GENSCAN 1.0 Date run: 5-Nov-116 Time: 18:25:26 Sequence gi568815581r:44272367_44489473 : 217107 bp : 47.77% C+G : Isochore 2 (43 - 51 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.00 Prom + 11841 11880 40 -2.56 1.01 Init + 36494 36573 80 1 2 110 80 154 0.968 17.33 1.02 Intr + 40214 40329 116 2 2 87 86 196 0.999 19.39 1.03 Intr + 40753 40886 134 2 2 72 100 191 0.595 19.06 1.04 Intr + 40971 41137 167 2 2 69 71 116 0.959 6.76 1.05 Intr + 42369 42458 90 0 0 121 75 251 0.999 26.21 1.06 Intr + 42563 42643 81 2 0 79 83 122 0.999 9.55 1.07 Intr + 42789 42954 166 0 1 73 91 465 0.999 45.26 1.08 Intr + 43086 43243 158 2 2 47 42 401 0.999 30.21 1.09 Intr + 44019 44156 138 0 0 121 99 144 0.999 18.38 1.10 Intr + 44253 44359 107 0 2 70 97 141 0.995 13.06 1.11 Term + 45730 45872 143 2 2 107 55 158 0.985 12.49 1.12 PlyA + 46285 46290 6 1.05 2.11 PlyA - 46751 46746 6 -0.45 2.10 Term - 47750 47635 116 0 2 135 48 176 0.999 17.03 2.09 Intr - 47910 47830 81 1 0 89 82 123 0.983 11.41 2.08 Intr - 48070 47989 82 1 1 70 78 34 0.995 -0.19 2.07 Intr - 48383 48256 128 0 2 73 113 102 0.798 11.60 2.06 Intr - 48865 48692 174 2 0 52 96 120 0.994 9.11 2.05 Intr - 49192 49068 125 0 2 88 52 165 0.999 13.13 2.04 Intr - 49401 49334 68 0 2 41 76 62 0.924 -2.00 2.03 Intr - 50162 50053 110 0 2 113 77 81 0.594 9.50 2.02 Intr - 50977 50918 60 2 0 77 101 124 0.991 11.31 2.01 Init - 51196 51112 85 1 1 81 52 82 0.979 3.08 2.00 Prom - 58448 58409 40 -5.76 3.00 Prom + 60610 60649 40 -5.66 3.01 Init + 76799 76936 138 1 0 65 105 147 0.941 12.24 3.02 Intr + 77060 77185 126 1 0 113 83 -10 0.565 1.88 3.03 Intr + 77777 77974 198 1 0 28 87 101 0.241 3.55 3.04 Intr + 78076 78211 136 0 1 -1 94 99 0.984 1.74 3.05 Intr + 78325 78434 110 2 2 98 92 101 0.964 11.50 3.06 Intr + 78671 78797 127 1 1 63 81 98 0.958 6.85 3.07 Intr + 78997 79094 98 2 2 120 80 72 0.982 9.33 3.08 Intr + 79184 79429 246 1 0 117 61 71 0.873 4.96 3.09 Intr + 79649 79882 234 1 0 77 84 130 0.663 9.39 3.10 Intr + 79975 80205 231 0 0 101 82 329 0.923 31.57 3.11 Term + 80295 80432 138 2 0 70 55 44 0.907 -2.74 3.12 PlyA + 80717 80722 6 1.05 4.10 PlyA - 80867 80862 6 -3.44 4.09 Term - 82825 81367 1459 0 1 129 43 2263 0.985 216.08 4.08 Intr - 83475 83349 127 1 1 54 105 259 0.999 23.94 4.07 Intr - 83708 83592 117 0 0 97 99 162 0.999 18.64 4.06 Intr - 83986 83807 180 2 0 107 103 182 0.999 21.44 4.05 Intr - 84222 84064 159 1 0 117 96 91 0.999 12.76 4.04 Intr - 87305 87213 93 0 0 74 107 173 0.999 17.74 4.03 Intr - 87766 87539 228 2 0 114 76 274 0.998 26.64 4.02 Intr - 90381 90346 36 1 0 85 94 23 0.526 0.83 4.01 Init - 91348 91231 118 1 1 95 96 263 0.999 26.16 4.00 Prom - 91985 91946 40 -10.94 5.02 PlyA - 92196 92191 6 -0.45 5.01 Sngl - 92932 92648 285 1 0 86 41 244 0.989 15.04 5.00 Prom - 95736 95697 40 -5.36 6.38 PlyA - 96168 96163 6 1.05 6.37 Term - 100057 99998 60 1 0 116 45 138 0.998 10.10 6.36 Intr - 102104 101988 117 2 0 54 100 104 0.995 8.86 6.35 Intr - 102394 102293 102 1 0 42 109 58 0.883 3.67 6.34 Intr - 102745 102632 114 1 0 72 75 164 0.935 14.14 6.33 Intr - 103350 103225 126 0 0 135 41 67 0.965 7.58 6.32 Intr - 103619 103467 153 2 0 70 116 130 0.995 14.27 6.31 Intr - 103818 103689 130 2 1 65 