GENSCAN 1.0 Date run: 4-Nov-116 Time: 23:57:33 Sequence gi568815584r:77166539_77370937 : 204399 bp : 48.46% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 14906 15002 97 1 1 98 17 70 0.545 1.40 1.02 Intr + 15235 15359 125 2 2 12 77 88 0.596 0.40 1.03 Intr + 16090 16185 96 0 0 85 52 44 0.438 0.71 1.04 Intr + 16936 17035 100 0 1 94 80 44 0.511 3.88 1.05 Intr + 20819 20873 55 0 1 91 70 32 0.327 -0.26 1.06 Term + 26230 26392 163 1 1 -29 48 337 0.947 15.41 1.07 PlyA + 26463 26468 6 1.05 2.00 Prom + 28584 28623 40 -4.46 2.01 Init + 28949 28997 49 1 1 61 69 9 0.592 -2.59 2.02 Intr + 29047 29154 108 2 0 102 81 65 0.619 7.46 2.03 Intr + 29562 29692 131 1 2 -3 96 100 0.497 2.11 2.04 Intr + 30405 30487 83 2 2 87 43 54 0.529 -0.76 2.05 Intr + 31541 31691 151 2 1 49 75 93 0.834 4.26 2.06 Intr + 34989 35192 204 2 0 73 49 80 0.053 2.00 2.07 Intr + 40545 40680 136 2 1 114 78 54 0.002 7.14 2.08 Intr + 42882 43007 126 1 0 -7 99 83 0.001 0.55 2.09 Intr + 52292 52425 134 0 2 46 89 143 0.007 10.56 2.10 Intr + 52960 53039 80 0 2 76 94 74 0.999 5.15 2.11 Intr + 53468 53549 82 2 1 76 113 93 0.995 10.24 2.12 Intr + 58886 58923 38 1 2 131 100 6 0.971 3.16 2.13 Intr + 65050 65192 143 1 2 111 57 266 0.998 25.80 2.14 Intr + 66914 66962 49 0 1 83 39 65 0.434 -1.16 2.15 Intr + 70086 70194 109 0 1 143 115 62 0.999 14.69 2.16 Intr + 72156 72229 74 2 2 99 89 87 0.999 8.10 2.17 Intr + 72874 72954 81 1 0 69 78 158 0.998 11.65 2.18 Intr + 73065 73188 124 0 1 71 78 80 0.991 5.89 2.19 Intr + 73937 74070 134 1 2 93 89 347 0.998 34.74 2.20 Intr + 75809 75931 123 2 0 118 99 93 0.999 13.10 2.21 Intr + 76365 76518 154 0 1 115 51 200 0.923 19.07 2.22 Intr + 77811 77917 107 2 2 136 60 96 0.999 10.61 2.23 Intr + 79402 79488 87 1 0 120 82 84 0.992 10.09 2.24 Intr + 80071 80136 66 1 0 104 81 60 0.951 4.92 2.25 Intr + 81809 81971 163 2 1 97 87 190 0.999 19.78 2.26 Intr + 82229 82334 106 1 1 87 97 150 0.969 15.59 2.27 Intr + 82753 82920 168 2 0 110 69 156 0.956 15.82 2.28 Intr + 85251 85360 110 1 2 143 105 119 0.999 19.10 2.29 Intr + 86767 86838 72 0 0 107 80 104 0.941 11.10 2.30 Term + 89988 90188 201 2 0 63 47 200 0.514 10.79 2.31 PlyA + 91984 91989 6 1.05 3.26 PlyA - 98972 98967 6 1.05 3.25 Term - 100132 99998 135 1 0 82 48 71 0.466 0.52 3.24 Intr - 102047 101928 120 2 0 111 72 127 0.773 14.09 3.23 Intr - 102788 102677 112 1 1 89 100 184 0.999 20.08 3.22 Intr - 104400 104311 90 2 0 49 94 138 0.031 9.61 3.21 Intr - 111970 111856 115 2 1 128 99 13 0.930 5.91 3.20 Intr - 112331 112191 141 0 0 43 82 105 0.945 5.72 3.19 Intr - 113390 113285 106 2 1 97 71 91 0.950 8.09 3.18 Intr - 113542 113483 60 1 0 90 117 74 0.998 9.43 3.17 Intr - 113925 113854 72 0 0 78 91 50 0.762 3.90 3.16 Intr - 117335 117259 77 0 2 103 79 59 0.924 5.73 3.15 Intr - 118503 118412 92 2 2 85 65 88 0.997 5.84 3.14 Intr - 119094 118943 152 0 2 50 103 138 0.999 10.46 3.13 Intr - 120284 120206 79 1 1 116 92 104 0.993 13.15 3.12 Intr - 120733 