Result of GENSCAN for
pF1KE0972
GENSCAN 1.0 Date run: 6-Nov-116 Time: 22:26:13 Sequence gi568815581r:3765907_3985687 : 219781 bp : 52.76% 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 + 2838 2970 133 2 1 105 89 5 0.157 3.02 1.02 Term + 5252 5457 206 0 2 18 48 144 0.366 1.26 1.03 PlyA + 8860 8865 6 1.05 2.21 PlyA - 10114 10109 6 1.05 2.20 Term - 10580 10484 97 1 1 33 50 69 0.371 -4.66 2.19 Intr - 11754 11634 121 1 1 124 105 105 0.754 15.86 2.18 Intr - 28750 28660 91 1 1 62 87 2 0.012 -2.43 2.17 Intr - 32158 32024 135 1 0 53 17 140 0.159 4.67 2.16 Intr - 39668 39633 36 2 0 80 89 32 0.025 1.44 2.15 Intr - 42574 42473 102 1 0 48 86 79 0.035 4.57 2.14 Intr - 43380 43275 106 2 1 81 50 29 0.029 -0.88 2.13 Intr - 47617 47374 244 2 1 77 91 70 0.262 3.29 2.12 Intr - 48577 48416 162 2 0 118 77 39 0.924 6.26 2.11 Intr - 50364 50210 155 2 2 71 84 121 0.914 10.23 2.10 Intr - 52666 52357 310 2 1 74 66 434 0.905 35.72 2.09 Intr - 55446 55343 104 2 2 69 28 112 0.971 3.62 2.08 Intr - 56146 56047 100 2 1 43 101 58 0.973 2.27 2.07 Intr - 59126 59036 91 2 1 54 94 6 0.544 -2.13 2.06 Intr - 59937 59861 77 1 2 58 88 123 0.990 9.03 2.05 Intr - 60309 60181 129 1 0 76 87 53 0.930 5.17 2.04 Intr - 63462 63337 126 1 0 90 95 48 0.877 6.86 2.03 Intr - 74299 74194 106 1 1 111 87 144 0.999 16.89 2.02 Intr - 77245 77180 66 1 0 80 116 56 0.993 7.19 2.01 Init - 80317 80135 183 1 0 108 80 375 0.994 35.79 2.00 Prom - 83603 83564 40 -6.90 3.23 PlyA - 84373 84368 6 1.05 3.22 Term - 86134 85958 177 1 0 32 38 189 0.963 6.30 3.21 Intr - 91372 91268 105 1 0 124 90 28 0.821 7.51 3.20 Intr - 95241 94997 245 1 2 15 64 235 0.669 11.55 3.19 Intr - 95644 95292 353 0 2 57 52 157 0.695 4.52 3.18 Intr - 100362 100002 361 1 1 84 78 150 0.304 8.44 3.17 Intr - 102464 102299 166 2 1 61 21 91 0.485 -0.25 3.16 Intr - 103709 103581 129 2 0 94 83 95 0.984 11.00 3.15 Intr - 103982 103895 88 1 1 121 58 159 0.978 16.67 3.14 Intr - 106721 106648 74 2 2 93 64 131 0.999 9.90 3.13 Intr - 107556 107503 54 0 0 104 113 71 0.985 10.86 3.12 Intr - 110516 110317 200 0 2 106 57 350 0.999 33.29 3.11 Intr - 111656 111582 75 0 0 121 44 35 0.810 2.38 3.10 Intr - 114528 114440 89 2 2 115 74 209 0.849 22.31 3.09 Intr - 115808 115721 88 0 1 50 84 39 0.492 -0.77 3.08 Intr - 116464 116351 114 2 0 28 76 106 0.930 4.32 3.07 Intr - 116658 116622 37 0 1 92 92 47 0.929 3.82 3.06 Intr - 117269 117136 134 0 2 77 75 201 0.511 18.57 3.05 Intr - 117574 117523 52 1 1 105 60 43 0.998 2.17 3.04 Intr - 118058 117978 81 2 0 43 73 109 0.802 5.23 3.03 Intr - 118521 118474 48 0 0 122 97 110 0.995 14.66 3.02 Intr - 119824 119422 403 0 1 105 73 237 0.957 18.90 3.01 Init - 122819 122632 188 2 2 81 77 120 0.962 6.71 3.00 Prom - 125446 125407 40 -3.91 4.15 PlyA - 130706 