Result of GENSCAN for
pF1KE3662
GENSCAN 1.0 Date run: 24-Oct-119 Time: 21:55:14 Sequence gi568815597r:16025218_16255932 : 230715 bp : 54.67% C+G : Isochore 3 (51 - 57 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 891 1030 140 1 2 50 44 189 0.740 11.39 1.02 Intr + 1319 1396 78 1 0 125 50 129 0.999 13.04 1.03 Intr + 1480 1558 79 0 1 57 81 58 0.986 1.62 1.04 Intr + 2093 2218 126 0 0 70 84 163 0.999 15.26 1.05 Intr + 2604 2688 85 1 1 81 84 108 0.999 9.08 1.06 Intr + 2801 2902 102 2 0 93 68 155 0.999 13.79 1.07 Intr + 3544 3628 85 1 1 49 90 74 0.939 4.02 1.08 Intr + 3909 4082 174 2 0 96 86 186 0.996 19.85 1.09 Intr + 4514 4583 70 1 1 119 97 69 0.918 10.15 1.10 Intr + 4748 4858 111 0 0 12 109 87 0.894 4.05 1.11 Intr + 5244 5457 214 1 1 113 100 418 0.999 43.80 1.12 Intr + 6493 6626 134 1 2 97 49 202 0.963 18.00 1.13 Intr + 6986 7110 125 0 2 91 47 55 0.648 2.51 1.14 Intr + 7229 7309 81 1 0 74 92 54 0.602 4.73 1.15 Term + 8394 8441 48 2 0 139 52 25 0.831 1.59 1.16 PlyA + 8815 8820 6 1.05 2.08 PlyA - 9317 9312 6 -1.95 2.07 Term - 9708 9604 105 0 0 96 53 82 0.467 4.21 2.06 Intr - 10241 9976 266 0 2 98 20 278 0.531 19.77 2.05 Intr - 11129 11019 111 0 0 107 87 244 0.998 27.05 2.04 Intr - 11576 11358 219 0 0 74 24 271 0.466 18.10 2.03 Intr - 14479 14386 94 1 1 99 69 144 0.892 13.64 2.02 Intr - 14812 14777 36 1 0 139 82 -18 0.682 1.64 2.01 Init - 15551 15435 117 2 0 83 49 21 0.384 -2.13 2.00 Prom - 15905 15866 40 -2.71 3.00 Prom + 16612 16651 40 -0.71 3.01 Init + 17242 17247 6 0 0 100 86 10 0.735 2.24 3.02 Intr + 18368 18429 62 1 2 69 64 39 0.842 -2.38 3.03 Intr + 19269 19375 107 0 2 93 78 129 0.923 12.76 3.04 Intr + 20341 20469 129 2 0 91 76 231 0.574 23.37 3.05 Intr + 21318 21446 129 1 0 78 105 80 0.983 9.87 3.06 Intr + 22688 22839 152 0 2 43 60 138 0.522 6.89 3.07 Intr + 23126 23203 78 1 0 111 50 150 0.999 13.74 3.08 Intr + 23287 23365 79 0 1 57 81 58 0.999 1.62 3.09 Intr + 23903 24028 126 0 0 61 84 157 0.999 13.76 3.10 Intr + 24401 24485 85 0 1 81 84 108 0.999 9.08 3.11 Intr + 24598 24699 102 1 0 92 96 117 0.993 12.69 3.12 Intr + 25299 25383 85 0 1 55 90 81 0.999 5.32 3.13 Intr + 25658 25831 174 1 0 96 86 187 0.988 19.95 3.14 Intr + 26261 26330 70 1 1 104 101 72 0.943 9.35 3.15 Intr + 26409 26603 195 1 0 98 109 18 0.722 4.81 3.16 Intr + 26981 27194 214 0 1 115 100 443 0.999 46.50 3.17 Intr + 28422 28555 134 0 2 82 49 177 0.802 14.00 3.18 Intr + 30218 30306 89 0 2 67 94 69 0.963 5.59 3.19 Intr + 30458 30541 84 1 0 80 82 71 0.476 6.21 3.20 Term + 31652 31699 48 1 0 129 52 19 0.799 -0.01 3.21 PlyA + 32073 32078 6 1.05 4.09 PlyA - 32576 32571 6 -1.95 4.08 Term - 32967 32863 105 0 0 96 53 89 0.472 4.91 4.07 Intr - 33500 33235 266 0 2 96 20 262 0.528 17.97 4.06 Intr - 34387 34277 111 2 0 107 87 233 0.991 25.95 4.05 Intr - 34834 34652 183 2 0 74 76 285 0.992 26.18 4.04 Intr - 36975 36882 94 0 1 105 69 182 0.990 18.04 4.03 Intr - 37317 37282 36 0 0 139 82 -18 0.752 1.64 4.02 Intr - 38419 38304 116 2 2 109 88 94 0.998 12.17 4.01 Init - 39864 39837 28 0 1 65 100 42 0.733 2.81 4.00 Prom - 40851 40812 40 -7.10 5.00 Prom + 41320 41359 40 -9.26 5.01 Init + 42027 42039 13 2 1 87 95 3 0.667 1.37 5.02 Intr + 43258 43302 45 2 0 108 96 31 0.487 4.77 5.03 Intr + 44190 44309 120 1 0 43 81 60 0.517 1.77 5.04 Intr + 47089 47184 96 2 0 77 94 54 0.811 5.38 5.05 Intr + 50590 50747 158 2 2 80 41 60 0.379 0.74 5.06 Term + 51584 52060 477 1 0 116 43 182 0.699 11.73 5.07 PlyA + 55120 55125 6 1.05 6.06 PlyA - 55503 55498 6 1.05 6.05 Term - 62612 62524 89 0 2 74 48 113 0.196 4.02 6.04 Intr - 63786 63754 33 1 0 115 82 5 0.131 1.28 6.03 Intr - 66717 66601 117 1 0 34 68 84 0.240 1.94 6.02 Intr - 69637 69417 221 0 2 99 57 544 0.575 50.87 6.01 Init - 72172 72165 8 1 2 114 58 0 0.532 0.03 6.00 Prom - 73770 73731 40 -3.81 7.00 Prom + 74218 74257 40 -2.01 7.01 Init + 78111 78164 54 2 0 88 101 33 0.197 5.83 7.02 Intr + 87274 87332 59 0 2 95 80 80 0.241 6.07 7.03 Term + 95083 95242 160 1 1 129 47 39 0.100 1.63 7.04 PlyA + 96996 97001 6 1.05 8.30 PlyA - 99146 99141 6 1.05 8.29 Term - 100103 99998 106 1 1 123 52 232 0.958 21.28 8.28 Intr - 104372 104217 156 1 0 96 91 320 0.886 32.74 8.27 Intr - 105202 105009 194 1 2 85 117 342 0.520 35.61 8.26 Intr - 106653 106504 150 0 0 80 90 278 