1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Pfuhl, M. Pastore, A. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 1 90.00 90.00 90.00 1.000 1.000 1.000 C3 H7 N O2 89.093 y ALANINE L-peptide linking C6 H15 N4 O2 1 175.209 y ARGININE L-peptide linking C4 H8 N2 O3 132.118 y ASPARAGINE L-peptide linking C4 H7 N O4 133.103 y ASPARTIC ACID L-peptide linking C3 H7 N O2 S 121.158 y CYSTEINE L-peptide linking C5 H10 N2 O3 146.144 y GLUTAMINE L-peptide linking C5 H9 N O4 147.129 y GLUTAMIC ACID L-peptide linking C2 H5 N O2 75.067 y GLYCINE peptide linking C6 H10 N3 O2 1 156.162 y HISTIDINE L-peptide linking C6 H13 N O2 131.173 y ISOLEUCINE L-peptide linking C6 H13 N O2 131.173 y LEUCINE L-peptide linking C6 H15 N2 O2 1 147.195 y LYSINE L-peptide linking C5 H11 N O2 S 149.211 y METHIONINE L-peptide linking C9 H11 N O2 165.189 y PHENYLALANINE L-peptide linking C5 H9 N O2 115.130 y PROLINE L-peptide linking C3 H7 N O3 105.093 y SERINE L-peptide linking C4 H9 N O3 119.119 y THREONINE L-peptide linking C11 H12 N2 O2 204.225 y TRYPTOPHAN L-peptide linking C9 H11 N O3 181.189 y TYROSINE L-peptide linking C5 H11 N O2 117.146 y VALINE L-peptide linking UK J.Mol.Biol. JMOBAK 0070 0022-2836 265 242 256 10.1006/jmbi.1996.0725 9020985 When a module is also a domain: the role of the N terminus in the stability and the dynamics of immunoglobulin domains from titin. 1997 UK Structure STRUE6 2005 0969-2126 4 323 Immunoglobulin-Like Modules from Titin I-Band Extensible Components of Muscle Elasticity 1996 UK Structure STRUE6 2005 0969-2126 3 391 Tertiary Structure of an Immunoglobulin-Like Domain from the Giant Muscle Protein Titin: A New Member of the I Set 1995 NE J.Biomol.NMR JBNME9 0800 0925-2738 6 48 Secondary Structure Determination by NMR Spectroscopy of an Immunoglobulin-Like Domain from the Giant Muscle Protein Titin 1995 NE FEBS Lett. FEBLAL 0165 0014-5793 352 27 Immunoglobulin-Type Domains of Titin are Stabilized by Amino-Terminal Extension 1994 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 11882.170 TITIN N-TERMINALLY EXTENDED MODULE M5 1 man polymer CONNECTIN, NEXTM5 no no MHHHHHHSSKTTLAARILTKPRSMTVYEGESARFSCDTDGEPVPTVTWLRKGQVLSTSARHQVTTTKYKSTFEISSVQAS DEGNYSVVVENSEGKQEAEFTLTIQK MHHHHHHSSKTTLAARILTKPRSMTVYEGESARFSCDTDGEPVPTVTWLRKGQVLSTSARHQVTTTKYKSTFEISSVQAS DEGNYSVVVENSEGKQEAEFTLTIQK A polypeptide(L) n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n human Homo CARDIAC MUSCLE Escherichia sample BL21 9606 CYTOPLASMA/SARCOMERE Homo sapiens 562 Escherichia coli BL21 PLYS PET8C pdbx_database_status pdbx_struct_assembly pdbx_struct_oper_list struct_conf repository Initial release Version format compliance Version format compliance Derived calculations Other 1 0 1996-11-08 1 1 2008-03-24 1 2 2011-07-13 1 3 2017-11-29 _pdbx_database_status.process_site Y BNL 1996-08-13 REL 20 MM ACETATE BUFFER, NO OTHER SALTS 16 4.8 300 K BRUNGER refinement X-PLOR 3.1 n 1 -14 A n 2 -13 A n 3 -12 A n 4 -11 A n 5 -10 A n 6 -9 A n 7 -8 A n 8 -7 A SER -6 n 9 SER -6 A LYS -5 n 10 LYS -5 A THR -4 n 11 THR -4 A THR -3 n 12 THR -3 A LEU -2 n 13 LEU -2 A ALA -1 n 14 ALA -1 A ALA 0 n 15 ALA 0 A ARG 1 n 16 ARG 1 A ILE 2 n 17 ILE 2 A LEU 3 n 18 LEU 3 A THR 4 n 19 THR 4 A LYS 5 n 20 LYS 5 A PRO 6 n 21 PRO 6 A ARG 7 n 22 ARG 7 A SER 8 n 23 SER 8 A MET 9 n 24 MET 9 A THR 10 n 25 THR 10 A VAL 11 n 26 VAL 11 A TYR 12 n 27 TYR 12 A GLU 13 n 28 GLU 13 A GLY 14 n 29 GLY 14 A GLU 15 n 30 GLU 15 A SER 16 n 31 SER 16 A ALA 17 n 32 ALA 17 A ARG 18 n 33 ARG 18 A PHE 19 n 34 PHE 19 A SER 20 n 35 SER 20 A CYS 21 n 36 CYS 21 A ASP 22 n 37 ASP 22 A THR 23 n 38 THR 23 A ASP 24 n 39 ASP 24 A GLY 25 n 40 GLY 25 A GLU 26 n 41 GLU 26 A PRO 27 n 42 PRO 27 A VAL 28 n 43 VAL 28 A PRO 29 n 44 PRO 29 A THR 30 n 45 THR 30 A VAL 31 n 46 VAL 31 A THR 32 n 47 THR 32 A TRP 33 n 48 TRP 33 A LEU 34 n 49 LEU 34 A ARG 35 n 50 ARG 35 A LYS 36 n 51 LYS 36 A GLY 37 n 52 GLY 37 A GLN 38 n 53 GLN 38 A VAL 39 n 54 VAL 39 A LEU 40 n 55 LEU 40 A SER 41 n 56 SER 41 A THR 42 n 57 THR 42 A SER 43 n 58 SER 43 A ALA 44 n 59 ALA 44 A ARG 45 n 60 ARG 45 A HIS 46 n 61 HIS 46 A GLN 47 n 62 GLN 47 A VAL 48 n 63 VAL 48 A THR 49 n 64 THR 49 A THR 50 n 65 THR 50 A THR 51 n 66 THR 51 A LYS 52 n 67 LYS 52 A TYR 53 n 68 TYR 53 A LYS 54 n 69 LYS 54 A SER 55 n 70 SER 55 A THR 56 n 71 THR 56 A PHE 57 n 72 PHE 57 A GLU 58 n 73 GLU 58 A ILE 59 n 74 ILE 59 A SER 60 n 75 SER 60 A SER 61 n 76 SER 61 A VAL 62 n 77 VAL 62 A GLN 63 n 78 GLN 63 A ALA 64 n 79 ALA 64 A SER 65 n 80 SER 65 A ASP 66 n 81 ASP 66 A GLU 67 n 82 GLU 67 A GLY 68 n 83 GLY 68 A ASN 69 n 84 ASN 69 A TYR 70 n 85 TYR 70 A SER 71 n 86 SER 71 A VAL 72 n 87 VAL 72 A VAL 73 n 88 VAL 73 A VAL 74 n 89 VAL 74 A GLU 75 n 90 GLU 75 A ASN 76 n 91 ASN 76 A SER 77 n 92 SER 77 A GLU 78 n 93 GLU 78 A GLY 79 n 94 GLY 79 A LYS 80 n 95 LYS 80 A GLN 81 n 96 GLN 81 A GLU 82 n 97 GLU 82 A ALA 83 n 98 ALA 83 A GLU 84 n 99 GLU 84 A PHE 85 n 100 PHE 85 A THR 86 n 101 THR 86 A LEU 87 n 102 LEU 87 A THR 88 n 103 THR 88 A ILE 89 n 104 ILE 89 A GLN 90 n 105 GLN 90 A LYS 91 n 106 LYS 91 A author_defined_assembly 1 monomeric 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 1_555 identity operation 0.0000000000 0.0000000000 0.0000000000 A O THR 4 A O THR 19 A N ASP 22 A N ASP 37 A O CYS 21 A O CYS 36 A N SER 55 A N SER 70 A N THR 56 A N THR 71 A O THR 49 A O THR 64 A O MET 9 A O MET 24 A N THR 88 A N THR 103 A O ALA 83 A O ALA 98 A N VAL 72 A N VAL 87 1 A MET -14 A MET 1 1 Y 1 A HIS -13 A HIS 2 1 Y 1 A HIS -12 A HIS 3 1 Y 1 A HIS -11 A HIS 4 1 Y 1 A HIS -10 A HIS 5 1 Y 1 A HIS -9 A HIS 6 1 Y 1 A HIS -8 A HIS 7 1 Y 1 A SER -7 A SER 8 1 Y 2 A MET -14 A MET 1 1 Y 2 A HIS -13 A HIS 2 1 Y 2 A HIS -12 A HIS 3 1 Y 2 A HIS -11 A HIS 4 1 Y 2 A HIS -10 A HIS 5 1 Y 2 A HIS -9 A HIS 6 1 Y 2 A HIS -8 A HIS 7 1 Y 2 A SER -7 A SER 8 1 Y 3 A MET -14 A MET 1 1 Y 3 A HIS -13 A HIS 2 1 Y 3 A HIS -12 A HIS 3 1 Y 3 A HIS -11 A HIS 4 1 Y 3 A HIS -10 A HIS 5 1 Y 3 A HIS -9 A HIS 6 1 Y 3 A HIS -8 A HIS 7 1 Y 3 A SER -7 A SER 8 1 Y 4 A MET -14 A MET 1 1 Y 4 A HIS -13 A HIS 2 1 Y 4 A HIS -12 A HIS 3 1 Y 4 A HIS -11 A HIS 4 1 Y 4 A HIS -10 A HIS 5 1 Y 4 A HIS -9 A HIS 6 1 Y 4 A HIS -8 A HIS 7 1 Y 4 A SER -7 A SER 8 1 Y 5 A MET -14 A MET 1 1 Y 5 A HIS -13 A HIS 2 1 Y 5 A HIS -12 A HIS 3 