130701 6 1.05 4.14 Term - 131566 131537 30 1 0 95 41 32 0.634 -2.66 4.13 Intr - 132204 132103 102 0 0 83 95 127 0.918 13.77 4.12 Intr - 132643 132578 66 1 0 72 103 139 0.998 13.39 4.11 Intr - 133118 133028 91 1 1 88 113 201 0.993 23.10 4.10 Intr - 133855 133728 128 1 2 85 39 203 0.999 15.08 4.09 Intr - 137437 137296 142 0 1 90 86 165 0.992 17.36 4.08 Intr - 137725 137645 81 0 0 46 96 106 0.987 6.45 4.07 Intr - 138118 138022 97 2 1 49 34 253 0.957 15.57 4.06 Intr - 138493 138424 70 1 1 63 116 57 0.994 5.25 4.05 Intr - 139023 138952 72 0 0 116 78 143 0.999 16.20 4.04 Intr - 139461 139314 148 2 1 85 99 201 0.999 21.65 4.03 Intr - 145521 145470 52 1 1 113 44 12 0.248 -2.25 4.02 Intr - 146988 146834 155 2 2 86 59 60 0.768 3.13 4.01 Init - 150319 150183 137 1 2 104 100 297 0.969 32.08 4.00 Prom - 151497 151458 40 -6.50 5.27 PlyA - 152775 152770 6 1.05 5.26 Term - 155507 155239 269 0 2 72 53 160 0.433 6.89 5.25 Intr - 158759 158565 195 0 0 66 56 177 0.738 12.21 5.24 Intr - 162874 162757 118 1 1 106 113 151 0.975 19.94 5.23 Intr - 163539 163422 118 2 1 59 76 267 0.999 23.57 5.22 Intr - 164528 164395 134 2 2 73 96 279 0.999 27.15 5.21 Intr - 169371 169286 86 1 2 104 93 113 0.991 13.44 5.20 Intr - 170563 170361 203 0 2 35 105 388 0.999 34.65 5.19 Intr - 171730 171510 221 1 2 65 81 523 0.999 46.93 5.18 Intr - 175400 175065 336 2 0 108 77 660 0.975 63.17 5.17 Intr - 175748 175530 219 2 0 104 90 300 0.973 30.83 5.16 Intr - 176825 176700 126 2 0 94 81 170 0.997 18.28 5.15 Intr - 177616 177485 132 1 0 96 101 178 0.998 21.25 5.14 Intr - 178900 178798 103 0 1 72 64 180 0.992 14.68 5.13 Intr - 179242 179154 89 1 2 91 65 143 0.999 11.57 5.12 Intr - 181949 181485 465 2 0 85 100 940 0.856 88.81 5.11 Intr - 184690 184605 86 2 2 80 84 124 0.999 11.24 5.10 Intr - 184867 184787 81 2 0 65 76 154 0.833 12.01 5.09 Intr - 185483 185345 139 2 1 108 85 343 0.999 36.54 5.08 Intr - 185779 185675 105 1 0 61 75 262 0.983 23.11 5.07 Intr - 187523 187441 83 0 2 74 78 163 0.976 13.75 5.06 Intr - 198444 198268 177 1 0 69 101 270 0.090 26.81 5.05 Intr - 211352 211242 111 0 0 78 97 56 0.048 6.35 5.04 Intr - 214809 214681 129 1 0 55 94 55 0.128 3.97 5.03 Intr - 215545 215409 137 0 2 75 93 -18 0.738 -1.88 5.02 Intr - 215759 215597 163 0 1 106 96 23 0.846 4.45 5.01 Init - 216762 216687 76 0 1 93 46 134 0.996 8.90 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 43284 43425 142 2 1 43 44 172 0.883 8.56 S.002 Init - 198612 198518 95 0 2 70 90 163 0.840 12.51 S.003 Intr + 210881 210981 101 1 2 100 71 37 0.846 2.61 S.004 Intr + 211013 211152 140 2 2 88 75 125 0.933 11.82 S.005 Term + 212617 212756 140 2 2 106 47 53 0.856 1.43 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581r:3765907_3985687|GENSCAN_predicted_peptide_1|112_aa