0.999 28.07 8.25 Intr - 107056 106847 210 1 0 61 84 487 0.999 45.23 8.24 Intr - 107222 107161 62 0 2 110 90 111 0.994 12.44 8.23 Intr - 108151 107963 189 2 0 115 54 487 0.996 48.08 8.22 Intr - 108389 108264 126 0 0 144 94 155 0.999 22.86 8.21 Intr - 108698 108643 56 1 2 54 94 81 0.906 4.41 8.20 Intr - 109350 109251 100 1 1 54 79 119 0.942 7.27 8.19 Intr - 109972 109819 154 1 1 84 56 300 0.999 26.56 8.18 Intr - 110553 110438 116 1 2 80 88 157 0.911 15.57 8.17 Intr - 112968 112636 333 1 0 89 94 581 0.819 54.90 8.16 Intr - 113213 113058 156 0 0 77 94 114 0.927 11.39 8.15 Intr - 118998 118915 84 1 0 94 107 -20 0.314 0.79 8.14 Intr - 119195 119074 122 1 2 40 59 52 0.112 -1.86 8.13 Intr - 120040 119915 126 0 0 35 99 80 0.125 4.10 8.12 Intr - 120865 120802 64 2 1 69 10 101 0.024 -1.33 8.11 Intr - 123830 123161 670 2 1 114 96 1409 0.162 136.20 8.10 Intr - 125746 125679 68 2 2 136 63 64 0.911 7.82 8.09 Intr - 127905 127896 10 0 1 101 116 0 0.412 -1.59 8.08 Intr - 128523 128327 197 1 2 111 31 70 0.741 3.25 8.07 Intr - 130774 130631 144 2 0 -32 113 188 0.083 10.06 8.06 Intr - 132047 131911 137 1 2 127 80 81 0.421 11.92 8.05 Intr - 139948 139869 80 1 2 53 100 48 0.197 1.34 8.04 Intr - 140137 140079 59 2 2 92 78 23 0.235 0.79 8.03 Intr - 159304 159240 65 0 2 106 84 56 0.393 5.85 8.02 Intr - 159623 159449 175 0 1 110 41 8 0.095 -2.19 8.01 Init - 162849 162804 46 0 1 54 -57 226 0.356 5.49 8.00 Prom - 167593 167554 40 -2.51 9.00 Prom + 168214 168253 40 -3.61 9.01 Sngl + 170143 170427 285 0 0 54 47 205 0.967 8.85 9.02 PlyA + 171197 171202 6 1.05 10.31 PlyA - 172908 172903 6 1.05 10.30 Term - 173527 173370 158 2 2 95 45 131 0.994 7.91 10.29 Intr - 174037 173933 105 2 0 45 89 72 0.916 3.69 10.28 Intr - 176644 176565 80 0 2 90 62 42 0.850 1.49 10.27 Intr - 177357 177199 159 2 0 125 64 271 0.996 28.02 10.26 Intr - 179702 179542 161 2 2 132 64 185 0.995 19.80 10.25 Intr - 179959 179870 90 1 0 64 93 101 0.977 8.89 10.24 Intr - 180208 180134 75 1 0 82 83 161 0.999 15.21 10.23 Intr - 180450 180321 130 2 1 56 67 95 0.970 5.40 10.22 Intr - 180866 180714 153 1 0 74 9 393 0.999 29.70 10.21 Intr - 181123 180963 161 1 2 122 57 241 0.999 23.70 10.20 Intr - 181993 181731 263 2 2 118 64 431 0.995 41.44 10.19 Intr - 182381 182305 77 1 2 91 55 29 0.976 -0.45 10.18 Intr - 182560 182458 103 2 1 112 81 97 0.969 11.13 10.17 Intr - 183008 182727 282 0 0 99 76 260 0.998 23.83 10.16 Intr - 183866 183426 441 0 0 106 76 91 0.090 3.71 10.15 Intr - 185040 184923 118 0 1 125 78 -3 0.234 2.94 10.14 Intr - 192006 191910 97 2 1 -27 80 126 0.470 0.81 10.13 Intr - 193089 192859 231 2 0 5 26 273 0.308 10.22 10.12 Intr - 193988 193848 141 1 0 -17 68 197 0.844 7.18 10.11 Intr - 195670 195546 125 1 2 100 76 83 0.917 8.19 10.10 Intr - 195920 195783 138 2 0 52 65 118 0.837 7.07 10.09 Intr - 200272 200015 258 1 0 123 49 208 0.813 18.59 10.08 Intr - 200905 200777 129 1 0 126 16 93 0.412 7.30 10.07 Intr - 202875 202705 171 0 0 87 83 88 0.929 8.85 10.06 Intr - 203231 203124 108 2 0 52 77 43 0.263 0.58 10.05 Intr - 207080 206879 202 1 1 66 43 303 0.382 23.41 10.04 Intr - 207429 207293 137 0 2 55 7 191 0.393 7.57 10.03 Intr - 207800 207676 125 0 2 91 93 113 0.993 12.91 10.02 Intr - 208547 208395 153 0 0 126 117 246 0.999 31.86 10.01 Init - 211525 211414 112 1 1 104 111 152 0.621 19.44 10.00 Prom - 215227 215188 40 -6.30 11.05 PlyA - 215880 215875 6 1.05 11.04 Term - 226568 225453 1116 2 0 84 35 465 0.907 33.37 11.03 Intr - 227187 227071 117 0 0 88 102 -14 0.617 1.17 11.02 Intr - 228514 228418 97 0 1 100 47 29 0.901 0.51 11.01 Intr - 230604 230494 111 2 0 94 101 71 0.952 9.00 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 123830 123153 678 2 0 114 49 1418 0.832 134.62 S.002 Init - 130715 130631 85 2 1 91 113 209 0.845 22.63 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597r:16025218_16255932|GENSCAN_predicted_peptide_1|550_aa XSGIPELKTMLAGVILEDYLDIKNFGAKVVGLSCTLATGSTLFLGKVGPFVHLSVMIAAY LGRVRTTTIGEPENKSKQNEMLVAAAAVGVATVFAAPFSGVLFSIEVMSSHFSVRDYWRG FFAATCGAFIFRLLAVFNSEQETITSLYKTSFRVDVPFDLPEIFFFVALGGICGVLSCAY LFCQRTFLSFIKTNRYSSKLLATSKPVYSALATLLLASITYPPGVGHFLASRLSMKQHLD SLFDNHSWALMTQNSSPPWPEELDPQHLWWEWYHPRFTIFGTLAFFLVMKFWMLILATTI PMPAGYFMPIFILGAAIGRLLGEALAVAFPEGIVTGGVTNPIMPGGYALAGAAAFSGAVT