1 Y 5 A HIS -11 A HIS 4 1 Y 5 A HIS -10 A HIS 5 1 Y 5 A HIS -9 A HIS 6 1 Y 5 A HIS -8 A HIS 7 1 Y 5 A SER -7 A SER 8 1 Y 6 A MET -14 A MET 1 1 Y 6 A HIS -13 A HIS 2 1 Y 6 A HIS -12 A HIS 3 1 Y 6 A HIS -11 A HIS 4 1 Y 6 A HIS -10 A HIS 5 1 Y 6 A HIS -9 A HIS 6 1 Y 6 A HIS -8 A HIS 7 1 Y 6 A SER -7 A SER 8 1 Y 7 A MET -14 A MET 1 1 Y 7 A HIS -13 A HIS 2 1 Y 7 A HIS -12 A HIS 3 1 Y 7 A HIS -11 A HIS 4 1 Y 7 A HIS -10 A HIS 5 1 Y 7 A HIS -9 A HIS 6 1 Y 7 A HIS -8 A HIS 7 1 Y 7 A SER -7 A SER 8 1 Y 8 A MET -14 A MET 1 1 Y 8 A HIS -13 A HIS 2 1 Y 8 A HIS -12 A HIS 3 1 Y 8 A HIS -11 A HIS 4 1 Y 8 A HIS -10 A HIS 5 1 Y 8 A HIS -9 A HIS 6 1 Y 8 A HIS -8 A HIS 7 1 Y 8 A SER -7 A SER 8 1 Y 9 A MET -14 A MET 1 1 Y 9 A HIS -13 A HIS 2 1 Y 9 A HIS -12 A HIS 3 1 Y 9 A HIS -11 A HIS 4 1 Y 9 A HIS -10 A HIS 5 1 Y 9 A HIS -9 A HIS 6 1 Y 9 A HIS -8 A HIS 7 1 Y 9 A SER -7 A SER 8 1 Y 10 A MET -14 A MET 1 1 Y 10 A HIS -13 A HIS 2 1 Y 10 A HIS -12 A HIS 3 1 Y 10 A HIS -11 A HIS 4 1 Y 10 A HIS -10 A HIS 5 1 Y 10 A HIS -9 A HIS 6 1 Y 10 A HIS -8 A HIS 7 1 Y 10 A SER -7 A SER 8 1 Y 11 A MET -14 A MET 1 1 Y 11 A HIS -13 A HIS 2 1 Y 11 A HIS -12 A HIS 3 1 Y 11 A HIS -11 A HIS 4 1 Y 11 A HIS -10 A HIS 5 1 Y 11 A HIS -9 A HIS 6 1 Y 11 A HIS -8 A HIS 7 1 Y 11 A SER -7 A SER 8 1 Y 12 A MET -14 A MET 1 1 Y 12 A HIS -13 A HIS 2 1 Y 12 A HIS -12 A HIS 3 1 Y 12 A HIS -11 A HIS 4 1 Y 12 A HIS -10 A HIS 5 1 Y 12 A HIS -9 A HIS 6 1 Y 12 A HIS -8 A HIS 7 1 Y 12 A SER -7 A SER 8 1 Y 13 A MET -14 A MET 1 1 Y 13 A HIS -13 A HIS 2 1 Y 13 A HIS -12 A HIS 3 1 Y 13 A HIS -11 A HIS 4 1 Y 13 A HIS -10 A HIS 5 1 Y 13 A HIS -9 A HIS 6 1 Y 13 A HIS -8 A HIS 7 1 Y 13 A SER -7 A SER 8 1 Y 14 A MET -14 A MET 1 1 Y 14 A HIS -13 A HIS 2 1 Y 14 A HIS -12 A HIS 3 1 Y 14 A HIS -11 A HIS 4 1 Y 14 A HIS -10 A HIS 5 1 Y 14 A HIS -9 A HIS 6 1 Y 14 A HIS -8 A HIS 7 1 Y 14 A SER -7 A SER 8 1 Y 15 A MET -14 A MET 1 1 Y 15 A HIS -13 A HIS 2 1 Y 15 A HIS -12 A HIS 3 1 Y 15 A HIS -11 A HIS 4 1 Y 15 A HIS -10 A HIS 5 1 Y 15 A HIS -9 A HIS 6 1 Y 15 A HIS -8 A HIS 7 1 Y 15 A SER -7 A SER 8 1 Y 16 A MET -14 A MET 1 1 Y 16 A HIS -13 A HIS 2 1 Y 16 A HIS -12 A HIS 3 1 Y 16 A HIS -11 A HIS 4 1 Y 16 A HIS -10 A HIS 5 1 Y 16 A HIS -9 A HIS 6 1 Y 16 A HIS -8 A HIS 7 1 Y 16 A SER -7 A SER 8 1 Y 1 A ARG 1 0.136 SIDE CHAIN 1 A ARG 7 0.205 SIDE CHAIN 1 A ARG 18 0.314 SIDE CHAIN 1 A ARG 35 0.308 SIDE CHAIN 1 A ARG 45 0.194 SIDE CHAIN 2 A ARG 1 0.238 SIDE CHAIN 2 A ARG 7 0.304 SIDE CHAIN 2 A ARG 18 0.309 SIDE CHAIN 2 A ARG 35 0.317 SIDE CHAIN 2 A ARG 45 0.199 SIDE CHAIN 3 A ARG 1 0.201 SIDE CHAIN 3 A ARG 7 0.188 SIDE CHAIN 3 A ARG 18 0.298 SIDE CHAIN 3 A ARG 35 0.200 SIDE CHAIN 3 A ARG 45 0.316 SIDE CHAIN 4 A ARG 1 0.194 SIDE CHAIN 4 A ARG 7 0.307 SIDE CHAIN 4 A ARG 18 0.308 SIDE CHAIN 4 A ARG 35 0.316 SIDE CHAIN 4 A ARG 45 0.273 SIDE CHAIN 5 A ARG 1 0.235 SIDE CHAIN 5 A ARG 7 0.267 SIDE CHAIN 5 A ARG 18 0.309 SIDE CHAIN 5 A ARG 35 0.302 SIDE CHAIN 5 A ARG 45 0.305 SIDE CHAIN 6 A ARG 1 0.271 SIDE CHAIN 6 A ARG 7 0.207 SIDE CHAIN 6 A ARG 18 0.317 SIDE CHAIN 6 A ARG 35 0.296 SIDE CHAIN 6 A ARG 45 0.124 SIDE CHAIN 7 A ARG 1 0.317 SIDE CHAIN 7 A ARG 7 0.317 SIDE CHAIN 7 A ARG 18 0.199 SIDE CHAIN 7 A ARG 35 0.146 SIDE CHAIN 7 A ARG 45 0.261 SIDE CHAIN 8 A ARG 1 0.303 SIDE CHAIN 8 A ARG 7 0.258 SIDE CHAIN 8 A ARG 18 0.303 SIDE CHAIN 8 A ARG 35 0.172 SIDE CHAIN 8 A ARG 45 0.196 SIDE CHAIN 9 A ARG 1 0.315 SIDE CHAIN 9 A ARG 7 0.133 SIDE CHAIN 9 A ARG 18 0.208 SIDE CHAIN 9 A ARG 35 0.215 SIDE CHAIN 9 A ARG 45 0.211 SIDE CHAIN 10 A ARG 1 0.309 SIDE CHAIN 10 A ARG 7 0.285 SIDE CHAIN 10 A ARG 18 0.162 SIDE CHAIN 10 A ARG 35 0.294 SIDE CHAIN 10 A ARG 45 0.141 SIDE CHAIN 11 A ARG 1 0.314 SIDE CHAIN 11 A ARG 7 0.295 SIDE CHAIN 11 A ARG 18 0.307 SIDE CHAIN 11 A ARG 35 0.307 SIDE CHAIN 11 A ARG 45 0.278 SIDE CHAIN 12 A ARG 1 0.154 SIDE CHAIN 12 A ARG 7 0.280 SIDE CHAIN 12 A ARG 18 0.219 SIDE CHAIN 12 A ARG 35 0.139 SIDE CHAIN 12 A ARG 45 0.286 SIDE CHAIN 13 A ARG 1 0.120 SIDE CHAIN 13 A ARG 7 0.176 SIDE CHAIN 13 A ARG 18 0.317 SIDE CHAIN 13 A ARG 35 0.277 SIDE CHAIN 13 A ARG 45 0.227 SIDE CHAIN 14 A ARG 1 0.232 SIDE CHAIN 14 A ARG 7 0.312 SIDE CHAIN 14 A ARG 18 0.285 SIDE CHAIN 14 A ARG 35 0.152 SIDE CHAIN 14 A ARG 45 0.200 SIDE CHAIN 15 A ARG 1 0.221 SIDE CHAIN 15 A ARG 7 0.313 SIDE CHAIN 15 A ARG 18 0.207 SIDE CHAIN 15 A ARG 35 0.276 SIDE CHAIN 15 A ARG 45 0.252 SIDE CHAIN 16 A ARG 1 0.144 SIDE CHAIN 16 A ARG 7 0.221 SIDE CHAIN 16 A ARG 18 0.163 SIDE CHAIN 16 A ARG 35 0.313 SIDE CHAIN 16 A ARG 45 0.282 SIDE CHAIN 1 A LYS -5 -174.43 29.69 1 A THR -4 -153.67 -42.32 1 A THR -3 -165.97 36.57 1 A ALA -1 -130.94 -137.39 1 A LYS 5 -45.62 172.27 1 A GLU 13 -160.22 -121.64 1 A GLU 15 -68.27 -82.74 1 A SER 16 -151.23 51.57 1 A ARG 35 -162.46 -36.96 1 A LYS 36 176.41 -26.54 1 A GLN 38 66.78 73.11 1 A VAL 39 33.15 34.24 1 A LEU 40 41.97 -86.52 1 A SER 41 -6.91 93.21 1 A THR 42 26.73 53.58 1 A ALA 44 -177.51 -33.81 1 A THR 51 -114.67 -149.43 1 A SER 60 -151.43 13.38 1 A VAL 62 -39.04 151.10 1 A GLN 63 -94.27 -81.34 1 A ALA 64 -168.83 31.30 1 A SER 65 -160.30 41.63 1 A GLU 67 27.79 -139.67 1 A ASN 76 -128.72 -159.69 1 A GLU 78 -166.68 21.45 1 A LYS 80 -176.63 77.80 2 A LYS -5 -167.14 -33.71 2 A THR -3 56.14 103.12 2 A ALA -1 -77.41 -147.00 2 A THR 4 -150.14 79.36 2 A LYS 5 -49.47 176.87 2 A ARG 7 -89.86 -150.58 2 A GLU 13 -162.42 -123.28 2 A GLU 15 -56.20 -72.66 2 A SER 16 173.46 51.64 2 A PRO 27 -70.93 -166.62 2 A VAL 28 -39.65 132.14 2 A ARG 35 -161.34 23.50 2 A GLN 38 -179.43 45.52 2 A VAL 39 37.45 26.97 2 A LEU 40 42.68 -95.10 2 A SER 41 35.51 31.48 2 A THR 42 34.42 38.55 2 A ALA 44 175.85 -27.18 2 A LYS 52 -49.93 -79.17 2 A SER 60 -151.26 11.82 2 A GLN 63 -72.83 -78.87 2 A ALA 64 -157.88 30.07 2 A ASP 66 -148.77 18.02 2 A GLU 67 55.53 -167.34 2 A GLU 78 -158.88 9.76 2 A LYS 80 -175.71 50.38 3 A LEU -2 -171.07 -173.65 3 A ALA -1 -105.80 -146.88 3 A LEU 3 -100.88 -64.81 3 A THR 4 -113.72 69.58 3 A LYS 5 -46.87 172.34 3 A GLU 13 -168.78 -94.10 3 A GLU 15 -54.63 -89.94 3 A SER 16 176.26 64.47 3 A ARG 35 -161.12 62.35 3 A GLN 38 60.67 122.39 3 A VAL 39 -33.13 111.28 3 A SER 41 -39.13 94.81 3 A THR 42 26.02 45.53 3 A ALA 44 175.86 -32.79 3 A THR 51 -120.01 -139.85 3 A LYS 52 -59.67 -87.98 3 A SER 60 -151.92 10.48 3 A GLN 