NLPSSDSAYYLSPHETVGSRRILSIFFTVLFPGSGAMPGTEQGLTQENSPNANHQYCRHN VTLATRRSTAWGNTMDEIHRPYVEREEPDVAGHTPYASLILNAKPGEANPRR >gi568815581r:3765907_3985687|GENSCAN_predicted_CDS_1|339_bp aacctgccatcatctgatagtgcctattatctgtctccccacgagacagtaggctcccga aggatcttgtctatcttcttcactgtgttattcccagggtctggagcaatgcctggcaca gaacaagggctcacccaagaaaacagcccaaatgccaatcatcagtactgtcgacacaat gtaaccctggcaaccagaagaagtaccgcctggggcaacacgatggatgaaattcacagg ccttatgtggagagagaggagcccgacgtagcggggcacacaccgtatgcctcgttgata ctaaatgcaaaaccaggcgaggctaatccacggagatga >gi568815581r:3765907_3985687|GENSCAN_predicted_peptide_2|846_aa MAAVRGLRVSVKAEAPAGPALGLPSPEAESGVDRGEPEPMEVEEGELEIVPVRRSLKELI PDTSRRYENKAGSFITGIDVTSKEAIEKKEQRAKRFHFRSEVNLAQRNVALDRDMMKKAI PKVRLETIYICGVDEMSTQDVFSYFKEYPPAHIEWLDDTSCNVVWLDEMTATRALINMSS LPAQDKIRSRDASEDKSAEKRKKDKQEDSSDDDEAEEGEVEDENSSDVEVEEESLLRNDL RPANKLAKGNRLFMRFATKDDKKELGAARRSQYYMKYGNPNYGGMKGILSNSWKRRYHSR RIQRDVIKKRALIGDDVGLTSYKHRHSGLVNVPEEPIEEEEEEEEEEEEEEEEDQDMDAD DRVVVEYHEELPALKQPRERSASRRSSASSSDSDEMDYDLELKMISTPSPKKSMKMTMYA DEVESQLKNIRNSMRADSVSSSNIKNRIGNKLPPEKFADVRHLLDEKRQHSRPRPPVSST KSDIRQRLGKRPHSPEKAFSSNPVVRREPSSDVHSRLGVPRQDSKGLYADTREKKSGRDL TCPPTVRIPCWVQTLPFAGRGCGPGNEILPAQGCTVVAGSTDCWRFLHSRCWQCCCPLSA TLVLSADCESEMPSHPNRNHQVVFPSSCIIFHSTSSVRGFQFLHISTNTHYFLEAVPNFQ SQGIGYFYVSHGTATEESQLSPGFSSKSPTDLRPEDANMVWYKWRNAGIQSREAHGGGGE ERGDLSAGLGELGVPAEGSGEPQKFWIRGGAAGTVRPSSLPRGLDLEPLRVYVGCLALLA AFNVDVARPWLTPKGGAPFVLSSLLHQDPSTNQTCLSKVLGPELQFPFSAVSVGNYLLHR IVAKTI >gi568815581r:3765907_3985687|GENSCAN_predicted_CDS_2|2541_bp atggcggccgtacggggcctgcgggtgtcggtgaaggcggaggccccggcggggccggcc ctggggctcccgtcccctgaggcggagtccggtgttgaccgtggcgagccggagcccatg gaggtggaggagggcgagctggaaatcgtgcctgtgcggcgctcgctcaaggaactgatc ccggacacgagcagaagatatgaaaacaaggctggcagcttcatcactggaattgatgtc acctccaaggaagcaattgaaaagaaagagcagcgagccaagcgcttccattttcgatcg gaagtaaatcttgcccaaagaaatgtagccttggaccgagacatgatgaagaaagcaatc cccaaggtgagactggagacaatctatatttgcggagtagatgagatgagcacccaagat gtcttttcctattttaaagaatatcctccagctcacatcgaatggttggatgatacctcc tgtaatgtagtttggctggatgaaatgacagccacacgagcacttatcaatatgagctcc ctgcctgcacaggataagatcagaagcagggatgccagtgaggacaagtcagctgagaaa aggaaaaaagacaagcaggaagacagttcagatgatgatgaagctgaagaaggagaggtt gaagatgagaactcaagtgatgtagaggtagaagaggagtctttgttaagaaacgatctt cgtccagctaacaaacttgctaaaggaaataggttattcatgagatttgctacaaaagat gacaaaaaggaacttggagcagccagaagaagtcagtattacatgaaatatgggaatcca aattatggaggcatgaaaggaattcttagcaattcatggaagcgaagatatcattcccgt cgtattcagcgggacgtgatcaagaagagagccctgattggggatgacgttggcttgacg tcgtataaacatcgacattctgggctagtgaatgttcccgaggaacccattgaagaggag gaagaggaggaggaggaggaagaggaagaggaagaagaagaccaggacatggatgcagat gacagagtggtggtagagtaccacgaggagctcccggctctcaagcagccccgggagcgg agcgcgtctagacgatccagtgccagcagctcagactcagatgaaatggactatgatcta