HTISTALLAFELTGQIVHALPVLMAVLAANAIAQSCQPSFYDGTIIVKKLPYLPRILGRN IGSHHVRVEHFMNHSITTLAKDTPLEEVVKVVTSTDVTEYPLVESTESQILVGIVQRAQL VQALQAEPPSRAPGHQVVTPEGRGDGAGCLQDILARGCPTEPVTLTLFSETTLHQMKKAI SNLTNPPAPK >gi568815597r:16025218_16255932|GENSCAN_predicted_CDS_1|1653_bp ngttctggaatcccggagctgaagaccatgttggcgggtgtgatcttggaggactacctg gatatcaagaactttggggccaaggtggtgggcctctcctgcaccctggccaccggcagc accctgttcctgggcaaagtgggccctttcgtgcacctgtctgtaatgatcgctgcctac ctgggccgtgtgcgcaccacgaccatcggggagcctgagaacaagagcaagcaaaacgaa atgctggtggcagcggcggcagtgggcgtggccacagtctttgcagctcccttcagcggc gtcctgttcagcatcgaggtcatgtcttcccacttctctgtccgggattactggaggggc ttctttgcggccacctgcggggccttcatattccggctcctggcagtcttcaacagcgag caggagaccatcacctccctctacaagaccagtttccgggtggacgttcccttcgacctg cctgagatcttcttttttgtggcgctgggtggcatctgcggcgtcctgagctgtgcttac ctcttctgtcagcgaaccttcctcagcttcatcaagaccaatcggtacagctccaaactg ctggctactagcaagcctgtgtactccgctctggccaccttgcttctcgcctccatcacc tacccgcctggtgtgggccacttcctagcttctcggctgtccatgaagcagcatctggac tcgctgttcgacaaccactcctgggcgctgatgacccagaactccagcccaccctggccc gaggagctcgacccccagcacctttggtgggaatggtaccacccgcggttcaccatcttt gggacccttgccttcttcctggttatgaagttctggatgctgattctggccaccaccatc cccatgcctgccgggtacttcatgcccatctttatccttggagctgccatcgggcgcctc ttgggagaggctcttgccgtcgccttccctgagggcattgtgactggaggggttaccaat cccatcatgcccggggggtatgctctggcaggggctgcagccttctcaggggctgtgacc cacaccatctccacggcgctgctggcctttgagctgaccggccagatagtgcatgcactg cccgtgctgatggcggtgctggcagccaacgccattgcacagagctgccagccctccttc tatgatggcaccatcattgtcaagaagctgccatacctgccacggattctgggccgcaac atcggctcccaccatgtgagggtggagcacttcatgaaccacagcatcaccacactggcc aaggacacgccgctggaggaggtggtcaaggttgtgacctccacagacgtgaccgagtat cccctggtggagagcacagagtcccagatcctggtaggcatcgtgcagagggcccagctg gtgcaggccctccaggctgagcctccttccagggctccaggacaccaggtggttactcct gaggggcgtggggatggggcggggtgtctccaggacatcttggccaggggctgccccacg gaaccagtgaccctgacgctattctcagagaccaccttgcaccagatgaagaaagcaatt tccaacctgacaaatccgccagctccaaagtga >gi568815597r:16025218_16255932|GENSCAN_predicted_peptide_2|315_aa MPQQREQGPPGEGRDGSQSGMDGREGLKCSRKSSLLEKEDKQMDFCWDPWQRCFQTTNGH LSDSRSCPGNYNVAALATSFLVGVVQSIKDHITKPTAMARGRVAHLIEWKGWSAQRAGWE LSPAEDEHYCCLRISSVRPALLQVSEEGDWPGLCGGVAEQFAITEATLSAWSSLDEEELH PENSPQGIVQLQDLESIYLQDSLPSGPSQDDSLQAFSSLSPSPDSCPSPEEPPSTAGIPQ PPSPELQHRRRLPGAQGPEGGTHPLGSLPSMDSGSLWEEDEGVCPQGTQGLSETPGQPGP EEQQPGPQEDSHGEN >gi568815597r:16025218_16255932|GENSCAN_predicted_CDS_2|948_bp atgccgcagcagagagagcaaggccccccgggggagggcagggatgggagccagtccggg atggacgggcgagaaggtcttaagtgcagcaggaaaagctctttgttggagaaggaggac aaacagatggatttctgttgggatccttggcagaggtgcttccagaccaccaacggccac ctgtccgactccaggtcctgccccggcaactacaacgtggcagccctggccacctcgttc cttgtgggggtggtgcagagcatcaaggaccacatcacaaagcccacggccatggcccga ggccgcgtggcccacctcatcgagtggaagggctggagtgcccagcgggcaggctgggag ctgtccccagctgaggacgagcattactgctgcctccggataagctcagtgaggcccgct ttgctgcaggtcagcgaggagggggactggccagggctctgtgggggggtcgccgagcag tttgccatcacagaggccacactgagcgcttggtcctcgctggacgaagaggagctgcac cccgagaacagcccccagggcatcgtccagctccaagatctggagagcatctaccttcag gacagccttcccagcggcccctcacaggatgacagccttcaggccttctcctcgctcagc ccctcccctgacagctgtccctcacctgaggagccccccagcaccgctggcatcccgcag ccccccagcccagagctgcagcatcggcggcggctgcccggggcccaaggacccgagggt ggaacccaccccctgggctccctcccctccatggacagcggctccctctgggaggaggac gagggtgtctgccctcagggaactcaaggactctcagagacaccagggcagcctggccca gaggagcaacagccaggcccccaggaggacagccatggagagaattga >gi568815597r:16025218_16255932|GENSCAN_predicted_peptide_3|715_aa MKPPSSSTQEPEYSWAPPSVQLWGLMEEFVGLREGSSGNPVTLQELWGPCPRIRRGIRGG LEWLKQKLFRLGEDWYFLMTLGVLMALVSCAMDLAVESVVRAHQWLYREIGDSHLLRYLS WTVYPVALVSFSSGFSQSITPSSGGSGIPEVKTMLAGVVLEDYLDIKNFGAKVVGLSCTL ACGSTLFLGKVVWAGGPFVHLSVMMAAYLGRVRTTTIGEPENKSKQNEMLVAAAAVGVAT VFAAPFSGVLFSIEVMSSHFSVWDYWRGFFAATCGAFMFRLLAVFNSEQETITSLYKTSF RVDVPFDLPEIFFFVALGGLCGILGSAYLFCQRIFFGFIRNNRFSSKLLATSKPVYSALA TLVLASITYPPSAGRFLASRLSMKQHLDSLFDNHSWALMTQNSSPPWPEELDPQHLWWEW YHPRFTIFGTLAFFLVMKFWMLILATTIPMPAGYFMPIFVYGCTEDGPQGWRAVGAGSAW LPLTLSLWPGAAIGRLFGETLSFIFPEGIVAGGITNPIMPGGYALAGAAAFSGAVTHTIS TALLAFEVTGQIVHALPVLMAVLAANAIAQSCQPSFYDGTVIVKKLPYLPRILGRNIGSH RVRVEHFMNHSITTLAKDMPLEEVVKVVTSTDVAKYPLVESTESQILVGIVRRAQLVQAL KAEPPSWAPGHQQCLQDILAAGCPTEPVTLKLSPETSLHEMKKAISNLTNPPAPK >gi568815597r:16025218_16255932|GENSCAN_predicted_CDS_3|2148_bp