.11.i; A.182.F.11.i; A.183.F.11.i;
A.184.F.11.i; A.185.F.11.i; A.186.F.11.i; A.187.F.11.i;
A.188.F.11.i; A.189.F.11.i; A.190.F.11.i; A.191.F.11.i;
A.192.F.11.i; A.193.F.11.i; A.194.F.11.i; A.195.F.11.i;
A.196.F.11.i; A.197.F.11.i; A.198.F.11.i; A.199.F.11.i;
A.200.F.11.i; A.201.F.11.i; A.202.F.11.i; A.203.F.11.i;
A.204.F.11.i; A.205.F.11.i; A.206.F.11.i; A.207.F.11.i;
A.208.F.11.i; A.209.F.11.i; A.210.F.11.i; A.211.F.11.i;
A.212.F.11.i; A.213.F.11.i; A.214.F.11.i; A.215.F.11.i;
A.216.F.11.i; A.217.F.11.i; A.218.F.11.i; A.219.F.11.i;
A.220.F.11.i; A.221.F.11.i; A.222.F.11.i; A.223.F.11.i;
A.224.F.11.i; A.225.F.11.i; A.226.F.11.i; A.227.F.11.i;
A.228.F.11.i; A.229.F.11.i; A.230.F.11.i; A.231.F.11.i;
A.232.F.11.i; A.233.F.11.i; A.234.F.11.i; A.235.F.11.i;
A.236.F.11.i; A.237.F.11.i; A.238.F.11.i; A.239.F.11.i;
A.240.F.11.i; A.241.F.11.i; A.242.F.11.i; A.243.F.11.i;
A.244.F.11.i; A.245.F.11.i; A.246.F.11.i; A.247.F.11.i;
A.248.F.11.i; A.249.F.11.i; A.250.F.11.i; A.251.F.11.i;
A.252.F.11.i; A.253.F.11.i; A.254.F.11.i; A.255.F.11.i;
A.256.F.11.i; A.257.F.11.i; A.258.F.11.i; A.259.F.11.i;
A.260.F.11.i; A.261.F.11.i; A.262.F.11.i; A.263.F.11.i;
A.264.F.11.i; A.265.F.11.i; A.266.F.11.i; A.267.F.11.i;
A.268.F.11.i; A.269.F.11.i; A.270.F.11.i; A.271.F.11.i;
A.272.F.11.i; A.273.F.11.i; A.274.F.11.i; A.275.F.11.i;
A.276.F.11.i; A.277.F.11.i; A.278.F.11.i; A.279.F.11.i;
A.280.F.11.i; A.281.F.11.i; A.282.F.11.i; A.283.F.11.i;
A.284.F.11.i; A.285.F.11.i; A.286.F.11.i; A.287.F.11.i;
A.288.F.11.i; A.289.F.11.i; A.290.F.11.i; A.291.F.11.i;
A.292.F.11.i; A.293.F.11.i; A.294.F.11.i; A.295.F.11.i;
A.296.F.11.i; A.297.F.11.i; A.298.F.11.i; A.299.F.11.i;
A.300.F.11.i; A.301.F.11.i; A.302.F.11.i; A.303.F.11.i;
A.304.F.11.i; A.305.F.11.i; A.306.F.11.i; A.307.F.11.i;
A.308.F.11.i; A.309.F.11.i; A.310.F.11.i; A.311.F.11.i;
A.312.F.11.i; A.313.F.11.i; A.314.F.11.i; A.315.F.11.i;
A.316.F.11.i; A.317.F.11.i; A.318.F.11.i; A.319.F.11.i;
A.320.F.11.i; A.321.F.11.i; A.323.F.11.i; A.324.F.11.i;
A.325.F.11.i; A.326.F.11.i; A.327.F.11.i; A.328.F.11.i;
A.329.F.11.i; A.330.F.11.i; A.331.F.11.i; A.332.F.11.i;
A.333.F.11.i; A.334.F.11.i; A.335.F.11.i; A.336.F.11.i;
A.337.F.11.i; A.338.F.11.i; A.339.F.11.i; A.340.F.11.i;
A.341.F.11.i; A.342.F.11.i; A.343.F.11.i; A.344.F.11.i;
A.345.F.11.i; A.346.F.11.i; A.347.F.11.i; A.348.F.11.i;
A.349.F.11.i; A.350.F.11.i; A.351.F.11.i; A.352.F.11.i;
A.353.F.11.i; A.354.F.11.i; A.355.F.11.i; A.356.F.11.i;
A.357.F.11.i; A.358.F.11.i; A.359.F.11.i; A.360.F.11.i;
A.361.F.11.i; A.362.F.11.i; A.363.F.11.i; A.364.F.11.i;
A.365.F.11.i; A.366.F.11.i; A.367.F.11.i; A.368.F.11.i;
A.369.F.11.i; A.370.F.11.i; A.371.F.11.i; A.372.F.11.i;
A.373.F.11.i; A.374.F.11.i; A.375.F.11.i; A.376.F.11.i;
A.377.F.11.i; A.378.F.11.i; A.379.F.11.i; A.380.F.11.i;
A.381.F.11.i; A.382.F.11.i; A.383.F.11.i; A.384.F.11.i;
A.385.F.11.i; A.386.F.11.i; A.387.F.11.i; A.388.F.11.i;
A.389.F.11.i; A.390.F.11.i; A.391.F.11.i; A.392.F.11.i;
A.393.F.11.i; A.394.F.11.i; A.395.F.11.i; A.396.F.11.i;
A.397.F.11.i; A.398.F.11.i; A.399.F.11.i; A.400.F.11.i;
A.401.F.11.i; A.402.F.11.i; A.403.F.11.i; A.404.F.11.i;
A.405.F.11.i; A.406.F.11.i; A.407.F.11.i; A.408.F.11.i;
A.409.F.11.i; A.410.F.11.i; A.411.F.11.i; A.412.F.11.i;
A.413.F.11.i; A.414.F.11.i; A.415.F.11.i; A.416.F.11.i;
A.417.F.11.i; A.418.F.11.i; A.419.F.11.i; A.420.F.11.i;
A.421.F.11.i; A.422.F.11.i; A.423.F.11.i; A.424.F.11.i;
A.425.F.11.i; A.426.F.11.i; A.427.F.11.i; A.428.F.11.i;
A.429.F.11.i; A.430.F.11.i; A.431.F.11.i; A.432.F.11.i;
A.433.F.11.i; A.434.F.11.i; A.435.F.11.i; A.436.F.11.i;
A.437.F.11.i; A.438.F.11.i; A.439.F.11.i; A.440.F.11.i;
A.441.F.11.i; A.442.F.11.i; A.443.F.11.i; A.444.F.11.i;
A.445.F.11.i; A.446.F.11.i; A.447.F.11.i; A.448.F.11.i;
A.449.F.11.i; A.450.F.11.i; A.451.F.11.i; A.452.F.11.i;
A.453.F.11.i; A.454.F.11.i; A.455.F.11.i; A.456.F.11.i;
A.457.F.11.i; A.458.F.11.i; A.459.F.11.i; A.460.F.11.i;
A.461.F.11.i; A.462.F.11.i; A.463.F.11.i; A.464.F.11.i;
A.465.F.11.i; A.466.F.11.i; A.467.F.11.i; A.468.F.11.i;
A.469.F.11.i; A.470.F.11.i; A.471.F.11.i; A.472.F.11.i;
A.473.F.11.i; A.474.F.11.i; A.475.F.11.i; A.476.F.11.i;
A.477.F.11.i; A.478.F.11.i; A.479.F.11.i; A.480.F.11.i;
A.481.F.11.i; A.482.F.11.i; A.483.F.11.i; A.484.F.11.i;
A.485.F.11.i; A.486.F.11.i; A.487.F.11.i; A.488.F.11.i;
A.489.F.11.i; A.490.F.11.i; A.491.F.11.i; A.492.F.11.i;
A.493.F.11.i; A.494.F.11.i; A.495.F.11.i; A.496.F.11.i;
A.497.F.11.i; A.498.F.11.i; A.499.F.11.i; A.500.F.11.i;
A.501.F.11.i; A.502.F.11.i; A.503.F.11.i; A.504.F.11.i;
A.505.F.11.i; A.506.F.11.i; A.507.F.11.i; A.508.F.11.i;
A.509.F.11.i; A.510.F.11.i; A.511.F.11.i; A.512.F.11.i;
A.512.F.11.i; A.513.F.11.i; A.514.F.11.i; A.515.F.11.i;
A.516.F.11.i; A.517.F.11.i; A.518.F.11.i; A.519.F.11.i;
A.520.F.11.i; A.521.F.11.i; A.522.F.11.i; A.523.F.11.i;
A.524.F.11.i; A.525.F.11.i; A.526.F.11.i; A.527.F.11.i;
A.528.F.11.i; A.529.F.11.i; A.530.F.11.i; A.531.F.11.i;
A.532.F.11.i; A.533.F.11.i; A.534.F.11.i; A.535.F.11.i;
A.536.F.11.i; A.537.F.11.i; A.538.F.11.i; A.539.F.11.i;
A.540.F.11.i; A.541.F.11.i; A.542.F.11.i; A.543.F.11.i;
A.544.F.11.i; A.545.F.11.i; A.546.F.11.i; A.547.F.11.i;
A.548.F.11.i; A.549.F.11.i; A.550.F.11.i; A.551.F.11.i;
A.552.F.11.i; A.553.F.11.i; A.554.F.11.i; A.555.F.11.i;
A.556.F.11.i; A.557.F.11.i; A.558.F.11.i; A.559.F.11.i;
A.560.F.11.i; A.561.F.11.i; A.562.F.11.i; A.563.F.11.i;
A.564.F.11.i; A.565.F.11.i; A.566.F.11.i; A.567.F.11.i;
A.568.F.11.i; A.569.F.11.i; A.570.F.11.i; A.571.F.11.i;
A.572.F.11.i; A.573.F.11.i; A.574.F.11.i; A.575.F.11.i;
A.576.F.11.i; A.577.F.11.i; A.578.F.11.i; A.579.F.11.i;
A.580.F.11.i; A.581.F.11.i; A.582.F.11.i; A.583.F.11.i;
A.584.F.11.i; A.585.F.11.i; A.586.F.11.i; A.587.F.11.i;
A.588.F.11.i; A.589.F.11.i; A.590.F.11.i; A.591.F.11.i;
A.592.F.11.i; A.593.F.11.i; A.594.F.11.i; A.595.F.11.i;
A.596.F.11.i; A.597.F.11.i; A.598.F.11.i; A.599.F.11.i;
A.600.F.11.i; A.601.F.11.i; A.602.F.11.i; A.603.F.11.i;
A.604.F.11.i; A.605.F.11.i; A.606.F.11.i; A.607.F.11.i;
A.608.F.11.i; A.609.F.11A; A.610.F.11.i; A.611.F.11.i;
A.612.F.11.i; A.613.F.11.i; A.614.F.11.i; A.615.F.11.i;
A.616.F.11.i; A.617.F.11.i; A.618.F.11.i; A.619.F.11.i;
A.620.F.11.i; A.621.F.11.i; A.622.F.11.i; A.623.F.11.i;
A.624.F.11.i; A.625.F.11.i; A.626.F.11.i; A.627.F.11.i;
A.628.F.11.i; A.629.F.11.i; A.630.F.11.i; A.631.F.11.i;
A.632.F.11.i; A.633.F.11.i; A.634.F.11.i; A.635.F.11.i;
A.636.F.11.i; A.637.F.11.i; A.638.F.11.i; A.639.F.11.i;
A.640.F.11.i; A.641.F.11.i; A.642.F.11.i; A.643.F.11.i;
A.644.F.11.i; A.645.F.11.i; A.646.F.11.i; A.647.F.11.i;
A.648.F.11.i; A.649.F.11.i; A.650.F.11.i; A.651.F.11.i;
A.652.F.11.i; A.653.F.11.i; A.654.F.11.i; A.655.F.11.i;
A.656.F.11.i; A.657.F.11.i; A.658.F.11.i; A.659.F.11.i;
A.660.F.11.i; A.2.a.44.i; A.3.a.44.i; A.4.a.44.i; A.5.a.44.i;
A.9.a.44.i; A.100.a.44.i; A.101.a.44.i; A.102.a.44.i; A.103.a.44.i;
A.104.a.44.i; A.105.a.44.i; A.106.a.44.i; A.107.a.44.i;
A.108.a.44.i; A.109.a.44.i; A.110.a.44.i; A.111.a.44.i;
A.112.a.44.i; A.113.a.44.i; A.114.a.44.i; A.115.a.44.i;
A.116.a.44.i; A.117.a.44.i; A.118.a.44.i; A.119.a.44.i;
A.120.a.44.i; A.121.a.44.i; A.122.a.44.i; A.123.a.44.i;
A.124.a.44.i; A.125.a.44.i; A.126.a.44.i; A.127.a.44.i;
A.128.a.44.i; A.129.a.44.i; A.130.a.44.i; A.131.a.44.i;
A.132.a.44.i; A.133.a.44.i; A.134.a.44.i; A.135.a.44.i;
A.136.a.44.i; A.137.a.44.i; A.138.a.44.i; A.139.a.44.i;
A.140.a.44.i; A.141.a.44.i; A.142.a.44.i; A.143.a.44.i;
A.144.a.44.i; A.145.a.44.i; A.146.a.44.i; A.147.a.44.i;
A.148.a.44.i; A.149.a.44.i; A.150.a.44.i; A.151.a.44.i;
A.152.a.44.i; A.153.a.44.i; A.154.a.44.i; A.155.a.44.i;
A.156.a.44.i; A.157.a.44.i; A.158.a.44.i; A.159.a.44.i;
A.160.a.44.i; A.161.a.44.i; A.162.a.44.i; A.163.a.44.i;
A.164.a.44.i; A.165.a.44.i; A.166.a.44.i; A.167.a.44.i;
A.168.a.44.i; A.169.a.44.i; A.170.a.44.i; A.171.a.44.i;
A.172.a.44.i; A.173.a.44.i; A.174.a.44.i; A.175.a.44.i;
A.176.a.44.i; A.177.a.44.i; A.178.a.44.i; A.179.a.44.i;
A.180.a.44.i; A.181.a.44.i; A.182.a.44.i; A.183.a.44.i;
A.184.a.44.i; A.185.a.44.i; A.186.a.44.i; A.187.a.44.i;
A.188.a.44.i; A.189.a.44.i; A.190.a.44.i; A.191.a.44.i;
A.192.a.44.i; A.193.a.44.i; A.194.a.44.i; A.195.a.44.i;
A.196.a.44.i; A.197.a.44.i; A.198.a.44.i; A.199.a.44.i;
A.200.a.44.i; A.201.a.44.i; A.202.a.44.i; A.203.a.44.i;
A.204.a.44.i; A.205.a.44.i; A.206.a.44.i; A.207.a.44.i;
A.208.a.44.i; A.209.a.44.i; A.210.a.44.i; A.211.a.44.i;
A.212.a.44.i; A.213.a.44.i; A.214.a.44.i; A.215.a.44.i;
A.216.a.44.i; A.217.a.44.i; A.218.a.44.i; A.219.a.44.i;
A.220.a.44.i; A.221.a.44.i; A.222.a.44.i; A.223.a.44.i;
A.224.a.44.i; A.225.a.44.i; A.226.a.44.i; A.227.a.44.i;
A.228.a.44.i; A.229.a.44.i; A.230.a.44.i; A.231.a.44.i;
A.232.a.44.i; A.233.a.44.i; A.234.a.44.i; A.235.a.44.i;
A.236.a.44.i; A.237.a.44.i; A.238.a.44.i; A.239.a.44.i;
A.240.a.44.i; A.241.a.44.i; A.242.a.44.i; A.243.a.44.i;
A.244.a.44.i; A.245.a.44.i; A.246.a.44.i; A.247.a.44.i;
A.248.a.44.i; A.249.a.44.i; A.250.a.44.i; A.251.a.44.i;
A.252.a.44.i; A.253.a.44.i; A.254.a.44.i; A.255.a.44.i;
A.256.a.44.i; A.257.a.44.i; A.258.a.44.i; A.259.a.44.i;
A.260.a.44.i; A.261.a.44.i; A.262.a.44.i; A.263.a.44.i;
A.264.a.44.i; A.265.a.44.i; A.266.a.44.i; A.267.a.44.i;
A.268.a.44.i; A.269.a.44.i; A.270.a.44.i; A.271.a.44.i;
A.272.a.44.i; A.273.a.44.i; A.274.a.44.i; A.275.a.44.i;
A.276.a.44.i; A.277.a.44.i; A.278.a.44.i; A.279.a.44.i;
A.280.a.44.i; A.281.a.44.i; A.282.a.44.i; A.283.a.44.i;
A.284.a.44.i; A.285.a.44.i; A.286.a.44.i; A.287.a.44.i;
A.288.a.44.i; A.289.a.44.i; A.290.a.44.i; A.291.a.44.i;
A.292.a.44.i; A.293.a.44.i; A.294.a.44.i; A.295.a.44.i;
A.296.a.44.i; A.297.a.44.i; A.298.a.44.i; A.299.a.44.i;
A.300.a.44.i; A.301.a.44.i; A.302.a.44.i; A.303.a.44.i;
A.304.a.44.i; A.305.a.44.i; A.306.a.44.i; A.307.a.44.i;
A.308.a.44.i; A.309.a.44.i; A.310.a.44.i; A.311.a.44.i;
A.312.a.44.i; A.313.a.44.i; A.314.a.44.i; A.315.a.44.i;
A.316.a.44.i; A.317.a.44.i; A.318.a.44.i; A.319.a.44.i;
A.320.a.44.i; A.321.a.44.i; A.322.a.44.i; A.323.a.44.i;
A.324.a.44.i; A.325.a.44.i; A.326.a.44.i; A.327.a.44.i;
A.328.a.44.i; A.329.a.44.i; A.330.a.44.i; A.331.a.44.i;
A.332.a.44.i; A.333.a.44.i; A.334.a.44.i; A.335.a.44.i;
A.336.a.44.i; A.337.a.44.i; A.338.a.44.i; A.339.a.44.i;
A.340.a.44.i; A.341.a.44.i; A.342.a.44.i; A.343.a.44.i;
A.344.a.44.i; A.345.a.44.i; A.346.a.44.i; A.347.a.44.i;
A.348.a.44.i; A.349.a.44.i; A.350.a.44.i; A.351.a.44.i;
A.352.a.44.i; A.353.a.44.i; A.354.a.44.i; A.355.a.44.i;
A.356.a.44.i; A.357.a.44.i; A.358.a.44.i; B.2.a.44.i; B.3.a.44.i;
B.4.a.44.i; B.5.a.44.i; B.9.a.44.i; B.100.a.44.i; B.101.a.44.i;
B.102.a.44.i; B.103.a.44.i; B.104.a.44.i; B.105.a.44.i;
B.106.a.44.i; B.107.a.44.i; B.108.a.44.i; B.109.a.44.i;
B.110.a.44.i; B.111.a.44.i; B.112.a.44.i; B.113.a.44.i;
B.114.a.44.i; B.115.a.44.i; B.116.a.44.i; B.117.a.44.i;
B.118.a.44.i; B.119.a.44.i; B.120.a.44.i; B.121.a.44.i;
B.122.a.44.i; B.123.a.44.i; B.124.a.44.i; B.125.a.44.i;
B.126.a.44.i; B.127.a.44.i; B.128.a.44.i; B.129.a.44.i;
B.130.a.44.i; B.131.a.44.i; B.132.a.44.i; B.133.a.44.i;
B.134.a.44.i; B.135.a.44.i; B.136.a.44.i; B.137.a.44.i;
B.138.a.44.i; B.139.a.44.i; B.140.a.44.i; B.141.a.44.i;
B.142.a.44.i; B.143.a.44.i; B.144.a.44.i; B.145.a.44.i;
B.146.a.44.i; B.147.a.44.i; B.148.a.44.i; B.149.a.44.i;
B.150.a.44.i; B.151.a.44.i; B.152.a.44.i; B.153.a.44.i;
B.154.a.44.i; B.155.a.44.i; B.156.a.44.i; B.157.a.44.i;
B.158.a.44.i; B.159.a.44.i; B.160.a.44.i; B.161.a.44.i;
B.162.a.44.i; B.163.a.44.i; B.164.a.44.i; B.165.a.44.i;
B.166.a.44.i; B.167.a.44.i; B.168.a.44.i; B.169.a.44.i;
B.170.a.44.i; B.171.a.44.i; B.172.a.44.i; B.173.a.44.i;
B.174.a.44.i; B.175.a.44.i; B.176.a.44.i; B.177.a.44.i;
B.178.a.44.i; B.179.a.44.i; B.180.a.44.i; B.181.a.44.i;
B.182.a.44.i; B.183.a.44.i; B.184.a.44.i; B.185.a.44.i;
B.186.a.44.i; B.187.a.44.i; B.188.a.44.i; B.189.a.44.i;
B.190.a.44.i; B.191.a.44.i; B.192.a.44.i; B.193.a.44.i;
B.194.a.44.i; B.195.a.44.i; B.196.a.44.i; B.197.a.44.i;
B.198.a.44.i; B.199.a.44.i; B.200.a.44.i; B.201.a.44.i;
B.202.a.44.i; B.203.a.44.i; B.204.a.44.i; B.205.a.44.i;
B.206.a.44.i; B.207.a.44.i; B.208.a.44.i; B.209.a.44.i;
B.210.a.44.i; B.211.a.44.i; B.212.a.44.i; B.213.a.44.i;
B.214.a.44.i; B.215.a.44.i; B.216.a.44.i; B.217.a.44.i;
B.218.a.44.i; B.219.a.44.i; B.220.a.44.i; B.221.a.44.i;
B.222.a.44.i; B.223.a.44.i; B.224.a.44.i; B.225.a.44.i;
B.226.a.44.i; B.227.a.44.i; B.228.a.44.i; B.229.a.44.i;
B.230.a.44.i; B.231.a.44.i; B.232.a.44.i; B.233.a.44.i;
B.234.a.44.i; B.235.a.44.i; B.236.a.44.i; B.237.a.44.i;
B.238.a.44.i; B.239.a.44.i; B.240.a.44.i; B.241.a.44.i;
B.242.a.44.i; B.243.a.44.i; B.244.a.44.i; B.245.a.44.i;
B.246.a.44.i; B.247.a.44.i; B.248.a.44.i; B.249.a.44.i;
B.250.a.44.i; B.251.a.44.i; B.252.a.44.i; B.253.a.44.i;
B.254.a.44.i; B.255.a.44.i; B.256.a.44.i; B.257.a.44.i;
B.258.a.44.i; B.259.a.44.i; B.260.a.44.i; B.261.a.44.i;
B.262.a.44.i; B.263.a.44.i; B.264.a.44.i; B.265.a.44.i;
B.266.a.44.i; B.267.a.44.i; B.268.a.44.i; B.269.a.44.i;
B.270.a.44.i; B.271.a.44.i; B.272.a.44.i; B.273.a.44.i;
B.274.a.44.i; B.275.a.44.i; B.276.a.44.i; B.277.a.44.i;
B.278.a.44.i; B.279.a.44.i; B.280.a.44.i; B.281.a.44.i;
B.282.a.44.i; B.283.a.44.i; B.284.a.44.i; B.285.a.44.i;
B.286.a.44.i; B.287.a.44.i; B.288.a.44.i; B.289.a.44.i;
B.290.a.44.i; B.291.a.44.i; B.292.a.44.i; B.293.a.44.i;
B.294.a.44.i; B.295.a.44.i; B.296.a.44.i; B.297.a.44.i;
B.298.a.44.i; B.299.a.44.i; B.300.a.44.i; B.301.a.44.i;
B.302.a.44.i; B.303.a.44.i; B.304.a.44.i; B.305.a.44.i;
B.306.a.44.i; B.307.a.44.i; B.308.a.44.i; B.309.a.44.i;
B.310.a.44.i; B.311.a.44.i; B.312.a.44.i; B.313.a.44.i;
B.314.a.44.i; B.315.a.44.i; B.316.a.44.i; B.317.a.44.i;
B.318.a.44.i; B.319.a.44.i; B.320.a.44.i; B.321.a.44.i;
B.322.a.44.i; B.323.a.44.i; B.324.a.44.i; B.325.a.44.i;
B.326.a.44.i; B.327.a.44.i; B.328.a.44.i; B.329.a.44.i;
B.330.a.44.i; B.331.a.44.i; B.332.a.44.i; B.333.a.44.i;
B.334.a.44.i; B.335.a.44.i; B.336.a.44.i; B.337.a.44.i;
B.338.a.44.i; B.339.a.44.i; B.340.a.44.i; B.341.a.44.i;
B.342.a.44.i; B.343.a.44.i; B.344.a.44.i; B.345.a.44.i;
B.346.a.44.i; B.347.a.44.i; B.348.a.44.i; B.349.a.44.i;
B.350.a.44.i; B.351.a.44.i; B.352.a.44.i; B.353.a.44.i;
B.354.a.44.i; B.355.a.44.i; B.356.a.44.i; B.357.a.44.i;
B.358.a.44.i; E.2.a.44.i; E.3.a.44.i; E.4.a.44.i; E.5.a.44.i;
E.9.a.44.i; E.100.a.44.i; E.101.a.44.i; E.102.a.44.i; E.103.a.44.i;
E.104.a.44.i; E.105.a.44.i; E.106.a.44.i; E.107.a.44.i;
E.108.a.44.i; E.109.a.44.i; E.110.a.44.i; E.111.a.44.i;
E.112.a.44.i; E.113.a.44.i; E.114.a.44.i; E.115.a.44.i;
E.116.a.44.i; E.117.a.44.i; E.118.a.44.i; E.119.a.44.i;
E.120.a.44.i; E.121.a.44.i; E.122.a.44.i; E.123.a.44.i;
E.124.a.44.i; E.125.a.44.i; E.126.a.44.i; E.127.a.44.i;
E.128.a.44.i; E.129.a.44.i; E.130.a.44.i; E.131.a.44.i;
E.132.a.44.i; E.133.a.44.i; E.134.a.44.i; E.135.a.44.i;
E.136.a.44.i; E.137.a.44.i; E.138.a.44.i; E.139.a.44.i;
E.140.a.44.i; E.141.a.44.i; E.142.a.44.i; E.143.a.44.i;
E.144.a.44.i; E.145.a.44.i; E.146.a.44.i; E.147.a.44.i;
E.148.a.44.i; E.149.a.44.i; E.150.a.44.i; E.151.a.44.i;
E.152.a.44.i; E.153.a.44.i; E.154.a.44.i; E.155.a.44.i;
E.156.a.44.i; E.157.a.44.i; E.158.a.44.i; E.159.a.44.i;
E.160.a.44.i; E.161.a.44.i; E.162.a.44.i; E.163.a.44.i;
E.164.a.44.i; E.165.a.44.i; E.166.a.44.i; E.167.a.44.i;
E.168.a.44.i; E.169.a.44.i; E.170.a.44.i; E.171.a.44.i;
E.172.a.44.i; E.173.a.44.i; E.174.a.44.i; E.175.a.44.i;
E.176.a.44.i; E.177.a.44.i; E.178.a.44.i; E.179.a.44.i;
E.180.a.44.i; E.181.a.44.i; E.182.a.44.i; E.183.a.44.i;
E.184.a.44.i; E.185.a.44.i; E.186.a.44.i; E.187.a.44.i;
E.188.a.44.i; E.189.a.44.i; E.190.a.44.i; E.191.a.44.i;
E.192.a.44.i; E.193.a.44.i; E.194.a.44.i; E.195.a.44.i;
E.196.a.44.i; E.197.a.44.i; E.198.a.44.i; E.199.a.44.i;
E.200.a.44.i; E.201.a.44.i; E.202.a.44.i; E.203.a.44.i;
E.204.a.44.i; E.205.a.44.i; E.206.a.44.i; E.207.a.44.i;
E.208.a.44.i; E.209.a.44.i; E.210.a.44.i; E.211.a.44.i;
E.212.a.44.i; E.213.a.44.i; E.214.a.44.i; E.215.a.44.i;
E.216.a.44.i; E.217.a.44.i; E.218.a.44.i; E.219.a.44.i;
E.220.a.44.i; E.221.a.44.i; E.222.a.44.i; E.223.a.44.i;
E.224.a.44.i; E.225.a.44.i; E.226.a.44.i; E.227.a.44.i;
E.228.a.44.i; E.229.a.44.i; E.230.a.44.i; E.231.a.44.i;
E.232.a.44.i; E.233.a.44.i; E.234.a.44.i; E.235.a.44.i;
E.236.a.44.i; E.237.a.44.i; E.238.a.44.i; E.239.a.44.i;
E.240.a.44.i; E.241.a.44.i; E.242.a.44.i; E.243.a.44.i;
E.244.a.44.i; E.245.a.44.i; E.246.a.44.i; E.247.a.44.i;
E.248.a.44.i; E.249.a.44.i; E.250.a.44.i; E.251.a.44.i;
E.252.a.44.i; E.253.a.44.i; E.254.a.44.i; E.255.a.44.i;
E.256.a.44.i; E.257.a.44.i; E.258.a.44.i; E.259.a.44.i;
E.260.a.44.i; E.261.a.44.i; E.262.a.44.i; E.263.a.44.i;
E.264.a.44.i; E.265.a.44.i; E.266.a.44.i; E.267.a.44.i;
E.268.a.44.i; E.269.a.44.i; E.270.a.44.i; E.271.a.44.i;
E.272.a.44.i; E.273.a.44.i; E.274.a.44.i; E.275.a.44.i;
E.276.a.44.i; E.277.a.44.i; E.278.a.44.i; E.279.a.44.i;
E.280.a.44.i; E.281.a.44.i; E.282.a.44.i; E.283.a.44.i;
E.284.a.44.i; E.285.a.44.i; E.286.a.44.i; E.287.a.44.i;
E.288.a.44.i; E.289.a.44.i; E.290.a.44.i; E.291.a.44.i;
E.292.a.44.i; E.293.a.44.i; E.294.a.44.i; E.295.a.44.i;
E.296.a.44.i; E.297.a.44.i; E.298.a.44.i; E.299.a.44.i;
E.300.a.44.i; E.301.a.44.i; E.302.a.44.i; E.303.a.44.i;
E.304.a.44.i; E.305.a.44.i; E.306.a.44.i; E.307.a.44.i;
E.308.a.44.i; E.309.a.44.i; E.310.a.44.i; E.311.a.44.i;
E.312.a.44.i; E.313.a.44.i; E.314.a.44.i; E.315.a.44.i;
E.316.a.44.i; E.317.a.44.i; E.318.a.44.i; E.319.a.44.i;
E.320.a.44.i; E.321.a.44.i; E.322.a.44.i; E.323.a.44.i;
E.324.a.44.i; E.325.a.44.i; E.326.a.44.i; E.327.a.44.i;
E.328.a.44.i; E.329.a.44.i; E.330.a.44.i; E.331.a.44.i;
E.332.a.44.i; E.333.a.44.i; E.334.a.44.i; E.335.a.44.i;
E.336.a.44.i; E.337.a.44.i; E.338.a.44.i; E.339.a.44.i;
E.340.a.44.i; E.341.a.44.i; E.342.a.44.i; E.343.a.44.i;
E.344.a.44.i; E.345.a.44.i; E.346.a.44.i; E.347.a.44.i;
E.348.a.44.i; E.349.a.44.i; E.350.a.44.i; E.351.a.44.i;
E.352.a.44.i; E.353.a.44.i; E.354.a.44.i; E.355.a.44.i;
E.356.a.44.i; E.357.a.44.i; E.358.a.44.i; B.2.a.4.i; B.3.a.4.i;
B.4.a.4.i; B.5.a.4.i; B.9.a.4.i; B.100.a.4.i; B.101.a.4.i;
B.102.a.4.i; B.103.a.4.i; B.104.a.4.i; B.105.a.4.i; B.106.a.4.i;
B.107.a.4.i; B.108.a.4.i; B.109.a.4.i; B.110.a.4.i; B.111.a.4.i;
B.112.a.4.i; B.113.a.4.i; B.114.a.4.i; B.115.a.4.i; B.116.a.4.i;
B.117.a.4.i; B.118.a.4.i; B.119.a.4.i; B.120.a.4.i; B.121.a.4.i;
B.122.a.4.i; B.123.a.4.i; B.124.a.4.i; B.125.a.4.i; B.126.a.4.i;
B.127.a.4.i; B.128.a.4.i; B.129.a.4.i; B.130.a.4.i; B.131.a.4.i;
B.132.a.4.i; B.133.a.4.i; B.134.a.4.i; B.135.a.4.i; B.136.a.4.i;
B.137.a.4.i; B.138.a.4.i; B.139.a.4.i; B.140.a.4.i; B.141.a.4.i;
B.142.a.4.i; B.143.a.4.i; B.144.a.4.i; B.145.a.4.i; B.146.a.4.i;
B.147.a.4.i; B.148.a.4.i; B.149.a.4.i; B.150.a.4.i; B.151.a.4.i;
B.152.a.4.i; B.153.a.4.i; B.154.a.4.i; B.155.a.4.i; B.156.a.4.i;
B.157.a.4.i; B.158.a.4.i; B.159.a.4.i; B.160.a.4.i; B.161.a.4.i;
B.162.a.4.i; B.163.a.4.i; B.164.a.4.i; B.165.a.4.i; B.166.a.4.i;
B.167.a.4.i; B.168.a.4.i; B.169.a.4.i; B.170.a.4.i; B.171.a.4.i;
B.172.a.4.i; B.173.a.4.i; B.174.a.4.i; B.175.a.4.i; B.176.a.4.i;
B.177.a.4.i; B.178.a.4.i; B.179.a.4.i; B.180.a.4.i; B.181.a.4.i;
B.182.a.4.i; B.183.a.4.i; B.184.a.4.i; B.185.a.4.i; B.186.a.4.i;
B.187.a.4.i; B.188.a.4.i; B.189.a.4.i; B.190.a.4.i; B.191.a.4.i;
B.192.a.4.i; B.193.a.4.i; B.194.a.4.i; B.195.a.4.i; B.196.a.4.i;
B.197.a.4.i; B.198.a.4.i; B.199.a.4.i; B.200.a.4.i; B.201.a.4.i;
B.202.a.4.i; B.203.a.4.i; B.204.a.4.i; B.205.a.4.i; B.206.a.4.i;
B.207.a.4.i; B.208.a.4.i; B.209.a.4.i; B.210.a.4.i; B.211.a.4.i;
B.212.a.4.i; B.213.a.4.i; B.214.a.4.i; B.215.a.4.i; B.216.a.4.i;
B.217.a.4.i; B.218.a.4.i; B.219.a.4.i; B.220.a.4.i; B.221.a.4.i;
B.222.a.4.i; B.223.a.4.i; B.224.a.4.i; B.225.a.4.i; B.226.a.4.i;
B.227.a.4.i; B.228.a.4.i; B.229.a.4.i; B.230.a.4.i; B.231.a.4.i;
B.232.a.4.i; B.233.a.4.i; B.234.a.4.i; B.235.a.4.i; B.236.a.4.i;
B.237.a.4.i; B.238.a.4.i; B.239.a.4.i; B.240.a.4.i; B.241.a.4.i;
B.242.a.4.i; B.243.a.4.i; B.244.a.4.i; B.245.a.4.i; B.246.a.4.i;
B.247.a.4.i; B.248.a.4.i; B.249.a.4.i; B.250.a.4.i; B.251.a.4.i;
B.252.a.4.i; B.253.a.4.i; B.254.a.4.i; B.255.a.4.i; B.256.a.4.i;
B.257.a.4.i; B.258.a.4.i; B.259.a.4.i; B.260.a.4.i; B.261.a.4.i;
B.262.a.4.i; B.263.a.4.i; B.264.a.4.i; B.265.a.4.i; B.266.a.4.i;
B.267.a.4.i; B.268.a.4.i; B.269.a.4.i; B.270.a.4.i; B.271.a.4.i;
B.272.a.4.i; B.273.a.4.i; B.274.a.4.i; B.275.a.4.i; B.276.a.4.i;
B.277.a.4.i; B.278.a.4.i; B.279.a.4.i; B.280.a.4.i; B.281.a.4.i;
B.282.a.4.i; B.283.a.4.i; B.284.a.4.i; B.285.a.4.i; B.286.a.4.i;
B.287.a.4.i; B.288.a.4.i; B.289.a.4.i; B.290.a.4.i; B.291.a.4.i;
B.292.a.4.i; B.293.a.4.i; B.294.a.4.i; B.295.a.4.i; B.296.a.4.i;
B.297.a.4.i; B.298.a.4.i; B.299.a.4.i; B.300.a.4.i; B.301.a.4.i;
B.302.a.4.i; B.303.a.4.i; B.304.a.4.i; B.305.a.4.i; B.306.a.4.i;
B.307.a.4.i; B.308.a.4.i; B.309.a.4.i; B.310.a.4.i; B.311.a.4.i;
B.312.a.4.i; B.313.a.4.i; B.314.a.4.i; B.315.a.4.i; B.316.a.4.i;
B.317.a.4.i; B.318.a.4.i; B.319.a.4.i; B.320.a.4.i; B.321.a.4.i;
B.322.a.4.i; B.323.a.4.i; B.324.a.4.i; B.325.a.4.i; B.326.a.4.i;
B.327.a.4.i; B.328.a.4.i; B.329.a.4.i; B.330.a.4.i; B.331.a.4.i;
B.332.a.4.i; B.333.a.4.i; B.334.a.4.i; B.335.a.4.i; B.336.a.4.i;
B.337.a.4.i; B.338.a.4.i; B.339.a.4.i; B.340.a.4.i; B.341.a.4.i;
B.342.a.4.i; B.343.a.4.i; B.344.a.4.i; B.345.a.4.i; B.346.a.4.i;
B.347.a.4.i; B.348.a.4.i; B.349.a.4.i; B.350.a.4.i; B.351.a.4.i;
B.352.a.4.i; B.353.a.4.i; B.354.a.4.i; B.355.a.4.i; B.356.a.4.i;
B.357.a.4.i; B.358.a.4.i; E.2.a.4.i; E.3.a.4.i; E.4.a.4.i;
E.5.a.4.i; E.9.a.4.i; E.100.a.4.i; E.101.a.4.i; E.102.a.4.i;
E.103.a.4.i; E.104.a.4.i; E.105.a.4.i; E.106.a.4.i; E.107.a.4.i;
E.108.a.4.i; E.109.a.4.i; E.110.a.4.i; E.111.a.4.i; E.112.a.4.i;
E.113.a.4.i; E.114.a.4.i; E.115.a.4.i; E.116.a.4.i; E.117.a.4.i;
E.118.a.4.i; E.119.a.4.i; E.120.a.4.i; E.121.a.4.i; E.122.a.4.i;
E.123.a.4.i; E.124.a.4.i; E.125.a.4.i; E.126.a.4.i; E.127.a.4.i;
E.128.a.4.i; E.129.a.4.i; E.130.a.4.i; E.131.a.4.i; E.132.a.4.i;
E.133.a.4.i; E.134.a.4.i; E.135.a.4.i; E.136.a.4.i; E.137.a.4.i;
E.138.a.4.i; E.139.a.4.i; E.140.a.4.i; E.141.a.4.i; E.142.a.4.i;
E.143.a.4.i; E.144.a.4.i; E.145.a.4.i; E.146.a.4.i; E.147.a.4.i;
E.148.a.4.i; E.149.a.4.i; E.150.a.4.i; E.151.a.4.i; E.152.a.4.i;
E.153.a.4.i; E.154.a.4.i; E.155.a.4.i; E.156.a.4.i; E.157.a.4.i;
E.158.a.4.i; E.159.a.4.i; E.160.a.4.i; E.161.a.4.i; E.162.a.4.i;
E.163.a.4.i; E.164.a.4.i; E.165.a.4.i; E.166.a.4.i; E.167.a.4.i;
E.168.a.4.i; E.169.a.4.i; E.170.a.4.i; E.171.a.4.i; E.172.a.4.i;
E.173.a.4.i; E.174.a.4.i; E.175.a.4.i; E.176.a.4.i; E.177.a.4.i;
E.178.a.4.i; E.179.a.4.i; E.180.a.4.i; E.181.a.4.i; E.182.a.4.i;
E.183.a.4.i; E.184.a.4.i; E.185.a.4.i; E.186.a.4.i; E.187.a.4.i;
E.188.a.4.i; E.189.a.4.i; E.190.a.4.i; E.191.a.4.i; E.192.a.4.i;
E.193.a.4.i; E.194.a.4.i; E.195.a.4.i; E.196.a.4.i; E.197.a.4.i;
E.198.a.4.i; E.199.a.4.i; E.200.a.4.i; E.201.a.4.i; E.202.a.4.i;
E.203.a.4.i; E.204.a.4.i; E.205.a.4.i; E.206.a.4.i; E.207.a.4.i;
E.208.a.4.i; E.209.a.4.i; E.210.a.4.i; E.211.a.4.i; E.212.a.4.i;
E.213.a.4.i; E.214.a.4.i; E.215.a.4.i; E.216.a.4.i; E.217.a.4.i;
E.218.a.4.i; E.219.a.4.i; E.220.a.4.i; E.221.a.4.i; E.222.a.4.i;
E.223.a.4.i; E.224.a.4.i; E.225.a.4.i; E.226.a.4.i; E.227.a.4.i;
E.228.a.4.i; E.229.a.4.i; E.230.a.4.i; E.231.a.4.i; E.232.a.4.i;
E.233.a.4.i; E.234.a.4.i; E.235.a.4.i; E.236.a.4.i; E.237.a.4.i;
E.238.a.4.i; E.239.a.4.i; E.240.a.4.i; E.241.a.4.i; E.242.a.4.i;
E.243.a.4.i; E.244.a.4.i; E.245.a.4.i; E.246.a.4.i; E.247.a.4.i;
E.248.a.4.i; E.249.a.4.i; E.250.a.4.i; E.251.a.4.i; E.252.a.4.i;
E.253.a.4.i; E.254.a.4.i; E.255.a.4.i; E.256.a.4.i; E.257.a.4.i;
E.258.a.4.i; E.259.a.4.i; E.260.a.4.i; E.261.a.4.i; E.262.a.4.i;
E.263.a.4.i; E.264.a.4.i; E.265.a.4.i;
E.266.a.4.i; E.267.a.4.i; E.268.a.4.i; E.269.a.4.i; E.270.a.4.i;
E.271.a.4.i; E.272.a.4.i; E.273.a.4.i; E.274.a.4.i; E.275.a.4.i;
E.276.a.4.i; E.277.a.4.i; E.278.a.4.i; E.279.a.4.i; E.280.a.4.i;
E.281.a.4.i; E.282.a.4.i; E.283.a.4.i; E.284.a.4.i; E.285.a.4.i;
E.286.a.4.i; E.287.a.4.i; E.288.a.4.i; E.289.a.4.i; E.290.a.4.i;
E.291.a.4.i; E.292.a.4.i; E.293.a.4.i; E.294.a.4.i; E.295.a.4.i;
E.296.a.4.i; E.297.a.4.i; E.298.a.4.i; E.299.a.4.i; E.300.a.4.i;
E.301.a.4.i; E.302.a.4.i; E.303.a.4.i; E.304.a.4.i; E.305.a.4.i;
E.306.a.4.i; E.307.a.4.i; E.308.a.4.i; E.309.a.4.i; E.310.a.4.i;
E.311.a.4.i; E.312.a.4.i; E.313.a.4.i; E.314.a.4.i; E.315.a.4.i;
E.316.a.4.i; E.317.a.4.i; E.318.a.4.i; E.319.a.4.i; E.320.a.4.i;
E.321.a.4.i; E.322.a.4.i; E.323.a.4.i; E.324.a.4.i; E.325.a.4.i;
E.326.a.4.i; E.327.a.4.i; E.328.a.4.i; E.329.a.4.i; E.330.a.4.i;
E.331.a.4.i; E.332.a.4.i; E.333.a.4.i; E.334.a.4.i; E.335.a.4.i;
E.336.a.4.i; E.337.a.4.i; E.338.a.4.i; E.339.a.4.i; E.340.a.4.i;
E.341.a.4.i; E.342.a.4.i; E.343.a.4.i; E.344.a.4.i; E.345.a.4.i;
E.346.a.4.i; E.347.a.4.i; E.348.a.4.i; E.349.a.4.i; E.350.a.4.i;
E.351.a.4.i; E.352.a.4.i; E.353.a.4.i; E.354.a.4.i; E.355.a.4.i;
E.356.a.4.i; E.357.a.4.i; E.358.a.4.i; B.2.a.11.i; B.3.a.11.i;
B.4.a.11.i; B.5.a.11.i; B.9.a.11.i; B.100.a.11.i; B.101.a.11.i;
B.102.a.11.i; B.103.a.11.i; B.104.a.11.i; B.105.a.11.i;
B.106.a.11.i; B.107.a.11.i; B.108.a.11.i; B.109.a.11.i;
B.122.a.11.i; B.123.a.11.i; B.124.a.11.i; B.125.a.11.i;
B.126.a.11.i; B.127.a.11.i; B.128.a.11.i; B.129.a.11.i;
B.130.a.11.i; B.131.a.11.i; B.132.a.11.i; B.133.a.11.i;
B.134.a.11.i; B.135.a.11.i; B.136.a.11.i; B.137.a.11.i;
B.138.a.11.i; B.139.a.11.i; B.140.a.11.i; B.141.a.11.i;
B.142.a.11.i; B.143.a.11.i; B.144.a.11.i; B.145.a.11.i;
B.146.a.11.i; B.147.a.11.i; B.148.a.11.i; B.149.a.11.i;
B.150.a.11.i; B.151.a.11.i; B.152.a.11.i; B.153.a.11.i;
B.154.a.11.i; B.155.a.11.i; B.156.a.11.i; B.157.a.11.i;
B.158.a.11.i; B.159.a.11.i; B.160.a.11.i; B.161.a.11.i;
B.162.a.11.i; B.163.a.11.i; B.164.a.11.i; B.165.a.11.i;
B.166.a.11.i; B.167.a.11.i; B.168.a.11.i; B.169.a.11.i;
B.170.a.11.i; B.171.a.11.i; B.172.a.11.i; B.173.a.11.i;
B.174.a.11.i; B.175.a.11.i; B.176.a.11.i; B.177.a.11.i;
B.178.a.11.i; B.179.a.11.i; B.180.a.11.i; B.181.a.11.i;
B.182.a.11.i; B.183.a.11.i; B.184.a.11.i; B.185.a.11.i;
B.186.a.11.i; B.187.a.11.i; B.188.a.11.i; B.189.a.11.i;
B.190.a.11.i; B.191.a.11.i; B.192.a.11.i; B.193.a.11.i;
B.194.a.11.i; B.195.a.11.i; B.196.a.11.i; B.197.a.11.i;
B.198.a.11.i; B.199.a.11.i; B.200.a.11.i; B.201.a.11.i;
B.202.a.11.i; B.203.a.11.i; B.204.a.11.i; B.205.a.11.i;
B.206.a.11.i; B.207.a.11.i; B.208.a.11.i; B.209.a.11.i;
B.210.a.11.i; B.211.a.11.i; B.212.a.11.i; B.213.a.11.i;
B.214.a.11.i; B.215.a.11.i; B.216.a.11.i; B.217.a.11.i;
B.218.a.11.i; B.219.a.11.i; B.220.a.11.i; B.221.a.11.i;
B.222.a.11.i; B.223.a.11.i; B.224.a.11.i; B.225.a.11.i;
B.226.a.11.i; B.227.a.11.i; B.228.a.11.i; B.229.a.11.i;
B.230.a.11.i; B.231.a.11.i; B.232.a.11.i; B.233.a.11.i;
B.234.a.11.i; B.235.a.11.i; B.236.a.11.i; B.237.a.11.i;
B.238.a.11.i; B.239.a.11.i; B.240.a.11.i; B.241.a.11.i;
B.242.a.11.i; B.243.a.11.i; B.244.a.11.i; B.245.a.11.i;
B.246.a.11.i; B.247.a.11.i; B.248.a.11.i; B.249.a.11.i;
B.250.a.11.i; B.251.a.11.i; B.252.a.11.i; B.253.a.11.i;
B.254.a.11.i; B.255.a.11.i; B.256.a.11.i; B.257.a.11.i;
B.258.a.11.i; B.259.a.11.i; B.260.a.11.i; B.261.a.11.i;
B.262.a.11.i; B.263.a.11.i; B.264.a.11.i; B.265.a.11.i;
B.266.a.11.i; B.267.a.11.i; B.268.a.11.i; B.269.a.11.i;
B.270.a.11.i; B.271.a.11.i; B.272.a.11.i; B.273.a.11.i;
B.274.a.11.i; B.275.a.11.i; B.276.a.11.i; B.277.a.11.i;
B.278.a.11.i; B.279.a.11.i; B.280.a.11.i; B.281.a.11.i;
B.282.a.11.i; B.283.a.11.i; B.284.a.11.i; B.285.a.11.i;
B.286.a.11.i; B.287.a.11.i; B.288.a.11.i; B.289.a.11.i;
B.290.a.11.i; B.291.a.11.i; B.292.a.11.i; B.293.a.11.i;
B.294.a.11.i; B.295.a.11.i; B.296.a.11.i; B.297.a.11.i;
B.298.a.11.i; B.299.a.11.i; B.300.a.11.i; B.301.a.11.i;
B.302.a.11.i; B.303.a.11.i; B.304.a.11.i; B.305.a.11.i;
B.306.a.11.i; B.307.a.11.i; B.308.a.11.i; B.309.a.11.i;
B.310.a.11.i; B.311.a.11.i; B.312.a.11.i; B.313.a.11.i;
B.314.a.11.i; B.315.a.11.i; B.316.a.11.i; B.317.a.11.i;
B.318.a.11.i; B.319.a.11.i; B.320.a.11.i; B.321.a.11.i;
B.322.a.11.i; B.323.a.11.i; B.324.a.11.i; B.325.a.11.i;
B.326.a.11.i; B.327.a.11.i; B.328.a.11.i; B.329.a.11.i;
B.330.a.11.i; B.331.a.11.i; B.332.a.11.i; B.333.a.11.i;
B.334.a.11.i; B.335.a.11.i; B.336.a.11.i; B.337.a.11.i;
B.338.a.11.i; B.339.a.11.i; B.340.a.11.i; B.341.a.11.i;
B.342.a.11.i; B.343.a.11.i; B.344.a.11.i; B.345.a.11.i;
B.346.a.11.i; B.347.a.11.i; B.348.a.11.i; B.349.a.11.i;
B.350.a.11.i; B.351.a.11.i; B.352.a.11.i; B.353.a.11.i;
B.354.a.11.i; B.355.a.11.i; B.356.a.11.i; B.357.a.11.i;
B.358.a.11.i; E.2.a.11.i; E.3.a.11.i; E.4.a.11.i; E.5.a.11.i;
E.9.a.11.i; E.100.a.11.i; E.101.a.11.i; E.102.a.11.i; E.103.a.11.i;
E.104.a.11.i; E.105.a.11.i; E.106.a.11.i; E.107.a.11.i;
E.108.a.11.i; E.109.a.11.i; E.110.a.11.i; E.111.a.11.i;
E.112.a.11.i; E.113.a.11.i; E.114.a.11.i; E.115.a.11.i;
E.116.a.11.i; E.117.a.11.i; E.118.a.11.i; E.119.a.11.i;
E.120.a.11.i; E.121.a.11.i; E.122.a.11.i; E.123.a.11.i;
E.124.a.11.i; E.125.a.11.i; E.126.a.11.i; E.127.a.11.i;
E.128.a.11.i; E.129.a.11.i; E.130.a.11.i; E.131.a.11.i;
E.132.a.11.i; E.133.a.11.i; E.134.a.11.i; E.135.a.11.i;
E.136.a.11.i; E.137.a.11.i; E.138.a.11.i; E.139.a.11.i;
E.140.a.11.i; E.141.a.11.i; E.142.a.11.i; E.143.a.11.i;
E.144.a.11.i; E.145.a.11.i; E.146.a.11.i; E.147.a.11.i;
E.148.a.11.i; E.149.a.11.i; E.150.a.11.i; E.151.a.11.i;
E.152.a.11.i; E.153.a.11.i; E.154.a.11.i; E.155.a.11.i;
E.156.a.11.i; E.157.a.11.i; E.158.a.11.i; E.159.a.11.i;
E.160.a.11.i; E.161.a.11.i; E.162.a.11.i; E.163.a.11.i;
E.164.a.11.i; E.165.a.11.i; E.166.a.11.i; E.167.a.11.i;
E.168.a.11.i; E.169.a.11.i; E.170.a.11.i; E.171.a.11.i;
E.172.a.11.i; E.173.a.11.i; E.174.a.11.i; E.175.a.11.i;
E.176.a.11.i; E.177.a.11.i; E.178.a.11.i; E.179.a.11.i;
E.180.a.11.i; E.181.a.11.i; E.182.a.11.i; E.183.a.11.i;
E.184.a.11.i; E.185.a.11.i; E.186.a.11.i; E.187.a.11.i;
E.188.a.11.i; E.189.a.11.i; E.190.a.11.i; E.191.a.11.i;
E.192.a.11.i; E.193.a.11.i; E.194.a.11.i; E.195.a.11.i;
E.196.a.11.i; E.197.a.11.i; E.198.a.11.i; E.199.a.11.i;
E.200.a.11.i; E.201.a.11.i; E.202.a.11.i; E.203.a.11.i;
E.204.a.11.i; E.205.a.11.i; E.206.a.11.i; E.207.a.11.i;
E.208.a.11.i; E.209.a.11.i; E.210.a.11.i; E.211.a.11.i;
E.212.a.11.i; E.213.a.11.i; E.214.a.11.i; E.215.a.11.i;
E.216.a.11.i; E.217.a.11.i; E.218.a.11.i; E.219.a.11.i;
E.220.a.11.i; E.221.a.11.i; E.222.a.11.i; E.223.a.11.i;
E.224.a.11.i; E.225.a.11.i; E.226.a.11.i; E.227.a.11.i;
E.228.a.11.i; E.229.a.11.i; E.230.a.11.i; E.231.a.11.i;
E.232.a.11.i; E.233.a.11.i; E.234.a.11.i; E.235.a.11.i;
E.236.a.11.i; E.237.a.11.i; E.238.a.11.i; E.239.a.11.i;
E.240.a.11.i; E.241.a.11.i; E.242.a.11.i; E.243.a.11.i;
E.244.a.11.i; E.245.a.11.i; E.246.a.11.i; E.247.a.11.i;
E.248.a.11.i; E.249.a.11.i; E.250.a.11.i; E.251.a.11.i;
E.252.a.11.i; E.253.a.11.i; E.254.a.11.i; E.255.a.11.i;
E.256.a.11.i; E.257.a.11.i; E.258.a.11.i; E.259.a.11.i;
E.260.a.11.i; E.261.a.11.i; E.262.a.11.i; E.263.a.11.i;
E.264.a.11.i; E.265.a.11.i; E.266.a.11.i; E.267.a.11.i;
E.268.a.11.i; E.269.a.11.i; E.270.a.11.i; E.271.a.11.i;
E.272.a.11.i; E.273.a.11.i; E.274.a.11.i; E.275.a.11.i;
E.276.a.11.i; E.277.a.11.i; E.278.a.11.i; E.279.a.11.i;
E.280.a.11.i; E.281.a.11.i; E.282.a.11.i; E.283.a.11.i;
E.284.a.11.i; E.285.a.11.i; E.286.a.11.i; E.287.a.11.i;
E.288.a.11.i; E.289.a.11.i; E.290.a.11.i; E.291.a.11.i;
E.292.a.11.i; E.293.a.11.i; E.294.a.11.i; E.295.a.11.i;
E.296.a.11.i; E.297.a.11.i; F.298.a.11.i; E.299.a.11.i;
E.300.a.11.i; E.301.a.11.i; E.302.a.11.i; E.303.a.11.i;
E.304.a.11.i; E.305.a.11.i; E.306.a.11.i; E.307.a.11.i;
E.308.a.11.i; E.309.a.11.i; E.310.a.11.i; E.311.a.11.i;
E.312.a.11.i; E.313.a.11.i; E.314.a.11.i; E.315.a.11.i;
E.316.a.11.i; E.317.a.11.i; F.318.a.11.i; E.319.a.11.i;
E.320.a.11.i; E.321.a.11.i; E.322.a.11.i; E.323.a.11.i;
E.324.a.11.i; E.325.a.11.i; E.326.a.11.i; E.327.a.11.i;
E.328.a.11.i; E.329.a.11.i; E.330.a.11.i; E.331.a.11.i;
E.332.a.11.i; E.333.a.11.i; E.334.a.11.i; E.335.a.11.i;
E.336.a.11.i; E.337.a.11.i; E.338.a.11.i; E.339.a.11.i;
E.340.a.11.i; E.341.a.11.i; E.342.a.11.i; E.343.a.11.i;
E.344.a.11.i; E.345.a.11.i; E.346.a.11.i; E.347.a.11.i;
E.348.a.11.i; E.349.a.11.i; E.350.a.11.i; E.351.a.11.i;
E.352.a.11.i; E.353.a.11.i; E.354.a.11.i; E.355.a.11.i;
E.356.a.11.i; E.357.a.11.i; E.358.a.11.i; A.661.a.4.i; A.662.a.4.i;
A.663.a.4.i; A.664.a.4.i; A.665.a.4.i; B.661.a.4.i; B.662.a.4.i;
B.663.a.4.i; B.664.a.4.i; B.665.a.4.i; C.661.a.4.i; C.662.a.4.i;
C.663.a.4.i; C.664.a.4.i; C.665.a.4.i; A.661.a.11.i; A.662.a.11.i;
A.663.a.11.i; A.664.a.11.i; A.665.a.11.i; B.661.a.11.i;
B.662.a.11.i; B.663.a.11.i; B.664.a.11.i; B.665.a.11.i;
C.661.a.11.i; C.662.a.11.i; C.663.a.11.i; C.664.a.11.i;
C.665.a.11.i; A.661.a.44.i; A.662.a.44.i; A.663.a.44.i;
A.664.a.44.i; A.665.a.44.i; B.661.a.44.i; B.662.a.44.i;
B.663.a.44.i; B.664.a.44.i; B.665.a.44.i; C.661.a.44.i;
C.662.a.44.i; C.663.a.44.i; C.664.a.44.i; C.665.a.44.i;
A.666.a.4.i; A.666.a.11.i; A.666.a.44.i; A.666.b.4.i; A.666.b.11.i;
A.666.b.44.i; A.666.x.4.i; A.666.x.11.i; A.666.x.44.i; A.666.y.4.i;
A.666.y.11.i; A.666.y.44.i; A.666.z.4.i; A.666.z.11.i;
A.666.z.44.i; A.666.A.4.i; A.666.A.11.i; A.666.A.44.i; A.666.B.4.i;
A.666.B.11.i; A.666.B.44.i; A.666.C.4.i; A.666.C.11.i;
A.666.C.44.i; A.666.D.4.i; A.666.D.11.i; A.666.D.44.i; A.666.E.4.i;
A.666.E.11.i; A.666.E.44.i; A.666.F.4.i; A.666.F.11.i;
A.666.F.44.i; B.666.a.4.i; B.666.a.11.i; B.666.a.44.i; B.666.b.4.i;
B.666.b.11.i; B.666.b.44.i; B.666.x.4.i; B.666.x.11.i;
B.666.x.44.i; B.666.y.4.i; B.666.y.11.i; B.666.y.44.i; B.666.z.4.i;
B.666.z.11.i; B.666.z.44.i; B.666.B.4.i; B.666.B.11.i; B.666.B44.i;
B.666.B.4.i; B.666.B.11.i; B.666.B.44.i; B.666.C.4.i; B.666.C.11.i;
B.666.C.44.i; B.666.D.4.i; B.666.D.11.i; B.666.D.44.i; B.666.E.4.i;
B.666.E.11.i; B.666.E.44.i; B.666.F.4.i; B.666.F.11.i;
B.666.F.44.i; E.666.a.4.i; E.666.a.11.i; E.666.a.44.i; E.666.b.4.i;
E.666.b.11.i; E.666.b.44.i; E.666.x.4.i; E.666.x.11.i;
E.666.x.44.i; E.666.y.4.i; E.666.y.11.i; E.666.y.44.i; E.666.z.4.i;
E.666.z.11.i; E.666.z.44.i; E.666.E.4.i; E.666.E.11.i;
E.666.E.44.i; E.666.B.4.i; E.666.B.11.i; E.666.B.44.i; E.666.C.4.i;
E.666.C.11.i; E.666.C.44.i; E.666.D.4.i; E.666.D.11.i;
E.666.D.44.i; E.666.E.4.i; E.666.E.11.i; E.666.E.44.i; E.666.F.4.i;
E.666.F.11.i; E.666.F.44.i; A.2.a.46.i; A.3.a.46.i; A.4.a.46.i;
A.5.a.46.i; A.7.a.46.i; A.9.a.46.i; A.100.a.46.i; A.101.a.46.i;
A.102.a.46.i; A.103.a.46.i; A.104.a.46.i; A.105.a.46.i;
A.106.a.46.i; A.107.a.46.i; A.108.a.46.i; A.109.a.46.i;
A.110.a.46.i; A.111.a.46.i; A.112.a.46.i; A.113.a.46.i;
A.114.a.46.i; A.115.a.46.i; A.116.a.46.i; A.117.a.46.i;
A.118.a.46.i; A.119.a.46.i; A.120.a.46.i; A.121.a.46.i;
A.122.a.46.i; A.123.a.46.i; A.124.a.46.i; A.125.a.46.i;
A.126.a.46.i; A.127.a.46.i; A.128.a.46.i; A.129.a.46.i;
A.130.a.46.i; A.131.a.46.i; A.132.a.46.i; A.133.a.46.i;
A.134.a.46.i; A.135.a.46.i; A.136.a.46.i; A.137.a.46.i;
A.138.a.46.i; A.139.a.46.i; A.140.a.46.i; A.141.a.46.i; A.2.a.47.i;
A.3.a.47.i; A.4.a.47.i; A.5.a.47.i; A.7.a.47.i; A.9.a.47.i;
A.100.a.47.i; A.101.a.47.i; A.102.a.47.i; A.103.a.47.i;
A.104.a.47.i; A.105.a.47.i; A.106.a.47.i; A.107.a.47.i;
A.108.a.47.i; A.109.a.47.i; A.110.a.47.i; A.111.a.47.i;
A.112.a.47.i; A.113.a.47.i; A.114.a.47.i; A.115.a.47.i;
A.116.a.47.i; A.117.a.47.i; A.118.a.47.i; A.119.a.47.i;
A.120.a.47.i; A.121.a.47.i; A.122.a.47.i; A.123.a.47.i;
A.124.a.47.i; A.125.a.47.i; A.126.a.47.i; A.127.a.47.i;
A.128.a.47.i; A.129.a.47.i; A.130.a.47.i; A.131.a.47.i;
A.132.a.47.i; A.133.a.47.i; A.134.a.47.i; A.135.a.47.i;
A.136.a.47.i; A.137.a.47.i; A.138.a.47.i; A.139.a.47.i;
A.140.a.47.i; A.141.a.47.i; A.2.a.48.i; A.3.a.48.i; A.4.a.48.i;
A.5.a.48.i; A.7.a.48.i; A.9.a.48.i; A.100.a.48.i; A.101.a.48.i;
A.102.a.48.i; A.103.a.48.i; A.104.a.48.i; A.105.a.48.i;
A.106.a.48.i; A.107.a.48.i; A.108.a.48.i; A.109.a.48.i;
A.110.a.48.i; A.111.a.48.i; A.112.a.48.i; A.113.a.48.i;
A.114.a.48.i; A.115.a.48.i; A.116.a.48.i; A.117.a.48.i;
A.118.a.48.i; A.119.a.48.i; A.120.a.48.i; A.121.a.48.i;
A.122.a.48.i; A.123.a.48.i; A.124.a.48.i; A.125.a.48.i;
A.126.a.48.i; A.127.a.48.i; A.128.a.48.i; A.129.a.48.i;
A.130.a.48.i; A.131.a.48.i; A.132.a.48.i; A.133.a.48.i;
A.134.a.48.i; A.135.a.48.i; A.136.a.48.i; A.137.a.48.i;
A.138.a.48.i; A.139.a.48.i; A.140.a.48.i; A.141.a.48.i; A.2.a.49.i;
A.3.a.49.i; A.4.a.49.i; A.5.a.49.i; A.7.a.49.i; A.9.a.49.i;
A.100.a.49.i; A.101.a.49.i; A.102.a.49.i; A.103.a.49.i;
A.104.a.49.i; A.105.a.49.i; A.106.a.49.i; A.107.a.49.i;
A.108.a.49.i; A.109.a.49.i; A.110.a.49.i; A.111.a.49.i;
A.112.a.49.i; A.113.a.49.i; A.114.a.49.i; A.115.a.49.i;
A.116.a.49.i; A.117.a.49.i; A.118.a.49.i; A.119.a.49.i;
A.120.a.49.i; A.121.a.49.i; A.122.a.49.i; A.123.a.49.i;
A.124.a.49.i; A.125.a.49.i; A.126.a.49.i; A.127.a.49.i;
A.128.a.49.i; A.129.a.49.i; A.130.a.49.i; A.131.a.49.i;
A.132.a.49.i; A.133.a.49.i; A.134.a.49.i; A.135.a.49.i;
A.136.a.49.i; A.137.a.49.i; A.138.a.49.i; A.139.a.49.i;
A.140.a.49.i; A.141.a.49.i; A.2.a.50.i; A.3.a.50.i; A.4.a.50.i;
A.5.a.50.i; A.7.a.50.i; A.9.a.50.i; A.100.a.50.i; A.101.a.50.i;
A.102.a.50.i; A.103.a.50.i; A.104.a.50.i; A.105.a.50.i;
A.106.a.50.i; A.107.a.50.i; A.108.a.50.i; A.109.a.50.i;
A.110.a.50.i; A.111.a.50.i; A.112.a.50.i; A.113.a.50.i;
A.114.a.50.i; A.115.a.50.i; A.116.a.50.i; A.117.a.50.i;
A.118.a.50.i; A.119.a.50.i; A.120.a.50.i; A.121.a.50.i;
A.122.a.50.i; A.123.a.50.i; A.124.a.50.i; A.125.a.50.i;
A.126.a.50.i; A.127.a.50.i; A.128.a.50.i; A.129.a.50.i;
A.130.a.50.i; A.131.a.50.i; A.132.a.50.i; A.133.a.50.i;
A.134.a.50.i; A.135.a.50.i; A.136.a.50.i; A.137.a.50.i;
A.138.a.50.i; A.139.a.50.i; A.140.a.50.i; A.141.a.50.i; A.2.a.51.i;
A.3.a.51.i; A.4.a.51.i; A.5.a.51.i; A.7.a.51.i; A.9.a.51.i;
A.100.a.51.i; A.101.a.51.i; A.102.a.51.i; A.103.a.51.i;
A.104.a.51.i; A.105.a.51.i; A.106.a.51.i; A.107.a.51.i;
A.108.a.51.i; A.109.a.51.i; A.110.a.51.i; A.111.a.51.i;
A.112.a.51.i; A.113.a.51.i; A.114.a.51.i; A.115.a.51.i;
A.116.a.51.i; A.117.a.51.i; A.118.a.51.i; A.119.a.51.i;
A.120.a.51.i; A.121.a.51.i; A.122.a.51.i; A.123.a.51.i;
A.124.a.51.i; A.125.a.51.i; A.126.a.51.i; A.127.a.51.i;
A.128.a.51.i; A.129.a.51.i; A.130.a.51.i; A.131.a.51.i;
A.132.a.51.i; A.133.a.51.i; A.134.a.51.i; A.135.a.51.i;
A.136.a.51.i; A.137.a.51.i; A.138.a.51.i; A.139.a.51.i;
A.140.a.51.i; A.141.a.51.i; A.2.b.46.i; A.3.b.46.i; A.4.b.46.i;
A.5.b.46.i; A.7.b.46.i; A.9.b.46.i; A.100.b.46.i; A.101.b.46.i;
A.102.b.46.i; A.103.b.46.i; A.104.b.46.i; A.105.b.46.i;
A.106.b.46.i; A.107.b.46.i; A.108.b.46.i; A.109.b.46.i;
A.110.b.46.i; A.111.b.46.i; A.112.b.46.i; A.113.b.46.i;
A.114.b.46.i; A.115.b.46.i; A.116.b.46.i; A.117.b.46.i;
A.118.b.46.i; A.119.b.46.i; A.120.b.46.i; A.121.b.46.i;
A.122.b.46.i; A.123.b.46.i; A.124.b.46.i; A.125.b.46.i;
A.126.b.46.i; A.127.b.46.i; A.128.b.46.i; A.129.b.46.i;
A.130.b.46.i; A.131.b.46.i; A.132.b.46.i; A.133.b.46.i;
A.134.b.46.i; A.135.b.46.i; A.136.b.46.i; A.137.b.46.i;
A.138.b.46.i; A.139.b.46.i; A.140.b.46.i; A.141.b.46.i; A.2.b.47.i;
A.3.b.47.i; A.4.b.47.i; A.5.b.47.i; A.7.b.47.i; A.9.b.47.i;
A.100.b.47.i; A.101.b.47.i; A.102.b.47.i; A.103.b.47.i;
A.104.b.47.i; A.105.b.47.i; A.106.b.47.i; A.107.b.47.i;
A.108.b.47.i; A.109.b.47.i; A.110.b.47.i; A.111.b.47.i;
A.112.b.47.i; A.113.b.47.i; A.114.b.47.i; A.115.b.47.i;
A.116.b.47.i; A.117.b.47.i; A.118.b.47.i; A.119.b.47.i;
A.120.b.47.i; A.121.b.47.i; A.122.b.47.i; A.123.b.47.i;
A.124.b.47.i; A.125.b.47.i; A.126.b.47.i; A.127.b.47.i;
A.128.b.47.i; A.129.b.47.i; A.130.b.47.i; A.131.b.47.i;
A.132.b.47.i; A.133.b.47.i; A.134.b.47.i; A.135.b.47.i;
A.136.b.47.i; A.137.b.47.i; A.138.b.47.i; A.139.b.47.i;
A.140.b.47.i; A.141.b.47.i; A.2.b.48.i; A.3.b.48.i; A.4.b.48.i;
A.5.b.48.i; A.7.b.48.i; A.9.b.48.i; A.100.b.48.i;
A.101.b.48.i; A.102.b.48.i; A.103.b.48.i; A.104.b.48.i;
A.105.b.48.i; A.106.b.48.i; A.107.b.48.i; A.108.b.48.i;
A.109.b.48.i; A.110.b.48.i; A.111.b.48.i; A.112.b.48.i;
A.113.b.48.i; A.114.b.48.i; A.115.b.48.i; A.116.b.48.i;
A.117.b.48.i; A.118.b.48.i; A.119.b.48.i; A.120.b.48.i;
A.121.b.48.i; A.122.b.48.i; A.123.b.48.i; A.124.b.48.i;
A.125.b.48.i; A.126.b.48.i; A.127.b.48.i; A.128.b.48.i;
A.129.b.48.i; A.130.b.48.i; A.131.b.48.i; A.132.b.48.i;
A.133.b.48.i; A.134.b.48.i; A.135.b.48.i; A.136.b.48.i;
A.137.b.48.i; A.138.b.48.i; A.139.b.48.i; A.140.b.48.i;
A.141.b.48.i; A.2.b.49.i; A.3.b.49.i; A.4.b.49.i; A.5.b.49.i;
A.7.b.49.i; A.9.b.49.i; A.100.b.49.i; A.101.b.49.i; A.102.b.49.i;
A.103.b.49.i; A.104.b.49.i; A.105.b.49.i; A.106.b.49.i;
A.107.b.49.i; A.108.b.49.i; A.109.b.49.i; A.110.b.49.i;
A.111.b.49.i; A.112.b.49.i; A.113.b.49.i; A.114.b.49.i;
A.115.b.49.i; A.116.b.49.i; A.117.b.49.i; A.118.b.49.i;
A.119.b.49.i; A.120.b.49.i; A.121.b.49.i; A.122.b.49.i;
A.123.b.49.i; A.124.b.49.i; A.125.b.49.i; A.126.b.49.i;
A.127.b.49.i; A.128.b.49.i; A.129.b.49.i; A.130.b.49.i;
A.131.b.49.i; A.132.b.49.i; A.133.b.49.i; A.134.b.49.i;
A.135.b.49.i; A.136.b.49.i; A.137.b.49.i; A.138.b.49.i;
A.139.b.49.i; A.140.b.49.i; A.141.b.49.i; A.2.b.50.i; A.3.b.50.i;
A.4.b.50.i; A.5.b.50.i; A.7.b.50.i; A.9.b.50.i; A.100.b.50.i;
A.101.b.50.i; A.102.b.50.i; A.103.b.50.i; A.104.b.50.i;
A.105.b.50.i; A.106.b.50.i; A.107.b.50.i; A.108.b.50.i;
A.109.b.50.i; A.110.b.50.i; A.111.b.50.i; A.112.b.50.i;
A.113.b.50.i; A.114.b.50.i; A.115.b.50.i; A.116.b.50.i;
A.117.b.50.i; A.118.b.50.i; A.119.b.50.i; A.120.b.50.i;
A.121.b.50.i; A.122.b.50.i; A.123.b.50.i; A.124.b.50.i;
A.125.b.50.i; A.126.b.50.i; A.127.b.50.i; A.128.b.50.i;
A.129.b.50.i; A.130.b.50.i; A.131.b.50.i; A.132.b.50.i;
A.133.b.50.i; A.134.b.50.i; A.135.b.50.i; A.136.b.50.i;
A.137.b.50.i; A.138.b.50.i; A.139.b.50.i; A.140.b.50.i;
A.141.b.50.i; A.2.b.51.i; A.3.b.51.i; A.4.b.51.i; A.5.b.51.i;
A.7.b.51.i; A.9.b.51.i; A.100.b.51.i; A.101.b.51.i; A.102.b.51.i;
A.103.b.51.i; A.104.b.51.i; A.105.b.51.i; A.106.b.51.i;
A.107.b.51.i; A.108.b.51.i; A.109.b.51.i; A.110.b.51.i;
A.111.b.51.i; A.112.b.51.i; A.113.b.51.i; A.114.b.51.i;
A.115.b.51.i; A.116.b.51.i; A.117.b.51.i; A.118.b.51.i;
A.119.b.51.i; A.120.b.51.i; A.121.b.51.i; A.122.b.51.i;
A.123.b.51.i; A.124.b.51.i; A.125.b.51.i; A.126.b.51.i;