63 -56.55 -86.17 3 A ALA 64 -175.50 33.25 3 A SER 65 -142.95 40.88 3 A GLU 67 38.30 -130.04 3 A ASN 76 -147.67 -152.76 3 A GLU 78 -169.42 26.94 3 A LYS 80 -172.34 64.60 3 A GLN 90 -55.07 -162.87 4 A LYS -5 -48.82 167.64 4 A LEU -2 -60.22 -151.83 4 A ALA -1 -162.07 -96.64 4 A LYS 5 -45.29 171.09 4 A GLU 13 -160.32 -121.33 4 A SER 16 -47.36 160.55 4 A ALA 17 -89.87 -159.57 4 A ARG 35 -162.29 -37.77 4 A LYS 36 -179.15 -25.47 4 A GLN 38 51.77 94.64 4 A VAL 39 27.19 100.60 4 A SER 41 -41.65 92.35 4 A THR 42 25.77 45.21 4 A ALA 44 -166.58 29.55 4 A ARG 45 176.81 -29.80 4 A THR 51 -146.98 48.33 4 A LYS 52 69.77 -82.28 4 A VAL 62 -48.72 155.91 4 A GLN 63 -93.78 -158.21 4 A ALA 64 -96.31 31.37 4 A GLU 67 29.84 -153.88 4 A SER 77 -34.51 -39.65 4 A GLU 78 -162.58 20.30 4 A GLN 90 -55.42 -165.44 5 A THR -4 -137.99 -87.27 5 A THR -3 -177.70 -33.21 5 A ALA -1 -106.26 -129.93 5 A VAL 11 -150.57 -156.64 5 A GLU 13 -145.69 -129.67 5 A GLU 15 -45.65 -76.11 5 A SER 16 -162.70 43.97 5 A ARG 35 -161.26 -52.85 5 A LYS 36 -175.02 -38.11 5 A GLN 38 -161.63 66.25 5 A VAL 39 39.59 24.76 5 A LEU 40 42.27 -97.02 5 A SER 41 26.70 84.21 5 A THR 42 25.02 45.45 5 A ALA 44 166.85 -26.51 5 A LYS 52 -51.02 -80.53 5 A SER 60 -150.60 10.14 5 A SER 61 -177.96 -32.63 5 A VAL 62 39.20 66.27 5 A GLN 63 -44.72 -74.70 5 A SER 65 69.54 142.70 5 A ASP 66 -114.54 -82.18 5 A GLU 67 175.18 -161.01 5 A ASN 76 -175.25 -139.67 5 A SER 77 -19.14 -59.12 5 A GLU 78 -163.98 22.92 5 A ILE 89 -150.86 67.55 5 A GLN 90 -176.27 63.22 6 A THR -4 -165.69 -68.94 6 A THR -3 37.31 35.55 6 A LEU -2 -48.84 172.21 6 A ALA -1 -78.37 -144.04 6 A SER 8 -71.00 -168.56 6 A GLU 13 -165.20 -123.74 6 A SER 16 -179.73 53.09 6 A PRO 27 -72.31 -167.32 6 A ARG 35 -161.75 -41.10 6 A LYS 36 176.98 -33.15 6 A GLN 38 63.49 127.84 6 A VAL 39 -26.25 103.79 6 A LEU 40 -38.60 -33.47 6 A SER 41 -48.05 93.36 6 A THR 42 34.87 70.74 6 A ARG 45 -174.63 -38.47 6 A THR 51 -119.31 -123.29 6 A LYS 52 -77.12 -85.67 6 A VAL 62 -38.08 152.97 6 A GLN 63 -122.04 -71.56 6 A ALA 64 -150.53 18.53 6 A SER 77 -38.68 -27.86 6 A GLU 78 -174.51 19.82 6 A ILE 89 -142.21 58.02 7 A LYS -5 -147.55 16.44 7 A THR -4 -153.80 -41.30 7 A THR -3 -120.94 -78.38 7 A LEU -2 -171.75 -175.76 7 A ALA -1 -87.48 -102.76 7 A GLU 13 -164.72 -128.22 7 A SER 16 -177.58 54.88 7 A PRO 27 -72.60 -163.63 7 A VAL 28 -38.75 124.16 7 A ARG 35 -160.80 66.46 7 A LYS 36 58.07 19.64 7 A GLN 38 53.32 78.98 7 A VAL 39 36.74 97.76 7 A SER 41 -33.10 91.17 7 A THR 42 29.55 43.54 7 A SER 43 -46.71 -75.96 7 A ARG 45 -155.28 15.38 7 A GLN 47 -150.18 85.20 7 A THR 51 -112.53 -140.55 7 A LYS 52 -74.27 -71.99 7 A SER 60 -151.06 -54.04 7 A VAL 62 -37.68 138.73 7 A GLN 63 -115.46 -93.32 7 A GLU 67 71.67 -161.76 7 A SER 77 -34.05 -29.84 7 A GLU 78 -171.87 9.99 7 A GLN 90 -5.68 78.23 8 A LYS -5 -62.35 -151.08 8 A ALA -1 -90.41 -143.21 8 A GLU 13 -154.04 -123.75 8 A SER 16 -60.66 -151.02 8 A PRO 27 -65.08 -171.82 8 A ARG 35 -161.40 -41.58 8 A LYS 36 179.02 -26.13 8 A GLN 38 58.12 77.65 8 A VAL 39 43.02 -171.99 8 A LEU 40 -131.80 -40.73 8 A SER 41 -38.50 91.89 8 A THR 42 35.53 43.66 8 A ALA 44 -178.97 -36.23 8 A THR 51 -120.45 -139.78 8 A LYS 52 -61.05 -89.43 8 A SER 61 -139.08 -37.74 8 A VAL 62 38.74 44.63 8 A GLN 63 -71.87 -151.20 8 A SER 65 60.43 115.87 8 A ASP 66 -142.05 39.17 8 A GLU 67 30.02 -155.73 8 A ASN 76 -174.69 -141.49 8 A SER 77 -19.23 -60.04 8 A GLU 78 -159.69 18.42 8 A ILE 89 -128.62 -155.99 8 A GLN 90 179.81 135.40 9 A THR -3 37.49 31.90 9 A ALA -1 -97.63 -87.38 9 A GLU 13 -165.85 -131.27 9 A GLU 15 -55.92 -88.99 9 A SER 16 177.78 61.11 9 A ARG 35 -161.47 84.22 9 A GLN 38 73.43 -81.42 9 A SER 41 -52.41 96.38 9 A THR 42 31.92 42.49 9 A ALA 44 -178.68 34.98 9 A ARG 45 -177.45 -27.60 9 A THR 51 -127.80 -162.71 9 A LYS 52 -52.61 -73.41 9 A SER 60 -150.71 9.83 9 A GLN 63 -79.48 -83.35 9 A ALA 64 -166.12 27.92 9 A SER 65 -146.89 51.11 9 A GLU 67 57.07 -171.58 9 A SER 77 -32.39 -31.24 9 A GLU 78 -159.21 -2.67 9 A ILE 89 -125.49 -143.25 9 A GLN 90 -27.45 90.18 10 A LYS -5 -50.00 -90.46 10 A THR -4 -153.49 61.27 10 A LEU -2 -158.72 9.28 10 A ALA -1 55.78 -101.52 10 A SER 8 47.55 -165.68 10 A MET 9 -175.01 -178.88 10 A GLU 13 -162.04 -128.16 10 A SER 16 -177.80 55.28 10 A PRO 27 -65.40 -168.26 10 A VAL 28 -38.82 130.36 10 A ARG 35 -160.61 -56.19 10 A LYS 36 -144.81 -32.02 10 A GLN 38 70.84 -80.23 10 A SER 41 -41.62 93.92 10 A THR 42 37.02 35.34 10 A ALA 44 176.62 -32.71 10 A ARG 45 -140.35 13.50 10 A THR 51 -117.90 -137.79 10 A LYS 52 -56.11 -90.60 10 A VAL 62 -48.07 158.68 10 A ALA 64 -93.16 35.15 10 A GLU 67 49.66 -173.91 10 A ASN 69 -162.20 67.71 10 A ASN 76 -175.40 -139.45 10 A SER 77 -21.94 -58.00 10 A GLU 78 -160.81 20.66 10 A LYS 80 -168.13 62.78 11 A LYS -5 -172.27 -48.12 11 A THR -3 -111.18 -87.99 11 A LEU -2 -172.14 -174.23 11 A ALA -1 -87.71 -107.68 11 A LYS 5 -47.91 172.51 11 A GLU 13 -159.78 -124.38 11 A SER 16 -176.15 57.66 11 A ARG 35 -160.74 -43.07 11 A LYS 36 178.50 -25.07 11 A GLN 38 60.09 70.82 11 A VAL 39 42.73 -174.28 11 A LEU 40 -131.61 -30.78 11 A SER 41 -48.28 92.37 11 A THR 42 33.46 48.01 11 A ALA 44 176.48 -27.77 11 A THR 51 -126.44 -134.16 11 A LYS 52 -50.71 -95.79 11 A SER 60 -150.72 15.63 11 A SER 61 -167.79 -43.09 11 A VAL 62 45.03 -176.22 11 A ALA 64 -92.51 31.09 11 A SER 65 -151.49 19.75 11 A GLU 67 39.17 -140.69 11 A ASN 76 -174.50 -143.27 11 A SER 77 -20.87 -56.80 11 A GLU 78 -159.27 14.51 11 A LYS 80 -161.22 60.81 11 A GLN 90 -59.93 -165.33 12 A THR -4 -142.92 -62.30 12 A THR -3 -135.94 -48.34 12 A LEU -2 -172.03 -166.87 12 A ALA -1 -103.43 -98.45 12 A SER 8 47.91 -167.55 12 A GLU 13 -172.14 -131.48 12 A GLU 15 -65.54 -87.43 12 A SER 16 -179.44 67.95 12 A GLN 38 -163.05 82.78 12 A VAL 39 27.45 102.50 12 A SER 41 -48.45 91.90 12 A THR 42 26.37 50.48 12 A ALA 44 170.14 -28.39 12 A THR 51 -100.02 -146.51 12 A SER 60 -151.60 15.52 12 A GLN 63 -89.00 -83.87 12 A ALA 64 -178.20 34.33 12 A SER 65 -152.24 25.10 12 A GLU 67 28.61 -152.38 12 A ASN 69 -163.34 53.07 12 A ASN 76 -160.40 -143.30 12 A SER 77 -20.21 -59.48 12 A GLU 78 -166.39 25.88 12 A ILE 89 -140.68 38.45 13 A LYS -5 -63.39 -142.73 13 A THR -3 55.74 101.98 13 A ALA -1 -87.37 -130.79 13 A GLU 13 -148.42 -114.79 13 A ALA 17 -90.12 -153.89 13 A PRO 27 -68.37 -166.84 13 A ARG 35 -161.16 -51.02 13 A LYS 36 -177.26 30.76 13 A GLN 38 54.14 75.79 13 A VAL 39 46.84 135.04 13 A SER 41 -42.06 91.92 13 A THR 42 32.38 39.41 13 A ALA 44 -174.94 -41.54 13 A THR 51 -100.99 -113.82 13 A LYS 52 -103.20 -69.52 13 A VAL 62 -46.68 172.23 13 A GLN 63 -102.18 -80.77 13 A ALA 64 -177.97 39.94 13 A SER 65 -173.17 65.92 13 A GLU 67 60.97 -179.63 13 A ASN 76 -162.73 -139.52 13 A GLU 78 -153.84 22.09 13 A LYS 80 -157.55 54.61 14 A THR -4 -152.12 -48.37 14 A THR -3 54.31 95.81 14 A LEU -2 -103.73 -97.06 14 A ALA -1 161.84 155.53 14 A LYS 5 -45.67 171.52 14 A GLU 13 -169.85 -94.45 14 A GLU 15 -55.01 -79.30 14 A SER 16 175.79 59.50 14 A PRO 27 -70.07 -166.09 14 A ARG 35 -162.18 -40.93 14 A LYS 36 178.93 -25.53 14 A GLN 38 44.93 70.54 14 A VAL 39 48.72 175.39 14 A SER 41 -45.11 92.40 14 A THR 42 25.15 52.61 14 A ALA 44 179.97 43.51 14 A ARG 45 176.88 -25.55 14 A THR 51 -114.37 -136.75 14 A LYS 52 -82.29 -70.56 14 A SER 60 -151.60 13.25 14 A VAL 62 -34.95 122.19 14 A GLN 63 -63.08 -142.99 14 A SER 65 171.65 153.21 14 A ASP 66 -117.78 -75.80 14 A GLU 67 -179.18 -179.80 14 A GLU 75 -178.34 -167.90 14 A ASN 76 -171.10 -155.82 14 A SER 77 -59.87 -9.60 14 A GLU 78 -170.28 23.50 14 A GLN 90 -9.93 88.29 15 A LYS -5 56.05 -129.27 15 A THR -4 -151.39 38.10 15 A ALA -1 -96.78 -146.61 15 A VAL 11 -150.32 -155.04 15 A GLU 13 -149.92 -110.32 15 A GLU 15 -63.99 -86.45 15 A PRO 27 -74.28 -168.00 15 A ARG 35 -155.35 -44.71 15 A LYS 36 177.81 -33.97 15 A GLN 38 74.98 157.65 15 A VAL 39 -73.63 28.08 15 A LEU 40 47.38 -106.96 15 A THR 42 56.66 105.23 15 A ALA 44 170.85 -28.39 15 A THR 51 -132.49 -138.94 15 A LYS 52 -50.09 -90.07 15 A SER 60 -151.07 -64.42 15 A GLN 63 -119.05 -146.36 15 A GLU 67 60.86 -171.26 15 A ASN 76 -156.38 -157.28 15 A GLU 78 -164.85 22.99 15 A LYS 80 -175.71 53.37 15 A ILE 89 -126.07 -154.57 15 A GLN 90 174.82 136.64 16 A THR -4 -150.70 89.55 16 A LEU -2 -162.52 -163.92 16 A ALA -1 -110.26 -99.26 16 A SER 8 52.26 174.63 16 A GLU 13 -174.46 -124.95 16 A SER 16 -59.94 -160.36 16 A ALA 17 -130.85 -148.65 16 A PRO 27 -69.42 -168.87 16 A ARG 35 -160.62 -45.59 16 A LYS 36 -167.81 -40.65 16 A GLN 38 -179.02 -96.47 16 A VAL 39 -144.81 14.05 16 A LEU 40 50.25 -105.52 16 A SER 41 27.18 87.66 16 A THR 42 25.48 42.98 16 A ALA 44 176.96 -32.86 16 A THR 51 -124.25 -136.17 16 A LYS 52 -48.26 -95.72 16 A SER 60 -151.67 13.50 16 A GLN 63 -77.46 -76.39 16 A ALA 64 -176.24 43.89 16 A SER 65 -173.24 79.82 16 A ASP 66 -132.50 -79.06 16 A GLU 67 168.91 172.08 16 A SER 77 -39.90 -24.67 16 A GLU 78 -167.47 6.92 model building X-PLOR 3.1 refinement X-PLOR 3.1 phasing X-PLOR 3.1 TITIN Titin Module M5, N-terminally Extended, NMR 1 Y N MUSCLE PROTEIN CELL ADHESION, GLYCOPROTEIN, TRANSMEMBRANE, BRAIN, IMMUNOGLOBULIN FOLD, ALTERNATIVE SPLICING, MUSCLE PROTEIN A GLU 26 A GLU 41 1 A PRO 27 A PRO 42 -0.66 A GLU 26 A GLU 41 2 A PRO 27 A PRO 42 0.01 A GLU 26 A GLU 41 3 A PRO 27 A PRO 42 -0.66 A GLU 26 A GLU 41 4 A PRO 27 A PRO 42 0.28 A GLU 26 A GLU 41 5 A PRO 27 A PRO 42 0.08 A GLU 26 A GLU 41 6 A PRO 27 A PRO 42 -0.43 A GLU 26 A GLU 41 7 A PRO 27 A PRO 42 -0.39 A GLU 26 A GLU 41 8 A PRO 27 A PRO 42 0.85 A GLU 26 A GLU 41 9 A PRO 27 A PRO 42 0.18 A GLU 26 A GLU 41 10 A PRO 27 A PRO 42 0.78 A GLU 26 A GLU 41 11 A PRO 27 A PRO 42 -1.09 A GLU 26 A GLU 41 12 A PRO 27 A PRO 42 -0.74 A GLU 26 A GLU 41 13 A PRO 27 A PRO 42 0.36 A GLU 26 A GLU 41 14 A PRO 27 A PRO 42 0.02 A GLU 26 A GLU 41 15 A PRO 27 A PRO 42 -0.36 A GLU 26 A GLU 41 16 A PRO 27 A PRO 42 0.37 Q10466_HUMAN UNP 1 1 Q10466 MTTQAPTFTQPLQSVVVLEGSTATFEAHISGFPVPEVSWFRDGQVISTSTLPGVQISFSDGRAKLTIPAVTKANSGRYSL KATNGSGQATSTAELLVKAETAPPNFVQRLQSMTVRQGSQVRLQVRVTGIPNPVVKFYRDGAEIQSSLDFQISQEGDLYS LLIAEAYPEDSGTYSVNATNSVGRATSTAELLVQGEEEVPAKKTKTIVSTAQISESRQTRIEKKIEAHFDARSIATVEMV IDGAAGQQLPHKTPPRIPPKPKSRSPTPPSIAAKAQLARQQSPSPIRHSPSPVRHVRAPTPSPVRSVSPAARISTSPIRS VRSPLLMRKTQASTVATGPEVPPPWKQEGYVASSSEAEMRETTLTTSTQIRTEERWEGRYGVQEQVTISGAAGAAASVSA SASYAAEAVATGAKEVKQDADKSAAVATVVAAVDMARVREPVISAVEQTAQRTTTTAVHIQPAQEQVRKEAEKTAVTKVV VAADKAKEQELKSRTKEIITTKQEQMHVTHEQIRKETEKTFVPKVVISAAKAKEQETRISEEITKKQKQVTQEAIMKETR KTVVPKVIVATPKVKEQDLVSRGREGITTKREQVQITQEKMRKEAEKTALSTIAVATAKAKEQETILRTRETMATRQEQI QVTHGKVDVGKKAEAVATVVAAVDQARVREPREPGHLEESYAQQTTLEYGYKERISAAKVAEPPQRPASEPHVVPKAVKP RVIQAPSETHIKTTDQKGMHISSQIKKTTDLTTERLVHVDKRPRTASPHFTVSKISVPKTEHGYEASIAGSAIATLQKEL SATSSAQKITKSVKAPTVKPSETRVRAEPTPLPQFPFADTPDTYKSEAGVEVKKEVGVSITGTTVREERFEVLHGREAKV TETARVPAPVEIPVTPPTLVSGLKNVTVIEGESVTLECHISGYPSPTVTWYREDYQIESSIDFQITFQSGIARLMIREAF AEDSGRFTCSAVNEAGTVSTSCYLAVQVSEEFEKETTAVTEKFTTEEKRFVESRDVVMTDTSLTEEQAGPGEPAAPYFIT KPVVQKLVEGGSVVFGCQVGGNPKPHVYWKKSGVPLTTGYRYKVSYNKQTGECKLVISMTFADDAGEYTIVVRNKHGETS ASASLLEEADYELLMKSQQEMLYQTQVTAFVQEPEVGETAPGFVYSEYEKEYEKEQALIRKKMAKDTVVVRTYVEDQEFH ISSFEERLIKEIEYRIIKTTLEELLEEDGEEKMAVDISESEAVESGFDLRIKNYRILEGMGVTFHCKMSGYPLPKIAWYK DGKRIKHGERYQMDFLQDGRASLRIPVVLPEDEGIYTAFASNIKGNAICSGKLYVEPAAPLGAPTYIPTLEPVSRIRSLS PRSVSRSPIRMSPARMSPARMSPARMSPARMSPGRRLEETDESQLERLYKPVFVLKPVSFKCLEGANCRFDLKVVGRPMP ETFWFHDGQQIVNDYTHKVVIKEDGTQSLIIVPATPSDSGEWTVVAQNRAGRSSISVILTVEAVEHQVKPMFVEKLKNVN IKEGSRLEMKVRATGNPNPDIVWLKNSDIIVPHKYPKIRIEGTKGEAALKIDSTVSQDSAWYTATAINKAGRDTTRCKVN VEVEFAEPEPERKLIIPRGTYRAKEIAAPELEPLHLRYGQEQWEEGDLYDKEKQQKPFFKKKLTSLRLKRFGPAHFECRL TPISDPTMVVEWLHDGKPLEAANRLRMINEFGYCSLDYGVAYSRDSGIITCRATNKYGTDHTSATLIVKDEKSLVEESQL PEGRKGLQRIEELERMAHEGALTGVTTDQKEKQKPDIVLYPEPVRVLEGETARFRCRVTGYPQPKVNWYLNGQLIRKSKR FRVRYDGIHYLDIVDCKSYDTGEVKVTAENPEGVIEHKVKLEIQQREDFRSVLRRAPEPRPEFHVHEPGKLQFEVQKVDR PVDTTETKEVVKLKRAERITHEKVPEESEELRSKFKRRTEEGYYEAITAVELKSRKKDESYEELLRKTKDELLHWTKELT EEEKKALAEEGKITIPTFKPDKIELSPSMEAPKIFERIQSQTVGQGSDAHFRVRVVGKPDPECEWYKNGVKIERSDRIYW YWPEDNVCELVIRDVTAEDSASIMVKAINIAGETSSHAFLLVQAKQLITFTQELQDVVAKEKDTMATFECETSEPFVKVK WYKDGMEVHEGDKYRMHSDRKVHFLSILTIDTSDAEDYSCVLVEDENVKTTAKLIVEGAVVEFVKELQDIEVPESYSGEL ECIVSPENIEGKWYHNDVELKSNGKYTITSRRGRQNLTVKDVTKEDQGEYSFVIDGKKTTCKLKMKPRPIAILQGLSDQK VCEGDIVQLEVKVSLESVEGVWMKDGQEVQPSDRVHIVIDKQSHMLLIEDMTKEDAGNYSFTIPALGLSTSGRVSVYSVD VITPLKDVNVIEGTKAVLECKVSVPDVTSVKWYLNDEQIKPDDRVQAIVKGTKQRLVINRTHASDEGPYKLIVGRVETNC NLSVEKIKIIRGLRDLTCTETQNVVFEVELSHSGIDVLWNFKDKEIKPSSKYKIEAHGKIYKLTVLNMMKDDEGKYTFYA GENMTSGKLTVAGGAISKPLTDQTVAESQEAVFECEVANPDSKGEWLRDGKHLPLTNNIRSESDGHKRRLIIAATKLDDI GEYTYKVATSKTSAKLKVEAVKIKKTLKNLTVTETQDAVFTVELTHPNVKGVQWIKNGVVLESNEKYAISVKGTIYSLRI