atgaagcccccgtccagcagcacccaggagcctgagtacagctgggcaccaccctctgtg cagctatggggcctgatggaggagtttgtggggctgcgtgaaggctcctcagggaaccct gtgactctgcaggagctgtggggcccctgtccccgcatccgccgaggcatccgaggtggc ctggagtggctgaagcagaagctcttccgcctgggcgaggactggtacttcctgatgacc ctcggggtgctcatggccctggtcagctgtgccatggacttggctgttgagagtgtggtc cgagcgcaccagtggctgtacagggagattggggacagccacctgctccggtatctctcc tggactgtgtaccctgtggccctcgtctctttctcttcaggcttctctcagagcatcaca ccctcctctggaggttctggaatcccggaggtgaagaccatgttggcgggtgtggtcttg gaggactacctggatatcaagaactttggggccaaagtggtgggcctctcctgcaccctg gcctgtggcagcaccctcttcctcgggaaagtggtatgggcagggggccctttcgtgcac ctgtctgtgatgatggctgcctacctgggccgtgtgcgcaccacgaccatcggggagcct gagaacaagagcaagcaaaacgaaatgctggtggcagcggcggcagtgggcgtggccaca gtctttgcagctcccttcagcggcgtcctgttcagcatcgaggtcatgtcttcccacttc tctgtctgggattactggaggggcttctttgcggccacctgcggggccttcatgttccgg ctcctggcggtcttcaacagcgagcaggagaccatcacctccctctacaagaccagtttc cgggtggacgttcccttcgacctgcctgagatcttcttttttgtggcgctggggggtctc tgtggcatcctgggcagcgcttacctcttctgtcagcgaatcttctttggcttcatcagg aacaataggttcagctccaaactgctggccaccagcaagcctgtgtactccgctctggcc accttggttctcgcctccatcacctacccacccagcgccggccgcttcctagcttctcgg ctgtccatgaagcagcatctggactcgctgttcgacaaccactcctgggcgctgatgacc cagaactccagcccaccctggcccgaggagctcgacccccagcacctgtggtgggaatgg taccacccgcggttcaccatctttgggacccttgccttcttcctggttatgaagttctgg atgctgattctggccaccaccatccccatgcctgccgggtacttcatgcccatctttgtc tatggttgtactgaggacggtcctcagggatggagggctgtgggggccgggtcagcctgg ctccccctcaccctaagtctgtggccaggagctgctatcgggcgcctctttggggagact ctctcttttatcttccctgagggcatcgtggctggagggatcaccaatcccatcatgcca ggggggtatgctctggcaggggctgcagccttctcaggggctgtgacccacaccatctcc acggcgctgctggccttcgaggtgaccggccagatagtgcatgcactgcccgtgctgatg gcggtgctggcagccaacgccattgcacagagctgccagccctccttctatgatggcacc gtcattgtcaagaagctgccatacctgccacggattctgggccgcaacatcggttcccac cgcgtgagggtggagcacttcatgaaccacagcatcaccacactggccaaggacatgcca ctggaggaggtggtcaaggttgtgacctccacagacgtggccaagtatcccctggtggag agcacagagtcccagatcctggtgggcatagtgcgaagggcccagctggtgcaggccctg aaggctgagcctccttcctgggctcctggacaccagcagtgtctccaggacatcttggct gcaggctgccccacagaaccagtgaccctgaagctgtccccagagacttccctgcatgag atgaagaaagcaatttccaacctgacaaatccgccagccccaaagtga >gi568815597r:16025218_16255932|GENSCAN_predicted_peptide_4|312_aa MGSGQRKQEDLFTSAHKNCPMPQGADPLNPDLPSGRTPTVAPDCVIGKDKQMDFCWDPWQ RCFQTTNGYLSDSRSRPGNYNVAALATSSLVGVVQSIKDHITKPTAMARGRVAHLIEWKG WSAQPAGWELSPAEDEHYCCLPDELREARFAAGVAEQFAITEATLSAWSSLDEEELHPEN SPQGIVQLQDLESIYLQDSLPSGPSQDDSLQAFSSPSPSPDSCPSPEEPPSTAGIPQPPS PELQHRRRLPGAQGPEGGTHPPGSLPSMDSGSLWEEDEGVCPQGTHGLSETPGQPGPEEQ QPGPQEDSHGEN >gi568815597r:16025218_16255932|GENSCAN_predicted_CDS_4|939_bp atgggcagcgggcagcggaaacaggaagacctgttcacaagtgcccacaagaactgcccc atgccccagggtgcggaccccttgaacccagatctgccctcgggccgcactcccaccgtg gctccagactgtgtcattggcaaggacaaacagatggatttctgttgggatccttggcag aggtgcttccagaccaccaacggctacctgtccgactccagatcccgccccggcaactac aacgtggcagccctggccacctcgtcccttgtgggggtggtgcagagcatcaaggaccac atcacaaagcccacggccatggcccgaggccgcgtggcccacctcatcgagtggaagggc tggagtgcccagccggcaggctgggagctgtccccagctgaggacgagcattactgctgc ctcccggatgagctgcgtgaggcccgctttgctgcaggggtcgccgagcagtttgccatc acagaggccacactgagcgcttggtcctcgctggacgaagaggagctgcaccccgagaac agcccccaaggcatcgtccagctccaagatctggagagcatctaccttcaggacagcctt cccagcggcccctcacaggatgacagccttcaggccttctcctcgcccagcccctcccct gacagctgtccctcacctgaggagccccccagcaccgctggcatcccgcagccccccagc ccagagctgcagcatcggcggcggctgcccggggcccaaggacccgagggtgggacccac cccccgggctccctcccctccatggacagcggctccctctgggaggaggacgagggtgtc tgccctcagggaactcacggactctcagagacaccagggcagcctggcccagaggagcaa cagccaggcccccaggaggacagccatggagagaactga >gi568815597r:16025218_16255932|GENSCAN_predicted_peptide_5|302_aa MGTSGLELALEAPQREALEELVPSPRHDQMSEFPEENSRSLISTLTPDPTGPQCIGYPQG TPEQKPFESRGWGKVIVLLAQYPQDKVPSILASRQPQGSLRTSVQQMHIKHLLCASVNKT NVPILESALYSVTVAQSPPNCTLQGPLCHAAAGLEWRGESVQAVPFTPSSPFSCHDFGDP GRTPTPVALLRACISPECLALIGWALEREEELLQGLIRERLIKANHYSDESDQALPWQPW GWGGDAAGATCINSAGSGWTVLHLHASQVCDRRVTSAKGYGDGFQAIVTLEADFEGRVGC WW >gi568815597r:16025218_16255932|GENSCAN_predicted_CDS_5|909_bp atggggacgtcagggctggagctggctctggaggctccgcagagggaagcccttgaggag cttgtgccttcacccagacatgatcagatgtctgagtttccagaagaaaattctcggtct ctaatttctactctcacccccgaccccaccggcccccagtgcattggatacccccaagga