gaactgaaaatgatttccacgccttcaccaaagaaaagcatgaaaatgactatgtatgct gacgaagtggaatctcagttgaaaaatattaggaactccatgagggcagatagtgtatct tcaagcaatatcaaaaaccgaattggtaacaaattaccacctgagaaatttgcagatgtc cgacatctattagatgagaaacgtcagcactcccgtccacggccaccagtcagcagtact aaatcagatatacgccagcggttaggaaaaagaccacattctccggaaaaggcttttagt agtaaccccgtcgttcggagagagccctcttctgatgtgcatagtaggctaggtgttccc aggcaggatagtaaaggcctctacgccgatactcgggagaagaaatcagggagggacctg acctgtccccccacggtgagaatcccgtgctgggtccagacccttccgtttgcgggcagg ggctgcggcccgggaaatgagattttgcctgcccaaggctgcactgtggtggcaggctcc acagactgctggcgtttcctgcacagcaggtgttggcagtgctgctgccccctcagtgct accctggttcttagcgctgactgcgaaagtgaaatgccatctcatccaaacaggaaccac caggtggtttttccaagcagctgtatcattttccattccaccagcagtgtgcgagggttc cagtttctccacatctccaccaacactcattattttctggaggcagtccccaacttccag agccagggtataggctacttctatgtgtcccatggtactgccacagaagagtctcagctc tctccaggattcagttctaagtcccccacagatctgaggccggaggatgccaacatggtg tggtataagtggaggaatgcgggcatccagtcccgagaggcccacggtggaggtggtgag gaacgtggggacctgagtgccggcctgggggagcttggagttcctgctgagggcagtggg gagccacagaagttctggattcgtgggggagcagcgggaacagtacggccttcttccctg cctaggggtcttgatctggaacctttgagagtctatgtaggctgcctggccctgctggcc gctttcaatgtggatgtggcccggccctggctcacgcccaagggaggtgcccctttcgtg ctcagctcccttctgcaccaagaccccagcaccaaccagacctgcctgagcaaggtgctc gggcctgagcttcagtttcccttctctgcagtcagcgtggggaactacctacttcacagg attgtcgcaaagactatttga >gi568815581r:3765907_3985687|GENSCAN_predicted_peptide_3|1086_aa MGSLTSALAAAFRPPAHPSGPQRVPSNHNSSRTTTTHFYGLLSGRHCSERLTGVPSSASH HVRFPTRLRRRTPLTEAMEGGPAVCCQDPRAELVERVAAIDVTHLEEADGGPEPTRNGVD PPPRARAASVIPGSTSRLLPARPSLSARKLSLQERPAGSYLEAQAGPYATGPASHISPRA WRRPTIESHHVAISDAEDCVQLNQYKLQSEIGKVGLTDAYLQGAYGVVRLAYNESEDRHY AMKVLSKKKLLKQYGFPRRPPPRGSQAAQGGPAKQLLPLERVYQEIAILKKLDHVNVVKL IEVLDDPAEDNLYLALQNQAQNIQLDSTNIAKPHSLLPSEQQDSGSTWAARSGRDLGIGC FASQLHLTFLSFLSVFDLLRKGPVMEVPCDKPFSEEQARLYLRDVILGLEYSSWGPLVQM KVLAKEGAHRSMVAGWVHCQKIVHRDIKPSNLLLGDDGHVKIADFGVSNQFEGNDAQLSS TAGTPAFMAPEAISDSGQSFSGKALDVWATGVTLYCFVYGKCPFIDDFILALHRKIKNEP VVFPEEPEISEELKDLILKMLDKNPETRIGVPDIKLHPWVTKNGEEPLPSEEEHCSVVEV TEEEVKNSVRLIPSWTTVRPRINQAVPASPPDPVYQLDGACISPVPTYQLDGACFSPRAH VSVRRRLLLPQSPPWPCGPFMGWSRPPPHVPVASGSSPFQEYAPSCQRPVFLPLPFHAVL IEMGPALRPPWQLLSGNRSRGCVSGSLGPVLLTLPCPPQILVKSMLRKRSFGNPFEPQAR REERSMSAPGNLLVTAQDYLAAKWMELTFLDCVSHSALSGKWTERNQALSRGLKRKHHIV PAHLTLSLDDAPRAEAGEDTRADFDRGPWTRQACGPAHAEITGTQPLLLHRPTHLGPRAA LTLLQRRTNCPGGLCGNCLTLRTSAVSLLRAGVLERVQTQLFRSSLHLLSGISVRLADVA FADRMLIEVDPHRVTQDSDTALETWMDKGFWPQAQPFRRDTASPQSLPLLVKLDPALQGL FSSWKNPEGGSERRNGPALLHSKEDVQEAAGHAHLELEGEARTGNGDAGALSVWTAVELE AMRVMS >gi568815581r:3765907_3985687|GENSCAN_predicted_CDS_3|3261_bp atggggagcctgacgtcagccctcgcggccgccttccgcccgcccgcgcatccatctggg cctcagcgtgtcccgagcaatcacaacagcagccgcacaacaacaactcacttttacggc