KNCAIVDESVYGFRLGRLGASARLHVETVKIIKKPKDVTALENATVAFEVSVSHDTVPVKWFHKSVEIKPSDKHRLVSER KVHKLMLQNISPSDAGEYTAVVGQLECKAKLFVETLHITKTMKNIEVPETKTASFECEVSHFNVPSMWLKNGVEIEMSEK FKIVVQGKLHQLIIMNTSTEDSAEYTFVCGNDQVSATLTVTPIMITSMLKDINAEEKDTITFEVTVNYEGISYKWLKNGV EIKSTDKCQMRTKKLTHSLNIRNVHFGDAADYTFVAGKATSTATLYVEARHIEFRKHIKDIKVLEKKRAMFECEVSEPDI TVQWMKDDQELQITDRIKIQKEKYVHRLLIPSTRMSDAGKYTVVAGGNVSTAKLFVEGRDVRIRSIKKEVQVIEKQRAVV EFEVNEDDVDAHWYKDGIEINFQVQERHKYVVERRIHRMFISETRQSDAGEYTFVAGRNRSSVTLYVNAPEPPQVLQELQ PVTVQSGKPARFCAMISGRPQPKISWYKEEQLLSTGFKCKFLHDGQEYTLLLIEAFPEDAAVYTCEAKNDYGVATTSASL SVEVPEVVSPDQEMPVYPPAIITPLQDTVTSEGQPARFQCRVSGTDLKVSWYSKDKKIKPSRFFRMTQFEDTYQLEIAEA YPEDEGTYTFVANNAVGQVSSTANLSLEAPESILHERIEQEIEMEMKEFSSSFLSAEEEGLHSAELQLSKINETLELLSE SPVYPTKFDSEKEGTGPIFIKEVSNADISMGDVATLSVTVIGIPKPKIQWFFNGVLLTPSADYKFVFDGDDHSLIILFTK LEDEGEYTCMASNDYGKTICSAYLKINSKGEGHKDTETESAVAKSLEKLGGPCPPHFLKELKPIRCAQGLPAIFEYTVVG EPAPTVTWFKENKQLCTSVYYTIIHNPNGSGTFIVNDPQREDSGLYICKAENMLGESTCAAELLVLLEDTDMTDTPCKAK STPEAPEDFPQTPLKGPAVEALDSEQEIATFVKDTILKAALITEENQQLSYEHIAKANELSSQLPLGAQELQSILEQDKL TPESTREFLCINGSIHFQPLKEPSPNLQLQIVQSQKTFSKEGILMPEEPETQAVLSDTEKIFPSAMSIEQINSLTVEPLK TLLAEPEGNYPQSSIEPPMHSYLTSVAEEVLSLKEKTVSDTNREQRVTLQKQEAQSALILSQSLAEGHVESLQSPDVMIS QVNYEPLVPSEHSCTEGGKILIESANPLENAGQDSAVRIEEGKSLRFPLALEEKQVLLKEEHSDNVVMPPDQIIESKREP VAIKKVQEVQGRDLLSKESLLSGIPEEQRLNLKIQICRALQAAVASEQPGLFSEWLRNIEKVEVEAVNITQEPRHIMCMY LVTSAKSVTEEVTIIIEDVDPQMANLKMELRDALCAIIYEEIDILTAEGPRIQQGAKTSLQEEMDSFSGSQKVEPITEPE VESKYLISTEEVSYFNVQSRVKYLDATPVTKGVASAVVSDEKQDESLKPSEEKEESSSESGTEEVATVKIQEAEGGLIKE DGPMIHTPLVDTVSEEGDIVHLTTSITNAKEVNWYFENKLVPSDEKFKCLQDQNTYTLVIDKVNTEDHQGEYVCEALNDS GKTATSAKLTVVKRAAPVIKRKIEPLEVALGHLAKFTCEIQSAPNVRFQWFKAGREIYESDKCSIRSSKYISSLEILRTQ VVDCGEYTCKASNEYGSVSCTATLTVTVPGGEKKVRKLLPERKPEPKEEVVLKSVLRKRPEEEEPKVEPKKLEKVKKPAV PEPPPPKPVEEVEVPTVTKRERKIPEPTKVPEIKPAIPLPAPEPKPKPEAEVKTIKPPPVEPEPTPIAAPVTVPVVGKKA EAKAPKEEAAKPKGPIKGVPKKTPSPIEAERRKLRPGSGGEKPPDEAPFTYQLKAVPLKFVKEIKDIILTESEFVGSSAI FECLVSPSTAITTWMKDGSNIRESPKHRFIADGKDRKLHIIDVQLSDAGEYTCVLRLGNKEKTSTAKLVVEELPVRFVKT LEEEVTVVKGQPLYLSCELNKERDVVWRKDGKIVVEKPGRIVPGVIGLMRALTINDADDTDAGTYTVTVENANNLECSSC VKVVEVIRDWLVKPIRDQHVKPKGTAIFACDIAKDTPNIKWFKGYDEIPAEPNDKTEILRDGNHLYLKIKNAMPEDIAEY AVEIEGKRYPAKLTLGEREVELLKPIEDVTIYEKESASFDAEISEADIPGQWKLKGELLRPSPTCEIKAEGGKRFLTLHK VKLDQAGEVLYQALNAITTAILTVKEIELDFAVPLKDVTVPERRQARFECVLTREANVIWSKGPDIIKSSDKFDIIADGK KHILVINDSQFDDEGVYTAEVEGKKTSARLFVTGIRLKFMSPLEDQTVKEGETATFVCELSHEKMHVVWFKNDAKLHTSR TVLISSEGKTHKLEMKEVTLDDISQIKAQVKELSSTAQLKVLEADPYFTVKLHDKTAVEKDEITLKCEVSKDVPVKWFKD GEEIVPSPKYSIKADGLRRILKIKKADLKDKGEYVCDCGTDKTKANVTVEARLIEVEKPLYGVEVFVGETAHFEIELSEP DVHGQWKLKGQPLTASPDCEIIEDGKKHILILHNCQLGMTGEVSFQAANAKSAANLKVKELPLIFITPLSDVKVFEKDEA KFECEVSREPKTFRWLKGTQEITGDDRFELIKDGTKHSMVIKSAAFEDEAKYMFEAEDKHTSGKLIIEGIRLKFLTPLKD VTAKEKESAVFTVELSHDNIRVKWFKNDQRLHTTRSVSMQDEGKTHSITFKDLSIDDTSQIRVEAMGMSSEAKLTVLEGD PYFTGKLQDYTGVEKDEVILQCEISKADAPVKWFKDGKEIKPSKNAVIKTDGKKRMLILKKALKSDIGQYTCDCGTDKTS GKLDIEDREIKLVRPLHSVEVMETETARFETEISEDDIHANWKLKGEALLQTPDCEIKEEGKIHSLVLHNCRLDQTGGVD FQAANVKSSAHLRVKPRVIGLLRPLKDVTVTAGETATFDCELSYEDIPVEWYLKGKKLEPSDKVVPRSEGKVHTLTLRDV KLEDAGEVQLTAKDFKTHANLFVKEPPVEFTKPLEDQTVEEGATAVLECEVSRENAKVKWFKNGTEILKSKKYEIVADGR VRKLVIHDCTPEDIKTYTCDAKDFKTSCNLNVVPPHVEFLRPLTDLQVREKEMARFECELSRENAKVKWFKDGAEIKKGK KYDIISKGAVRILVINKCLLDDEAEYSCEVRTARTSGMLTVLEEEAVFTKNLANIEVSETDTIKLVCEVSKPGAEVIWYK GDEEIIETGRYEILTEGRKRILVIQNAHLEDAGNYNCRLPSSRTDGKVKVHELAAEFISKPQNLEILEGEKAEFVCSISK ESFPVQWKRDDKTLESGDKYDVIADGKKRVLVVKDATLQDMGTYVVMVGAARAAAHLTVIEKLRIVVPLKDTRVKEQQEV VFNCEVNTEGAKAKWFRNEEAIFDSSKYIILQKDLVYTLRIRDAHLDDQANYNVSLTNHRGENVKSAANLIVEEEDLRIV EPLKDIETMEKKSVTFWCKVNRLNVTLKWTKNGEEVPFDNRVSYRVDKYKHMLTIKDCGFPDEGEYIVTAGQDKSVAELL IIEAPTEFVEHLEDQTVTEFDDAVFSCQLSREKANVKWYRNGREIKEGKKYKFEKDGSIHRLIIKDCRLDDECEYACGVE DRKSRARLFVEEIPVEIIRPPQDILEAPGADVVFLAELNKDKVEVQWLRNNMVVVQGDKHQMMSEGKIHRLQICDIKPRD QGEYRFIAKDKEARAKLELAAAPKIKTADQDLVVDVGKPLTMVVPYDAYPKAEAEWFKENEPLSTKTIDTTAEQTSFRIL EAKKGDKGRYKIVLQNKHGKAEGFINLKVIDVPGPVRNLEVTETFDGEVSLAWEEPLTDGGSKIIGYVVERRDIKRKTWV LATDRAESCEFTVTGLQKGGVEYLFRVSARNRVGTGEPVETDNPVEARSKYDVPGPPLNVTITDVNRFGVSLTWEPPEYD GGAEITNYVIELRDKTSIRWDTAMTVRAEDLSATVTDVVEGQEYSFRVRAQNRIGVGKPSAATPFVKVADPIERPSPPVN LTSSDQTQSSVQLKWEPPLKDGGSPILGYIIERCEEGKDNWIRCNMKLVPELTYKVTGLEKGNKYLYRVSAENKAGVSDP SEILGPLTADDAFVEPTMDLSAFKDGLEVIVPNPITILVPSTGYPRPTATWCFGDKVLETGDRVKMKTLSAYAELVISPS ERSDKGIYTLKLENRVKTISGEIDVNVIARPSAPKELKFGDITKDSVHLTWEPPDDDGGSPLTGYVVEKREVSRKTWTKV MDFVTDLEFTVPDLVQGKEYLFKVCARNKCGPGEPAYVDEPVNMSTPATVPDPPENVKWRDRTANSIFLTWDPPKNDGGS RIKGYIVERCPRGSDKWVACGEPVAETKMEVTGLEEGKWYAYRVKTLNRQGASKPSRPTEEIQAVDTQEAPEIFLDVKLL AGLTVKAGTKIELPATVTGKPEPKITWTKADMILKQDKRITIENVPKKSTVTIVDSKRSDTGTYIIEAVNVCGRATAVVE VNVLDKPGPPAAFDITDVTNESCLLTWNPPRDDGGSKITNYVVERRATDSEVWHKLSSTVKDTNFKATKLIPNKEYIFRV AAENMYGAGEPVQASPITAKYQFDPPGPPTRLEPSDITKDAVTLTWCEPDDDGGSPITGYWVERLDPDTDKWVRCNKMPV KDTTYRVKGLTNKKKYRFRVLAENLAGPGKPSKSTEPILIKDPIDPPWPPGKPTVKDVGKTSVRLNWTKPEHDGGAKIES YVIEMLKTGTDEWVRVAEGVPTTQHLLPGLMEGQEYSFRVRAVNKAGESEPSEPSDPVLCREKLYPPSPPRWLEVINITK NTADLKWTVPEKDGGSPITNYIVEKRDVRRKGWQTVDTTVKDTKCTVTPLTEGSLYVFRVAAENAIGQSDYTEIEDSVLA KDTFTTPGPPYALAVVDVTKRHVDLKWEPPKNDGGRPIQRYVIEKKERLGTRWVKAGKTAGPDCNFRVTDVIEGTEVQFQ VRAENEAGVGHPSEPTEILSIEDPTSPPSPPLDLHVTDAGRKHIAIAWKPPEKNGGSPIIGYHVEMCPVGTEKWMRVNSR PIKDLKFKVEEGVVPDKEYVLRVRAVNAIGVSEPSEISENVVAKDPDCKPTIDLETHDIIVIEGEKLSIPVPFRAVPVPT VSWHKDGKEVKASDRLTMKNDHISAHLEVPKSVRADAGIYTITLENKLGSATASINVKVIGLPGPCKDIKASDITKSSCK LTWEPPEFDGGTPILHYVLERREAGRRTYIPVMSGENKLSWTVKDLIPNGEYFFRVKAVNKVGGGEYIELKNPVIAQDPK QPPDPPVDVEVHNPTAEAMTITWKPPLYDGGSKIMGYIIEKIAKGEERWKRCNEHLVPILTYTAKGLEEGKEYQFRVRAE NAAGISEPSRATPPTKAVDPIDAPKVILRTSLEVKRGDEIALDASISGSPYPTITWIKDENVIVPEEIKKRAAPLVRRRK GEVQEEEPFVLPLTQRLSIDNSKKGESQLRVRDSLRPDHGLYMIKVENDHGIAKAPCTVSVLDTPGPPINFVFEDIRKTS VLCKWEPPLDDGGSEIINYTLEKKDKTKPDSEWIVVTSTLRHCKYSVTKLIEGKEYLFRVRAENRFGPGPPCVSKPLVAK DPFGPPDAPDKPIVEDVTSNSMLVKWNEPKDNGSPILGYWLEKREVNSTHWSRVNKSLLNALKANVDGLLEGLTYVFRVC AENAAGPGKFSPPSDPKTAHDPISPPGPPIPRVTDTSSTTIELEWEPPAFNGGGEIVGYFVDKQLVGTNKWSRCTEKMIK VRQYTVKEIREGADYKLRVSAVNAAGEGPPGETQPVTVAEPQEPPAVELDVSVKGGIQIMAGKTLRIPAVVTGRPVPTKV WTKEEGELDKDRVVIDNVGTKSELIIKDALRKDHGRYVITATNSCGSKFAAARVEVFDVPGPVLDLKPVVTNRKMCLLNW SDPEDDGGSEITGFIIERKDAKMHTWRQPIETERSKCDITGLLEGQEYKFRVIAKNKFGCGPPVEIGPILAVDPLGPPTS