A.127.b.51.i; A.128.b.51.i; A.129.b.51.i; A.130.b.51.i;
A.131.b.51.i; A.132.b.51.i; A.133.b.51.i; A.134.b.51.i;
A.135.b.51.i; A.136.b.51.i; A.137.b.51.i; A.138.b.51.i;
A.139.b.51.i; A.140.b.51.i; A.141.b.51.i; A.2.x.46.i; A.3.x.46.i;
A.4.x.46.i; A.5.x.46.i; A.7.x.46.i; A.9.x.46.i; A.100.x.46.i;
A.101.x.46.i; A.102.x.46.i; A.103.x.46.i; A.104.x.46.i;
A.105.x.46.i; A.106.x.46.i; A.107.x.46.i; A.108.x.46.i;
A.109.x.46.i; A.110.x.46.i; A.111.x.46.i; A.112.x.46.i;
A.113.x.46.i; A.114.x.46.i; A.115.x.46.i; A.116.x.46.i;
A.117.x.46.i; A.118.x.46.i; A.119.x.46.i; A.120.x.46.i;
A.121.x.46.i; A.122.x.46.i; A.123.x.46.i; A.124.x.46.i;
A.125.x.46.i; A.126.x.46.i; A.127.x.46.i; A.128.x.46.i;
A.129.x.46.i; A.130.x.46.i; A.131.x.46.i; A.132.x.46.i;
A.133.x.46.i; A.134.x.46.i; A.135.x.46.i; A.136.x.46.i;
A.137.x.46.i; A.138.x.46.i; A.139.x.46.i; A.140.x.46.i;
A.141.x.46.i; A.2.x.47.i; A.3.x.47.i; A.4.x.47.i; A.5.x.47.i;
A.7.x.47.i; A.9.x.47.i; A.100.x.47.i; A.101.x.47.i; A.102.x.47.i;
A.103.x.47.i; A.104.x.47.i; A.105.x.47.i; A.106.x.47.i;
A.107.x.47.i; A.108.x.47.i; A.109.x.47.i; A.110.x.47.i;
A.111.x.47.i; A.112.x.47.i; A.113.x.47.i; A.114.x.47.i;
A.115.x.47.i; A.116.x.47.i; A.117.x.47.i; A.118.x.47.i;
A.119.x.47.i; A.120.x.47.i; A.121.x.47.i; A.122.x.47.i;
A.123.x.47.i; A.124.x.47.i; A.125.x.47.i; A.126.x.47.i;
A.127.x.47.i; A.128.x.47.i; A.129.x.47.i; A.130.x.47.i;
A.131.x.47.i; A.132.x.47.i; A.133.x.47.i; A.134.x.47.i;
A.135.x.47.i; A.136.x.47.i; A.137.x.47.i; A.138.x.47.i;
A.139.x.47.i; A.140.x.47.i; A.141.x.47.i; A.2.x.48.i; A.3.x.48.i;
A.4.x.48.i; A.5.x.48.i; A.7.x.48.i; A.9.x.48.i; A.100.x.48.i;
A.101.x.48.i; A.102.x.48.i; A.103.x.48.i; A.104.x.48.i;
A.105.x.48.i; A.106.x.48.i; A.107.x.48.i; A.108.x.48.i;
A.109.x.48.i; A.110.x.48.i; A.111.x.48.i; A.112.x.48.i;
A.113.x.48.i; A.114.x.48.i; A.115.x.48.i; A.116.x.48.i;
A.117.x.48.i; A.118.x.48.i; A.119.x.48.i; A.120.x.48.i;
A.121.x.48.i; A.122.x.48.i; A.123.x.48.i; A.124.x.48.i;
A.125.x.48.i; A.126.x.48.i; A.127.x.48.i; A.128.x.48.i;
A.129.x.48.i; A.130.x.48.i; A.131.x.48.i; A.132.x.48.i;
A.133.x.48.i; A.134.x.48.i; A.135.x.48.i; A.136.x.48.i;
A.137.x.48.i; A.138.x.48.i; A.139.x.48.i; A.140.x.48.i;
A.141.x.48.i; A.2.x.49.i; A.3.x.49.i; A.4.x.49.i; A.5.x.49.i;
A.7.x.49.i; A.9.x.49.i; A.100.x.49.i; A.101.x.49.i; A.102.x.49.i;
A.103.x.49.i; A.104.x.49.i; A.105.x.49.i; A.106.x.49.i;
A.107.x.49.i; A.108.x.49.i; A.109.x.49.i; A.110.x.49.i;
A.111.x.49.i; A.112.x.49.i; A.113.x.49.i; A.114.x.49.i;
A.115.x.49.i; A.116.x.49.i; A.117.x.49.i; A.118.x.49.i;
A.119.x.49.i; A.120.x.49.i; A.121.x.49.i; A.122.x.49.i;
A.123.x.49.i; A.124.x.49.i; A.125.x.49.i; A.126.x.49.i;
A.127.x.49.i; A.128.x.49.i; A.129.x.49.i; A.130.x.49.i;
A.131.x.49.i; A.132.x.49.i; A.133.x.49.i; A.134.x.49.i;
A.135.x.49.i; A.136.x.49.i; A.137.x.49.i; A.138.x.49.i;
A.139.x.49.i; A.140.x.49.i; A.141.x.49.i; A.2.x.50.i; A.3.x.50.i;
A.4.x.50.i; A.5.x.50.i; A.7.x.50.i; A.9.x.50.i; A.100.x.50.i;
A.101.x.50.i; A.102.x.50.i; A.103.x.50.i; A.104.x.50.i;
A.105.x.50.i; A.106.x.50.i; A.107.x.50.i; A.108.x.50.i;
A.109.x.50.i; A.110.x.50.i; A.111.x.50.i; A.112.x.50.i;
A.113.x.50.i; A.114.x.50.i; A.115.x.50.i; A.116.x.50.i;
A.117.x.50.i; A.118.x.50.i; A.119.x.50.i; A.120.x.50.i;
A.121.x.50.i; A.122.x.50.i; A.123.x.50.i; A.124.x.50.i;
A.125.x.50.i; A.126.x.50.i; A.127.x.50.i; A.128.x.50.i;
A.129.x.50.i; A.130.x.50.i; A.131.x.50.i; A.132.x.50.i;
A.133.x.50.i; A.134.x.50.i; A.135.x.50.i; A.136.x.50.i;
A.137.x.50.i; A.138.x.50.i; A.139.x.50.i; A.140.x.50.i;
A.141.x.50.i; A.2.x.51.i; A.3.x.51.i; A.4.x.51.i; A.5.x.51.i;
A.7.x.51.i; A.9.x.51.i; A.100.x.51.i; A.101.x.51.i; A.102.x.51.i;
A.103.x.51.i; A.104.x.51.i; A.105.x.51.i; A.106.x.51.i;
A.107.x.51.i; A.108.x.51.i; A.109.x.51.i; A.110.x.51.i;
A.111.x.51.i; A.112.x.51.i; A.113.x.51.i; A.114.x.51.i;
A.115.x.51.i; A.116.x.51.i; A.117.x.51.i; A.118.x.51.i;
A.119.x.51.i; A.120.x.51.i; A.121.x.51.i; A.122.x.51.i;
A.123.x.51.i; A.124.x.51.i; A.125.x.51.i; A.126.x.51.i;
A.127.x.51.i; A.128.x.51.i; A.129.x.51.i; A.130.x.51.i;
A.131.x.51.i; A.132.x.51.i; A.133.x.51.i; A.134.x.51.i;
A.135.x.51.i; A.136.x.51.i; A.137.x.51.i; A.138.x.51.i;
A.139.x.51.i; A.140.x.51.i; A.141.x.51.i; A.2.y.46.i; A.3.y.46.i;
A.4.y.46.i; A.5.y.46.i; A.7.y.46.i; A.9.y.46.i; A.100.y.46.i;
A.101.y.46.i; A.102.y.46.i; A.103.y.46.i; A.104.y.46.i;
A.105.y.46.i; A.106.y.46.i; A.107.y.46.i; A.108.y.46.i;
A.109.y.46.i; A.110.y.46.i; A.111.y.46.i; A.112.y.46.i;
A.113.y.46.i; A.114.y.46.i; A.115.y.46.i; A.116.y.46.i;
A.117.y.46.i; A.118.y.46.i; A.119.y.46.i; A.120.y.46.i;
A.121.y.46.i; A.122.y.46.i; A.123.y.46.i; A.124.y.46.i;
A.125.y.46.i; A.126.y.46.i; A.127.y.46.i; A.128.y.46.i;
A.129.y.46.i; A.130.y.46.i; A.131.y.46.i; A.132.y.46.i;
A.133.y.46.i; A.134.y.46.i; A.135.y.46.i; A.136.y.46.i;
A.137.y.46.i; A.138.y.46.i; A.139.y.46.i; A.140.y.46.i;
A.141.y.46.i; A.2.y.47.i; A.3.y.47.i; A.4.y.47.i; A.5.y.47.i;
A.7.y.47.i; A.9.y.47.i; A.100.y.47.i; A.101.y.47.i; A.102.y.47.i;
A.103.y.47.i; A.104.y.47.i; A.105.y.47.i; A.106.y.47.i;
A.107.y.47.i; A.108.y.47.i; A.109.y.47.i; A.110.y.47.i;
A.111.y.47.i; A.112.y.47.i; A.113.y.47.i; A.114.y.47.i;
A.115.y.47.i; A.116.y.47.i; A.117.y.47.i; A.118.y.47.i;
A.119.y.47.i; A.120.y.47.i; A.121.y.47.i; A.122.y.47.i;
A.123.y.47.i; A.124.y.47.i; A.125.y.47.i; A.126.y.47.i;
A.127.y.47.i; A.128.y.47.i; A.129.y.47.i; A.130.y.47.i;
A.131.y.47.i; A.132.y.47.i; A.133.y.47.i; A.134.y.47.i;
A.135.y.47.i; A.136.y.47.i; A.137.y.47.i; A.138.y.47.i;
A.139.y.47.i; A.140.y.47.i; A.141.y.47.i; A.2.y.48.i; A.3.y.48.i;
A.4.y.48.i; A.5.y.48.i; A.7.y.48.i; A.9.y.48.i; A.100.y.48.i;
A.101.y.48.i; A.102.y.48.i; A.103.y.48.i; A.104.y.48.i;
A.105.y.48.i; A.106.y.48.i; A.107.y.48.i; A.108.y.48.i;
A.109.y.48.i; A.110.y.48.i; A.111.y.48.i; A.112.y.48.i;
A.113.y.48.i; A.114.y.48.i; A.115.y.48.i; A.116.y.48.i;
A.117.y.48.i; A.118.y.48.i; A.119.y.48.i; A.120.y.48.i;
A.121.y.48.i; A.122.y.48.i; A.123.y.48.i; A.124.y.48.i;
A.125.y.48.i; A.126.y.48.i; A.127.y.48.i; A.128.y.48.i;
A.129.y.48.i; A.130.y.48.i; A.131.y.48.i; A.132.y.48.i;
A.133.y.48.i; A.134.y.48.i; A.135.y.48.i; A.136.y.48.i;
A.137.y.48.i; A.138.y.48.i; A.139.y.48.i; A.140.y.48.i;
A.141.y.48.i; A.2.y.49.i; A.3.y.49.i; A.4.y.49.i; A.5.y.49.i;
A.7.y.49.i; A.9.y.49.i; A.100.y.49.i; A.101.y.49.i; A.102.y.49.i;
A.103.y.49.i; A.104.y.49.i; A.105.y.49.i; A.106.y.49.i;
A.107.y.49.i; A.108.y.49.i; A.109.y.49.i; A.110.y.49.i;
A.111.y.49.i; A.112.y.49.i; A.113.y.49.i; A.114.y.49.i;
A.115.y.49.i; A.116.y.49.i; A.117.y.49.i; A.118.y.49.i;
A.119.y.49.i; A.120.y.49.i; A.121.y.49.i; A.122.y.49.i;
A.123.y.49.i; A.124.y.49.i; A.125.y.49.i; A.126.y.49.i;
A.127.y.49.i; A.128.y.49.i; A.129.y.49.i; A.130.y.49.i;
A.131.y.49.i; A.132.y.49.i; A.133.y.49.i; A.134.y.49.i;
A.135.y.49.i; A.136.y.49.i; A.137.y.49.i; A.138.y.49.i;
A.139.y.49.i; A.140.y.49.i; A.141.y.49.i; A.2.y.50.i; A.3.y.50.i;
A.4.y.50.i; A.5.y.50.i; A.7.y.50.i; A.9.y.50.i; A.100.y.50.i;
A.101.y.50.i; A.102.y.50.i; A.103.y.50.i; A.104.y.50.i;
A.105.y.50.i; A.106.y.50.i; A.107.y.50.i; A.108.y.50.i;
A.109.y.50.i; A.110.y.50.i; A.111.y.50.i; A.112.y.50.i;
A.113.y.50.i; A.114.y.50.i; A.115.y.50.i; A.116.y.50.i;
A.117.y.50.i; A.118.y.50.i; A.119.y.50.i; A.120.y.50.i;
A.121.y.50.i; A.122.y.50.i; A.123.y.50.i; A.124.y.50.i;
A.125.y.50.i; A.126.y.50.i; A.127.y.50.i; A.128.y.50.i;
A.129.y.50.i; A.130.y.50.i; A.131.y.50.i; A.132.y.50.i;
A.133.y.50.i; A.134.y.50.i; A.135.y.50.i; A.136.y.50.i;
A.137.y.50.i; A.138.y.50.i; A.139.y.50.i; A.140.y.50.i;
A.141.y.50.i; A.2.y.51.i; A.3.y.51.i; A.4.y.51.i; A.5.y.51.i;
A.7.y.51.i; A.9.y.51.i; A.100.y.51.i; A.101.y.51.i; A.102.y.51.i;
A.103.y.51.i; A.104.y.51.i; A.105.y.51.i; A.106.y.51.i;
A.107.y.51.i; A.108.y.51.i; A.109.y.51.i; A.110.y.51.i;
A.111.y.51.i; A.112.y.51.i; A.113.y.51.i; A.114.y.51.i;
A.115.y.51.i; A.116.y.51.i; A.117.y.51.i; A.118.y.51.i;
A.119.y.51.i; A.120.y.51.i; A.121.y.51.i; A.122.y.51.i;
A.123.y.51.i; A.124.y.51.i; A.125.y.51.i; A.126.y.51.i;
A.127.y.51.i; A.128.y.51.i; A.129.y.51.i; A.130.y.51.i;
A.131.y.51.i; A.132.y.51.i; A.133.y.51.i; A.134.y.51.i;
A.135.y.51.i; A.136.y.51.i; A.137.y.51.i; A.138.y.51.i;
A.139.y.51.i; A.140.y.51.i; A.141.y.51.i; A.2.z.46.i; A.3.z.46.i;
A.4.z.46.i; A.5.z.46.i; A.7.z.46.i; A.9.z.46.i; A.100.z.46.i;
A.101.z.46.i; A.102.z.46.i; A.103.z.46.i; A.104.z.46.i;
A.105.z.46.i; A.106.z.46.i; A.107.z.46.i; A.108.z.46.i;
A.109.z.46.i; A.110.z.46.i; A.111.z.46.i; A.112.z.46.i;
A.113.z.46.i; A.114.z.46.i; A.115.z.46.i; A.116.z.46.i;
A.117.z.46.i; A.118.z.46.i; A.119.z.46.i; A.120.z.46.i;
A.121.z.46.i; A.122.z.46.i; A.123.z.46.i; A.124.z.46.i;
A.125.z.46.i; A.126.z.46.i; A.127.z.46.i; A.128.z.46.i;
A.129.z.46.i; A.130.z.46.i; A.131.z.46.i; A.132.z.46.i;
A.133.z.46.i; A.134.z.46.i; A.135.z.46.i; A.136.z.46.i;
A.137.z.46.i; A.138.z.46.i; A.139.z.46.i; A.140.z.46.i;
A.141.z.46.i; A.2.z.47.i; A.3.z.47.i; A.4.z.47.i; A.5.z.47.i;
A.7.z.47.i; A.9.z.47.i; A.100.z.47.i; A.101.z.47.i; A.102.z.47.i;
A.103.z.47.i; A.104.z.47.i; A.105.z.47.i; A.106.z.47.i;
A.107.z.47.i; A.108.z.47.i; A.109.z.47.i; A.110.z.47.i;
A.111.z.47.i; A.112.z.47.i; A.113.z.47.i; A.114.z.47.i;
A.115.z.47.i; A.116.z.47.i; A.117.z.47.i; A.118.z.47.i;
A.119.z.47.i; A.120.z.47.i; A.121.z.47.i; A.122.z.47.i;
A.123.z.47.i; A.124.z.47.i; A.125.z.47.i; A.126.z.47.i;
A.127.z.47.i; A.128.z.47.i; A.129.z.47.i; A.130.z.47.i;
A.131.z.47.i; A.132.z.47.i; A.133.z.47.i; A.134.z.47.i;
A.135.z.47.i; A.136.z.47.i; A.137.z.47.i; A.138.z.47.i;
A.139.z.47.i; A.140.z.47.i; A.141.z.47.i; A.2.z.48.i; A.3.z.48.i;
A.4.z.48.i; A.5.z.48.i; A.7.z.48.i; A.9.z.48.i; A.100.z.48.i;
A.101.z.48.i; A.102.z.48.i; A.103.z.48.i; A.104.z.48.i;
A.105.z.48.i; A.106.z.48.i; A.107.z.48.i; A.108.z.48.i;
A.109.z.48.i; A.110.z.48.i; A.111.z.48.i; A.112.z.48.i;
A.113.z.48.i; A.114.z.48.i; A.115.z.48.i; A.116.z.48.i;
A.117.z.48.i; A.118.z.48.i; A.119.z.48.i; A.120.z.48.i;
A.121.z.48.i; A.122.z.48.i; A.123.z.48.i; A.124.z.48.i;
A.125.z.48.i; A.126.z.48.i; A.127.z.48.i; A.128.z.48.i;
A.129.z.48.i; A.130.z.48.i; A.131.z.48.i; A.132.z.48.i;
A.133.z.48.i; A.134.z.48.i; A.135.z.48.i; A.136.z.48.i;
A.137.z.48.i; A.138.z.48.i; A.139.z.48.i; A.140.z.48.i;
A.141.z.48.i; A.2.z.49.i; A.3.z.49.i; A.4.z.49.i; A.5.z.49.i;
A.7.z.49.i; A.9.z.49.i; A.100.z.49.i; A.101.z.49.i; A.102.z.49.i;
A.103.z.49.i; A.104.z.49.i; A.105.z.49.i; A.106.z.49.i;
A.107.z.49.i; A.108.z.49.i; A.109.z.49.i; A.110.z.49.i;
A.111.z.49.i; A.112.z.49.i; A.113.z.49.i; A.114.z.49.i;
A.115.z.49.i; A.116.z.49.i; A.117.z.49.i; A.118.z.49.i;
A.119.z.49.i; A.120.z.49.i; A.121.z.49.i; A.122.z.49.i;
A.123.z.49.i; A.124.z.49.i; A.125.z.49.i; A.126.z.49.i;
A.127.z.49.i; A.128.z.49.i; A.129.z.49.i; A.130.z.49.i;
A.131.z.49.i; A.132.z.49.i; A.133.z.49.i; A.134.z.49.i;
A.135.z.49.i; A.136.z.49.i; A.137.z.49.i; A.138.z.49.i;
A.139.z.49.i; A.140.z.49.i; A.141.z.49.i; A.2.z.50.i; A.3.z.50.i;
A.4.z.50.i; A.5.z.50.i; A.7.z.50.i; A.9.z.50.i; A.100.z.50.i;
A.101.z.50.i; A.102.z.50.i; A.103.z.50.i; A.104.z.50.i;
A.105.z.50.i; A.106.z.50.i; A.107.z.50.i; A.108.z.50.i;
A.109.z.50.i; A.110.z.50.i; A.111.z.50.i; A.112.z.50.i;
A.113.z.50.i; A.114.z.50.i; A.115.z.50.i; A.116.z.50.i;
A.117.z.50.i; A.118.z.50.i; A.119.z.50.i; A.120.z.50.i;
A.121.z.50.i; A.122.z.50.i; A.123.z.50.i; A.124.z.50.i;
A.125.z.50.i; A.126.z.50.i; A.127.z.50.i; A.128.z.50.i;
A.129.z.50.i; A.130.z.50.i; A.131.z.50.i; A.132.z.50.i;
A.133.z.50.i; A.134.z.50.i; A.135.z.50.i; A.136.z.50.i;
A.137.z.50.i; A.138.z.50.i; A.139.z.50.i; A.140.z.50.i;
A.141.z.50.i; A.2.z.51.i; A.3.z.51.i; A.4.z.51.i; A.5.z.51.i;
A.7.z.51.i; A.9.z.51.i; A.100.z.51.i; A.101.z.51.i; A.102.z.51.i;
A.103.z.51.i; A.104.z.51.i; A.105.z.51.i; A.106.z.51.i;
A.107.z.51.i; A.108.z.51.i; A.109.z.51.i; A.110.z.51.i;
A.111.z.51.i; A.112.z.51.i; A.113.z.51.i; A.114.z.51.i;
A.115.z.51.i; A.116.z.51.i; A.117.z.51.i; A.118.z.51.i;
A.119.z.51.i; A.120.z.51.i; A.121.z.51.i; A.122.z.51.i;
A.123.z.51.i; A.124.z.51.i; A.125.z.51.i; A.126.z.51.i;
A.127.z.51.i; A.128.z.51.i; A.129.z.51.i; A.130.z.51.i;
A.131.z.51.i; A.132.z.51.i; A.133.z.51.i; A.134.z.51.i;
A.135.z.51.i; A.136.z.51.i; A.137.z.51.i; A.138.z.51.i;
A.139.z.51.i; A.140.z.51.i; A.141.z.51.i; A.2.A.46.i; A.3.A.46.i;
A.4.A.46.i; A.5.A.46.i; A.7.A.46.i; A.9.A.46.i; A.100.A.46.i;
A.101.A.46.i; A.102.A.46.i; A.103.A.46.i; A.104.A.46.i;
A.105.A.46.i; A.106.A.46.i; A.107.A.46.i; A.108.A.46.i;
A.109.A.46.i; A.110.A.46.i; A.111.A.46.i; A.112.A.46.i;
A.113.A.46.i; A.114.A.46.i; A.115.A.46.i; A.116.A.46.i;
A.117.A.46.i; A.118.A.46.i; A.119.A.46.i; A.120.A.46.i;
A.121.A.46.i; A.122.A.46.i; A.123.A.46.i; A.124.A.46.i;
A.125.A.46.i; A.126.A.46.i; A.127.A.46.i; A.128.A.46.i;
A.129.A.46.i; A.130.A.46.i; A.131.A.46.i; A.132.A.46.i;
A.133.A.46.i; A.134.A.46.i; A.135.A.46.i; A.136.A.46.i;
A.137.A.46.i; A.138.A.46.i; A.139.A.46.i; A.140.A.46.i;
A.141.A.46.i; A.2.A.47.i; A.3.A.47.i; A.4.A.47.i; A.5.A.47.i;
A.7.A.47.i; A.9.A.47.i; A.100.A.47.i; A.101.A.47.i; A.102.A.47.i;
A.103.A.47.i; A.104.A.47.i; A.105.A.47.i; A.106.A.47.i;
A.107.A.47.i; A.108.A.47.i; A.109.A.47.i; A.110.A.47.i;
A.111.A.47.i; A.112.A.47.i; A.113.A.47.i; A.114.A.47.i;
A.115.A.47.i; A.116.A.47.i; A.117.A.47.i; A.118.A.47.i;
A.119.A.47.i; A.120.A.47.i; A.121.A.47.i; A.122.A.47.i;
A.123.A.47.i; A.124.A.47.i;
A.125.A.47.i; A.126.A.47.i; A.127.A.47.i; A.128.A.47.i;
A.129.A.47.i; A.130.A.47.i; A.131.A.47.i; A.132.A.47.i;
A.133.A.47.i; A.134.A.47.i; A.135.A.47.i; A.136.A.47.i;
A.137.A.47.i; A.138.A.47.i; A.139.A.47.i; A.140.A.47.i;
A.141.A.47.i; A.2.A.48.i; A.3.A.48.i; A.4.A.48.i; A.5.A.48.i;
A.7.A.48.i; A.9.A.48.i; A.100.A.48.i; A.101.A.48.i; A.102.A.48.i;
A.103.A.48.i; A.104.A.48.i; A.105.A.48.i; A.106.A.48.i;
A.107.A.48.i; A.108.A.48.i; A.109.A.48.i; A.110.A.48.i;
A.111.A.48.i; A.112.A.48.i; A.113.A.48.i; A.114.A.48.i;
A.115.A.48.i; A.116.A.48.i; A.117.A.48.i; A.118.A.48.i;
A.119.A.48.i; A.120.A.48.i; A.121.A.48.i; A.122.A.48.i;
A.123.A.48.i; A.124.A.48.i; A.125.A.48.i; A.126.A.48.i;
A.127.A.48.i; A.128.A.48.i; A.129.A.48.i; A.130.A.48.i;
A.131.A.48.i; A.132.A.48.i; A.133.A.48.i; A.134.A.48.i;
A.135.A.48.i; A.136.A.48.i; A.137.A.48.i; A.138.A.48.i;
A.139.A.48.i; A.140.A.48.i; A.141.A.48.i; A.2.A.49.i; A.3.A.49.i;
A.4.A.49.i; A.5.A.49.i; A.7.A.49.i; A.9.A.49.i; A.100.A.49.i;
A.101.A.49.i; A.102.A.49.i; A.103.A.49.i; A.104.A.49.i;
A.105.A.49.i; A.106.A.49.i; A.107.A.49.i; A.108.A.49.i;
A.109.A.49.i; A.110.A.49.i; A.111.A.49.i; A.112.A.49.i;
A.113.A.49.i; A.114.A.49.i; A.115.A.49.i; A.116.A.49.i;
A.117.A.49.i; A.118.A.49.i; A.119.A.49.i; A.120.A.49.i;
A.121.A.49.i; A.122.A.49.i; A.123.A.49.i; A.124.A.49.i;
A.125.A.49.i; A.126.A.49.i; A.127.A.49.i; A.128.A.49.i;
A.129.A.49.i; A.130.A.49.i; A.131.A.49.i; A.132.A.49.i;
A.133.A.49.i; A.134.A.49.i; A.135.A.49.i; A.136.A.49.i;
A.137.A.49.i; A.138.A.49.i; A.139.A.49.i; A.140.A.49.i;
A.141.A.49.i; A.2.A.50.i; A.3.A.50.i; A.4.A.50.i; A.5.A.50.i;
A.7.A.50.i; A.9.A.50.i; A.100.A.50.i; A.101.A.50.i; A.102.A.50.i;
A.103.A.50.i; A.104.A.50.i; A.105.A.50.i; A.106.A.50.i;
A.107.A.50.i; A.108.A.50.i; A.109.A.50.i; A.110.A.50.i;
A.111.A.50.i; A.112.A.50.i; A.113.A.50.i; A.114.A.50.i;
A.115.A.50.i; A.116.A.50.i; A.117.A.50.i; A.118.A.50.i;
A.119.A.50.i; A.120.A.50.i; A.121.A.50.i; A.122.A.50.i;
A.123.A.50.i; A.124.A.50.i; A.125.A.50.i; A.126.A.50.i;
A.127.A.50.i; A.128.A.50.i; A.129.A.50.i; A.130.A.50.i;
A.131.A.50.i; A.132.A.50.i; A.133.A.50.i; A.134.A.50.i;
A.135.A.50.i; A.136.A.50.i; A.137.A.50.i; A.138.A.50.i;
A.139.A.50.i; A.140.A.50.i; A.141.A.50.i; A.2.A.51.i; A.3.A.51.i;
A.4.A.51.i; A.5.A.51.i; A.7.A.51.i; A.9.A.51.i; A.100.A.51.i;
A.101.A.51.i; A.102.A.51.i; A.103.A.51.i; A.104.A.51.i;
A.105.A.51.i; A.106.A.51.i; A.107.A.51.i; A.108.A.51.i;
A.109.A.51.i; A.110.A.51.i; A.111.A.51.i; A.112.A.51.i;
A.113.A.51.i; A.114.A.51.i; A.115.A.51.i; A.116.A.51.i;
A.117.A.51.i; A.118.A.51.i; A.119.A.51.i; A.120.A.51.i;
A.121.A.51.i; A.122.A.51.i; A.123.A.51.i; A.124.A.51.i;
A.125.A.51.i; A.126.A.51.i; A.127.A.51.i; A.128.A.51.i;
A.129.A.51.i; A.130.A.51.i; A.131.A.51.i; A.132.A.51.i;
A.133.A.51.i; A.134.A.51.i; A.135.A.51.i; A.136.A.51.i;
A.137.A.51.i; A.138.A.51.i; A.139.A.51.i; A.140.A.51.i;
A.141.A.51.i; A.2.B.46.i; A.3.B.46.i; A.4.B.46.i; A.5.B.46.i;
A.7.B.46.i; A.9.B.46.i; A.100.B.46.i; A.101.B.46.i; A.102.B.46.i;
A.103.B.46.i; A.104.B.46.i; A.105.B.46.i; A.106.B.46.i;
A.107.B.46.i; A.108.B.46.i; A.109.B.46.i; A.110.B.46.i;
A.111.B.46.i; A.112.B.46.i; A.113.B.46.i; A.114.B.46.i;
A.115.B.46.i; A.116.B.46.i; A.117.B.46.i; A.118.B.46.i;
A.119.B.46.i; A.120.B.46.i; A.121.B.46.i; A.122.B.46.i;
A.123.B.46.i; A.124.B.46.i; A.125.B.46.i; A.126.B.46.i;
A.127.B.46.i; A.128.B.46.i; A.129.B.46.i; A.130.B.46.i;
A.131.B.46.i; A.132.B.46.i; A.133.B.46.i; A.134.B.46.i;
A.135.B.46.i; A.136.B.46.i; A.137.B.46.i; A.138.B.46.i;
A.139.B.46.i; A.140.B.46.i; A.141.B.46.i; A.2.B.47.i; A.3.B.47.i;
A.4.B.47.i; A.5.B.47.i; A.7.B.47.i; A.9.B.47.i; A.100.B.47.i;
A.101.B.47.i; A.102.B.47.i; A.103.B.47.i; A.104.B.47.i;
A.105.B.47.i; A.106.B.47.i; A.107.B.47.i; A.108.B.47.i;
A.109.B.47.i; A.110.B.47.i; A.111.B.47.i; A.112.B.47.i;
A.113.B.47.i; A.114.B.47.i; A.115.B.47.i; A.116.B.47.i;
A.117.B.47.i; A.118.B.47.i; A.119.B.47.i; A.120.B.47.i;
A.121.B.47.i; A.122.B.47.i; A.123.B.47.i; A.124.B.47.i;
A.125.B.47.i; A.126.B.47.i; A.127.B.47.i; A.128.B.47.i;
A.129.B.47.i; A.130.B.47.i; A.131.B.47.i; A.132.B.47.i;
A.133.B.47.i; A.134.B.47.i; A.135.B.47.i; A.136.B.47.i;
A.137.B.47.i; A.138.B.47.i; A.139.B.47.i; A.140.B.47.i;
A.141.B.47.i; A.2.B.48.i; A.3.B.48.i; A.4.B.48.i; A.5.B.48.i;
A.7.B.48.i; A.9.B.48.i; A.100.B.48.i; A.101.B.48.i; A.102.B.48.i;
A.103.B.48.i; A.104.B.48.i; A.105.B.48.i; A.106.B.48.i;
A.107.B.48.i; A.108.B.48.i; A.109.B.48.i; A.110.B.48.i;
A.111.B.48.i; A.112.B.48.i; A.113.B.48.i; A.114.B.48.i;
A.115.B.48.i; A.116.B.48.i; A.117.B.48.i; A.118.B.48.i;
A.119.B.48.i; A.120.B.48.i; A.121.B.48.i; A.122.B.48.i;
A.123.B.48.i; A.124.B.48.i; A.125.B.48.i; A.126.B.48.i;
A.127.B.48.i; A.128.B.48.i; A.129.B.48.i; A.130.B.48.i;
A.131.B.48.i; A.132.B.48.i; A.133.B.48.i; A.134.B.48.i;
A.135.B.48.i; A.136.B.48.i; A.137.B.48.i; A.138.B.48.i;
A.139.B.48.i; A.140.B.48.i; A.141.B.48.i; A.2.B.49.i; A.3.B.49.i;
A.4.B.49.i; A.5.B.49.i; A.7.B.49.i; A.9.B.49.i; A.100.B.49.i;
A.101.B.49.i; A.102.B.49.i; A.103.B.49.i; A.104.B.49.i;
A.105.B.49.i; A.106.B.49.i; A.107.B.49.i; A.108.B.49.i;
A.109.B.49.i; A.110.B.49.i; A.111.B.49.i; A.112.B.49.i;
A.113.B.49.i; A.114.B.49.i; A.115.B.49.i; A.116.B.49.i;
A.117.B.49.i; A.118.B.49.i; A.119.B.49.i; A.120.B.49.i;
A.121.B.49.i; A.122.B.49.i; A.123.B.49.i; A.124.B.49.i;
A.125.B.49.i; A.126.B.49.i; A.127.B.49.i; A.128.B.49.i;
A.129.B.49.i; A.130.B.49.i; A.131.B.49.i; A.132.B.49.i;
A.133.B.49.i; A.134.B.49.i; A.135.B.49.i; A.136.B.49.i;
A.137.B.49.i; A.138.B.49.i; A.139.B.49.i; A.140.B.49.i;
A.141.B.49.i; A.2.B.50.i; A.3.B.50.i; A.4.B.50.i; A.5.B.50.i;
A.7.B.50.i; A.9.B.50.i; A.100.B.50.i; A.101.B.50.i; A.102.B.50.i;
A.103.B.50.i; A.104.B.50.i; A.105.B.50.i; A.106.B.50.i;
A.107.B.50.i; A.108.B.50.i; A.109.B.50.i; A.110.B.50.i;
A.111.B.50.i; A.112.B.50.i; A.113.B.50.i; A.114.B.50.i;
A.115.B.50.i; A.116.B.50.i; A.117.B.50.i; A.118.B.50.i;
A.119.B.50.i; A.120.B.50.i; A.121.B.50.i; A.122.B.50.i;
A.123.B.50.i; A.124.B.50.i; A.125.B.50.i; A.126.B.50.i;
A.127.B.50.i; A.128.B.50.i; A.129.B.50.i; A.130.B.50.i;
A.131.B.50.i; A.132.B.50.i; A.133.B.50.i; A.134.B.50.i;
A.135.B.50.i; A.136.B.50.i; A.137.B.50.i; A.138.B.50.i;
A.139.B.50.i; A.140.B.50.i; A.141.B.50.i; A.2.B.51.i; A.3.B.51.i;
A.4.B.51.i; A.5.B.51.i; A.7.B.51.i; A.9.B.51.i; A.100.B.51.i;
A.101.B.51.i; A.102.B.51.i; A.103.B.51.i; A.104.B.51.i;
A.105.B.51.i; A.106.B.51.i; A.107.B.51.i; A.108.B.51.i;
A.109.B.51.i; A.110.B.51.i; A.111.B.51.i; A.112.B.51.i;
A.113.B.51.i; A.114.B.51.i; A.115.B.51.i; A.116.B.51.i;
A.117.B.51.i; A.118.B.51.i; A.119.B.51.i; A.120.B.51.i;
A.121.B.51.i; A.122.B.51.i; A.123.B.51.i; A.124.B.51.i;
A.125.B.51.i; A.126.B.51.i; A.127.B.51.i; A.128.B.51.i;
A.129.B.51.i; A.130.B.51.i; A.131.B.51.i; A.132.B.51.i;
A.133.B.51.i; A.134.B.51.i; A.135.B.51.i; A.136.B.51.i;
A.137.B.51.i; A.138.B.51.i; A.139.B.51.i; A.140.B.51.i;
A.141.B.51.i; A.2.C.46.i; A.3.C.46.i; A.4.C.46.i; A.5.C.46.i;
A.7.C.46.i; A.9.C.46.i; A.100.C.46.i; A.101.C.46.i; A.102.C.46.i;
A.103.C.46.i; A.104.C.46.i; A.105.C.46.i; A.106.C.46.i;
A.107.C.46.i; A.108.C.46.i; A.109.C.46.i; A.110.C.46.i;
A.111.C.46.i; A.112.C.46.i; A.113.C.46.i; A.114.C.46.i;
A.115.C.46.i; A.116.C.46.i; A.117.C.46.i; A.118.C.46.i;
A.119.C.46.i; A.120.C.46.i; A.121.C.46.i; A.122.C.46.i;
A.123.C.46.i; A.124.C.46.i; A.125.C.46.i; A.126.C.46.i;
A.127.C.46.i; A.128.C.46.i; A.129.C.46.i; A.130.C.46.i;
A.131.C.46.i; A.132.C.46.i; A.133.C.46.i; A.134.C.46.i;
A.135.C.46.i; A.136.C.46.i; A.137.C.46.i; A.138.C.46.i;
A.139.C.46.i; A.140.C.46.i; A.141.C.46.i; A.2.C.47.i; A.3.C.47.i;
A.4.C.47.i; A.5.C.47.i; A.7.C.47.i; A.9.C.47.i; A.100.C.47.i;
A.101.C.47.i; A.102.C.47.i; A.103.C.47.i; A.104.C.47.i;
A.105.C.47.i; A.106.C.47.i; A.107.C.47.i; A.108.C.47.i;
A.109.C.47.i; A.110.C.47.i; A.111.C.47.i; A.112.C.47.i;
A.113.C.47.i; A.114.C.47.i; A.115.C.47.i; A.116.C.47.i;
A.117.C.47.i; A.118.C.47.i; A.119.C.47.i; A.120.C.47.i;
A.121.C.47.i; A.122.C.47.i; A.123.C.47.i; A.124.C.47.i;
A.125.C.47.i; A.126.C.47.i; A.127.C.47.i; A.128.C.47.i;
A.129.C.47.i; A.130.C.47.i; A.131.C.47.i; A.132.C.47.i;
A.133.C.47.i; A.134.C.47.i; A.135.C.47.i; A.136.C.47.i;
A.137.C.47.i; A.138.C.47.i; A.139.C.47.i; A.140.C.47.i;
A.141.C.47.i; A.2.C.48.i; A.3.C.48.i; A.4.C.48.i; A.5.C.48.i;
A.7.C.48.i; A.9.C.48.i; A.100.C.48.i; A.101.C.48.i; A.102.C.48.i;
A.103.C.48.i; A.104.C.48.i; A.105.C.48.i; A.106.C.48.i;
A.107.C.48.i; A.108.C.48.i; A.109.C.48.i; A.110.C.48.i;
A.111.C.48.i; A.112.C.48.i; A.113.C.48.i; A.114.C.48.i;
A.115.C.48.i; A.116.C.48.i; A.117.C.48.i; A.118.C.48.i;
A.119.C.48.i; A.120.C.48.i; A.121.C.48.i; A.122.C.48.i;
A.123.C.48.i; A.124.C.48.i; A.125.C.48.i; A.126.C.48.i;
A.127.C.48.i; A.128.C.48.i; A.129.C.48.i; A.130.C.48.i;
A.131.C.48.i; A.132.C.48.i; A.133.C.48.i; A.134.C.48.i;
A.135.C.48.i; A.136.C.48.i; A.137.C.48.i; A.138.C.48.i;
A.139.C.48.i; A.140.C.48.i; A.141.C.48.i; A.2.C.49.i; A.3.C.49.i;
A.4.C.49.i; A.5.C.49.i; A.7.C.49.i; A.9.C.49.i; A.100.C.49.i;
A.101.C.49.i; A.102.C.49.i; A.103.C.49.i; A.104.C.49.i;
A.105.C.49.i; A.106.C.49.i; A.107.C.49.i; A.108.C.49.i;
A.109.C.49.i; A.110.C.49.i; A.111.C.49.i; A.112.C.49.i;
A.113.C.49.i; A.114.C.49.i; A.115.C.49.i; A.116.C.49.i;
A.117.C.49.i; A.118.C.49.i; A.119.C.49.i; A.120.C.49.i;
A.121.C.49.i; A.122.C.49.i; A.123.C.49.i; A.124.C.49.i;
A.125.C.49.i; A.126.C.49.i; A.127.C.49.i; A.128.C.49.i;
A.129.C.49.i; A.130.C.49.i; A.131.C.49.i; A.132.C.49.i;
A.133.C.49.i; A.134.C.49.i; A.135.C.49.i; A.136.C.49.i;
A.137.C.49.i; A.138.C.49.i; A.139.C.49.i; A.140.C.49.i;
A.141.C.49.i; A.2.C.50.i; A.3.C.50.i; A.4.C.50.i; A.5.C.50.i;
A.7.C.50.i; A.9.C.50.i; A.100.C.50.i; A.101.C.50.i; A.102.C.50.i;
A.103.C.50.i; A.104.C.50.i; A.105.C.50.i; A.106.C.50.i;
A.107.C.50.i; A.108.C.50.i; A.109.C.50.i; A.110.C.50.i;
A.111.C.50.i; A.112.C.50.i; A.113.C.50.i; A.114.C.50.i;
A.115.C.50.i; A.116.C.50.i; A.117.C.50.i; A.118.C.50.i;
A.119.C.50.i; A.120.C.50.i; A.121.C.50.i; A.122.C.50.i;
A.123.C.50.i; A.124.C.50.i; A.125.C.50.i; A.126.C.50.i;
A.127.C.50.i; A.128.C.50.i; A.129.C.50.i; A.130.C.50.i;
A.131.C.50.i; A.132.C.50.i; A.133.C.50.i; A.134.C.50.i;
A.135.C.50.i; A.136.C.50.i; A.137.C.50.i; A.138.C.50.i;
A.139.C.50.i; A.140.C.50.i; A.141.C.50.i; A.2.C.51.i; A.3.C.51.i;
A.4.C.51.i; A.5.C.51.i; A.7.C.51.i; A.9.C.51.i; A.100.C.51.i;
A.101.C.51.i; A.102.C.51.i; A.103.C.51.i; A.104.C.51.i;
A.105.C.51.i; A.106.C.51.i; A.107.C.51.i; A.108.C.51.i;
A.109.C.51.i; A.110.C.51.i; A.111.C.51.i; A.112.C.51.i;
A.113.C.51.i; A.114.C.51.i; A.115.C.51.i; A.116.C.51.i;
A.117.C.51.i; A.118.C.51.i; A.119.C.51.i; A.120.C.51.i;
A.121.C.51.i; A.122.C.51.i; A.123.C.51.i; A.124.C.51.i;
A.125.C.51.i; A.126.C.51.i; A.127.C.51.i; A.128.C.51.i;
A.129.C.51.i; A.130.C.51.i; A.131.C.51.i; A.132.C.51.i;
A.133.C.51.i; A.134.C.51.i; A.135.C.51.i; A.136.C.51.i;
A.137.C.51.i; A.138.C.51.i; A.139.C.51.i; A.140.C.51.i;
A.141.C.51.i; A.2.D.46.i; A.3.D.46.i; A.4.D.46.i; A.5.D.46.i;
A.7.D.46.i; A.9.D.46.i; A.100.D.46.i; A.101.D.46.i; A.102.D.46.i;
A.103.D.46.i; A.104.D.46.i; A.105.D.46.i; A.106.D.46.i;
A.107.D.46.i; A.108.D.46.i; A.109.D.46.i; A.110.D.46.i;
A.111.D.46.i; A.112.D.46.i; A.113.D.46.i; A.114.D.46.i;
A.115.D.46.i; A.116.D.46.i; A.117.D.46.i; A.118.D.46.i;
A.119.D.46.i; A.120.D.46.i; A.121.D.46.i; A.122.D.46.i;
A.123.D.46.i; A.124.D.46.i; A.125.D.46.i; A.126.D.46.i;
A.127.D.46.i; A.128.D.46.i; A.129.D.46.i; A.130.D.46.i;
A.131.D.46.i; A.132.D.46.i; A.133.D.46.i; A.134.D.46.i;
A.135.D.46.i; A.136.D.46.i; A.137.D.46.i; A.138.D.46.i;
A.139.D.46.i; A.140.D.46.i; A.141.D.46.i; A.2.D.47.i; A.3.D.47.i;
A.4.D.47.i; A.5.D.47.i; A.7.D.47.i; A.9.D.47.i; A.100.D.47.i;
A.101.D.47.i; A.102.D.47.i; A.103.D.47.i; A.104.D.47.i;
A.105.D.47.i; A.106.D.47.i; A.107.D.47.i; A.108.D.47.i;
A.109.D.47.i; A.110.D.47.i; A.111.D.47.i; A.112.D.47.i;
A.113.D.47.i; A.114.D.47.i; A.115.D.47.i; A.116.D.47.i;
A.117.D.47.i; A.118.D.47.i; A.119.D.47.i; A.120.D.47.i;
A.121.D.47.i; A.122.D.47.i; A.123.D.47.i; A.124.D.47.i;
A.125.D.47.i; A.126.D.47.i; A.127.D.47.i; A.128.D.47.i;
A.129.D.47.i; A.130.D.47.i; A.131.D.47.i; A.132.D.47.i;
A.133.D.47.i; A.134.D.47.i; A.135.D.47.i; A.136.D.47.i;
A.137.D.47.i; A.138.D.47.i; A.139.D.47.i; A.140.D.47.i;
A.141.D.47.i; A.2.D.48.i; A.3.D.48.i; A.4.D.48.i; A.5.D.48.i;
A.7.D.48.i; A.9.D.48.i; A.100.D.48.i; A.101.D.48.i; A.102.D.48.i;
A.103.D.48.i; A.104.D.48.i; A.105.D.48.i; A.106.D.48.i;
A.107.D.48.i; A.108.D.48.i; A.109.D.48.i; A.110.D.48.i;
A.111.D.48.i; A.112.D.48.i; A.113.D.48.i; A.114.D.48.i;
A.115.D.48.i; A.116.D.48.i; A.117.D.48.i; A.118.D.48.i;
A.119.D.48.i; A.120.D.48.i; A.121.D.48.i; A.122.D.48.i;
A.123.D.48.i; A.124.D.48.i; A.125.D.48.i; A.126.D.48.i;
A.127.D.48.i; A.128.D.48.i; A.129.D.48.i; A.130.D.48.i;
A.131.D.48.i; A.132.D.48.i; A.133.D.48.i; A.134.D.48.i;
A.135.D.48.i; A.136.D.48.i; A.137.D.48.i; A.138.D.48.i;
A.139.D.48.i; A.140.D.48.i; A.141.D.48.i; A.2.D.49.i; A.3.D.49.i;
A.4.D.49.i; A.5.D.49.i; A.7.D.49.i; A.9.D.49.i; A.100.D.49.i;
A.101.D.49.i; A.102.D.49.i; A.103.D.49.i; A.104.D.49.i;
A.105.D.49.i; A.106.D.49.i; A.107.D.49.i; A.108.D.49.i;
A.109.D.49.i; A.110.D.49.i; A.111.D.49.i; A.112.D.49.i;
A.113.D.49.i; A.114.D.49.i; A.115.D.49.i; A.116.D.49.i;
A.117.D.49.i; A.118.D.49.i; A.119.D.49.i; A.120.D.49.i;
A.121.D.49.i; A.122.D.49.i; A.123.D.49.i; A.124.D.49.i;
A.125.D.49.i; A.126.D.49.i; A.127.D.49.i; A.128.D.49.i;
A.129.D.49.i; A.130.D.49.i; A.131.D.49.i; A.132.D.49.i;
A.133.D.49.i; A.134.D.49.i; A.135.D.49.i; A.136.D.49.i;
A.137.D.49.i; A.138.D.49.i; A.139.D.49.i; A.140.D.49.i;
A.141.D.49.i; A.2.D.50.i; A.3.D.50.i; A.4.D.50.i; A.5.D.50.i;
A.7.D.50.i; A.9.D.50.i; A.100.D.50.i; A.101.D.50.i; A.102.D.50.i;
A.103.D.50.i; A.104.D.50.i; A.105.D.50.i; A.106.D.50.i;
A.107.D.50.i; A.108.D.50.i; A.109.D.50.i; A.110.D.50.i;
A.111.D.50.i; A.112.D.50.i; A.113.D.50.i; A.114.D.50.i;
A.115.D.50.i; A.116.D.50.i; A.117.D.50.i; A.118.D.50.i;
A.119.D.50.i; A.120.D.50.i; A.121.D.50.i; A.122.D.50.i;
A.123.D.50.i; A.124.D.50.i; A.125.D.50.i; A.126.D.50.i;
A.127.D.50.i; A.128.D.50.i; A.129.D.50.i; A.130.D.50.i;
A.131.D.50.i; A.132.D.50.i; A.133.D.50.i; A.134.D.50.i;
A.135.D.50.i; A.136.D.50.i; A.137.D.50.i; A.138.D.50.i;
A.139.D.50.i; A.140.D.50.i; A.141.D.50.i; A.2.D.51.i; A.3.D.51.i;
A.4.D.51.i; A.5.D.51.i; A.7.D.51.i; A.9.D.51.i; A.100.D.51.i;
A.101.D.51.i; A.102.D.51.i; A.103.D.51.i; A.104.D.51.i;
A.105.D.51.i; A.106.D.51.i; A.107.D.51.i; A.108.D.51.i;
A.109.D.51.i; A.110.D.51.i; A.111.D.51.i; A.112.D.51.i;
A.113.D.51.i; A.114.D.51.i; A.115.D.51.i; A.116.D.51.i;
A.117.D.51.i; A.118.D.51.i; A.119.D.51.i; A.120.D.51.i;
A.121.D.51.i; A.122.D.51.i; A.123.D.51.i; A.124.D.51.i;
A.125.D.51.i; A.126.D.51.i; A.127.D.51.i; A.128.D.51.i;
A.129.D.51.i; A.130.D.51.i; A.131.D.51.i; A.132.D.51.i;
A.133.D.51.i; A.134.D.51.i; A.135.D.51.i; A.136.D.51.i;
A.137.D.51.i; A.138.D.51.i; A.139.D.51.i; A.140.D.51.i;
A.141.D.51.i; A.2.E.46.i; A.3.E.46.i; A.4.E.46.i; A.5.E.46.i;
A.7.E.46.i; A.9.E.46.i; A.100.E.46.i; A.101.E.46.i; A.102.E.46.i;
A.103.E.46.i; A.104.E.46.i; A.105.E.46.i; A.106.E.46.i;
A.107.E.46.i; A.108.E.46.i; A.109.E.46.i; A.110.E.46.i;
A.111.E.46.i; A.112.E.46.i; A.113.E.46.i; A.114.E.46.i;
A.115.E.46.i; A.116.E.46.i; A.117.E.46.i; A.118.E.46.i;
A.119.E.46.i; A.120.E.46.i; A.121.E.46.i; A.122.E.46.i;
A.123.E.46.i; A.124.E.46.i; A.125.E.46.i; A.126.E.46.i;
A.127.E.46.i; A.128.E.46.i; A.129.E.46.i; A.130.E.46.i;
A.131.E.46.i; A.132.E.46.i; A.133.E.46.i; A.134.E.46.i;
A.135.E.46.i; A.136.E.46.i; A.137.E.46.i; A.138.E.46.i;
A.139.E.46.i; A.140.E.46.i; A.141.E.46.i; A.2.E.47.i; A.3.E.47.i;
A.4.E.47.i; A.5.E.47.i; A.7.E.47.i; A.9.E.47.i; A.100.E.47.i;
A.101.E.47.i; A.102.E.47.i; A.103.E.47.i; A.104.E.47.i;
A.105.E.47.i; A.106.E.47.i; A.107.E.47.i; A.108.E.47.i;
A.109.E.47.i; A.110.E.47.i; A.111.E.47.i; A.112.E.47.i;
A.113.E.47.i; A.114.E.47.i; A.115.E.47.i; A.116.E.47.i;
A.117.E.47.i; A.118.E.47.i;
A.119.E.47.i; A.120.E.47.i; A.121.E.47.i; A.122.E.47.i;
A.123.E.47.i; A.124.E.47.i; A.125.E.47.i; A.126.E.47.i;
A.127.E.47.i; A.128.E.47.i; A.129.E.47.i; A.130.E.47.i;
A.131.E.47.i; A.132.E.47.i; A.133.E.47.i; A.134.E.47.i;
A.135.E.47.i; A.136.E.47.i; A.137.E.47.i; A.138.E.47.i;
A.139.E.47.i; A.140.E.47.i; A.141.E.47.i; A.2.E.48.i; A.3.E.48.i;
A.4.E.48.i; A.5.E.48.i; A.7.E.48.i; A.9.E.48.i; A.100.E.48.i;
A.101.E.48.i; A.102.E.48.i; A.103.E.48.i; A.104.E.48.i;
A.105.E.48.i; A.106.E.48.i; A.107.E.48.i; A.108.E.48.i;
A.109.E.48.i; A.110.E.48.i; A.111.E.48.i; A.112.E.48.i;
A.113.E.48.i; A.114.E.48.i; A.115.E.48.i; A.116.E.48.i;
A.117.E.48.i; A.118.E.48.i; A.119.E.48.i; A.120.E.48.i;
A.121.E.48.i; A.122.E.48.i; A.123.E.48.i; A.124.E.48.i;
A.125.E.48.i; A.126.E.48.i; A.127.E.48.i; A.128.E.48.i;
A.129.E.48.i; A.130.E.48.i; A.131.E.48.i; A.132.E.48.i;
A.133.E.48.i; A.134.E.48.i; A.135.E.48.i; A.136.E.48.i;
A.137.E.48.i; A.138.E.48.i; A.139.E.48.i; A.140.E.48.i;
A.141.E.48.i; A.2.E.49.i; A.3.E.49.i; A.4.E.49.i; A.5.E.49.i;
A.7.E.49.i; A.9.E.49.i; A.100.E.49.i; A.101.E.49.i; A.102.E.49.i;
A.103.E.49.i; A.104.E.49.i; A.105.E.49.i; A.106.E.49.i;
A.107.E.49.i; A.108.E.49.i; A.109.E.49.i; A.110.E.49.i;
A.111.E.49.i; A.112.E.49.i; A.113.E.49.i; A.114.E.49.i;
A.115.E.49.i; A.116.E.49.i; A.117.E.49.i; A.118.E.49.i;
A.119.E.49.i; A.120.E.49.i; A.121.E.49.i; A.122.E.49.i;
A.123.E.49.i; A.124.E.49.i; A.125.E.49.i; A.126.E.49.i;
A.127.E.49.i; A.128.E.49.i; A.129.E.49.i; A.130.E.49.i;
A.131.E.49.i; A.132.E.49.i; A.133.E.49.i; A.134.E.49.i;
A.135.E.49.i; A.136.E.49.i; A.137.E.49.i; A.138.E.49.i;
A.139.E.49.i; A.140.E.49.i; A.141.E.49.i; A.2.E.50.i; A.3.E.50.i;
A.4.E.50.i; A.5.E.50.i; A.7.E.50.i; A.9.E.50.i; A.100.E.50.i;
A.101.E.50.i; A.102.E.50.i; A.103.E.50.i; A.104.E.50.i;
A.105.E.50.i; A.106.E.50.i; A.107.E.50.i; A.108.E.50.i;
A.109.E.50.i; A.110.E.50.i; A.111.E.50.i; A.112.E.50.i;
A.113.E.50.i; A.114.E.50.i; A.115.E.50.i; A.116.E.50.i;
A.117.E.50.i; A.118.E.50.i; A.119.E.50.i; A.120.E.50.i;
A.121.E.50.i; A.122.E.50.i; A.123.E.50.i; A.124.E.50.i;
A.125.E.50.i; A.126.E.50.i; A.127.E.50.i; A.128.E.50.i;
A.129.E.50.i; A.130.E.50.i; A.131.E.50.i; A.132.E.50.i;
A.133.E.50.i; A.134.E.50.i; A.135.E.50.i; A.136.E.50.i;
A.137.E.50.i; A.138.E.50.i; A.139.E.50.i; A.140.E.50.i;
A.141.E.50.i; A.2.E.51.i; A.3.E.51.i; A.4.E.51.i; A.5.E.51.i;
A.7.E.51.i; A.9.E.51.i; A.100.E.51.i; A.101.E.51.i; A.102.E.51.i;
A.103.E.51.i; A.104.E.51.i; A.105.E.51.i; A.106.E.51.i;
A.107.E.51.i; A.108.E.51.i; A.109.E.51.i; A.110.E.51.i;
A.111.E.51.i; A.112.E.51.i; A.113.E.51.i; A.114.E.51.i;
A.115.E.51.i; A.116.E.51.i; A.117.E.51.i; A.118.E.51.i;
A.119.E.51.i; A.120.E.51.i; A.121.E.51.i; A.122.E.51.i;
A.123.E.51.i; A.124.E.51.i; A.125.E.51.i; A.126.E.51.i;
A.127.E.51.i; A.128.E.51.i; A.129.E.51.i; A.130.E.51.i;
A.131.E.51.i; A.132.E.51.i; A.133.E.51.i; A.134.E.51.i;
A.135.E.51.i; A.136.E.51.i; A.137.E.51.i; A.138.E.51.i;
A.139.E.51.i; A.140.E.51.i; A.141.E.51.i; A.2.F.46.i; A.3.F.46.i;
A.4.F.46.i; A.5.F.46.i; A.7.F.46.i; A.9.F.46.i; A.100.F.46.i;
A.101.F.46.i; A.102.F.46.i; A.103.F.46.i; A.104.F.46.i;
A.105.F.46.i; A.106.F.46.i; A.107.F.46.i; A.108.F.46.i;
A.109.F.46.i; A.110.F.46.i; A.111.F.46.i; A.112.F.46.i;
A.113.F.46.i; A.114.F.46.i; A.115.F.46.i; A.116.F.46.i;
A.117.F.46.i; A.118.F.46.i; A.119.F.46.i; A.120.F.46.i;
A.121.F.46.i; A.122.F.46.i; A.123.F.46.i; A.124.F.46.i;
A.125.F.46.i; A.126.F.46.i; A.127.F.46.i; A.128.F.46.i;
A.129.F.46.i; A.130.F.46.i; A.131.F.46.i; A.132.F.46.i;
A.133.F.46.i; A.134.F.46.i; A.135.F.46.i; A.136.F.46.i;
A.137.F.46.i; A.138.F.46.i; A.139.F.46.i; A.140.F.46.i;
A.141.F.46.i; A.2.F.47.i; A.3.F.47.i; A.4.F.47.i; A.5.F.47.i;
A.7.F.47.i; A.9.F.47.i; A.100.F.47.i; A.101.F.47.i; A.102.F.47.i;
A.103.F.47.i; A.104.F.47.i; A.105.F.47.i; A.106.F.47.i;
A.107.F.47.i; A.108.F.47.i; A.109.F.47.i; A.110.F.47.i;
A.111.F.47.i; A.112.F.47.i; A.113.F.47.i; A.114.F.47.i;
A.115.F.47.i; A.116.F.47.i; A.117.F.47.i; A.118.F.47.i;
A.119.F.47.i; A.120.F.47.i; A.121.F.47.i; A.122.F.47.i;
A.123.F.47.i; A.124.F.47.i; A.125.F.47.i; A.126.F.47.i;
A.127.F.47.i; A.128.F.47.i; A.129.F.47.i; A.130.F.47.i;
A.131.F.47.i; A.132.F.47.i; A.133.F.47.i; A.134.F.47.i;
A.135.F.47.i; A.136.F.47.i; A.137.F.47.i; A.138.F.47.i;
A.139.F.47.i; A.140.F.47.i; A.141.F.47.i; A.2.F.48.i; A.3.F.48.i;
A.4.F.48.i; A.5.F.48.i; A.7.F.48.i; A.9.F.48.i; A.100.F.48.i;
A.101.F.48.i; A.102.F.48.i; A.103.F.48.i; A.104.F.48.i;
A.105.F.48.i; A.106.F.48.i; A.107.F.48.i; A.108.F.48.i;
A.109.F.48.i; A.110.F.48.i; A.111.F.48.i; A.112.F.48.i;
A.113.F.48.i; A.114.F.48.i; A.115.F.48.i; A.116.F.48.i;
A.117.F.48.i; A.118.F.48.i; A.119.F.48.i; A.120.F.48.i;
A.121.F.48.i; A.122.F.48.i; A.123.F.48.i; A.124.F.48.i;
A.125.F.48.i; A.126.F.48.i; A.127.F.48.i; A.128.F.48.i;
A.129.F.48.i; A.130.F.48.i; A.131.F.48.i; A.132.F.48.i;
A.133.F.48.i; A.134.F.48.i; A.135.F.48.i; A.136.F.48.i;
A.137.F.48.i; A.138.F.48.i; A.139.F.48.i; A.140.F.48.i;
A.141.F.48.i; A.2.F.49.i; A.3.F.49.i; A.4.F.49.i; A.5.F.49.i;
A.7.F.49.i; A.9.F.49.i; A.100.F.49.i; A.101.F.49.i; A.102.F.49.i;
A.103.F.49.i; A.104.F.49.i; A.105.F.49.i; A.106.F.49.i;
A.107.F.49.i; A.108.F.49.i; A.109.F.49.i; A.110.F.49.i;
A.111.F.49.i; A.112.F.49.i; A.113.F.49.i; A.114.F.49.i;
A.115.F.49.i; A.116.F.49.i; A.117.F.49.i; A.118.F.49.i;
A.119.F.49.i; A.120.F.49.i; A.121.F.49.i; A.122.F.49.i;
A.123.F.49.i; A.124.F.49.i; A.125.F.49.i; A.126.F.49.i;
A.127.F.49.i; A.128.F.49.i; A.129.F.49.i; A.130.F.49.i;
A.131.F.49.i; A.132.F.49.i; A.133.F.49.i; A.134.F.49.i;
A.135.F.49.i; A.136.F.49.i; A.137.F.49.i; A.138.F.49.i;
A.139.F.49.i; A.140.F.49.i; A.141.F.49.i; A.2.F.50.i; A.3.F.50.i;
A.4.F.50.i; A.5.F.50.i; A.7.F.50.i; A.9.F.50.i; A.100.F.50.i;
A.101.F.50.i; A.102.F.50.i; A.103.F.50.i; A.104.F.50.i;
A.105.F.50.i; A.106.F.50.i; A.107.F.50.i; A.108.F.50.i;
A.109.F.50.i; A.110.F.50.i; A.111.F.50.i; A.112.F.50.i;
A.113.F.50.i; A.114.F.50.i; A.115.F.50.i; A.116.F.50.i;
A.117.F.50.i; A.118.F.50.i; A.119.F.50.i; A.120.F.50.i;
A.121.F.50.i; A.122.F.50.i; A.123.F.50.i; A.124.F.50.i;
A.125.F.50.i; A.126.F.50.i; A.127.F.50.i; A.128.F.50.i;
A.129.F.50.i; A.130.F.50.i; A.131.F.50.i; A.132.F.50.i;
A.133.F.50.i; A.134.F.50.i; A.135.F.50.i; A.136.F.50.i;
A.137.F.50.i; A.138.F.50.i; A.139.F.50.i; A.140.F.50.i;
A.141.F.50.i; A.2.F.51.i; A.3.F.51.i; A.4.F.51.i; A.5.F.51.i;
A.7.F.51.i; A.9.F.51.i; A.100.F.51.i; A.101.F.51.i; A.102.F.51.i;
A.103.F.51.i; A.104.F.51.i; A.105.F.51.i; A.106.F.51.i;
A.107.F.51.i; A.108.F.51.i; A.109.F.51.i; A.110.F.51.i;
A.111.F.51.i; A.112.F.51.i; A.113.F.51.i; A.114.F.51.i;
A.115.F.51.i; A.116.F.51.i; A.117.F.51.i; A.118.F.51.i;
A.119.F.51.i; A.120.F.51.i; A.121.F.51.i; A.122.F.51.i;
A.123.F.51.i; A.124.F.51.i; A.125.F.51.i; A.126.F.51.i;
A.127.F.51.i; A.128.F.51.i; A.129.F.51.i; A.130.F.51.i;
A.131.F.51.i; A.132.F.51.i; A.133.F.51.i; A.134.F.51.i;
A.135.F.51.i; A.136.F.51.i; A.137.F.51.i; A.138.F.51.i;
A.139.F.51.i; A.140.F.51.i; A.141.F.51.i;
Salts and Hydrates
[0384] The compositions of this invention optionally comprise salts
of the compounds herein, especially pharmaceutically acceptable
non-toxic salts containing, for example, Na.sup.+, Li.sup.+,
K.sup.+, C.sup.++ and Mg.sup.++. Such salts may include those
derived by combination of appropriate cations such as alkali and
alkaline earth metal ions or ammonium and quaternary amino ions
with an acid anion moiety, typically the W.sub.1 group carboxylic
acid. Monovalent salts are preferred if a water soluble salt is
desired.
[0385] Metal salts typically are prepared by reacting the metal
hydroxide with a compound of this invention. Examples of metal
salts which are prepared in this way are salts containing Li.sup.+,
Na.sup.+, and K.sup.+. A less soluble metal salt can be
precipitated from the solution of a more soluble salt by addition
of the suitable metal compound.
[0386] In addition, salts may be formed from acid addition of
certain organic and inorganic acids, e.g., HCl, HBr,
H.sub.2SO.sub.4, or organic sulfonic acids, to basic centers,
typically amines of group G.sub.1, or to acidic groups such as
E.sub.1. Finally, it is to be understood that the compositions
herein comprise compounds of the invention in their un-ionized, as
well as zwitterionic form, and combinations with stoiochimetric
amounts of water as in hydrates.
[0387] Also included within the scope of this invention are the
salts of the parental compounds with one or more amino acids. Any
of the amino acids described above are suitable, especially the
naturally-occuring amino acids found as protein components,
although the amino acid typically is one bearing a side chain with
a basic or acidic group, e.g., lysine, arginine or glutamic acid,
or a neutral group such as glycine, serine, threonine, alanine,
isoleucine, or leucine.
Methods of Inhibition of Neuraminidase
[0388] Another aspect of the invention relates to methods of
inhibiting the activity of neuraminidase comprising the step of
treating a sample suspected of containing neuraminidase with a
compound of the invention.
[0389] Compositions of the invention act as inhibitors of
neuraminidase, as intermediates for such inhibitors or have other
utilities as described below. The inhibitors will bind to locations
on the surface or in a cavity of neuraminidase having a geometry
unique to neuraminidase. Compositions binding neuraminidase may
bind with varying degrees of reversibility. Those compounds binding
substantially irreversibly are ideal candidates for use in this
method of the invention. Once labeled, the substantially
irreversibly binding compositions are useful as probes for the
detection of neuraminidase. Accordingly, the invention relates to
methods of detecting neuraminidase in a sample suspected of
containing neuraminidase comprising the steps of: treating a sample
suspected of containing neuraminidase with a composition comprising
a compound of the invention bound to a label; and observing the
effect of the sample on the activity of the label. Suitable labels
are well known in the diagnostics field and include stable free
radicals, fluorophores, radioisotopes, enzymes, chemiluminescent
groups and chromogens. The compounds herein are labeled in
conventional fashion using functional groups such as hydroxyl or
amino.
[0390] Within the context of the invention samples suspected of
containing neuraminidase include natural or man-made materials such
as living organisms; tissue or cell cultures; biological samples
such as biological material samples (blood, serum, urine,
cerebrospinal fluid, tears, sputum, saliva, tissue samples, and the
like); laboratory samples; food, water, or air samples; bioproduct
samples such as extracts of cells, particularly recombinant cells
synthesizing a desired glycoprotein; and the like. Typically the
sample will be suspected of containing an organism which produces
neuraminidase, frequently a pathogenic organism such as a virus.
Samples can be contained in any medium including water and organic
solventwater mixtures. Samples include living organisms such as
humans, and man made materials such as cell cultures.
[0391] The treating step of the invention comprises adding the
composition of the invention to the sample or it comprises adding a
precursor of the composition to the sample. The addition step
comprises any method of administration as described above.
[0392] If desired, the activity of neuraminidase after application
of the composition can be observed by any method including direct
and indirect methods of detecting neuraminidase activity.
Quantitative, qualitative, and semiquantitative methods of
determining neuraminidase activity are all contemplated. Typically
one of the screening methods described above are applied, however,
any other method such as observation of the physiological
properties of a living organism are also applicable.
[0393] Organisms that contain neuraminidase include bacteria
(Vibrio cholerae, Clostridium perfringens, Streptococcus
pneumoniae, and Arthrobacter sialophilus) and viruses (especially
orthomyxoviruses or paramyxoviruses such as influenza virus A and
B, parainfluenza virus, mumps virus, Newcastle disease virus, fowl
plague virus, and sendai virus). Inhibition of neuraminidase
activity obtained from or found within any of these organisms is
within the objects of this invention. The virology of influenza
viruses is described in "Fundamental Virology" (Raven Press, New
York, 1986), Chapter 24. The compounds of this invention are useful
in the prophylaxis of influenza infections or treatment of existing