72 107 0.568 7.50 6.30 Intr - 104022 103942 81 2 0 116 76 160 0.999 16.35 6.29 Intr - 104722 104643 80 1 2 102 69 56 0.999 3.45 6.28 Intr - 105424 105332 93 1 0 43 94 81 0.925 4.36 6.27 Intr - 106143 105996 148 2 1 136 64 280 0.999 30.64 6.26 Intr - 106344 106277 68 0 2 86 39 52 0.997 -2.20 6.25 Intr - 107448 107323 126 0 0 50 91 117 0.997 9.08 6.24 Intr - 107787 107636 152 1 2 76 27 202 0.999 12.78 6.23 Intr - 107935 107880 56 0 2 95 73 33 0.983 1.12 6.22 Intr - 108124 108020 105 0 0 44 81 64 0.597 0.63 6.21 Intr - 108279 108234 46 1 1 67 99 72 0.985 3.67 6.20 Intr - 108695 108513 183 0 0 103 49 140 0.365 11.36 6.19 Intr - 111338 111127 212 1 2 75 77 190 0.980 15.16 6.18 Intr - 111580 111528 53 1 2 111 68 69 0.994 4.91 6.17 Intr - 111772 111719 54 1 0 88 75 77 0.753 5.58 6.16 Intr - 112710 112526 185 1 2 103 49 171 0.807 14.21 6.15 Intr - 112857 112798 60 1 0 93 84 14 0.490 0.21 6.14 Intr - 112969 112916 54 2 0 152 13 87 0.828 6.55 6.13 Intr - 113350 113185 166 1 1 64 57 120 0.620 6.03 6.12 Intr - 113555 113446 110 0 2 130 34 115 0.795 10.30 6.11 Intr - 113765 113644 122 1 2 41 75 177 0.773 11.84 6.10 Intr - 117022 116920 103 2 1 76 83 179 0.037 15.43 6.09 Intr - 125374 125206 169 1 1 41 94 144 0.923 9.82 6.08 Intr - 129087 125499 3589 2 1 25 57 2245 0.806 202.50 6.07 Intr - 133685 133555 131 2 2 69 77 171 0.744 13.59 6.06 Intr - 134357 134289 69 2 0 100 93 43 0.907 5.38 6.05 Intr - 152126 151983 144 2 0 22 109 144 0.980 10.38 6.04 Intr - 162785 162699 87 2 0 28 63 127 0.783 4.37 6.03 Intr - 164179 164112 68 2 2 92 84 79 0.732 6.52 6.02 Intr - 192178 192106 73 1 1 77 110 -4 0.071 -0.32 6.01 Intr - 202537 202463 75 1 0 82 103 63 0.749 6.91 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 65163 65276 114 2 0 23 48 173 0.876 5.37 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581r:44272367_44489473|GENSCAN_predicted_peptide_1|459_aa MALGLSSKKASSRNVAVERKNLITVCRFSVKTLLEKYTAEPIDDSSEEFVNFAAILEQIL SHRFKGPVSWFSSDGQRGFWDYIRLACSKVPNNCVSSIENMENISTARAKPRGEGPTPDA GHMSPSGAASKGEHDFQGRAWIRVALMEKRMSEYITTALRDTRTTRRFYDSGAIMLRDEA TILTGMLIGLSAIDFSFCLKGEVLDGKTPVVIDYTPYLKFTQSYDYLTDEEERHSAESST SEDNSPEHPYLPLVTDEDSWYSKWHKMEQKFRIVYAQKGYLEELVRLRESQLKDLEAENR RLQLQLEEAAAQNQREKRELEGVILELQEQLTGLIPSDHAPLAQGSKELTTPLVNQWPSL GTLNGAEGASNSKLYRRHSFMSTEPLSAEASLSSDSQRLGEGTRDEEPWGPIGKDPTPSM LGLCGSLASIPSCKSLASFKSNECLVSDSPEGSPALSPS >gi568815581r:44272367_44489473|GENSCAN_predicted_CDS_1|1380_bp atggctctggggctgtcctccaagaaagcgtcctctcgcaacgtggctgtggagcgtaag aacctgatcaccgtgtgcaggttctctgtgaaaacgctgctggagaagtacacagcggag cccatcgatgactcatcggaggagtttgtcaattttgcagccattttagagcagatcctc agccaccgcttcaaaggtccagtgagctggttcagctcagacgggcagcggggcttttgg gactatatccggctggcctgcagcaaagtgcccaacaactgtgtgagcagcatcgagaac atggagaacatcagcacagcccgggccaagcccaggggagaagggcccacacctgatgct ggacacatgagtccctctggggcagcaagtaaaggtgaacatgatttccagggccgggca tggatccgggtggcactgatggagaagcgcatgtcagaatacatcaccacggctctgcgt gacacccggaccaccagacggttctatgactctggagccatcatgctgcgggatgaagcc accatcctcaccggaatgctgatcggactgagcgccatcgacttcagcttctgtctaaag ggggaagtcctggacgggaagacccccgtggtcatcgattacacgccctacctaaagttc acgcagagctacgactacctgacggacgaggaggagcggcacagcgccgagagcagcacg agcgaggacaactcgcccgagcacccgtacctcccgctcgtcaccgatgaggacagctgg