PERLTYTERQRSTITLDWKEPRSNGGSPIQGYIIEKRRHDKPDFERVNKRLCPTTSFLVENLDEHQMYEFRVKAVNEIGE SEPSLPLNVVIQDDEVPPTIKLRLSVRGDTIKVKAGEPVHIPADVTGLPMPKIEWSKNETVIEKPTDALQITKEEVSRSE AKTELSIPKAVREDKGTYTVTASNRLGSVFRNVHVEVYDRPSPPRNLAVTDIKAESCYLTWDAPLDNGGSEITHYVIDKR DASRKKAEWEEVTNTAVEKRYGIWKLIPNGQYEFRVRAVNKYGISDECKSDKVVIQDPYRLPGPPGKPKVLARTKGSMLV SWTPPLDNGGSPITGYWLEKREEGSPYWSRVSRAPITKVGLKGVEFNVPRLLEGVKYQFRAMAINAAGIGPPSEPSDPEV AGDPIFPPGPPSCPEVKDKTKSSISLGWKPPAKDGGSPIKGYIVEMQEEGTTDWKRVNEPDKLITTCECVVPNLKELRKY RFRVKAVNEAGESEPSDTTGEIPATDIQEEPEVFIDIGAQDCLVCKAGSQIRIPAVIKGRPTPKSSWEFDGKAKKAMKDG VHDIPEDAQLETAENSSVIIIPECKRSHTGKYSITAKNKAGQKTANCRVKVMDVPGPPKDLKVSDITRGSCRLSWKMPDD DGGDRIKGYVIEKRTIDGKAWTKVNPDCGSTTFVVPDLLSEQQYFFRVRAENRFGIGPPVETIQRTTARDPIYPPDPPIK LKIGLITKNTVHLSWKPPKNDGGSPVTHYIVECLAWDPTGTKKEAWRQCNKRDVEELQFTVEDLVEGGEYEFRVKAVNAA GVSKPSATVGPCDCQRPDMPPSIDLKEFMEVEEGTNVNIVAKIKGVPFPTLTWFKAPPKKPDNKEPVLYDTHVNKLVVDD TCTLVIPQSRRSDTGLYTITAVNNLGTASKEMRLNVLGRPGPPVGPIKFESVSADQMTLSWFPPKDDGGSKITNYVIEKR EANRKTWVHVSSEPKECTYTIPKLLEGHEYVFRIMAQNKYGIGEPLDSEPETARNLFSVPGAPDKPTVSSVTRNSMTVNW EEPEYDGGSPVTGYWLEMKDTTSKRWKRVNRDPIKAMTLGVSYKVTGLIEGSDYQFRVYAINAAGVGPASLPSDPATARD PIAPPGPPFPKVTDWTKSSADLEWSPPLKDGGSKVTGYIVEYKEEGKEEWEKGKDKEVRGTKLVVTGLKEGAFYKFRVSA VNIAGIGEPGEVTDVIEMKDRLVSPDLQLDASVRDRIVVHAGGVIRIIAYVSGKPPPTVTWNMNERTLPQEATIETTAIS SSMVIKNCQRSHQGVYSLLAKNEAGERKKTIIVDVLDVPGPVGTPFLAHNLTNESCKLTWFSPEDDGGSPITNYVIEKRE SDRRAWTPVTYTVTRQNATVQGLIQGKAYFFRIAAENSIGMGPFVETSEALVIREPITVPERPEDLEVKEVTKNTVTLTW NPPKYDGGSEIINYVLESRLIGTEKFHKVTNDNLLSRKYTVKGLKEGDTYEYRVSAVNIVGQGKPSFCTKPITCKDELAP PTLHLDFRDKLTIRVGEAFALTGRYSGKPKPKVSWFKDEADVLEDDRTHIKTTPATLALEKIKAKRSDSGKYCVVVENST GSRKGFCQVNVVDHPGPPVGPVSFDEVTKDYMVISWKPPLDDGGSKITNYIIEKKEVGKDVWMPVTSASAKTTCKVSKLL EGKDYIFRIHAENLYGISDPLVSDSMKAKDRFRVPDAPDQPIVTEVTKDSALVTWNKPHDGGKPITNYILEKRETMSKRW ARVTKDPIHPYTKFRVPDLLEGCQYEFRVSAENEIGIGDPSPPSKPVFAKDPIAKPSPPVNPEAIDTTCNSVDLTWQPPR HDGGSKILGYIVEYQKVGDEEWRRANHTPESCPETKYKVTGLRDGQTYKFRVLAVNAAGESDPAHVPEPVLVKDRLEPPE LILDANMAREQHIKVGDTLRLSAIIKGVPFPKVTWKKEDRDAPTKARIDVTPVGSKLEIRNAAHEDGGIYSLTVENPAGS KTVSVKVLVLDKPGPPRDLEVSEIRKDSCYLTWKEPLDDGGSVITNYVVERRDVASAQWSPLSATSKKKSHFAKHLNEGN QYLFRVAAENQYGRGPFVETPKPIKALDPLHPPGPPKDLHHVDVDKTEVSLVWNKPDRDGGSPITGYLVEYQEEGTQDWI KFKTVTNLECVVTGLQQGKTYRFRVKAENIVGLGLPDTTIPIECQEKLVPPSVELDVKLIEGLVVKAGTTVRFPAIIRGV PVPTAKWTTDGSEIKTDEHYTVETDNFSSVLTIKNCLRRDTGEYQITVSNAAGSKTVAVHLTVLDVPGPPTGPINILDVT PEHMTISWQPPKDDGGSPVINYIVEKQDTRKDTWGVVSSGSSKTKLKIPHLQKGCEYVFRVRAENKIGVGPPLDSTPTVA KHKFSPPSPPGKPVVTDITENAATVSWTLPKSDGGSPITGYYMERREVTGKWVRVNKTPIADLKFRVTGLYEGNTYEFRV FAENLAGLSKPSPSSDPIKACRPIKPPGPPINPKLKDKSRETADLVWTKPLSDGGSPILGYVVECQKPGTAQWNRINKDE LIRQCAFRVPGLIEGNEYRFRIKAANIVGEGEPRELAESVIAKDILHPPEVELDVTCRDVITVRVGQTIRILARVKGRPE PDITWTKEGKVLVREKRVDLIQDLPRVELQIKEAVRADHGKYIISAKNSSGHAQGSAIVNVLDRPGPCQNLKVTNVTKEN CTISWENPLDNGGSEITNFIVEYRKPNQKGWSIVASDVTKRLIKANLLANNEYYFRVCAENKVGVGPTIETKTPILAINP IDRPGEPENLHIADKGKTFVYLKWRRPDYDGGSPNLSYHVERRLKGSDDWERVHKGSIKETHYMVDRCVENQIYEFRVQT KNEGGESDWVKTEEVVVKEDLQKPVLDLKLSGVLTVKAGDTIRLEAGVRGKPFPEVAWTKDKDATDLTRSPRVKIDTRAD SSKFSLTKAKRSDGGKYVVTATNTAGSFVAYATVNVLDKPGPVRNLKIVDVSSDRCTVCWDPPEDDGGCEIQNYILEKCE TKRMVWSTYSATVLTPGTTVTRLIEGNEYIFRVRAENKIGTGPPTESKPVIAKTKYDKPGRPDPPEVTKVSKEEMTVVWN PPEYDGGKSITGYFLEKKEKHSTRWVPVNKSAIPERRMKVQNLLPDHEYQFRVKAENEIGIGEPSLPSRPVVAKDPIEPP GPPTNFRVVDTTKHSITLGWGKPVYDGGAPIIGYVVEMRPKIADASPDEGWKRCNAAAQLVRKEFTVTSLDENQEYEFRV CAQNQVGIGRPAELKEAIKPKEILEPPEIDLDASMRKLVIVRAGCPIRLFAIVRGRPAPKVTWRKVGIDNVVRKGQVDLV DTMAFLVIPNSTRDDSGKYSLTLVNPAGEKAVFVNVRVLDTPGPVSDLKVSDVTKTSCHVSWAPPENDGGSQVTHYIVEK READRKTWSTVTPEVKKTSFHVTNLVPGNEYYFRVTAVNEYGPGVPTDVPKPVLASDPLSEPDPPRKLEATEMTKNSATL AWLPPLRDGGAKIDGYIISYREEEQPADRWTEYSVVKDLSLVVTGLKEGKKYKFRVAARNAVGVSLPREAEGVYEAKEQL LPPKILMPEQITIKAGKKLRIEAHVYGKPHPTCKWKKGEDEVVTSSHLAVHKADSSSILIIKDVTRKDSGYYSLTAENSS GTDTQKIKVVVMDAPGPPQPPFDISDIDADACSLSWHIPLEDGGSNITNYIVEKCDVSRGDWVTALASVTKTSCRVGKLI PGQEYIFRVRAENRFGISEPLTSPKMVAQFPFGVPSEPKNARVTKVNKDCIFVAWDRPDSDGGSPIIGYLIERKERNSLL WVKANDTLVRSTEYPCAGLVEGLEYSFRIYALNKAGSSPPSKPTEYVTARMPVDPPGKPEVIDVTKSTVSLIWARPKHDG GSKIIGYFVEACKLPGDKWVRCNTAPHQIPQEEYTATGLEEKAQYQFRAIARTAVNISPPSEPSDPVTILAENVPPRIDL SVAMKSLLTVKAGTNVCLDATVFGKPMPTVSWKKDGTLLKPAEGIKMAMQRNLCTLELFSVNRKDSGDYTITAENSSGSK SATIKLKVLDKPGPPASVKINKMYSDRAMLSWEPPLEDGGSEITNYIVDKRETSRPNWAQVSATVPITSCSVEKLIEGHE YQFRICAENKYGVGDPVFTEPAIAKNPYDPPGRCDPPVISNITKDHMTVSWKPPADDGGSPITGYLLEKRETQAVNWTKV NRKPIIERTLKATGLQEGTEYEFRVTAINKAGPGKPSDASKAAYARDPQYPPAPPAFPKVYDTTRSSVSLSWGKPAYDGG SPIIGYLVEVKRADSDNWVRCNLPQNLQKTRFEVTGLMEDTQYQFRVYAVNKIGYSDPSDVPDKHYPKDILIPPEGEHDA DLRKTLILRAGVTMRLYVPVKGRPPPKITWSKPNVNLRDRIGLDIKSTDFDTFLRCENVNKYDAGKYILTLENSCGKKEY TIVVKVLDTPGPPINVTVKEISKDSAYVTWEPPIIDGGSPIINYVVQKRDAERKSWSTVTTECSKTSFRVPNLEEGKSYF FRVFAENEYGIGDPGETRDAVKASQTPGPVVDLKVRSVSKSSCSIGWKKPHSDGGSRIIGYVVDFLTEENKWQRVMKSLS LQYSAKDLTEGKEYTFRVSAENENGEGTPSEITVVARDDVVAPDLDLKGLPDLCYLAKENSNFRLKIPIKGKPAPSVSWK KGEDPLATDTRVSVESSAVNTTLIVYDCQKSDAGKYTITLKNVAGTKEGTISIKVVGKPGIPTGPIKFDEVTAEAMTLKW APPKDDGGSEITNYILEKRDSVNNKWVTCASAVQKTTFRVTRLHEGMEYTFRVSAENKYGVGEGLKSEPIVARHPFDVPD APPPPNIVDVRHDSVSLTWTDPKKTGGSPITGYHLEFKERNSLLWKRANKTPIRMRDFKVTGLTEGLEYEFRVMAINLAG VGKPSLPSEPVVALDPIDPPGKPEVINITRNSVTLIWTEPKYDGGHKLTGYIVEKRDLPSKSWMKANHVNVPECAFTVTD LVEGGKYEFRIRAKNTAGAISAPSESTETIICKDEYEAPTIVLDPTIKDGLTIKAGDTIVLNAISILGKPLPKSSWSKAG KDIRPSDITQITSTPTSSMLTIKYATRKDAGEYTITATNPFGTKVEHVKVTVLDVPGPPGPVEISNVSAEKATLTWTPPL EDGGSPIKSYILEKRETSRLLWTVVSEDIQSCRHVATKLIQGNEYIFRVSAVNHYGKGEPVQSEPVKMVDRFGPPGPPEK PEVSNVTKNTATVSWKRPVDDGGSEITGYHVERREKKSLRWVRAIKTPVSDLRCKVTGLQEGSTYEFRVSAENRAGIGPP SEASDSVLMKDAAYPPGPPSNPHVTDTTKKSASLAWGKPHYDGGLEITGYVVEHQKVGDEAWIKDTTGTALRITQFVVPD LQTKEKYNFRISAINDAGVGEPAVIPDVEIVEREMAPDFELDAELRRTLVVRAGLSIRIFVPIKGRPAPEVTWTKDNINL KNRANIENTESFTLLIIPECNRYDTGKFVMTIENPAGKKSGFVNVRVLDTPGPVLNLRPTDITKDSVTLHWDLPLIDGGS RITNYIVEKREATRKSYSTATTKCHKCTYKVTGLSEGCEYFFRVMAENEYGIGEPTETTEPVKASEAPSPPDSLNIMDIT KSTVSLAWPKPKHDGGSKITGYVIEAQRKGSDQWTHITTVKGLECVVRNLTEGEEYTFQVMAVNSAGRSAPRESRPVIVK EQTMLPELDLRGIYQKLVIAKAGDNIKVEIPVLGRPKPTVTWKKGDQILKQTQRVNFETTATSTILNINECVRSDSGPYP LTARNIVGEVGDVITIQVHDIPGPPTGPIKFDEVSSDFVTFSWDPPENDGGVPISNYVVEMRQTDSTTWVELATTVIRTT YKATRLTTGLEYQFRVKAQNRYGVGPGITSAWIVANYPFKVPGPPGTPQVTAVTKDSMTISWHEPLSDGGSPILGYHVER KERNGILWQTVSKALVPGNIFKSSGLTDGIAYEFRVIAENMAGKSKPSKPSEPMLALDPIDPPGKPVPLNITRHTVTLKW AKPEYTGGFKITSYIVEKRDLPNGRWLKANFSNILENEFTVSGLTEDAAYEFRVIAKNAAGAISPPSEPSDAITCRDDVE