influenza infections in animals such as duck, rodens, or swine, or
in man.
Screens for Neuraminidase Inhibitors
[0394] Compositions of the invention are screened for inhibitory
activity against neuraminidase by any of the conventional
techniques for evaluating enzyme activity. Within the context of
the invention, typically compositions are first screened for
inhibition of neuraminidase in vitro and compositions showing
inhibitory activity are then screened for activity in vivo.
Compositions having in vitro Ki (inhibitory constants) of less then
about 5.times.10.sup.-6 M, typically less than about
1.times.10.sup.-7 M and preferably less than about
5.times.10.sup.-8 M are preferred for in vivo use.
[0395] Useful in vitro screens have been described in detail and
will not be elaborated here. However, Itzstein, M. von et al.;
"Nature", 363(6428):418-423 (1993), in particular page 420, column
2, full paragraph 3, to page 421, column 2, first partial
paragraph, describes a suitable in vitro assay of Potier, M.; et
al.; "Analyt. Biochem.", 94:287-296 (1979), as modified by Chong,
A. K. J.; et al.; "Biochem. Biophys. Acta", 1077:65-71 (1991); and
Colman, P. M.; et al.; International Publication No. WO 92/06691
(Int. App. No. PCT/AU90/00501, publication date Apr. 30, 1992) page
34, line 13, to page 35, line 16, describes another useful in vitro
screen.
[0396] In vivo screens have also been described in detail, see
Itzstein, M. von et al.; op. cit., in particular page 421, column
2, first full paragraph, to page 423, column 2, first partial
paragraph, and Colman, P. M.; et al.; op. cit. page 36, lines 1-38,
describe suitable in vivo screens.
Pharmaceutical Formulations and Routes of Administration
[0397] The compounds of this invention are formulated with
conventional carriers and excipients, which will be selected in
accord with ordinary practice. Tablets will contain excipients,
glidants, fillers, binders and the like. Aqueous formulations are
prepared in sterile form, and when intended for delivery by other
than oral administration generally will be isotonic. All
formulations will optionally contain excipients such as those set
forth in the "Handbook of Pharmaceutical Excipients" (1986).
Excipients include ascorbic acid and other antioxidants, chelating
agents such as EDTA, carbohydrates such as dextrin,
hydroxyalkylcellulose, hydroxyalkylmethylcellulose, stearic acid
and the like. The pH of the formulations ranges from about 3 to
about 11, but is ordinarily about 7 to 10.
[0398] One or more compounds of the invention (herein referred to
as the active ingredients) are administered by any route
appropriate to the condition to be treated. Suitable routes include
oral, rectal, nasal, topical (including buccal and sublingual),
vaginal and parenteral (including subcutaneous, intramuscular,
intravenous, intradermal, intrathecal and epidural), and the like.
It will be appreciated that the preferred route may vary with for
example the condition of the recipient. An advantage of the
compounds of this invention is that they are orally bioavailable
and can be dosed orally; it is not necessary to administer them by
intrapulmonary or intranasal routes. Surprisingly, the
anti-influenza compounds of WO 91/16320, WO 92/06691 and U.S. Pat.
No. 5,360,817 are successfully administered by the oral or
intraperitoneal routes. See Example 161 infra.
[0399] While it is possible for the active ingredients to be
administered alone it may be preferable to present them as
pharmaceutical formulations. The formulations, both for veterinary
and for human use, of the invention comprise at least one active
ingredient, as above defined, together with one or more acceptable
carriers therefor and optionally other therapeutic ingredients. The
carrier(s) must be "acceptable" in the sense of being compatible
with the other ingredients of the formulation and physiologically
innocuous to the recipient thereof.
[0400] The formulations include those suitable for the foregoing
administration routes. The formulations may conveniently be
presented in unit dosage form and may be prepared by any of the
methods well known in the art of pharmacy. Techniques and
formulations generally are found in Remington's Pharmaceutical
Sciences (Mack Publishing Co., Easton, Pa.). Such methods include
the step of bringing into association the active ingredient with
the carrier which constitutes one or more accessory ingredients. In
general the formulations are prepared by uniformly and intimately
bringing into association the active ingredient with liquid
carriers or finely divided solid carriers or both, and then, if
necessary, shaping the product.
[0401] Formulations of the invention suitable for oral
administration are prepared as discrete units such as capsules,
cachets or tablets each containing a predetermined amount of the
active ingredient; as a powder or granules; as solution or a
suspension in an aqueous liquid or a non-aqueous liquid; or as an
oil-in-water liquid emulsion or a water-in-oil liquid emulsion. The
active ingredient may also be presented as a bolus, electuary or
paste.
[0402] A tablet is made by compression or molding, optionally with
one or more accessory ingredients. Compressed tablets may be
prepared by compressing in a suitable machine the active ingredient
in a free-flowing form such as a powder or granules, optionally
mixed with a binder, lubricant, inert diluent, preservative,
surface active or dispersing agent. Molded tablets may be made by
molding in a suitable machine a mixture of the powdered active
ingredient moistened with an inert liquid diluent. The tablets may
optionally be coated or scored and optionally are formulated so as
to provide slow or controlled release of the active ingredient
therefrom.
[0403] For infections of the eye or other external tissues e.g.
mouth and skin, the formulations are preferably applied as a
topical ointment or cream containing the active ingredient(s) in an
amount of, for example, 0.075 to 20% w/w (including active
ingredient(s) in a range between 0.1% and 20% in increments of 0.1%
w/w such as 0.6% w/w, 0.7% w/w, etc.), preferably 0.2 to 15% w/w
and most preferably 0.5 to 10% w/w. When formulated in an ointment,
the active ingredients may be employed with either a paraffinic or
a water-miscible ointment base. Alternatively, the active
ingredients may be formulated in a cream with an oil-in-water cream
base.
[0404] If desired, the aqueous phase of the cream base may include,
for example, at least 30% w/w of a polyhydric alcohol, i.e. an
alcohol having two or more hydroxyl groups such as propylene
glycol, butane 1,3-diol, mannitol, sorbitol, glycerol and
polyethylene glycol (including PEG 400) and mixtures thereof. The
topical formulations may desirably include a compound which
enhances absorption or penetration of the active ingredient through
the skin or other affected areas. Examples of such dermal
penetration enhancers include dimethyl sulphoxide and related
analogs.
[0405] The oily phase of the emulsions of this invention may be
constituted from known ingredients in a known manner. While the
phase may comprise merely an emulsifier (otherwise known as an
emulgent), it desirably comprises a mixture of at least one
emulsifier with a fat or an oil or with both a fat and an oil.
Preferably, a hydrophilic emulsifier is included together with a
lipophilic emulsifier which acts as a stabilizer. It is also
preferred to include both an oil and a fat. Together, the
emulsifier(s) with or without stabilizer(s) make up the so-called
emulsifying wax, and the wax together with the oil and fat make up
the so-called emulsifying ointment base which forms the oily
dispersed phase of the cream formulations.
[0406] Emulgents and emulsion stabilizers suitable for use in the
formulation of the invention include Tween.RTM. 60, Span.RTM. 80,
cetostearyl alcohol, benzyl alcohol, myristyl alcohol, glyceryl
mono-stearate and sodium lauryl sulfate.
[0407] The choice of suitable oils or fats for the formulation is
based on achieving the desired cosmetic properties. The cream
should preferably be a non-greasy, non-staining and washable
product with suitable consistency to avoid leakage from tubes or
other containers. Straight or branched chain, mono- or dibasic
alkyl esters such as di-isoadipate, isocetyl stearate, propylene
glycol diester of coconut fatty acids, isopropyl myristate, decyl
oleate, isopropyl palmitate, butyl stearate, 2-ethylhexyl palmitate
or a blend of branched chain esters known as Crodamol CAP may be
used, the last three being preferred esters. These may be used
alone or in combination depending on the properties required.
Alternatively, high melting point lipids such as white soft
paraffin and/or liquid paraffin or other mineral oils are used.
[0408] Formulations suitable for topical administration to the eye
also include eye drops wherein the active ingredient is dissolved
or suspended in a suitable carrier, especially an aqueous solvent
for the active ingredient. The active ingredient is preferably
present in such formulations in a concentration of 0.5 to 20%,
advantageously 0.5 to 10% particularly about 1.5% w/w.
[0409] Formulations suitable for topical administration in the
mouth include lozenges comprising the active ingredient in a
flavored basis, usually sucrose and acacia or tragacanth; pastilles
comprising the active ingredient in an inert basis such as gelatin
and glycerin, or sucrose and acacia; and mouthwashes comprising the
active ingredient in a suitable liquid carrier.
[0410] Formulations for rectal administration may be presented as a
suppository with a suitable base comprising for example cocoa
butter or a salicylate.
[0411] Formulations suitable for intrapulmonary or nasal
administration have a particle size for example in the range of 0.1
to 500 microns (including particle sizes in a range between 0.1 and
500 microns in increments microns such as 0.5, 1, 30 microns, 35
microns, etc.), which is administered by rapid inhalation through
the nasal passage or by inhalation through the mouth so as to reach
the alveolar sacs. Suitable formulations include aqueous or oily
solutions of the active ingredient. Formulations suitable for
aerosol or dry powder administration may be prepared according to
conventional methods and may be delivered with other therapeutic
agents such as compounds heretofore used in the treatment or
prophylaxis of influenza A or B infections as described below.
[0412] Formulations suitable for vaginal administration may be
presented as pessaries, tampons, creams, gels, pastes, foams or
spray formulations containing in addition to the active ingredient
such carriers as are known in the art to be appropriate.
[0413] Formulations suitable for parenteral administration include
aqueous and non-aqueous sterile injection solutions which may
contain anti-oxidants, buffers, bacteriostats and solutes which
render the formulation isotonic with the blood of the intended
recipient; and aqueous and non-aqueous sterile suspensions which
may include suspending agents and thickening agents.
[0414] The formulations are presented in unit-dose or multi-dose
containers, for example sealed ampoules and vials, and may be
stored in a freeze-dried (lyophilized) condition requiring only the
addition of the sterile liquid carrier, for example water for
injection, immediately prior to use. Extemporaneous injection
solutions and suspensions are prepared from sterile powders,
granules and tablets of the kind previously described. Preferred
unit dosage formulations are those containing a daily dose or unit
daily sub-dose, as herein above recited, or an appropriate fraction
thereof, of the active ingredient.
[0415] It should be understood that in addition to the ingredients
particularly mentioned above the formulations of this invention may
include other agents conventional in the art having regard to the
type of formulation in question, for example those suitable for
oral administration may include flavoring agents.
[0416] The invention further provides veterinary compositions
comprising at least one active ingredient as above defined together
with a veterinary carrier therefor.
[0417] Veterinary carriers are materials useful for the purpose of
administering the composition and may be solid, liquid or gaseous
materials which are otherwise inert or acceptable in the veterinary
art and are compatible with the active ingredient. These veterinary
compositions may be administered orally, parenterally or by any
other desired route.
[0418] Compounds of the invention are used to provide controlled
release pharmaceutical formulations containing as active ingredient
one or more compounds of the invention ("controlled release
formulations") in which the release of the active ingredient are
controlled and regulated to allow less frequency dosing or to
improve the pharmacokinetic or toxicity profile of a given active
ingredient.
[0419] Effective dose of active ingredient depends at least on the
nature of the condition being treated, toxicity, whether the
compound is being used prophylactically (lower doses) or against an
active influenza infection, the method of delivery, and the
pharmaceutical formulation, and will be determined by the clinician
using conventional dose escalation studies. It can be expected to
be from about 0.0001 to about 100 mg/kg body weight per day.
Typically, from about 0.01 to about 10 mg/kg body weight per day.
More typically, from about 0.01 to about 5 mg/kg body weight per
day. More typically, from about 0.05 to about 0.5 mg/kg body weight
per day. For example, for inhalation the daily candidate dose for
an adult human of approximately 70 kg body weight will range from 1
mg to 1000 mg, preferably between 5 mg and 500 mg, and may take the
form of single or multiple doses.
[0420] Active ingredients of the invention are also used in
combination with other active ingredients. Such combinations are
selected based on the condition to be treated, cross-reactivities
of ingredients and pharmaco-properties of the combination. For
example, when treating viral infections of the respiratory system,
in particular influenza infection, the compositions of the
invention are combined with antivirals (such as amantidine,
rimantadine and ribavirin), mucolytics, expectorants,
bronchialdilators, antibiotics, antipyretics, or analgesics.
Ordinarily, antibiotics, antipyretics, and analgesics are
administered together with the compounds of this invention.
Metabolites of the Compounds of the Invention
[0421] Also falling within the scope of this invention are the in
vivo metabolic products of the compounds described herein, to the
extent such products are novel and unobvious over the prior art.
Such products may result for example from the oxidation, reduction,
hydrolysis, amidation, esterification and the like of the
administered compound, primarily due to enzymatic processes.
Accordingly, the invention includes novel and unobvious compounds
produced by a process comprising contacting a compound of this
invention with a mammal for a period of time sufficient to yield a
metabolic product thereof. Such products typically are identified
by preparing a radiolabelled (e.g. C.sup.14 or H.sup.3) compound of
the invention, administering it parenterally in a detectable dose
(e.g. greater than about 0.5 mg/kg) to an animal such as rat,
mouse, guinea pig, monkey, or to man, allowing sufficient time for
metabolism to occur (typically about 30 seconds to 30 hours) and
isolating its conversion products from the urine, blood or other
biological samples. These products are easily isolated since they
are labeled (others are isolated by the use of antibodies capable
of binding epitopes surviving in the metabolite). The metabolite
structures are determined in conventional fashion, e.g. by MS or
NMR analysis. In general, analysis of metabolites is done in the
same way as conventional drug metabolism studies well-known to
those skilled in the art. The conversion products, so long as they
are not otherwise found in vivo, are useful in diagnostic assays
for therapeutic dosing of the compounds of the invention even if
they possess no neuraminidase inhibitory activity of their own.
Additional Uses for the Compounds of this Invention
[0422] The compounds of this invention, or the biologically active
substances produced from these compounds by hydrolysis or
metabolism in vivo, are used as immunogens or for conjugation to
proteins, whereby they serve as components of immunogenic
compositions to prepare antibodies capable of binding specifically
to the protein, to the compounds or to their metabolic products
which retain immunologically recognized epitopes (sites of antibody
binding). The immunogenic compositions therefore are useful as
intermediates in the preparation of antibodies for use in
diagnostic, quality control, or the like, methods or in assays for
the compounds or their novel metabolic products. The compounds are
useful for raising antibodies against otherwise non-immunogenic
polypeptides, in that the compounds serve as haptenic sites
stimulating an immune response that cross-reacts with the
unmodified conjugated protein.
[0423] The hydrolysis products of interest include products of the
hydrolysis of the protected acidic and basic groups discussed
above. As noted above, the acidic or basic amides comprising
immunogenic polypeptides such as albumin or keyhole limpet
hemocyanin generally are useful as immunogens. The metabolic
products described above may retain a substantial degree of
immunological cross reactivity with the compounds of the invention.
Thus, the antibodies of this invention will be capable of binding
to the unprotected compounds of the invention without binding to
the protected compounds; alternatively the metabolic products, will
be capable of binding to the protected compounds and/or the
metabolitic products without binding to the protected compounds of
the invention, or will be capable of binding specifically to any
one or all three. The antibodies desirably will not substantially
cross-react with naturally-occurring materials. Substantial
cross-reactivity is reactivity under specific assay conditions for
specific analytes sufficient to interfere with the assay
results.
[0424] The immunogens of this invention contain the compound of
this invention presenting the desired epitope in association with
an immunogenic substance. Within the context of the invention such
association means covalent bonding to form an immunogenic conjugate
(when applicable) or a mixture of non-covalently bonded materials,
or a combination of the above. Immunogenic substances include
adjuvants such as Freund's adjuvant, immunogenic proteins such as
viral, bacterial, yeast, plant and animal polypeptides, in
particular keyhole limpet hemocyanin, serum albumin, bovine
thyroglobulin or soybean trypsin inhibitor, and immunogenic
polysaccharides. Typically, the compound having the structure of
the desired epitope is covalently conjugated to an immunogenic
polypeptide or polysaccharide by the use of a polyfunctional
(ordinarily bifunctional) cross-linking agent. Methods for the
manufacture of hapten immunogens are conventional per se and any of
the methods used heretofore for conjugating haptens to immunogenic
polypeptides or the like are suitably employed here as well, taking
into account the functional groups on the precursors or hydrolytic
products which are available for cross-linking and the likelihood
of producing antibodies specific to the epitope in question as
opposed to the immunogenic substance.
[0425] Typically the polypeptide is conjugated to a site on the
compound of the invention distant from the epitope to be
recognized.
[0426] The conjugates are prepared in conventional fashion. For
example, the cross-linking agents N-hydroxysuccinimide, succinic
anhydride or alkN.dbd.C.dbd.Nalk are useful in preparing the
conjugates of this invention. The conjugates comprise a compound of
the invention attached by a bond or a linking group of 1-100,
typically, 1-25, more typically 1-10 carbon atoms to the
immunogenic substance. The conjugates are separated from starting
materials and by products using chromatography or the like, and
then are sterile filtered and vialed for storage.
[0427] The compounds of this invention are cross-linked for example
through any one or more of the following groups: a hydroxyl group
of U.sub.1; a carboxyl group of E.sub.1; a carbon atom of U.sub.1,
E.sub.1, G.sub.1, or T.sub.1, in substitution of H; and an amine
group of G.sub.1. Included within such compounds are amides of
polypeptides where the polypeptide serves as an above-described
R.sub.6c or R.sub.6b groups.
[0428] Animals are typically immunized against the immunogenic
conjugates or derivatives and antisera or monoclonal antibodies
prepared in conventional fashion.
[0429] The compounds of the invention are useful for maintaining
the structural integrity of glycoproteins in recombinant cell
culture, i.e., they are added to fermentations in which
glycoproteins are being produced for recovery so as to inhibit
neuraminidase-catalyzed cleavage of the desired glycoproteins. This
is of particular value in the recombinant synthesis of proteins in
heterologous host cells that may disadvantageously degrade the
carbohydrate portion of the protein being synthesized.
[0430] The compounds of the invention are polyfunctional. As such
they represent a unique class of monomers for the synthesis of
polymers. By way of example and not limitation, the polymers
prepared from the compounds of this invention include polyamides
and polyesters.
[0431] The present compounds are used as monomers to provide access
to polymers having unique pendent functionalities. The compounds of
this invention are useful in homopolymers, or as comonomers with
monomers which do not fall within the scope of the invention.
Homopolymers of the compounds of this invention will have utility
as cation exchange agents (polyesters or polyamides) in the
preparation of molecular sieves (polyamides), textiles, fibers,
films, formed articles and the like where the acid functionality
E.sub.1 is esterified to a hydroxyl group in U.sub.1, for example,
whereby the pendant basic group G.sub.1 is capable of binding
acidic functionalities such as are found in polypeptides whose
purification is desired. Polyamides are prepared by cross-linking
E.sub.1 and G.sub.1, with U.sub.1 and the adjacent portion of the
ring remaining free to function as a hydrophilic or hydrophobic
affinity group, depending up the selection of the U.sub.1 group.
The preparation of these polymers from the compounds of the
invention is conventional per se.
[0432] The compounds of the invention are also useful as a unique
class of polyfunctional surfactants. Particularly when U.sub.1 does
not contain a hydrophilic substituent and is, for example, alkyl or
alkoxy, the compounds have the properties of bi-functional
surfactants. As such they have useful surfactant, surface coating,
emulsion modifying, rheology modifying and surface wetting
properties.
[0433] As polyfunctional compounds with defined geometry and
carrying simultaneously polar and non-polar moieties, the compounds
of the invention are useful as a unique class of phase transfer
agents. By way of example and not limitation, the compounds of the
invention are useful in phase transfer catalysis and liquid/liquid
ion extraction (LIX).
[0434] The compounds of the invention optionally contain asymmetric
carbon atoms in groups U.sub.1, E.sub.1, G.sub.1, and T.sub.1. As
such, they are a unique class of chiral auxiliaries for use in the
synthesis or resolution of other optically active materials. For
example, a racemic mixture of carboxylic acids can be resolved into
its component enantiomers by: 1) forming a mixture of
diastereomeric esters or amides with a compound of the invention
wherein U.sub.1 is an asymmetric hydroxyalkane or amino alkane
group; 2) separating the diastereomers; and 3) hydrolyzing the
ester structure. Racemic alcohols are separated by ester formation
with an acid group of E.sub.1. Further, such a method can be used
to resolve the compounds of the invention themselves if optically
active acids or alcohols are used instead of racemic starting
materials.
[0435] The compounds of this invention are useful as linkers or
spacers in preparing affinity absorption matrices, immobilized
enzymes for process control, or immunoassay reagents. The compounds
herein contain a multiplicity of functional groups that are
suitable as sites for cross-linking desired substances. For
example, it is conventional to link affinity reagents such as
hormones, peptides, antibodies, drugs, and the like to insoluble
substrates. These insolublized reagents are employed in known
fashion to absorb binding partners for the affinity reagents from
manufactured preparations, diagnostic samples and other impure
mixtures. Similarly, immobilized enzymes are used to perform
catalytic conversions with facile recovery of enzyme. Bifunctional
compounds are commonly used to link analytes to detectable groups
in preparing diagnostic reagents.
[0436] Many functional groups in the compounds of this invention
are suitable for use in cross-linking. For example, the carboxylic
or phosphonic acid of group E.sub.1 is used to form esters with
alcohols or amides with amines of the reagent to be cross-linked.
The G.sub.1 sites substituted with OH, NHR.sub.1, SH, azido (which
is reduced to amino if desired before cross-linking), CN, NO.sub.2,
amino, guanidino, halo and the like are suitable sites. Suitable
protection of reactive groups will be used where necessary while
assembling the cross-linked reagent to prevent polymerization of
the bifunctional compound of this invention. In general, the
compounds here are used by linking them through carboxylic or
phosphonic acid to the hydroxyl or amino groups of the first linked
partner, then covalently bonded to the other binding partner
through a T.sub.1 or G.sub.1 group. For example a first binding
partner such as a steroid hormone is esterified to the carboxylic
acid of a compound of this invention and then this conjugate is
cross-linked through a G.sub.1 hydroxyl to cyanogen bromide
activated Sepaharose, whereby immobilized steroid is obtained.
Other chemistries for conjugation are well known. See for example
Maggio, "Enzyme-Immunoassay" (CRC, 1988, pp 71-135) and references
cited therein.
[0437] As noted above, the therapeutically useful compounds of this
invention in which the W.sub.1, or G.sub.1 carboxyl, hydroxyl or
amino groups are protected are useful as oral or sustained release
forms. In these uses the protecting group is removed in vivo, e.g.,
hydrolyzed or oxidized, so as to yield the free carboxyl, amino or
hydroxyl. Suitable esters or amides for this utility are selected
based on the substrate specificity of esterases and/or
carboxypeptidases expected to be found within cells where precursor
hydrolysis is desired. To the extent that the specificity of these
enzymes is unknown, one will screen a plurality of the compounds of
this invention until the desired substrate specificity is found.
This will be apparent from the appearance of free compound or of
antiviral activity. One generally selects amides or esters of the
invention compound that are (i) not hydrolyzed or hydrolyzed
comparatively slowly in the upper gut, (ii) gut and cell permeable
and (iii) hydrolyzed in the cell cytoplasm and/or systemic
circulation. Screening assays preferably use cells from particular
tissues that are susceptible to influenza infection, e.g. the
mucous membranes of the bronchopulmonary tract. Assays known in the
art are suitable for determining in vivo bioavailability including
intestinal lumen stability, cell permeation, liver homogenate
stability and plasma stability assays. However, even if the ester,
amide or other protected derivatives are not converted in vivo to
the free carboxyl, amino or hydroxyl groups, they remain useful as
chemical intermediates.
Exemplary Methods of Making the Compounds of the Invention
[0438] The invention also relates to methods of making the
compositions of the invention. The compositions are prepared by any
of the applicable techniques of organic synthesis. Many such
techniques are well known in the art. However, many of the known
techniques are elaborated in "Compendium of Organic Synthetic
Methods" (John Wiley & Sons, New York), Vol. 1, Ian T. Harrison
and Shuyen Harrison, 1971; Vol. 2, Ian T. Harrison and Shuyen
Harrison, 1974; Vol. 3, Louis S. Hegedus and Leroy Wade, 1977; Vol.
4, Leroy G. Wade, jr., 1980; Vol. 5, Leroy G. Wade, Jr., 1984; and
Vol. 6, Michael B. Smith; as well as March, J., "Advanced Organic
Chemistry, Third Edition", (John Wiley & Sons, New York, 1985),
"Comprehensive Organic Synthesis. Selectivity, Strategy &
Efficiency in Modern Organic Chemistry. In 9 Volumes", Barry M.
Trost, Editor-in-Chief (Pergamon Press, New York, 1993
printing).
[0439] A number of exemplary methods for the preparation of the
compositions of the invention are provided below. These methods are
intended to illustrate the nature of such preparations are not
intended to limit the scope of applicable methods.
[0440] Generally, the reaction conditions such as temperature,
reaction time, solvents, workup procedures, and the like, will be
those common in the art for the particular reaction to be
performed. The cited reference material, together with material
cited therein, contains detailed descriptions of such conditions.
Typically the temperatures will be -100.degree. C. to 200.degree.
C., solvents will be aprotic or protic, and reaction times will be
10 seconds to 10 days. Workup typically consists of quenching any
unreacted reagents followed by partition between a water/organic
layer system (extraction) and separating the layer containing the
product.
[0441] Oxidation and reduction reactions are typically carried out
at temperatures near room temperature (about 20.degree. C.),
although for metal hydride reductions frequently the temperature is
reduced to 0.degree. C. to -100.degree. C., solvents are typically
aprotic for reductions and may be either protic or aprotic for
oxidations. Reaction times are adjusted to achieve desired
conversions.
[0442] Condensation reactions are typically carried out at
temperatures near room temperature, although for non-equilibrating,
kinetically controlled condensations reduced temperatures
(0.degree. C. to -100.degree. C.) are also common. Solvents can be
either protic (common in equilibrating reactions) or aprotic
(common in kinetically controlled reactions).
[0443] Standard synthetic techniques such as azeotropic removal of
reaction by-products and use of anhydrous reaction conditions (e.g.
inert gas environments) are common in the art and will be applied
when applicable.
[0444] One exemplary method of preparing the compounds of the
invention is shown in Scheme 1 below. A detailed description of the
methods is found in the Experimental section below. 895896
[0445] Modifications of Scheme 1 to form additional embodiments is
shown in Schemes 2-4. 897
[0446] Scheme 2
[0447] Aziridine 5 is converted to the amino nitrile 9 by
Yb(CN).sub.3 catalyzed addition of TMSCN according to the procedure
of Utimoto and co-workers, "Tetrahedron Lett.", 31:6379 (1990).
[0448] Conversion of nitrile 9 to the corresponding amidine 10 is
accomplished using a standard three step sequence: i) H.sub.2S; ii)
CH.sub.3I; iii) NH.sub.4OAc. A typical conversion is found in "J.
Med. Chem.", 36:1811 (1993).
[0449] Nitrile 9 is converted to the amino methyl compound 11 by
reduction using any of the available methods found in "Modern
Synthetic Reactions" 2nd ed. H.O. House, Benjamin/Cummings
Publishing Co., 1972.
[0450] Amino methyl compound 11 is converted to the bis-Boc
protected guanidino compound 12 by treating 11 with
N,N'-bis-Boc-1H-pyrazole-1-carb- oxamidine according to the method
found in "Tetrahedron Lett.", 36:299 (1995). 898
[0451] Scheme 3
[0452] The aziridine 5 is opened with .alpha.-cyano acetic acid
t-butyl ester to give 13. Aziridine openings of this type are found
in "Tetrahedron Lett.", 23:5021 (1982). Selective hydrolysis of the
t-butyl ester moiety under acidic condtions followed by
decarboxylation gives nitrile 14.
[0453] Reduction of 14 to the amino ethyl derivative 15 is
accomplished in the same fashion as the conversion of 9 to 11. The
amine 15 is then converted into the guanidino derivative 16 with
N,N'-bis-Boc-1H-pyrazole-- 1-carboxamidine according to the method
found in "Tetrahedron Lett.", 36:299 (1995).
[0454] The nitrile 14 is converted to the corresponding amidine 17
using the same sequence described above for the conversion of 9 to
10. 899
[0455] Scheme 4
[0456] The epoxy alcohol 1 is protected (PG=protecting group), for
example with MOMCl. Typical conditions are found in "Protective
Groups in Organic Synthesis" 2nd ed., T. W. Greene and P. G. M.
Wuts, John Wiley & Sons, New York, N.Y., 1991.
[0457] The epoxide 19 is opened with NaN.sub.3/NH.sub.4Cl to the
amino alcohol 20 according to the procedure of Sharpless and
co-workers, "J. Org. Chem.", 50:1557 (1985).
[0458] Reduction of 20 to the N-acetyl aziridine 21 is accomplished
in a three step sequence: 1) MsCl/triethyl amine; 2) H.sub.2/Pd; 3)
AcCl/pyridine. Such transformations can be found in "Angew. Chem.
Int. Ed. Engl.", 33:599 (1994).
[0459] Aziridine 21 is converted to the azido amide 22 by opening
with NaN.sub.3/NH.sub.4Cl in DMF at 65.degree. C. as described in
"J. Chem. Soc. Perkin Trans I", 801 (1976).
[0460] Removal of the MOM protecting group of 22 is accomplished
using the methods described in "Protective Groups in Organic
Synthesis" 2nd ed., T. W. Greene and P. G. M. Wuts, John Wiley
& Sons, New York, N.Y., 1991. The resulting alcohol is
converted directly to aziridine 24 with TsCl in pyridine. Such
transformations are found in "Angew. Chem. Int. Ed. Engl.", 33:599
(1994).
[0461] Aziridine 24 is then reacted with ROH, RNH.sub.2, RSH or an
organometallic (metal-R) to give the corresponding ring opened
derivatives 25, 26, 27 and 27.1 respectively. Aziridine openings of
this type are found in "Tetrahedron Lett.", 23:5021 (1982) and
"Angew. Chem. Int. Ed. Engl.", 33:599 (1994).
[0462] Scheme 5
[0463] Another class of compounds of the invention are prepared by
the method of Schemes 5a and 5b. Quinic acid is converted to 28 by
the method of Shing, T. K. M.; et al.; "Tetrahedron", 47(26):4571
(1991). Mesylation with MsCl in TEA/CH.sub.2Cl.sub.2 will give 29
which is reacted with NaN.sub.3 in DMF to give 30. Reaction of 30
with TFA in CH.sub.2Cl.sub.2 will give 31 which is mesylated with
MsCl in TEA/CH.sub.2Cl.sub.2 to give 32. Reaction with
triphenylphosphine in water will give 33 which is converted to 35
by sequential application of: 1) CH.sub.3C(O)Cl in pyridine, 2)
NaN.sub.3 in DMF, and 3) NaH in THF. Alkylation of 35 with a wide
variety of nucleophiles common in the art will provide a number of
compounds such as 36. Methods for elaboration of the compounds such
as 36 to other embodiments of the invention will be similar to
those described above. 900 901 902
[0464] Scheme 6
[0465] Another class of compounds of the invention are prepared by
the method of Scheme 6. Protected alcohol 22 (PG=methoxymethyl
ether) is deprotected under standard conditions described in
"Protective Groups in Organic Synthesis" 2nd ed., T. W. Greene and
P. G. M. Wuts, John Wiley & Sons, New York, N.Y., 1991. Alcohol
51 is converted to acetate 52 with acetic anhydride and pyridine
under standard conditions. Acetate 52 is treated with TMSOTf or
BF.sub.3.OEt to afford oxazoline 53. Such transformations are
described in "Liebigs Ann. Chem.", 129 (1991) and "Carbohydrate
Research", 181 (1993), respectively. Alternatively, alcohol 51 is
transformed to oxazoline 53 by conversion to the corresponding
mesylate or tosylate 23 and subsequently cyclized to the oxazoline
under standard conditions, as described in "J. Org. Chem.", 50:1126
(1985) and "J. Chem. Soc.", 1385 (1970). Oxazoline 53 is reacted
with ROH, RR'NH, or RSH (wherein R and R' are selected to be
consistent with the definition of W.sub.6 above) provide the
corresponding ring opened derivatives 54, 55, and 56 respectively.
Such transformations are described in "J. Org. Chem.", 49:4889
(1984) and "Chem. Rev.", 71:483 (1971).
[0466] Schemes 7-35
[0467] Other exemplary methods of preparing the compounds of the
invention are shown in Schemes 7-35 below. A detailed description
of the methods is found in the Experimental section below. 903 904
905 906 907 908 909 910 911 912 913 914 915 916917 918 919 920 921
922 923 924 925 926 927 928 929 930 931 932 933 934 935 936 937 938
939 940 941
[0468] Additional embodiments of methods of making and using
compositions of the invention are depicted in Schemes 36-40.1. One
aspect of the invention is directed to methods of making compounds
of the invention comprising processes A, B, C, D, E, F, G, H, I, J,
K, L, M, N, O, P, Q, R, S, T, U, V or W of Schemes 36-40.1, alone
or in combination with each other. Table 27 describes exemplary
method embodiments of processes A-W. Each embodiment is an
individual method using the unit processes A-W alone or in
combination. Each method embodiment of Table 27 is separated by a
";". If the embodiment is a single letter than it corresponds to
one of the processes A-W. If it is more than one letter than it
corresponds to each of the processes performed sequentially in the
order indicated.
[0469] Other aspects of the invention are directed to methods of
using shikimic acid to prepare compound 270 shown as A in Schemes
36, methods of using compound 270 to prepare compound 271 shown as
B in Schemes 36, methods of using compound 271 to prepare compound
272 shown as C in Schemes 36, methods of using compound 272 to
prepare compound 273 shown as D in Schemes 36, methods of using
quinic acid to prepare compound 274 shown as E in Schemes 37,
methods of using compound 274 to prepare compound 275 shown as F in
Schemes 37, methods of using compound 275 to prepare compound 276
shown as G in Schemes 37, methods of using compound 276 to prepare
compound 272 shown as H in Schemes 37, methods of using compound
273 to prepare compound 277 shown as I in Schemes 38, methods of
using compound 277 to prepare compound 278 shown as J in Schemes
38, methods of using compound 278 to prepare compound 279 shown as
K in Schemes 38, methods of using compound 279 to prepare compound
280 shown as L in Schemes 38, methods of using compound 280 to
prepare compound 281 shown as M in Schemes 38, methods of using
compound 281 to prepare compound 282 shown as N in Schemes 39,
methods of using compound 282 to prepare compound 283 shown as 0 in
Schemes 39, methods of using compound 283 to prepare compound 284
shown as P in Schemes 39, methods of using compound 283 to prepare
compound 285 shown as Q in Schemes 40, methods of using compound
285 to prepare compound 286 shown as R in Schemes 40, methods of
using compound 287 to prepare compound 288 shown as S in Schemes
40.1, methods of using compound 288 to prepare compound 289 shown
as T in Schemes 40.1, methods of using compound 289 to prepare
compound 290 shown as U in Schemes 40.1, methods of using compound
290 to prepare compound 291 shown as V in Schemes 40.1, and methods
of using compound 291 to prepare compound 292 shown as W in Schemes
40.1.
[0470] General aspects of these exemplary methods are described
below and in the Example. Each of the products of the following
processes is optionally separated, isolated, and/or purified prior
to its use in subsecquent processes.
[0471] The terms "treated", "treating", "treatment", and the like,
mean contacting, mixing, reacting, allowing to react, bringing into
contact, and other terms common in the art for indicating that one
or more chemical entities is treated in such a manner as to convert
it to one or more other chemical entities. This means that
"treating compound one with compound two" is synonymous with
"allowing compound one to react with compound two", "contacting
compound one with compound two", "reacting compound one with
compound two", and other expressions common in the art of organic
synthesis for reasonably indicating that compound one was
"treated", "reacted", "allowed to react", etc., with compound
two.
[0472] "Treating" indicates the reasonable and usual manner in
which organic chemicals are allowed to react. Normal concentrations
(0.01M to 10M, typically 0.1M to 1M), temperatures (-100.degree. C.
to 250.degree. C., typically -78.degree. C. to 150.degree. C., more
typically -78.degree. C. to 100.degree. C., still more typically
0.degree. C. to 100.degree. C.), reaction vessels (typically glass,
plastic, metal), solvents, pressures, atmospheres (typically air
for oxygen and water insensitive reactions or nitrogen or argon for
oxygen or water sensitive), etc., are intended unless otherwise
indicated. The knowledge of similar reactions known in the art of
organic synthesis are used in selecting the conditions and
apparatus for "treating" in a given process. In particular, one of
ordinary skill in the art of organic sysnthesis selects conditions
and apparatus reasonably expected to successfully carry out the
chemical reactions of the described processes based on the
knowledge in the art.