ctccttagtggcaggcactgttctgagcgccttacgggcgttccctcctcagcatctcac cacgtgcggttcccaacaaggctacgcagaagaacccccttgactgaagcaatggagggg ggtccagctgtctgctgccaggatcctcgggcagagctggtagaacgggtggcagccatc gatgtgactcacttggaggaggcagatggtggcccagagcctactagaaacggtgtggac cccccaccacgggccagagctgcctctgtgatccctggcagtacttcaagactgctccca gcccggcctagcctctcagccaggaagctttccctacaggagcggccagcaggaagctat ctggaggcgcaggctgggccttatgccacggggcctgccagccacatctccccccgggcc tggcggaggcccaccatcgagtcccaccacgtggccatctcagatgcagaggactgcgtg cagctgaaccagtacaagctgcagagtgagattggcaaggtggggctgactgatgcctat ctgcagggtgcctacggtgtggtgaggctggcctacaacgaaagtgaagacagacactat gcaatgaaagtcctttccaaaaagaagttactgaagcagtatggctttccacgtcgccct cccccgagagggtcccaggctgcccagggaggaccagccaagcagctgctgcccctggag cgggtgtaccaggagattgccatcctgaagaagctggaccacgtgaatgtggtcaaactg atcgaggtcctggatgacccagctgaggacaacctctatttggccctgcagaaccaggcc cagaatatccagttagattcaacaaatatcgccaagccccactccctgcttccctctgag cagcaagacagtggatccacgtgggctgcgcgctcagggagggaccttggcatcggctgc tttgccagccagctacaccttaccttcttgtcttttctttcagtgtttgacctcctgaga aaggggcccgtcatggaagtgccctgtgacaagcccttctcggaggagcaagctcgcctc tacctgcgggacgtcatcctgggcctcgagtactcatcctggggtccgttggtccagatg aaggtacttgccaaggagggagcccacaggtcgatggtcgcgggatgggtgcactgccag aagatcgtccacagggacatcaagccatccaacctgctcctgggggatgatgggcacgtg aagatcgccgactttggcgtcagcaaccagtttgaggggaacgacgctcagctgtccagc acggcgggaaccccagcattcatggcccccgaggccatttctgattccggccagagcttc agtgggaaggccttggatgtatgggccactggcgtcacgttgtactgctttgtctatggg aagtgcccattcatcgacgatttcatcctggccctccacaggaagatcaagaatgagccc gtggtgtttcctgaggagccagaaatcagcgaggagctcaaggacctgatcctgaagatg ttagacaagaatcccgagacgagaattggggtgccagacatcaagttgcacccttgggtg accaagaacggggaggagccccttccttcggaggaggagcactgcagcgtggtggaggtg acagaggaggaggttaagaactcagtcaggctcatccccagctggaccacggtgcgcccg cgtatcaatcaggcagtgcctgcgtctcccccagatcctgtgtatcagttagacggtgcc tgcatctcccccgtgcccacgtatcagttagacggcgcctgcttctcccccagagcccac gtatcagttagacggcgcctgcttctcccccagagcccaccctggccttgcggacccttc atgggctggtcccggccccctcctcatgtaccagtggcatccggctcctcaccattccag gaatatgcccccagctgccagcgccccgtgttcttgcctctgccatttcatgctgtgctg attgagatgggacccgcactgcggcccccttggcagctgctctcggggaatcggagcaga ggctgcgtgtctgggagcctgggacctgtgctcctcacgctgccttgtcctcctcagatc ctggtgaagtccatgctgaggaagcgttcctttgggaacccgtttgagccccaagcacgg agggaagagcgatccatgtctgctccaggaaacctactggtcacagcccaagattatttg gcagccaagtggatggaactaactttcctggactgtgtttcgcattcggcgttatctgga aagtggactgaacggaatcaagctctgagcagaggcctgaagcggaagcaccacatcgtc cctgcccatctcactctctcccttgatgatgcccctagagctgaggctggagaagacacc agggctgactttgaccgagggccatggacgcgacaggcctgtggccctgcgcatgctgaa ataactggaacccagcctctcctcctacaccggcctacccatctgggcccaagagctgca ctcacactcctacaacgaaggacaaactgtccaggtggcctctgcggcaattgcctcacc