APKIKVDVKFKDTVILKAGEAFRLEADVSGRPPPTMEWSKDGKELEGTAKLEIKIADFSTNLVNKDSTRRDSGAYTLTAT NPGGFAKHIFNVKVLDRPGPPEGPLAVTEVTSEKCVLSWFPPLDDGGAKIDHYIVQKRETSRLAWTNVASEVQVTKLKVT KLLKGNEYIFRVMAVNKYGVGEPLESEPVLAVNPYGPPDPPKNPEVTTITKDSMVVCWGHPDSDGGSEIINYIVERRDKA GQRWIKCNKKTLTDLRYKVSGLTEGHEYEFRIMAENAAGISAPSPTSPFYKACDTVFKPGPPGNPRVLDTSRSSISIAWN KPIYDGGSEITGYMVEIALPEEDEWQIVTPPAGLKATSYTITGLTENQEYKIRIYAMNSEGLGEPALVPGTPKAEDRMLP PEIELDADLRKVVTIRACCTLRLFVPIKGRPDPEVKWARDHGESLDKASIESASSYTLLIVGNVNRFDSGKYILTVENSS GSKSAFVNVRVLDTPGPPQDLKVKEVTKTSVTLTWDPPLLDGGSKIKNYIVEKRESTRKAYSTVATNCHKTSWKVDQLQE GCSYYFRVLAENEYGIGLPAETAESVKASERPLPPGKITLMDVTRNSVSLSWEKPEHDGGSRILGYIVEMQTKGSDKWAT CATVKVTEATITGLIQGEEYSFRVSAQNEKGISDPRQLSVPVIAKDLVIPPAFKLLFNTFTVLAGEDLKVDVPFIGRPTP AVTWHKDNVPLKQTTRVNAESTENNSLLTIKDACREDVGHYVVKLTNSAGEAIETLNVIVLDKPGPPTGPVKMDEVTADS ITLSWGPPKYDGGSSINNYIVEKRDTSTTTWQIVSATVARTTIKACRLKTGCEYQFRIAAENRYGKSTYLNSEPTVAQYP FKVPGPPGTPVVTLSSRDSMEVQWNEPISDGGSRVIGYHLERKERNSILWVKLNKTPIPQTKFKTTGLEEGVEYEFRVSA ENIVGIGKPSKVSECYVARDPCDPPGRPEAIIVTRNSVTLQWKKPTYDGGSKITGYIVEKKELPEGRWMKASFTNIIDTH FEVTGLVEDHRYEFRVIARNAAGVFSEPSESTGAITARDEVDPPRISMDPKYKDTIVVHAGESFKVDADIYGKPIPTIQW IKGDQELSNTARLEIKSTDFATSLSVKDAVRVDSGNYILKAKNVAGERSVTVNVKVLDRPGPPEGPVVISGVTAEKCTLA WKPPLQDGGSDIINYIVERRETSRLVWTVVDANVQTLSCKVTKLLEGNEYTFRIMAVNKYGVGEPLESEPVVAKNPFVVP DAPKAPEVTTVTKDSMIVVWERPASDGGSEILGYVLEKRDKEGIRWTRCHKRLIGELRLRVTGLIENHDYEFRVSAENAA GLSEPSPPSAYQKACDPIYKPGPPNNPKVIDITRSSVFLSWSKPIYDGGCEIQGYIVEKCDVNVGEWTMCTPPTGINKTN IEVEKLLEKHEYNFRICAINKAGVGEHADVPGPIIVEEKLEAPDIDLDLELRKIINIRAGGSLRLFVPIKGRPTPEVKWG KVDGEIRDAAIIDVTSSFTSLVLDNVNRYDSGKYTLTLENSSGTKSAFVTVRVLDTPSPPVNLKVTEITKDSVSITWEPP LLDGGSKIKNYIVEKREATRKSYAAVVTNCHKNSWKIDQLQEGCSYYFRVTAENEYGIGLPAQTADPIKVAEVPQPPGKI TVDDVTRNSVSLSWTKPEHDGGSKIIQYIVEMQAKHSEKWSECARVKSLQAVITNLTQGEEYLFRVVAVNEKGRSDPRSL AVPIVAKDLVIEPDVKPAFSSYSVQVGQDLKMEVPISGRPKPTITWTKDGLPLKQTTRINVTDSLDLTTLSIKETHKDDG GQYGITVANVVGQKTASIEIVTLDKPDPPKGPVKFDDVSAESITLSWNPPLYTGGCQITNYIVQKRDTTTTVWDVVSATV ARTTLKVTKLKTGTEYQFRIFAENRYGQSFALESDPIVAQYPYKEPGPPGTPFATAISKDSMVIQWHEPVNNGGSPVIGY HLERKERNSILWTKVNKTIIHDTQFKAQNLEEGIEYEFRVYAENIVGVGKASKNSECYVARDPCDPPGTPEPIMVKRNEI TLQWTKPVYDGGSMITGYIVEKRDLPDGRWMKASFTNVIETQFTVSGLTEDQRYEFRVIAKNAAGAISKPSDSTGPITAK DEVELPRISMDPKFRDTIVVNAGETFRLEADVHGKPLPTIEWLRGDKEIEESARCEIKNTDFKALLIVKDAIRIDGGQYI LRASNVAGSKSFPVNVKVLDRPGPPEGPVQVTGVTSEKCSLTWSPPLQDGGSDISHYVVEKRETSRLAWTVVASEVVTNS LKVTKLLEGNEYVFRIMAVNKYGVGEPLESAPVLMKNPFVLPGPPKSLEVTNIAKDSMTVCWNRPDSDGGSEIIGYIVEK RDRSGIRWIKCNKRRITDLRLRVTGLTEDHEYEFRVSAENAAGVGEPSPATVYYKACDPVFKPGPPTNAHIVDTTKNSIT LAWGKPIYDGGSEILGYVVEICKADEEEWQIVTPQTGLRVTRFEISKLTEHQEYKIRVCALNKVGLGEATSVPGTVKPED KLEAPELDLDSELRKGIVVRAGGSARIHIPFKGRPMPEITWSREEGEFTDKVQIEKGVNYTQLSIDNCDRNDAGKYILKL ENSSGSKSAFVTVKVLDTPGPPQNLAVKEVRKDSAFLVWEPPIIDGGAKVKNYVIDKRESTRKAYANVSSKCSKTSFKVE NLTEGAIYYFRVMAENEFGVGVPVETVDAVKAAEPPSPPGKVTLTDVSQTSASLMWEKPEHDGGSRVLGYVVEMQPKGTE KWSIVAESKVCNAVVTGLSSGQEYQFRVKAYNEKGKSDPRVLGVPVIAKDLTIQPSLKLPFNTYSIQAGEDLKIEIPVIG RPRPNISWVKDGEPLKQTTRVNVEETATSTVLHIKEGNKDDFGKYTVTATNSAGTATENLSVIVLEKPGPPVGPVRFDEV SADFVVISWEPPAYTGGCQISNYIVEKRDTTTTTWHMVSATVARTTIKITKLKTGTEYQFRIFAENRYGKSAPLDSKAVI VQYPFKEPGPPGTPFVTSISKDQMLVQWHEPVNDGGTKIIGYHLEQKEKNSILWVKLNKTPIQDTKFKTTGLDEGLEYEF KVSAENIVGIGKPSKVSECFVARDPCDPPGRPEAIVITRNNVTLKWKKPAYDGGSKITGYIVEKKDLPDGRWMKASFTNV LETEFTVSGLVEDQRYEFRVIARNAAGNFSEPSDSSGAITARDEIDAPNASLDPKYKDVIVVHAGETFVLEADIRGKPIP DVVWSKDGKELEETAARMEIKSTIQKTTLVVKDCIRTDGGQYILKLSNVGGTKSIPITVKVLDRPGSPEGPLKVTGVTAE KCYLAWNPPLQDGGANISHYIIEKRETSRLSWTQVSTEVQALNYKVTKLLPGNEYIFRVMAVNKYGIGEPLESGPVTACN PYKPPGPPSTPEVSAITKDSMVVTWARPVDDGGTEIEGYILEKRDKEGVRWTKCNKKTLTDLRLRVTGLTEGHSYEFRVA AENAAGVGEPSEPSVFYRACDALYPPGPPSNPKVTDTSRSSVSLAWSKPIYDGGAPVKGYVVEVKEAAADEWTTCTPPTG LQGKQFTVTKLKENTEYNFRICAINSEGVGEPATLPGSVVAQERIEPPEIELDADLRKVVVLRASATLRLFVTIKGRPEP EVKWEKAEGILTDRAQIEVTSSFTMLVIDNVTRFDSGRYNLTLENNSGSKTAFVNVRVLDSPSAPVNLTIREVKKDSVTL SWEPPLIDGGAKITNYIVEKRETTRKAYATITNNCTKTTFRIENLQEGCSYYFRVLASNEYGIGLPAETTEPVKVSEPPL PPGRVTLVDVTRNTATIKWEKPESDGGSKITGYVVEMQTKGSEKWSTCTQVKTLEATISGLTAGEEYVFRVAAVNEKGRS DPRQLGVPVIARDIEIKPSVELPFHTFNVKAREQLKIDVPFKGRPQATVNWRKDGQTLKETTRVNVSSSKTVTSLSIKEA SKEDVGTYELCVSNSAGSITVPITIIVLDRPGPPGPIRIDEVSCDSITISWNPPEYDGGCQISNYIVEKKETTSTTWHIV SQAVARTSIKIVRLTTGSEYQFRVCAENRYGKSSYSESSAVVAEYPFSPPGPPGTPKVVHATKSTMLVTWQVPVNDGGSR VIGYHLEYKERSSILWSKANKILIADTQVKVSGLDEGLMYEYRVYAENIAGIGKCSKSCEPVPARDPCDPPGQPEVTNIT RKSVSLKWSKPHYDGGAKITGYIVERRELPDGRWLKCNYTNIQETYFEVTELTEDQRYEFRVFARNAADSVSEPSESTGP IIVKDDVEPPRVMMDVKFRDVIVVKAGEVLKINADIAGRPLPVISWAKDGIEIEERARTEIISTDNHTLLTVKDCIRRDT GQYVLTLKNVAGTRSVAVNCKVLDKPGPPAGPLEINGLTAEKCSLSWGRPQEDGGADIDYYHRKKRETSHLAWTICEGEL QMTSCKVTKLLKGNEYIFRVTGVNKYGVGEPLESVAIKALDPFTVPSPPTSLEITSVTKESMTLCWSRPESDGGSEISGY IIERREKNSLRWVRVNKKPVYDLRVKSTGLREGCEYEYRVYAENAAGLSLPSETSPLIRAEDPVFLPSPPSKPKIVDSGK TTITIAWVKPLFDGGAPITGYTVEYKKSDDTDWKTSIQSLRGTEYTISGLTTGAEYVFRVKSVNKVGASDPSDSSDPQIA KEREEEPLFDIDSEMRKTLIVKAGASFTMTVPFRGRPVPNVLWSKPDTDLRTRAYVDTTDSRTSLTIENANRNDSGKYTL TIQNVLSAASLTLVVKVLDTPGPPTNITVQDVTKESAVLSWDVPENDGGAPVKNYHIEKREASKKAWVSVTNNCNRLSYK VTNLQEGAIYYFRVSGENEFGVGIPAETKEGVKITEKPSPPEKLGVTSISKDSVSLTWLKPEHDGGSRIVHYVVEALEKG QKNWVKCAVAKSTHHVVSGLRENSEYFFRVFAENQAGLSDPRELLLPVLIKEQLEPPEIDMKNFPSHTVYVRAGSNLKVD IPISGKPLPKVTLSRDGVPLKATMRFNTEITAENLTINLKESVTADAGRYEITAANSSGTTKAFINIVVLDRPGPPTGPV VISDITEESVTLKWEPPKYDGGSQVTNYILLKRETSTAVWTEVSATVARTMMKVMKLTTGEEYQFRIKAENRFGISDHID SACVTVKLPYTTPGPPSTPWVTNVTRESITVGWHEPVSNGGSAVVGYHLEMKDRNSILWQKANKLVIRTTHFKVTTISAG LIYEFRVYAENAAGVGKPSHPSEPVLAIDACEPPRNVRITDISKNSVSLSWQQPAFDGGSKITGYIVERRDLPDGRWTKA SFTNVTETQFTISGLTQNSQYEFRVFARNAVGSISNPSEVVGPITCIDSYGGPVIDLPLEYTEVVKYRAGTSVKLRAGIS GKPAPTIEWYKDDKELQTNALVCVENTTDLASILIKDADRLNSGCYELKLRNAMASASATIRVQILDKPGPPGGPIEFKT VTAEKITLLWRPPADDGGAKITHYIVEKRETSRVVWSMVSEHLEECIITTTKIIKGNEYIFRVRAVNKYGIGEPLESDSV VAKNAFVTPGPPGIPEVTKITKNSMTVVWSRPIADGGSDISGYFLEKRDKKSLGWFKVLKETIRDTRQKVTGLTENSDYQ YRVCAVNAAGQGPFSEPSEFYKAADPIDPPGPPAKIRIADSTKSSITLGWSKPVYDGGSAVTGYVVEIRQGEEEEWTTVS TKGEVRTTEYVVSNLKPGVNYYFRVSAVNCAGQGEPIEMNEPVQAKDILEAPEIDLDVALRTSVIAKAGEDVQVLIPFKG RPPPTVTWRKDEKNLGSDARYSIENTDSSSLLTIPQVTRNDTGKYILTIENGVGEPKSSTVSVKVLDTPAACQKLQVKHV SRGTVTLLWDPPLIDGGSPIINYVIEKRDATKRTWSVVSHKCSSTSFKLIDLSEKTPFFFRVLAENEIGIGEPCETTEPV KAAEVPAPIRDLSMKDSTKTSVILSWTKPDFDGGSVITEYVVERKGKGEQTWSHAGISKTCEIEVSQLKEQSVLEFRVFA KNEKGLSDPVTIGPITVKELIITPEVDLSDIPGAQVTVRIGHNVHLELPYKGKPKPSISWLKDGLPLKESEFVRFSKTEN