actcctgagcagaagcccttcgagtccagaggatgggggaaggtcattgtgctccttgct caatacccccaggacaaggtcccctctattctggcttcccgacagccacagggaagtctg agaacttccgttcaacagatgcatataaagcacctactgtgtgccagtgtgaacaagaca aatgtgccaatccttgagtcagcgctgtattcagtcacagttgctcagagcccccctaac tgtaccctccagggccctctttgccatgccgctgctgggctagagtggagaggagagagt gtccaggctgtgcccttcacacctagcagcccattctcttgccatgatttcggggatcca ggcagaacccccactccggtggccttgctccgagcatgcatcagccctgagtgcctggcc ctgattggctgggcactggagcgtgaagaggagctgctgcagggtttgatcagagaaaga ttaatcaaggccaaccattacagcgatgaatcagaccaggccctgccctggcagccctgg gggtggggcggggacgctgcaggagccacgtgcataaatagcgcagggtcagggtggaca gtgctgcatctccatgccagccaagtgtgtgacaggagagtcacttctgccaagggctat ggggatggctttcaggcgatcgtgaccctagaagcggattttgaaggtcgagtgggctgt tggtggtag >gi568815597r:16025218_16255932|GENSCAN_predicted_peptide_6|155_aa MPGRLMVVMMVVVVMVVVVVMVVMVTVTVVTVVVVTVVTVVVTVAVTVVMVVTVVVTVVV TVVTVVVVTVVVVVVVGNICQMQGIGAKCSVEVCFRPPSGNLELHAFFQGTQLSAGTGPL GAKWPMAWDPGPLNGEEEGYPPHSDTAPGHINERP >gi568815597r:16025218_16255932|GENSCAN_predicted_CDS_6|468_bp atgcccggacgcttgatggtggtgatgatggtggtcgtggtgatggtggtggtggtggtg atggtggtgatggtgacggtgacggtggtgacggtggtggtggtgacggtggtgacggtg gtggtgacggtggcggtgacggtggtgatggtggtgacggtggtggtgacggtggtggtg acggtggtgacggtggtggtggtgacagtggtggtggtggtggtggtgggcaacatctgt caaatgcagggcatcggggccaagtgctcagtggaggtctgttttcgtcctccttctgga aacctggaactgcacgccttcttccaagggacacagctctcagctggcactgggcccctg ggagccaagtggcccatggcctgggacccagggcctctcaatggtgaggaggagggctac cctccccacagtgacaccgccccaggacatatcaacgagcggccctag >gi568815597r:16025218_16255932|GENSCAN_predicted_peptide_7|90_aa MSPFFDLQIDKRKGSFVTEPLHRFCRIAGTKRALDSDRALLDASKAHQGPCSSEPRKGCR PTSQQRRLKSEMKVLLGVGMRAGLLSYSCS >gi568815597r:16025218_16255932|GENSCAN_predicted_CDS_7|273_bp atgtccccattctttgatttgcaaatcgataaacgcaaaggcagctttgtcacggaacct ttacatcggttctgcagaattgctggcacaaagcgggcactggacagtgacagggctttg ctggatgcatcaaaggcccaccaaggtccctgcagctcagaacccagaaagggctgcagg cccacttctcagcagagaaggctaaaatcagagatgaaggttctgctaggggtgggaatg agggcagggctgctgtcctacagctgctcctga >gi568815597r:16025218_16255932|GENSCAN_predicted_peptide_8|1384_aa MNIIIIVIAIIVIIMRWGKTRLCRQQVGTCPERLCCLAEVVAGSTGHAEPWWHHGLSPQL ARTPGSGGFWGLGRKRPMHSLSQQIEAAVTLAAPQASTQACSQTVRTQEGGDTWQVGIVL FLSPLDPEEELRAVKHLIRNSQRDVWTRFPRVGTKARGQDVHIRQRRPTYLGSRSRASKR GWGQRGRGVRVCGSRARGDRTESEKRGMELQAARACFALLWGCALAAAAAAQGKEGYTWL PTWLLLGHQQPLNLPSFLQMGKLREARALANQGLLDRGPDLSIPLLGCQSQGPACFVVGV MKWEVVLLDFAAAGGELGWLTHPYGKGWDLMQNIMNDMPIYMYSVCNVMSGDQDNWLRTN WVYRGEAERIFIELKFTVRDCNSFPGGASSCKETFNLYYAESDLDYGTNFQKRLFTKIDT IAPDEITVSSDFEARHVKLNVEERSVGPLTRKGFYLAFQDIGACVALLSVRVYYKKCPEL LQGLAHFPETIAGSDAPSLATVAGTCVDHAVVPPGGEEPRMHCAVDGEWLVPIGQCLCQA GYEKVEDACQDFSQQPLAMLLLEVMTVATVDGGVARADRCPPGAALSPCLRFLCWPQQLA GPLLAPQPWGPLVRSQLVPQVEDSGSCWLWLAGFVPCWEVPPGLISVMFLLAYRAHTGGK ARRWHLRWAGTGFSLPPSLPPGACSPGFFKFEASESPCLECPEHTLPSPEGATSCECEEG FFRAPQDPASMPCTRPPSAPHYLTAVGMGAKVELRWTPPQDSGGREDIVYSVTCEQCWPE SGECGPCEASVRYSEPPHGLTRTSVTVSDLEPHMNYTFTVEARNGVSGLVTSRSFRTASV SINQTEPPKVRLEGRSTTSLSVSWSIPPPQQSRVWKYEVTYRKKGDSNSYNVRRTEGFSV TLDDLAPDTTYLVQVQALTQEGQGAGSKVHEFQTLSPEGSGNLAVIGGVAVGVVLLLVLA GVGFFIHRRRKNQRARQSPEDVYFSKSEQLKPLKTYVDPHTYEDPNQAVLKFTTEIHPSC VTRQKVIGAGEFGEVYKGMLKTSSGKKEVPVAIKTLKAGYTEKQRVDFLGEAGIMGQFSH HNIIRLEGVISKYKPMMIITEYMENGALDKFLREKDGEFSVLQLVGMLRGIAAGMKYLAN MNYVHRDLAARNILVNSNLVCKVSDFGLSRVLEDDPEATYTTSGGKIPIRWTAPEAISYR KFTSASDVWSFGIVMWEVMTYGERPYWELSNHEVMKAINDGFRLPTPMDCPSAIYQLMMQ CWQQERARRPKFADIVSILDKLIRAPDSLKTLADFDPRVSIRLPSTSGSEGVPFRTVSEW LESIKMQQYTEHFMAAGYTAIEKVVQMTNDDIKRIGVRLPGHQKRIAYSLLGLKDQVNTV GIPI >gi568815597r:16025218_16255932|GENSCAN_predicted_CDS_8|4155_bp atgaatatcatcatcatcgtcatcgccatcatcgtcatcatcatgaggtggggcaaaaca aggctctgcagacagcaagtggggacatgccctgagaggctgtgctgcttggctgaggtg gtggctggcagcactggtcatgcagagccttggtggcaccatggactcagcccacagctg gctcggactcctggatccggtggcttctggggtctgggcaggaaaaggccgatgcactcg ttgagtcagcagatcgaggctgctgtcaccctggcagctccacaggcctccacgcaggcc tgcagccaaactgtcaggactcaggaagggggtgacacctggcaggtgggtattgtttta tttttatccccacttgacccggaagaagagctcagggcagtgaagcacctcatccgaaac tcccagagagatgtctggacccgcttcccaagagtaggcaccaaggcgagaggccaagat gtccacatccggcagagaagacccacgtacctgggtagcaggtcccgggcatcaaagcga ggatggggtcagagaggaagaggcgtgcgggtgtgcgggagccgggctcggggggatcgg accgagagcgagaagcgcggcatggagctccaggcagcccgcgcctgcttcgccctgctg