ctgaggacatcagcagtcagcctgctcagagcgggggtgctggagcgcgtgcagacacag ctcttccggagcagccttcaccttctctctgggatcagtgtccggctggccgacgtggca tttgctgaccgaatgctcatagaggttgacccccacagggtcacgcaggactcggacact gccctggaaacatggatggacaagggcttttggccacaggcccagccattccggcgggac actgcctcccctcaatccctgcccctgcttgtcaagcttgaccccgccctccaaggcctg ttcagcagctggaaaaatccagagggagggagcgaacgcaggaatggacccgccttgcta cattcaaaggaagatgtccaggaggcagctggacatgcgcatctggagctcgagggagag gcgagaactggaaatggagacgcgggggccctcagcgtgtggacggccgtggagttggaa gccatgcgtgtgatgagctag >gi568815581r:3765907_3985687|GENSCAN_predicted_peptide_4|456_aa MARRFQEELAAFLFEYDTPRMVLVRNKKVGVIFRLIQLVVLVYVIGPLEITCSEISKWRS ECTNQGEGWIEIIGGRNTSRDRFCSIFSMPGAVPGNRARNTWHSQSFRRLKRSGKWVFLY EKGYQTSSGLISSVSVKLKGLAVTQLPGLGPQVWDVADYVFPAQGDNSFVVMTNFIVTPK QTQGYCAEHPEGGICKEDSGCTPGKAKRKAQGIRTGKCVAFNDTVKTCEIFGWCPVEVDD DIPRPALLREAENFTLFIKNSISFPRFKVNRRNLVEEVNAAHMKTCLFHKTLHPLCPVFQ LGYVVQESGQNFSTLAEKGGVVGITIDWHCDLDWHVRHCRPIYEFHGLYEEKNLSPGFNF RFARHFVENGTNYRHLFKVFGIRFDILVDGKAGKFDIIPTMTTIGSGIGIFGVATVLCDL LLLHILPKRHYYKQKKFKYAEDMGPGAICALRCGSQ >gi568815581r:3765907_3985687|GENSCAN_predicted_CDS_4|1371_bp atggcacggcggttccaggaggagctggccgccttcctcttcgagtatgacaccccccgc atggtgctggtgcgtaataagaaggtgggcgttatcttccgactgatccagctggtggtc ctggtctacgtcatcggacctcttgaaatcacatgttctgagatctccaagtggagatca gagtgcaccaatcagggagaaggatggatagaaattattggggggagaaacacatccagg gaccgtttctgcagcatcttctccatgcctggtgctgtgccggggaacagagcacgtaac acctggcacagccagagcttccgacgtctcaagagaagtgggaagtgggtgtttctctat gagaagggctaccagacctcgagcggcctcatcagcagtgtctctgtgaaactcaagggc ctggccgtgacccagctccctggcctcggcccccaggtctgggatgtggctgactacgtc ttcccagcccagggggacaactccttcgtggtcatgaccaatttcatcgtgaccccgaag cagactcaaggctactgcgcagagcacccagaagggggcatatgcaaggaagacagtggc tgtacccctgggaaggccaagaggaaggcccaaggcatccgcacgggcaagtgtgtggcc ttcaacgacactgtgaagacgtgtgagatctttggctggtgccccgtggaggtggatgac gacatcccgcgccctgcccttctccgagaggccgagaacttcactcttttcatcaagaac agcatcagctttccacgcttcaaggtcaacaggcgcaacctggtggaggaggtgaatgct gcccacatgaagacctgcctctttcacaagaccctgcaccccctgtgcccagtcttccag cttggctacgtggtgcaagagtcaggccagaacttcagcaccctggctgagaagggtgga gtggttggcatcaccatcgactggcactgtgacctggactggcacgtacggcactgcaga cccatctatgagttccatgggctgtacgaagagaaaaatctctccccaggcttcaacttc aggtttgccaggcactttgtggagaacgggaccaactaccgtcacctcttcaaggtgttt gggattcgctttgacatcctggtggacggcaaggccgggaagtttgacatcatccctaca atgaccaccatcggctctggaattggcatctttggggtggccacagttctctgtgacctg ctgctgcttcacatcctgcctaagaggcactactacaagcagaagaagttcaaatacgct gaggacatggggccaggggcgatctgtgctctccgatgtggcagtcagtaa >gi568815581r:3765907_3985687|GENSCAN_predicted_peptide_5|1366_aa MEAGSRGGAVAPGVLAFPAALEEARGAFPCMSAELHHWRLGRLERRVFHQQALGSVLSAS AREATQHQGRRSPALFPLLSSTSLKQNKTKQNITKHKYGIFATQEATKKGLGAKNVFLSG SSILDSGEMSTSGNSDSNTTPSCVPSTTPESQHEARECAELPLKPPGRDSSSRPSNSQHP