tacagcaagtggcacaagatggagcagaagttccgcatcgtctacgcgcagaagggctac ctggaggagctggtgcgtctgcgcgagtcgcagctgaaggacctggaggcggagaaccgg cggcttcagctgcagctggaggaggcggcggcgcagaaccagcgcgagaaacgggagctg gaaggcgtgatcctggagctgcaggagcagctgacaggtctgatccccagtgaccacgcc cctctggcccagggttccaaggagctcactacacccctggtcaatcaatggccctcactg ggaacgcttaatggggccgagggcgccagcaactccaagctctaccggagacacagcttc atgagcacggagccgctgtcagctgaagccagtctgagctcggactcccagcgcctggga gagggcacgcgggacgaggagccctggggtcccatcgggaaggaccccacgccctccatg ctgggcctctgcggctccctggcctccattcccagctgcaagtccctggcgagcttcaaa tccaacgagtgcctggtgagcgacagtcccgagggcagcccagcactgagccccagctga >gi568815581r:44272367_44489473|GENSCAN_predicted_peptide_2|342_aa MADQDPAGISPLQQMVASGTGAVVTSLFMTPLDVVKVRLQSQRPSMASGKCLLYCNGVLE PLYLCPNGARCATWFQDPTRFTGTMDAFVKIVRHEGTRTLWSGLPATLVMTVPATAIYFT AYDQLKAFLCGRALTSDLYAPMVAGALARLGTVTVISPLELMRTKLQAQHVSYRELGACV RTAVAQGGWRSLWLGWGPTALRDVPFSVHPPPQALYWFNYELVKSWLNGFRPKDQTSVGM SFVAGGISGTVAAVLTLPFDVVKTQRQVALGAMEAVRVNPLHVDSTWLLLRRIRAESGTK GLFAGFLPRIIKAAPSCAIMISTYEFGKSFFQRLNQDRLLGG >gi568815581r:44272367_44489473|GENSCAN_predicted_CDS_2|1029_bp atggctgaccaggaccctgcgggcatcagccccctccagcaaatggtggcctcaggcacc ggggctgtggttacctctctcttcatgacacccctggacgtggtgaaggttcgcctgcag tctcagcggccctccatggccagcgggaagtgcctcctgtattgcaatggtgtcctggag cctctgtacctgtgcccaaatggtgcccgctgtgccacctggtttcaagaccctacccgc ttcactggcaccatggatgccttcgtgaagatcgtgaggcacgagggcaccaggaccctc tggagcggcctccccgccaccctggtgatgactgtgccagctaccgccatctacttcact gcctatgaccaactgaaggccttcctgtgtggtcgagccctgacctctgacctctacgca cccatggtggctggcgcgctggcccgcctgggcaccgtgactgtgatcagccccctggag cttatgcggacaaagctgcaggctcagcatgtgtcgtaccgggagctgggtgcctgtgtt cgaactgcagtggctcagggtggctggcgctcactgtggctgggctggggccccactgcc cttcgagatgtgcccttctcagtgcatcccccaccccaagccctgtactggttcaactat gagctggtgaagagctggctcaatgggttcaggccgaaggaccagacttctgtgggcatg agctttgtggctggtggcatctcagggacggtggctgcagtgctgactctaccctttgac gtggtaaagacccaacgccaggtcgctctgggagcgatggaggctgtgagagtgaacccc ctgcatgtggactccacctggctgctgctgcggaggatccgggccgagtcgggcaccaag ggactctttgcaggcttccttcctcggatcatcaaggctgccccctcctgtgccatcatg atcagcacctatgagttcggcaaaagcttcttccagaggctgaaccaggaccggcttctg ggcggctga >gi568815581r:44272367_44489473|GENSCAN_predicted_peptide_3|593_aa MWTLVSWVALTAGLVAGTRCPDGQFCPVACCLDPGGASYSCCRPLLDKWPTTLSRHLGGP CQVDAHCSAGHSCIFTVSGTSSCCPFPEALVPPAPCVMGESPSLSGLVVSWVILSTGNNS VGAIQCPDSQFECPDFSTCCVMVDGSWGCCPMPQASCCEDRVHCCPHGAFCDLVHTRCIT PTGTHPLAKKLPAQRTNRAVALSSSVMCPDARSRCPDGSTCCELPSGKYGCCPMPNATCC SDHLHCCPQDTVCDLIQSKCLSKENATTDLLTKLPAHTVGDVKCDMEVSCPDGYTCCRLQ SGAWGCCPFTQAVCCEDHIHCCPAGFTCDTQKGTCEQGPHQVPWMEKAPAHLSLPDPQAL KRDVPCDNVSSCPSSDTCCQLTSGEWGCCPIPEAVCCSDHQHCCPQGYTCVAEGQCQRGS EIVAGLEKMPARRASLSHPRDIGCDQHTSCPVGQTCCPSLGGSWACCQLPHAVCCEDRQH CCPAGYTCNVKARSCEKEVVSAQPATFLARSPHVGVKDVECGEGHFCHDNQTCCRDNRQG WACCPYRQGVCCADRRHCCPAGFRCAARGTKCLRREAPRWDAPLRDPALRQLL >gi568815581r:44272367_44489473|GENSCAN_predicted_CDS_3|1782_bp atgtggaccctggtgagctgggtggccttaacagcagggctggtggctggaacgcggtgc ccagatggtcagttctgccctgtggcctgctgcctggaccccggaggagccagctacagc tgctgccgtccccttctggacaaatggcccacaacactgagcaggcatctgggtggcccc tgccaggttgatgcccactgctctgccggccactcctgcatctttaccgtctcagggact