tggggctgtgcgctggccgcggccgcggcggcgcagggcaaggaaggctatacttggttg cccacgtggctcctgttaggtcatcaacagccactgaatctgccctcatttttacaaatg gggaaactgagggaggcccgagcccttgccaaccagggccttctggacagaggaccagac ctgagcatcccgcttcttggctgccagagccaaggccctgcctgctttgtggttggtgtc atgaaatgggaagtggtactgctggactttgctgcagctggaggggagctcggctggctc acacacccgtatggcaaagggtgggacctgatgcagaacatcatgaatgacatgccgatc tacatgtactccgtgtgcaacgtgatgtctggcgaccaggacaactggctccgcaccaac tgggtgtaccgaggagaggctgagcgtatcttcattgagctcaagtttactgtacgtgac tgcaacagcttccctggtggcgccagctcctgcaaggagactttcaacctctactatgcc gagtcggacctggactacggcaccaacttccagaagcgcctgttcaccaagattgacacc attgcgcccgatgagatcaccgtcagcagcgacttcgaggcacgccacgtgaagctgaac gtggaggagcgctccgtggggccgctcacccgcaaaggcttctacctggccttccaggat atcggtgcctgtgtggcgctgctctccgtccgtgtctactacaagaagtgccccgagctg ctgcagggcctggcccacttccctgagaccatcgccggctctgatgcaccttccctggcc actgtggccggcacctgtgtggaccatgccgtggtgccaccggggggtgaagagccccgt atgcactgtgcagtggatggcgagtggctggtgcccattgggcagtgcctgtgccaggca ggctacgagaaggtggaggatgcctgccaggacttctctcagcagcccctggccatgctg ctgctggaagtgatgacagtcgctaccgtagacggtggagtcgctcgggctgaccgctgt cccccgggggctgctttgtctccatgtctccgcttcctgtgctggcctcagcagctggcg gggcccctgctggcgcctcagccctggggaccgctggtcagatcacagttggtcccccag gtggaagactctgggagctgctggctgtggctcgcaggctttgtcccctgctgggaagtc ccaccaggccttatttctgtgatgtttcttctggcctacagagctcacactgggggcaaa gctaggcgctggcatctccgctgggcgggcaccggcttctccctccctccctctctccct cctggagcctgctcgcctggattttttaagtttgaggcatctgagagcccctgcttggag tgccctgagcacacgctgccatcccctgagggtgccacctcctgcgagtgtgaggaaggc ttcttccgggcacctcaggacccagcgtcgatgccttgcacacgacccccctccgcccca cactacctcacagccgtgggcatgggtgccaaggtggagctgcgctggacgccccctcag gacagcgggggccgcgaggacattgtctacagcgtcacctgcgaacagtgctggcccgag tctggggaatgcgggccgtgtgaggccagtgtgcgctactcggagcctcctcacggactg acccgcaccagtgtgacagtgagcgacctggagccccacatgaactacaccttcaccgtg gaggcccgcaatggcgtctcaggcctggtaaccagccgcagcttccgtactgccagtgtc agcatcaaccagacagagccccccaaggtgaggctggagggccgcagcaccacctcgctt agcgtctcctggagcatccccccgccgcagcagagccgagtgtggaagtacgaggtcact taccgcaagaagggagactccaacagctacaatgtgcgccgcaccgagggtttctccgtg accctggacgacctggccccagacaccacctacctggtccaggtgcaggcactgacgcag gagggccagggggccggcagcaaggtgcacgaattccagacgctgtccccggagggatct ggcaacttggcggtgattggcggcgtggctgtcggtgtggtcctgcttctggtgctggca ggagttggcttctttatccaccgcaggaggaagaaccagcgtgcccgccagtccccggag gacgtttacttctccaagtcagaacaactgaagcccctgaagacatacgtggacccccac acatatgaggaccccaaccaggctgtgttgaagttcactaccgagatccatccatcctgt gtcactcggcagaaggtgatcggagcaggagagtttggggaggtgtacaagggcatgctg aagacatcctcggggaagaaggaggtgccggtggccatcaagacgctgaaagccggctac acagagaagcagcgagtggacttcctcggcgaggccggcatcatgggccagttcagccac cacaacatcatccgcctagagggcgtcatctccaaatacaagcccatgatgatcatcact gagtacatggagaatggggccctggacaagttccttcgggagaaggatggcgagttcagc gtgctgcagctggtgggcatgctgcggggcatcgcagctggcatgaagtacctggccaac atgaactatgtgcaccgtgacctggctgcccgcaacatcctcgtcaacagcaacctggtc tgcaaggtgtctgactttggcctgtcccgcgtgctggaggacgaccccgaggccacctac accaccagtggcggcaagatccccatccgctggaccgccccggaggccatttcctaccgg aagttcacctctgccagcgacgtgtggagctttggcattgtcatgtgggaggtgatgacc tatggcgagcggccctactgggagttgtccaaccacgaggtgatgaaagccatcaatgat ggcttccggctccccacacccatggactgcccctccgccatctaccagctcatgatgcag tgctggcagcaggagcgtgcccgccgccccaagttcgctgacatcgtcagcatcctggac aagctcattcgtgcccctgactccctcaagaccctggctgactttgacccccgcgtgtct atccggctccccagcacgagcggctcggagggggtgcccttccgcacggtgtccgagtgg ctggagtccatcaagatgcagcagtatacggagcacttcatggcggccggctacactgcc atcgagaaggtggtgcagatgaccaacgacgacatcaagaggattggggtgcggctgccc ggccaccagaagcgcatcgcctacagcctgctgggactcaaggaccaggtgaacactgtg gggatccccatctga >gi568815597r:16025218_16255932|GENSCAN_predicted_peptide_9|94_aa MRKTSDKPKLRDSPQTRTSEIVKVMKTKETLRNCHRPQKTKTRQLNAMWDPGLDPGTEKD ISGKTGEIRIKSGVELIAVYQCWFLSFDYCTVVT >gi568815597r:16025218_16255932|GENSCAN_predicted_CDS_9|285_bp atgagaaaaacatcagataaacccaaattgagggatagtccacagaccagaacttctgaa attgtcaaggtcatgaaaaccaaggagacactgagaaactgtcacagaccacagaagact aagacacggcaactaaacgcaatgtgggatcctggattggatcctggaacagaaaaggac attagtgggaaaactggtgaaatccgaatcaagtctggagttgagttaatagcagtgtac cagtgttggtttcttagttttgactactgtaccgtagtcacgtaa >gi568815597r:16025218_16255932|GENSCAN_predicted_peptide_10|1560_aa MARPPVPGSVVVPNWHESAEGKEYLACILRKNRRRVFGLLERPVLLPPVSIDTASYKIFV