[0473] Process A, Scheme 36
[0474] Shikimic acid is used to prepare compound 270 by the
following process.
[0475] The cis-4,5-diol function of shikimic acid is differentiated
from the carboxylic acid at carbon 1 by selective protection of
these two functionalities. Typically the cis-4,5-diol function is
protected as a cyclic ketal and the carboxylic acid function is
protected as an ester.
[0476] R.sub.50 is an acid labile 1,2-diol protecting group such as
those described in the above cited work of Greene, typically a
cyclic ketal or acetal, more typically, a ketal of cyclohexanone or
acetone. R.sub.51 is an acid stable carboxylic acid protecting
group such as those described in the above cited work of Greene,
typically a linear, branched or cyclic alkyl, alkenyl, or alkynyl
of 1 to 12 carbon atoms such as those shown as groups 2-7, 9-10,
15, or 100-660 of Table 2, more typically a linear or branched
alkyl of 1 to 8 carbon atoms such as those shown as groups 2-5, 9,
or 100-358 of Table 2, still more typically a linear or branched
alkyl of 1 to 6 carbon atoms such as those shown as groups 2-5, 9,
or 100-141 of Table 2, more typically yet, R51 is methyl, ethyl,
n-propyl, i-propyl, n-butyl, sec-butyl, i-butyl, or t-butyl.
[0477] Shikimic acid is reacted to protect the carboxylic acid with
group R.sub.51 and the cis-4,5-diol with group R.sub.50. Typically
shikimic acid is treated with an alcohol, such as methanol,
ethanol, n-propanol, or i-propanol, and an acid catalyst, such as a
mineral acid or a sulfonic acid such as methane, benzene or toluene
sulfonic acid, followed by a dialkyl ketal or acetal of a ketone or
aldehyde, such as 2,2-dimethoxy-propane, or
1,1-dimethoxy-cyclohexane, in the presence of the corresponding
ketone or aldehyde, such as acetone or cyclohexanone. Optionally,
the product of the alcohol and acid catalyst treatment is
separated, isolated and/or purified prior to treatment with dialkyl
ketal or acetal. Alternatively shikimic acid is treated with
CH.sub.2N.sub.2.
[0478] Typically, the process comprises treating shikimic acid with
an alkanol and a sulfonic acid followed by treating with a
geminal-dialkoxyalkane or geminal dialkoxycycloalkane and an
alkanone or cycloalkanone to form compound 270. More typically, the
process comprises treating shikimic acid with an alkanol and a
sulfonic acid; evaporating excess alkanol to form a residue;
treating the residue with a geminal-dialkoxyalkane or
geminal-dialkoxycycloalkane and an alkanone or cycloalkanone to
form compound 270. Still more typically, the process comprises
treating shikimic acid with methanol and para-toluenesulfonic acid;
evaporating excess methanol to form a residue; treating the residue
with 2,2-dimethoxypropane and acetone to form compound 270.
[0479] An exemplary embodiment of this process is given as Example
55 below.
[0480] Process B, Scheme 36
[0481] Compound 270 is used to prepare compound 271 by the
following process.
[0482] The hydroxy group at position 3 is activated, typically,
activated toward displacement reactions, more typically, activated
toward epoxide ring forming displacement with an alcohol at
position 4.
[0483] R.sub.52 is an alcohol activating group, typically, an
activating group toward displacement reactions, more typically, an
activating group toward epoxide ring forming displacement with an
alcohol at position 4. Such groups include those typical in the art
such as sulfonic acid esters, more typically, methane, benzene or
toluene sulfonic acid esters. In one embodiment, R.sub.52, taken
together with O (i.e. --OR.sub.52), is a leaving group such as
those common in the art.
[0484] Typically the process comprises treating compound 270 with
an acid halide to form compound 271. More typically, the process
comprises treating compound 270 with a sulfonic acid halide in a
suitable solvent to form compound 271. Still more typically, the
process comprises treating compound 270 with a sulfonic acid halide
in a suitable solvent such as an amine, optionally, in the presence
of a cosolvent, such as a haloalkane, to form compound 271. More
typically yet, the process comprises treating compound 270 with
methane sulfonyl chloride in triethylamine/dichloromethane to form
compound 271.
[0485] An exemplary embodiment of this process is given as Example
56 below.
[0486] Process C, Scheme 36
[0487] Compound 271 is used to prepare compound 272 by the
following process.
[0488] The acid labile protecting group (R.sub.50) for the hydroxy
groups at positions 4 and 5 is removed. Typically, R.sub.50 is
removed without substaintially removing base labile carboxylic acid
protecting groups (e.g. R.sub.51) or hydroxy activating groups
(e.g. R.sub.52). Still more typically, R.sub.50 is cleaved under
acidic conditions.
[0489] Typically the process comprises treating compound 271 with a
protic solvent, more typically, in the presence of an acid catalyst
as described above. Still more typically, the process comprises
treating compound 271 with an alkanol as described above and an
acid catalyst as described above. More typically yet, the process
comprises treating compound 271 with methanol and para-toluene
sulfonic acid to produce compound 272.
[0490] An exemplary embodiment of this process is given as Example
57 below.
[0491] Process D, Scheme 36
[0492] Compound 272 is used to prepare compound 273 by the
following process.
[0493] The activated hydroxy group at position 3 of compound 272 is
displaced by the hydroxy at position 4 of compound 272 to produce
epoxide compound 273. Typically the displacement is catalyzed by a
suitable base, more typically, an amine base such as DBU or
DBN.
[0494] Typically the process comprises treating compound 272 with a
basic catalyst, optionally in the presecnce of a suitable solvent.
Still more typically, the process comprises treating compound 272
with an amine base in a polar, non-protic solvent such as diethyl
ether or THF. More typically yet, the process comprises treating
compound 272 with DBU in THF to produce compound 273.
[0495] An exemplary embodiment of this process is given as Example
58 below.
[0496] Process E, Scheme 37
[0497] Quinic acid is used to prepare compound 274 by the following
process.
[0498] The cis-4,5-diol function of quinic acid is differentiated
from the carboxylic acid at carbon 1 by selective protection of
these two functionalities. Typically the cis-4,5-diol function is
protected as a cyclic ketal and the carboxylic acid function is
protected as a lactone with the hydroxy group at position 3.
[0499] R.sub.50 is as described above.
[0500] Typically, the process comprises treating quinic acid with a
geminal-dialkoxyalkane or geminal dialkoxycycloalkane, as described
above, and an alkanone or cycloalkanone, as described above,
optionally, in the presence of an acid catalyst, as described
above, to form compound 274. More typically, the process comprises
treating quinic acid with a geminal-dialkoxyalkane or
geminal-dialkoxycycloalkane, an alkanone or cycloalkanone, and an
acid catalyst to form compound 270. Still more typically, the
process comprises treating quinic acid with2,2-dimethoxypropane,
acetone, and para-toluenesulfonic acid to form compound 274.
[0501] An exemplary embodiment of this process is given as Example
101 below.
[0502] Process F, Scheme 37
[0503] Compound 274 is used to prepare compound 275 by the
following process.
[0504] The lactone is opened to form compound 275. Typically, the
lactone is opened to produce a protected carboxylic acid at
position 1 and a free hydroxy at position 3. More typically, the
lactone is opened under basic conditions to produce an R.sub.51
protected carboxylic acid at position 1 and a free hydroxy group at
position 3.
[0505] R.sub.51 is as described above.
[0506] Typically compound 274 is treated with a suitable base in a
suitable protic solvent. More typically compound 275 is treated
with a metal alkoxide base, such as sodium, potassium or lithium
alkoxide, in an alkanol, as described above. Still more typically,
compound 274 is treated with NaOMe in MeOH to produce compound
275.
[0507] An exemplary embodiment of this process is given as Example
102 below.
[0508] Process G, Scheme 37
[0509] Compound 275 is used to prepare compound 276 by the
following process.
[0510] The hydroxy group at position 3 is activated, typically,
activated toward displacement reactions, more typically, activated
toward epoxide ring forming displacement with an alcohol at
position 4.
[0511] R.sub.52 is an alcohol activating group, typically, an
activating group toward displacement reactions, more typically, an
activating group toward epoxide ring forming displacement with an
alcohol at position 4. Such groups include those typical in the art
such as sulfonic acid esters, more typically, methane, benzene or
toluene sulfonic acid esters. In one embodiment, R.sub.52, taken
together with O (i.e. --OR.sub.52), is a leaving group such as
those common in the art.
[0512] Typically the process comprises treating compound 275 with
an acid halide to form compound 276. More typically, the process
comprises treating compound 275 with a sulfonic acid halide in a
suitable solvent to form compound 276. Still more typically, the
process comprises treating compound 275 with a sulfonic acid halide
in a suitable solvent such as an amine, optionally, in the presence
of a cosolvent, such as a haloalkane, to form compound 276. More
typically yet, the process comprises treating compound 275 with
p-toluene sulfonyl chloride in pyridine dichloromethane to form
compound 276.
[0513] An exemplary embodiment of this process is given as Example
103 below.
[0514] Process H, Scheme 37
[0515] Compound 276 is used to prepare compound 272 by the
following process.
[0516] The hydroxy group at position 1 is eliminated and the
cis-4,5-diol protecting group is removed. The hydroxy group at
position 1 is eliminated to form an olefinic bond between positions
1 and 6 and the cis-4,5-diol protecting group is removed to
regenerate the cis-4,5-diol.
[0517] Typically the process comprises treating compound 276 with a
suitable dehydrating agent, such as a mineral acid (HCl,
H.sub.2SO.sub.4) or SO.sub.2Cl.sub.2. More typically, compound 276
is treated with SO.sub.2Cl.sub.2, followed by an alkanol,
optionally in the presence of an acid catalyst. Still more
typically, compound 276 is treated with SO.sub.2Cl.sub.2 in a
suitable polar, aprotic solvent, such as an amine to form an
olefin; the olefin is treated with an alkanol, as described above,
and an acid catalyst, as described above, to form compound 272.
More typically yet, compound 276 is treated with SO.sub.2Cl.sub.2
in pyridine/CH.sub.2Cl.sub.2 at a temperature between -100.degree.
C. and 0.degree. C., typically -100.degree. C. and -10.degree. C.,
more typically -78.degree. C., to form an olefin; the olefin is
treated with methanol and para-toluene sulfonic acid to form
compound 272.
[0518] An exemplary embodiment of this process is given as Example
104 below.
[0519] Process I, Scheme 38
[0520] Compound 273 is used to prepare compound 277 by the
following process.
[0521] The hydroxy group at position 5 is protected. Typically the
protecting group is an acid labile hydroxy protecting. More
typically, the protecting group resists transfer to adjacent
hydroxy groups.
[0522] R.sub.53 is an acid labile hydroxy protecting group such as
those described in the above cited work of Greene. More typically,
R.sub.53 is an acid cleavable ether, still more typically, R.sub.53
is methoxymethyl (MOM, CH.sub.3--O--CH.sub.2--).
[0523] Typically the process comprises treating compound 273 with a
hydroxy protecting group reagent as described in Greene. More
typically the process comprises treating compound 273 with a
substituted or unsubstituted haloalkane or alkene, such as
methoxymethyl chloride (MOM chloride, CH.sub.3--O--CH.sub.2--Cl),
in a suitable solvent, such as a polar, aprotic solvent. Still more
typically, the process comprises treating compound 273 with MOM
chloride in an amine solvent. More typically yet, the process
comprises treating compound 273 with MOM chloride in diisoproply
ethyl amine.
[0524] An exemplary embodiment of this process is given as Example
59 below.
[0525] Process J, Scheme 38
[0526] Compound 277 is used to prepare compound 278 by the
following process.
[0527] The epoxide at positions 3 and 4 is opened to form an azide.
More typically, the epoxide at positions 3 and 4 is opened to form
a 3-azido-4-hydroxy compound 278.
[0528] Typically the process comprises treating compound 277 with
an azide salt in a suitable solvent. More typically, the process
comprises treating compound 277 with sodium azide and a mild base,
such as an ammonium halide, in a polar, protic solvent, such as an
alkanol or water. Still more typically, the process comprises
treating compound 277 with sodium azide and ammonium chloride in
water/methanol solution to produce compound 278.
[0529] An exemplary embodiment of this process is given as Example
60 below.
[0530] Process K, Scheme 38
[0531] Compound 278 is used to prepare compound 279 by the
following process.
[0532] The hydroxy group at position 4 of compound 278 is displaced
by the 3-azido group to form the aziridine compound 279.
[0533] Typically the process comprises treating compound 278 with a
hydroxy activating group as described above, an organophosphine and
a base. More typically the process comprises treating compound 278
with a sulfonic acid halide, such as those described above, to form
an activated hydroxy compound, treating the activated hydroxy
compound with trialkyl or tri arylphosphine, such as
triphenylphosphine, to form a phosphonium salt, and treating the
phosphonium salt with a base, such as an amine, to form compound
279. Still more typically, the process comprises treating compound
278 with mesyl chloride, to form an activated hydroxy compound,
treating the activated hydroxy compound with triphenylphosphine, to
form a phosphonium salt, and treating the phosphonium salt with
triethylamine and H.sub.2O, to form compound 279.
[0534] An exemplary embodiment of this process is given as Examples
61 and 62 below.
[0535] Process L, Scheme 38
[0536] Compound 279 is used to prepare compound 280 by the
following process.
[0537] The aziridine compound 279 is opened with azide to form
azido amine 280.
[0538] Typically the process comprises treating compound 279 with
with an azide salt in a suitable solvent. More typically, the
process comprises treating compound 279 with sodium azide and a
mild base, such as an ammonium halide, in a polar, aprotic solvent,
such as an ether, amine, or amide. Still more typically, the
process comprises treating compound 279 with sodium azide and
ammonium chloride in DMF solution to producee compound 280.
[0539] An exemplary embodiment of this process is given as Example
63 below.
[0540] Process M, Scheme 38
[0541] Compound 280 is used to prepare compound 281 by the
following process.
[0542] The protected hydroxy group at position 5 is displaced by
the amine at position 4 to form aziridine 281. Typically the
aziridine 281 is substituted with an acid labile group, more
typically an aziridine activating group.
[0543] R.sub.54 is an acid labile group, typically an acid labile
amine protecting group such as those described in the above cited
work of Greene. More typically, R.sub.54 is an aziridine activating
group, still more typically, a group capable of activating an
aziridine toward acid catalyzed ring opening. Typical R.sub.54
groups include by way of example and not limitation, a linear or
branched 1-oxo-alk-1-yl group of 1 to 12 carbons wherein the alkyl
portion is a 1 to 11 carbon linear or branched chain alkyl group
(such as CH.sub.3(CH.sub.2).sub.zC(O)--, z is an integer from 0 to
10, i.e. acetyl CH.sub.3C(O)--, etc.), substituted methyl (e.g.
triphenylmethyl, Ph.sub.3C--, trityl, Tr), or a carbamate such as
BOC or Cbz or a sulfonate (e.g. alkyl sulphonates such as methyl
sulphonate). More typical R.sub.54 groups include triphenylmethyl
and 1-oxo-alk-1-yl groups having 1 to 8, still more typically, 1,
2, 3, 4, 5, or 6, more typically yet, 2 or 3 carbon atoms.
[0544] Typically the process comprises treating compound 280 with a
deprotecting agent to remove group R.sub.53, an R.sub.54 producing
reagent such as those described in Greene (R.sub.54-halide, such as
acetylchloride, or Tr--Cl, or R.sub.54--O--R.sub.54, such as acetic
anhydride), and a hydroxy activating group such as those described
in process B, Scheme 36. More typically the process comprises
treating compound 280 with a polar, protic solvent, optionally in
the presence of an acid catalyst as described above, to form a
first intermediate; treating the first intermediate with Tr--Cl in
a polar, aprotic solvent, such as an amine, to form a second
intermediate; and treating the second intermediate with a sulfonic
acid halide, such as mesyl chloride or para toluene sulfonyl
chloride, in a polar aprotic solvent, such as an amine, to produce
compound 281. Still more typically, the process comprises treating
compound 280 with methanol and HCl, to form a first intermediate;
treating the first intermediate with Tr--Cl and triethylamine, to
form a second intermediate; and treating the second intermediate
with mesyl chloride and triethylamine, to produce compound 281.
[0545] An exemplary embodiment of this process is given as Example
64 below.
[0546] Process N, Scheme 39
[0547] Compound 281 is used to prepare compound 282 by the
following process.
[0548] Aziridine 281 is opened and the resulting amine is
substituted with an R.sub.55 group to form compound 282. Typically,
aziridine 281 is opened by acid catalyzed ring opening and the
resulting amine is acylated.
[0549] R.sub.55 is W.sub.3 as defined above. Typically R.sub.55 is
--C(O)R.sub.5. More typically, R.sub.55 is --C(O)R.sub.1. Still
more typically, R.sub.55 is --C(O)CH.sub.3.
[0550] R.sub.56 is U.sub.1 as described above. Typically R.sub.56
is W.sub.6--O--, W.sub.6--S--, or W.sub.6--N(H)--. More typically,
R.sub.56 is R.sub.5--O--, R.sub.5--S--, or R.sub.5--N(H)--, still
more tyically, R.sub.56 is R.sub.5--O--, still more typically yet,
R.sub.56 is R.sub.1--O--.
[0551] Typically the process comprises treating compound 281 with
an acid catalyst and a compound of the formula W.sub.6--X.sub.1--H,
wherein X.sub.1 is as defined above to form an amine intermediate;
and treating the amine intermediate with a compound of the formula
W.sub.3--X.sub.1--W.sub.3, W.sub.3--X.sub.10, wherein X.sub.10 is a
leaving group, to form compound 282. The acid catalyst is typically
a Lewis acid catalyst common in the art, such as
BF.sub.3.Et.sub.2O, TiCl.sub.3, TMSOTf, SmI.sub.2(THF).sub.2,
LiClO.sub.4, Mg(ClO.sub.4).sub.2, Ln(OTf).sub.3 (where Ln=Yb, Gd,
Nd), Ti(Oi--Pr).sub.4, AlCl.sub.3, AlBr.sub.3, BeCl.sub.2,
CdCl.sub.2, ZnCl.sub.2, BF.sub.3, BCl.sub.3, BBr.sub.3, GaCl.sub.3,
GaBr.sub.3, TiCl.sub.4, TiBr.sub.4, ZrCl.sub.4, SnCl.sub.4,
SnBr.sub.4, SbCl.sub.5, SbCl.sub.3, BiCl.sub.3, FeCl.sub.3,
UCl.sub.4, ScCl.sub.3, YCl.sub.3, LaCl.sub.3, CeCl.sub.3,
PrCl.sub.3, NdCl.sub.3, SmCl.sub.3, EuCl.sub.3, GdCl.sub.3,
TbCl.sub.3, LuCl.sub.3, DyCl.sub.3, HoCl.sub.3, ErCl.sub.3,
TmCl.sub.3, YbC.sub.13, ZnI.sub.2, Al(OPr.sup.i).sub.3,
Al(acac).sub.3, ZnBr.sub.2, for SnCl.sub.4. X.sub.1 is typically
--O--, --S--, or --N(H)--. X.sub.10 is typically a halide such as
Cl, Br, or I. More typically, the process comprises treating
compound 281 with a compound of the formula R.sub.5--OH,
R.sub.5--SH, or R.sub.5--NH.sub.2, and BF.sub.3.Et.sub.2O to form
an intermediate; and treating the intermediate with an alkanoic
acid anhydride to form compound 282. Still more typically, the
process comprises treating compound 281 with a compound of the
formula R.sub.5--OH and BF.sub.3.Et.sub.2O to form an intermediate;
and treating the intermediate with a substituted or unsubstituted
acetic anhydride to form compound 282. Exemplary compounds of the
formula R.sub.5--OH include those described by Table 2, groups 2-7,
9-10, 15, and 100-660 wherein Q.sub.1 is --OH. Further exemplary
compounds of the formula R.sub.5--OH include those shown in Table
25 below (together with their Chemical Abstracts Service Registry
Numbers) and those shown in Table 26 below (together with their
Chemical Abstracts Service Registry Numbers, and Aldrich Chemical
Company Product Numbers). More typical exemplary compounds of the
formula R.sub.5--OH are those described by Table 2, groups 2-5, 9,
and 100-141 wherein Q.sub.1 is --OH.
[0552] In another embodiment of Process N, Scheme 39, R.sub.55 is
H.
[0553] Typically this process embodiment comprises treating
compound 281 with an acid catalyst and a compound of the formula
R.sub.56--X.sub.1--H, wherein X.sub.1 is as defined above to form
an amine intermediate to form compound 282. The acid catalyst and
X.sub.1are as described above. More typically, the process
comprises treating compound 281 with a compound of the formula
R.sub.5--OH, R.sub.5--SH, or R.sub.5--NH.sub.2, and
BF.sub.3.Et.sub.2O to form compound 282. Still more typically, the
process comprises treating compound 281 with a compound of the
formula R.sub.5--OH and BF.sub.3.Et.sub.2O to form compound 282.
Exemplary compounds of the formula R.sub.5--OH are described
above.
[0554] Exemplary embodiments of this process are given as Examples
65, 86, 92, and 95 below.
[0555] Process O, Scheme 39
[0556] Compound 282 is used to prepare compound 283 by the
following process.
[0557] The azide of compound 282 is reduced to form amino compound
283.
[0558] Typically the process comprises treating compound 282 with a
reducing agent to form compound 283. More typically the process
comprises treating compound 282 with hydrogen gas and a catalyst
(such as platinum on carbon or Lindlar's catalyst), or reducing
reagents (such as a trialkyl or triaryl phosphine as described
above). More typically still, the process comprises treating
compound 282 with triphenylphosphine in water/THF to form compound
283.
[0559] Exemplary embodiments of this process are given as Examples
87, 93, and 96 below.
[0560] Process P, Scheme 39
[0561] Compound 283 is used to prepare compound 284 by the
following process.
[0562] The carboxylic acid protecting group is removed.
[0563] Typically the process comprises treating compound 283 with a
base. More typically, the process comprises treating compound 283
with a metal hydroxide in a suitable solvent such as an aprotic,
polar solvent. More typically still, the process comprises treating
compound 283 with aqueous potassium hydroxide in THF to produce
compound 284.
[0564] Exemplary embodiments of this process are given as Examples
88, 94, and 97 below.
[0565] Process O, Scheme 40
[0566] Compound 283 is used to prepare compound 285 by the
following process.
[0567] The amine is converted to a protected guanidine.
[0568] R.sub.57 is a guanidine protecting group common in the art,
such as BOC or Me.
[0569] Typically the process comprises treating compound 283 with a
guanidylating reagent such as those common in the art. Exemplary
reagents include Bis-BOC Thio-Urea aminoiminomethanesulfonic acid
(Kim; et al.; "Tet. Lett." 29(26):3183-3186 (1988) and
1-guanylpyrazoles (Bernatowicz; et al.; "Tet. Lett."
34(21):3389-3392 (1993). More typically, the process comprises
treating compound 283 with Bis-BOC Thio-Urea acid. Still more
typically, the process comprises treating compound 283 with Bis-BOC
Thio-Urea acid and HgCl.sub.2 to form compound 285.
[0570] An exemplary embodiment of this process is given as Example
67 below.
[0571] Process R, Scheme 40
[0572] Compound 285 is used to prepare compound 286 by the
following process.
[0573] The carboxylic acid and guanidine protecting groups are
removed.
[0574] Typically the process comprises treating compound 285 with a
base; followed by treating with an acid, as described above. More
typically the process comprises treating compound 285 with a metal
hydroxide base, described above, to form an intermediate; and
treating the intermediate with acid to form compound 286. Still
more typically the process comprises treating compound 285 with
aqueous potassium hydroxide and THF, to form an intermediate; and
treating the intermediate with TFA to form compound 286.
[0575] Process S, Scheme 40.1
[0576] Compound 287 is used to prepare compound 288 by the
following process.
[0577] E.sub.1, J.sub.1 and J.sub.2 of compounds 287 and 288 are as
described above. Typically, E.sub.1 is --CO.sub.2R.sub.51 as
described above. Typically, J.sub.1 is H, F, or methyl, more
typically, H. Typically, J.sub.2 is H or a linear or branched alkyl
of 1 to 6 carbon atoms, more typically, H, methyl, ethyl, n-propyl,
or i-propyl, still more typically, H.
[0578] R.sub.60 and R.sub.61 are groups capable of reacting to form
the R.sub.63 (defined below) substituted aziridine ring of compound
288. Typically, one of R.sub.60 or R.sub.61 is a primary or
secondary amine, or a group capable of being converted to a primary
or secondary amine. Such groups for R.sub.60 and R.sub.61 include
by way of example and not limitation, --NH.sub.2, --N(H)(R.sub.6b),
--N(R.sub.6b).sub.2, --N(H)(R.sub.1), --N(R.sub.1)(R.sub.6b), and
--N.sub.3. The other of R.sub.60 and R.sub.61 is typically a group
capable of being displaced by a primary or secondary amine to form
an aziridine. Such groups include by way of example and not
limitation, --OH, --OR.sub.6a, Br, Cl, and I. Typically, R.sub.60
and R.sub.61 are in a trans configuration. More typically, R.sub.60
is a primary or secondary amine, or a group capable of being
converted to a primary or secondary amine and R.sub.61 is a group
capable of being displaced by a primary or secondary amine to form
an aziridine. Still more typically, R.sub.60 is .beta.-azido or
.beta.-NH.sub.2, and R.sub.61 is .alpha.-OH, .alpha.-OMesyl, or
.alpha.-OTosyl.
[0579] R.sub.62 is described below in Process U, Scheme 40.1.
[0580] The process comprises treating compound 287 to form compound
288. This is typically accomplished by treating compound 287 to
displace R.sub.61 by R.sub.60. More typically, compound 287 is
treated to activate R.sub.61 toward displacement by R.sub.60. Still
more typically, compound 287 is treated to activate R.sub.61 toward
displacement by R.sub.60, and R.sub.60 is activated toward
displacement of R.sub.61. If both R.sub.60 and R.sub.61 are
activated, the activations can be performed simultaneously or
sequentially. If the activations are performed sequentially, they
can be performed in any order, typically the activation of R.sub.61
precedes the activation of R.sub.60.
[0581] Activation of R.sub.61 toward displacement by R.sub.60 is
typically accomplished by treating compound 287 with a hydroxy
activating reagent such as mesyl or tosyl chloride. Activation of
R.sub.60 toward displacement of R.sub.61 is typically accomplished
by treating compound 287 to form a primary or secondary amine and
treating the amine with a base. By way of example and not
limitation, compound 287 is treated with a reducing agent capable
of reducing an azide to an amine and a base.
[0582] In one embodiment of this process, compound 287 is treated
with an R.sub.61 activating reagent, and an R.sub.60 activating
reagent to produce compound 288. In another embodiment, compound
287 is treated in a suitable solvent with an R.sub.61 activating
reagent, and an R.sub.60 activating reagent to produce compound
288. In another embodiment, compound 287 is treated with an
R.sub.61 activating reagent, an R.sub.60 activating reagent, and a
base to produce compound 288. In another embodiment, compound 287
is treated in a suitable solvent with an R.sub.61 activating
reagent, an R.sub.60 activating reagent, and a base to produce
compound 288. In another embodiment, compound 287 wherein R.sub.60
is an azide is treated with an R.sub.61 activating reagent, and an
azide reducing reagent to produce compound 288. In another
embodiment, compound 287 wherein R.sub.60 is an azide is treated in
a suitable solvent with an R.sub.61 activating reagent, and an
azide reducing reagent to produce compound 288. In another
embodiment, compound 287 wherein R.sub.60 is an azide is treated
with an R.sub.61 activating reagent, an azide reducing reagent, and
a base to produce compound 288. In another embodiment, compound 287
wherein R.sub.60 is an azide is treated in a suitable solvent with
an R.sub.61 activating reagent, an azide reducing reagent, and a
base to produce compound 288. In another embodiment, compound 287
wherein R.sub.60 is an azide and R.sub.61 is a hydroxy, is treated
with a hydroxy activating reagent, and an azide reducing reagent to
produce compound 288. In another embodiment, compound 287 wherein
R.sub.60 is an azide and R.sub.61 is a hydroxy, is treated in a
suitable solvent with an hydroxy activating reagent, and an azide
reducing reagent to produce compound 288. In another embodiment,
compound 287 wherein R.sub.60 is an azide and R.sub.61 is a
hydroxy, is treated with a hydroxy activating reagent, an azide
reducing reagent, and a base to produce compound 288. In another
embodiment, compound 287 wherein R.sub.60 is an azide and R.sub.61
is a hydroxy, is treated in a suitable solvent with a hydroxy
activating reagent, an azide reducing reagent, and a base to
produce compound 288.
[0583] An exemplary embodiments of this process are given as
Process K, Scheme 38, above.
[0584] Process T, Scheme 40.1
[0585] Compound 288 is used to prepare compound 289 by the
following process.
[0586] R.sub.64 is typically H, R.sub.6b or a group capable of
being converted to H or R.sub.6b. More typically, R.sub.64 is H.
R.sub.65 is typically G.sub.1 or a group capable of being converted
to G.sub.1. More typically, R.sub.65 is --N.sub.3, --CN, or
--(CR.sub.1R.sub.1).sub.m1W.su- b.2. More typically R.sub.65 is
--N.sub.3, --NH.sub.2, --N(H)(R.sub.6b), --N(R.sub.6b).sub.2,
--CH.sub.2N3, or --CH.sub.2CN.
[0587] Typically, compound 288 is treated to form amine 289. More
typically, compound 288 is treated with a nucleophile, typically a
nitrogen nucleophile such as R.sub.65, a cationic salt of R.sub.65,
or a protonated analog of R.sub.65, such as by way of example and
not limitation, NH.sub.3, an azide salt (such as NaN.sub.3,
KN.sub.3, or the like), HCN, a cyanide salt (such as NaCN, KCN, or
the like), or a salt of a cyanoalkyl (e.g. (CH.sub.2CN)--) (such as
NaCH.sub.2CN, KCH.sub.2CN, or the like). Still more typically,
compound 288 is treated with an azide salt. Optionally a base,
typically a mild base such as an ammonium halide and a solvent,
typically a polar, aprotic solvent, such as an ether, amine, or
amide are used.
[0588] In one embodiment, compound 288 is treated with a
nucleophile. In another embodiment, compound 288 is treated with a
nucleophile in a suitable solvent to produce compound 289. In
another embodiment, compound 288 is treated with a nucleophile and
a base to produce compound 289. In another embodiment, compound 288
is treated with a nucleophile and a base in a suitable solvent to
produce compound 289. In another embodiment, compound 288 is
treated with a nitrogen nucleophile to produce compound 289. In
another embodiment, compound 288 is treated with a nitrogen
nucleophile in a suitable solvent to produce compound 289. In
another embodiment, compound 288 is treated with a nitrogen
nucleophile and a base to produce compound 289. In another
embodiment, compound 288 is treated with a nitrogen nucleophile and
a base in a suitable solvent to produce compound 289. In another
embodiment, compound 288 is treated with an azide salt to produce
compound 289. In another embodiment, compound 288 is treated with
an azide salt in a suitable solvent to produce compound 289. In
another embodiment, compound 288 is treated with an azide salt and
a base to produce compound 289. In another embodiment, compound 288
is treated with an azide salt and a base in a suitable solvent to
produce compound 289.
[0589] An exemplary embodiment of this process is given as Process
L, Scheme 38, above.
[0590] Process U, Scheme 40.1
[0591] Compound 289 is used to prepare compound 290 by the
following process.
[0592] R.sub.62 is a group capable of reacting with an amine to
form the R.sub.66 (defined below) substituted aziridine ring of
compound 290. Typically, R.sub.62 is a group capable of being
displaced by a primary or secondary amine to form an aziridine.
Such groups include by way of example and not limitation,
--OR.sub.53, --OH, --OR.sub.6a, Br, Cl, and I. Typically, R.sub.62
is in a trans configuration relative to the nitrogen in position 4.
More typically, R.sub.62 is --OR.sub.53.
[0593] R.sub.64 is H or R.sub.6b, typically an acid labile
protecting group such as R.sub.54.
[0594] R.sub.66 is H, R.sub.6b or R.sub.54.
[0595] The process comprises treating compound 289 to form compound
290. This is typically accomplished by treating compound 289 to
displace R.sub.62 by the amine at position 4. More typically,
compound 289 is treated to activate the amine at position 4 toward
displacement of R.sub.62. Still more typically, compound 289 is
treated to activate the amine at position 4 toward displacement of
R.sub.62, and R.sub.62 is activated toward displacement by the
amine at position 4. If both R.sub.62 and the amine at position 4
are activated, the activations can be performed simultaneously or
sequentially. If the activations are performed sequentially, they
can be performed in any order, typically the activation of R.sub.62
precedes the activation of the amine at position 4.
[0596] Activation of R.sub.62 toward displacement by the amine at
position 4 is typically accomplished by treating compound 289 with
a hydroxy activating agent such as those described in process B,
Scheme 36. Optionally, R.sub.62 is deprotected prior to activation.
Activation of the amine at position 4 toward R.sub.62 displacement
is typically accomplished by treating compound 289 to form a
primary or secondary amine and treating the amine with an acid
catalyst such as those described in Process N, Scheme 39,
above.
[0597] Typically when R.sub.62 is --OR.sub.53 and R.sub.66 is
R.sub.56, the process comprises treating compound 289 with a
deprotecting agent to remove group R.sub.53, an R.sub.54 producing
reagent such as those described in Greene (R.sub.54-halide, such as
acetylchloride, or Tr--Cl, or R.sub.54--O--R.sub.54, such as acetic
anhydride), and a hydroxy activating group such as those described
in Process B, Scheme 36. More typically the process comprises
treating compound 289 with a polar, protic solvent, optionally in
the presence of an acid catalyst as described above, to form a
first intermediate; treating the first intermediate with Tr--Cl in
a polar, aprotic solvent, such as an amine, to form a second
intermediate; and treating the second intermediate with a sulfonic
acid halide, such as mesyl chloride or para toluene sulfonyl
chloride, in a polar aprotic solvent, such as an amine, to produce
compound 290. Still more typically, the process comprises treating
compound 289 with methanol and HCl, to form a first intermediate;
treating the first intermediate with Tr--Cl and triethylamine, to
form a second intermediate; and treating the second intermediate
with mesyl chloride and triethylamine, to produce compound 290.
[0598] In one embodiment compound 289 is treated with an acid
catalyst to produce compound 290. In another embodiment compound
289 is treated with an acid catalyst in a suitable solvent to
produce compound 290. In another embodiment compound 289 is treated
with a hydroxy activating reagent and an acid catalyst to produce
compound 290. In another embodiment compound 289 is treated with a
hydroxy activating reagent and an acid catalyst in a suitable
solvent to produce compound 290. In another embodiment compound 289
is treated with a hydroxy deprotecting reagent, a hydroxy
activating reagent and an acid catalyst to produce compound 290. In
another embodiment compound 289 is treated with a hydroxy
activating reagent and an acid catalyst in a suitable solvent to
produce compound 290.
[0599] An exemplary embodiment of this process is given as Process
M, Scheme 38, above.
[0600] Process V, Scheme 40.1
[0601] Compound 290 is used to prepare compound 291 by the
following process.
[0602] Aziridine 290 is treated to form compound 291. Typically,
aziridine 290 is opened by acid catalyzed ring opening and the
resulting amine is acylated.
[0603] R.sub.68 is independently H, R.sub.6b, R.sub.1 or R.sub.55,
as defined above. Typically R.sub.55 is --C(O)R.sub.5. Typically
one R.sub.68 is H or R.sub.6b and the other is W.sub.3.
[0604] R.sub.67 is U.sub.1 as described above. Typically R.sub.67
is W.sub.6--O--, W.sub.6--S--, or W.sub.6--N(H)--. More typically,
R.sub.67 is R.sub.5--O--, R.sub.5--S--, or R.sub.5--N(H)--.
[0605] Typically the process comprises treating compound 290 with
an acid catalyst and a compound of the formula W.sub.6--X.sub.1--H,
wherein X.sub.1 is as defined above to form an amine intermediate;
and treating the amine intermediate with a compound of the formula
W.sub.3--X.sub.1--.sub.3, or W.sub.3--X.sub.10, wherein X.sub.10 is
a leaving group, to form compound 291. The treatment with a
compound of the formula W.sub.6--X.sub.1--H and an acid catalyst
may be prior to or simultaneous with the treatment with a compound
of the formula W.sub.3--X.sub.1--W.sub.3, or W.sub.3--X.sub.10. The
acid catalyst is typically one of those described in Process N,
Scheme 39, above. More typically, the process comprises treating
compound 290 with a compound of the formula R.sub.5--OH,
R.sub.5--SH, or R.sub.5--NH.sub.2 and an acid catalyst; and
treating the intermediate with an alkanoic acid anhydride to form
compound 291.
[0606] One embodiment comprises treating compound 290 with a
compound of the formula W.sub.6--X.sub.1--H and an acid catalyst to
produce compound 291. Another embodiment comprises treating
compound 290 with a compound of the formula W.sub.6--X.sub.1--H and
an acid catalyst in a suitable solvent to produce compound 291.
Another embodiment comprises treating compound 290 with a compound
of the formula W.sub.6--X.sub.1--H, an acid catalyst and a compound
of the formula W.sub.3--X.sub.1--W.sub.3 or W.sub.3--X.sub.10 to
produce compound 291. Another embodiment comprises treating
compound 290 with a compound of the formula W.sub.6--X.sub.1--H, an
acid catalyst and a compound of the formula
W.sub.3--X.sub.1--W.sub.3 or W.sub.3--X.sub.10 in a suitable
solvent to produce compound 291.
[0607] Exemplary embodiments of this process are given as Process
N, Scheme 39, above.
[0608] Process W, Scheme 40.1
[0609] Compound 291 is used to prepare compound 292 by the
following process.
[0610] Compound 291 is treated to form compound 292. Typically
R.sub.65 is converted to form G.sub.1. U.sub.1 is an embodiment of
R.sub.67 and T.sub.1 is an embodiment of --N(R.sub.68).sub.2
prepared in Process V, Scheme 40.1, above.
[0611] In one embodiment, R.sub.65 is deprotected, alkylated,
guanidinylated, oxidized or reduced to form G.sub.1. Any number of
such treatments can be performed in any order or simultaneously. By
way of example and not limitation, when R.sub.65 is azido,
embodiments of this process include Processes O, OQ, OQR, and OP.
Typical alkylating agents are those common in the art including, by
way of example and not limitation, an alkyl halide such as methyl
iodide, methyl bromide, ethyl iodide, ethyl bromide, n-propyl
iodide, n-propyl bromide, i-propyl iodide, i-propyl bromide; and an
olefin oxide such as ethylene oxide or propylene oxide. A base
catalyst as described herein maybe optionally employed in the
alkylation step.
[0612] One embodiment comprises treating compound 291 wherein
R.sub.65 is azido with a reducing agent to produce compound 292.
Another embodiment comprises treating compound 291 wherein R.sub.65
is azido with a reducing agent to produce compound 292 in a
suitable solvent. Another embodiment comprises treating compound
291 wherein R.sub.65 is amino with an alkylating agent to produce
compound 292. Another embodiment comprises treating compound 291
wherein R.sub.65 is amino with an alkylating agent to produce
compound 292 in a suitable solvent. Another embodiment comprises
treating compound 291 wherein R.sub.65 is azido with a reducing
agent and an alkylating agent to produce compound 292. Another
embodiment comprises treating compound 291 wherein R.sub.65 is
azido with a reducing agent and an alkylating agent to produce
compound 292 in a suitable solvent. Another embodiment comprises
treating compound 291 wherein R.sub.65 is amino with an alkylating
agent and a base catalyst to produce compound 292. Another
embodiment comprises treating compound 291 wherein R.sub.65 is
amino with an alkylating agent and a base catalyst to produce
compound 292 in a suitable solvent. Another embodiment comprises
treating compound 291 wherein R.sub.65 is azido with a reducing
agent, an alkylating agent and a base catalyst to produce compound
292. Another embodiment comprises treating compound 291 wherein
R.sub.65 is azido with a reducing agent, an alkylating agent and a
base catalyst to produce compound 292 in a suitable solvent.
[0613] Exemplary embodiments of this process are given as Process
O, Scheme 39, above.
[0614] Exemplary embodiments of this process are given as Examples
68 and 69 below.
50TABLE 25 Exemplary Compounds of Formula R.sub.5--OH (CAS No.) C4
Fluoro Alcohols (R*,R*)-(.+-.)-3-fluoro-2-Butanol (139755-61-6)
1-fluoro-2-Butanol (124536-12-5) (R)-3-fluoro-1-Butanol
(120406-57-7) 3-fluoro-1-Butanol (19808-95-8) 4-fluoro-2-Butanol
(18804-31-4) (R*,S*)-3-fluoro-2-Butanol (6228-94-0)
(R*,R*)-3-fluoro-2-Butanol (6133-82-0) 2-fluoro-1-Butanol
(4459-24-9) 2-fluoro-2-methyl-1-Propanol (3109-99-7)
3-fluoro-2-Butanol (1813-13-4) 4-fluoro-1-Butanol (372-93-0)
1-fluoro-2-methyl-2-Propanol (353-80-0) C5 Fluoro Alcohols
2-fluoro-1-Pentanol (123650-81-7) (R)-2-fluoro-3-methyl-1-Butanol
(113943-11-6) (S)-2-fluoro-3-methyl-1-Butanol (113942-98-6)
4-fluoro-3-methyl-1-Butanol (104715-25-5) 1-fluoro-3-Pentanol
(30390-84-2) 4-fluoro-2-Pentanol (19808-94-7) 5-fluoro-2-Pentanol
(18804-35-8) 3-fluoro-2-methyl-2-Butanol (7284-96-0)
2-fluoro-2-methyl-1-Butanol (4456-02-4) 3-fluoro-3-methyl-2-Butanol
(1998-77-2) 5-fluoro-1-Pentanol (592-80-3) C6 Fluoro Alcohols
(R-(R*,S*))-2-fluoro-3-meth- yl-1-Pentanol (168749-88-0)
1-fluoro-2,3-dimethyl-2-Butanol (161082-90-2)
2-fluoro-2,3-dimethyl-1-Butanol (161082-89-9)
(R)-2-fluoro-4-methyl-1-Pentanol (157988-30-2)
(S-(R*,R*))-2-fluoro-3-methyl-1-Pentanol (151717-18-9)
(R*,S*)-2-fluoro-3-methyl-1-Pentanol (151657-14-6)
(S)-2-fluoro-3,3-dimethyl-1-Butanol (141022-94-8)
(M)-2-fluoro-2-methyl-1-Pentanol (137505-57-8)
(S)-2-fluoro-1-Hexanol (127608-47-3) 3-fluoro-3-methyl-1-Pentanol
(112754-22-0) 3-fluoro-2-methyl-2-Pentanol (69429-54-5)
2-fluoro-2-methyl-3-Pentanol (69429-53-4) 1-fluoro-3-Hexanol
(30390-85-3) 5-fluoro-2-methyl-2-Pentanol (21871-78-3)
5-fluoro-3-Hexanol (19808-92-5) 4-fluoro-3-methyl-2-Pentanol
(19808-90-3) 4-fluoro-4-methyl-2-Pentanol (19031-69-7)
1-fluoro-3,3-dimethyl-2-Butanol (4604-66-4)
2-fluoro-2-methyl-1-Pentanol (4456-03-5) 2-fluoro-4-methyl-1-Pent-
anol (4455-95-2) 2-fluoro-1-Hexanol (1786-48-7)
3-fluoro-2,3-dimethyl-2-Butanol (661-63-2) 6-fluoro-1-Hexanol
(373-32-0) C7 Fluoro Alcohols 5-fluoro-5-methyl-1-Hexanol
(168268-63-1) (R)-1-fluoro-2-methyl-2-Hexanol (153683-63-7)
(S)-3-fluoro-1-Heptanol (141716-56-5) (S)-2-fluoro-2-methyl-1-H-
exanol (132354-09-7) (R)-3-fluoro-1-Heptanol (120406-54-4)
(S)-2-fluoro-1-Heptanol (110500-31-7) 1-fluoro-3-Heptanol
(30390-86-4) 7-fluoro-2-Heptanol (18804-38-1)
2-ethyl-2-(fluoromethyl)-1-Butanol (14800-35-2)
2-(fluoromethyl)-2-methyl-1-Pentanol (13674-80-1)
2-fluoro-5-methyl-1-Hexanol (4455-97-4) 2-fluoro-1-Heptanol
(1786-49-8) 7-fluoro-1-Heptanol (408-16-2) C8 Fluoro Alcohols
(M)-2-fluoro-2-methyl-1-Heptanol (137505-55-6)
6-fluoro-6-methyl-1-Heptanol (135124-57-1) 1-fluoro-2-Octanol
(127296-11-1) (R)-2-fluoro-1-Octanol (118205-91-7)
(.+-.)-2-fluoro-2-methyl-1-Heptanol (117169-40-1)
(S)-2-fluoro-1-Octanol (110500-32-8) (S)-1-fluoro-2-Octanol
(110270-44-5) (R)-1-fluoro-2-Octanol (110270-42-3)
(.+-.)-1-fluoro-2-Octanol (110229-70-4) 2-fluoro-4-methyl-3-Hepta-
nol (87777-41-1) 2-fluoro-6-methyl-1-Heptanol (4455-99-6)
2-fluoro-1-Octanol (4455-93-0) 8-fluoro-1-Octanol (408-27-5) C9
Fluoro Alcohols 6-fluoro-2,6-dimethyl-2-Heptanol (160981-64-6)
(S)-3-fluoro-1-Nonanol (160706-24-1) (R-(R*,R*))-3-fluoro-2-Nonanol
(137909-46-7) (R-(R*,S*))-3-fluoro-2-Nonanol (137909-45-6)
3-fluoro-2-Nonanol (137639-20-4) (S-(R*,R*))-3-fluoro-2-Nonanol
(137639-19-1) (S-(R*,S*))-3-fluoro-2-Nonanol (137639-18-0)
(.+-.)-3-fluoro-1-Nonanol (134056-76-1) 2-fluoro-1-Nonanol
(123650-79-3) 2-fluoro-2-methyl-1-Octanol (120400-89-7)
(R)-2-fluoro-1-Nonanol (118243-18-8) (S)-1-fluoro-2-Nonanol
(111423-41-7) (S)-2-fluoro-1-Nonanol (110500-33-9)
1-fluoro-3-Nonanol (30390-87-5) 2-fluoro-2,6-dimethyl-3-Heptanol
(684-74-2) 9-fluoro-1-Nonanol (463-24-1) C10 Fluoro Alcohols
4-fluoro-1-Decanol (167686-45-5) (P)-10-fluoro-3-Decanol
(145438-91-1) (R-(R*,R*))-3-fluoro-5-meth- yl-1-Nonanol
(144088-79-9) (P)-10-fluoro-2-Decanol (139750-57-5)
1-fluoro-2-Decanol (130876-22-1) (S)-2-fluoro-1-Decanol
(127608-48-4) (R)-1-fluoro-2-Decanol (119105-16-7)
(S)-1-fluoro-2-Decanol (119105-15-6) 2-fluoro-1-Decanol
(110500-35-1) 1-fluoro-5-Decanol (106533-31-7)
4-fluoro-2,2,5,5-tetramethyl-3-Hexanol (24212-87-1)
10-fluoro-1-Decanol (334-64-5) C11 Fluoro Alcohols
10-fluoro-2-methyl-1-Decanol (139750-53-1) 2-fluoro-1-Undecanol
(110500-34-0) 8-fluoro-5,8-dimethyl-5-Nonanol (110318-90-6)
11-fluoro-2-Undecanol (101803-63-8) 11-fluoro-1-Undecanol
(463-36-5) C12 Fluoro Alcohols 11-fluoro-2-methyl-1-Undec- anol
(139750-52-0) 1-fluoro-2-Dodecanol (132547-33-2)
(R*,S*)-7-fluoro-6-Dodecanol (130888-52-7)
(R*,R*)-7-fluoro-6-Dodecanol (130876-18-5) (S)-2-fluoro-1-Dodecanol
(127608-49-5) 12-fluoro-2-pentyl--Heptan- ol (120400-91-1)
(R*,S*)-(.+-.)-7-fluoro-6-Dodecanol (119174-39-9)
(R*,R*)-(.+-.)-7-fluoro-6-Dodecanol (119174-38-8)
2-fluoro-1-Dodecanol (110500-36-2) 11-fluoro-2-methyl-2-Undecanol
(101803-67-2) 1-fluoro-1-Dodecanol (100278-87-3)
12-fluoro-1-Dodecanol (353-31-1) C4 Nitro Alcohols
(R)-4-nitro-2-Butanol (129520-34-9) (S)-4-nitro-2-Butanol
(120293-74-5) 4-nitro-1-Butanol radical ion(1-) (83051-13-2)
(R*,S*)-3-nitro-2-Butanol (82978-02-7) (R*,R*)-3-nitro-2-Butan- ol
(82978-01-6) 4-nitro-1-Butanol (75694-90-5)
(.+-.)-4-nitro-2-Butanol (72959-86-5) 4-nitro-2-Butanol
(55265-82-2), 1-aci-nitro-2-Butanol (22916-75-2)
3-aci-nitro2-Butanol (22916-74-1) 2-methyl-3-nitro-1-Propanol
(21527-52-6) 3-nitro-2-Butanol (6270-16-2)
2-methyl-1-nitro-2-Propanol (5447-98-3) 2-aci-nitro-1-Butanol
(4167-97-9) 1-nitro-2-Butanol (3156-74-9) 2-nitro-1-Butanol
(609-31-4) 2-methyl-2-nitro-1-Propanol (76-39-1) C5 Nitro Alcohols
(R)-3-methyl-3-nitro-2-Butano- l (154278-27-0)
3-methyl-1-nitro-1-Butanol (153977-20-9) (.+-.)-1-nitro-3-Pentanol
(144179-64-6) (S)-1-nitro-3-Pentanol (144139-35-5)
(R)-1-nitro-3-Pentanol (144139-34-4) (R)-3-methyl-1-nitro-2-Butanol
(141434-98-2) (.+-.)-3-methyl-1-nitro-2-Butanol (141377-55-1)
(R*,R*)-3-nitro-2-Pentanol (138751-72-1) (R*,S*)-3-nitro-2-Pentan-
ol (138751-71-0) (R*,R*)-2-nitro-3-Pentanol (138668-26-5)
(R*,S*)-2-nitro-3-Pentanol (138668-19-6) 3-nitro-1-Pentanol
(135462-98-5) (R)-5-nitro-2-Pentanol (129520-35-0)
(S)-5-nitro-2-Pentanol (120293-75-6) 4-nitro-1-Pentanol
(116435-64-4) (.+-.)-3-methyl-3-nitro-2-Butanol (114613-30-8)
(S)-3-methyl-3-nitro-2-Butanol (109849-50-5)
3-methyl-4-nitro-2-Butanol (96597-30-7) (.+-.)-5-nitro-2-Pentanol
(78174-81-9) 2-methyl-2-nitro-1-Butanol (77392-55-3)
3-methyl-2-nitro-1-Butanol (77392-54-2) 3-methyl-4-nitro-1-Butano-
l (75694-89-2) 2-methyl-4-nitro-2-Butanol (72183-50-7)
3-methyl-3-nitro-1-Butanol (65102-50-3) 5-nitro-2-Pentanol
(54045-33-9) 2-methyl-3-aci-nitro-2-Butanol (22916-79-6)
2-methyl-1-aci-nitro-2-Butanol (22916-78-5)
2-methyl-3-nitro-2-Butanol (22916-77-4) 2-methyl-1-nitro-2-Butano-
l (22916-76-3) 5-nitro-1-Pentanol (21823-27-8)
2-methyl-3-nitro-1-Butanol (21527-53-7) 2-nitro-3-Pentanol
(20575-40-0) 3-methyl-3-nitro-2-Butanol (20575-38-6)
3-nitro-2-Pentanol (5447-99-4) 2-nitro-1-Pentanol (2899-90-3)
3-methyl-1-nitro-2-Butanol (2224-38-6) 1-nitro-2-Pentanol
(2224-37-5) C6 Nitro Alcohols (-)-4-methyl-1-nitro-2-Pent- anol
(158072-33-4) 3-(nitromethyl)-3-Pentanol (156544-56-8)
(R*,R*)-3-methyl-2-nitro-3-Pentanol (148319-17-9)
(R*,S*)-3-methyl-2-nitro-3-Pentanol (148319-16-8) 6-nitro-2-Hexanol
(146353-95-9) (.+-.)-6-nitro-3-Hexanol (144179-63-5)
(S)-6-nitro-3-Hexanol (144139-33-3) (R)-6-nitro-3-Hexanol
(144139-32-2) 3-nitro-2-Hexanol (127143-52-6) 5-nitro-2-Hexanol
(110364-37-9) 4-methyl-1-nitro-2-Pentanol (102014-44-8)
(R*,S*)-2-methyl-4-nitr- o-3-Pentanol (82945-29-7)
(R*,R*)-2-methyl-4-nitro-3-Pentanol (82945-20-8)
2-methyl-5-nitro-2-Pentanol (79928-61-3)
2,3-dimethyl-1-nitro-2-Butanol (68454-59-1)
2-methyl-3-nitro-2-Pentanol (59906-62-6) 3,3-dimethyl-1-nitro-2-B-
utanol (58054-88-9) 2,3-dimethyl-3-nitro-2-Butanol (51483-61-5)
2-methyl-1-nitro-2-Pentanol (49746-26-1)
3,3-dimethyl-2-nitro-1-Butanol (37477-66-0) 6-nitro-1-Hexanol
(31968-54-4) 2-methyl-3-nitro-1-Pentanol (21527-55-9)
2,3-dimethyl-3-nitro-1-Butanol (21527-54-8)
2-methyl-4-nitro-3-Pentanol (20570-70-1) 2-methyl-2-nitro-3-Penta-
nol (20570-67-6) 2-nitro-3-Hexanol (5448-00-0) 4-nitro-3-Hexanol
(5342-71-2) 4-methyl-4-nitro-1-Pentanol (5215-92-9)
1-nitro-2-Hexanol (2224-40-0) C7 Nitro Alcohols 1-nitro-4-Heptanol
(167696-66-4) (R)-1-nitro-2-Heptanol (146608-19-7)
7-nitro-1-Heptanol (133088-94-5) (R*,S*)-3-nitro-2-Heptanol
(127143-73-1) (R*,R*)-3-nitro-2-Heptanol (127143-72-0)
(R*,S*)-2-nitro-3-Heptan- ol (127143-71-9)
(R*,R*)-2-nitro-3-Heptanol (127143-70-8)
(R*,S*)-2-methyl-5-nitro-3-Hexanol (103077-95-8)
(R*,R*)-2-methyl-5-nitro-3-Hexanol (103077-87-8)
3-ethyl-4-nitro-1-Pentanol (92454-38-1) 3-ethyl-2-nitro-3-Pentano-
l (77922-54-4) 2-nitro-3-Heptanol (61097-77-6)
2-methyl-1-nitro-3-Hexanol (35469-17-1) 2-methyl-4-nitro-3-Hexano-
l (20570-71-2) 2-methyl-2-nitro-3-Hexanol (20570-69-8)
5-methyl-5-nitro-2-Hexanol (7251-87-8) 1-nitro-2-Heptanol
(6302-74-5) 3-nitro-4-Heptanol (5462-04-4) 4-nitro-3-Heptanol
(5342-70-1) C8 Nitro Alcohols (.+-.)-1-nitro-3-Octanol
(141956-93-6) 1-nitro-4-Octanol (167642-45-7) (S)-1-nitro-4-Octanol
(167642-18-4) 6-methyl-6-nitro-2-Heptanol (142991-77-3)
(R*,S*)-2-nitro-3-Octan- ol (135764-74-8) (R*,R*)-2-nitro-3-Octanol
(135764-73-7) 5-nitro-4-Octanol (132272-46-9)
(R*,R*)-3-nitro-4-Octanol (130711-79-4) (R*,S*)-3-nitro-4-Octanol
(130711-78-3) 4-ethyl-2-nitro-3-Hexanol (126939-74-0)
2-nitro-3-Octanol (126939-73-9) 1-nitro-3-Octanol (126495-48-5)
(R*,R*)-(.+-.)-3-nitro-4-Octanol (118869-22-0)
(R*,S*)-(.+-.)-3-nitro-4-Octanol (118869-21-9) 3-nitro-2-Octanol
(127143-53-7) (R*,S*)-2-methyl-5-nitro-3-Heptanol (103078-03-1)
(R*,R*)-2-methyl-5-nitro-3-Heptanol (103077-90-3) 8-nitro-1-Octanol
(101972-90-1) (.+-.)-2-nitro-1-Octanol (96039-95-1)
3,4-dimethyl-1-nitro-2-Hexanol (64592-02-5)
3-(nitromethyl)-4-Heptanol (35469-20-6) 2,5-dimethyl-1-nitro-3-He-
xanol (35469-19-3) 2-methyl-1-nitro-3-Heptanol (35469-18-2)
2,4,4-trimethyl-1-nitro-2-Pentanol (35223-67-7)
2,5-dimethyl-4-nitro-3-Hexanol (22482-65-1) 2-nitro-1-Octanol
(2882-67-9) 1-nitro-2-Octanol (2224-39-7) C9 Nitro Alcohols
4-nitro-3-Nonanol (160487-89-8) (R*,R*)-3-ethyl-2-nitro-3-Heptanol
(148319-18-0) 2,6-dimethyl-6-nitro-2-Heptanol (117030-50-9)
(R*,S*)-2-nitro-4-Nonanol (103077-93-6) (R*,R*)-2-nitro-4-Nonanol
(103077-85-6) 2-nitro-3-Nonanol (99706-65-7) 9-nitro-1-Nonanol
(81541-84-6) 2-methyl-1-nitro-3-Octanol (53711-06-1)
4-nitro-5-Nonanol (34566-13-7) 2-methyl-3-(nitromethyl)-3-Heptenol
(5582-88-7) 1-nitro-2-Nonanol (4013-87-0) C10 Nitro Alcohols
2-nitro-4-Decanol (141956-94-7) (R*,S*)-3-nitro-4-Decanol
(135764-76-0) (R*,R*)-3-nitro-4-Decanol (135764-75-9)
5,5-dimethyl-4-(2-nitroet- hyl)-1-Hexanol (133088-96-7)
(R*,R*)-(.+-.)-3-nitro-4-Decanol (118869-20-8)
(R*,S*)-(.+-.)-3-nitro-4-Decanol (118869-19-5) 5-nitro-2-Decanol
(112882-29-8) 3-nitro-4-Decanol (93297-82-6)
4,6,6-trimethyl-1-nitro-2-Heptanol (85996-72-1)
2-methyl-2-nitro-3-Nonanol (80379-17-5) 1-nitro-2-Decanol
(65299-35-6) 2,2,4,4-tetramethyl-3-(nitromethyl)-3-Pentanol
(58293-26-8) C11 Nitro Alcohols 11-nitro-5-Undecanol (167696-69-7)
(R*,R*)-2-nitro-3-Undecanol (144434-56-0)
(R*,S*)-2-nitro-3-Undecanol (144434-55-9) 2-nitro-3-Undecanol
(143464-92-0) 2,2-dimethyl-4-nitro-3-Nonanol (126939-76-2)
4,8-dimethyl-2-nitro-1-Nonanol (118304-30-6) 11-nitro-1-Undecanol
(81541-83-5) C12 Nitro Alcohols 2-methyl-2-nitro-3-Undecanol
(126939-75-1) 2-nitro-1-Dodecanol (62322-32-1) 1-nitro-2-Dodecanol
(62322-31-0) 2-nitro-3-Dodecanol (82981-40-6) 12-nitro-1-Dodecanol
(81541-78-8)
[0615]
51TABLE 26 Exemplary Compounds of Formula R.sub.5--OH (CAS
No./Aldrich No.) 3-BROMO-1-PROPANOL 627189 167169
1,3-DICHLORO-2-PROPANOL 96231 184489
3-CHLORO-2,2-DIMETHYL-1-PROPANOL 13401564 189316
2,2-BIS(CHLOROMETHYL)-1-PROPANOL 5355544 207691
1,3-DIFLUORO-2-PROPANOL 453134 176923 2-(METHYLTHIO)ETHANOL 5271385
226424 2-(DIBUTYLAMINO)ETHANOL 102818 168491
2-(DIISOPROPYLAMINO)ETHANOL 96800 168726 3-METHYL-3-BUTEN-1-OL
763326 129402 2-METHYL-3-BUTEN-2-OL 115184 136816
3-METHYL-2-BUTEN-1-OL 556821 162353 4-HEXEN-1-OL 928927 237604
5-HEXEN-1-OL 821410 230324 CIS-2-HEXEN-1-OL 928949 224707
TRANS-3-HEXEN-1-OL 928972 224715 TRANS-2-HEXEN-1-OL 928950 132667
(+/-)-6-METHYL-5-HEPTEN-2-OL 4630062 195871 DIHYDROMYRCENOL
18479588 196428 TRANS,TRANS-2,4-HEXADIEN-1-OL 17102646 183059
2,4-DIMETHYL-2,6-HEPTADIEN-1-OL 80192569 238767 GERANIOL 106241
163333 3-BUTYN-1-OL 927742 130850 3-PENTYN-1-OL 10229104 208698
ISETHIONIC ACID, SODIUM SALT 1562001 220078
(4-(2-HYDROXYETHYL)-1-PIPERAZINE- 16052065 163740 PROPANESULFONIC
ACID) HEPES, SODIUM SALT 75277393 233889
1-METHYLCYCLOPROPANEMETHANOL 2746147 236594
2-METHYLCYCLOPROPANEMETHANOL 6077721 233811 (+/-)-CHRYSANTHEMYL
ALCOHOL 18383590 194654 CYCLOBUTANEMETHANOL 4415821 187917
3-CYCLOPENTYL-1-PROPANOL 767055 187275 1-ETHYNYLCYCLOPENTANOL
17356193 130869 3-METHYLCYCLOHEXANOL 591231 139734
3,3,5,5-TETRAMETHYLCYCLOHEXANOL 2650400 190624
4-CYCLOHEXYL-1-BUTANOL 4441570 197408 DIHYDROCARVEOL 619012 218421
(1S,2R,5S)-(+)-MENTHOL 15356704 224464 (1S,2S,5R)-(+)-NEOMENTHOL
2216526 235180 (1S,2R,5R)-(+)-ISOMENTHOL 23283978 242195
(+/-)-3-CYCLOHEXENE-1-METHANOL 72581329 162167
(+)-P-MENTH-1-EN-9-OL 13835308 183741 (S)-(-)-PERILLYL ALCOHOL
536594 218391 TERPINEN-4-OL 562743 218383 ALPHA-TERPINEOL 98555
218375 (+/-)-TRANS-P-MENTH-6-ENE-2,8-DIOL 32226543 247774
CYCLOHEPTANEMETHANOL 4448753 138657 TETRAHYDROFURFURYL ALCOHOL
97994 185396 (S)-(+)-2-PYRROLIDINEMETHANOL 23356969 186511
1-METHYL-2-PYRROLIDINEETHANOL 67004642 139513
1-ETHYL-4-HYDROXYPIPERIDINE 3518830 224634 3-HYDROXYPIPERIDINE
HYDROCHLORIDE 64051792 174416 (+/-)-2-PIPERIDINEMETHANOL 3433372
155225 3-PIPERIDINEMETHANOL 4606659 155233
1-METHYL-2-PIPERIDINEMETHANOL 20845345 155241
1-METHYL-3-PIPERIDINEMETHANOL 7583531 146145 2-PIPERIDINEETHANOL
1484840 131520 4-HYDROXYPIPERIDINE 5382161 128775
4-METHYL-1-PIPERAZINEPROPANOL 5317339 238716 EXO-NORBORNEOL 497370
179590 ENDO-NORBORNEOL 497369 186457 5-NORBORNENE-2-METHANOL 95125
248533 (+/-)-3-METHYL-2-NORBORNANEME- THANOL 6968758 130575
((1S)-ENDO)-(-)-BORNEOL 464459 139114 (1R)-ENDO-(+)-FENCHYL ALCOHOL
2217029 196444 9-ETHYLBICYCLO(3.3.1)NONAN-9-OL 21951333 193895
(+/-)-ISOPINOCAMPHEOL 51152115 183229 (S)-CIS-VERBENOL 18881044
247065 (1R,2R,3R,5S)-(-)-ISOPINOCAMPHEOL 25465650 221902
(1R)-(-)-MYRTENOL 515004 188417 1-ADAMANTANOL 768956 130346
3,5-DIMETHYL-1-ADAMANTANOL 707379 231290 2-ADAMANTANOL 700572
153826 1-ADAMANTANEMETHANOL 770718 184209 1-ADAMANTANEETHANOL
6240115 188115 3-FURANMETHANOL 4412913 196398 FURFURYL ALCOHOL
98000 185930 2-(3-THIENYL)ETHANOL 13781674 228796
4-METHYL-5-IMIDAZOLEMETHANOL 38585625 227420 HYDROCHLORIDE
METRONIDAZOLE 443481 226742 4-(HYDROXYMETHYL)IMIDAZOLE 32673419
219908 HYDROCHLORIDE 4-METHYL-5-THIAZOLEETHANOL 137008 190675
2-(2-HYDROXYETHYL)PYRIDIN- E 103742 128643
2-HYDROXY-6-METHYLPYRIDINE 3279763 128740 4-PYRIDYLCARBINOL 586958
151629 3-PYRIDYLCARBINOL N-OXIDE 6968725 184446
1-BENZYL-4-HYDROXYPIPERIDINE 4727724 152986 1-(4-CHLOROPHENYL)-1-
80866791 188697 CYCLOPENTANEMETHANOL
(4S,5S)-(-)-2-METHYL-5-PHENYL-2- 53732415 187666
OXAZOLINE-4-METHANOL 6-(4-CHLOROPHENYL)-4,5-DIHYDRO-2-(2- 38958826
243728 HYDROXYBUTYL)-3(2H)-PYRIDAZINONE
N-(2-HYDROXYETHYL)PHTHALIMIDE 3891074 138339 2-NAPHTHALENEETHANOL
1485070 188107 1-NAPHTHALENEETHANOL 773999 183458 2-ISOPROPYLPHENOL
88697 129526 4-CHLORO-ALPHA,ALPHA- 5468973 130559 DIMETHYLPHENETHYL
ALCOHOL 4-FLUORO-ALPHA-METHYLBENZY- L 403418 132705 ALCOHOL
3-PHENYL-1-PROPANOL 122974 140856 3-(4-METHOXYPHENYL)-1-PROPANOL
5406188 142328 4-FLUOROPHENETHYL ALCOHOL 7589277 154172
4-METHOXYPHENETHYL ALCOHOL 702238 154180
TRANS-2-METHYL-3-PHENYL-2-PROPEN-1-OL 1504558 155888
2-ANILINOETHANOL 122985 156876 3-FLUOROBENZYL ALCOHOL 456473 162507
2-FLUOROBENZYL ALCOHOL 446515 162515 2-METHYL-1-PHENYL-2-PROPANOL
100867 170275 ALPHA-(CHLOROMETHYL)-2,4- 13692143 178403
DICHLOROBENZYL ALCOHOL 2-PHENYL-1-PROPANOL 1123859 179817
4-CHLOROPHENETHYL ALCOHOL 1875883 183423 4-BROMOPHENETHYL ALCOHOL
4654391 183431 4-NITROPHENETHYL ALCOHOL 100276 183466
2-NITROPHENETHYL ALCOHOL 15121843 183474 BETA-ETHYLPHENETHYL
ALCOHOL 2035941 183482 4-PHENYL-1-BUTANOL 3360416 184756
2-METHOXYPHENETHYL ALCOHOL 7417187 187925 3-METHOXYPHENETHYL
ALCOHOL 5020417 187933 3-PHENYL-1-BUTANOL 2722363 187976
2-METHYLPHENETHYL ALCOHOL 19819988 188123 3-METHYLPHENETHYL ALCOHOL
1875894 188131 4-METHYLPHENETHYL ALCOHOL 699025 188158
5-PHENYL-1-PENTANOL 10521912 188220 4-(4-METHOXYPHENYL)-1-BUTANOL
22135508 188239 4-(4-NITROPHENYL)-1-BUTANOL 79524202 188751
3,3-DIPHENYL-1-PROPANOL 20017678 188972 1-PHENYL-2-PROPANOL
14898874 189235 (+/-)-ALPHA-ETHYLPHENETHYL ALCOHOL 701702 190136
1,1-DIPHENYL-2-PROPANOL 29338496 190756 3-CHLOROPHENETHYL ALCOHOL
5182445 193518 2-CHLOROPHENETHYL ALCOHOL 19819955 193844
(+/-)-1-PHENYL-2-PENTANOL 705737 195286 2,2-DIPHENYLETHANOL 1883325
196568 4-ETHOXY-3-METHOXYPHENETHYL 77891293 197599 ALCOHOL
3,4-DIMETHOXYPHENETHYL ALCOHOL 7417212 197653
3-(3,4-DIMETHOXYPHENYL)-1-PROPANOL 3929473 197688
2-(4-BROMOPHENOXY)ETHANOL 34743889 198765 2-FLUOROPHENETHYL ALCOHOL
50919067 228788 3-(TRIFLUOROMETHYL)PHENETHYL 455016 230359 ALCOHOL
2-(PHENYLTHIO)ETHANOL 699127 232777 1-(2-METHOXYPHENYL)-2-PROPANOL
15541261 233773
[0616]
52TABLE 27 Exemplary Method Embodiments of Processes A-R A; B; C;
D; I; J; K; L; M; N; O; P; Q; R; E; F; G; H; AB; BC; CD; DI; IJ;
JK; KL; LM; MN; NO; OP; OQ; QR; EF; FG; GH; HI; ABC; BCD; CDI; DIJ;
IJK; JKL; KLM; LMN; MNO; NOP; NOQ; OQR; EFG; FGH; GHI; HIJ; ABDC;
BCDI; CDIJ; DIJK; IJKL; JKLM; KLMN; LMNO; MNOP; MNOQ; NOQR; EFHG;
FGHI; GHIJ; HIJK; ABCDI; BCDIJ; CDIJK; DIJKL; IJKLM; JKLMN; KLMNO;
LMNOP; LMNOQ; MNOQR; EFGHI; FGHIJ; GHIJK; HIJKL; ABCDIJ; BCDIJK;
CDIJKL; DIJKLM; IJKLMN; JKLMNO; KLMNOP; KLMNOQ; LMNOQR; EFGHIJ;
FGHIJK; GHIJKL; HIJKLM; ABCDIJK; BCDIJKL; CDIJKLM; DIJKLMN;
IJKLMNO; JKLMNOP; JKLMNOQ; KLMNOQR; EFGHIJK; FGHIJKL; GHIJKLM;
HIJKLMN; ABCDIJKL; BCDIJKLM; CDIJKLMN; DIJKLMNO; IJKLMNOP;
IJKLMNOQ; JKLMNOQR; EFGHIJKL; FGHIJKLM; GHIJKLMN; HIJKLMNO;
ABCDIJKLM; BCDIJKLMN; CDIJKLMNO; DIJKLMNOP; DIJKLMNOQ; IJKLMNOQR;
EFGHIJKLM; FGHIJKLMN; GHIJKLMNO; HIJKLMNOP; HIJKLMNOQ; ABCDIJKLMN;
BCDIJKLMNO; CDIJKLMNOP; CDIJKLMNOQ; DIJKLMNOQR; EFGHIJKLMN;
FGHIJKLMNO; GHIJKLMNOP; GHIJKLMNOQ; HIJKLMNOQR; ABCDIJKLMNO;
BCDIJKLMNOP; BCDIJKLMNOQ; CDIJKLMNOQR; EFGHIJKLMNO; FGHIJKLMNOP;
FGHIJKLMNOQ; GHIJKLMNOQR; ABCDIJKLMNOP; ABCDIJKLMNOQ; BCDIJKLMNOQR;
EFGHIJKLMNOP; EFGHIJKLMNOQ; FGHIJKLMNOQR; ABCDIJKLMNOQR;
EFGHIJKLMNOQR; S; T; U; V; W; ST; TU; UV; VW; STU; TUV; UVW; STUV;
TUVW; STUVW.