KITLSIKNAKKEHGGKYTVILDNAVCRIAVPITVITLGPPSKPKGPIRFDEIKADSVILSWDVPEDNGGGEITCYSIEKR ETSQTNWKMVCSSVARTTFKVPNLVKDAEYQFRVRAENRYGVSQPLVSSIIVAKHQFRIPGPPGKPVIYNVTSDGMSLTW DAPVYDGGSEVTGFHVEKKERNSILWQKVNTSPISGREYRATGLVEGLDYQFRVYAENSAGLSSPSDPSKFTLAVSPVDP PGTPDYIDVTRETITLKWNPPLRDGGSKIVGYSIEKRQGNERWVRCNFTDVSECQYTVTGLSPGDRYEFRIIARNAVGTI SPPSQSSGIIMTRDENVPPIVEFGPEYFDGLIIKSGESLRIKALVQGRPVPRVTWFKDGVEIEKRMNMEITNVLGSTSLF VRDATRDHRGVYTVEAKNASGSAKAEIKVKVQDTPGKVVGPIRFTNITGEKMTLWWDAPLNDGCAPITHYIIEKRETSRL AWALIEDKCEAQSYTAIKLINGNEYQFRVSAVNKFGVGRPLDSDPVVAQIQYTVPDAPGIPEPSNITGNSITLTWARPES DGGSEIQQYILERREKKSTRWVKVISKRPISETRFKVTGLTEGNEYEFHVMAENAAGVGPASGISRLIKCREPVNPPGPP TVVKVTDTSKTTVSLEWSKPVFDGGMEIIGYIIEMCKTDLGDWHKVNAEACVKTRYTVTDLQAGEEYKFRVSAINGAGKG DSCEVTGTIKAVDRLTAPELDIDANFKQTHVVRAGASIRLFIAYQGRPTPTAVWSKPDSNLSLRADIHTTDSFSTLTVEN CNRNDAGKYTLTVENNSGSKSITFTVKVLDTPGPPGPITFKDVTRGSATLMWDAPLLDGGARIHHYVVEKREASRRSWQV ISEKCTRQIFKVNDLAEGVPYYFRVSAVNEYGVGEPYEMPEPIVATEQPAPPRRLDVVDTSKSSAVLAWLKPDHDGGSRI TGYLLEMRQKGSDLWVEAGHTKQLTFTVERLVEKTEYEFRVKAKNDAGYSEPREAFSSVIIKEPQIEPTADLTGITNQLI TCKAGSPFTIDVPISGRPAPKVTWKLEEMRLKETDRVSITTTKDRTTLTVKDSMRGDSGRYFLTLENTAGVKTFSVTVVV IGRPGPVTGPIEVSSVSAESCVLSWGEPKDGGGTEITNYIVEKRESGTTAWQLVNSSVKRTQIKVTHLTKYMEYSFRVSS ENRFGVSKPLESAPIIAEHPFVPPSAPTRPEVYHVSANAMSIRWEEPYHDGGSKIIGYWVEKKERNTILWVKENKVPCLE CNYKVTGLVEGLEYQFRTYALNAAGVSKASEASRPIMAQNPVDAPGRPEVTDVTRSTVSLIWSAPAYDGGSKVVGYIIER KPVSEVGDGRWLKCNYTIVSDNFFTVTALSEGDTYEFRVLAKNAAGVISKGSESTGPVTCRDEYAPPKAELDARLHGDLV TIRAGSDLVLDAAVGGKPEPKIIWTKGDKELDLCEKVSLQYTGKRATAVIKFCDRSDSGKYTLTVKNASGTKAVSVMVKV LDSPGPCGKLTVSRVTQEKCTLAWSLPQEDGGAEITHYIVERRETSRLNWVIVEGECPTLSYVVTRLIKNNEYIFRVRAV NKYGPGVPVESEPIVARNSFTIPSPPGIPEEVGTGKEHIIIQWTKPESDGGNEISNYLVDKREKESLRWTRVNKDYVVYD TRLKVTSLMEGCDYQFRVTAVNAAGNSEPSERSNFISCREPSYTPGPPSAPRVVDTTKHSISLAWTKPMYDGGTDIVGYV LEMQEKDTDQWYRVHTNATIRNTEFTVPDLKMGQKYSFRVAAVNVKGMSEYSESIAEIEPVERIEIPDLELADDLKKTVT IRAGASLRLMVSVSGRPPPVITWSKQGIDLASRAIIDTTESYSLLIVDKVNRYDAGKYTIEAENQSGKKSATVLVKVYDT PGPCPSVKVKEVSRDSVTITWEIPTIDGGAPINNYIVEKREAAMRAFKTVTTKCSKTLYRISGLVEGTMHYFRVLPENIY GIGEPCETSDAVLVSEVPLVPAKLEVVDVTKSTVTLAWEKPLYDGGSRLTGYVLEACKAGTERWMKVVTLKPTVLEHTVT SLNEGEQYLFRIRAQNEKGVSEPRETVTAVTVQDLRVLPTIDLSTMPQKTIHVPAGRPVELVIPIAGRPPPAASWFFAGS KLRESERVTVETHTKVAKLTIRETTIRDTGEYTLELKNVTGTTSETIKVIILDKPGPPTGPIKIDEIDATSITISWEPPE LDGGAPLSGYVVEQRDAHRPGWLPVSESVTRSTFKFTRLTEGNEYVFRVAATNRFGIGSYLQSEVIECRSSIRIPGPPET LQIFDVSRDGMTLTWYPPEDDGGSQVTGYIVERKEVRADRWVRVNKVPVTMTRYRSTGLTEGLEYEHRVTAINARGSGKP SRPSKPIVAMDPIAPPGKPQNPRVTDTTRTSVSLAWSVPEDEGGSKVTGYLIEMQKVDQHEWTKCNTTPTKIREYTLTHL PQGAEYRFRVLACNAGGPGEPAEVPGTVKVTEMLEYPDYELDERYQEGIFVRQGGVIRLTIPIKGKPFPICKWTKEGQDI SKRAMIATSETHTELVIKEADRGDSGTYDLVLENKCGKKAVYIKVRVIGSPNSPEGPLEYDDIQVRSVRVSWRPPADDGG ADILGYILERREVPKAAWYTIDSRVRGTSLVVKGLKENVEYHFRVSAENQFGISKPLKSEEPVTPKTPLNPPEPPSNPPE VLDVTKSSVSLSWSRPKDDGGSRVTGYYIERKETSTDKVVRHNKTQITTTMYTVTGLVPDAEYQFRIIAQNDVGLSETSP ASEPVVCKDPFDKPSQPGELEILSISKDSVTLQWEKPECDGGKEILGYWVEYRQSGDSAWKKSNKERIKDKQFTIGGLLE ATEYEFRVFAENETGLSRPRRTAMSIKTKLTSGEAPGIRKEMKDVTTKLGEAAQLSCQIVGRPLPDIKWYRFGKELIQSR KYKMSSDGRTHTLTVMTEEQEDEGVYTCIATNEVGEVETSSKLLLQATPQFHPGYPLKEKYYGAVGSTLRLHVMYIGRPV PAMTWFHGQKLLQNSENITIENTEHYTHLVMKNVQRKTHAGKYKVQLSNVFGTVDAILDVEIQDKPDKPTGPIVIEALLK NSAVISWKPPADDGGSWITNYVVEKCEAKEGAEWQLVSSAISVTTCRIVNLTENAGYYFRVSAQNTFGISDPLEVSSVVI IKSPFEKPGAPGKPTITAVTKDSCVVAWKPPASDGGAKIRNYYLEKREKKQNKWISVTTEEIRETVFSVKNLIEGLEYEF RVKCENLGGESEWSEISEPITPKSDVPIQAPHFKEELRNLNVRYQSNATLVCKVTGHPKPIVKWYRQGKEIIADGLKYRI QEFKGGYHQLIIASVTDDDATVYQVRATNQGGSVSGTASLEVEVPAKIHLPKTLEGMGAVHALRGEVVSIKIPFSGKPDP VITWQKGQDLIDNNGHYQVIVTRSFTSLVFPNGVERKDAGFYVVCAKNRFGIDQKTVELDVADVPDPPRGVKVSDASRDS VNLTWTEPASDGGSKITNYIVEKCATTAERWLRVGQARETRYTVINLFGKTSYQFRVIAENKFGLSKPSEPSEPTITKED KTRAMNYDEEVDETREVSMTKASHSSTKELYEKYMIAEDLGRGEFGIVHRCVETSSKKTYMAKFVKVKGTDQVLVKKEIS ILNIARHRNILHLHESFESMEELVMIFEFISGLDIFERINTSAFELNEREIVSYVHQVCEALQFLHSHNIGHFDIRPENI IYQTRRSSTIKIIEFGQARQLKPGDNFRLLFTAPEYYAPEVHQHDVVSTATDMWSLGTLVYVLLSGINPFLAETNQQIIE NIMNAEYTFDEEAFKEISIEAMDFVDRLLVKERKSRMTASEALQHPWLKQKIERVSTKVIRTLKHRRYYHTLIKKDLNMV VSAARISCGGAIRSQKGVSVAKVKVASIEIGPVSGQIMHAVGEEGGHVKYVCKIENYDQSTQVTWYFGVRQLENSEKYEI TYEDGVAILYVKDITKLDDGTYRCKVVNDYGEDSSYAELFVKGVREVYDYYCRRTMKKIKRRTDTMRLLERPPEFTLPLY NKTAYVGENVRFGVTITVHPEPHVTWYKSGQKIKPGDNDKKYTFESDKGLYQLTINSVTTDDDAEYTVVARNKYGEDSCK AKLTVTLHPPPTDSTLRPMFKRLLANAECQEGQSVCFEIRVSGIPPPTLKWEKDGQPLSLGPNIEIIHEGLDYYALHIRD TLPEDTGYYRVTATNTAGSTSCQAHLQVERLRYKKQEFKSKEEHERHVQKQIDKTLRMAEILSGTESVPLTQVAKEALRE AAVLYKPAVSTKTVKGEFRLEIEEKKEERKLRMPYDVPEPRKYKQTTIEEDQRIKQFVPMSDMKWYKKIRDQYEMPGKLD RVVQKRPKRIRLSRWEQFYVMPLPRITDQYRPKWRIPKLSQDDLEIVRPARRRTPSPDYDFYYRPRRRSLGDISDEELLL PIDDYLAMKRTEEERLRLEEELELGFSASPPSRSPPHFELSSLRYSSPQAHVKVEETRKNFRYSTYHIPTKAEASTSYAE LRERHAQAAYRQPKQRQRIMAEREDEELLRPVTTTQHLSEYKSELDFMSKEEKSRKKSRRQREVTEITEIEEEYEISKHA QRESSSSASRLLRRRRSLSPTYIELMRPVSELIRSRPQPAEEYEDDTERRSPTPERTRPRSPSPVSSERSLSRFERSARF DIFSRYESMKAALKTQKTSERKYEVLSQQPFTLDHAPRITLRMRSHRVPCGQNTRFILNVQSKPTAEVKWYHNGVELQES SKIHYTNTSGVLTLEILDCHTDDSGTYRAVCTNYKGEASDYATLDVTGGDYTTYASQRRDEEVPRSVFPELTRTEAYAVP SFKKTSEMEASSSVREVKSQMTETRESLSSYEHSASAEMKSAALEEKSLEEKSTTRKIKTTLAARILTKPRSMTVYEGES ARFSCDTDGEPVPTVTWLRKGQVLSTSARHQVTTTKYKSTFEISSVQASDEGNYSVVVENSEGKQEAEFTLTIQKARVTE KAVTSPPRVKSPEPRVKSPEAVKSPKRVKSPEPSHPKAVSPTETKPTPREKVQHLPVSAPPKITQFLKAEASKEIAKLTC VVESSVLRAKEVTWYKDGKKLKENGHFQFHYSADGTYELKINNLTESDQGEYVCEISGEGGTSKTNLQFMGQAFKSIHEK VSKISETKKSDQKTTESTVTRKTEPKAPEPISSKPVIVTGLQDTTVSSDSVAKFAVKATGEPRPTAIWTKDGKAITQGGK YKLSEDKGGFFLEIHKTDTSDSGLYTCTVKNSAGSVSSSCKLTIKAIKDTEAQKVSTQKTSEITPQKKAVVQEEISQKAL RSEEIKMSEAKSQEKLALKEEASKVLISEEVKKSAATSLEKSIVHEEITKTSQASEEVRTHAEIKAFSTQMSINEGQRLV LKANIAGATDVKWVLNGVELTNSEEYRYGVSGSDQTLTIKQASHRDEGILTCISKTKEGIVKCQYDLTLSKELSDAPAFI SQPRSQNINEGQNVLFTCEISGEPSPEIEWFKNNLPISISSNVSISRSRNVYSLEIRNASVSDSGKYTIKAKNFRGQCSA TASLMVLPLVEEPSREVVLRTSGDTSLQGSFSSQSVQMSASKQEASFSSFSSSSASSMTEMKFASMSAQSMSSMQESFVE MSSSSFMGISNMTQLESSTSKMLKAGIRGIPPKIEALPSDISIDEGKVLTVACAFTGEPTPEVTWSCGGRKIHSQEQGRF HIENTDDLTTLIIMDVQKQDGGLYTLSLGNEFGSDSATVNIHIRSI 26059 26155 1NCU -5 91 Q10466 A 1 10 106 4 3 anti-parallel anti-parallel anti-parallel parallel anti-parallel A ALA -1 A ALA 14 A LYS 5 A LYS 20 A ARG 18 A ARG 33 A GLU 26 A GLU 41 A LYS 54 A LYS 69 A ILE 59 A ILE 74 A HIS 46 A HIS 61 A THR 51 A THR 66 A SER 8 A SER 23 A TYR 12 A TYR 27 A GLY 79 A GLY 94 A GLN 90 A GLN 105 A GLY 68 A GLY 83 A ASN 76 A ASN 91 1 P 1