SGKSGVGKTALVAKLAGLEVPVVHHETTGIQTTVVFWPAKLQASSRVVMFRFEFWDCGES ALKKFDHMLLACMENTDAFLFLFSFTDRASFEDLPGQLARIAGEAPGVVRMVIGSKFDQY MHTDVPERDLTAFRQAWELPLLRVKSVPGRRLADGRTLDGRAGLADVAHILNGLAEQLWH QDQTAMTPPTGRRLCLAPCGGIYVPDSRGTFSETGKPALIKVGQSGVRPLLTVPLTPRWV RLRARLGGEAATPAAAGERRLRQRRWRENFQRNLEEGLFELPGYQVPGSDLNSCQLLYPY WACWGYWHKYQPLDQPLDKLSCLFDHPGTVFFSIFMSFWGHGLPGALEAGSATLAHHWDC SDFQDQEAMPSSAPHHWDCSDFQDQEVMPSSALHHWDCSDFQDQEECPHLQFAALALQMT QNPVTGLKEPYFQPHSCLSHLLTSSAAILTVLCVVMIFLVSVIIYHGIISIAMFHTGNSV LMTQANVLWGNGGPKALSKVLCVCQQQCGPGGCHIQVTQQLIIIMVGKQLLNHMEEFVGL GGGPGPDTPCLPELQFGFITIFVGAFLLAPLFTLLNNRVEIGLDAHKFLCKYQRPMAGRG WTSGSDCSCWRPWYTLRYKASRDVGVNLALFYWKLLAVHVHLGFIIAFEGLMNQTLCLGG ISPSQLGRERASPAGTAKQHQQRAWAQRGPGGWQSKRGMDCGPPATLQPHLTGPPGTAHH PVAVCQQESLSFAELPALKPPSPVCLDLFPVAPEELRAPGSRWSLGTPAPLQGLLWPLSP GGSDTEITSGGMRPSRAGSWPHCPGAQPPALEGPWSPRHTQPQRRASHGSEKKSAWRKMR VYQREEVPGCPEAHAVFLEPGQVVQEQALSTEEPRVELSGSTRVSLEGPERRRFSASELM TRLHSSLRLGRNSAARALISGSGTGAAREGKASGMEARSVEMSGDRVSRPAPGDSREGDW SEPRLDTQEEPPLGSRSTNERRQSRFLLNSVLYQEYSDVASARELRRQQREEEGPGDEAE GAEEGPGPPRANLSPSSSFRAQRSARGSTFSLWQDIPDVRGSGVLATLSLRDCKLQEAKF ELITSEASYIHSLSVAVGHFLGSAELSECLGAQDKQWLFSKLPEVKSTSERFLQDLEQRL EADVLRFSVCDVVLDHCPAFRRVYLPYVTNQAYQERTYQRLLLENPRFPGILARLEESPV CQRLPLTSFLILPFQRITRLKMLVENILKRTAQGSEDEDMATKAFNALKELVQECNASVQ SMKRTEELIHLSKKIHFEGKIFPLISQARWLVRHGELVELAPLPAAPPAKLKLSSKAVYL HLFNDCLLLSRRKELGKFAVFVHAKMAELQVRDLSLKLQGIPGHVFLLQLLHGQHMKHQF LLRARTESEKQRWISALCPSSPQEDKEVISEGEDCPQVQCVRTYKALHPDELTLEKTDIL SVRTWTSDGWLEGVRLADGEKGWVPQAYVEEISSLSARLRNLRENKRVTSATSKLGEAPV >gi568815597r:16025218_16255932|GENSCAN_predicted_CDS_10|4683_bp atggccagacctcccgtgcccggttcggtggttgtcccaaactggcacgagagtgccgag ggcaaggagtacctggcttgcattctgcgcaagaaccgccggcgggtgtttgggctgctt gagcggccagtgctgctgccgcctgtgtccattgacactgccagctacaagatctttgtg tccgggaagagtggtgtgggcaagacggcgctggtggccaagctggctggcctggaggtg cctgtggtgcaccacgagaccaccggcatccagaccaccgtggtattttggccagccaag ctgcaggccagcagccgtgtcgtcatgtttcgttttgagttctgggactgtggagagtct gcactcaaaaagttcgatcatatgctgctggcttgcatggagaacacagatgccttcctc ttcctcttctccttcactgaccgtgcctcctttgaagacctccctggacagctggcccgc atagcaggtgaggcccctggtgtcgtcaggatggtcatcggctccaaatttgaccagtac atgcacacggacgtgcccgagcgggacctcacagccttccggcaggcctgggagctgccc ctgctacgggtgaagagtgtgccggggcggcggctggctgatgggcgcacactggacggg cgggctgggctggccgacgttgcccacatactcaatggccttgctgagcagctgtggcac caggaccagacggcgatgacgccaccgacaggacgacgactgtgtctcgcgccctgcggc ggcatttatgtgccggactctaggggtacattttctgagacgggaaaacctgcattgata aaagtgggacagagcggggtcagaccgctcctaactgtccccctgaccccgcgatgggtt agacttcgtgctcgcctgggaggagaagctgcgacccccgcggcggcgggagagaggcga ctccggcagcggcgctggcgcgagaattttcagcggaacctggaggagggcctctttgaa ctgcctgggtaccaggtacccggttcagatctcaactcttgccaattgctgtacccatac tgggcttgctggggatactggcacaagtaccagcccctggaccagcctttggacaaactg agctgcctctttgaccacccaggaaccgtgttcttcagcatcttcatgtccttctggggc catggccttcctggagcactggaagcagggagtgccaccttggcccaccactgggactgc agtgacttccaggaccaggaggcaatgcccagttcagccccccaccactgggactgcagc gacttccaggaccaggaggtgatgcccagttcagccctccaccactgggactgcagcgac ttccaggaccaggaggagtgcccacatctacagtttgctgccctggccctgcagatgacc cagaacccagtgacaggcttgaaggagccctacttccaaccgcacagctgcctttcccac ctactcaccagctctgcagccatcctcactgtgctctgtgtggtgatgattttcctggta tctgtcataatttaccatggcatcatcagcattgcaatgttccacactggcaactctgtg ctcatgacccaagcgaatgtcctttggggcaatggaggccccaaagccctgagtaaggtg ctctgtgtctgccaacaacagtgcggtcctggtggctgccacattcaggtcacccagcag ctcatcatcatcatggtgggcaaacagctgctcaaccacatggaagaatttgttgggctg ggaggtggccccgggcctgacactccctgcctgccagagctgcagtttgggttcatcacc atctttgtgggagccttcctgctggcacccctgttcactctgctcaacaaccgggtagag attggactggacgcccacaagttcctgtgcaagtaccagcgaccaatggctgggcgcggc tggacatctggatctgactgctcctgctggaggccatggtacaccttgagatacaaggcc tctcgcgacgtgggggtgaacctcgccctcttctactggaagctgctggctgtgcatgtg catctgggtttcattatcgccttcgagggtttgatgaatcaaactctttgtctgggtggg atctcccccagccagctgggcagagagagggcttcccctgccggaacagccaaacagcat cagcagcgggcctgggcccagagagggccaggtgggtggcagagcaaaagaggaatggac tgtgggccacctgctaccctccagccccacctgactgggccacctggcactgcccaccac cctgtagcagtgtgccagcaggagagtctgtcctttgcagagctgcccgccctgaagccc ccgagcccagtgtgtctggaccttttccctgttgccccagaggagcttcgggctcctggc agccgctggtccctggggacccctgcccctctccaagggttgctatggccattatcccca ggaggctcagatacagagatcaccagcggggggatgcggcccagcagggctggcagctgg