tccagttgctgccccttcccagaggccctggtgccaccagctccttgtgtgatgggggag tcaccttccctgagtgggctggtagtatcctgggtcatcttgtccacaggtaacaactcc gtgggtgccatccagtgccctgatagtcagttcgaatgcccggacttctccacgtgctgt gttatggtcgatggctcctgggggtgctgccccatgccccaggcttcctgctgtgaagac agggtgcactgctgtccgcacggtgccttctgcgacctggttcacacccgctgcatcaca cccacgggcacccaccccctggcaaagaagctccctgcccagaggactaacagggcagtg gccttgtccagctcggtcatgtgtccggacgcacggtcccggtgccctgatggttctacc tgctgtgagctgcccagtgggaagtatggctgctgcccaatgcccaacgccacctgctgc tccgatcacctgcactgctgcccccaagacactgtgtgtgacctgatccagagtaagtgc ctctccaaggagaacgctaccacggacctcctcactaagctgcctgcgcacacagtgggg gatgtgaaatgtgacatggaggtgagctgcccagatggctatacctgctgccgtctacag tcgggggcctggggctgctgcccttttacccaggctgtgtgctgtgaggaccacatacac tgctgtcccgcggggtttacgtgtgacacgcagaagggtacctgtgaacaggggccccac caggtgccctggatggagaaggccccagctcacctcagcctgccagacccacaagccttg aagagagatgtcccctgtgataatgtcagcagctgtccctcctccgatacctgctgccaa ctcacgtctggggagtggggctgctgtccaatcccagaggctgtctgctgctcggaccac cagcactgctgcccccagggctacacgtgtgtagctgaggggcagtgtcagcgaggaagc gagatcgtggctggactggagaagatgcctgcccgccgggcttccttatcccaccccaga gacatcggctgtgaccagcacaccagctgcccggtggggcagacctgctgcccgagcctg ggtgggagctgggcctgctgccagttgccccatgctgtgtgctgcgaggatcgccagcac tgctgcccggctggctacacctgcaacgtgaaggctcgatcctgcgagaaggaagtggtc tctgcccagcctgccaccttcctggcccgtagccctcacgtgggtgtgaaggacgtggag tgtggggaaggacacttctgccatgataaccagacctgctgccgagacaaccgacagggc tgggcctgctgtccctaccgccagggcgtctgttgtgctgatcggcgccactgctgtcct gctggcttccgctgcgcagccaggggtaccaagtgtttgcgcagggaggccccgcgctgg gacgcccctttgagggacccagccttgagacagctgctgtga >gi568815581r:44272367_44489473|GENSCAN_predicted_peptide_4|838_aa MPPASGPSVLARLLPLLGLLLGSASRAPGKSPPEPPSPQVEETLPSDSPGAEILIKVQVY VSGELVPLARASVDVFGNRTLLAAGTTDSEGVATLPLSYRLGTWVLVTAARPGFLTNSVP WRVDKLPLYASVSLYLLPERPATLILYEDLVHILLGSPGARSQPLVQFQRRAARLPVSST YSQLWASLTPASTQQEMRAFPAFLGTEASSSGNGSWLELMPLTAVSVHLLTGNGTEVPLS GPIHLSLPVPSETRALTVGTSIPAWRFDPKSGLWVRNGTGVIRKEGRQLYWTFVSPQLGY WVAAMASPTAGLVTITSGIQDIGTYHTIFLLTILAALALLVLILLCLLIYYCRRRCLKPR QQHRKLQLSGPSDGNKRDQATSMSQLHLICGGPLEPAPSGDPEAPPPGPLHSAFSSSRDL ASSRDDFFRTKPRSASRPAAEPSGARGGESAGLKGARSAEGPGGLEPGLEEHRRGPSGAA AFLHEPPSPPPPFDHYLGHKGAAEGKTPDFLLSQSVDQLARPPSLGQAGQLIFCGSIDHL KDNVYRNVMPTLVIPAHYVRLGGEAGAAGVGDEPAPPEGTAPGPARAFPQPDPQRPQMPG HSGPGGEGGGGGGEGWGAGRAAPVSGSVTIPVLFNESTMAQLNGELQALTEKKLLELGVK PHPRAWFVSLDGRSNSQVRHSYIDLQAGGGARSTDASLDSGVDVHEARPARRRPAREERE RAPPAAPPPPPAPPRLALSEDTEPSSSESRTGLCSPEDNSLTPLLDEVAAPEGRAATVPR GRGRSRGDSSRSSASELRRDSLTSPEDELGAEVGDEAGDKKSPWQRREERPLMVFNVK >gi568815581r:44272367_44489473|GENSCAN_predicted_CDS_4|2517_bp atgccgccggcgagtggccccagcgtcctcgcgcggctgttgccgctgctggggctgctg ctcggcagcgcctcccgggctcccggcaagtcgccgccggagccccccagcccgcaggtg gaggagacccttcccagcgactcaccgggcgcagagatcctgatcaaggtgcaggtgtat gtgagcggggagctggtgcccctggcccgggcctcagtggatgtgtttgggaaccggact ctgctggcagctggcaccacagactcagagggtgtggccaccctgcccctcagttatcgc ttgggcacctgggtgctggtcactgctgcccgccctggcttcctcaccaactctgtgccc tggcgtgttgacaagctgcccttgtatgcgtctgtcagcctctacctgctccctgagcgg ccggccacgctcatcctctatgaggacctggtgcacattctcctaggctctcccggtgcc cgctcccagcccttggtgcagttccagcgccgggctgcccgcctgcctgtcagctccacc tacagccagctctgggcgtcacttacgcctgccagcacccagcaggaaatgcgggctttc cctgccttcctgggcactgaggcctccagctcaggcaatggctcctggctggagctgatg