[0617] 942943
[0618] Scheme 41
[0619] The amine 300 (an intermediate in Example 52, optionally
purified prior to use) is treated with Boc anhydride to give the
mono Boc protected amine 301. Such a transformation is found in
Greene, T. W. "Protective Groups in Organic Synthesis" 2nd Ed. Uohn
Wiley & Sons, New York, 1991) pages 327-328.
[0620] Methyl ester 301 is reduced to the corresponding primary
allylic alcohol 302 with DIBAL at low temperature. Such a
conversion is described by Garner, P. and Park, J. M., "J. Org.
Chem.", 52:2361 (1987).
[0621] The primary alcohol 302 is protected as its p-methoxy benzyl
ether derivative 303 by treatment with 4-methoxybenzyl chloride
under basic conditions. Such a conversion is described in Horita,
K. et. al., "Tetrahedron", 42:3021 (1986).
[0622] The MOM and Boc protecting groups of 303 are removed by
treatment with TFA/CH.sub.2Cl.sub.2 to give the amino alcohol 304.
Such transformations are found in Greene, T. W "Protective Groups
in Organic Synthesis", 2nd. Ed. cohn Wiley & Sons, New York,
1991).
[0623] Conversion of 304 into the corresponding trityl protected
aziridine 305 is accomplished in a one pot reaction two step
sequence: 1) TrCl/TEA, 2) MsCl/TEA. Such a transformation has been
previously described.
[0624] Aziridine 305 is then converted the corresponding Boc
protected derivative 307 by first removal of the trityl group with
HCl/acetone to give 306. Such a transformation is described in
Hanson, R. W. and Law, H. D. "J. Chem. Soc.", 7285 (1965).
Aziridine 306 is then converted into the corresponding Boc
derivative 307 by treatment with Boc anhydride. Such a conversion
is described in Fitremann, J., et. al. "Tetrahedron Lett.", 35:1201
(1994).
[0625] The allylic aziridine 307 is opened selectively at the
allylic position with a carbon nucleophile delivered via a higher
order organocuprate in the presence of BF.sub.3.Et.sub.2O at low
temperature to give the opened adduct 308. Such an opening is
described in Hudlicky, T., et. al. "Synlett." 1125 (1995).
[0626] The Boc protected amine 308 is converted into the N-acetyl
derivative 309 in a two step sequence: 1) TFA/CH.sub.2Cl.sub.2; 2)
Ac.sub.2O/pyridine. Such transformations can be found in Greene, T.
W., "Protective Groups in Organic Synthesis", 2nd. Ed. (John Wiley
& Sons, New York, 1991) pages 327-328 and pages 351-352.
[0627] Benzyl ether 309 is deprotected with DDQ at room temperature
to give the primary allylic alcohol 310. Such a transformation is
found in Horita, K., et. al. "Tetrahedron" 42:3021 (1986).
[0628] Alcohol 310 is oxidized and converted in a one pot reaction
into the methyl ester 311 via a Corey oxidation using
MnO2/AcOH/MeOH/NaCN. Such a transformation can be found in Corey,
E. J., et. al. "J. Am. Chem. Soc.", 90:5616 (1968).
[0629] Azido ester 311 is converted into amino acid 312 in a two
step sequence 1) Ph.sub.3P/H.sub.2O/THF; 2) KOH/THF. Such a
conversion has been described previously. 944
[0630] Scheme 42
[0631] The known fluoro acetate 320 (Sutherland, J. K., et.al. "J.
Chem. Soc. Chem. Commun." 464 (1993) is deprotected to the free
alcohol and then converted into the corresponding mesylate 321 in
two steps: 1) NaOMe; 2) MsCl/TEA. Such transformations are
described in Greene, T. W., "Protective Groups in Organic
Synthesis", 2nd. Ed. (John Wiley & Sons, New York, 1991).
[0632] Deprotection of 321 under acidic conditions gives diol 322
which is cyclized to the epoxy alcohol 323 under basic conditions.
Such a conversion has been previously described.
[0633] Conversion of 323 to the N-trityl protected aziridine 324 is
accomplished with the following sequence: 1) MOMCl/TEA; 2)
NaN.sub.3/NH.sub.4Cl; 3) MsCl/TEA; 4) PPh.sub.3/TEA/H.sub.2O; 5)
NaN.sub.3/NH.sub.4Cl; 6) HCl/MeOH; 7) i)TrCl, ii) MsCl/TEA. Such a
sequence has been previously described.
[0634] The aziridine 324 is then opened with the appropriate
alcohol under Lewis acid conditions and then treated with
Ac.sub.2O/pyridine to give the acetylated product 325. Such a
transformation has been previously described.
[0635] The ester 325 is converted to the corresponding amino acid
326 in a two step sequence: 1) PPh.sub.3/H.sub.2O/THF; 2) KOH/THF.
Such a transformation has been previously described.
[0636] U.S. Pat. No. 5,214,165, and in particular, the
"Descriptions and Examples" at column 9, line 61 to column 18, line
26, describes the preparation of 6.alpha. and 6.beta. fluoro
Shikimic acid. These fluoro compounds are suitable starting
materials for methods of making compounds of the invention that use
Shikimic acid. 945946
[0637] Scheme 43
[0638] Unsaturated ester 330 (obtainable by standard actetylation
methods from the acetonide alcohol described in Campbell, M. M.,
et. al., "Synthesis", 179 (1993)) is reacted with the appropriate
organocuprate where R' is the ligand to be transferred from the
organocuprate. The resultant intermediate is then trapped with
PhSeCl to give 331 which is then treated with 30% H.sub.2O.sub.2 to
give the .alpha.,.beta.-unsaturat- ed ester 332. Such a
transformation can be found in Hayashi, Y., et. al, "J. Org. Chem."
47:3428 (1982).
[0639] Acetate 332 is then converted into the corresponding
mesylate 333 in a two step sequence: 1) NaOMe/MeOH; 2) MsCl/TEA.
Such a transformation has been previously described and can also be
found in Greene, T. W., "Protective Groups in Organic Synthesis",
2nd. Ed. (ohn Wiley & Sons, New York, 1991).
[0640] The acetonide 333 is then converted into the epoxy alcohol
334 in a two step sequence: 1) p-TsOH/MeOH/.DELTA.; 2) DBU/THF.
Such a transformation has been previously described.
[0641] Conversion of epoxide 334 into N-trityl aziridine 335 is
accomplished by the following sequence: 1) MOMCl/TEA; 2)
NaN.sub.3/NH.sub.4Cl; 3) MsCl/TEA; 4) PPh.sub.3/TEA/H.sub.2O; 5)
NaN.sub.3/NH.sub.4Cl; 6) HCl/MeOH; 7) i)TrCl, ii) MsCl/TEA. Such a
sequence has been previously described.
[0642] The aziridine 335 is then opened with the appropriate
alcohol under Lewis acid conditions and then treated with
Ac.sub.2O/pyridine to give the acetylated product 336. Such a
transformation has been previously described.
[0643] The azido ester 336 is converted to the corresponding amino
acid 337 in a two step sequence: 1) PPh.sub.3/H.sub.2O/THF; 2)
KOH/THF. Such a transformation has been previously described.
[0644] Schemes 44 and 45 are referred to in the examples. 947
948
[0645] Modification of the exemplary starting materials to form
different E.sub.1 groups has been described in detail and will not
be elaborated here. See Fleet, G. W. J. et al.; "J. Chem. Soc.
Perkin Trans. I", 905-908 (1984), Fleet, G. W. J. et al.; "J. Chem.
Soc., Chem. Commun.", 849-850 (1983), Yee, Ying K. et al.; "J. Med.
Chem.", 33:2437-2451 (1990); Olson, R. E. et al.; "Bioorganic &
Medicinal Chemistry Letters", 4(18):2229-2234 (1994); Santella, J.
B. III et al.; "Bioorganic & Medicinal Chemistry Letters",
4(18):2235-2240 (1994); Judd, D. B. et al.; "J. Med. Chem.",
37:3108-3120 (1994) and Lombaert, S. De et al.; "Bioorganic &
Medicinal Chemistry Letters", 5(2):151-154 (1994).
[0646] The E.sub.1 sulfur analogs of the carboxylic acid compounds
of the invention are prepared by any of the standard techniques. By
way of example and not limitation, the carboxylic acids are reduced
to the alcohols by standard methods. The alcohols are converted to
halides or sulfonic acid esters by standard methods and the
resulting compounds are reacted with NaSH to produce the sulfide
product. Such reactions are described in Patai, "The Chemistry of
the Thiol Group" (John Wiley, New York, 1974), pt. 2, and in
particular pages 721-735.
[0647] Modifications of each of the above schemes leads to various
analogs of the specific exemplary materials produced above. The
above cited citations describing suitable methods of organic
synthesis are applicable to such modifications.
[0648] In each of the above exemplary schemes it may be
advantageous to separate reaction products from one another and/or
from starting materials. The desired products of each step or
series of steps is separated and/or purified (hereinafter
separated) to the desired degree of homogeneity by the techniques
common in the art. Typically such separations involve multiphase
extraction, crystallization from a solvent or solvent mixture,
distillation, sublimation, or chromatography. Chromatography can
involve any number of methods including, for example, size
exclusion or ion exchange chromatography, high, medium, or low
pressure liquid chromatography, small scale and preparative thin or
thick layer chromatography, as well as techniques of small scale
thin layer and flash chromatography.
[0649] Another class of separation methods involves treatment of a
mixture with a reagent selected to bind to or render otherwise
separable a desired product, unreacted starting material, reaction
by product, or the like. Such reagents include adsorbents or
absorbents such as activated carbon, molecular sieves, ion exchange
media, or the like. Alternatively, the reagents can be acids in the
case of a basic material, bases in the case of an acidic material,
binding reagents such as antibodies, binding proteins, selective
chelators such as crown ethers, liquid/liquid ion extraction
reagents (LIX), or the like.
[0650] Selection of appropriate methods of separation depends on
the nature of the materials involved. For example, boiling point,
and molecular weight in distillation and sublimation, presence or
absence of polar functional groups in chromatography, stability of
materials in acidic and basic media in multiphase extraction, and
the like. One skilled in the art will apply techniques most likely
to achieve the desired separation.
[0651] All literature and patent citations above are hereby
expressly incorporated by reference at the locations of their
citation. Specifically cited sections or pages of the above cited
works are incorporated by reference with specificity. The invention
has been described in detail sufficient to allow one of ordinary
skill in the art to make and use the subject matter of the
following claims. It is apparent that certain modifications of the
methods and compositions of the following claims can be made within
the scope and spirit of the invention.
EXAMPLES
General
[0652] The following Examples refer to the Schemes.
[0653] Some Examples have been performed multiple times. In
repeated Examples, reaction conditions such as time, temperature,
concentration and the like, and yields were within normal
experimental ranges. In repeated Examples where significant
modifications were made, these have been noted where the results
varied significantly from those described. In Examples where
different starting materials were used, these are noted. When the
repeated Examples refer to a "corresponding" analog of a compound,
such as a "corresponding ethyl ester", this intends that an
otherwise present group, in this case typically a methyl ester, is
taken to be the same group modified as indicated. For example, the
"corresponding ethyl ester of compound 1" is 949
Example 1
[0654] Epoxy alcohol 1: Prepared from shikimic acid by the
procedure of McGowan and Berchtold, "J. Org. Chem.", 46:2381
(1981).
Example 2
[0655] Epoxy allyl ether 2: To a solution of epoxy alcohol 1 (2.37
g, 14.08 mmol) in dry benzene (50 mL) was added thallium(I)ethoxide
(1.01 mL) in one portion. After 2 hr the reaction was concentrated
in vacuo and the residue dissolved in acetonitrile. Allyl iodide
(3.0 mL) was added and the mixture was stirred in the dark for 16
h. The solids were filtered thru a celite pad and washed with
chloroform. Concentration in vacuo followed by flash chromatography
(40% EtOAc in hexane) gave 1.24 g (42%) of 2 as a pale viscous oil.
.sup.1H NMR (300 MHz, CDCl.sub.3): .delta. 6.75 (1H, m); 6.10-5.90
(1H, m, --CH.dbd., allyl); 5.40-5.15 (2H, m, .dbd.CH.sub.2, allyl);
4.47-4.43 (1H, m); 4.30-4.15 (2H, m, --CH.sub.2--, allyl); 3.73
(3H, s); 3.55-3.50 (1H, m); 3.45-3.40 (1H, m); 3.15-3.00 (1H, dm,
J=19.5 Hz), 2.50-2.35 (1H, dm, J=2.7, 19.5 Hz).
Example 3
[0656] Azido alcohol 3: Epoxide 2 (1.17 g, 5.57 mmol), sodium azide
(1.82 g) and ammonium chloride (658 mg) were refluxed in
MeOH/H.sub.2O (8:1) (35 mL) for 18 h. The reaction was then
concentrated in vacuo and the residue partitioned between ethyl
ether and water. The organic layer was washed with brine and dried.
Concentration in vacuo gave 3 as a pale oil 1.3 g (92%) which was
used without further purification. .sup.1H NMR (300 MHz,
CDCl.sub.3): .delta. 6.95-6.85 (1H, m); 6.00-5.85 (1H, m,
--CH.dbd., allyl); 5.35-5.25 (2H, m, .dbd.CH.sub.2, allyl);
4.25-4.10 (2H, m, --CH.sub.2--, allyl); 4.12 (1H, bt, J=4.2 Hz);
3.95-3.75 (2H, m); 3.77 (3H, s); 2.85 (1H, dd, J=5.3, 18.3 Hz);
2.71 (1H, bs); 2.26 (1H, dd, J=7.2, 18.3 Hz).
Example 4
[0657] Aziridine 4: To a solution of alcohol 3 (637 mg, 2.52 mmol)
in CH.sub.2Cl.sub.2 (20 mL) cooled to 0.degree. C. was added DMAP
(few crystals) and triethyl amine (442 .mu.L). MsCl (287 .mu.L) was
then added and the reaction stirred for 2 h at 0.degree. C.
Volatiles were removed and the residue partitioned between ethyl
ether and water. The organic layer was washed with saturated
bicarbonate, brine and then dried. Concentration in vacuo gave 881
mg of crude mesylate. .sup.1H NMR (300 MHz, CDCl.sub.3): .delta.
6.87-6.84 (1H, s); 6.00-5.85 (1H, m, --CH.dbd., allyl); 5.40-5.25
(2H, m, .dbd.CH.sub.2, allyl); 4.72 (1H, dd, J=3.9, 8.5 Hz); 4.32
(1H, bt, J=3.9 Hz); 4.30-4.15 (2H, m, --CH.sub.2--, allyl); 3.77
(3H, s); 3.14 (3H, s); 2.95 (1H, dd, J=5.7, 18.6 Hz); 2.38 (1H, dd,
J=6.7, 18.6 Hz).
[0658] The crude mesylate was dissolved in dry THF (20 mL) and
treated with Ph.sub.3P (727 mg). After stirring for 3 h at room
temperature, water (15 mL) and solid NaHCO.sub.3 (1.35 g) was added
and the mixture stirred overnight at room temperature. The reaction
was then concentrated in vacuo and the residue partitioned between
EtOAc, saturated bicarbonate and brine. The organic layer was
separated and dried over MgSO.sub.4. Concentration in vacuo and
flash chromatography of the residue gave the aziridine 4 170 mg
(33%) as a pale yellow oil. .sup.1H NMR (300 MHz, CDCl.sub.3):
.delta. 6.82-6.80 (1H, m); 6.04-5.85 (1H, m, --CH.dbd., allyl);
5.35-5.20 (2H, m, .dbd.CH.sub.2, allyl); 4.39 (1H, bd, J=2.4 Hz);
4.20-4.05 (2H, m, --CH.sub.2-allyl); 3.73 (3H, s); 2.90-2.80 (1H,
bd, J=18.9 Hz); 2.65-2.40 (2H, m).
Example 5
[0659] N-acetyl aziridine 5: Aziridine 4 (170 mg, 0.814 mmol) was
dissolved in CH.sub.2Cl.sub.2 (2 mL) and pyridine (4 mL) and cooled
to 0.degree. C. Acetyl chloride (87 .mu.L) was then added and the
reaction stirred at 0.degree. C. for 1 h. Volatiles were removed in
vacuo and the residue partitioned between ethyl ether, saturated
bicarbonate and brine. The organic layer was separated and dried
over MgSO.sub.4. Concentration gave crude 5 196 mg (96%) which was
used without further purification. .sup.1H NMR (300 MHz,
CDCl.sub.3): .delta. 6.88-6.86 (1H, m); 6.00-5.85 (1H, m,
--CH.dbd., allyl); 5.40-5.20 (2H, m, .dbd.CH.sub.2, allyl);
4.45-4.40 (1H, m); 4.16 (2H, d, J=6.0 Hz, --CH.sub.2--, allyl);
3.76 (3H, s); 3.00-2.95 (2H, m); 2.65 (1H, bd, J=18.5 Hz); 2.14
(3H, s).
Example 6
[0660] Azido allyl ether 6: Aziridine 5 (219 mg, 0.873 mmol),
sodium azide (426 mg) and ammonium chloride (444 mg) in dry DMF (7
mL) was heated at 65.degree. C. under argon overnight. The reaction
was poured into saturated bicarbonate/brine and extracted with
ethyl ether several times. The combined ether layers were washed
with brine and dried. Concentration followed by flash
chromatography (EtOAc only) gave the azido amine 77 mg (35%) which
was dissolved in CH.sub.2Cl.sub.2 (1 mL) and pyridine (1 mL) and
cooled to 0.degree. C. Acetyl chloride (38 .mu.L) was added and
after 45 min solid NaHCO.sub.3 was added and the volatiles removed
under vacuum. The residue was partitioned between EtOAc and brine.
The organic layer was dried over MgSO.sub.4 and concentrated in
vacuo. Flash chromatography (EtOAc only) gave 6 90 mg (99%).
.sup.1H NMR (500 MHz, CDCl.sub.3): .delta. 6.86 (1H, bt, J=2.2 Hz);
5.95-5.82 (1H, m, CH.dbd., allyl); 5.68 (1H, bd, J=7.3 Hz);
5.35-5.20 (2H, m, .dbd.CH.sub.2, allyl); 4.58-4.52 (1H, m);
4.22-4.10 (2H, m); 4.04 (1H, dd, J=5.9, 12.5 Hz); 3.77 (3H, s);
3.54-3.52 (1H, m); 2.89 (1H, dd J=5.9, 17.6 Hz); 2.32-2.22 (1H, m);
2.06 (3H, s).
Example 7
[0661] Azido diol 7: To a solution of olefin 6 (90 mg, 0.306 mmol)
in acetone (3 ml) and water (258 .mu.L) was added N-methyl
morpholine-N-oxide (39 mg) and OsO.sub.4 (73 .mu.L of a 2.5% w/w in
t-butanol). The reaction was then stirred at room temperature for 3
days. Solid sodium hydrosulfite was added and after stirring for 20
min the reaction was filtered thru a celite pad and washed with
copious amounts of acetone. Concentration in vacuo followed by
flash chromatography (10% MeOH in CH.sub.2Cl.sub.2) gave the diol 7
50 mg (50%). .sup.1H NMR (300 MHz, CD.sub.3CN): .delta. 6.80-6.70
(1H, m); 4.20-4.15 (1H, bm); 3.95-3.80 (1H, m); 3.80-3.25 (6H, m);
3.70 (3H, s); 3.10 (1H, bs); 2.85 (1H, bs); 2.85-2.75 (1H, m);
2.30-2.15 (1H, m); 2.16 (1H, bs); 1.92 (3H, s).
Example 8
[0662] Amino acid diol 8: A solution of the diol 7 (23 mg, 0.07
mmol) in THF (1 mL) was treated with aq. KOH (223 .mu.L, of 0.40 M
solution) at room temperature. After stirring for 1.5 h the
reaction was acidified to pH=4 with Amberlite IR-120 (plus) ion
exchange resin. The resin was filtered and washed with MeOH.
Concentration in vacuo gave the crude carboxylic acid which was
dissolved in ethanol (1.5 mL). To this solution was added Lindlar's
catalyst (20 mg) and the reaction stirred over a hydrogen
atmosphere (1 atm via a balloon) for 20 h. The reaction mixture was
filtered thru a celite pad and washed with hot ethanol and water.
The ethanol was removed under vacuum and the resulting aqueous
layer lyophilized to give a mixture of the desired amino acid 8 and
the starting azide 7 as a white powder. Compound 8: .sup.1H NMR
(500 MHz, D.sub.2O): .delta. 6.5 (1H, s); 4.24-4.30 (2H, m);
4.25-4.18 (1H, m); 3.90-3.55 (5H, complex m); 2.96-2.90 (1H, m);
2.58-2.50 (1H, complex m); 2.12 (3H, s).
Example 9
[0663] Compound 62: A suspension of Quinic acid (60 g),
cyclohexanone (160 mL) and toluenesulfonic acid (600 mg) in benzene
(450 mL) was refluxed with Dean-Stark for 14 hrs. The reaction
mixture was cooled to room temperature and poured into saturated
NaHCO.sub.3 solution (150 mL). The aqueous layer was extracted with
CH.sub.2Cl.sub.2 (3.times.). The combined organic layers were
washed with water (2.times.), brine (1.times.), and dried over
Na.sub.2SO.sub.4. Concentration gave a whited solid, which was
recrystallized from ether (75 g, 95%): .sup.1H NMR (CDCl.sub.3)
.delta. 4.73 (dd, J=6.1, 2.5 Hz, 1H), 4.47 (ddd, J=7.0, 7.0, 3.0
Hz, 1H), 4.30 (ddd, J=5.4, 2.6, 1.4 Hz, 1H), 2.96 (s, 1H), 2.66 (d,
J=11.7 Hz, 1H), 2.40-2.15 (m, 3H), 1.72-1.40 (m, 10H).
Example 10
[0664] Compound 63: To a solution of lactone 62 (12.7 g, 50 mmol)
in methanol (300 mL) was added sodium methoxide (2.7 g, 50 mmol) in
one portion. The mixture was stirred at room temperature for 3 hrs,
and quenched with acetic acid (3 mL) and stirred for 10 min. The
mixture was poured into saturated NH.sub.4Cl solution (300 mL), and
extracted with CH.sub.2Cl.sub.2 (3.times.). The combined organic
phase was washed with brine (1.times.), and dried over MgSO.sub.4.
Purification by flash column chromatography (Hexane/EtOAc=1/1 to
1/2) gave diol (11.5 g, 80%) and starting material (1.2 g, 10%):
.sup.1H NMR (CDCl.sub.3) .delta. 4.47 (ddd, J=7.4, 5.8, 3.5 Hz,
1H), 4.11 (m, 1H), 3.98 (m, 1H), 3.81 (s, 3H), 3.45 (s, 1H), 2.47
(d, J=3.3 Hz, 1H), 2.27 (m, 2H), 2.10 (dd, J=11.8, 4.3 Hz, 1H),
1.92-1.26 (m, 10H).
Example 11
[0665] Compound 64: To a mixture of diol 63 (1.100 g, 3.9 mmol),
molecule sieves (3 A, 2.2 g) and pyridine (1.1 g) in
CH.sub.2Cl.sub.2 (15 mL) was added PCC (3.3 g, 15.6 mmol) in one
portion. The mixture was stirred at room temperature for 26 hrs,
and diluted with ether (30 mL). The suspension was filtered through
a pad of celite, and washed with ether (2.times.20 mL). The
combined ether was washed with brine (2.times.), and dried over
MgSO.sub.4. Concentration and purification was by flash column
chromatography (Hexane/EtOAc=3/1) gave the ketone (0.690 g, 67%):
.sup.1H NMR (CDCl.sub.3) .delta. 6.84 (d, J=2.8 Hz, 1H), 4.69 (ddd,
J=6.4, 4.9, 1.6 Hz, 1H), 4.30 (d, J=5.0 Hz, 1H), 3.86 (s, 3H), 3.45
(d, J=22.3 Hz, 1H), 2.86 (m, 1H), 1.69-1.34 (m, 10H).
Example 12
[0666] Compound 28: To a solution of ketone 64 (0.630 g, 2.4 mmol)
in MeOH (12 mL) at 0.degree. C. was added NaBH.sub.4 in 30 min. The
mixture was stirred for additional 1.5 hrs at 0.degree. C., and
quenched with 15 mL of saturated NH.sub.4Cl solution. The solution
was extracted with CH.sub.2Cl.sub.2 (3.times.), and the combined
organic extract was dried over MgSO.sub.4. Purification by flash
column chromatography (Hexane/EtOAc=2/1) gave the alcohol (0.614 g,
97%): .sup.1H NMR (CDCl.sub.3) .delta. 6.94 (d, J=0.5 Hz, 1H), 4.64
(ddd, J=9.8, 6.7, 3.2 Hz, 1H), 4.55 (dd, J=7.1, 4.2 Hz, 1H), 4.06
(m, 1H), 3.77 (s, 3H), 3.04 (dd, J=16.5, 2.1 Hz, 1H), 2.73 (d,
J=10.2 Hz, 1H), 1.94 (m, 1H), 1.65-1.29 (m, 10H).
Example 13
[0667] Compound 66: Alcohol 28 (2.93 g, 10.9 mmol) and
toluenesulfonic acid (1.5 g) were dissolved in acetone (75 mL), and
the mixture was stirred at room temperature for 15 hrs. The
reaction was quenched with water (30 mL), and basified with
concentrated NH.sub.3--H.sub.2O until PH=9. Acetone was removed
under reduced pressure, and the water phase was extracted with
CH.sub.2Cl.sub.2 (3.times.). The combined organic extracts were
washed with brine (1.times.), and dried over Na.sub.2SO.sub.4.
Concentration gave the desired product: .sup.1H NMR (CDCl.sub.3)
.delta. 7.01 (m, 1H), 4.73 (m, 1H), 4.42 (m, 1H), 3.97 (m, 1H),
3.76 (s, 3H), 2.71-2.27 (m, 2H), 2.02 (s, 3H), 1.98 (s, 3H).
Example 14
[0668] Compound 67: To a solution of alcohol 66 (10.9 mmol) in
CH.sub.2Cl.sub.2 (60 mL) at 0.degree. C. was added pyridine (4.4
mL, 54.5 mmol), followed by addition of trimethylacetyl chloride
(2.7 mL, 21.8 mmol). The mixture was warmed to room temperature and
stirred for 14 hrs. The mixture was diluted with CH.sub.2Cl.sub.2,
and washed with water (2.times.), brine (1.times.), and dried over
MgSO.sub.4. Purification by flash column chromatography
(Hexane/EtOAc=9/1) gave the diester (2.320 g, 68%): .sup.1H NMR
(CDCl.sub.3) .delta. 6.72 (m, 1H), 5.04 (m, 1H), 4.76 (m, 1H), 4.40
(m, 1H), 3.77 (s, 3H), 2.72-2.49 (m, 2H), 1.37 (s, 3H), 1.35 (s,
3H), 1.23 (s, 9H).
Example 15
[0669] Compound 68: Diester 67 (2.32 g, 2.3 mmol) was dissolved in
acetone/H.sub.2O (1/1, 100 mL) and heated at 55.degree. C. for 16
hrs. Solvents were removed, water (2.times.50 mL) was added and
evaporated. Concentration with toluene (2.times.50 mL) gave diol,
which was used without further purification:
[0670] .sup.1H NMR (CDCl.sub.3) .delta. 6.83 (m, 1H), 5.06 (m, 1H),
4.42 (m, 1H), 4.09 (m, 1H), 3.77 (s, 3H), 2.68-2.41 (m, 2H), 1.22
(s, 9H).
Example 16
[0671] Compound 69: To a solution of diol 68 (0.410 g, 1.5 mmol) in
THF (8 mL) at 0.degree. C. was added triethylamine (0.83 mL, 6.0
mmol), followed by slow addition of thionyl chloride (0.33 mL, 4.5
mmol). The mixture was warmed to room temperature and stirred for 3
hrs. The mixture was diluted with CHCl.sub.3, and washed with water
(3.times.), brine (1.times.), and dried over MgSO.sub.4.
Purification by flash column chromatography (Hexanes/EtOAc=5/1)
gave a exo/endo mixture (0.430 g, 90%): .sup.1H NMR (CDCl.sub.3)
.delta. 6.89-6.85 (m, 1H), 5.48-4.84 (m, 3H), 3.80, 3.78 (s, 3H),
2.90-2.60 (m, 2H), 1.25, 1.19 (s, 9H).
Example 17
[0672] Compound 70: The mixture of sulfone 69 (0.400 g, 1.3 mmol)
and sodium azide (0.410 g, 6.29 mmol) in DMF (10 mL) was stirred
for 20 hrs. The reaction mixture was then diluted with ethyl
acetate, washed with saturated NH.sub.4Cl solution, water, brine,
and dried over MgSO.sub.4. Concentration gave the azide (0.338 g,
90%): .sup.1H NMR (CDCl.sub.3) .delta. 6.78 (m, 1H), 5.32 (m, 1H),
4.20 (m, 1H), 3.89 (m, 1H), 3.78 (s, 3H), 3.00-2.60 (m, 2H), 1.21
(s, 9H).
Example 18
[0673] Compound 71: To a solution of alcohol 70 (0.338 g, 1.1 mmol)
in CH.sub.2Cl.sub.2 (11 mL) at 0.degree. C. was added triethylamine
(0.4 mL, 2.9 mmol), followed by slow addition of methylsulfonic
chloride (0.18 mL, 2.3 mmol). The mixture was stirred at 0.degree.
C. for 30 min., and diluted with CH.sub.2Cl.sub.2. The organic
layer was washed with water (2.times.), brine, and dried over
MgSO.sub.4. Purification by flash column chromatography
(Hexane/EtOAc=3/1) gave the desired compound (0.380 g, 82%):
.sup.1H NMR (CDCl.sub.3) .delta. 6.82 (m, 1H), 5.44 (m, 1H), 4.76
(dd, J=7.3, 1.4 Hz, 1H), 4.48 (m, 1H), 3.80 (s, 3H), 3.11 (s, 3H),
2.82-2.61 (m, 2H), 1.21 (s, 9H).
Example 19
[0674] Compound 72: The mixture of azide 71 (0.380 g, 0.94 mmol)
and triphenylphosphine (0.271 g, 1.04 mmol) in THF (19 mL) was
stirred for 2 hrs. The reaction was quenched with water (1.9 mL)
and triethylamine (0.39 mL, 2.82 mmol), and the mixture was stirred
for 14 hrs. Solvents were removed under reduced pressure, and the
mixture was used for next step. To a solution of above mixture in
CH.sub.2Cl.sub.2 (20 mL) at 0.degree. C. was added pyridine (0.68
mL, 8.4 mmol), followed by slow addition of acetyl chloride (0.30
mL, 4.2 mmol). The mixture was stirred at 0.degree. C. for 5 min.,
and diluted with ethyl acetate. The mixture was washed with water
(2.times.), brine (1.times.), dried over MgSO.sub.4. Purification
by flash column chromatography (Hexanes/EtOAc=3/1) gave the
aziridine (0.205 g, 83%): .sup.1H NMR (CDCl.sub.3) .delta. 7.19 (m,
1H), 5.58 (m, 1H), 3.77 (s, 3H), 3.14 (m, 2H), 2.85 (dd, J=7.0, 1.6
Hz, 1H), 2.34 (m, 1H), 2.16 (s, 3H), 1.14 (s, 9H).
Example 20
[0675] Compound 73: The mixture of aziridine 72 (0.200 g, 0.68
mmol), sodium azide (0.221 g, 3.4 mmol), and ammonium chloride
(0.146 g, 2.7 mmol) in DMF (10 mL) was stirred at room temperature
for 14 hrs. Then the mixture was diluted with ethyl acetate, and
washed with water (5.times.), brine (1.times.), and dried over
MgSO.sub.4. Purification by flash column chromatography
(hexanes/EtOAc=2/1) gave desired product and deacetyl amine (0.139
g). The mixture was dissolved in acetic anhydride (2 mL), and
stirred for 2 hrs. Excess anhydride was removed under reduced
pressure, and give the desired product (149 mg): .sup.1H NMR
(CDCl.sub.3) .delta. 6.76 (m, 1H), 5.53 (d, J=8.5 Hz, 1H), 5.05 (m,
1H), 4.31 (m, 1H), 4.08 (m, 1H), 3.79 (s, 3H), 2.91 (m, 1H), 2.51
(m, 1H), 1.99 (s, 3H), 1.20 (s, 9H).
Example 21
[0676] Compound 74: A solution of potassium hydroxide in
MeOH/H.sub.2O (0.5 M, 4.4 mL, 2.2 mmol) was added to ester 73 (149
mg, 0.44 mmol) and the mixture was stirred at room temperature for
3 hrs. The mixture was cooled to 0.degree. C., and acidified with
Amberlite (acidic) to PH=3-4. The mixture was filtered, and washed
with MeOH. Concentration gave the carboxylic acid as a white solid
(73 mg, 69%): .sup.1H NMR (CD.sub.3OD) .delta. 6.62 (m, 1H), 4.15
(m, 1H), 3.95-3.72 (m, 2H), 2.84 (dd, J=6.7, 1.4 Hz, 1H), 2.23 (m,
1H), 1.99 (s, 3H).
Example 22
[0677] Compound 75: The mixture of azide 74 (8 mg) and Pd--C
(Lindlar) (15 mg) in ethanol (2 mL) was stirred under hydrogen for
16 hrs. The mixture was filtered through celite, washed with hot
MeOH--H.sub.2O (1/1). Concentration gave a solid. The solid was
dissolved in water, and passed through a short C-8 column, and
washed with water. Concentration gave a white solid (6 mg):
[0678] .sup.1H NMR (D.sub.2O) .delta. 6.28 (m, 1H), 4.06-3.85 (m,
3H), 2.83 (dd, J=17.7, 5.4 Hz, 1H), 2.35 (m, 1H), 2.06 (s, 3H).
Example 23
[0679] Compound 76: Carboxylic acid 74 (68 mg, 0.28 mmol) and
diphenyldiazomethane (61 mg, 0.31 mmol) were dissolved in ethanol
(12 mL), and stirred for 16 hrs. The reaction was quenched with
acetic acid (0.5 mL), and the mixture was stirred for 10 min.
Solvents were removed under reduced pressure. Purification by flash
column chromatography (EtOAc) gave the ester (56 mg, 50%): .sup.1H
NMR (CD.sub.3OD) .delta. 7.36-7.23 (m, 10H), 6.88 (s, 1H), 6.76 (s,
1H), 4.21 (m, 1H), 3.93-3.79 (m, 2H), 2.89 (dd, J=17.7, 5.0 Hz,
1H), 2.34 (m, 1H), 2.00 (s, 3H).
Example 24
[0680] Compound 77: To a solution of alcohol 76 (20 mg, 0.05 mmol)
in CH.sub.2Cl.sub.2 (1 mL) was added pyridine (40 .mu.L, 0.5 mmol),
followed by addition of acetic anhydride (24 .mu.L, 0.25 mmol). The
mixture was stirred for 24 hrs, and solvents and reagents were
removed under reduced pressure. Purification by flash column
chromatography (Hexane/EtOAc=1/2) gave the diester (20 mg, 91%):
.sup.1H NMR (CDCl.sub.3) .delta. 7.40-7.27 (m, 10H), 6.95 (s, 1H),
6.87 (m, 1H), 5.60 (m, 1H), 5.12 (ddd, J=16.4, 10.2, 5.9 Hz, 1H),
4.28 (dd, J=20.0, 9.4 Hz, 1H), 4.15 (m, 1H), 2.93 (dd, J=17.8, 5.2
Hz, 1H), 2.57 (m, 1H), 2.09 (s, 3H), 2.01 (s, 3H).
Example 25
[0681] Compound 78: The mixture of diester 77 (20 mg, 0.045 mmol),
anisole (50 .mu.L, 0.45 mmol), and TFA (1 mL) in CH.sub.2Cl.sub.2
(1 mL) was stirred for 20 min. Solvents and reagents were removed
under reduced pressure. Purification by flash column chromatography
(EtOAc to EtOAc/AcOH=100/1) gave the carboxylic acid (6 mg):
.sup.1H NMR (CDCl.sub.3) .delta. 6.85 (m, 1H), 5.54 (m, 1H), 5.12
(m, 1H), 4.31-4.03 (m, 2H), 2.89 (m, 1H), 2.60-2.41 (m, 1H), 2.11
(s, 3H), 2.03 (s, 3H).
Example 26
[0682] Compound 79: The mixture of azide 78 (6 mg, 0.02 mmol) and
Pd--C (Lindlar) (15 mg) in EtOH/H.sub.2O (2.2 mL, 10/1) was stirred
under hydrogen for 3 hrs. The mixture was filtered through a pad of
celite, washed with hot MeOH/H.sub.2O (1/1). Evaporation gave a
white solid. The solid was dissolved in water, and passed through a
C-8 column. Evaporation of water gave a white powder (3 mg):
.sup.1H NMR (D.sub.2O) .delta. 6.32 (m, 1H), 5.06 (m, 1H), 4.06 (t,
J=10.4 Hz, 1H), 3.84 (m, 1H), 2.83 (m, 1H), 2.42 (m, 1H), 2.06 (s,
3H), 2.00 (s, 3H).
Example 27
[0683] Compound 80: To a solution of alcohol 76 (35 mg, 0.086
mmol), Boc-glycine (30 mg, 0.172 mmol), and catalytic amount DMAP
in CH.sub.2Cl.sub.2 (1 mL) was added DCC (35 mg, 0.172 mmol). The
mixture was stirred for 30 min, and filtered and washed with
CHCl.sub.3. The CHCl.sub.3 solution was washed with water
(2.times.). Concentration gave a white solid. Purification by flash
column chromatography (Hexane/EtOAc=1/2) gave product (30 mg):
.sup.1H NMR (CDCl.sub.3) .delta. 7.39-7.26 (m, 10H), 6.95 (s, 1H),
6.86 (m, 1H), 5.77 (m, 1H), 5.27 (m, 1H), 4.99 (m, 1H), 4.18-4.01
(m, 2H), 3.94-3.84 (m, 2H), 2.96 (dd, J=7.8, 5.9 Hz, 1H), 2.57 (m,
1H), 2.02 (s, 3H), 1.45 (s, 9H).
Example 28
[0684] Compound 81: The mixture of diester 80 (30 mg, 0.05 mmol),
anisole (150 .mu.L), and TFA (1 mL) in CH.sub.2Cl.sub.2 (1 mL) was
stirred for 3 hrs. Solvents and reagents were evaporated. The
mixture was dissolved in water, and washed with CHCl.sub.3
(3.times.). Water phase was evaporated to gave a white solid (15
mg):
[0685] .sup.1H NMR (CD.sub.3OD) .delta. 6.73 (m, 1H), 5.25-5.15 (m,
1H), 4.35 (m, 1H), 4.17 (m, 1H), 3.82 (m, 2H), 2.93 (dd, J=17.7,
5.6 Hz, 1H), 2.42 (m, 1H), 1.97 (s, 3H).
Example 29
[0686] Compound 82: The mixture of azide 81 (15 mg, 0.05 mmol) and
Pd--C (Lindlar) (30 mg) in EtOH/H.sub.2O (4 mL, 1/1) was stirred
under hydrogen for 3 hrs. The mixture was filtered through a pad of
celite, and washed with hot MeOH/H.sub.2O (1/1). Concentration gave
a glass-like solid. The solid was dissolved in water, and passed
through C-8 column. Evaporation of water gave the amino acid:
.sup.1H NMR (D.sub.2O) .delta. 6.68 (m, 1H), 5.28 (m, 1H), 4.29 (m,
1H), 4.08-3.79 (m, 3H), 2.85 (m, 1H), 2.41 (m, 1H), 2.04 (s,
3H).
Example 30
[0687] bis-Boc guanidinyl methyl ester 92: Treated according to the
procedure of Kim and Qian, "Tetrahedron Lett.", 34:7677 (1993). To
a solution of amine 91 (42 mg, 0.154 mmol), bis-Boc thiourea (43
mg, 0.155 mmol) and triethylamine (72 .mu.L) in dry DMF (310 .mu.L)
cooled to 0.degree. C. was added mercury chloride (46 mg, 0.170
mmol) in one portion. After 30 min the reaction was warmed to room
temperature and stirred for an additional 2.5 h. The reaction
mixture was then filtered through a celite pad, concentrated and
purified by flash column chromatography (100% ethyl acetate) to
give 70 mg (89%) of 92 as a colorless foam. .sup.1H NMR
(CDCl.sub.3, 300 MHz): .delta. 11.37 (s, 1H); 8.60 (d, 1H, J=7.8
Hz); 6.83 (t, 1H, J=2.1 Hz); 6.63 (d, 1H, J=8.4 Hz); 4.76 (d, 1H,
J=7.0 Hz); 4.71 (d, 1H, J=7.0 Hz); 4.45-4.10 (complex m, 2H); 3.76
(s, 3H); 3.39 (s, 3H); 2.84 (dd, 1H, J=5.4, 17.4 Hz); 2.45-2.30 (m,
1H); 1.92 (s, 3H); 1.49 (s, 18H).
Example 31
[0688] bis-Boc guanidinyl carboxylic acid 93: To a solution of
ester 92 (70 mg, 0.136 mmol) in THF (3 mL) cooled to 0.degree. C.
was added aq. KOH (350 .mu.L of a 0.476 M solution). The reaction
was then warmed to room temperature and stirred for 2 h. The
reaction was then acidified to pH=4.5 with Amberlite IR-120 (plus)
acidic resin. The resin was then filtered and washed with ethanol
and H.sub.2O. Concentration in vacuo gave 66 mg (97%) of carboxylic
acid 93 as a white solid. .sup.1H NMR (CDCl.sub.3, 300 MHz):
.delta. 11.40 (br s, 1H); 8.67 (d, 1H, J=7.8 Hz); 6.89 (s, 1H);
6.69 (br d, 1H, J=8.4 Hz); 4.77 (d, 1H, J=7.2 Hz); 4.70 (d, 1H,
J=7.2 Hz); 4.40-4.15 (m, 2H); 3.39 (s, 3H); 2.84 (dd, 1H, J=4.8,
17.1 Hz); 2.45-2.30 (m, 1H); 1.95 (s, 3H); 1.49 (s, 9H); 1.48 (s,
9H).
Example 32
[0689] Guanidine carboxylic acid TFA salt 94: To a solution of
bis-Boc guanidinyl carboxylic acid 93 (23 mg, 0.046 mmol) in
CH.sub.2Cl.sub.2 (1 mL) cooled to 0.degree. C. was added neat
trifluoroacetic acid (500 .mu.L). After 30 min the reaction was
warmed to room temperature and stirred for an additional 1.25 h.
Volatiles were removed under vacuum and the residue co-evaporated
with several portions of H.sub.2O to give a pale orange solid. The
residue was purified by reverse phase C.sub.18 chromatography using
H.sub.2O as an eluent. Fractions containing the desired product
were pooled and lyophilized to give 15 mg of 93 as a white powder.
.sup.1H NMR (D.sub.2O, 500 MHz): .delta. 6.82 (t, 1H, J=2.0 Hz);
4.51-4.47 (m, 1H); 3.93 (dd, 1H, J=9.0, 11.2 Hz); 3.87-3.80
(apparent ddd, 1H); 2.88 (m, 1H); 2.48-2.45 (complex m); 2.07 (s,
3H). .sup.13C NMR (D.sub.2O): .delta. 176.1; 170.0; 157.1; 139.2;
129.5; 69.4; 56.2; 50.9; 30.3; 22.2.
Example 33
[0690] Synthesis of 102: A solution of azido allyl ether 6 (24 mg,
0.082 mmol) in ethanol (1 mL) was treated with hydrogen gas (1 atm)
over Lindlar's catalyst (30 mg) for 1.5 h. The reaction mixture was
filtered through a celite pad and washed with hot ethanol.
Concentration in vacuo gave a pale solid which was dissolved in THF
(1.5 mL) and treated with aqueous KOH (246 .mu.L of a 0.50 M
solution). After stirring at ambient temperature for 2 h the
reaction was acidified to pH=4.0 with Amberlite IR-120 (plus)
acidic resin, filtered and washed with ethanol and H.sub.2O.
Concentration in vacuo gave an orange solid which was purified by a
C.sub.18 column chromatography eluting with H.sub.2O. Fractions
containing the product were pooled and lyophilized to give a 2 to 1
mixture of 102 and the fully saturated compound 103 as a white
powder. .sup.1H NMR data for compound 102: .sup.1H NMR (D.sub.2O,
500 MHz): .delta.: 7.85 (s, 1H); 4.29 (br d, 1H, J=9.2 Hz); 4.16
(dd, 1H, J=11.6, 11.6 Hz); 3.78-3.72 (m, 2H); 3.62 (apparent ddd,
1H); 2.95 (apparent dd, 1H); 2.58-2.52 (m, 1H); 2.11 (s, 3H); 1.58
(q, 2H, J=7.3 Hz); 0.91 (t, 3H, J=7.3 Hz).
Example 34
[0691] Synthesis of 115: A solution of amino acid 114 (10.7 mg,
0.038 mmol) in water (1.3 mL) cooled to 0.degree. C. was adjusted
to pH=9.0 with 1.0 M NaOH. Benzyl formimidate hydrochloride (26 mg,
0.153 mmol) was then added in one portion and the reaction stirred
between 0-5.degree. C. for 3 h while maintaining the pH between
8.5-9.0 with 1.0 M NaOH. The reaction was then concentrated in
vacuo and the residue applied to a C.sub.18 column and eluted with
water. Fractions containing the product were pooled and lyophilized
to give the formamidine carboxylic acid 115 (10 mg) as a white
powder. .sup.1H NMR (D.sub.2O, 300 MHz, mixture isomers): .delta.
7.83 (s, 1H); [6.46(s) & 6.43 (s); 1H total]; 4.83 (d, 1H,
J=7.3 Hz); 4.73 (d, 1H, J=7.3 Hz); 4.50-4.35 (m, 1H); 4.10-4.05 (m,
1H); [4.03-3.95 (m) & 3.80-3.65 (m), 1 H total]; 3.39 (s, 3H);
2.90-2.75 (m, 1H); 2.55-2.30 (m, 1H); [2.03 (s) & 2.01 (s), 3H
total].
Example 35
[0692] Compound 123: To a solution of alcohol 63 (5.842 g, 20.5
mmol) and DMAP (200 mg) in pyridine (40 mL) was added tosyl
chloride (4.3 g, 22.6 mmol). The mixture was stirred at room
temperature for 40 hrs, and pyridine was removed under reduced
pressure. The reaction was quenched with water, and extracted with
EtOAc (3.times.). The combined organic extracts were washed with
water, brine, and dried over MgSO.sub.4. Purification by flash
column chromatography (Hexanes/EtOAc=2/1) gave the tosylate (8.04
g, 89%): .sup.1H NMR (CDCl.sub.3) .delta. 7.84 (d, J=8.3 Hz, 2H),
7.33 (d, J=8.1 Hz, 2H), 4.78 (m, 1H), 4.43 (m, 1H), 4.06 (m, 1H),
3.79 (s, 3H), 2.44 (s, 3H), 2.43-1.92 (m, 4H), 1.61-1.22 (m,
10H).
Example 36
[0693] Compound 124: To a solution of alcohol 123 (440 mg, 1.0
mmol) in pyridine (3 mL) was added POCl.sub.3 (100 .mu.L, 1.1
mmol). The mixture was stirred at room temperature for 12 hrs, and
quenched with saturated NH.sub.4Cl solution. The water phase was
extracted with ether (3.times.). The combined ether layers were
washed with water (2.times.), 2 N HCl solution (2.times.), brine,
and dried over MgSO.sub.4. Purification by flash column
chromatography (Hexane/EtOAc=2/1) gave a mixture of the desired
product 124 and some inpurity (350 mg, 83%, 2/1).