ccacactgtcctggtgcccagcccccagctctggagggaccctggagtccccgacacaca cagccacagcgccgggccagccacggctcggagaagaagtctgcctggcgcaagatgcgg gtgtaccagcgtgaagaggtccccggctgccccgaggcccacgctgtcttcctagagcct ggccaggtagtgcaagagcaggccctgagcacagaggagcccagggtggagttgtctggg tccacccgagtgagcctcgaaggtcctgagcggaggcgcttctcggcatcggagctgatg acccggctgcactcttctctgcgcctggggcggaattcagcagcccgggcactcatctct gggtcaggcaccggagcagcccgggaagggaaagcatctggaatggaggctcgaagtgta gagatgagcggggaccgggtgtcgcggccagcccctggtgactcacgagagggcgattgg tccgagcccaggctagacacacaggaagagccgcctttggggtccaggagcaccaacgag cggcgccagtctcgattcctccttaactccgtcctctatcaggaatacagcgacgtggcc agcgcccgcgaactgcggcggcagcagcgcgaggaggagggcccgggggacgaggccgag ggcgcagaggaggggccggggccgccgcgggccaacctctcccccagcagctccttccgg gcgcagcgctcggcgcgaggctccaccttctcgctgtggcaggatatccccgacgtacgc ggcagcggcgtcctggccacgctgagcctgcgggactgcaagctgcaggaggccaagttt gagctgatcacctccgaggcctcctacatccacagcctgtcggtggctgtgggccacttc ttaggctctgccgagctgagcgagtgtctgggggcgcaggacaagcagtggctgttttcc aaactgcccgaggtcaagagcaccagcgagaggttcctgcaggacctggagcagcggctg gaggcagatgtgctgcgcttcagcgtgtgcgacgtggtgctggaccactgcccggccttc cgcagagtctacctgccctatgtcaccaaccaggcctaccaggagcgcacctaccagcgc ctgctcctggagaaccccaggttccctggcatcctggctcgcctggaggagtctcctgtg tgccagcgtctgccccttacctccttccttatcctgcccttccagaggatcacccgcctc aagatgttggtggagaacatcctgaagcggacagcacagggctctgaagacgaagacatg gccaccaaggccttcaatgcgctcaaggagctggtgcaggagtgcaatgctagtgtacag tccatgaagaggacagaggaactcatccacctgagcaagaagatccactttgagggcaag attttcccgctgatctctcaggcccgctggctggttcggcatggagagttggtagagctg gcaccactgcctgcagcaccccctgccaagctgaagctgtccagcaaggcagtctacctc cacctcttcaatgactgcttgctgctctctcggcggaaggagctagggaagtttgccgtt ttcgtccatgccaagatggctgagctgcaggtgcgggacctgagcctgaagctgcagggc atccccggccacgtgttcctcctccagctcctccacgggcagcacatgaagcaccagttc ctgctgcgggcccggacggaaagtgagaagcagcgatggatctcagccttgtgcccctcc agcccccaggaggacaaggaggtcatcagtgagggggaagattgcccccaggttcagtgt gttaggacatacaaggcactgcacccagatgagctgaccttggagaagactgacatcctg tcagtgaggacctggaccagtgacggctggctggaaggggtccgcctggcagatggtgag aaggggtgggtgccccaggcctatgtggaagagatcagcagcctcagcgcccgcctccga aacctccgggagaataagcgagtcacaagtgccaccagcaaactgggggaggctcctgtg tga >gi568815597r:16025218_16255932|GENSCAN_predicted_peptide_11|480_aa XWNCIVTTHGPPPMAGHSSCVIDDKMIVFGGSLGSRQMSNDVWVLDLEQWAWSKPNISGP SPHPRGGQSQLFKDAWLLHMHSGPWAWQPLKVENEEHGAPELWCHPACRVGQCVVVFSQA PSGRAPLSPSLNSRPSPISATPPALVPETREYRSQSPVRSMDEAPCVNGRWGTLRPRAQR QTPSGSREGSLSPARGDGSPILNGGSLSPGTAAVGGSSLDSPVQAISPSTPSAPEGYDLK IGLSLAPRRGSLPDQKDLRLGSIDLNWDLKPASSSNPMDGMDNRTVGGSMRHPPEQTNGV HTPPHVASALAGAVSPGALRRSLEAIKAMSSKGPSASAALSPPLGSSPGSPGSQSLSSGE TVPIPRPGPAQGDGHSLPPIARRLGHHPPQSLNVGKPLYQSMNCKPMQMYVLDIKDTKEK GRVKWKVFNSSSVVGPPETSLHTVVQGRGELIIFGGLMDKKQNVKYYPKTNALYFVRAKR >gi568815597r:16025218_16255932|GENSCAN_predicted_CDS_11|1443_bp nngtggaactgcattgtgacaacccatgggccacctcccatggctggccactcctcctgt gtgatagatgataaaatgattgtctttggtggctctttaggatcccggcaaatgagcaat gatgtctgggtccttgaccttgagcagtgggcgtggtccaagccgaacatctctggcccc agtcctcatcctcgaggtggccaatctcagctattcaaggatgcttggttgttgcacatg cattctggtccttgggcctggcagccactcaaggtagaaaatgaagagcatggggcccca gaactgtggtgccatccagcttgccgggtgggacagtgtgtggtggtcttcagccaggct cctagtgggagagccccactcagccccagtttgaactctcgcccatcacctatcagtgcc actcctccagctctcgttcctgaaacccgagagtaccgctctcagtctccagtaagaagc atggatgaagctccttgtgttaacggccgctggggaacactgagacccagggctcaaagg cagactccttcaggttcccgggaagggagcctttccccagccagaggagacggctctcct atcctcaatggtgggagtttgtctccaggaacggcagctgtgggtggctcttctttggac agtcctgtacaggccatatctccaagtactccatctgctcctgaaggatacgacctgaaa ataggactttctttggccccccgacgaggatcactaccagatcagaaagatctgagatta ggatccatagatctgaattgggatctgaaacccgcttccagtagtaatcccatggatggc atggacaataggacagttgggggaagtatgagacaccctcctgaacagacaaatggtgtg cataccccacctcacgtggccagtgcccttgcaggggccgtctccccaggtgccctgcgt cggagtctggaagccatcaaagcgatgtcctccaaaggcccctcggcctctgcagcacta agtcctcctcttgggtcttctccaggctctcctgggagccagagtttgagcagtggagaa acagtgcccatccctcgcccagggcctgcccaaggagatggacattccttacctcccatt gctcgccgcctgggccaccaccctccacagtccctaaatgttggcaaacccctataccag agtatgaactgcaagcccatgcagatgtacgtgctggacattaaagacaccaaggagaag gggcgggtcaaatggaaagtatttaatagcagttctgtggttggacctcctgaaaccagc ctgcataccgtggtacaaggcaggggtgaactcatcatatttggaggactcatggacaag aaacagaatgtgaagtactatccaaaaacaaacgccttgtactttgtacgagcaaagaga taa