cccctgactgctgtgagcgtgcacctgctgacaggtaatgggacagaggtgccgctctca ggccccattcacctgtccctgcccgtgccctccgagactcgtgccctcaccgtgggcacc agcattccagcctggagatttgaccccaagagtgggctgtgggtgcgcaatggcactggt gtaatccggaaggaaggccggcagctctactggaccttcgtctccccccagctggggtac tgggtggccgccatggcctcccccacggctgggctggtcaccatcacgtcgggcatccag gacatcggcacctaccacaccatcttcttgctcaccatcctggcagccctggccctgctg gtgcttatcctgctgtgtctgctcatctactactgccggaggcgctgcctgaagccgagg caacagcaccgcaagctgcagctctcggggccctctgacggtaacaaacgagaccaggcc acctcgatgtcccagctccacctcatctgtgggggacccctggaacccgccccgtcgggg gaccccgaggctccgcctccaggccccctccactcggccttctccagctcccgggacttg gcctcctcccgggatgacttcttccgcaccaagccgcgctctgccagccgcccggccgcc gagccttcgggtgcccgcgggggcgagagcgccgggctcaagggcgctcgctcggccgag ggccccggcgggctggagcccggcctagaggagcaccggcgggggccctcgggggctgcg gccttcctgcacgagccgccctcgccgccgccgcccttcgaccactacctgggccacaag ggggcggccgagggcaagacccccgacttcctgctgtcgcagtcggtggaccagctggcg cggccgccgtcgctgggccaggcggggcagctcatcttctgcggctccatcgaccacctc aaggacaacgtctaccgcaacgtcatgcccaccctggtgatccccgcgcactacgtgcgc ctcggcggcgaggcgggcgccgccggcgtgggcgacgagccggccccgccggagggcacg gcacccggcccggcgcgcgcttttccccagcccgacccccagcgcccgcagatgccgggc cactcgggcccggggggcgagggcggcgggggcggcggcgagggctggggggccgggcgc gcggcgcccgtcagtggctcagtcaccatccctgtgctattcaacgagtccaccatggcg cagctcaacggggagctgcaggccctgaccgagaagaagctgctggaactgggcgtgaag ccgcacccgcgcgcctggttcgtgtccctcgacgggcgctccaactcgcaagtgcgccac tcttacatcgacctgcaggcgggcggcggggcacgcagcaccgacgccagcctggactcg ggcgtagatgtccacgaggcgcggcccgcgcgccgccggcccgcgagggaggagcgggag cgcgccccgcctgccgcgccgccgccgccgcccgcgcccccgcgcctggcgctcagcgag gacacggagcccagcagcagcgagagccgcacgggcctctgctctccggaggacaactcg ctgacgccgctgctggacgaggtggcggcgcccgagggccgggcggccacggtaccccgg gggcggggccgcagccgcggggacagctcccgcagcagcgccagcgagctgcggcgcgac tcgctcaccagcccggaggacgagctgggggcggaggtgggcgacgaggcgggagacaag aagagcccgtggcagcggcgggaggagcggccgctgatggtgttcaacgtcaagtag >gi568815581r:44272367_44489473|GENSCAN_predicted_peptide_5|94_aa MDKPRSGIRNKTIPLTDNTVIEKHLGKFGVVCLEDLSHEIAVPGKHFQEVSWLLRPFYLS VARHATKNTVGFLKEMGTPGYQGERISQLIRQLN >gi568815581r:44272367_44489473|GENSCAN_predicted_CDS_5|285_bp atggacaagccaaggtcaggaataaggaataagaccattcctctgacagacaacacagtg attgagaagcacctggggaagtttggtgtcgtttgcttggaagacctcagtcatgaaatt gccgtcccagggaagcatttccaggaggtctcatggttgttacgccctttctacctctca gtggcccgtcatgctaccaaaaatacagtgggcttcctcaaggagatgggcacacctggc tatcagggtgaacgcatcagtcagctcatccgccagctgaactag >gi568815581r:44272367_44489473|GENSCAN_predicted_peptide_6|2487_aa GNHFDQYEEGHLEIEQASLDKPIESDNIGHRLLQKHGWKLGQGLGKSLQGRTDPIPIVVK YDVMGMGRMEMELDYAEDATERRRVLEVEKEDTEELRQKYKDYVDKEKAIAKALEDLRAN FYCELCDKQYQKHQEFDNHINSYDHAHKQGHEGMQSLTYYFQQADQIKVVRLRLKDLKQR EFARNVSSRSRKDEKKQEKALRRLHELAEQRKQAECAPGSGPMFKPTTVAVDEEGGEDDK DESATNSGTGATASCGLGSEFSTDKGGPFTAVQITNTTGLAQAPGLASQGISFGIKNNLG TPLQKLGVSFSFAKKAPVKLESIASVFKDHAEEGTSEDGTKPDEKSSDQGLQKVGDSDGS SNLDGKKEDEDPQDGGSLASTLSKLKRMKREEGAGATEPEYYHYIPPAHCKVKPNFPFLL FMRASEQMDGDNTTHPKNAPESKKGSSPKPKSCIKAAASQGAEKTVSEVSEQPKETSMTE PSEPGSKAEAKKALGGDVSDQSLESHSQKVSETQMCESNSSKETSLATPAGKESQEGPKH PTGPFFPVLSKDESTALQWPSELLIFTKAEPSISYSCNPLYFDFKLSRNKDARTKGTEKP KDIGSSSKDHLQGLDPGEPNKSKEVGGEKIVRSSGGRMDAPASGSACSGLNKQEPGGSHG