Example 37
[0694] Compound 1: To a solution of the known acetonide of methyl
shikimate (877 mg, 3.85 mmol, "Tetrahedron Lett.", 26:21 (1985)) in
dichloromethane (15 mL) at -10.degree. C. was added methanesulfonyl
chloride (330 .mu.L, 4.23 mmol) followed by the dropwise addition
of triethylamine (640 .mu.L, 4.62 mmol). The solution was stirred
at -10.degree. C. for 1 h then at 0.degree. C. for 2 h, at which
time methanesulfonyl chloride (30 .mu.L), triethylamine (64 .mu.L)
was added. After 1 h cold water was added, the organic phase was
separated, washed with water, dried (MgSO.sub.4), and evaporated.
The crude product was chromatographed on silica gel
(1/1-hexane/ethyl acetate) to provide mesylate 130 (1.1 g, 93%) as
an oil. Mesylate 130 (990 mg, 3.2 mmol) was dissolved in
tetrahydrofuran (5 mL) and was treated with 1M HCl (5 mL). The
solution was stirred at room temperature for 19 h, diluted with
water (5 mL) and stirred an additional 7 h. Evaporation of the
organic solvent precipitated an oily residue which was extracted
into ethyl acetate. The combined organic extracts were washed with
brine, dried (MgSO.sub.4), and evaporated. Addition of
CH.sub.2Cl.sub.2 to the crude residue precipitated a white solid
which was filtered and washed with CH.sub.2Cl.sub.2 to afford diol
131 (323 mg, 38%). To a partial suspension of diol 131 (260 mg,
0.98 mmol) in THF (5 mL) at 0.degree. C. was added DBU (154 .mu.L,
1.03 mmol). The solution was stirred at 0.degree. C. for 3 h and
then was warmed to room temperature stirring for 5 h. The solvent
was evaporated and the crude residue was partitioned between ethyl
acetate (40 mL) and 5% citric acid (20 mL). The organic phase was
washed with brine. Aqueous phases were back extracted with ethyl
acetate (15 mL) and the combined organic extracts were dried
(MgSO.sub.4) and evaporated to afford the epoxide (117 mg, 70%) as
a white solid which gave an .sup.1H NMR spectrum consistent with
structure 1 prepared by literature method.
Example 38
[0695] Alcohol 51: To a solution of protected alcohol
(PG=methoxymethyl) (342 mg, 1.15 mmol) in CH.sub.2Cl.sub.2 (10 mL)
at 0.degree. C. was added trifluoroacetic acid (8 mL). After 5 min
at 0.degree. C., the solution was stirred 1 h at room temperature
and was evaporated. The crude product was purified on silica gel
(ethyl acetate) to afford alcohol 51 (237 mg, 82%) as an oil:
.sup.1H NMR (300 MHz, CDCl.sub.3) .delta. 2.11 (s, 3H), 2.45 (m,
1H), 2.97 (dd, 1H, J=3.8, 18.8), 3.66 (m, 2H), 3.78 (s, 3H), 4.40
(br s, 1H), 5.22 (br s, 1H), 6.19 (br s, 1H), 6.82 (m, 1H).
Example 39
[0696] Methyl ether 150: To a solution of alcohol 51 (46 mg, 0.18
mmol) and methyl iodide (56 .mu.L, 0.90 mmol) in THF (0.7 mL) at
0.degree. C. was added NaH as a 60% mineral oil dispersion (8 mg,
0.20 mmol). The solution was stirred at 0.degree. C. for 2.5 h, and
a second portion of NaH (2 mg) was added. After an additional 1 h
at 0.degree. C. and 4 h at room temperature the solution was cooled
to 0.degree. C. and 5% citric acid (0.5 mL) was added. The mixture
was extracted with ethyl acetate (4.times.2 mL) and the combined
organic extracts were dried (MgSO.sub.4), and evaporated.
Purification of the crude residue on silica gel (ethyl acetate)
gave methyl ether 150 (12 mg, 25%) as a solid: .sup.1H NMR (300
MHz, CDCl.sub.3) .delta. 2.07 (s, 3H), 2.23-2.34 (m, 1H), 2.89 (app
ddd, 1H), 3.43 (s, 3H), 3.58 (m, 1H), 3.78 (s, 3H), 4.13 (m, 1H),
4.40 (m, 1H), 5.73 (d, 1H, J=7.6), 6.89 (m, 1H).
Example 40
[0697] Amino acid 151: To a solution of methyl ether 150 (12 mg,
0.45 mmol) in THF(1 mL)/water (100 .mu.L) was added polymer support
Ph.sub.3P (75 mg, 3 mmol P/g resin). The mixture was stirred at
room temperature for 19 h. The resin was filtered, washed several
times with THF and the combined filtrate and washings were
evaporated to provide 8 mg of a crude residue. The residue was
dissolved in THF (0.5 mL), and 0.5 M KOH (132 .mu.L)/water (250
.mu.L) was added. The solution was stirred at room temperature for
1.25 h and the pH was adjusted to 3-4 with IR.sub.120 ion exchange
resin. The resin was filtered and was stirred with 1M HCl. After
filtration, the resin was subjected to the same treatment with 1M
HCl until the acidic washes no longer tested positive for amine
with ninhydrin. The combined resin washings were evaporated and the
residue was purified on C-18 reverse phase silica eluting with
water to afford after lyophilization, amino acid 151 (1.8 mg, 15%)
as a white solid:
[0698] .sup.1H NMR (300 MHz, D.sub.2O) .delta. 2.09 (s, 3H),
2.48-2.59 (app qt, 1H), 2.94 (dd, 1H, J=5.7, 17.4), 3.61 (m, 1H),
4.14-4.26 (m, 2H), 6.86 (br s, 1H).
Example 41
[0699] Amino acid allyl ether 153: To a solution of azide 6 (16 mg,
0.054 mmol) in THF (0.50 mL) and H.sub.2O (35 .mu.L) was added
polystyrene supported PPh.sub.3 (50 mg). The reaction was stirred
at ambient temperature for 24 h, filtered through a sintered glass
funnel and washed with hot methanol. Concentration in vacuo gave
the crude amino ester which was dissolved in THF (1.0 mL) and
treated with aqueous KOH (220 .mu.L of a 0.5 M solution). After
stirring at ambient temperature for 2 h Amberlite IR-120 (plus)
acidic resin was added until the solution attained pH=4.5. The
resin was filtered and washed with ethanol and H.sub.2O.
Concentration in vacuo gave a pale orange solid which was purified
by reverse phase C.sub.18 chromatography using H.sub.2O as an
eluent. Fractions containing the desired product were pooled and
lyophilized to give the amino acid as a white powder. .sup.1H NMR
(D.sub.2O, 300 MHz): .delta. 6.51 (br t, 1H); 6.05-5.80 (m, 1H,
--CH.dbd., allyl); 5.36-5.24 (m, 2H, .dbd.CH.sub.2, allyl);
4.35-4.25 (m, 1H); 4.25-4.05 (m, 2H, --CH.sub.2--, allyl);
4.02-3.95 (m, 1H); 3.81-3.70 (m, 1H); 2.86-2.77 (apparent dd, 1H);
2.35-2.24 (complex m, 1H); 2.09 (s, 3H).
Example 42
[0700] Epoxide 161: MCPBA (690 mg) was added to a solution of
olefin 160 (532 mg, 1.61 mmol, prepared by Example 14, crude
mesylate was filtered through silica gel using 30% EtOAc/Hexanes
prior to use) in dichloromethane (15 mL) cooled to 0.degree. C. The
mixture was warmed to room temperature and stirred overnight. The
bulk of the solvent was removed under vacuum and the mixture
diluted with ethyl acetate. The organic layer was washed with
aqueous sodium bisulfite, saturated sodium bicarbonate, brine and
dried over MgSO.sub.4. Concentration in vacuo followed by flash
column chromatography of the residue (30% hexanes in ethyl acetate)
gave 437 mg (78%) of 161 as a pale oil. .sup.1H NMR (CDCl.sub.3,
300 MHz): [1:1 mixture of diastereomers] .delta. [4.75 (dd, J=3.9,
8.2 Hz) & 4.71 (dd, J=3.9, 8.4 Hz), 1H total]; 4.37 (m, 1H);
4.25-4.00 (m, 2H); 3.78 (s, 3H); [3.68 (dd, J=5.7, 11.7 Hz) &
3.51 (dd, J=6.6, 11.7 Hz), 1H total]; [3.17 (s) & 3.16 (s), 3H
total]; [2.99 (m) & 2.93 (m), 1H total]; [2.83 (t, J=4.1 Hz)
& 2.82 (t, J=4.5 Hz), 1H total]; 2.70-2.60 (m, 1H); 2.45-2.30
(m, 1H).
Example 43
[0701] Diol 162: The epoxide 161 (437 mg, 1.23 mmol) was gently
reluxed for 1 h in THF (20 mL) and H.sub.2O (10 mL) containing 5
drops of 70% HClO.sub.4. Solid NaHCO.sub.3 was added and the
mixture concentrated in vacuo. The residue was dissolved in EtOAc,
washed with brine and dried. Concentration in vacuo gave the crude
diol 162 as a pale oil in quantitative yield. Used without any
purification for the next reaction.
Example 44
[0702] Aldehyde 163: Oxidation of diol 162 was carried out
according to the procedure of Vo-Quang and co-workers, "Synthesis",
68 (1988). To a slurry of silica gel (4.3 g) in dichloromethane (30
mL) was added a solution of NaIO.sub.4 (4.4 mL of a 0.65 M aqueous
solution). To this slurry was added a solution of the crude diol
162 (520 mg) in EtOAc (5 mL) and dichloromethane (15 mL). After 1 h
the solids were filtered and washed with 20% hexanes/EtOAc.
Concentration gave an oily residue which was dissolved in EtOAc and
dried over MgSO.sub.4. Concentration in vacuo gave the aldehyde 163
as a pale oil which was used immediately for the next reaction.
.sup.1H NMR (CDCl.sub.3, 300 MHz): .delta. 9.69 (s, 1H); 6.98 (m,
1H); 4.72 (dd, 1H, J=3.7, 9.1 Hz); 4.53 (d, 1H, J=18.3 Hz); 4.45
(d, 1H, J=18.3 Hz); 4.31 (m, 1H); 4.26-4.18 (m, 1H); 3.79 (s, 3H);
3.19 (s, 3H); 3.05 (dd, 1H, J=5.7, 18.6 Hz); 2.20-2.45 (m, 1H).
Example 45
[0703] Alcohol 164: The crude aldehyde 163 was treated with
NaCNBH.sub.3 according to the procedure of Borch and co-workers,
"J. Amer. Chem. Soc.", 93:2897 (1971) to give 269 mg (65%) of the
alcohol 164 after flash chromatography (40% hexanes in ethyl
acetate). .sup.1H NMR (CDCl.sub.3, 300 MHz): .delta. 6.91 (m, 1H);
4.75 (dd, 1H, J=3.9, 8.7 Hz); 4.34 (br t, 1H, J=4.1 Hz); 4.25-4.15
(m, 1H); 3.85-3.70 (m, 4H); 3.77 (s, 3H); 3.16 (s, 3H); 2.95 (dd,
1H, J=5.7, 18.6 Hz); 2.37 (dd, 1H, J=7.1, 18.6 Hz); 2.26 (br s,
1H).
Example 46
[0704] Aziridine 165: The alcohol 164 (208 mg, 0.62 mmol) was
acetylated in the usual manner (AcCl, pyridine, dichloromethane,
cat. DMAP) to give the acetate (241 mg, 100%). The crude acetate
(202 mg, 0.54 mmol) was treated at room temperature with Ph.sub.3P
(155 mg) in THF (12 mL) for 2 h. H.sub.2O (1.1 mL) and
triethylamine (224 .mu.L) were then added and the solution stirred
overnight. The reaction mixture was concentrated and the residue
partitioned between ethyl acetate and saturated bicarbonate/brine.
The organic layer was dried, concentrated in vacuo and purified by
flash chromatography (10% MeOH in EtOAc) to give 125 mg (90%) of
aziridine 165 as a white solid.
[0705] .sup.1H NMR (CDCl.sub.3, 300 MHz): .delta. 6.80 (m, 1H);
4.44 (br s, 1H); 4.23 (t, 2H, J=4.8 Hz); 3.82-3.65 (m, 2H); 3.74
(s, 3H); 2.85 (br d, 1H, J=19.2 Hz); 2.65-2.40 (m, 3H); 2.09 (s,
3H); 1.25 (br s, 1H).
Example 47
[0706] N-Boc aziridine 166: Boc anhydride (113 mg, 0.52 mmol) was
added to a solution of aziridine 165 (125 mg, 0.49 mmol),
triethylamine (70 .mu.L), DMAP (cat. amount) in dichloromethane (7
mL). After 1 h the reaction was concentrated and the residue
subjected to flash chromatography (40% EtOAc in hexanes) to give
154 mg (88%) of the N Boc aziridine 166 as a pale oil. .sup.1H NMR
(CDCl.sub.3, 300 MHz): .delta. 6.82 (m, 1H); 4.47 (br m, 1H); 4.23
(t, 2H, J=4.7 Hz); 3.81 (t, 2H, J=4.7 Hz); 3.75 (s, 3H); 3.00 (br
d, 1H, J=18.0 Hz); 2.90-2.85 (m, 2H); 2.65-2.55 (m, 1H); 2.10 (s,
3H); 1.44 (s, 9H).
Example 48
[0707] Azido ester 167: Aziridine 166 (154 mg, 0.43 mmol), sodium
azide (216 mg), and ammonium chloride (223 mg) was heated at
100.degree. C. in DMF (5 mL) for 18 h. The cooled reaction mixture
was partitioned between ethyl ether and brine. The ether layer was
washed with H.sub.2O, brine and dried over MgSO.sub.4.
Concentration gave a crude residue which was treated with 40% TFA
in dichloromethane at room temperature. After 2 h the reaction was
concentrated in vacuo to give a pale oil which was passed through a
short column of silica gel eluting with EtOAc. The product was then
acylated in the usual manner (AcCl, pyridine, dichloromethane, cat.
DMAP) to give the azido ester 167 as a pale yellow oil 16 mg (11%
for 3 steps) after flash chromatography (5% MeOH in chloroform).
.sup.1H NMR (CDCl.sub.3, 300 MHz): .delta. 6.85 (m, 1H); 5.80 (br
d, 1H, J=7.8 Hz); 4.55 (m, 1H); 4.25-4.10 (m, 3H); 3.90-3.85 (m,
2H); 3.78 (s, 3H); 3.55 (m, 1H); 2.90 (dd, 1H, J=5.4, 17.0 Hz);
2.45-2.25 (m, 1H); 2.10 (s, 3H); 2.05 (s, 3H).
Example 49
[0708] Amino acid 168: To a solution of ester 167 (16 mg, 0.047
mmol) in THF (1 ml) cooled to 0.degree. C. was added aq. KOH (208
.mu.l of a 0.476 M solution). The reaction was then warmed to room
temperature and stirred for 2 h. The reaction was then acidified to
pH=4.0 with Amberlite IR-120 (plus) acidic resin. The resin was
then filtered and washed with ethanol and H.sub.2O. Concentration
in vacuo gave a 14 mg (100%) of the azido carboxylic acid as a
white solid. The azido acid was dissolved in ethanol (2 mL) and
treated with hydrogen gas (1 atm) over Lindlar's catalyst (15 mg)
for 16 h according to the procedure of Corey and co-workers,
"Synthesis", 590 (1975). The reaction mixture was filtered through
a celite pad and washed with hot ethanol and H.sub.2O.
Concentration in vacuo gave a pale orange solid which was purified
by a C.sub.18 column chromatography eluting with H.sub.2O. The
fractions containing the product were pooled and lyophilzed to give
9.8 mg of 168 as a white powder. .sup.1H NMR (D.sub.2O, 500 MHz):
.delta.: 6.53 (br s, 1H); 4.28 (br m, 1H); 4.08 (dd, 1H, J=11.0,
11.0 Hz); 3.80-3.65 (complex m, 4H); 3.44 (m, 1H); 2.84 (apparent
dd, 1H); 2.46-2.39 (complex m, 1H); 2.08 (s, 3H).
Example 50
[0709] Epoxy MOM ether 19 (PG=methoxymethyl): Prepared in 74% from
epoxy alcohol 1 according to the procedure of Mordini and
co-workers, "J. Org. Chem.", 59:4784 (1994). .sup.1H NMR
(CDCl.sub.3, 300 MHz): .delta. 6.73 (m, 1H); 4.87 (s, 2H); 4.59 (t,
1H, J=2.4 Hz); 3.76 (s, 3H); 3.57 (m, 1H); 3.50-3.40 (m, 1H); 3.48
(s, 3H); 3.10(d, J=19.5 Hz); 2.45 (m, 1H).
Example 51
[0710] Aziridine 170: Prepared in 77% overall from epoxide 19
(PG=methoxymethyl) according to the general protocol described in
Examples 3 and 4: .sup.1H NMR (CDCl.sub.3, 300 MHz): .delta. 6.85
(m, 1H); 4.78 (s, 2H); 4.54 (m, 1H); 3.73 (s, 3H); 3.41 (s, 3H);
2.87 (d, 1H, J=18.9 Hz); 2.70-2.45 (m, 3H).
Example 52
[0711] Azido ester 22 (PG=methoxymethyl): The aziridine 170 (329
mg, 1.54 mmol), NaN.sub.3 (446 mg) and NH.sub.4Cl (151 mg) was
heated at 65.degree. C. in DMF (20 mL) for 18 h. The cooled
reaction mixture was partitioned between ethyl ether and brine. The
ether layer was washed with H.sub.2O, brine and dried over
MgSO.sub.4. Concentration in vacuo gave the crude azido amine as a
pale oil which was taken up in CH.sub.2Cl.sub.2 (15 mL) and treated
with pyridine (4 mL) and AcCl (150 .mu.L). Aqueous work up followed
by flash chromatography of the residue gave 350 mg (76%) of azido
ester 22 (PG=methoxymethyl) as a pale oil.
[0712] .sup.1H NMR (CDCl.sub.3, 300 MHz): .delta. 6.78 (s, 1H);
6.39 (br d, 1H, J=7.8 Hz); 4.72 (d, 1H, J=6.9 Hz); 4.66 (d, 1H,
J=6.9 Hz); 4.53 (br d, 1H, J=8.4 Hz); 4.00-3.90 (m, 1H); 3.80-3.65
(m, 1H); 3.75 (s, 3H); 3.37 (s, 3H); 2.85 (dd, 1H, J=5.4, 17.7 Hz);
2.35-2.20 (m, 1H); 2.04 (s, 3H).
Example 53
[0713] Amino acid 114: The azide 22 (PG=methoxymethyl) (39 mg,
0.131 mmol) was treated with hydrogen gas at 1 atmosphere over
Lindlar's catalyst (39 mg) in ethanol for 2.5 h according to the
procedure of Corey and co-workers, "Synthesis", 590 (1975). The
reaction mixture was filtered through a celite pad, washed with hot
ethanol and concentrated to give the crude amine 33 mg (92%) as a
pale foam. The amine in THF (1 mL) was treated with aq. KOH (380
.mu.L of a 0.476 M solution). After 1 h the reaction was acidified
to pH=4.0 with Amberlite IR-120 (plus) acidic resin. The resin was
then filtered, washed with H.sub.2O and concentrated to give a pale
solid which was purified by a C.sub.18 column chromatography
eluting with H.sub.2O. The fractions containing the product were
pooled and lyophilzed to give 20 mg of 114 as a white powder.
.sup.1H NMR (D.sub.2O, 300 MHz): .delta. 6.65 (s, 1H); 4.87 (d, 1H,
J=7.5 Hz); 4.76 (d, 1H, J=7.5 Hz); 4.47 (br d, 1H, J=8.7 Hz); 4.16
(dd, 1H, J=11.4, 11.4 Hz); 3.70-3.55 (m, 1H); 3.43 (s, 3H); 2.95
(dd, 1H, J=5.7, 17.4 Hz); 2.60-2.45 (m, 1H); 2.11 (s, 3H).
Example 54
[0714] Amino acid 171: To solid amino acid 114 (4 mg, 0.015 mmol)
was added 40% TFA in CH.sub.2Cl.sub.2 (1 mL, cooled to 0.degree. C.
prior to addition). After stirring at room temperature for 1.5 h
the reaction mixture was concentrated to give a white foam.
Co-evaporation from H.sub.2O several times followed by
lyophilization gave a white solid, 5.5 mg of 117 as the TFA salt.
.sup.1H NMR (D.sub.2O, 300 MHz): .delta. 6.85 (m, 1H); 4.45 (m,
1H); 4.05 (dd, 1H, J=11.4, 11.4 Hz); 3.65-3.55 (m, 1H); 3.00-2.90
(m, 1H); 2.60-2.45 (m, 1H); 2.09 (s, 3H).
Example 55
[0715] Acetonide 180: To a suspension of shikimic acid (25 g, 144
mmol, Aldrich) in methanol (300 mL) was added p-toluenesulfonic
acid (274 mg, 1.44 mmol, 1 mol %) and the mixture was heated to
reflux for 2 h. After adding more p-toluenesulfonic acid (1 mol %)
the reaction was refluxed for 26 h and was evaporated. The crude
methyl ester (28.17 g) was suspended in acetone (300 mL) and was
treated with dimethoxypropane (35 mL, 288 mmol) and was stirred at
room temperature for 6 h and then was evaporated. The crude product
was dissolved in ethyl acetate (400 mL) and was washed with
saturated NaHCO.sub.3 (3.times.125 mL) and saturated NaCl. The
organic phase was dried (MgSO.sub.4), filtered, and evaporated to
afford crude acetonide 180 (.about.29.4 g) which was used directly:
.sup.1H NMR (CDCl.sub.3) .delta. 6.91 (t, 1H, J=1.1), 4.74 (t, 1H,
J=4.8), 4.11 (t, 1H, J=6.9), 3.90 (m, 1H), 2.79 (dd, 1H, J=4.5,
17.4), 2.25 (m, 2H), 1.44 (s, 3H), 1.40 (s, 3H).
Example 56
[0716] Mesylate 130: To a solution of acetonide 180 (29.4 g, 141
mmol) in CH.sub.2Cl.sub.2, (250 mL) at 0.degree. C. was added
triethylamine (29.5 mL, 212 mmol) followed by the addition of
methanesulfonyl chloride (13.6 mL, 176 mmol) over a period of 10
min. The reaction was stirred at 0.degree. C. for 1 h and ice cold
water (250 mL) was added. After transfer to a separatory funnel,
the organic phase was washed with water, 5% citric acid (300 mL),
saturated NaHCO.sub.3 (300 mL) and was dried (MgSO.sub.4),
filtered, and evaporated. The crude product was filtered through a
short plug of silica gel on a fritted glass funnel eluting with
ethyl acetate. The filtrate was evaporated to afford mesylate 130
(39.5 g, 91%) as a viscous oil which was used directly in the next
step: .sup.1H NMR (CDCl.sub.3) .delta. 6.96 (m, 1H), 4.80 (m, 2H),
4.28 (dd, 1H, J=6.6, 7.5), 3.79 (s, 3H), 3.12 (s, 3H), 3.01 (dd,
1H, J=5, 17.7), 2.56-2.46 (m, 1H).
Example 57
[0717] Diol 131: To a solution of mesylate 130 (35.85 g, 117 mmol)
in methanol (500 mL) was added p-toluenesulfonic acid (1.11 g, 5.85
mmol, 5 mol %) and the solution was refluxed for 1.5 h and was
evaporated. The residue was redissolved in methanol (500 mL) and
was refluxed an additional 4 h. The solvent was evaporated and the
crude oil was triturated with diethyl ether (250 mL). After
completing the crystallization overnight at 0.degree. C., the solid
was filtered and was washed with cold diethyl ether, and dried to
afford diol 131 (24.76 g) as a white solid. Evaporation of the
filtrate and crystallization of the residue from methanol/diethyl
ether gave an additional 1.55 g. Obtained 26.3 g (85%) of diol 131:
.sup.1H NMR (CD.sub.3OD) .delta. 6.83 (m, 1H), 4.86 (m, 1H), 4.37
(t, 1H, J=4.2), 3.87 (dd, 1H, J=4.2, 8.4), 3.75 (s, 3H), 3.13 (s,
3H), 2.98-2.90 (m, 1H), 2.53-2.43 (m, 1H).
Example 58
[0718] Epoxy alcohol 1: A suspension of diol 131 (20.78 g, 78 mmol)
in tetrahydrofuran (400 mL) at 0.degree. C. was treated with
1,8-diazabicyclo[5.4.0]undec-7-ene (11.7 mL, 78 mmol) and was
stirred at room temperature for 9 h at which time the reaction was
complete. The reaction was evaporated and the crude residue was
dissolved in CH.sub.2Cl.sub.2 (200 mL) and was washed with
saturated NaCl (300 mL). The aqueous phase was extracted with
CH.sub.2Cl.sub.2 (2.times.200 mL). The combined organic extracts
were dried (MgSO.sub.4), filtered, and evaporated. The crude
product was purified on silica gel (ethyl acetate) to afford epoxy
alcohol 1 (12 g, 90%) as a white solid whose .sup.1H NMR spectrum
was consistent with that reported in the literature: McGowan, D.
A.; Berchtold, G. A., "J. Org. Chem.", 46:2381 (1981).
Example 59
[0719] Methoxymethyl ether 22 (PG=methoxymethyl): To a solution of
epoxy alcohol 1 (4 g, 23.5 mmol) in CH.sub.2Cl.sub.2 (100 mL) was
added N, N'-diisopropylethylamine (12.3 mL, 70.5 mmol) followed by
chloromethyl methyl ether (3.6 mL, 47 mmol, distilled from tech.
grade). The solution was refluxed for 3.5 h and the solvent was
evaporated. The residue was partitioned between ethyl acetate (200
mL) and water (200 mL). The aqueous phase was extracted with ethyl
acetate (100 mL). The combined organic extracts were washed with
saturated NaCl (100 mL), dried (MgSO.sub.4), filtered, and
evaporated to afford 4.9 g of a solid residue which was of suitable
purity to use directly in the next step: mp 62-65.degree.(crude);
mp 64-66.degree. C. (diethyl ether/hexane); .sup.1H NMR
(CDCl.sub.3) .delta. 6.73 (m, 1H), 4.87 (s, 2H), 4.59 (m, 1H), 3.75
(s, 3H), 3.57 (m, 1H), 3.48 (m overlapping s, 4H), 3.07 (dd, 1H,
J=1.2, 19.8), 2.47 (dq, 1H, J=2.7, 19.5).
[0720] Ethyl Ester Analog of Compound 22:
[0721] To a solution of the corresponding ethyl ester of compound 1
(12.0 g, 0.065 mol) in CH.sub.2Cl.sub.2 (277 mL) at room
temperature was added diisopropylethyl amine (34.0 mL, 0.13 mol)
followed by chloromethyl methyl ether (10.0 mL, 0.19 mol). The
reaction mixture was then gently refluxed for 2 h, cooled,
concentrated in vacuo, and partitioned between EtOAc and water. The
organic layer was separated and washed successively with dil. HCl,
saturated bicarb, brine and dried over MgSO.sub.4. Concentration in
vacuo followed by flash chromatography on silica gel (50% hexanes
in EtOAc) gave 13.3 g (90%) of the corresponding ethyl ester of
compound 22 as a colorless liquid. .sup.1H NMR(300 MHz, CDCl.sub.3)
.delta. 6.73-6.71 (m, 1H); 4.87 (s, 2H); 4.61-4.57 (m, 1H); 4.21
(q, 2H, J=7.2 Hz); 3.60-3.55 (m, 1H); 3.50-3.45 (m, 1H); 3.48 (s,
3H); 3.12-3.05 (m, 1H); 2.52-2.42 (m, 1H); 1.29 (t, 3H, J=7.2
Hz).
Example 60
[0722] Alcohol 181: To a solution of methoxymethyl ether 22
(PG=methoxymethyl) (4.9 g, 22.9 mmol) in 8/1-MeOH/H.sub.2O (175 mL,
v/v) was added sodium azide (7.44 g, 114.5 mmol) and ammonium
chloride (2.69 g, 50.4 mmol) and the mixture was refluxed for 15 h.
The reaction was diluted with water (75 mL) to dissolve
precipitated salts and the solution was concentrated to remove
methanol. The resulting aqueous phase containing a precipitated
oily residue was diluted to a volume of 200 mL with water and was
extracted with ethyl acetate (3.times.100 mL). The combined organic
extracts were washed with saturated NaCl (100 mL), dried
(MgSO.sub.4), filtered and evaporated. The crude was purified on
silica gel (1/1-hexane/ethyl acetate) to afford alcohol 181 (5.09
g, 86%) as a pale yellow oil. Subsequent preparations of alcohol
181 provided material which was of sufficient purity to use in the
next step without further purification: .sup.1H NMR (CDCl.sub.3)
.delta. 6.86 (m, 1H), 4.79 (s, 2H), 4.31 (br t, 1H, J=4.2),
3.90-3.75, 3.77 (m overlapping s, 5H), 3.43 (s, 3H), 2.92 (d, 1H,
J=6.6), 2.87 (dd, 1H, J=5.4, 18.6), 2.21-2.30 (m, 1H).
Example 61
[0723] Mesylate 184: To a solution of alcohol 181 (6.47 g, 25.2
mmol) in CH.sub.2Cl.sub.2 (100 mL) at 0.degree. C. was added first
triethyl amine (4.4 mL, 31.5 mmol) then methanesulfonyl chloride
(2.14 mL, 27.7 mmol). The reaction was stirred at 0.degree. C. for
45 min then was warmed to room temperature stirring for 15 min. The
reaction was evaporated and the residue was partitioned between
ethyl acetate (200 mL) and water (100 mL). The organic phase was
washed with water (100 mL), saturated NaHCO.sub.3 (100 mL),
saturated NaCl (100 mL). The water washes were extracted with a
single portion of ethyl acetate which was washed with the same
NaHCO.sub.3/NaCl solutions. The combined organic extracts were
dried (MgSO.sub.4), filtered, and evaporated. The crude product was
of suitable purity to be used directly in the next step: .sup.1H
NMR (CDCl.sub.3) .delta. 6.85 (m, 1H), 4.82 (d, 1H, J=6.9), 4.73
(d, 1H, J=6.9), 4.67 (dd, 1H, J=3.9, 9.0), 4.53 (br t, 1H, J=4.2),
3.78 (s, 3H), 3.41 (s, 3H), 3.15 (s, 3H), 2.98 (dd, 1H, J=6.0,
18.6), 2.37 (m, 1H); .sup.13C NMR (CDCl.sub.3) .delta. 165.6,
134.3, 129.6, 96.5, 78.4, 69.6, 55.8, 55.7, 52.1, 38.2, 29.1.
Example 62
[0724] Aziridine 170: To a solution of mesylate 184 (8.56 g, 25
mmol) in THF (150 mL) at 0.degree. C. was added Ph.sub.3P (8.2 g,
31 mmol), initially adding a third of the amount while cooling and
then after removing the ice bath adding the remainder of the
Ph.sub.3P over a period of 10-15 min. After complete addition of
the Ph.sub.3P the reaction was stirred at room temperature for 3 h
with the formation of a white precipitate. To this suspension was
added triethyl amine (5.2 mL, 37.5 mmol) and water (10 mL) and the
mixture was stirred at room temperature for 12 h. The reaction was
concentrated to remove THF and the residue was partitioned between
CH.sub.2Cl.sub.2 (200 mL) and saturated NaCl (200 mL). The aqueous
phase was extracted with several portions of CH.sub.2Cl.sub.2 and
the combined organic extracts were dried (Na.sub.2SO.sub.4),
filtered, and evaporated to afford a crude product which was
purified on silica gel (10% MeOH/EtOAc) to afford aziridine 170
(4.18 g, 78%) as an oil which typically contained trace amounts of
triphenylphosphine oxide impurity: .sup.1H NMR (CDCl.sub.3) .delta.
6.81 (m, 1H), 4.78 (s, 2H), 4.54 (m, 1H), 3.73 (s, 3H), 3.41 (s,
3H), 2.87 (app dd, 1H), 2.64 (br s, 1H), 2.56-2.47 (m, 2H), NH
signal was not apparent; .sup.13C NMR (CDCl.sub.3) .delta. 166.9,
132.5, 128.0, 95.9, 69.5, 55.2, 51.6, 31.1, 27.7, 24.1.
Example 63
[0725] Amine 182: To a solution of aziridine 170 (3.2 g, 15 mmol)
in DMF (30 mL) was applied a vacuum on a rotary evaporator
(40.degree. C.) for several minutes to degas the solution. To the
solution was added sodium azide (4.9 g, 75 mmol) and ammonium
chloride (1.6 g, 30 mmol) and the mixture was heated at
65-70.degree. C. for 21 h. The reaction mixture was cooled to room
temperature, diluted with ethyl acetate (.about.100 mL) and was
filtered. The filtrate was evaporated and the residue was
partitioned between diethyl ether (100 mL) and saturated NaCl (100
mL). The organic phase was washed again with saturated NaCl (100
mL), dried (MgSO.sub.4), filtered, and was evaporated. Additional
crude product was obtained from the aqueous washings by extraction
with ethyl acetate and treated in the same manner as described
above. The crude product was purified on silica gel (5%
MeOH/CH.sub.2Cl.sub.2) to afford amine 182 (2.95 g) as an oil which
contained a small amount of triphenylphosphine oxide impurity from
the previous step: .sup.1H NMR (CDCl.sub.3) .delta. 6.82 (t, 1H,
J=2.3), 4.81 (d, 1H, J=7.2), 4.77 (d, 1H, J=6.9), 4.09-4.04 (m,
1H), 3.76 (s, 3H), 3.47 and 3.44 (m overlapping s, 4H), 2.94-2.86
(m, 2H), 2.36-2.24 (m, 1H); .sup.13C NMR (CDCl.sub.3) .delta.
165.9, 137.3, 128.2, 96.5, 79.3, 61.5, 55.7, 55.6, 51.9, 29.5.
Example 64
[0726] N-Trityl aziridine 183: Amine 182 (2.59 g, 10.2 mmol) was
dissolved in 5% HCl/MeOH (30 mL) and the solution was stirred for 3
h at room temperature. Additional 5% HCl/MeOH (10 mL) was added
stirring 1 h and the solvent was evaporated to afford 2.52 g of the
HCl salt as a tan solid after high vacuum. To a suspension of the
HCl salt in CH.sub.2Cl.sub.2 (50 mL) at 0.degree. C. was added
triethylamine (3.55 mL, 25.5 mmol) followed by the addition of
solid trityl chloride (5.55 g, 12.8 mmol) in one portion. The
mixture was stirred at 0.degree. C. for 1 h and then was warmed to
room temperature stirring for 2 h. The reaction was cooled to
0.degree. C., triethylamine (3.6 mL, 25.5 mmol) was added and
methane sulfonyl chloride (0.97 mL, 12.5 mmol) was added, stirring
the resulting mixture for 1 h at 0.degree. C. and for 22 h at room
temperature. The reaction was evaporated and the residue was
partitioned between diethyl ether (200 mL) and water (200 mL). The
organic phase was washed with water (200 mL) and the combined
aqueous phases were extracted with diethyl ether (200 mL). The
combined organic extracts were washed with water (100 mL),
saturated NaCl (200 mL) and were dried (Na.sub.2SO.sub.4),
filtered, and evaporated. The crude product was purified on silica
gel (1/1-hexane/CH.sub.2Cl.sub.2) to afford N-trityl aziridine 183
(3.84 g, 86%) as a white foam: .sup.1H NMR (CDCl.sub.3) .delta.
7.4-7.23 (m, 16H), 4.32 (m, 1H), 3.81 (s, 3H), 3.06 (dt, 1H, J=1.8,
17.1), 2.94-2.86 (m, 1H), 2.12 (m, 1H), 1.85 (t, 1H, J=5.0).
Example 65
[0727] Compound 190: A solution of N-trityl aziridine 183 (100 mg,
0.23 mmol), cyclohexanol (2 mL) and boron trifluoride etherate (42
.mu.L, 0.35 mmol) was heated at 70.degree. C. for 1.25 h and was
evaporated. The residue was dissolved in pyridine (2 mL) and was
treated with acetic anhydride (110 .mu.L, 1.15 mmol) and catalytic
DMAP. After stirring for 3 h at room temperature the reaction was
evaporated. The residue was partitioned between ethyl acetate and
5% citric acid. The aqueous phase was extracted with ethyl acetate
and the combined organic extracts were washed with saturated
NaHCO.sub.3, and saturated NaCl. The organic phase was dried
(MgSO.sub.4), filtered, and evaporated. The crude product was
purified on silica gel (1/1-hexane/ethyl acetate) to afford
compound 190 (53 mg, 69%) as a solid: mp 105-107.degree. C. (ethyl
acetate/hexane); .sup.1H NMR (CDCl.sub.3) .delta. 6.78 (m, 1H),
6.11 (d, 1H, J=7.4), 4.61 (m, 1H), 4.32-4.23 (m, 1H), 3.76 (s, 3H),
3.44-3.28 (m, 2H), 2.85 (dd, 1H, J=5.7, 16.6), 2.28-2.17 (m, 1H),
2.04 (s, 3H), 1.88-1.19 (m, 10H).
Example 66
[0728] Compound 191: To a solution of compound 190 (49 mg, 0.15
mmol) in THF was added triphenylphosphine (57 mg, 0.22 mmol) and
water (270 .mu.L) and the solution was heated at 50.degree. C. for
10 h. The reaction was evaporated and the residue was dissolved in
ethyl acetate, dried (Na.sub.2SO.sub.4), filtered and evaporated.
The crude product was purified on silica gel (1/1-methanol/ethyl
acetate) to afford the amine (46 mg) as a pale yellow solid. The a
solution of the amine in THF (1.5 mL) was added 1.039N KOH solution
(217 .mu.L) and water (200 .mu.L). The mixture was stirred at room
temperature for 1 h and was then cooled to 0.degree. C. and
acidified to pH 6-6.5 with IR 120 ion exchange resin. The resin was
filtered, washed with methanol and the filtrate was evaporated. The
solid residue was dissolved in water and was passed through a
column (4.times.1 cm) of C-18 reverse phase silica gel eluting with
water and then 2.5% acetonitrile/water. Product fractions were
combined and evaporated and the residue was dissolved in water and
lyophilized to afford amino acid 191 (28 mg) as a white solid:
.sup.1H NMR (D.sub.2O) .delta. 6.47 (br s, 1H), 4.80 (br d, 1H),
4.00 (dd, 1H, J=8.9, 11.6), 3.59-3.50 (m, 2H), 2.87 (dd, 1H, J=5.5,
17.2), 2.06 (s, 3H), 1.90-1.15 (series of m, 10H); Anal. Calcd for
C.sub.15H.sub.24N.sub.2O.sub.4.H.sub.2O: C, 57.31; H, 8.34; N,
8.91. Found: C, 57.38; H, 8.09; N, 8.77.
Example 67
[0729] bis-Boc guanidino ester 201: Treated according to the
procedure of Kim and Qian, "Tetrahedron Lett.", 34:7677 (1993). To
a solution of amine 200 (529 mg, 1.97 mmol, prepared by the method
of Example 109, bis-Boc thiourea (561 mg, 2.02 mmol) and Et.sub.3N
(930 .mu.L) in dry DMF (5.0 mL) cooled to 0.degree. C. was added
HgCl.sub.2 (593 mg, 2.18 mmol) in one portion. The heterogeneous
reaction mixture was stirred for 45 min at 0.degree. C. and then at
room temperature for 15 min, after which the reaction was diluted
with EtOAc and filtered through a pad of celite. Concentration in
vacuo followed by flash chromatography of the residue on silica gel
(10% hexanes in ethyl acetate) gave 904 mg (90%) of 201 as a pale
oil. .sup.1H NMR (CDCl.sub.3, 300 MHz): .delta. 11.39 (s, 1H); 8.63
(d, 1H, J=7.8 Hz); 6.89 (t, 1H, J=2.4 Hz); 6.46 (d, 1H, J=8.7 Hz);
4.43-4.32 (m, 1H); 4.27-4.17 (m, 1H); 4.13-4.06 (m, 1H); 3.77 (s,
3H); 3.67-3.59 (m, 1H); 2.83 (dd, 1H, J=5.1, 17.7 Hz); 2.45-2.33
(m, 1H); 1.95 (s, 3H); 1.65-1.50 (m, 2H); 1.45 (s, 18H); 0.90 (t,
3H, J=7.5 Hz).
Example 68
[0730] Carboxylic acid 202: To a solution of methyl ester 201 (904
mg, 1.77 mmol) in THF (10 mL) was added aqueous KOH (3.45 mL of a
1.039 N solution). The reaction mixture was stirred at room
temperature for 17 h, cooled to 0.degree. C. and acidified to pH
4.0 with Amberlite IR-120 (H.sup.+) acidic resin. The resin was
filtered and washed with water and methanol. Concentration in vacuo
gave the free acid as a pale foam which was used without further
purification in the next reaction.
Example 69
[0731] Guanidine carboxylic acid 203: To a solution of bis-Boc
guanidnyl acid 202 (crude from previous reaction) in
CH.sub.2Cl.sub.2 (40 mL) cooled to 0.degree. C. was added neat
trifluoroacetic acid (25 mL). The reaction mixture was stirred at
0.degree. C. for 1 h and then at room temperature for 2 h.
Concentration in vacuo gave a pale orange solid which was purified
by C.sub.18 reverse phase chromatography eluting with water.
Fractions containing the desired product were pooled and
lyophilized to give 495 mg (68%, 2 steps) of the guanidine
carboxylic acid 203 as the trifluoroacetic acid salt. .sup.1H NMR
(D.sub.2O, 300 MHz): .delta. 6.66 (s, 1H); 4.29 (bd, 1H, J=9.0 Hz);
4.01 (dd, 1H, J=10.8, 10.8 Hz); 3.87-3.79 (m, 1H); 3.76-3.67 (m,
1H); 3.60-3.50 (m, 1H); 2.83 (dd, 1H, J=5.1, 17.4 Hz); 2.47-2.36
(m, 1H); 2.06 (s, 3H); 1.65-1.50 (m, 2H); 0.90 (t, 3H, J=7.2 Hz).
Anal. Calcd for C.sub.15H.sub.23O.sub.6N.sub.4F.sub.3: C, 43.69; H,
5.62; N, 13.59. Found: C, 43.29; H, 5.90; N, 13.78.
Example 70
[0732] Formamidine carboxylic acid 204: A solution of amino acid
102 (25 mg, 0.10 mmol, prepared by the method of Example 110) in
water (500 .mu.L) at 0-5.degree. C. was adjusted to pH 8.5 with 1.0
N NaOH. Benzyl formimidate hydrochloride (45 mg, 0.26 mmol) was
added in one portion and the reaction mixture was stirred for 3 h
at this temperature while maintaining the pH at 8.5-9.0 with 1.0 N
NaOH. The reaction was then concentrated in vacuo and purified by
C.sub.18 reverse phase chromatography eluting with water. Fractions
containing the desired product were pooled and lyophilized to give
4.0 mg (13%) of the formamidine carboxylic acid 204. .sup.1H NMR
(D.sub.2O, 300 MHz): .delta. 7.85 (s, 1H); 6.53 (bd, 1H, J=7.8 Hz);
4.32-4.25 (bm, 1H); 4.10-3.97 (m, 1H); 3.76-3.67 (m, 2H); 3.57-3.49
(m, 1H); 2.86-2.81 (m, 1H); 2.55-2.40 (m, 1H); 2.04 (s, 3H);
1.65-1.50 (m, 2H); 0.90 (t, 3H, J=7.4 Hz).
Example 71
[0733] Amino acid 206: To a solution of amino methyl ester 205 (84
mg, 0.331 mmol, prepared by Example 107) in THF (1.0 mL) was added
aqueous KOH (481 .mu.L of a 1.039 N solution). The reaction mixture
was stirred at room temperature for 2.5 h and acidified to pH 6.5
with Amberlite IR-120 (H.sup.+) acidic resin. The resin was
filtered and washed with water and methanol. Concentration in vacuo
gave the amino acid as a white solid which was purified by C.sub.18
reverse phase chromatography eluting with water. Fractions
containing the desired product were pooled and lyophilized to give
59 mg (74%) of the amino acid 206. .sup.1H NMR (CD.sub.3OD, 300
MHz): .delta. 6.60 (bd, 1H, J=1.8 Hz); 4.01-3.95 (m, 1H); 3.71-3.60
(m, 2H); 3.50-3.42 (m, 1H); 3.05-2.85 (m, 2H); 2.39-2.28 (m, 1H);
1.70-1.55 (m, 2H); 0.95 (t, 3H, J=7.5 Hz).
Example 72
[0734] Trifluoroacetamide 207: To a degassed solution of amino acid
206 (59 mg, 0.246 mmol) in dry methanol (1.0 mL) under argon was
added Et.sub.3N (35 .mu.L) followed by methyl trifluoroacetate (35
.mu.L). The reaction was stirred for one week at room temperature
and concentrated. Analysis by .sup.1H NMR showed that reaction was
40% complete. The crude reaction product was redissolved in dry
methanol (1.0 mL), methyl trifluoroacetate (1.0 mL) and Et.sub.3N
(0.5 mL) and stirred at room temperature for 5 days. The reaction
was then concentrated in vacuo and dissolved in 50% aqueous THF
(2.0 mL), acidified to pH 4 with Amberlite IR-120 (H.sup.+) acidic
resin and filtered. Concentration gave the crude trifluoroacetamide
carboxylic acid which was used without further purification for the
next reaction.
Example 73
[0735] Amino acid 208: A solution of azide 207 (crude from previous
reaction) in THF (2.0 mL) and water (160 .mu.L) was treated with
polymer supported triphenyl phosphine (225 mg) at room temperature.
After stirring for 20 h the polymer was filtered and washed with
methanol. Concentration in vacuo gave a pale solid which was
purified by C.sub.18 reverse phase chromatography eluting with
water. Fractions containing the desired product were pooled and
lyophilized to give 6.5 mg (9%) of the trifluoroacetamide amino
acid 208. .sup.1H NMR (D.sub.2O, 300 MHz): .delta. 6.59 (bs, 1H);
4.40-4.30 (m, 1H); 4.26 (t, 1H, J=10.1 Hz); 3.80-3.66 (m, 2H);
3.56-3.47 (m, 1H); 2.96 (bdd, 1H, J=5.4, 17.7 Hz); 2.58-2.45 (m,
1H); 1.62-1.50 (m, 2H); 0.89 (t, 3H, J=7.5 Hz).
Example 74
[0736] Methylsulfonamide methyl ester 209: Methanesulfonyl chloride
(19 .mu.L) was added to a solution of amine 205 (58 mg, 0.23 mmol,
prepared by Example 107), Et.sub.3N (97 .mu.L) and a catalytic
amount of DMAP (few crystals) in CH.sub.2Cl.sub.2 (1.0 mL) at
0.degree. C. After 30 min the reaction mixture was warmed to room
temperature and stirred for an additional 1 h. Concentration in
vacuo followed by flash chromatography of the residue on silica gel
(50% hexanes in ethyl acetate) gave 61 mg (79%) of the sulfonamide
209. .sup.1H NMR (CDCl.sub.3, 300 MHz): .delta. 6.87 (t, 1H, J=2.3
Hz); 5.08 (d, 1H, J=7.5 Hz); 4.03-3.90 (m, 1H); 3.78 (s, 3H);
3.75-3.45 (m, 4H); 3.14 (s, 3H); 2.95 (dd, 1H, J=5.2, 17.3 Hz);
2.42-2.30 (m, 1H); 1.75-1.55 (m, 2H); 0.95 (t, 3H, J=7.5Hz).
Example 75
[0737] Amino ester 210: A solution of azide 209 (61 mg, 0.183 mmol)
in THF (2.0 mL) and water (118 .mu.L) was treated with polymer
supported triphenyl phosphine (170 mg) at room temperature. After
stirring for 17.5 h the polymer was filtered and washed with
methanol. Concentration in vacuo followed by flash chromatography
of the residue through a short silica gel column (100% methanol)
gave 45 mg (80%) of the amino ester 210 as a pale foam. .sup.1H NMR
(CDCl.sub.3, 300 MHz): .delta. 6.85 (s, 1H); 3.94 (bd, 1H, J=7.8
Hz); 3.77 (s, 3H); 3.74-3.60 (m, 2H); 3.55-3.45 (m, 1H); 3.25-3.15
(m, 1H); 3.11 (s, 3H); 2.94-2.85 (m, 1H); 2.85 (bs, 2H); 2.22-2.10
(m, 1H); 1.70-1.56 (m, 2H); 0.94 (t, 3H, J=7.5 Hz).
Example 76
[0738] Amino acid 211: A solution of methyl ester 210 (21 mg, 0.069
mmol) in THF (200 .mu.L) was treated with aqueous KOH (135 .mu.L of
a 1.039 N solution). The reaction mixture was stirred at room
temperature for 40 min and neutralized to pH 7.0 with Amberlite
IR-120 (H.sup.+) acidic resin. The resin was filtered and washed
with water and methanol. Concentration in vacuo gave the amino acid
as a pale solid which was purified by C.sub.18 reverse phase
chromatography eluting with water. Fractions containing the desired
product were pooled and lyophilized to give 3.5 mg (17%) of the
amino acid 211.
[0739] .sup.1H NMR (D.sub.2O, 300 MHz): .delta. 6.60 (d, 1H, J=1.8
Hz); 4.30-4.20 (m, 1H); 3.84-3.75 (m, 1H); 3.68-3.58 (m, 1H);
3.60-3.40 (m, 2H); 3.20 (s, 3H); 2.96-2.88 (m, 1H); 2.55-2.45 (m,
1H); 1.72-1.59 (m, 2H); 0.93 (t, 3H, J=7.4 Hz).
Example 77
[0740] Bis-Boc guanidino ester 212: Treated according to the
procedure of Kim and Qian, "Tetrahedron Lett." 34:7677 (1993). To a
solution of amine 210 (31 mg, 0.101 mmol), bis-Boc thiourea (28.5
mg, 0.103 mmol) and Et.sub.3N (47 .mu.L) in dry DMF (203 .mu.L)
cooled to 0.degree. C. was added HgCl.sub.2 (30 mg, 0.11 mmol) in
one portion. The heterogeneous reaction mixture was stirred for 30
min at 0.degree. C. and then at room temperature for 30 min, after
which the reaction was diluted with EtOAc and filtered through a
pad of celite. Concentration in vacuo followed by flash
chromatography of the residue on silica gel (40% hexanes in ethyl
acetate) gave 49 mg (89%) of 212 as a pale oil. .sup.1H NMR
(CDCl.sub.3, 300 MHz): .delta. 11.47 (s, 1H); 8.66 (d, 1H, J=8.4
Hz); 6.87 (s, 1H); 6.01 (bs, 1H); 4.50-4.35 (m, 1H); 4.04 (bd, 1H,
J=8.4 Hz); 3.76 (s, 3H); 3.70-3.60 (m, 1H); 3.53-3.45 (m, 2H); 3.02
(s, 3H); 2.85 (dd, 1H, J=5.3, 17.3 Hz); 2.42-2.30 (m, 1H);
1.66-1.55 (m, 2H); 1.49 (s, 9H); 1.48 (s, 9H); 0.93 (t, 3H, J=7.3
Hz).
Example 78
[0741] Carboxylic acid 213: To a solution of methyl ester 212 (49
mg, 0.090 mmol) in THF (1.0 mL) was added aqueous KOH (260 .mu.L of
a 1.039 N solution). The reaction mixture was stirred at room
temperature for 16 h, cooled to 0.degree. C. and acidified to pH
4.0 with Amberlite IR-120 (H.sup.+) acidic resin. The resin was
filtered and washed with water and methanol. Concentration in vacuo
gave the free acid as a pale foam which was used without further
purification in the next reaction.
Example 79
[0742] Guanidine carboxylic acid 214: To a solution of bis-Boc
guanidnyl acid 213 (crude from previous reaction) in
CH.sub.2Cl.sub.2 (2.0 mL) cooled to 0.degree. C. was added neat
trifluoroacetic acid (2.0 mL). The reaction mixture was stirred at
0.degree. C. for 1 h and then at room temperature for 1 h.
Concentration in vacuo gave a pale orange solid which was purified
by C.sub.18 reverse phase chromatography eluting with water.
Fractions containing the desired product were pooled and
lyophilized to give 10 mg (25%, 2 steps) of the guanidine
carboxylic acid 214. .sup.1H NMR (D.sub.2O, 300 MHz): .delta. 6.60
(bs, 1H); 4.22 (bd, 1H, J=9.0 Hz); 3.82-3.66 (m, 2H); 3.65-3.54 (m,
1H); 3.43 (bt, 1H, J=9.9 Hz); 3.15 (s, 3H); 2.82 (dd, 1H, J=5.0,
17.5 Hz); 2.48-2.30 (m, 1H); 1.71-1.58 (m, 2H); 0.93 (t, 3H, J=7.3
Hz).
Example 80
[0743] Propionamide methyl ester 215: Propionyl chloride (96 .mu.L,
1.1 mmol) was added to a solution of amine 205 (178 mg, 0.70 mmol,
prepared by Example 107) and pyridine (1.5 mL) in CH.sub.2Cl.sub.2
(2.0 mL) cooled to 0.degree. C. After 30 min at 0.degree. C. the
reaction was concentrated and partitioned between ethyl acetate and
brine. The organic layer was separated and washed sequentially with
saturated sodium bicarbonate, brine and dried over MgSO.sub.4.
Concentration in vacuo followed by flash chromatography of the
residue on silica gel (40% hexanes in ethyl acetate) gave 186 mg
(86%) of the propionamide methyl ester 215 as a pale yellow solid.
.sup.1H NMR (CDCl.sub.3, 300 MHz): .delta. 6.86 (t, 1H, J=2.3 Hz);
5.72 (bd, 1H, J=7.8 Hz); 4.52-4.49 (m, 1H); 4.25-4.15 (m, 1H); 3.77
(s, 3H); 3.65-3.37 (complex m, 3H); 2.87 (dd, 1H, J=5.7, 17.7 Hz);
2.28 (q, 2H, J=7.5 Hz); 2.25-2.20 (m, 1H); 1.65-1.50 (m, 2H); 1.19
(t, 3H, J=7.5 Hz); 0.92 (t, 3H, J=7.5 Hz).
Example 81
[0744] Amino methyl ester 216: A solution of azide 215 (186 mg,
0.60 mmol) in THF (5.0 mL) and water (400 .mu.L) was treated with
polymer supported triphenyl phosphine (560 mg) at room temperature.
After stirring for 21 h the polymer was filtered and washed with
methanol. Concentration in vacuo gave the crude amino ester 216
which was used without any further purification for the next
step.
Example 82
[0745] Amino acid 217: A solution of methyl ester 216 (crude from
previous reaction) in THF (500 .mu.L) was treated with aqueous KOH
(866 .mu.L of a 1.039 N solution). The reaction mixture was stirred
at room temperature for 3 h and neutralized to pH 7.0 with
Amberlite IR-120 (H.sup.+) acidic resin. The resin was filtered and
washed with water and methanol. Concentration in vacuo gave the
amino acid as a pale solid which was purified by C.sub.18 reverse
phase chromatography eluting with water. Fractions containing the
desired product were pooled and lyophilized to give 49 mg (31% 2
steps) of the amino acid 217.
[0746] .sup.1H NMR (D.sub.2O, 300 MHz): .delta. 6.54 (s, 1H); 4.25
(bd, 1H, J=8.7 Hz); 4.13 (dd, 1H, J=9.0, 11.3 Hz); 3.74-3.60 (m,
1H); 3.61-3.40 (m, 2H); 2.85 (dd, 1H, J=5.9, 17.1 Hz); 2.55-2.40
(m, 1H); 2.35 (q, 2H, J=7.5 Hz); 1.65-1.45 (m, 2H); 1.13 (t, 3H,
J=7.5 Hz); 0.88 (t, 3H, J=7.5 Hz).
Example 83
[0747] (mono methyl) bis-Boc guanidino ester 218: To a solution of
amine 200 (51 mg, 0.19 mmol) and mono methyl bis-Boc thiourea (36
mg, 0.19 mmol) in dry DMF (1.0 mL), was added
1-(3-Dimethylaminopropyl)-3-ethylcar- bodiimide hydrochloride (38
mg) and Et.sub.3N (56 .mu.L) at room temperature. After 1.5 h at
room temperature HgCl.sub.2 (.about.75 mg, excess) was added in one
portion. The heterogeneous reaction mixture was stirred for 45 min,
diluted with ethyl acetate and filtered through a pad of celite.
The filtrate was diluted with additional ethyl acetate and washed
with dilute HCl, saturated sodium bicarbonate, brine and dried over
MgSO.sub.4. Concentration in vacuo followed by flash chromatography
of the residue on silica gel (10% methanol in ethyl acetate) gave
13 mg (16%) of the (mono methyl) bis-Boc guanidino ester 218 as a
colorless foam. .sup.1H NMR (CDCl.sub.3, 300 MHz): .delta. 6.84 (s,
1H); 6.20 (bd, 1H, J=5.1 Hz); 5.45 (bs, 1H); 4.25-4.40 (bm, 1H);
4.20-4.05 (bm, 2H); 3.76 (s, 3H); 3.60-3.50 (m, 1H); 3.43-3.30 (m,
1H); 2.90 (dd, 1H, J=5.4, 17.7 Hz); 2.77 (d, 3H, J=4.8 Hz);
2.35-2.25 (m, 1H); 1.96 (s, 3H); 1.60-1.50 (m, 2H); 1.47 (s, 9H);
0.91 (t, 3H, J=7.2 Hz).
Example 84
[0748] (mono methyl) bis-Boc guanidino acid 219: To a solution of
methyl ester 218 (13 mg, 0.031 mmol) in THF (500 .mu.L) was added
aqueous KOH (60 .mu.L of a 1.039 N solution). The reaction mixture
was stirred at room temperature for 1 h and then gently refluxed
for 1 h. The reaction was cooled to 0.degree. C. and acidified to
pH 6.0 with Amberlite IR-120 (H.sup.+) acidic resin. The resin was
filtered and washed with water and methanol. Concentration in vacuo
gave the free acid 219 which was used without further purification
in the next reaction.
Example 85
[0749] (mono methyl) guanidino amino acid 220: To a solution of
(mono methyl) bis-Boc guanidnyl acid 219 (crude from previous
reaction) in CH.sub.2Cl.sub.2 (1.0 mL) cooled to 0.degree. C. was
added neat trifluoroacetic acid (1.0 mL). The reaction mixture was
stirred at 0.degree. C. for 1 h and then at room temperature for 1
h. Concentration in vacuo gave a pale solid which was purified by
C.sub.18 reverse phase chromatography eluting with water. Fractions
containing the desired product were pooled and lyophilized to give
4.4 mg (33%, 2 steps) of the guanidine carboxylic acid 220. .sup.1H
NMR (D.sub.2O, 300 MHz): .delta. 6.52 (bs, 1H); 4.27 (bd, 1H, J=8.4
Hz); 4.01 (dd, 1H, J=9.2, 10.3 Hz); 3.86-3.75 (m, 1H); 3.75-3.67
(m, 1H); 3.60-3.49 (m, 1H); 2.85 (s, 3H); 2.80 (dd, 1H, J=5.1, 17.7
Hz); 2.47-2.37 (m, 1H); 2.04 (s, 3H); 1.64-1.50 (m, 2H); 0.90 (t,
3H, J=7.2 Hz).