IATLGMTTLTCPADPLGPLGLRWVCPPRRRGGLDGADGADGRAGGMEAAHLLPAADVLRH FSVTAEGGLSPAQVTGARERYGPNGKSLWELVLEQFEDLLVRILLLAALVSFVLAWFEEG EETTTAFVEPLVIMLILVANAIVGVWQERNAESAIEALKEYEPEMGKVIRSDRKGVQRIR ARDIVPGDIVEVAVGDKVPADLRLIEIKSTTLRVDQSILTGESVSVTKHTEAIPDPRAVN QDKKNMLFSGTNITSGKAVGVAVATGLHTELGKIRSQMAAVEPERTPLQRKLDEFGRQLS HAISVICVAVWVINIGHFADPAHGGSWLRGAVYYFKIAVALAVAAIPEGLPAVITTCLAL GTRRMARKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQMSVCRMFVVAEADAGSCLLHE FTISGTTYTPEGEVRQGDQPVRCGQFDGLVELATICALCNDSALDYNEAKGVYEKVGEAT ETALTCLVEKMNVFDTDLQALSRVERAGACNTVIKQLMRKEFTLEFSRDRKSMSVYCTPT RPHPTGQGSKMFVKGAPESVIERCSSVRVGSRTAPLTPTSREQILAKIRDWGSGSDTLRC LALATRDAPPRKEDMELDDCSKFVQYETDLTFVGCVGMLDPPRPEVAACITRCYQAGIRV VMITGDNKGTAVAICRRLGIFGDTEDVAGKAYTGREFDDLSPEQQRQACRTARCFARVEP AHKSRIVENLQSFNEITAMTGDGVNDAPALKKAEIGIAMGSGTAVAKSAAEMVLSDDNFA SIVAAVEEGRAIYSNMKQFIRYLISSNVGEVVCIFLTAILGLPEALIPVQLLWVNLVTDG LPATALGFNPPDLDIMEKLPRSPREALISGWLFFRYLAIGVYVGLATVAAATWWFVYDAE GPHINFYQLRNFLKCSEDNPLFAGIDCEVFESRFPTTMALSVLVTIEMCNALNSVSENQS LLRMPPWMNPWLLVAVAMSMALHFLILLVPPLPLIFQVTPLSGRQWVVVLQISLPVILLD EALKYLSRNHMHGFPVLSSGDVQSHTAARSATQRSNLPPASLVPETTDILRFLTVAPFYP AQCAAAALSAQLGASEPDPTLQSSQWWEGPRWGCVRRNGGTKSQQGGEGKLDMRTKAPEC PQRLHPAQASDIHEQMKDKQAAVRPRNREEPTTDARNCHPKPKPLG >gi568815581r:3765907_3985687|GENSCAN_predicted_CDS_5|4101_bp atggaggctggaagcaggggaggggctgtggccccaggggtcctggcgttcccggcagcc cttgaggaggccagaggtgcctttccgtgcatgagcgcagagctacatcactggcgctta ggacgcctggagcgacgcgtttttcaccaacaggccctgggctcagtgctgagcgcctcg gcccgcgaagccacacagcaccaggggaggcggagtccggctttattcccgttgctcagc tctacctccttgaaacaaaacaaaacaaaacaaaacataacaaaacacaagtatggaata tttgcaacccaggaagctacaaagaaaggcttaggggccaagaatgtgttcctctcaggg agttccatccttgactctggggaaatgagcacctctggcaattctgattcaaacacgaca ccaagctgtgttccttccaccactccagagtcgcagcatgaggcccgggaatgcgcagaa ttacccttgaaacctccaggaagagacagcagctcgaggcccagcaactcccagcaccca atagccactctgggaatgaccacgctcacctgccctgcagatcccctgggtccactgggc ctgcgctgggtgtgccccccccggcggagaggcggcctcgacggtgcggacggcgcagac ggccgggcgggcggcatggaggcggcgcatctgctcccggccgccgacgtgctgcgccac ttctcggtgacagccgagggcggcctgagcccggcgcaggtgaccggcgcgcgggagcgc tacggccccaacgggaagtccctgtgggagctggtgctggaacagtttgaggacctcctg gtgcgcatcctgctgctggctgcccttgtctcctttgtcctggcctggttcgaggagggc gaggagaccacgaccgccttcgtggagcccctggtcatcatgctgatcctcgtggccaac gccattgtgggcgtgtggcaggaacgcaacgccgagagtgccatcgaggccctgaaggag tatgagcctgagatgggcaaggtgatccgctcggaccgcaagggcgtgcagaggatccgt gcccgggacatcgtcccaggggacattgtagaagtggcagtgggggacaaagtgcctgct gacctccgcctcatcgagatcaagtccaccacgctgcgagtggaccagtccatcctgacg ggtgaatctgtgtccgtgaccaagcacacagaggccatcccagaccccagagctgtgaac caggacaagaagaacatgctgttttctggcaccaatatcacatcgggcaaagcggtgggt gtggccgtggccaccggcctgcacacggagctgggcaagatccggagccagatggcggca gtcgagcccgagcggacgccgctgcagcgcaagctggacgagtttggacggcagctgtcc