SETEDTGRSLPSKKERSGKSHRHKKKKKHKKSSKHKRKHKADTEEKSSKAESGEKSKKRK KRKRKKNKSSAPADSERGPKPEPPGSGSPAPPRRRRRAQDDSQRRSLPAEEGSSGKKDEG GGGSSSQDHGGRKHKGELPPSSCQRRAGTKRSSRSSHRSQPSSGDEDSDDASSHRLHQKS PSQYSEEEEEEDSGSEHSRSRSRSGRRHSSHRSSRRSYSSSSDASSDQSCYSRQRSYSDD SYSDYSDRSRRHSKRSHDSDDSDYASSKHRSKRHKYSSSDDDYSLSCSQSRSRSRSHTRE RSRSRGRSRSSSCSRSRSKRRSRSTTAHSWQRSRSYSRDRSRSTRSPSQRSGSRKRSWGH ESPEERHSGRRDFIRSKIYRSQSPHYFRSGRGEGPGKKDDGRGDDSKATGPPSQNSNIGT GRGSEGDCSPEDKNSVTAKLLLEKIQSRKVERKPSVSEEVQATPNKAGPKLKDPPQGYFG PKLPPSLGNKPVLPLIGKLPATRKPNKKCEESGLERGEEQEQSETEEGPPGSSDALFGHQ FPSEETTGPLLDPPPEESKSGEATADHPVAPLGTPAHSDCYPGDPTISHNYLPDPSDGDT LESLDSSSQPGPVESSLLPIAPDLEHFPSYAPPSGDPSIESTDGAEDASLAPLESQPITF TPEEMEKYSKLQQAAQQHIQQQLLAKQVKAFPASAALAPATPALQPIHIQQPATASATSI TTVQHAILQHHAAAAAAAIGIHPHPHPQPLAQPSILGPSPFTLSHMLPSTPPYLLHGLLQ QLPLHFTFTHYFTPSSQVRTCNIPPAMAPWALNLDPVQLTFYAGPNGSQFGFSLDFHKDS HGRVAIVVGAPRTLGPSQEETGGVFLCPWRAEGGQCPSLLFDLRDETRNVGSQTLQTFKA RQGLGASVVSWSDVIVVGPAACAPWQHWNVLEKTEEAEKTPVGSCFLAQPESGRRAEYSP CRGNTLSRIYVENDFSWDKRYCEAGFSSVVTQARLPFQAGELVLGAPGGYYFLGLLAQAP VADIFSSYRPGILLWHVSSQSLSFDSSNPEYFDGYWGNTAIPDFQHPEGHRPPQTVEILD SYYQRLHRLRGEQMASYFGHSVAVTDVNGDGRHDLLVGAPLYMESRADRKLAEVGRVYLF LQPRGPHALGAPSLLLTGTQLYGRFGSAIAPLGDLDRDGYNDIAVAAPYGGPSGRGQVLV FLGQSEGLRSRPSQVLDSPFPTGSAFGFSLRGAVDIDDNGYPDLIVGAYGANQVAVYRAQ PVVKASVQLLVQDSLNPAVKSCVLPQTKTPVSCFNIQMCVGATGHNIPQKLSLNAELQLD RQKPRQGRRVLLLGSQQAGTTLNLDLGGKHSPICHTTMAFLRDEADFRDKLSPIVLSLNV SLPPTEAGMAPAVVLHGDTHVQEQTRIVLDCGEDDVCVPQLQLTASVTGSPLLVGADNVL ELQMDAANEGEGAYEAELAVHLPQGAHYMRALSNVEGFERLICNQKKENETRVVLCELGN PMKKNAQIGIAMLVSVGNLEEAGESVSFQLQIRSKNSQNPNSKIVLLDVPVRAEAQVELR GNSFPASLVVAAEEGEREQNSLDSWGPKVEHTYEVLGSLASLAGLHNNGPGTVNGLHLSI HLPGQSQPSDLLYILDIQPQGGLQCFPQPPVNPLKVDWGLPIPSPSPIHPAHHKRDRRQI FLPEPEQPSRLQDPVLVSCDSAPCTVVQCDLQEMARGQRAMVTVLAFLWLPSLYQRPLDQ FVLQSHAWFNVSSLPYAVPPLSLPRGEAQVWTQLLRALEERAIPIWWVLVGVLGGLLLLT ILVLAMWKVGFFKRNRPPLEEDDEEGE >gi568815581r:44272367_44489473|GENSCAN_predicted_CDS_6|7464_bp ggtaatcactttgatcagtatgaggaaggacacttggaaattgaacaagcgtcacttgac aagcctatagaatcggataatattggacaccgcttactccagaaacatgggtggaagctg ggccagggattgggaaaatctcttcaggggagaacagatcccattccaatcgttgtcaag tatgatgtcatgggcatgggtcgcatggaaatggagcttgattatgctgaagatgctacc gaacggcgccgtgtcctagaagtagaaaaagaagacacagaagagctgagacaaaagtac aaggattatgttgacaaagagaaggcaattgccaaagccttggaagacctcagagccaac ttttattgtgaactgtgtgataagcaatatcagaaacatcaggaatttgataaccatatc aactcctatgatcatgcacacaagcagggccatgaaggaatgcaaagcctcacatactac tttcagcaggctgaccagataaaagtggtcagactgagattaaaagatctgaagcagaga gagtttgctcgaaatgtctcttcaagatcccgcaaggatgagaaaaaacaggaaaaagcc cttcggcggctccatgagttggcagagcaaagaaaacaagctgaatgtgcacctggaagt ggtcccatgttcaaaccaaccacagtggctgtagatgaagaaggtggagaagatgataaa gatgaatcagctacaaatagtggcacaggtgccactgcttcttgtggcctgggatctgaa ttctccacagataaaggaggccctttcactgcagtacaaatcactaataccactggactg gcccaggctcctgggttagcctcccaaggcatcagctttggcattaagaataatctgggg accccattgcaaaaattgggagtgtcattttcttttgccaaaaaggctcctgtcaaactc gaatcaatagcatcagttttcaaggaccatgcggaggaagggacctctgaagatggaaca aaacccgatgagaagagttctgaccaaggactgcagaaggtaggagactctgatgggagc agtaatcttgatggtaaaaaagaggatgaagaccctcaggatggagggtcccttgcctca acattatccaaattaaaaaggatgaaacgagaagaaggagctggggctacagagcctgag