Example 86
[0750] (R)-methyl propyl ester 221: BF.sub.3.Et.sub.2O (63 .mu.L,
0.51 mmol) was added to a solution of N-trityl aziridine 183 (150
mg, 0.341 mmol) in (R)-(-)-2-butanol (1.2 mL) under argon with
stirring at room temperature. The pale solution was heated at
70.degree. C. for 2 h and then concentrated in vacuo to give a
brown residue which was dissolved in dry pyridine (2.0 mL) and
treated with acetic anhydride (225 .mu.L) and a catalytic amount of
DMAP (few crystals) at 0.degree. C. The reaction was allowed to
warm to room temperature and stirred for 2 h, concentrated in vacuo
and partitioned between ethyl acetate and brine. The organic layer
was separated and washed sequentially with dilute HCl, saturated
sodium bicarbonate, brine and dried over MgSO.sub.4. Concentration
in vacuo followed by flash chromatography of the residue on silica
gel (50% hexanes in ethyl acetate) gave 75 mg (72%) of the
(R)-methyl propyl ester 221 as a pale solid. .sup.1H NMR
(CDCl.sub.3, 300 MHz): .delta. 6.79 (t, 1H, J=2.2 Hz); 6.14 (d, 1H,
J=7.3 Hz); 4.55 (bd, 1H, J=8.7 Hz); 4.33-4.23 (m, 1H); 3.77 (s,
3H); 3.56-3.45 (m, 1H); 3.40-3.27 (m, 1H); 2.85 (dd, 1H, J=5.5,
17.5 Hz); 2.30-2.15 (m, 1H); 2.04 (s, 3H); 1.5901.40 (m, 2H); 1.10
(d, 3H, J=6.0 Hz); 0.91 (t, 3H, J=7.4 Hz).
Example 87
[0751] (R)-methyl propyl amino ester 222: Ph.sub.3P (95 mg, 0.36
mmol) was added in one portion to a solution of azide 221 (75 mg,
0.24 mmol) and water (432 .mu.L) in THF (3.0 mL). The pale yellow
solution was then heated at 50.degree. C. for 10 h, cooled and
concentrated in vacuo to give a pale solid. Purification by flash
chromatography on silica gel (50% methanol in ethyl acetate) gave
66 mg (97%) of the amino ester 222 as a pale solid.
Example 88
[0752] Amino acid 223: A solution of methyl ester 222 (34 mg, 0.12
mmol) in THF (1.0 mL) was treated with aqueous KOH (175 .mu.L of a
1.039 N solution). The reaction mixture was stirred at room
temperature for 3 h and acidified to pH 6.0 with Amberlite IR-120
(H.sup.+) acidic resin. The resin was filtered and washed with
water and methanol. Concentration in vacuo gave the amino acid as a
pale solid which was purified by C.sub.18 reverse phase
chromatography eluting with water. Fractions containing the desired
product were pooled and lyophilized to give 11.5 mg (36%) of the
amino acid 223. .sup.1H NMR (D.sub.2O, 300 MHz): .delta. 6.52 (bs,
1H); 4.28 (bd, 1H, J=8.7 Hz); 4.04 (dd, 1H, J=8.8, 11.5 Hz);
3.74-3.65 (m, 1H); 3.50-3.60 (m, 1H); 2.90 (dd, 1H, J=5.5, 17.2
Hz); 2.50-2.40 (m, 1H0; 2.10 (s, 3H); 1.60-1.45 (m, 2H); 1.14 (d,
3H, J=6.2 Hz); 0.91 (t, 3H, J=7.4 Hz).
Example 89
[0753] bis-Boc guanidino ester 224: Treated according to the
procedure of Kim and Qian, "Tetrahedron Lett.", 34:7677 (1993). To
a solution of amine 222 (32 mg, 0.113 mmol), bis-Boc thiourea (32
mg, 0.115 mmol) and Et.sub.3N (53 .mu.L) in dry DMF (350 .mu.L)
cooled to 0.degree. C. was added HgCl.sub.2 (34 mg, 0.125 mmol) in
one portion. The heterogeneous reaction mixture was stirred for 45
min at 0.degree. C. and then at room temperature for 1 h, after
which the reaction was diluted with EtOAc and filtered through a
pad of celite. Concentration in vacuo followed by flash
chromatography of the residue on silica gel (20% hexanes in ethyl
acetate) gave 57 mg (96%) of 224 as a colorless foam. .sup.1H NMR
(CDCl.sub.3, 300 MHz): .delta. 11.40 (s, 1H); 8.65 (d, 1H, J=7.8
Hz); 6.82 (s, 1H); 6.36 (d, 1H, J=8.7 Hz); 4.46-4.34 (m, 1H);
4.20-4.10 (m, 1H); 4.10-3.95 (m, 1H); 3.76 (s, 3H); 2.79 (dd, 1H,
J=5.4, 17.7 Hz); 2.47-2.35 (m, 1H); 1.93 (s, 3H); 1.60-1.45 (m,
2H); 1.49 (s, 18H); 1.13 (d, 3H, J=6.0 Hz); 0.91 (t, 3H, J=7.5
Hz).
Example 90
[0754] Carboxylic acid 225: To a solution of methyl ester 224 (57
mg, 0.11 mmol) in THF (1.5 mL) was added aqueous KOH (212 .mu.L of
a 1.039 N solution). The reaction mixture was stirred at room
temperature for 16 h, cooled to 0.degree. C. and acidified to pH
4.0 with Amberlite IR-120 (H.sup.+) acidic resin. The resin was
filtered and washed with water and methanol. Concentration in vacuo
gave the free acid as a pale foam which was used without further
purification in the next reaction.
Example 91
[0755] Guanidine carboxylic acid 226: To a solution of bis-Boc
guanidnyl acid 225 (crude from previous reaction) in
CH.sub.2Cl.sub.2 (4.0 mL) cooled to 0.degree. C. was added neat
trifluoroacetic acid (4.0 mL). The reaction mixture was stirred at
0.degree. C. for 1 h and then at room temperature for 2 h.
Concentration in vacuo gave a pale orange solid which was purified
by C.sub.18 reverse phase chromatography eluting with water.
Fractions containing the desired product were pooled and
lyophilized to give 18.4 mg (40%, 2 steps) of the guanidine
carboxylic acid 226. .sup.1H NMR (D.sub.2O, 300 MHz): .delta. 6.47
(s, 1H); 4.28 (bd, 1H, J=8.4 Hz); 3.93-3.74 (m, 2H); 3.72-3.63 (m,
1H); 2.78 (dd, 1H, J=4.8, 17.4 Hz); 2.43-2.32 (m, 1H); 1.58-1.45
(m, 2H); 1.13 (d, 3H, J=6.0 Hz); 0.90 (t, 3H, J=7.4 Hz).
Example 92
[0756] (Diethyl) methyl ether ester 227: BF.sub.3.Et.sub.2O (43
.mu.L, 0.35 mmol) was added to a solution of N-trityl aziridine 183
(104 mg, 0.24 mmol) in 3-pentanol (2.0 mL) under argon with
stirring at room temperature. The pale solution was heated at
75.degree. C. for 1.5 h and then concentrated in vacuo to give a
brown residue which was dissolved in dry pyridine (2.0 mL) and
treated with acetic anhydride (235 .mu.L) and a catalytic amount of
DMAP (few crystals) at 0.degree. C. The reaction was allowed to
warm to room temperature and stirred for 1.5 h, concentrated in
vacuo and partitioned between ethyl acetate and brine. The organic
layer was separated and washed sequentially with dilute HCl,
saturated sodium bicarbonate, brine and dried over MgSO.sub.4.
Concentration in vacuo followed by flash chromatography of the
residue on silica gel (50% hexanes in ethyl acetate) gave 41 mg
(53%) of the (Diethyl) methyl ether ester 227. .sup.1H NMR
(CDCl.sub.3, 300 MHz): .delta. 6.79 (t, 1H, J=2.1 Hz); 5.92 (d, 1H,
J=7.5 Hz); 4.58 (bd, 1H, J=8.7 Hz); 4.35-4.25 (m, 1H); 3.77 (s,
3H); 3.36-3.25 (m, 2H); 2.85 (dd, 1H, J=5.7, 17.4 Hz); 2.29-2.18
(m, 1H); 2.04 (s, 3H); 1.60-1.45 (m, 4H); 0.91 (t, 3H, J=3.7 Hz);
0.90 (t, 3H, J=7.3 Hz).
Example 93
[0757] (Diethyl) methyl ether amino ester 228: Ph.sub.3P (52 mg,
0.19 mmol) was added in one portion to a solution of azide 227. (41
mg, 0.13 mmol) and water (234 .mu.L) in THF (2.0 mL). The pale
yellow solution was then heated at 50.degree. C. for 10 h, cooled
and concentrated in vacuo to give a pale solid. Purification by
flash chromatography on silica gel (50% methanol in ethyl acetate)
gave 31 mg (80%) of the amino ester 228 as a pale white solid.
.sup.1H NMR (CDCl.sub.3, 300 MHz): .delta. 6.78 (t, 1H, J=2.1 Hz);
5.68 (bd, 1H, J=7.8 Hz); 4.21-4.18 (m, 1H); 3.75 (s, 3H); 3.54-3.45
(m, 1H); 3.37-3.15 (m, 2H); 2.74 (dd, 1H, J=5.1, 17.7 Hz);
2.20-2.07 (m, 1H); 2.03 (s, 3H); 1.69 (bs, 2H, --NH.sub.2);
1.57-1.44 (m, 4H); 0.90 (t, 3H, J=7.5 Hz); 0.89 (t, 3H, J=7.5
Hz).
Example 94
[0758] Amino acid 229: A solution of methyl ester 228 (31 mg, 0.104
mmol) in THF (1.0 mL) was treated with aqueous KOH (203 .mu.L of a
1.039 N solution). The reaction mixture was stirred at room
temperature for 2 h and acidified to pH 6.0 with Amberlite IR-120
(H.sup.+) acidic resin. The resin was filtered and washed with
water and methanol. Concentration in vacuo gave the amino acid as a
pale solid which was purified by C.sub.18 reverse phase
chromatography eluting with water. Fractions containing the desired
product were pooled and lyophilized to give 14.3 mg (48%) of the
amino acid 229. .sup.1H NMR (D.sub.2O, 300 MHz): .delta. 6.50 (t,
1H, J=2.1 Hz); 4.30-4.26 (m, 1H); 4.03 (dd, 1H, J=9.0, 11.7 Hz);
3.58-3.48 (m, 2H); 2.88 (dd, 1H, J=5.4, 16.8 Hz); 2.53-2.41 (m,
1H); 1.62-1.40 (m, 4H); 0.90 (t, 3H, J=7.5 Hz); 0.85 (t, 3H, J=7.5
Hz).
Example 95
[0759] t-amyl ether ester 230: BF.sub.3.Et.sub.2O (43 .mu.L, 0.35
mmol) was added to a solution of N-trityl aziridine 183 (104 mg,
0.24 mmol) in t-amyl alcohol (2.5 mL) under argon with stirring at
room temperature. The pale solution was heated at 75.degree. C. for
3 h and then concentrated in vacuo to give a brown residue which
was dissolved in dry pyridine (2.0 mL) and treated with acetic
anhydride (250 .mu.L) and a catalytic amount of DMAP (few
crystals). The reaction was stirred at room temperature for 1.5 h,
concentrated in vacuo and partitioned between ethyl acetate and
brine. The organic layer was separated and washed sequentially with
dilute HCl, saturated sodium bicarbonate, brine and dried over
MgSO.sub.4. Concentration in vacuo followed by flash chromatography
of the residue on silica gel (50% hexanes in ethyl acetate) gave 27
mg (35%) of the t-amyl ether ester 230 as a pale orange oil.
.sup.1H NMR (CDCl.sub.3, 300 MHz): .delta. 6.72 (t, 1H, J=2.1 Hz);
5.83 (d, 1H, J=7.2 Hz); 4.71 (bd, 1H, J=8.1 Hz); 4.45-4.35 (m, 1H);
3.75 (s, 3H); 3.27-3.17 (m, 1H); 2.84 (dd, 1H, J=5.7, 17.4 Hz);
2.27-2.15 (m, 1H); 2.05 (s, 3H); 1.57-1.47 (m, 2H); 1.19 (s, 3H);
1.15 (s, 3H); 0.90 (t, 3H, J=7.5 Hz).
Example 96
[0760] t-amyl ether amino ester 231: Ph.sub.3P (35 mg, 0.133 mmol)
was added in one portion to a solution of azide 230 (27 mg, 0.083
mmol) and water (160 .mu.L) in THF (1.5 mL). The pale orange
solution was then heated at 50.degree. C. for 10 h, cooled and
concentrated in vacuo to give a pale solid. Purification by flash
chromatography on silica gel (50% methanol in ethyl acetate) gave
20 mg (82%) of the amino ester 231 as a pale oil.
Example 97
[0761] Amino acid 232: A solution of methyl ester 231 (20 mg, 0.068
mmol) in THF (1.0 mL) was treated with aqueous KOH (131 .mu.L of a
1.039 N solution). The reaction mixture was stirred at room
temperature for 2.5 h and acidified to pH 5.0 with Amberlite IR-120
(H.sup.+) acidic resin. The resin was filtered and washed with
water and methanol. Concentration in vacuo gave the amino acid as a
pale solid which was purified by C.sub.18 reverse phase
chromatography eluting with water. Fractions containing the desired
product were pooled and lyophilized to give 8.6 mg (45%) of the
amino acid 232. .sup.1H NMR (D.sub.2O, 300 MHz): .delta. 6.47 (bs,
1H); 4.42 (bd, 1H, J=8.1 Hz); 3.97 (dd, 1H, J=8.4, 11.4 Hz);
3.65-3.54 (m, 1H); 2.88 (dd, 1H, J=5.5, 17.3 Hz); 2.51-2.39 (m,
1H); 2.08 (s, 3H); 1.61-1.46 (m, 2H); 1.23 (s, 3H); 1.18 (s, 3H),
0.86 (t, 3H, J=7.5 Hz).
Example 98
[0762] n-Propyl thio ether ester 233: BF.sub.3.Et.sub.2O (130
.mu.L, 1.06 mmol) was added to a solution of N-trityl aziridine 183
(300 mg, 0.68 mmol) in 1-propanethiol (8.0 mL) under argon with
stirring at room temperature. The pale solution was then heated at
65.degree. C. for 45 min, concentrated and partitioned between
ethyl acetate and brine. The organic layer was separated and washed
with saturated sodium bicarbonate, brine and dried over MgSO.sub.4.
Concentration in vacuo followed by flash chromatography of the
residue on silica gel (30% hexanes in ethyl acetate) gave 134 mg
(73%) of the n-propyl thio ether ester 233 as a pale oil. .sup.1H
NMR (CDCl.sub.3, 300 MHz): .delta. 6.87 (t, 1H, J=2.4 Hz); 3.77 (s,
3H); 3.48-3.38 (m, 1H); 3.22-3.18 (m, 1H), 2.93 (dd, 1H, J=5.4,
17.4 Hz); 2.80 (t, 1H, J=9.9 Hz); 2.51 (t, 2H, J=7.2 Hz); 2.32-2.20
(m, 1H); 1.96 (bs, 2H, --NH.sub.2), 1.69-1.56 (m, 2H); 1.00 (t, 3H,
J=7.2 Hz).
Example 99
[0763] n-Propyl thio ether azido ester 234: To a solution of amine
233 (134 mg, 0.50 mmol) in pyridine (1.5 mL) cooled to 0.degree. C.
was added neat acetyl chloride (60 .mu.L, 0.84 mmol). After
stirring for 1 h the reaction mixture was warmed to room
temperature and stirred for an additional 15 min. The reaction was
concentrated and partitioned between ethyl acetate and brine and
washed sequentially with dilute HCl, water, saturated sodium
bicarbonate, brine and dried over MgSO.sub.4. Concentration in
vacuo followed by flash chromatography of the residue on silica gel
(30% hexanes in ethyl acetate) gave 162 mg (100%) of the n-Propyl
thio ether azido ester 234 as a pale yellow solid. .sup.1H NMR
(CDCl.sub.3, 300 MHz): .delta. 6.90 (t, 1H, J=2.7 Hz); 5.87 (bd,
1H, J=7.8 Hz); 4.07-3.98 (m, 1H); 3.77 (s, 3H); 3.65-3.55 (m, 1H);
2.95-2.85 (m, 1H); 2.60-2.45 (m, 2H); 2.30-2.18 (m, 1H); 2.08 (s,
3H); 1.65-1.53 (m, 2H); 0.98 (t, 3H, J=7.2 Hz).
Example 100
[0764] n-Propyl thio ether amino ester 235: The azide 234 (130 mg,
0.416 mmol) in ethyl acetate (10 mL) was hydrogenated (1
atmosphere) over Lindlar's catalyst (150 mg) for 18 h at room
temperature. The catalyst was then filtered through a celite pad
and washed with hot ethyl acetate and methanol. Concentration in
vacuo followed by flash chromatography of the orange residue gave
62 mg (53%) of the n-propyl thio ether amino ester 235.
[0765] .sup.1H NMR (CDCl.sub.3, 300 MHz): .delta. 6.88 (t, 1H,
J=2.7 Hz); 5.67 (bd, 1H, J=8.7 Hz); 3.76 (s, 3H); 3.75-3.65 (m,
1H); 3.45-3.35 (bm, 1H); 3.05-2.95 (m, 1H); 2.87-2.78 (m, 1H);
2.56-2.40 (m, 2H); 2.18-2.05 (m, 1H); 2.09 (s, 3H); 1.65-1.50 (m,
2H); 1.53 (bs, 2H, --NH.sub.2); 0.98 (t, 3H, J=7.2 Hz).
Example 101
[0766] Compound 240: A suspension of Quinic acid (103 g),
2,2-dimethoxypropane (200 mL) and toluenesulfonic acid (850 mg) in
acetone (700 mL) was stirred at room temperature for 4 days.
Solvents and excess reagents were removed under reduced pressure.
Purification by flash column chromatography
(Hexanes/EtOAc=2/1-1.5/1) gave lactone 240 (84 g, 73%):
[0767] .sup.1H NMR (CDCl.sub.3) .delta. 4.72 (dd, J=2.4, 6.1 Hz,
1H), 4.50 (m, 1H), 4.31 (m, 1H), 2.67 (m, 2H), 2.4-2.2 (m, 3H),
1.52 (s, 3H), 1.33 (s, 3H). Performing the reaction at reflux
temperatures for 4 h afforded lactone 240 in 71% yield after
aqueous work-up (ethyl acetate/water partition) and
recrystallization of the crude product from ethyl
acetate/hexane.
Example 102
[0768] Compound 241: To a solution of lactone 240 (43.5 g, 203
mmol) in methanol (1200 mL) was added sodium methoxide (4.37 M,
46.5 ml, 203 mmol) in one portion. The mixture was stirred at room
temperature for 3 hrs, and quenched with acetic acid (11.62 mL).
Methanol was removed under reduced pressure. The mixture was
diluted with water, and extracted with EtOAc (3.times.). The
combined organic phase was washed with water (1.times.) and brine
(1.times.), and dried over MgSO.sub.4. Purification by flash column
chromtography (Hexanes/EtOAc=1/1 to 1/4) gave diol (43.4 g, 87%):
.sup.1H NMR (CDCl.sub.3) .delta. 4.48 (m, 1H), 4.13 (m, 1H), 3.99
(t, J=6.4 Hz, 1H), 3.82 (s, 3H), 3.34 (s, 1H), 2.26 (d, J=3.8 Hz,
2H), 2.08 (m, 1H), 1.91 (m, 1H), 1.54 (s, 3H), 1.38 (s, 3H).
Alternatively, treatment of lactone 240 with catalytic sodium
ethoxide (1 mol %) in ethanol gave the corresponding ethyl ester in
67% after crystallization of the crude product from ethyl
acetate/hexane. The residue obtained from the mother liquor
(consisting of starting material and product) was subjected again
to the same reaction conditions, affording additional product after
recrystallization. Overall yield was 83%.
Example 103
[0769] Compound 242: To a solution of diol 241 (29.8 g, 121 mmol)
and 4-(N,N-dimethylamino)pyridine (500 mg) in pyridine (230 mL) was
added tosyl chloride (27.7 g, 145 mmol). The mixture was stirred at
room temperature for 3 days, and pyridine was removed under reduced
pressure. The mixture was diluted with water, and extracted with
EtOAc (3.times.). The combined organic phase was washed with water
(2.times.) and brine (1.times.), and dried over MgSO.sub.4.
Concentration and purification by flash column chromatography
(Hexanes/EtOAc=2/1-1/1) gave tosylate 242 (44.6 g, 92%): .sup.1H
NMR (CDCl.sub.3) .delta. 7.84 (d, J=8.4 Hz, 2H), 7.33 (d, J=8.1 Hz,
2H), 4.76 (m, 1H), 4.42 (m, 1H), 4.05 (dd, J=5.5, 7.5 Hz, 1H), 3.80
(s, 3H), 2.44 (s, 3H), 2.35 (m, 1H), 2.24 (m, 2H), 1.96 (m, 1H),
1.26 (s, 3H), 1.13 (s, 3H). The corresponding ethyl ester of
compound 241 was treated with methanesulfonyl chloride and
triethylamine in CH.sub.2Cl.sub.2 at 0.degree. C. to afford the
mesylate derivative in quantitative yield after aqueous work-up.
The mesylate was used directly without any further
purification.
Example 104
[0770] Compound 243: To a solution of tosylate 242 (44.6 g, 111.5
mmol) in CH.sub.2Cl.sub.2 (450 mL) at -78.degree. C. was added
pyridine (89 mL), followed by slow addition of SO.sub.2Cl.sub.2
(26.7 mL, 335 mmol). The mixture was stirred at -78.degree. C. for
5 hrs, and methanol (45 mL) was added dropwise. The mixture was
warmed to room temperature and stirred for 12 hrs. Ethyl ether was
added, and the mixture was washed with water (3.times.) and brine
(1.times.), and dried over MgSO.sub.4. Concentration gave the
intermediate as a oil (44.8 g). To a solution of the intermediate
(44.8 g, 111.5 mmol) in MeOH (500 mL) was added TsOH (1.06 g, 5.6
mmol). The mixture was refluxed for 4 hrs. The reaction mixture was
cooled to room temperature, and methanol was removed under reduced
pressure. Fresh methanol (500 mL) was added, and the whole mixture
was refluxed for another 4 hrs. The reaction mixture was cooled to
room temperature, and methanol was removed under reduced pressure.
Purification by flash column chromatography (Hexanes/EtOAc=3/1-1/3)
gave a mixture of the two isomers (26.8 g). Recrystalization from
EtOAc/Hexanes afforded the pure desired product 243 (20.5 g, 54%):
.sup.1H NMR (CDCl.sub.3) .delta. 7.82 (d, J=8.3 Hz, 2H), 7.37 (d,
J=8.3 Hz, 2H), 6.84 (m, 1H), 4.82 (dd, J=5.8, 7.4 Hz, 1H), 4.50 (m,
1H), 3.90 (dd, J=4.4, 8.2 Hz, 1H), 3.74 (s, 3H), 2.79 (dd, J=5.5,
18.2 Hz, 1H), 2.42 (dd, J=6.6, 18.2 Hz, 1H). The corresponding
mesylate-ethyl ester derivative of compound 242 was treated in the
same manner as described. Removal of the acetonide protecting group
was accomplished with acetic acid in refluxing ethanol to afford
the diol in 39% yield by direct precipitation with ether from the
crude reaction mixture.
Example 105
[0771] Compound 1: To a solution of diol 243 (20.0 g, 58.5 mmol) in
THF (300 mL) at 0.degree. C. was added DBU (8.75 mL, 58.5 mmol).
The reaction mixture was warmed to room temperature, and stirred
for 12 hrs. Solvent (THF) was removed under reduced pressure.
Purification by flash column chromatography (Hexanes/EtOAc=1/3)
gave epoxide 1 (9.72 g, 100%): .sup.1H NMR (CDCl.sub.3) .delta.
6.72 (m, 1H), 4.56 (td, J=2.6, 10.7 Hz, 1H), 3.76 (s, 3H), 3.56 (m,
2H), 3.0 (d, J=21 Hz, 1H), 2.50 (d, J=20 Hz, 1H), 2.11 (d, 10.9 Hz,
1H). The corresponding mesylate-ethyl ester derivative of compound
243 was treated in the same manner as described, affording the
epoxide in nearly quantitative yield.
Example 106
[0772] Aziridine 244: A solution of allyl ether 4 (223 mg, 1.07
mmol) and Lindlar's catalyst (200 mg) in absolute ethanol (8.0 mL)
was treated with hydrogen gas (1 atmosphere) at room temperature
for 50 min. The catalyst was then filtered through a celite pad and
washed with hot methanol. Concentration in vacuo gave .about.230 mg
of 244 as pale yellow oil which was used for the next reaction
without any further purification.
Example 107
[0773] Azido amine 205: Crude aziridine 244 (230 mg), sodium azide
(309 mg, 4.75 mmol) and ammonium chloride (105 mg, 1.96 mmol) in
dry DMF (10 mL) was heated at 70.degree. C. for 16 h under an argon
atmosphere. The reaction was cooled, filtered through a fritted
glass funnel to remove solids and partitioned between ethyl acetate
and brine. The organic layer was separated and dried over
MgSO.sub.4. Concentration in vacuo followed by flash chromatography
of the residue on silica gel (10% hexanes in ethyl acetate) gave
154 mg (57%, 2 steps) of 205 as a yellow viscous oil of sufficient
purity for the next reaction.
Example 108
[0774] N-acetyl azide 245: Acetyl chloride (70 .mu.l, 0.98 mmol)
was added to a solution of amine 205 (154 mg, 0.61 mmol) and
pyridine (1.3 mL) in CH.sub.2Cl.sub.2 (4.0 mL) cooled to 0.degree.
C. After 1.5 h at 0.degree. C. the reaction was concentrated and
partitioned between ethyl acetate and brine. The organic layer was
separated and washed sequentially with saturated sodium
bicarbonate, brine and dried over MgSO.sub.4. Concentration in
vacuo followed by flash chromatography of the residue on silica gel
(ethyl acetate) gave 167 mg (93%) of 245 as a pale yellow
solid.
Example 109
[0775] Amino ester 200: Triphenyl phosphine (1.7 g, 6.48 mmol) was
added in several portions to a solution of 245 (1.78 g, 6.01 mmol)
in THF (40 mL) and water (1.5 mL). The reaction was then stirred at
room temperature for 42.5 h. Volatiles were removed under vaccum
and the crude solid absorbed onto silica gel and purified by flash
chromatography on silica gel (100% ethyl acetate then 100%
methanol) to give 1.24 g (77%) of 200 as a pale solid.
Example 110
[0776] Amino acid 102: To a solution of methyl ester 200 (368 mg,
1.37 mmol) in THF (4.0 mL) cooled to 0.degree. C. was added aqueous
NaOH (1.37 mL of a 1.0 N solution). The reaction mixture was
stirred at 0.degree. C. for 10 min, room temperature for 1.5 h and
then acidified to pH 7.0-7.5 with Amberlite IR-120 (H.sup.+) acidic
resin. The resin was filtered and washed with water and methanol.
Concentration in vacuo gave the amino acid as a white solid which
was purified by C.sub.18 reverse phase chromatography eluting with
water. Fractions containing the desired product were pooled and
lyophilized to give 290 mg (83%) of amino acid 102.
Example 111
[0777] Amine hydrochloride 250: Amine 228 (15.6 mg, 0.05 mmol) was
treated with 0.1 N HCl and was evaporated. The residue was
dissolved in water and was filtered through a small column of C-18
reverse phase silica gel. The hydrochloride salt 250 (12 mg) was
obtained as a solid after lyophilization:
[0778] .sup.1H NMR (D.sub.2O) .delta. 6.86 (s, 1H), 4.35 (br d,
J=9.0), 4.06 (dd, 1H, J=9.0, 11.6), 3.79 (s, 3H), 3.65-3.52 (m,
2H), 2.97 (dd, 1H, J=5.5, 17.2), 2.58-2.47 (m, 1H), 2.08 (s, 3H),
1.61-1.41 (m, 4H), 0.88 (t, 3H, J=7.4), 0.84 (t, 3H, J=7.4).
Example 112
[0779] Bis-Boc-guanidine 251: To a solution of amine 228 (126 mg,
0.42 mmol), N, N'-bis-tert-butoxycarbonylthiourea (127 mg, 0.46
mmol), and triethylamine (123 .mu.L, 0.88 mmol) in DMF (4 mL) at
0.degree. C. was added HgCl.sub.2 (125 mg, 0.46 mmol). The mixture
was stirred at 0.degree. C. for 30 min and at room temperature for
1.5 h. The reaction was diluted with ethyl acetate and filtered
through celite. The solvent was evaporated and the residue was
partitioned between ethyl acetate and water. The organic phase was
washed with saturated NaCl, dried (MgSO.sub.4), filtered and the
solvent was evaporated. The crude product was purified on silica
gel (2/1, 1/1-hexane/ethyl acetate) to afford bis-Boc-guanidine 251
(155 mg, 69%) as a solid: .sup.1H NMR (CDCl.sub.3) .delta. 11.40
(s, 1H), 8.66 (d, 1H, J=7.9), 6.8 (s, 1H), 6.22 (d, 1H, J=8.9),
4.43-4.34 (m, 1H), 4.19-4.08 (m, 1H), 4.03 (m, 1H), 3.76 (s, 3H),
3.35 (m, 1H), 2.79 (dd, 1H), J=5.4, 17.7), 2.47-2.36 (m, 1H), 1.92
(s, 3H), 1.50, 1.49 (2s, 18H), 0.89 (m, 6H).
Example 113
[0780] Guanidino-acid 252: To a solution of bis-Boc-guanidine 251
(150 mg, 0.28 mmol) in THF (3 mL) was added 1.039N KOH solution
(337 .mu.L) and water (674 .mu.L). The mixture was stirred for 3 h,
additional 1.039N KOH solution (67 .mu.L) was added and stirring
was continued for 2 h. The reaction was filtered to remove a small
amount of dark precipitate. The filtrate was cooled to 0.degree. C.
and was acidified with IR 120 ion exchange resin to pH 4.5-5.0. The
resin was filtered and washed with methanol. The filtrate was
evaporated to a residue which was dissolved in CH.sub.2Cl.sub.2 (3
mL), cooled to 0.degree. C., and was treated with trifluoroacetic
acid (3 mL). After stirring 10 min. at 0.degree. C., the reaction
was stirred at room temperature for 2.5 h. The solvents were
evaporated and the residue was dissolved in water and was
chromatographed on a short column (3.times.1.5 cm) of C-18 reverse
phase silica gel eluting initially with water and then 5%
acetonitrile/water. Product fractions were combined and evaporated.
The residue was dissolved in water and lyophilized to afford
guanidino-acid 252 (97 mg, 79%) as a white solid.
Example 114
[0781] Azido acid 260: To a solution of methyl ester 227 (268 mg,
0.83 mmol) in THF (7.0 mL) was added aqueous KOH (1.60 mL of a
1.039 N solution) at room temperature. After stirring for 19 h at
room temperature the reaction was acidified to pH 4.0 with
Amberlite IR-120 (H.sup.+) acidic resin. The resin was filtered and
washed with water and ethanol. Concentration in vacuo gave the
crude azido acid 260 as a pale orange foam which was used for the
next reaction without any further purification.
Example 115
[0782] Azido ethyl ester 261: To a solution of carboxylic acid 260
(crude from previous reaction, assume 0.83 mmol), ethyl alcohol
(150 .mu.L), and catalytic DMAP in CH.sub.2Cl.sub.2 (6.0 mL) was
added DCC (172 mg, 0.83 mmol) in one portion at room temperature.
After several minutes a precipitate formed and after an additional
1 h of stirring the reaction was filtered and washed with
CH.sub.2Cl.sub.2. Concentration in vacuo afforded a pale solid
which was purified by flash chromatography on silica gel (50%
hexanes in ethyl acetate) to give 272 mg (96%, small amount of DCU
impurity present) of 261 as a white solid. When DCC was replaced by
diisopropyl carbodiimide than the yield of 261 was 93% but the
chromatographic purification eliminated urea impurities present
when DCC was used.
Example 116
[0783] Amino ethyl ester 262: Triphenyl phosphine (342 mg, 1.30
mmol) was added in one portion to a solution of 261 (272 g, 0.80
mmol) in THF (17 mL) and water (1.6 mL). The reaction was then
heated at 50.degree. C. for 10 h, cooled and concentrated in vacuo
to give a pale white solid. Purification of the crude solid by
flash chromatography on silica gel (50% methanol in ethyl acetate)
gave 242 mg (96%) of the amino ethyl ester 262 as a pale solid. The
amino ethyl ester is dissolved in 3N HCl and lyophilized to give
the corresponding water soluble HCl salt form. .sup.1H NMR
(D.sub.2O, 300 MHz): .delta. 6.84 (s, 1H); 4.36-4.30 (br m, 1H);
4.24 (q, 2H, J=7.2 Hz); 4.05 (dd, 1H, J=9.0, 11.7 Hz); 3.63-3.50
(m, 2H); 2.95 (dd, 1H, J=5.7, 17.1 Hz); 2.57-2.45 (m, 1H);
1.60-1.39 (m, 4H); 1.27 (t, 3H, J=7.2 Hz); 0.89-0.80 (m, 6H).
Example 117
[0784] bis-Boc guanidino ethyl ester 263: Treated according to the
procedure of Kim and Qian, "Tetrahedron Lett." 34:7677 (1993). To a
solution of amine 262 (72 mg, 0.23 mmol), bis-Boc thiourea (66 mg,
0.24 mmol) and Et.sub.3N (108 .mu.L) in dry DMF (600 .mu.L) cooled
to 0.degree. C. was added HgCl.sub.2 (69 mg, 0.25 mmol) in one
portion. The heterogeneous reaction mixture was stirred for 1 h at
0.degree. C. and then at room temperature for 15 min, after which
the reaction was diluted with EtOAc and filtered through a pad of
celite. Concentration in vacuo followed by flash chromatography of
the residue on silica gel (20% hexanes in ethyl acetate) gave 113
mg (89%) of 263 as a colorless foam. .sup.1H NMR (CDCl.sub.3, 300
MHz): .delta. 11.41 (s, 1H); 8.65 (d, 1H, J=8.1 Hz); 6.83 (s, 1H);
6.22 (d, 1H, J=9.0 Hz); 4.46-4.34 (m, 1H); 4.21 (q, 2H, J=6.9 Hz);
4.22-4.10 (m, 1H); 4.04-4.00 (m, 1H); 3.36 (quintet, 1H, J=5.7 Hz);
2.78 (dd, 1H, J=5.4, 17.7 Hz); 2.46-2.35 (m, 1H); 1.94 (s, 3H);
1.60-1.40 (m, 4H); 1.49 (s, 9H); 1.50 (s, 9H); 1.30 (t, 3H, J=6.9
Hz); 0.93-0.84 (m, 6H).
Example 118
[0785] Guanidino ethyl ester 264: To a solution of bis-Boc
guanidnyl ethyl ester 263 (113 mg, 0.20 mmol) in CH.sub.2Cl.sub.2
(5.0 mL) cooled to 0.degree. C. was added neat trifluoroacetic acid
(5.0 mL). The reaction mixture was stirred at 0.degree. C. for 30
min and then at room temperature for 1.5 h. The reaction was then
concentrated in vacuo to give a pale orange solid which was
purified by C.sub.18 reverse phase chromatography eluting with
water. Fractions containing the desired product were pooled and
lyophilized to give 63 mg (66%) of the guanidine ethyl ester 264 as
white solid. .sup.1H NMR (D.sub.2O, 300 MHz): .delta. 6.82 (s, 1H);
4.35-4.31 (m, 1H); 4.24 (q, 2H, J=7.1 Hz); 3.95-3.87 (m, 1H);
3.85-3.76 (m, 1H); 3.57-3.49 (m, 1H); 2.87 (dd, 1H, J=5.1, 17.7
Hz); 2.46-2.34 (m, 1H); 2.20 (s, 3H); 1.60-1.38 9M, 4H); 1.28 (t,
3H, J=7.1 Hz); 0.90-0.80 (m, 6H).
Example 119
[0786] Enzyme Inhibition: Using the methods of screening in vitro
activity described above, the following activities were observed
(+10-100 .mu.m, ++1-10 .mu.m, +++<1.0 .mu.m):
53 Compound IC.sub.50 102/103 (2:1) +++ 8 ++ A.17.a.4.i ++ 114 ++
A.1.a.4.i ++ 79 + 82/75 (1.2:1) + 94 +++ A.100.a.11.i +++
A.101.a.11.i +++ A.113.a.4.i +++
Example 120
[0787] Compounds A.113.b.4.i and A.113.x.4.i were incubated
separately in enzyme assay buffey and tested for activity as
described in Example 119. Activity was >100 .mu.m for both. When
each compound was separately incubated in rat plasma prior to
testing as described in Example 119, activity of both was similar
to compound A.113.a.4.i.
Example 121
[0788] Studies were conducted under the supervision of Dr. Robert
Sidwell at the Institute for Antiviral Research of Utah State
University to determine the comparative anti-influenza A activity
of compound 203 (example 69), GG167 and ribavirin in vivo in mice
by i.p. or p.o. routes of administration. GG167 and ribavirin are
known anti-influenza virus compounds. 950
[0789] Mice: Female 13-15 g specific-pathogen free BALB/c mice were
obtained from Simonsen Laboratories (Gilroy, Calif.). They were
quarantined 24 hr prior to use, and maintained on Wayne Lab Blox
and tap water. Once infected, the drinking water contained 0.006%
oxytetracycline (Pfizer, New York, N.Y.) to control possible
secondary bacterial infections.
[0790] Virus: Influenza A/NWS/33 (H1N1) was obtained from K. W.
Cochran, University of Michigan (Ann Arbor, Mich.). A virus pool
was prepared by infecting confluent monolayers of Madin Darby
canine kidney (MDCK) cells, incubating them at 37.degree. C. in 5%
CO.sub.2, and harvesting the cells at 3 to 5 days when the viral
cytopathic effect was 90 to 100%. The virus stock was ampuled and
stored at -80.degree. C. until used.
[0791] Compounds: Compound 203 and GG167 were dissolved in sterile
physiological saline for this study.
[0792] Arterial Oxygen Saturation (SaO.sub.2) Determinations:
SaO.sub.2 was determined using the Ohmeda Biox 3740 pulse oximeter
(Ohmeda, Louisville, Ohio). The ear probe attachment was used, the
probe placed on the thigh of the animal, with the slow instrument
mode selected. Readings were made after a 30 second stabilization
time on each animal. Use of this device for measuring effects of
influenza virus on arterial oxygen saturation has been described by
Sidwell et al., Antimicrob. Agents Chemother. 36:473-476
(1992).
[0793] Experiment Design for Oral Administration Study: Groups of
eleven mice infected intranasally with an approximate 95% lethal
dose of virus received each dose of test compound. Doses of both
203 and GG167 were 50, 10, 2 and 0.5 mg/kg/day. Treatments were
i.p. twice daily for 5 days beginning 4 hr pre-virus exposure.
Eight of the infected, treated mice at each dosage and 16 infected,
saline-treated controls were assayed for SaO.sub.2 level on days 3
through 10; deaths were recorded daily in these animals for 21
days. The remaining three animals in each group as well as six
saline-treated control mice were killed on day 6 and their lungs
removed, weighed, assigned a consolidation score based on extent of
plum color in the lungs (0=normal, 4=100% of lung affected). Since
no toxicity had been seen at a dose of 300 mg/kg/day of 203 and
literature reports indicate GG167 to be similarly nontoxic,
toxicity controls were not included in this study.
[0794] Experiment Design for Intraperitoneal Administration Study:
Groups of 11 mice were infected intranasally with an approximate
95% lethal dose of virus and treated with 250, 50, or 10 mg/kg/day
of 203 or GG167 or with 100, 32 or 10 mg/kg/day of ribavirin.
Treatment was by oral gavage (p. o.) twice daily for 5 days
beginning 4 hr pre-virus exposure. Eight of the animals in each
group were held for 21 days, with deaths noted daily and SaO.sub.2
levels determined on days 3-10. The remaining 3 infected mice in
each group were killed on day 6 and their lungs removed, weighed,
assigned a consolidation score of 0 (normal) to 4 (100% lung
affected). Fifteen infected mice were treated with saline only and
held 21 days with SaO.sub.2 determined as above, and 6 additional
infected, saline treated mice were killed on day 6 for lung assay.
Three normal controls were held 21 days, with SaO.sub.2 determined
in parallel with the above, and an additional 3 normal animals were
killed on day 6 for lung weight and score.
[0795] Experiment Design for Low Dose Oral Administration Study:
Groups of 8 mice infected intranasally with an approximate 90%
lethal concentration of virus received each dosage of compound.
Doses of each compound were 10, 1, and 0.1 mg/kg/day. Treatments
were p.o. twice daily for 5 days beginning 4 hr pre-virus exposure.
Eight of the infected, treated mice at each dosage and 16 infected,
saline-treated controls were assayed for SaO.sub.2 level on days 3
through 11; deaths were recorded daily in these animals for 21
days.
[0796] Statistical Evaluation: Increase in survivor number was
evaluated by chi square analysis with Yates' correction. Mean
survival time increases and differences in SaO.sub.2, lung weight
and lung virus titers were analyzed by t-test. Lung score
differences were evaluated by ranked sum analysis. In all cases,
differences between drug-treated and saline-treated controls were
studied.
[0797] The results of the i.p. dosing experiment are summarized in
Table I and in FIGS. 1 and 2. While in this model both compounds
were significantly inhibitory at the high dose used, 203 treatment
also resulted in significant survivors at a dose of 10 mg/kg/day.
SaO.sub.2 decline was particularly inhibited by both compounds at
the 50 mg/kg/day dose, and again GG167 appeared to also prevent
this decline at 10 and even 2 mg/kg/day. The lung score data appear
to show the same trend of GG167 being effective at more than one
dose. Some erraticism was seen in lung weights, with lungs taken
from the mice receiving the highest dose of GG167 having a greater
mean weight than the saline-treated controls.
[0798] The p.o. dosing study is summarized in Table II, with daily
SaO.sub.2 values shown in FIGS. 3-5. Oral treatment with all three
drugs in this model was significantly inhibitory to the influenza
virus infection, preventing death, lowering lung scores and
infection-associated lung weights, and inhibiting the usual decline
in SaO.sub.2.
[0799] The p.o. low dose study results are summarized in Table III
and in FIGS. 6-8. In this experiment, the infection was lethal to
14 of 16 saline-treated animals, the mean survival time being 9.6
days in this group. While all three compounds exhibited some degree
of inhibitory effect on the virus infection, 262 (the ethyl ester
prodrug) was the most effective at every dose as evidenced by
number of survivors, mean survival time, and prevention of
SaO.sub.2 decline.
[0800] Table III shows the mean SaO.sub.2% for all assay time taken
together. The daily values for each compound are graphically
represented in FIGS. 6 through 8. FIG. 6 illustrates the SaO.sub.2
data with the highest concentrations of each compound; FIG. 7 shows
the values at the median dose of each compound, and the SaO.sub.2
values for the low dose of each compound are compared in FIG.
8.
[0801] Table III and FIGS. 6-8 indicate that while all three
compounds were active orally against an experimentally induced
influenza A (H1N1) virus infection, 262 was considered most
effective. It was not determined whether the improved antiviral
potency of 262 was unaccompanied with a concomitant increased
animal toxicity, but this is unlikely since its greater efficacy is
expected to be a result of its elevated oral bioavailability.
54TABLE I Comparison of the Effect of 203 and GG167 Administered
i.p..sup.a to Influenza A (H1N1) Virus-Infected Mice Infected,
Treated Mean Lung Dosage Parameters.sup.d Com- (mg/ Surv/ Mean
Surv. Mean Weight pound kg/day) Total Time.sup.b (days)
SaO.sub.2.sup.c % Score mg 203 50 8/8** >21.0** 87.2** 0.7* 173*
10 3/8* 10.8 84.7 2.5 217 2 0/7 12.6 84.4 2.0 203 0.5 0/8 11.1
85.2* 2.0 230 GG167 50 8/8** >21.0** 87.6** 0.7* 230 10 7/8**
15.0 87.5** 1.7 170* 2 1/8 12.6 86.0** 1.3 213 0.5 0/8 12.3 84.5
2.3 227 Saline -- 0/16 11.0 82.9 2.0 220
[0802]
55TABLE II Comparison of the Effect of Orally Administered.sup.a
203, GG167 and Ribavirin on Influenza A (H1N1) Virus Infections in
Mice. Infected, Treated Mean Lung Dosage Parameters.sup.d Com- (mg/
Surv/ Mean Surv..sup.b Mean Weight pound kg/day) Total Time (days)
SaO.sub.2.sup.c % Score (mg) 203 250 8/8** >21.0** 87.9* 0.8**
160** 50 8/8** >21.0** 87.9* 1.3* 200 10 4/8* 12.8* 87.7* 1.3*
240 GG167 250 8/8** >21.0** 88.6* 0.3** 163** 50 8/8**
>21.0** 88.0* 1.5* 187* 10 5/7* 10.5 85.2 1.5* 250 Ribavirin 100
8/8** >21.0** 88.2* 0.3** 140** 32 6/8* 13.0 88.0* 0.8** 163**
10 3/8 11.0 86.4 2.2 267 Saline -- 1/16 10.9 84.5 2.4 203
[0803]
56TABLE III Comparison of the Effect of Orally Administered.sup.a
260, 262 and GG167 on Influenza A (H1N1) Virus Infections in Mice.
Dosage Com- (mg/ Surv/ Mean Surv. Mean SaO.sub.2.sup.c pound
kg/day) total % Survivors Time.sup.b (days) (%) 260 10 6/8** 75**
13.5** 87.6* 1 3/5 38 11.8 86.8 0.1 0/8 0 10.0 84.3 262 10 8/8***
100*** >21.0** 88.1** 1 7/8*** 88*** 14.0** 87.4* 0.1 2/8 25
11.1** 85.7 GG167 10 5/8* 63* 12.3** 86.9 1 2/8 25 11.7** 85.7 0.1
0/8 0 9.8 83.5 Saline 0 2/16 13 9.6 83.8 Footnotes for Tables I-III
.sup.aBid .times. 5 beginning 4 hr pre-virus exposure.
.sup.bAnimals dying on or before day 21. .sup.cMean of values
determined on days 3-10. .sup.dDetermined on day 6. *P < 0.05,
**P < 0.01, ***P < 0.001 compared to saline-treated
controls
[0804] Surprisingly, the foregoing demonstrates that in this model
the oral or i.p. administration of GG167 was effective in practical
therapeutic doses at reducing mortality in influenza-infected mice,
despite the conclusion of Ryan et al. (Antimicrob. Agents
Chemother., 38(10):2270-2275) [1994]) that "it is likely that the
relatively poor in vivo activity seen with GG167 in mice following
intraperitoneal administration, despite good bioavailability, is
due to its rapid clearance from the plasma, permitting poor
penetration into respiratory secretions, coupled with its inability
to penetrate and persist inside cells. . . . Similarly, the poor
efficacy following oral dosing is probably a consequence of poor
oral bioavailability in addition to these other factors." (p.2274).
These observations are consistent with Von Izstein et al., WO
91/16320, WO 92/06691 and U.S. Pat. No. 5,360,817, which cover or
are directed specifically to GG167. These patent documents are
devoid of any teaching or suggestion to administer GG167 by any
other route than intranasal. However, intranasal administration is
believed to be inconvenient and costly in some circumstances. It
would be advantageous if more facile routes of administration could
be employed for GG167 and its related compounds set forth in WO
91/16320, WO 92/06691 and U.S. Pat. No. 5,360,817.
[0805] Thus, an embodiment of this invention is a method for the
treatment or prophylaxis of influenza virus infection in a host
comprising administering to the host, by a route other than
topically to the respiratory system, a therapeutically effective
dose of an antivirally active compound having formula (X) or (Y)
951
[0806] where in general formula (x), A is oxygen, carbon or
sulphur, and in general formula (y), A is nitrogen or carbon;
[0807] R.sup.1 denotes COOH, P(O)(OH).sub.2, NO.sub.2, SOOH,
SO.sub.3H, tetrazol, CH.sub.2CHO, CHO or CH(CHO).sub.2,
[0808] R.sup.2 denotes H, OR.sup.6, F, Cl, Br, CN, NHR.sup.6,
SR.sup.6, or CH.sub.2X, wherein X is NHR.sup.6, halogen or OR.sup.6
and
[0809] R.sup.6 is hydrogen; an acyl group having 1 to 4 carbon
atoms; a linear or cyclic alkyl group having 1 to 6 carbon atoms,
or a halogen-substituted analogue thereof; an allyl group or an
unsubstituted aryl group or an aryl substituted by a halogen, an OH
group, an NO.sub.2 group, an NH.sub.2 group or a COOH group,
[0810] R.sup.3 and R.sup.3' are the same or different, and each
denotes hydrogen, CN, NHR.sup.6, N.sub.3, SR.sup.6,
.dbd.N--OR.sup.6, OR.sup.6, guanidino, 952
[0811] R.sup.4 denotes NHR.sup.6, SR.sup.6, OR.sup.6, COOR.sup.6,
NO.sub.2, C(R.sup.6).sub.3, CH.sub.2COOR.sup.6, CH.sub.2NO.sub.2 or
CH.sub.2NHR.sup.6, and
[0812] R.sup.5 denotes CH.sub.2YR.sup.6, CHYR.sup.6CH.sub.2YR.sup.6
or CHYR.sup.6CHYR.sup.6CH.sub.2YR.sup.6, where Y is O, S, NH or H,
and successive Y moieties in an R.sup.5 group are the same or
different,
[0813] and pharmaceutically acceptable salts or derivatives
thereof, provided that in general formula (x)
[0814] (i) when R.sup.3 or R.sup.3' is OR.sup.6 or hydrogen, and A
is oxygen or sulphur, then said compound cannot have both
[0815] (a) an R.sup.2 that is hydrogen and
[0816] (b) an R.sup.4 that is NH-acyl, and
[0817] (ii) R.sup.6 represents a covalent bond when Y is hydrogen,
and that in general formula (y),
[0818] (i) when R.sup.3 or R.sup.3' is OR.sup.6 or hydrogen, and A
is nitrogen, then said compound cannot have both
[0819] (a) an R.sup.2 that is hydrogen, and
[0820] (b) an R.sup.4 that is NH-acyl, and
[0821] (ii) R.sup.6 represents a covalent bond when Y is
hydrogen.
[0822] The compounds of formulas x and y are more fully described
in WO 91/16320, at page 3, line 23 to page 7, line 1, WO 92/06691
and U.S. Pat. No. 5,360,817, x and y are described therein as "I"
and "Ia", respectively.
[0823] For the purposes herein, administration by a route "other
than topically to the respiratory tract means" does not exclude
administration of compound by buccal or sublingual routes, and does
not exclude incidental adsorption of compound in the esophagus
during oral, buccal or sublingual administration, provided however,
that such as buccal, oral, sublingual or esophageal adsorption is
not incidental to administration to the lungs or nasal passages by
inhalers or the like. Usually, compound is administered as a formed
article, a slurry or a solution.
[0824] In typical embodiments of this invention, the compound is
GG167, the host is an animal other than mice (such as ferrets or
humans), the route of administration is oral, and the objective of
treatment and prophylaxis is reduction in mortality. Optionally, a
prodrug of the compound of formula (X) or (Y) is employed, although
as shown above it is not necessary to do so to achieve antiviral
effect by oral administration. As prodrugs of GG167 and its
co-disclosed compounds, any of the esters, amides or other prodrugs
described elsewhere herein for the compounds of this invention are
suitable for use with the analogous groups of the compounds of
formula (X) and (Y), e.g., carboxyl esters or amides.
[0825] The therapeutically effective dose of GG167 and its related
compounds, when administered by oral or other non-nasal
administration routes, will be determined by the ordinarily skilled
clinician in light of the considerations set forth in connection
with dosing the compounds of this invention. For the most part the
principal considerations are the route of administration and the
host species. In general, larger doses will be required as one
proceeds from intravenous to subcutaneous to oral administration
routes, and in accord with conventional pharmacologic scaling
principles as one proceeds to larger animals. Determination of
therapeutically active doses is well within the ordinary skill in
the art, but in general the doses will be substantially the same as
those employed for the compounds of this invention.
Example 122
[0826] Each of the reactions shown in Table 50 were preformed
according to Scheme 50. The preformed reactions are indicated with
a "{square root}". Unless otherwise indicated in Table 50, steps
AA, AB and AC were preformed according to Examples 92, 93 and 94,
respectively, and step AD was preformed according to the
combination of Examples 112 and 113. 953
57TABLE 50 ROH AA AB AC AD 954 .check mark. .check mark.a, b .check
mark.c 955 .check mark. .check mark.a, d .check mark.c, e .check
mark. 956 .check mark. .check mark. .check mark. 957 .check mark.
.check mark. .check mark. 958 .check mark. .check mark.d .check
mark.c .check mark. 959 .check mark. .check mark.f .check mark. 960
.check mark.g .check mark. .check mark. .check mark. 961 .check
mark.g .check mark. .check mark. .check mark. 962 .check mark.
.check mark. .check mark. 963 .check mark. .check mark. .check
mark. .check mark. 964 .check mark. .check mark. .check mark. 965
.check mark. .check mark.h .check mark. .check mark. 966 .check
mark. .check mark. .check mark. 967 .check mark. .check mark.b, d
.check mark. .check mark. 968 .check mark.i,j .check mark. .check
mark. Table 50 (notes) a) ester hydrolysis prior to azide reduction
b) azide reduction using Ph.sub.3P at room temperature c) ester
hydrolysis using aqueous KOH/MeOH d) azide reduction using
polymer-support Ph.sub.3P at room temperature e) isolated as the
HCl salt f) azide reduction using Ph.sub.3P in MeOH/THF/H.sub.2O g)
diastereomeric mixture, major diastereomer indicated h) azide
reduction also performed with Me.sub.3P i) aziridine opening
performed at 55.degree. C. j) C-alkylated products were
isolated
[0827] 969
Example 123
[0828] Trifluroacetamide 340: To a solution of amine 228 (100 mg,
0.34 mmol) in CH.sub.2Cl.sub.2 (3.5 mL) at 0.degree. C. was added
pyridine (41 .mu.L, 0.51 mmol) and trifluroacetic anhydride (TFAA)
(52 .mu.L, 0.37 mmol) and the solution was stirred for 45 min at
which time additional TFAA (0.5 eq) was added. After 15 min the
reaction was evaporated under reduced pressure and the residue was
partitioned between ethyl acetate and 1M HCl. The organic phase was
washed with saturated NaHCO.sub.3, saturated NaCl, and was dried
(MgSO.sub.4), filtered, and evaporated. The residue was
chromatographed on silica gel (2/1-hexane/ethyl acetate) to afford
trifluoroacetamide 340 (105 mg, 78%): .sup.1H NMR (CDCl.sub.3)
.delta. 8.64 (d, 1H, J=7.7), 6.81 (s, 1H), 6.48 (d, 1H, J=8.2),
4.25-4.07 (m, 3H), 3.75 (s, 3H), 3.37 (m, 1H), 2.76 (dd, 1H, J=4.5,
18.7), 2.54 (m, 1H), 1.93 (s, 3H), 1.48 (m, 4H), 0.86 (m, 6H).
Example 124
[0829] N-Methyl trifluoroacetamide 341: To a solution of
trifluroacetamide 340 (90 mg, 0.23 mmol) in DMF (2 mL) at 0.degree.
C. was added sodium hydride (10 mg, 60% dispersion in mineral oil,
0.25 mmol). After 15 min at 0.degree. C., methyl iodide (71 .mu.L,
1.15 mmol) was added and the reaction was stirred for 2 h at
0.degree. C. and for 1 h at room temperature. Acetic acid (28
.mu.L) was added was the solution was evaporated. The residue was
partitioned between ethyl acetate and water. The organic phase was
washed with saturated NaCl, dried (MgSO.sub.4), filtered, and
evaporated. The residue was chromatographed on silica gel
(1/1-hexane/ethyl acetate) to afford N-methyl trifluoroacetamide
341 (81 mg, 87%) as a colorless glass: .sup.1H NMR (CDCl.sub.3)
.delta. 6.80 (s, 1H), 6.26 (d, 1H, J=9.9), 4.67 (m, 1H), 4.32 (m,
1H), 4.11 (m, 1H), 3.78 (s, 3H), 3.32 (m, 1), 3.07 (br s, 3H), 2.60
(m, 2H), 1.91 (s, 3H), 1.48 (m, 4H), 0.87 (m, 6H).
Example 125
[0830] N-Methyl amine 342: To a solution of N-methyl
trifluoroacetamide 341 (81 mg, 0.20 mmol) if THF (3 mL) was added
1.04 N KOH (480 .mu.L, 0.50 mmol) and the mixture was stirred at
room temperature for 14 h. The reaction was acidified with IR 120
ion exchange resin to pH.about.4. The resin was filtered, washed
with THF, and the filtrate was evaporated. The residue was
dissolved in 10% TFA/water (5 mL) and was evaporated. The residue
was passed through a column (1.5.times.2.5 cm) of C-18 reverse
phase silica gel eluting with water. Product fractions were pooled
and lyophilized to afford N-methyl amine 342 (46 mg, 56%) as a
white solid: .sup.1H NMR (D.sub.2O) .delta. 6.80 (s, 1H), 4.31 (br
d, 1H, J=8.8), 4.09 (dd, 1H, J=8.9, 11.6), 3.53 (m, 2H), 2.98 (dd,
1H, J=5.4, 16.9), 2.73 (s, 3H), 2.52-2.41 (m, 1H), 2.07 (s, 3H),
1.61-1.39 (m, 4H), 0.84 (m, 6H).
Example 126
[0831] Compound 346: To a solution of epoxide 345 (13.32 g, 58.4
mmol) in 8/1-MeOH/H.sub.2O (440 mL, v/v) was added sodium azide
(19.0 g, 292.0 mmol) and ammonium chloride (2.69 g, 129.3 mmol) and
the mixture was refluxed for 15 h. The reaction was cooled,
concentrated under reduced pressure and partitioned between EtOAc
and H.sub.2O. The organic layer was washed successively with satd.
bicarb, brine and dried over MgSO.sub.4. Concentration in vacuo
followed by flash chromatography on silica gel (30% EtOAc in
hexanes) gave 11.81 g (75%) of azido alcohol 346 as a viscous oil.
.sup.1H NMR(300 MHz, CDCl.sub.3) .delta. 6.90-6.86 (m, 1H); 4.80
(s, 2H); 4.32 (bt, 1H, J=4.2 Hz); 4.22 (q, 2H, J=7.2 Hz); 3.90-3.74
(overlapping m, 2H); 3.44 (s, 3H); 2.90 (d, 1H, J=6.9 Hz);
2.94-2.82 (m, 1H); 2.35-2.21 (m, 1H); 1.30 (t, 3H, J=7.2 Hz).
Example 127
[0832] Compound 347: To a solution of ethyl ester 346 (420 mg, 1.55
mmol) in dry THF (8.0 mL) cooled to -78.degree. C. was added DIBAL
(5.1 mL of a 1.0 M solution in toluene) dropwise via syringe. The
bright yellow reaction mixture was stirred at -78.degree. C. for
1.25 h and then slowly hydrolyzed with the slow addition of MeOH
(1.2 mL). Volatiles were removed under reduced pressure and the
residue partitioned between EtOAc and cold dilute HCl. The organic
layer was separated and the aqueous layer back extracted with
EtOAc. The organic layers were combined and washed successively
with satd. bicarb, brine and dried over MgSO.sub.4. Concentration
in vacuo followed by flash chromatography on silica gel (20%
hexanes in EtOAc) gave 127 mg (36%) of the diol 347 as a colorless
viscous oil. .sup.1H NMR(300 MHz, CDCl.sub.3) .delta. 5.83-5.82 (m,
1H); 4.78 (s, 2H); 4.21 (bt, 1H, J=4.4 Hz); 4.06 (bs, 2H);
3.85-3.65 (overlapping m, 2H); 3.43 (s, 3H); 3.18 (d, 1H, J=8.1
Hz); 2.51 (dd, 1H, J=5.5, 17.7 Hz); 2.07-1.90 (m, 1H); 1.92 (bs,
1H).