cacgccatctctgtgatctgcgtggccgtgtgggtcatcaacatcggccacttcgccgac ccggcccacggtggctcctggctgcgtggcgctgtctactacttcaagatcgccgtggcc ctggcggtggcggccatccccgagggcctcccggctgtcatcactacatgcctggcactg ggcacgcggcgcatggcacgcaagaacgccatcgtgcgaagcctgccgtccgtggagacc ctgggctgcacctcagtcatctgctccgacaagacgggcacgctcaccaccaatcagatg tctgtctgccggatgttcgtggtagccgaggccgatgcgggctcctgccttttgcacgag ttcaccatctcgggtaccacgtatacccccgagggcgaagtgcggcagggggatcagcct gtgcgctgcggccagttcgacgggctggtggagctggcgaccatctgcgccctgtgcaac gactcggctctggactacaacgaggccaagggtgtgtatgagaaggtgggagaggccacg gagacagctctgacttgcctggtggagaagatgaacgtgttcgacaccgacctgcaggct ctgtcccgggtggagcgagctggcgcctgtaacacggtcatcaagcagctgatgcggaag gagttcaccctggagttctcccgagaccggaaatccatgtccgtgtactgcacgcccacc cgccctcaccctactggccagggcagcaagatgtttgtgaagggggctcctgagagtgtg atcgagcgctgtagctcagtccgcgtggggagccgcacagcacccctgacccccacctcc agggagcagatcctggcaaagatccgggattggggctcaggctcagacacgctgcgctgc ctggcactggccacccgggacgcgcccccaaggaaggaggacatggagctggacgactgc agcaagtttgtgcagtacgagacggacctgaccttcgtgggctgcgtaggcatgctggac ccgccgcgacctgaggtggctgcctgcatcacacgctgctaccaggcgggcatccgcgtg gtcatgatcacgggggataacaaaggcactgccgtggccatctgccgcaggcttggcatc tttggggacacggaagacgtggcgggcaaggcctacacgggccgcgagtttgatgacctc agccccgagcagcagcgccaggcctgccgcaccgcccgctgcttcgcccgcgtggagccc gcacacaagtcccgcatcgtggagaacctgcagtcctttaacgagatcactgctatgact ggcgatggagtgaacgacgcaccagccctgaagaaagcagagatcggcatcgccatgggc tcaggcacggccgtggccaagtcggcggcagagatggtgctgtcagatgacaactttgcc tccatcgtggctgcggtggaggagggccgggccatctacagcaacatgaagcaattcatc cgctacctcatctcctccaatgttggcgaggtcgtctgcatcttcctcacggcaattctg ggcctgcccgaagccctgatccctgtgcagctgctctgggtgaacctggtgacagacggc ctacctgccacggctctgggcttcaacccgccagacctggacatcatggagaagctgccc cggagcccccgagaagccctcatcagtggctggctcttcttccgatacctggctatcgga gtgtacgtaggcctggccacagtggctgccgccacctggtggtttgtgtatgacgccgag ggacctcacatcaacttctaccagctgaggaacttcctgaagtgctccgaagacaacccg ctctttgccggcatcgactgtgaggtgttcgagtcacgcttccccaccaccatggccttg tccgtgctcgtgaccattgaaatgtgcaatgccctcaacagcgtctcggagaaccagtcg ctgctgcggatgccgccctggatgaacccctggctgctggtggctgtggccatgtccatg gccctgcacttcctcatcctgctcgtgccgcccctgcctctcattttccaggtgacccca ctgagcgggcgccagtgggtggtggtgctccagatatctctgcctgtcatcctgctggat gaggccctcaagtacctgtcccggaaccacatgcacgggttccccgtcctgagctcggga gatgttcagagtcacactgccgcccggtctgccacgcagaggtccaacttgccacccgcg tccctggtacctgagaccaccgacatcctcaggttcctgaccgtggcgcccttctaccca gcccagtgtgcggccgccgcgctgtctgcacagctgggggcctctgagcctgaccccacg ctccagtcctcacagtggtgggagggaccccggtggggctgtgttaggagaaatggaggc acaaaatcacagcagggaggagaagggaagctggacatgcgcacaaaggcccccgagtgt ccacagcggcttcacccagcacaggcctcagatatccatgaacagatgaaggataagcaa gctgcagtacgtccacgcaaccgagaggaaccaaccactgatgcacgcaactgccacccg aagcctaaaccgctgggctga