tattaccactacatccccccagcacactgcaaagtaaaacctaattttccctttctactt tttatgagagccagtgaacaaatggatggtgataatactacacacccaaagaatgcccca gagagtaaaaaaggcagttctcccaagcctaaaagctgcatcaaggcggcagcaagccaa ggagcagaaaagacagttagtgaagtctctgagcagccgaaggaaaccagcatgaccgag ccctcagaaccaggaagcaaagctgaggcaaagaaggccttaggaggggatgtaagtgat cagagtttagaaagtcatagtcagaaggtttcagagacccaaatgtgtgagtccaactct tctaaagaaacctctctggccaccccagcagggaaagaaagccaagaaggacccaaacat cctactggtcccttcttcccagttttgagcaaagatgaaagcactgccctccagtggcca tcagaactattaattttcaccaaggcagaaccctccatttcatacagttgtaacccttta tattttgactttaaactttcaaggaacaaagatgccagaactaaaggaacagaaaaacca aaggatataggaagctcctcaaaggaccatctccaaggcctagatcctggtgagccaaat aaaagcaaggaagtgggcggagagaaaatagtacgttcctcaggaggcagaatggacgca cctgcttcagggtctgcctgtagcggcctgaacaagcaggagcctgggggtagccatggg tctgagacagaagacacagggagaagccttcccagcaagaaagaacgatctgggaagtcc caccggcacaaaaagaaaaagaagcacaaaaaatccagcaaacacaaacgtaaacacaag gctgacacagaagagaaaagctctaaggcagagtcaggggagaaatctaagaagcgcaag aaacgaaaacgaaagaagaataagtcatcagccccagcagattctgaacgaggacccaaa ccagaaccccctgggagtggcagtcccgcaccaccaagaagaaggcggagagctcaagat gactcccagcggagatccctcccagctgaagaggggagcagtggcaaaaaggatgaaggt gggggtggtagcagctcccaagaccatggtgggaggaaacacaaaggtgaacttccacct tcatcctgccagcgaagagcaggcaccaaacggagcagccggtctagccatcggagccaa cccagtagtggagatgaggatagtgatgatgcttcctcacaccggctgcaccagaagtct ccatcccagtacagtgaggaagaagaagaggaagattcaggcagtgagcattcccgcagc cgctcaaggtctggccggcgccattcctcgcatcgttcctcccggcgttcttactcaagt agctcagatgcctcttcagaccagagctgctatagtagacagcgcagttactctgatgac agctacagtgactacagtgacagatcacgaaggcactccaagcgctcccatgactcagat gactcagactatgccagctccaaacaccgatcaaaacggcacaaatattcatcttctgat gatgactatagcctcagttgcagccagtcccgaagccgatctcggagtcataccagagag cgctcaagatcccggggccgcagccgcagcagcagttgtagtcgtagtcgaagcaagcgg agaagccgtagcaccacagcccacagctggcaacggagccggagctatagccgggaccgc agccgcagcaccaggagcccttcccagagatcaggctccaggaagagatcatggggtcac gagagccctgaggagaggcattctgggcgtcgggacttcattcgttctaagatctaccgc tcccagtccccccactatttccgatcaggccggggagaaggtcctgggaagaaagatgat ggcagaggagatgacagtaaagcaacaggtccaccttcccagaacagcaacattggcaca ggaagagggtcagaaggtgactgcagtcctgaagacaagaactctgtcactgccaaactg ctactggagaagatccagtcaaggaaagtggagaggaaacctagtgtgagtgaggaggtg caggccacccctaataaagctgggcccaagctcaaggaccccccacaaggttactttggg cccaagctccccccatctcttggcaataagcctgtccttccactgatagggaagctccca gctacccgaaagcccaataagaagtgtgaagagtctggcttggaaaggggggaagagcaa gaacagtcagagacagaagaggggcccccagggagtagtgatgccctatttgggcatcag ttcccttcagaggaaacaactggccccttattagacccacccccagaagagtcaaagtct ggagaagctactgctgatcaccctgtggctccactaggcaccccagcacattctgactgc taccctggggacccaaccatctcccataactacctccccgaccccagtgatggggacacc ctggagtccctggatagcagcagtcagccaggccctgtggagtccagcttgctgcctata gcaccagaccttgagcatttccccagttatgcacctcccagtggggatcctagtattgag tcaacagatggggctgaggatgcttcactggcccccctggaaagccagcccatcaccttc acccctgaggagatggagaagtacagcaagctccagcaggctgctcagcaacacatccag cagcagcttctggccaagcaagtaaaggcctttccagcctcagctgccctggccccagcc acaccagccctgcaacccatccacattcagcagccagctacagcctctgccacctccatc acaactgttcagcatgccatcctacaacatcatgctgccgcagctgctgccgccatcggc attcaccctcacccccatccccaaccacttgcccagccatccatcctgggcccttcacct ttcaccctgtcccacatgctgccctctaccccaccctacttgctccacggcctgctgcag