[0833] Additional enumerated embodiments of the invention
follow:
[0834] 1. A composition comprising a compound of formula (I) or
(II): 970
[0835] wherein
[0836] A.sub.1 is --C(J.sub.1).dbd., or --N.dbd.;
[0837] A.sub.2 is --C(J.sub.1).sub.2--, --N(J.sub.1)--,
--N(O)(J.sub.1)--, --N(O).dbd., --S--, --S(O)--, --S(O).sub.2-- or
--O--;
[0838] E.sub.1 is --(CR.sub.1R.sub.1).sub.m1W.sub.1;
[0839] G.sub.1 is N.sub.3, --CN, --OH, --OR.sub.6a, --NO.sub.2, or
--(CR.sub.1R.sub.1).sub.m1W.sub.2;
[0840] T.sub.1 is --NR.sub.1W.sub.3, a heterocycle, or is taken
together with U.sub.1 or G.sub.1 to form a group having the
structure 971
[0841] U.sub.1 is H or --X.sub.1W.sub.6;
[0842] J.sub.1 and J.sub.1a are independently R.sub.1, Br, Cl, F,
I, CN, NO.sub.2 or N.sub.3;
[0843] J.sub.2 and J.sub.2a are independently H or R.sub.1;
[0844] R.sub.1 is independently H or alkyl of 1 to 12 carbon
atoms;
[0845] R.sub.2 is independently R.sub.3 or R.sub.4 wherein each
R.sub.4 is independently substituted with 0 to 3 R.sub.3
groups;
[0846] R.sub.3 is independently F, Cl, Br, I, --CN, N.sub.3,
--NO.sub.2, --OR.sub.6a, --OR.sub.1, --N(R.sub.1).sub.2,
--N(R.sub.1)(R.sub.6b), --N(R.sub.6b).sub.2, --SR.sub.1,
--SR.sub.6a, --S(O)R.sub.1, --S(O).sub.2R.sub.1, --S(O)OR.sub.1,
--S(O)OR.sub.6a, --S(O).sub.2OR.sub.1, S(O).sub.2OR.sub.6a,
--C(O)OR.sub.1, --C(O)R.sub.6c, --C(O)OR.sub.6a, --OC(O)R.sub.1,
--N(R.sub.1)(C(O)R.sub.1- ), --N(R.sub.6b)(C(O)R.sub.1),
--N(R.sub.1)(C(O)OR.sub.1), --N(R.sub.6b)(C(O)OR.sub.1),
--C(O)N(R.sub.1).sub.2, --C(O)N(R.sub.6b)(R.sub.1),
--C(O)N(R.sub.6b).sub.2, --C(NR.sub.1)(N(R.sub.1).sub.2),
--C(N(R.sub.6b))(N(R.sub.1).sub.2),
--C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--C(N(R.sub.6b))(N(R.sub.1)(R.sub.- 6b)),
--C(N(R.sub.1))(N(R.sub.6b).sub.2),
--C(N(R.sub.6b))(N(R.sub.6b).sub- .2),
--N(R.sub.1)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.1)C(N(R.sub.1)- )(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))- (N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.1- ))(N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.6b).sub.2),
--N(R.sub.1)C(N(R.sub.6b))- (N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.6b).sub.2), .dbd.O, .dbd.S,
.dbd.N(R.sub.1) or .dbd.N(R.sub.6b);
[0847] R.sub.4 is independently alkyl of 1 to 12 carbon atoms,
alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon
atoms;
[0848] R.sub.5 is independently R.sub.4 wherein each R.sub.4 is
substituted with 0 to 3 R.sub.3 groups;
[0849] R.sub.5a is independently alkylene of 1 to 12 carbon atoms,
alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon
atoms any one of which alkylene, alkenylene or alkynylene is
substituted with 0-3 R.sub.3 groups;
[0850] R.sub.6a is independently H or a protecting group for
hydroxyl or thio;
[0851] R.sub.6b is independently H, a protecting group for amino or
the residue of a carboxyl-containing compound;
[0852] R.sub.6c is independently H or the residue of an
amino-containing compound;
[0853] W.sub.1 is a group comprising an acidic hydrogen, a
protected acidic group, or an R.sub.6c amide of the group
comprising an acidic hydrogen;
[0854] W.sub.2 is a group comprising a basic heteroatom or a
protected basic heteroatom, or an R.sub.6b amide of the basic
heteroatom;
[0855] W.sub.3 is W.sub.4 or W.sub.5;
[0856] W.sub.4 is R.sub.5 or --C(O)R.sub.5, --C(O)W.sub.5,
--SO.sub.2R.sub.5, or --SO.sub.2W.sub.5;
[0857] W.sub.5 is carbocycle or heterocycle wherein W.sub.5 is
independently substituted with 0 to 3 R.sub.2 groups;
[0858] W.sub.6 is --R.sub.5, --W.sub.5, --R.sub.5aW.sub.5,
--C(O)OR.sub.6a, --C(O)R.sub.6c, --C(O)N(R.sub.6b).sub.2,
--C(NR.sub.6b)(N(R.sub.6b).sub.2), --C(NR.sub.6b)(N(H)(R.sub.6b)),
--C(N(H)(N(R.sub.6b).sub.2), --C(S)N(R.sub.6b).sub.2, or
--C(O)R.sub.2;
[0859] X.sub.1 is a bond, --O--, --N(H)--, --N(R.sub.5)--,
--N(OH)--, --N(OR.sub.5)--, --N(NH.sub.2)--, --N(N(H)(R.sub.5))--,
--N(N(R.sub.5).sub.2)--, --N(H)N(R.sub.5)--, --S--, --SO--, or
--SO.sub.2--; and
[0860] each m.sub.1 is independently an integer from 0 to 2;
[0861] provided, however, that compounds are excluded wherein:
[0862] (a) A.sub.1 is --CH.dbd. or --N.dbd. and A.sub.2 is
--CH.sub.2--;
[0863] (b) E.sub.1 is COOH, P(O)(OH).sub.2, SOOH, SO.sub.3H, or
tetrazol;
[0864] (c) G.sub.1 is CN, N(H)R.sub.20, N.sub.3, SR.sub.20,
OR.sub.20, guanidino, 972
[0865] (d) T.sub.1 is --NHR.sub.20;
[0866] (e) R.sub.20 is H; an acyl group having 1 to 4 carbon atoms;
a linear or cyclic alkyl group having 1 to 6 carbon atoms, or a
halogen-substituted analogue thereof; an allyl group or an
unsubstituted aryl group or an aryl substituted by a halogen, an OH
group, an NO.sub.2 group, an NH.sub.2 group or a COOH group;
[0867] (f) J.sub.1 is H and J.sub.1a is H, F Cl, Br or CN;
[0868] (g) J.sub.2 is H and J.sub.2a is H, CN or N.sub.3;
[0869] (h) U.sub.1 is CH.sub.2YR.sub.20a,
CHYR.sub.20aCH.sub.2YR.sub.20a or
CHYR.sub.20aCHYR.sub.20aCH.sub.2YR.sub.20a;
[0870] (i) R.sub.20a is H or acyl having 1 to 4 carbon atoms;
[0871] (j) Y is O, S, H or NH;
[0872] (k) 0 to 2 YR.sub.20a are H, and
[0873] (l) successive Y moieties in a U.sub.1 group are the same or
different, and when Y is H then R.sub.20a is a covalent bond,
[0874] and the pharmaceutically acceptable salts and solvates
thereof;
[0875] and the salts, solvates, resolved enantiomers and purified
diastereomers thereof.
[0876] 2. A composition comprising a compound of formula (III) or
(IV): 973
[0877] wherein
[0878] E.sub.1 is --(CR.sub.1R.sub.1).sub.m1W.sub.1;
[0879] G.sub.1 is N.sub.3, --CN, --OH, --OR.sub.6a, --NO.sub.2, or
--(CR.sub.1R.sub.1).sub.m1W.sub.2;
[0880] T.sub.1 is --NR.sub.1W.sub.3, a heterocycle, or is taken
together with U.sub.1 or G.sub.1 to form a group having the
structure 974
[0881] U.sub.1 is H or --X.sub.1W.sub.6 and, if --X.sub.1W.sub.6,
then U.sub.1 is a branched chain;
[0882] J.sub.1 and J.sub.1a are independently R.sub.1, Br, Cl, F,
I, CN, NO.sub.2 or N.sub.3;
[0883] J.sub.2 and J.sub.2a are independently H or R.sub.1;
[0884] R.sub.1 is independently H or alkyl of 1 to 12 carbon
atoms;
[0885] R.sub.2 is independently R.sub.3 or R.sub.4 wherein each
R.sub.4 is independently substituted with 0 to 3 R.sub.3
groups;
[0886] R.sub.3 is independently F, Cl, Br, I, --CN, N.sub.3,
--NO.sub.2, --OR.sub.6a, --OR.sub.1, --N(R.sub.1).sub.2,
--N(R.sub.1)(R.sub.6b), --N(R.sub.6b).sub.2, --SR.sub.1,
--SR.sub.6a, --S(O)R.sub.1, --S(O).sub.2R.sub.1, --S(O)OR.sub.1,
--S(O)OR.sub.6a, --S(O).sub.2OR.sub.1, --S(O).sub.2OR.sub.6a,
--C(O)OR.sub.1, --C(O)R.sub.6c, --C(O)OR.sub.6a, --OC(O)R.sub.1,
--N(R.sub.1)(C(O)R.sub.1- ), --N(R.sub.6b)(C(O)R.sub.1),
--N(R.sub.1)(C(O)OR.sub.1), --N(R.sub.6b)(C(O)OR.sub.1),
--C(O)N(R.sub.1).sub.2, --C(O)N(R.sub.6b)(R.sub.1),
--C(O)N(R.sub.6b).sub.2, --C(NR.sub.1)(N(R.sub.1).sub.2),
--C(N(R.sub.6b))(N(R.sub.1).sub.2),
--C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--C(N(R.sub.6b))(N(R.sub.1)(R.sub.- 6b)),
--C(N(R.sub.1))(N(R.sub.6b).sub.2),
--C(N(R.sub.6b))(N(R.sub.6b).sub- .2),
--N(R.sub.1)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.1)C(N(R.sub.1)- )(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))- (N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.1- ))(N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.6b).sub.2),
--N(R.sub.1)C(N(R.sub.6b))- (N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.6b).sub.2), .dbd.O, .dbd.S,
.dbd.N(R.sub.1) or .dbd.N(R.sub.6b);
[0887] R.sub.4 is independently alkyl of 1 to 12 carbon atoms,
alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon
atoms;
[0888] R.sub.5 is independently R.sub.4 wherein each R.sub.4 is
substituted with 0 to 3 R.sub.3 groups;
[0889] R.sub.5a is independently alkylene of 1 to 12 carbon atoms,
alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon
atoms which is substituted with 0-3 R.sub.3 groups;
[0890] R.sub.6a is independently H or a protecting group for
hydroxyl or thio;
[0891] R.sub.6b is independently H, a protecting group for amino or
the residue of a carboxyl-containing compound;
[0892] R.sub.6c is independently H or the residue of an
amino-containing compound;
[0893] W.sub.1 is a group comprising an acidic hydrogen, a
protected acidic group, or an R.sub.6c amide of the group
comprising an acidic hydrogen;
[0894] W.sub.2 is a group comprising a basic heteroatom or a
protected basic heteroatom, or an R.sub.6b amide of the basic
heteroatom;
[0895] W.sub.3 is W.sub.4 or W.sub.5;
[0896] W.sub.4 is R.sub.5 or --C(O)R.sub.5, --C(O)W.sub.5,
--SO.sub.2R.sub.5, or --SO.sub.2W.sub.5;
[0897] W.sub.5 is carbocycle or heterocycle wherein W.sub.5 is
independently substituted with 0 to 3 R.sub.2 groups;
[0898] W.sub.6 is --R.sub.5, --W.sub.5, --R.sub.5aW.sub.5,
--C(O)OR.sub.6a, --C(O)R.sub.6c, --C(O)N(R.sub.6b).sub.2,
--C(NR.sub.6b)(N(R.sub.6b).sub.2), --C(S)N(R.sub.6b).sub.2, or
--C(O)R.sub.2;
[0899] X.sub.1 is a bond, --O--, --N(H)--, --N(R.sub.5)--,
--N(OH)--, --N(OR.sub.5)--, --N(NH.sub.2)--, --N(N(H)(R.sub.5))--,
--N(N(R.sub.5).sub.2)--, --N(H)N(R.sub.5)--, --S--, --SO--, or
--SO.sub.2--; and
[0900] each m.sub.1 is independently an integer from 0 to 2;
[0901] and the salts, solvates, resolved enantiomers and purified
diastereomers
[0902] 3. A composition comprising a compound of formula (III):
975
[0903] wherein
[0904] E.sub.1 is --(CR.sub.1R.sub.1).sub.m1W.sub.1;
[0905] G.sub.1 is N.sub.3, --CN, --OH, --OR.sub.6a, --NO.sub.2, or
--(CR.sub.1R.sub.1).sub.m1W.sub.2;
[0906] T.sub.1 is --NR.sub.1W.sub.3, a heterocycle, or is taken
together with U.sub.1 or G.sub.1 to form a group having the
structure 976
[0907] U.sub.1 is H or --X.sub.1W.sub.6;
[0908] J.sub.1 and J.sub.1a are independently R.sub.1, Br, Cl, F,
I, CN, NO.sub.2 or N.sub.3;
[0909] J.sub.2 and J.sub.2a are independently H or R.sub.1;
[0910] R.sub.1 is independently H or alkyl of 1 to 12 carbon
atoms;
[0911] R.sub.2 is independently R.sub.3 or R.sub.4 wherein each
R.sub.4 is independently substituted with 0 to 3 R.sub.3
groups;
[0912] R.sub.3 is independently F, Cl, Br, I, --CN, N.sub.3,
--NO.sub.2, OR.sub.6a, --OR.sub.1, --N(R.sub.1).sub.2,
--N(R.sub.1)(R.sub.6b), --N(R.sub.6b).sub.2, --SR.sub.1,
--SR.sub.6a, --S(O)R.sub.1, --S(O).sub.2R.sub.1, --S(O)OR.sub.1,
--S(O)OR.sub.6a, --S(O).sub.2OR.sub.1, S(O).sub.2OR.sub.6a,
--C(O)OR.sub.1, --C(O)R.sub.6c, --C(O)OR.sub.6a, --OC(O)R.sub.1,
--N(R.sub.1)(C(O)R.sub.1- ), --N(R.sub.6b)(C(O)R.sub.1),
--N(R.sub.1)(C(O)OR.sub.1), --N(R.sub.6b)(C(O)OR.sub.1),
--C(O)N(R.sub.1).sub.2, --C(O)N(R.sub.6b)(R.sub.1),
--C(O)N(R.sub.6b).sub.2, --C(NR.sub.1)(N(R.sub.1).sub.2),
--C(N(R.sub.6b))(N(R.sub.1).sub.2),
--C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--C(N(R.sub.6b))(N(R.sub.1)(R.sub.- 6b)),
--C(N(R.sub.1))(N(R.sub.6b).sub.2),
--C(N(R.sub.6b))(N(R.sub.6b).sub- .2),
--N(R.sub.1)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.1)C(N(R.sub.1)- )(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))- (N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.1- ))(N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.6b).sub.2),
--N(R.sub.1)C(N(R.sub.6b))- (N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.6b).sub.2), .dbd.O, .dbd.S,
.dbd.N(R.sub.1) or .dbd.N(R.sub.6b);
[0913] R.sub.4 is independently alkyl of 1 to 12 carbon atoms,
alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon
atoms;
[0914] R.sub.5 is independently R.sub.4 wherein each R.sub.4 is
substituted with 0 to 3 R.sub.3 groups;
[0915] R.sub.5a is independently alkylene of 1 to 12 carbon atoms,
alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon
atoms which is substituted with 0-3 R.sub.3 groups;
[0916] R.sub.6a is independently H or a protecting group for
hydroxyl or thio;
[0917] R.sub.6b is independently H, a protecting group for amino or
the residue of a carboxyl-containing compound;
[0918] R.sub.6c is independently H or the residue of an
amino-containing compound;
[0919] W.sub.1 is a group comprising an acidic hydrogen, a
protected acidic group, or an R.sub.6c amide of the group
comprising an acidic hydrogen;
[0920] W.sub.2 is a group comprising a basic heteroatom or a
protected basic heteroatom, or an R.sub.6b amide of the basic
heteroatom;
[0921] W.sub.3 is W.sub.4 or W.sub.5;
[0922] W.sub.4 is R.sub.5 or --C(O)R.sub.5, --C(O)W.sub.5,
--SO.sub.2R.sub.5, or --SO.sub.2W.sub.5;
[0923] W.sub.5 is carbocycle or heterocycle wherein W.sub.5 is
independently substituted with 0 to 3 R.sub.2 groups;
[0924] W.sub.6 is --R.sub.5, --W.sub.5, --R.sub.5aW.sub.5,
--C(O)OR.sub.6a, --C(O)R.sub.6c, --C(O)N(R.sub.6b).sub.2,
--C(NR.sub.6b)(N(R.sub.6b).sub.2), --C(S)N(R.sub.6b).sub.2, or
--C(O)R.sub.2;
[0925] X.sub.1 is --O--, --N(H)--, --N(R.sub.5)--, --N(OH)--,
--N(OR.sub.5)--, --N(NH.sub.2)--, --N(N(H)(R.sub.5))--,
--N(N(R.sub.5).sub.2)--, --N(H)N(R.sub.5)--, --S--, --SO--, or
--SO.sub.2--; and
[0926] each m.sub.1 is independently an integer from 0 to 2;
[0927] and the salts, solvates, resolved enantiomers and purified
diastereomers thereof.
[0928] 4. The composition of claim 1 where further excluded are
compounds wherein G.sub.1 is
--N(R.sub.21)C(.dbd.N(R.sub.21))N(R.sub.21).sub.2 and R.sub.21 is
independently H, C.sub.1-C.sub.6 alkyl, C.sub.3-C.sub.8 cycloalkyl,
C.sub.1-C.sub.6 alkoxy, aryl, aralkyl, aryloxy, aralkyloxy, amino,
hydroxy, cyano, nitro, COR.sub.22, CO.sub.2R.sub.22,
SO.sub.2R.sub.22 (where R.sub.22 is C.sub.1-C.sub.6 alkyl or
aralkyl), or CONR.sub.23 (where R.sub.23 is independently H or
C.sub.1-C.sub.6 alkyl or aralkyl).
[0929] 5. The composition of claims 1 or 2 wherein X.sub.1 is a
bond and W.sub.6 is neither C.sub.1-C.sub.3 normal alkyl nor
C.sub.1-C.sub.3 normal alkyl substituted with 1 to 3 OH, SH or
NH.sub.2.
[0930] 6. The composition of claims 1 or 2 wherein X.sub.1 is a
bond and W.sub.6 is neither C.sub.1-C.sub.3 normal alkyl nor
C.sub.1-C.sub.3 normal alkyl substituted with 1 to 3 OH, SH or
NH.sub.2.
[0931] 7. The composition of claims 1 or 2 wherein X.sub.1 is a
bond and W.sub.6 is neither C.sub.1-C.sub.3 normal alkyl nor
C.sub.1-C.sub.3 normal alkyl substituted with 1 to 3 OH, OR.sub.6a,
SH or NH.sub.2, wherein this R.sub.6a is a protecting group.
[0932] 8. The composition of claims 1 or 2 wherein X.sub.1 is a
bond and W.sub.6 is neither C.sub.1-C.sub.3 normal alkyl nor
C.sub.1-C.sub.3 normal alkyl substituted with 1 to 3 OH, OR.sub.6a,
SH or NH.sub.2, wherein this R.sub.6a is a protecting group.
[0933] 9. The composition of claim 1 wherein the proviso further
excludes compounds wherein G.sub.1 is
(alk).sub.m4NR.sup.6bR.sup.7b;
[0934] alk is unsubstituted or substituted methylene;
[0935] m.sub.4 is 0 or 1;
[0936] R.sup.6b is hydrogen, C.sub.1-6alkyl, aryl, araalkyl,
amidine, NR.sup.7bR.sup.8b, or an unsaturated or saturated ring
containing one or more heteroatoms;
[0937] R.sup.7b is hydrogen, C.sub.1-6alkyl, or allyl, or
NR.sup.6bR.sup.7b forms an optionally substituted 5 or 6 membered
ring optionally containing one or more additional heteroatoms;
and
[0938] R.sup.8b is hydrogen or C.sub.1-6alkyl.
[0939] 10. The composition of claim 9 wherein the proviso further
excludes compounds wherein G.sub.1 is NR.sup.6bR.sup.7b.
[0940] 11. The composition of claims 1, 2 or 3 wherein W.sub.6 is
C.sub.1-C.sub.3 alkyl substituted with 1 to 3 OR.sub.6a or
SR.sub.6a, which OR.sub.6a or SR.sub.6a groups are stable to
hydrolysis in gastrointestinal fluid.
[0941] 12. The composition of claims 1, 2 or 3 wherein if W.sub.6
is substituted with R.sub.3 and R.sub.3 is substituted with
OR.sub.6a then this R.sub.6a is not acetyl.
[0942] 13. The composition of claims 1, 2 or 3 wherein W.sub.6 is
--(CH.sub.2).sub.m1CH((CH.sub.2).sub.m3R.sub.3).sub.2,
--(CH.sub.2).sub.m1C((CH.sub.2).sub.m3R.sub.3).sub.3;
--(CH.sub.2).sub.m1CH((CH.sub.2).sub.m3R.sub.5aW.sub.5).sub.2;
--(CH.sub.2).sub.m1CH((CH.sub.2).sub.m3R.sub.3)((CH.sub.2).sub.m3R.sub.5a-
W.sub.5);
--(CH.sub.2).sub.m1C((CH.sub.2).sub.m3R.sub.3).sub.2(CH.sub.2).s-
ub.m3R.sub.5aW.sub.5),
(CH.sub.2).sub.m1C((CH.sub.2).sub.m3R.sub.5aW.sub.5- ).sub.3 or
--(CH.sub.2).sub.m1C((CH.sub.2).sub.m3R.sub.3)((CH.sub.2).sub.m-
3R.sub.5aW.sub.5).sub.2 and m.sub.3 is an integer from 1 to 3.
[0943] 14. The composition of claims 1 or 2 wherein X.sub.1 is a
bond and W.sub.6 is --R.sub.5, --W.sub.5 or --R.sub.5aW.sub.5.
[0944] 15. The composition of claims 1 or 2 wherein X.sub.1 is a
bond and W.sub.6 is R.sub.5.
[0945] 16. The composition of claim 15 wherein said R.sub.5 is
R.sub.4 substituted with 0 to 3--OR.sub.1.
[0946] 17. The composition of claim 15 wherein said R.sub.5 is
R.sub.4 substituted with 0 to 3--NO.sub.2 or N.sub.3 groups.
[0947] 18. The composition of claim 16 wherein said --OR.sub.1 is
present and at least one of said R.sub.1 is C.sub.4-C.sub.12.
[0948] 19. The composition of claims 1, 2 or 3 wherein U.sub.1 is
--N(R.sub.5).sub.2, --N(H)(CH(R.sub.5b).sub.2),
--N(H)(CH.sub.2CH(R.sub.5- c).sub.2), --N(OR.sub.5)(R.sub.5),
--N(N(H)(R.sub.5))(R.sub.5), --N(H)(N(R.sub.5).sub.2),
--N(R.sub.5)(C(O)R.sub.5), --C(O)N(R.sub.5).sub.2,
--C(S)N(R.sub.5).sub.2, --OR.sub.5d, --OCH(R.sub.5b).sub.2,
--OCH.sub.2CH(R.sub.5c).sub.2, --SR.sub.5d, --SCH(R.sub.5b).sub.2,
--SCH.sub.2CH(R.sub.5c).sub.2, --S(O)R.sub.5d,
--S(O)CH(R.sub.5b).sub.2, --S(O)CH.sub.2CH(R.sub.5c).sub.2,
--S(O).sub.2R.sub.5d, --S(O).sub.2CH(R.sub.5b).sub.2,
--S(O).sub.2CH.sub.2CH(R.sub.5c).sub.2,
--C(N(R.sub.5))(N(H)(R.sub.5)), --C(O)R.sub.5d,
--C(O)CH(R.sub.5b).sub.2 or --C(O)CH.sub.2CH(R.sub.5c).su- b.2;
and
[0949] wherein:
[0950] hydrogen of said U.sub.1 --CH.sub.2-- or --CH-- moieties
optionally is substituted with --OR.sub.1, --SR.sub.1, NO.sub.2,
N.sub.3, F, --CN, Cl or Br;
[0951] R.sub.5b is independently alkyl of 1 to 11 carbon atoms,
alkenyl of 2 to 11 carbon atoms or alkynyl of 2 to 11 carbon atoms
any one of which alkyl, alkenyl or alkynyl groups is substituted
with 0-3 R.sub.3 groups;
[0952] R.sub.5c is independently alkyl of 1 to 10 carbon atoms,
alkenyl of 2 to 10 carbon atoms or alkynyl of 2 to 10 carbon atoms
any one of which alkyl, alkenyl or alkynyl groups is substituted
with 0-3 R.sub.3 groups;
[0953] R.sub.5d is a branched R.sub.5 group; and
[0954] wherein if R.sub.5, R.sub.5b, R.sub.5c or R.sub.5d is
substituted with 1-3 R.sub.3 groups then R.sub.3 is --OR.sub.1,
--SR.sub.1, NO.sub.2, N.sub.3, F, --CN, Cl or Br.
[0955] 20. The composition of claims 1, 2 or 3 wherein W.sub.6 is a
branched chain R.sub.5 group.
[0956] 21. The composition of claim 20 wherein said R.sub.5 is a
branched R.sub.4 group.
[0957] 22. The composition of claims 1, 2 or 3 wherein W.sub.6 is
R.sub.5e wherein R.sub.5e is normal or secondary alkyl of 1 to 12
carbon atoms substituted with 1-3 OR.sub.1a or SR.sub.1a wherein
R.sub.1a is C.sub.1-C.sub.4 alkyl.
[0958] 23. The composition of claim 20 provided that when W.sub.6
is R.sub.5 substituted with 1 to 3 R.sub.3 groups and at least one
R.sub.3 group is OH, COOH, NH.sub.2, C(O)H, C(O)NH.sub.2,
S(O).sub.2OH, S(O)OH, N(H)(C(O)OH), C(N(H))NH.sub.2,
N(H)(C(NH.sub.2)N(H)), .dbd.O, or .dbd.N(H), then said R.sub.5 is
substituted with a single OH, COOH, NH.sub.2, C(O)H, C(O)NH.sub.2,
S(O).sub.2OH, S(O)OH, N(H)(C(O)OH), C(N(H))NH.sub.2,
N(H)(C(NH.sub.2)N(H)), .dbd.O, or .dbd.NH group.
[0959] 24. The composition of claim 20 wherein said R.sub.5 is
alkyl of 4 to 8 carbon atoms substituted with 0 to 3 R.sub.3
groups.
[0960] 25. The composition of claim 20 wherein said R.sub.5 is
substituted with 0 to 2 R.sub.3 groups.
[0961] 26. The composition of claim 25 wherein said R.sub.5 is
substituted with 1 to 2 R.sub.3 groups and at least one said
R.sub.3 group is OH, COOH, NH.sub.2, C(O)H, C(O)NH.sub.2,
S(O).sub.2OH, S(O)OH, N(H)(C(O)OH), C(N(H))NH.sub.2,
N(H)C((NH.sub.2)N(H)), .dbd.O, or .dbd.NH.
[0962] 27. The composition of claim 26 wherein a OH, COOH,
NH.sub.2, C(O)H, C(O)NH.sub.2, S(O).sub.2OH, S(O)OH, N(H)(C(O)OH),
C(N(H))NH.sub.2, N(H)C((NH.sub.2)N(H)), .dbd.O, or .dbd.NH group
substitutes a terminal carbon distal to X.sup.1.
[0963] 28. The composition of claim 26 wherein a OH, COOH,
NH.sub.2, C(O)H, C(O)NH.sub.2, S(O).sub.2OH, S(O)OH, N(H)(C(O)OH),
C(N(H))NH.sub.2, N(H)C((NH.sub.2)N(H)), .dbd.O, or .dbd.NH group
substitutes a carbon atom which is not a terminal carbon atom
distal to X.sub.1.
[0964] 29. The composition of claims 1, 2 or 3 wherein W.sub.6 is
R.sub.4 having 1 to 7 carbon atoms.
[0965] 30. The composition of claims 1, 2 or 3 wherein said U.sub.1
is not C.sub.1-C.sub.3 alkyl substituted with OH or OH protected
with an aralkyl, acyl, a silicon protecting group or a
tetrahydropyran.
[0966] 31. The composition of claim 20 wherein the aralkyl
protecting group is benzyl, triphenylmethyl or diphenylmethyl; the
acyl group is acetyl; and the silicon protecting group is
trimethylsilyl.
[0967] 32. The composition of claims 1, 2 or 3 wherein X.sub.1 is
--O--, --N(H)--, --N(R.sub.5)--, --N(OH)--, --N(OR.sub.5)--,
--S(O)-- or --S--.
[0968] 33. The composition of claim 1 having formula (I).
[0969] 34. The composition of claim 23 wherein A.sub.1 is
C(J.sub.1) and X.sub.1 is --O--.
[0970] 35. The composition of claim 23 wherein A.sub.1 is
C(J.sub.1) and X.sub.1 is --NH--.
[0971] 36. The composition of claim 23 wherein A.sub.1 is
C(J.sub.1) and X.sub.1 is --N(R.sub.5)--.
[0972] 37. The composition of claim 23 wherein A.sub.1 is
C(J.sub.1) and X.sub.1 is --N(OH)--.
[0973] 38. The composition of claim 23 wherein A.sub.1 is
C(J.sub.1) and X.sub.1 is --N(OR.sub.5)--.
[0974] 39. The composition of claim 23 wherein A.sub.1 is
C(J.sub.1) and X.sub.1 is --S--.
[0975] 40. The composition of claim 23 wherein A.sub.1 is
C(J.sub.1) and X.sub.1 is --SO--.
[0976] 41. The composition of claim 23 wherein A.sub.1 is --N.dbd.
and X.sub.1 is --O--.
[0977] 42. The composition of claim 23 wherein A.sub.1 is --N.dbd.
and X.sub.1 is --NH--.
[0978] 43. The composition of claim 23 wherein A.sub.1 is --N.dbd.
and X.sub.1 is --N(R.sub.5)--.
[0979] 44. The composition of claim 23 wherein A.sub.1 is --N.dbd.
and X.sub.1 is --N(OH)--.
[0980] 45. The composition of claim 23 wherein A.sub.1 is --N.dbd.
and X.sub.1 is --N(OR.sub.5)--.
[0981] 46. The composition of claim 23 wherein A.sub.1 is --N.dbd.
and X.sub.1 is --S--.
[0982] 47. The composition of claim 23 wherein A.sub.1 is --N.dbd.
and X.sub.1 is --S(O).sub.2--.
[0983] 48. The composition of claim 1 having formula (II).
[0984] 49. The composition of claim 39 wherein A.sub.2 is
C(J.sub.1).sub.2 and X.sub.1 is --O--.
[0985] 50. The composition of claim 39 wherein A.sub.2 is
C(J.sub.1).sub.2 and X.sub.1 is --NH--.
[0986] 51. The composition of claim 39 wherein A.sub.2 is
C(J.sub.1).sub.2 and X.sub.1 is --N(R.sub.5)--.
[0987] 52. The composition of claim 39 wherein A.sub.2 is
C(J.sub.1).sub.2 and X.sub.1 is --N(OH)--.
[0988] 53. The composition of claim 39 wherein A.sub.2 is
C(J.sub.1).sub.2 and X.sub.1 is --N(OR.sub.5)--.
[0989] 54. The composition of claim 39 wherein A.sub.2 is
C(J.sub.1).sub.2 and X.sub.1 is --S--.
[0990] 55. The composition of claim 39 wherein A.sub.2 is
C(J.sub.1).sub.2 and X.sub.1 is --SO--.
[0991] 56. The composition of claim 39 wherein A.sub.2 is
N(J.sub.1) and X.sub.1 is --O--.
[0992] 57. The composition of claim 39 wherein A.sub.2 is
N(J.sub.1) and X.sub.1 is --NH--.
[0993] 58. The composition of claim 39 wherein A.sub.2 is
N(J.sub.1) and X.sub.1 is --N(R.sub.5)--.
[0994] 59. The composition of claim 39 wherein A.sub.2 is
N(J.sub.1) and X.sub.1 is --N(OH)--.
[0995] 60. The composition of claim 39 wherein A.sub.2 is
N(J.sub.1) and X.sub.1 is --N(OR.sub.5)--.
[0996] 61. The composition of claim 39 wherein A.sub.2 is
N(J.sub.1) and X.sub.1 is --S--.
[0997] 62. The composition of claim 39 wherein A.sub.2 is
N(J.sub.1) and X.sub.1 is --S(O).sub.2--.
[0998] 63. The composition of claim 39 wherein A.sub.2 and X.sub.1
are --O--.
[0999] 64. The composition of claim 39 wherein A.sub.2 is --O-- and
X.sub.1 is --NH--.
[1000] 65. The composition of claim 39 wherein A.sub.2 is --O-- and
X.sub.1 is --N(R.sub.5)--.
[1001] 66. The composition of claim 39 wherein A.sub.2 is --O-- and
X.sub.1 is --N(OH)--.
[1002] 67. The composition of claim 39 wherein A.sub.2 is --O-- and
X.sub.1 is --N(OR.sub.5)--.
[1003] 68. The composition of claim 39 wherein A.sub.2 is --O-- and
X.sub.1 is --S--.
[1004] 69. The composition of claim 39 wherein A.sub.2 is --O-- and
X.sub.1 is --S(O).sub.2--
[1005] 70. The composition of claim 39 wherein A.sub.2 is
--N(O)(J.sub.1).
[1006] 71. The composition of claim 39 wherein A.sub.2 is
--N(O)--.
[1007] 72. The composition of claim 39 wherein A.sub.2 is
--S--.
[1008] 73. The composition of claim 39 wherein A.sub.2 is
--SO--.
[1009] 74. The composition of claim 39 wherein A.sub.2 is
--SO.sub.2--
[1010] 75. The composition of any one of claims 1, 2 or 3 wherein
X.sub.1 is --O-- or --N(H)--.
[1011] 76. The composition of any one of claims 1, 2 or 3 wherein
X.sub.1 is --N(OR.sub.5)-- or --N(R.sub.5)-- and said R.sub.5 is
R.sub.4 of 1 to 5 carbon atoms.
[1012] 77. The composition of claims 1, 2 or 3 wherein G.sub.1 is
--NHR.sub.1, --N(R.sub.6b)(R.sub.1), --N(R.sub.6b).sub.2,
--N(H)(R.sub.5), --N(R.sub.6b)(R.sub.5),
--N(R.sub.5).sub.2--C(NH)(NH.sub- .2),
--N(R.sub.1)C(NR.sub.1)(NR.sub.1R.sub.3), --NHC(NH)(NHR.sub.3),
--NHC(NH)(NHR.sub.1), --NHC(NH)NH.sub.2),
--CH(CH.sub.2NHR.sub.1)(CH.sub.- 2OH),
--CH(CH.sub.2NHR.sub.1)(CH.sub.2NHR.sub.1),
--CH(NHR.sub.1)--(CR.sub- .1R.sub.1).sub.m2--CH(NHR.sub.1)R.sub.1,
--CH(OH)--(CR.sub.1R.sub.1).sub.m- 2--CH(NHR.sub.1)R.sub.1, or
--CH(NHR.sub.1)--(CR.sub.1R.sub.1).sub.m2--CH(- OH)R.sub.1,
--(CR.sub.1R.sub.1).sub.m2--S--C(NH)NH.sub.2,
--CH.dbd.C(NHR.sub.1)(R.sub.3) or --CH.dbd.C(NHR.sub.1)(R.sub.1);
and m2 is independently an integer from 0 to 1.
[1013] 78. The composition of claims 1, 2 or 3 wherein
--C(O)R.sub.2 of W.sub.6 is --C(O)R.sub.4 and X.sub.1 is a bond,
N(H)--, --N(R.sub.5)--, --N(OH)--, or --N(OR.sub.5)--.
[1014] 79. The composition of claims 1, 2 or 3 wherein W.sub.1 is
--CO.sub.2R.sub.1.
[1015] 80. The composition of claims 1, 2 or 3 wherein E.sub.1 is
selected from the group consisting of: phenethyl ester of carboxyl,
977
[1016] 81. The composition of claims 1, 2 or 3 wherein G.sub.1 is
amino, amidino or guanidino, or amino, amidino or guanidino
substituted with C.sub.1-C.sub.6 alkyl.
[1017] 82. The composition of claims 1, 2 or 3 wherein W.sub.2 is
--NHR.sub.1, --N(R.sub.6b)(R.sub.1), --N(R.sub.6b).sub.2,
--NH(R.sub.5), --N(R.sub.6b)(R.sub.5), --N(R.sub.5).sub.2--,
--C(NH)(NH.sub.2), --NR.sub.1C(NR.sub.1)(NR.sub.1R.sub.3),
--NHC(NH)(NHR.sub.3), --NHC(NH)(NHR.sub.1), --NHC(NH)NH.sub.2),
--CH(CH.sub.2NHR.sub.1)(CH.sub.- 2OH),
--CH(CH.sub.2NHR.sub.1)(CH.sub.2NHR.sub.1),
--CH(NHR.sub.1)--(CR.sub- .1R.sub.1).sub.m2CH(NHR.sub.1)R.sub.1,
--CH(OH)CR.sub.1R.sub.1).sub.m2CH(N- HR.sub.1)R.sub.1, or
--CH(NHR.sub.1)(CR.sub.1R.sub.1).sub.m2CH(OH)R.sub.1,
--(CR.sub.1R.sub.1).sub.m2SC(NH)NH.sub.2,
--N.dbd.C(NHR.sub.1)(R.sub.3) or --CH.dbd.C(NHR.sub.1)(R.sub.1);
and m2 is independently an integer from 0 to 1.
[1018] 83. The composition of claims 1, 2 or 3 wherein G.sub.1 is
selected from the group consisting of: C.sub.1-C.sub.6
monoalkylamine, 978
[1019] 84. The composition of claims 1, 2 or 3 wherein W.sub.3 is
--C(O)--R.sub.5.
[1020] 85. The composition of claims 1, 2 or 3 wherein the R.sub.5
of group U.sub.1 is an alkyl of 1 to 6 carbon atoms substituted
with 0 to 3 F, Br, Cl, N.sub.3, NO.sub.2 or CN.
[1021] 86. The composition of claims 1, 2 or 3 wherein W.sub.5 is
selected from the group consisting of: 979
[1022] 87. The composition of claims 1, 2 or 3 wherein T.sub.1 is
selected from the group consisting of: 980
[1023] 88. The composition of claims 1, 2 or 3 wherein J.sub.1 is
H, C.sub.1-C.sub.2 alkyl or F.
[1024] 89. The composition of claims 1, 2 or 3 wherein J.sub.1a is
H.
[1025] 90. The composition of claims 1, 2 or 3 wherein J.sub.2a is
H or C.sub.1-C.sub.2 alkyl.
[1026] 91. The composition of claims 1, 2 or 3 wherein J.sub.2a is
H.
[1027] 92. The composition of claims 1, 2 or 3 wherein W.sub.6 is
secondary or tertiary alkyl containing 4 to 12 carbon atoms which
is unsubstituted or substituted with NO.sub.2, N.sub.3, F, Br, Cl,
OR.sub.1 or SR.sub.1.
[1028] 93. The composition of claim 61 which is substituted with
nitro, azido or halo.
[1029] 94. The composition of claims 1, 2 or 3 wherein W.sub.6 is
--(CH.sub.2).sub.m1CH(R.sub.1).sub.aW.sub.7 wherein W.sub.7 is an
alkyl of 1 to 4 carbon atoms substituted with 0 to 3 R.sub.3, a is
0 or 1, and when a is 0 then W.sub.7 is joined to CH by a double
bond.
[1030] 95. The composition of claim 85 wherein U.sub.1 is
--O--CH.sub.2CH(R.sub.1)W.sub.7.
[1031] 96. The composition of claim 85 wherein W.sub.7 is
--CH.sub.2OR.sub.1 and R.sub.1 is C.sub.4-C.sub.12 alkyl.
[1032] 97. The composition of claims 1, 2 or 3 wherein U.sub.1 is
(CH.sub.3CH.sub.2).sub.2CHO--, (CH.sub.3CH.sub.2)(CH.sub.3)CHO--,
(CH.sub.3).sub.2CHO--, (CH.sub.3).sub.2CHCH.sub.2O--,
CH.sub.3(CH.sub.2).sub.4O--, CH.sub.3(CH.sub.2).sub.3O--,
CH.sub.3(CH.sub.2).sub.2O--,
(CH.sub.3CH.sub.2)(CH.sub.3).sub.2CO--,
(CH.sub.3CH.sub.2)(CH.sub.3CH.sub.2)HCO--,
(CH.sub.3CH.sub.2CH.sub.2)(CH.- sub.3CH.sub.2)HCO--,
(CH.sub.3CH.sub.2CH.sub.2)(CH.sub.3CH.sub.2CH.sub.2)H- CO--,
cyclohexyl-O-- or cyclopentyl--O--.
[1033] 98. The composition of claims 1, 2 or 3 wherein:
[1034] E.sub.1 is --COOR.sub.5, 981
[1035] G.sub.1 is --N(R.sub.5).sub.2, --NH(R.sub.5).sub.2, 982
[1036] and U.sub.1 is an O-alkyl of 1 to 12 carbon atoms, O-alkenyl
of 2 to 12 carbon atoms, or O-alkynyl of 2 to 12 carbon atoms and
U.sub.1 is substituted with 0 to 3 groups selected from the group
consisting of F, Cl, Br, I, --CN, NO.sub.2, N.sub.3, --OR.sub.6a,
--NR.sub.6bR.sub.6b, --SR.sub.6a, --O--C(O)R.sub.6a, or
--NR.sub.6b--C(O)R.sub.6a.
[1037] 99. The composition of claim 89 wherein U.sub.1 is selected
from the group consisting of (CH.sub.3CH.sub.2).sub.2CHO--,
(CH.sub.3CH.sub.2)(CH.sub.3)CHO--, (CH.sub.3).sub.2CHO--,
(CH.sub.3).sub.2CHCH.sub.2O--, CH.sub.3(CH.sub.2).sub.4O,
--CH.sub.3(CH.sub.2).sub.3O--, CH.sub.3(CH.sub.2).sub.2O--,
(CH.sub.3CH.sub.2)(CH.sub.3).sub.2CO--,
(CH.sub.3CH.sub.2)(CH.sub.3CH.sub- .2)HCO--,
(CH.sub.3CH.sub.2CH.sub.2)(CH.sub.3CH.sub.2)HCO--,
(CH.sub.3CH.sub.2CH.sub.2)(CH.sub.3CH.sub.2CH.sub.2)HCO--,
cyclohexyl-O--, and cyclopentyl--O--.
[1038] 100. The composition of claims 1, 2 or 3 wherein E.sub.1 is
--COOH, or a carboxyl ester or carboxylamide that is hydrolyzable
in vivo. to --COOH.
[1039] 101. The composition of claims 1, 2 or 3 further comprising
a pharmaceutically-acceptable carrier.
[1040] 102. A composition comprising a compound of the formula:
983
[1041] wherein:
[1042] E.sub.1 is --CO.sub.2H, --CO.sub.2R.sub.5,
--CO.sub.2R.sub.5aW.sub.- 5 or --CO.sub.2W.sub.5;
[1043] G.sub.1 is --N(R.sub.11).sub.2,
--N(R.sub.11)C(N(R.sub.11))(N(R.sub- .11).sub.2), or
--C(R.sub.11).sub.2--N(R.sub.11).sub.2;
[1044] T.sub.1 is --NH(C(O)CH.sub.3), --NH(C(O)CH.sub.2F),
--NH(C(O)CHF.sub.2), or --NH(C(O)CF.sub.3);
[1045] U.sub.1 is --OR.sub.4, --SR.sub.4, NHR.sub.4 or
N(R.sub.4).sub.2;
[1046] R.sub.4 is independently alkyl of 1 to 12 carbon atoms,
alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon
atoms; and
[1047] R.sub.5 is independently R.sub.4 wherein each R.sub.4 is
substituted with 0 to 3 R.sub.3 groups;
[1048] R.sub.5a is independently alkylene of 1 to 12 carbon atoms,
alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon
atoms any one of which alkylene, alkenylene or alkynylene is
substituted with 0-3 R.sub.3 groups
[1049] W.sub.5 is carbocycle or heterocycle wherein W.sub.5 is
independently substituted with 0 to 3 R.sub.2 groups; and
[1050] R.sub.11 is independently H or R.sub.5.
[1051] 103. The composition of claim 93 wherein:
[1052] G.sub.1 is --NH.sub.2, --N(H)C(N(H))(NH.sub.2),
--NHCH.sub.3, --NHCH.sub.2CH.sub.3, --N(CH.sub.3).sub.2,
--N(CH.sub.2CH.sub.3).sub.2, --N(CH.sub.3)(CH.sub.2CH.sub.3),
--NHCH.sub.2CH.sub.2OH, --NHCH.sub.2CH.sub.2NH.sub.2, or
--CH.sub.2--NH.sub.2;
[1053] T.sub.1 is --N(H)(C(O)CH.sub.3), --N(H)(C(O)CH.sub.2F),
--N(H)(C(O)CHF.sub.2), or --N(H)(C(O)CF.sub.3); and
[1054] R.sub.4 is --OR.sub.4, --SR.sub.4 or NHR.sub.4 is branched
chain.
[1055] 104. The composition of claim 93 wherein R.sub.4 is alkyl of
1 to 12 carbon atoms, and R.sub.11 is R.sub.4.
[1056] 105. The composition of claim 93 wherein R.sub.4 is alkyl of
1 to 8 carbon atoms, or alkenyl or alkynyl of 2 to 8 carbon atoms,
and R.sub.11 is R.sub.4.
[1057] 106. The composition of claim 93 wherein R.sub.4 is alkyl of
1 to 6 carbon atoms, or alkenyl or alkynyl of 2 to 6 carbon atoms,
and R.sub.11 is R.sub.4.
[1058] 107. The composition of claim 93 wherein R.sub.4 is alkyl of
1 to 6 carbon atoms, and R.sub.11 is R.sub.4.
[1059] 108. The composition of claim 93 wherein R.sub.4 is alkyl of
1 to 6 carbon atoms and each R.sub.11 is H.
[1060] 109. The composition of claim 93 wherein E.sub.1 is
C(O)OCH.sub.2CH.sub.3; G.sub.1 is NH.sub.2, NHCH.sub.3 or
NHCH.sub.2CH.sub.3; T.sub.1 is NH(C(O)CH.sub.3); and U.sub.1 is
OCH(CH.sub.2CH.sub.3).sub.2.
[1061] 110. A compound named in Table 6.
[1062] 111. A method of inhibiting the activity of neuraminidase
comprising the step of contacting a sample suspected of containing
neuraminidase with the composition of claims 1, 2 or 3.
[1063] 112. The method of claim 102 wherein the neuraminidase is
influenza neuraminidase in vivo.
[1064] 113. A method for the treatment or prophylaxis of influenza
infection in a host comprising administering to the host a
therapeutically effective amount of a compound of claims 1, 2 or
3.
[1065] 114. A method for the treatment or prophylaxis of influenza
infection in a host comprising administering to the host a
therapeutically effective amount of a compound having the formula:
984
[1066] wherein:
[1067] T.sub.1 is --NHC(O)CH.sub.3, --NHC(O)CH.sub.2F,
--NHC(O)CHF.sub.2, or --NHC(O)CF.sub.3;
[1068] G.sub.1 is guanidino, amino, or guanidino or amino
substituted with C.sub.1-C.sub.5 alkyl;
[1069] U.sub.1 is C.sub.1-C.sub.3 alkyl substituted with 1 to 3
C.sub.1-C.sub.12 alkoxy groups; and
[1070] E.sub.1 is COOH.
[1071] 115. A method of treatment or prophylaxis of influenza virus
infection in a host comprising administration to the host, by a
route other than topically to the respiratory tract, of a
therapeutically effective dose of an antivirally active compound of
the formula: 985
[1072] wherein:
[1073] in general formula (x), A is oxygen, carbon or sulphur, and
in general formula (y), A is nitrogen or carbon;
[1074] R.sup.1 denotes COOH, P(O)(OH).sub.2, NO.sub.2, SOOH,
SO.sub.3H, tetrazol, CH.sub.2CHO, CHO or CH(CHO).sub.2,
[1075] R.sup.2 denotes H, OR.sup.6, F, Cl, Br, CN, NHR.sup.6,
SR.sup.6, or CH.sub.2X, wherein X is NHR.sup.6, halogen or OR.sup.6
and
[1076] R.sup.6 is hydrogen; an acyl group having 1 to 4 carbon
atoms; a linear or cyclic alkyl group having 1 to 6 carbon atoms,
or a halogen-substituted analogue thereof; an allyl group or an
unsubstituted aryl group or an aryl substituted by a halogen, an OH
group, an NO.sub.2 group, an NH.sub.2 group or a COOH group,
[1077] R.sup.3 and R.sup.3' are the same or different, and each
denotes hydrogen, CN, NHR.sup.6, N.sub.3, SR.sup.6,
.dbd.N--OR.sup.6, OR.sup.6, guanidino, 986
[1078] R.sup.4 denotes NHR.sup.6, SR.sup.6, OR.sup.6, COOR.sup.6,
NO.sub.2, C(R.sup.6).sub.3, CH.sub.2COOR.sup.6, CH.sub.2NO.sub.2 or
CH.sub.2NHR.sup.6, and
[1079] R.sup.5 denotes CH.sub.2YR.sup.6, CHYR.sup.6CH.sub.2YR.sup.6
or CHYR.sup.6CHYR.sup.6CH.sub.2YR.sup.6, where Y is O, S, NH or H,
and successive Y moieties in an R.sup.5 group are the same or
different,
[1080] and pharmaceutically acceptable salts or derivatives
thereof, provided that in general formula (x)
[1081] (i) when R.sup.3 or R.sup.3' is OR.sup.6 or hydrogen, and A
is oxygen or sulphur, then said compound cannot have both
[1082] (a) an R.sup.2 that is hydrogen and
[1083] (b) an R.sup.4 that is NH-acyl, and
[1084] (ii) R.sup.6 represents a covalent bond when Y is hydrogen,
and that in general formula (y),
[1085] (i) when R.sup.3 or R.sup.3' is OR.sup.6 or hydrogen, and A
is nitrogen, then said compound cannot have both
[1086] (a) an R.sup.2 that is hydrogen, and
[1087] (b) an R.sup.4 that is NH-acyl, and
[1088] (ii) R.sup.6 represents a covalent bond when Y is
hydrogen.
[1089] 116. The method of claim 106 wherein the compound is of the
formula: 987
[1090] 117. The method of claim 107 wherein the compound is
administered orally.
[1091] 118. The method of claim 108 wherein the host is human or
ferret.
[1092] 119. A method of using a compound of the formula: 988
[1093] wherein the method comprises treating compound 281 with a
compound of the formula:
R.sub.5--X.sub.1--H
[1094] to form a compound of the formula: 989
[1095] wherein:
[1096] X.sub.1 is --O--, --NR.sub.5--, or --S--;
[1097] R.sub.1 is independently H or alkyl of 1 to 12 carbon
atoms;
[1098] R.sub.2 is independently R.sub.3 or R.sub.4 wherein each
R.sub.4 is independently substituted with 0 to 3 R.sub.3
groups;
[1099] R.sub.3 is independently F, Cl, Br, I, --CN, N.sub.3,
--NO.sub.2, --OR.sub.6a, --OR.sub.1, --N(R.sub.1).sub.2,
--N(R.sub.1)(R.sub.6b), --N(R.sub.6b).sub.2, --SR.sub.1,
--SR.sub.6a, --S(O)R.sub.1, --S(O).sub.2R.sub.1, --S(O)OR.sub.1,
--S(O)OR.sub.6a, --S(O).sub.2OR.sub.1, --S(O).sub.2OR.sub.6a,
--C(O)OR.sub.1, --C(O)R.sub.6c, --C(O)OR.sub.6a, --OC(O)R.sub.1,
--N(R.sub.1)(C(O)R.sub.1- ), --N(R.sub.6b)(C(O)R.sub.1),
--C(O)N(R.sub.1).sub.2, --C(O)N(R.sub.6b)(R.sub.1),
--C(O)N(R.sub.6b).sub.2, --C(NR.sub.1)(N(R.sub.1).sub.2),
--C(N(R.sub.6b))(N(R.sub.1).sub.2),
--C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--C(N(R.sub.6b))(N(R.sub.1)(R.sub.- 6b)),
--C(N(R.sub.1))(N(R.sub.6b).sub.2),
--C(N(R.sub.6b))(N(R.sub.6b).sub- .2),
--N(R.sub.1)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.1)C(N(R.sub.1)- )(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))- (N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.1- ))(N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.6b).sub.2),
--N(R.sub.1)C(N(R.sub.6b))- (N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.6b).sub.2), .dbd.O, .dbd.S,
.dbd.N(R.sub.1) or .dbd.N(R.sub.6b);
[1100] R.sub.4 is alkyl of 1 to 12 carbon atoms, alkenyl of 2 to 12
carbon atoms, or alkynyl of 2 to 12 carbon atoms;
[1101] R.sub.5 is R.sub.4 wherein each R.sub.4 is substituted with
0 to 3 R.sub.3 groups;
[1102] R.sub.6a is H or a protecting group for hydroxyl or
thio;
[1103] R.sub.6b is H, a protecting group for amino or the residue
of a carboxyl-containing compound;
[1104] R.sub.6c is H or the residue of an amino-containing
compound;
[1105] R.sub.51 is an acid stable protecting group for a carboxylic
acid; and
[1106] R.sub.54 aziridine activating group.
[1107] 120. A method of using a compound of the formula: 990
[1108] wherein the method comprises treating Quinic acid with a
geminal dialkoxyalkane or geminal dialkoxy cycloalkane and acid to
form a compound of the formula: 991
[1109] treating compound 274 with a metal alkoxide and an alkanol
to form a compound of the formula: 992
[1110] treating compound 275 with a sulfonic acid halide and an
amine to form a compound of the formula: 993
[1111] treating compound 276 with a dehydrating agent followed by
an acid and an alkanol to form a compound of the formula: 994
[1112] wherein:
[1113] R.sub.50 is a 1,2 diol protecting group;
[1114] R.sub.51 is an acid stable carboxylic acid protecting group;
and
[1115] R.sub.52 is a hydroxy activating group.
[1116] 121. A composition comprising a compound of formula (I) or
(II): 995
[1117] wherein
[1118] E.sub.1 is --(CR.sub.1R.sub.1).sub.m1W.sub.1;
[1119] G.sub.1 is N.sub.3, --CN, --OH, --OR.sub.6a, --NO.sub.2, or
--CR.sub.1R.sub.1).sub.m1W.sub.2;
[1120] T.sub.1 is --NR.sub.1W.sub.3, a heterocycle, or is taken
together with G.sub.1 to form a group having the structure 996
[1121] U.sub.1 is --X.sub.1W.sub.6;
[1122] J.sub.1 and J.sub.1a are independently R.sub.1, Br, Cl, F,
I, CN, NO.sub.2 or N.sub.3;
[1123] J.sub.2 and J.sub.2a are independently H or R.sub.1;
[1124] R.sub.1 is independently H or alkyl of 1 to 12 carbon
atoms;
[1125] R.sub.2 is independently R.sub.3 or R.sub.4 wherein each
R.sub.4 is independently substituted with 0 to 3 R.sub.3
groups;
[1126] R.sub.3 is independently F, Cl, Br, I, --CN, N.sub.3,
--NO.sub.2, --OR.sub.6a, --OR.sub.1, --N(R.sub.1).sub.2,
--N(R.sub.1)(R.sub.6b), --N(R.sub.6b).sub.2, --SR.sub.1,
--SR.sub.6a, --S(O)R.sub.1, --S(O).sub.2R.sub.1, --S(O)OR.sub.1,
--S(O)OR.sub.6a, --S(O).sub.2OR.sub.1, S(O).sub.2OR.sub.6a,
--C(O)OR.sub.1, --C(O)R.sub.6c, --C(O)OR.sub.6a, --OC(O)R.sub.1,
--N(R.sub.1)(C(O)R.sub.1- ), --N(R.sub.6b)(C(O)R.sub.1),
--N(R.sub.1)(C(O)OR.sub.1), --N(R.sub.6b)(C(O)OR.sub.1),
--C(O)N(R.sub.1).sub.2, --C(O)N(R.sub.6b)(R.sub.1),
--C(O)N(R.sub.6b).sub.2, --C(NR.sub.1)(N(R.sub.1).sub.2),
--C(N(R.sub.6b))(N(R.sub.1).sub.2),
--C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--C(N(R.sub.6b))(N(R.sub.1)(R.sub.- 6b)),
--C(N(R.sub.1))(N(R.sub.6b).sub.2),
--C(N(R.sub.6b))(N(R.sub.6b).sub- .2),
--N(R.sub.1)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.1)C(N(R.sub.1)- )(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))- (N(R.sub.1).sub.2),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.1)C(N(R.sub.1- ))(N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.1)(R.sub.6b)),
--N(R.sub.6b)C(N(R.sub.1))(N(R.sub.6b).sub.2),
--N(R.sub.1)C(N(R.sub.6b))- (N(R.sub.6b).sub.2),
--N(R.sub.6b)C(N(R.sub.6b))(N(R.sub.6b).sub.2), .dbd.O, .dbd.S,
.dbd.N(R.sub.1) or .dbd.N(R.sub.6b);
[1127] R.sub.4 is independently alkyl of 1 to 12 carbon atoms,
alkenyl of 2 to 12 carbon atoms, or alkynyl of 2 to 12 carbon
atoms;
[1128] R.sub.5 is independently R.sub.4 wherein each R.sub.4 is
substituted with 0 to 3 R.sub.3 groups;
[1129] R.sub.5a is independently alkylene of 1 to 12 carbon atoms,
alkenylene of 2 to 12 carbon atoms, or alkynylene of 2-12 carbon
atoms any one of which alkylene, alkenylene or alkynylene is
substituted with 0-3 R.sub.3 groups;
[1130] R.sub.6a is independently H or a protecting group for
hydroxyl or thio;
[1131] R.sub.6b is independently H, a protecting group for amino or
the residue of a carboxyl-containing compound;
[1132] R.sub.6c is independently H or the residue of an
amino-containing compound;
[1133] W.sub.1 is a group comprising an acidic hydrogen, a
protected acidic group, or an R.sub.6c amide of the group
comprising an acidic hydrogen;
[1134] W.sub.2 is a group comprising a basic heteroatom or a
protected basic heteroatom, or an R.sub.6b amide of the basic
heteroatom;
[1135] W.sub.3 is W.sub.4 or W.sub.5;
[1136] W.sub.4 is R.sub.5 or --C(O)R.sub.5, --C(O)W.sub.5,
--SO.sub.2R.sub.5, or --SO.sub.2W.sub.5;
[1137] W.sub.5 is carbocycle or heterocycle wherein W.sub.5 is
independently substituted with 0 to 3 R.sub.2 groups;
[1138] W.sub.6 is --R.sub.5, --W.sub.5, --R.sub.5aW.sub.5,
--C(O)OR.sub.6a, --C(O)R.sub.6c, --C(O)N(R.sub.6b).sub.2,
--C(NR.sub.6b)(N(R.sub.6b).sub.2), --C(NR.sub.6b)(N(H)(R.sub.6b)),
--C(N(H)(N(R.sub.6b).sub.2), --C(S)N(R.sub.6b).sub.2, or
--C(O)R.sub.2;
[1139] X.sub.1 is a bond, --O--, --N(H)--, --N(R.sub.5)--, --S--,
--SO--, or --SO.sub.2--; and
[1140] each m.sub.1 is independently an integer from 0 to 2;
[1141] provided, however, that compounds are excluded wherein U1 is
H or --CH.sub.2CH(OH)CH.sub.2(OH);
[1142] and the salts, solvates, resolved enantiomers and purified
diastereomers thereof.
[1143] The following claims are directed to embodiments of the
invention and shall be construed to cover insubstantial variations
thereof.
* * * * *