cagctgccactgcacttcaccttcacccactacttcaccccatcttctcaggtcaggacc tgcaacatccccccagccatggcaccctgggccttgaacctggacccagtgcagctcacc ttctatgcaggccccaatggcagccagtttggattttcactggacttccacaaggacagc catgggagagtggccatcgtggtgggcgccccgcggaccctgggccccagccaggaggag acgggcggcgtgttcctgtgcccctggagggccgagggcggccagtgcccctcgctgctc tttgacctccgtgatgagacccgaaatgtaggctcccaaactttacaaaccttcaaggcc cgccaaggactgggggcgtcggtcgtcagctggagcgacgtcattgtggtgggccccgcg gcctgcgccccctggcagcactggaacgtcctagaaaagactgaggaggctgagaagacg cccgtaggtagctgctttttggctcagccagagagcggccgccgcgccgagtactccccc tgtcgcgggaacaccctgagccgcatttacgtggaaaatgattttagctgggacaagcgt tactgtgaagcgggcttcagctccgtggtcactcaggcgagacttcccttccaggccgga gagctggtgcttggggctcctggcggctattatttcttaggtctcctggcccaggctcca gttgcggatattttctcgagttaccgcccaggcatccttttgtggcacgtgtcctcccag agcctctcctttgactccagcaacccagagtacttcgacggctactggggtaacaccgcc attccagacttccagcaccccgagggtcaccgcccaccgcagacggtggaaattttggat tcctactaccagaggctgcatcggctgcgcggagagcagatggcgtcgtattttgggcat tcagtggctgtcactgacgtcaacggggatgggaggcatgatctgctggtgggcgctcca ctgtatatggagagccgggcagaccgaaaactggccgaagtggggcgtgtgtatttgttc ctgcagccgcgaggcccccacgcgctgggtgcccccagcctcctgctgactggcacacag ctctatgggcgattcggctctgccatcgcacccctgggcgacctcgaccgggatggctac aatgacattgcagtggctgccccctacgggggtcccagtggccggggccaagtgctggtg ttcctgggtcagagtgaggggctgaggtcacgtccctcccaggtcctggacagccccttc cccacaggctctgcctttggcttctcccttcgaggtgccgtagacatcgatgacaacgga tacccagacctgatcgtgggagcttacggggccaaccaggtggctgtgtacagagctcag ccagtggtgaaggcctctgtccagctactggtgcaagattcactgaatcctgctgtgaag agctgtgtcctacctcagaccaagacacccgtgagctgcttcaacatccagatgtgtgtt ggagccactgggcacaacattcctcagaagctatccctaaatgccgagctgcagctggac cggcagaagccccgccagggccggcgggtgctgctgctgggctctcaacaggcaggcacc accctgaacctggatctgggcggaaagcacagccccatctgccacaccaccatggccttc cttcgagatgaggcagacttccgggacaagctgagccccattgtgctcagcctcaatgtg tccctaccgcccacggaggctggaatggcccctgctgtcgtgctgcatggagacacccat gtgcaggagcagacacgaatcgtcctggactgtggggaagatgacgtatgtgtgccccag cttcagctcactgccagcgtgacgggctccccgctcctagttggggcagataatgtcctg gagctgcagatggacgcagccaacgagggcgagggggcctatgaagcagagctggccgtg cacctgccccagggcgcccactacatgcgggccctaagcaatgtcgagggctttgagaga ctcatctgtaatcagaagaaggagaatgagaccagggtggtgctgtgtgagctgggcaac cccatgaagaagaacgcccagataggaatcgcgatgttggtgagcgtggggaatctggaa gaggctggggagtctgtgtccttccagctgcagatacggagcaagaacagccagaatcca aacagcaagattgtgctgctggacgtgccggtccgggcagaggcccaagtggagctgcga gggaactcctttccagcctccctggtggtggcagcagaagaaggtgagagggagcagaac agcttggacagctggggacccaaagtggagcacacctatgaggtattggggagcctcgcg tccctggctgggctccacaacaatggccctgggactgtgaatggtcttcacctcagcatc caccttccgggacagtcccagccctccgacctgctctacatcctggatatacagccccag gggggccttcagtgcttcccacagcctcctgtcaaccctctcaaggtggactgggggctg cccatccccagcccctcccccattcacccggcccatcacaagcgggatcgcagacagatc ttcctgccagagcccgagcagccctcgaggcttcaggatccagttctcgtaagctgcgac tcggcgccctgtactgtggtgcagtgtgacctgcaggagatggcgcgcgggcagcgggcc atggtcacggtgctggccttcctgtggctgcccagcctctaccagaggcctctggatcag tttgtgctgcagtcgcacgcatggttcaacgtgtcctccctcccctatgcggtgcccccg ctcagcctgccccgaggggaagctcaggtgtggacacagctgctccgggccttggaggag agggccattccaatctggtgggtgctggtgggtgtgctgggtggcctgctgctgctcacc atcctggtcctggccatgtggaaggtcggcttcttcaagcggaaccggccacccctggaa gaagatgatgaagagggggagtga