120695 39 0 0 118 89 12 0.747 1.64 3.11 Intr - 122293 122224 70 2 1 78 89 23 0.840 -0.36 3.10 Intr - 124842 124776 67 0 1 88 95 60 0.986 5.18 3.09 Intr - 129735 129626 110 1 2 126 82 191 0.135 22.30 3.08 Intr - 132233 132151 83 1 2 140 92 72 0.993 12.08 3.07 Intr - 133023 132917 107 0 2 110 87 84 0.999 9.51 3.06 Intr - 134711 134552 160 1 1 93 85 62 0.849 6.39 3.05 Intr - 136423 136297 127 2 1 86 71 136 0.913 11.44 3.04 Intr - 138262 138154 109 1 1 102 111 41 0.999 7.66 3.03 Intr - 139903 139799 105 1 0 125 55 48 0.978 5.61 3.02 Intr - 145495 145411 85 0 1 89 105 45 0.195 6.12 3.01 Init - 154143 153896 248 0 2 90 105 285 0.510 27.27 3.00 Prom - 155504 155465 40 -5.66 4.00 Prom + 157414 157453 40 -4.86 4.01 Init + 158067 158084 18 2 0 70 86 0 0.309 -1.89 4.02 Intr + 158332 158383 52 0 1 102 91 4 0.684 0.58 4.03 Intr + 160300 160367 68 2 2 77 110 105 0.997 10.22 4.04 Intr + 160934 161014 81 1 0 76 70 104 0.985 7.23 4.05 Intr + 161374 161499 126 0 0 106 64 128 0.918 13.08 4.06 Intr + 162585 162663 79 2 1 37 113 79 0.853 4.42 4.07 Intr + 163217 163269 53 0 2 57 99 33 0.897 -0.07 4.08 Intr + 163628 163821 194 1 2 -2 116 78 0.538 -0.11 4.09 Term + 164531 164657 127 2 1 56 36 133 0.876 2.66 4.10 PlyA + 168803 168808 6 1.05 5.06 PlyA - 169090 169085 6 1.05 5.05 Term - 175450 175233 218 2 2 81 49 362 0.986 28.91 5.04 Intr - 176945 176640 306 0 0 78 94 392 0.996 35.22 5.03 Intr - 177285 177159 127 0 1 42 100 85 0.493 5.35 5.02 Intr - 179940 179811 130 2 1 8 75 159 0.042 7.30 5.01 Intr - 185213 185135 79 0 1 81 91 41 0.036 2.31 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Intr + 34989 35163 175 2 1 73 28 102 0.856 2.21 S.002 Term + 36092 36264 173 0 2 53 37 109 0.836 0.29 S.003 Init - 104399 104311 89 2 2 95 94 159 0.969 16.27 S.004 Term - 129735 129524 212 1 2 126 47 245 0.825 21.66 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815584r:77166539_77370937|GENSCAN_predicted_peptide_1|211_aa MPQGGRGEVAKELPRPNASGQLEQAGTRDRQPSGEEEDPLAVSSQVGSVEPVTAAWRPER RAWGWGRGAEDANVTPGPPPTPAPHFLIPENAGSCNFRMGLQGIMGGYTISVGLSEPKTG IPPARVPAAVSIAREWGSTGRPEPDSAEGHLESREQGRKNKTKTKEEEEEEEEEKEEEEE EEEEEEEGEEEQQQQEEGEEEKEEETFKNTS >gi568815584r:77166539_77370937|GENSCAN_predicted_CDS_1|636_bp atgcctcagggagggcgaggggaggtggcaaaggagctgccaaggcccaatgcatcaggg cagctggagcaagctggaaccagggaccggcagccttccggcgaggaggaggacccgctg gcagtctcctcccaggtggggagcgtggagcctgtcactgcagcctggcggcctgagcgc cgagcctggggctggggccgcggtgctgaggacgcaaatgtgaccccaggacctcccccc accccagcaccccatttcctcatccctgagaatgcagggagttgcaacttccgcatgggg ctccagggtatcatgggtggatacacaatttctgtgggcctatcggagccaaaaacaggc atccctcctgcccgagtgccagcagctgtgagcatagccagggagtggggatccacaggg cgcccagaaccagattctgctgaaggacatctcgagtcacgggagcagggaagaaagaat aagacaaagacgaaggaggaggaggaggaagaggaagaagaaaaagaagaagaggaagaa gaagaagaggaggaggaggaaggagaagaagaacaacaacaacaggaggaaggagaagaa gaaaaggaggaagaaacctttaagaatacaagttga >gi568815584r:77166539_77370937|GENSCAN_predicted_peptide_2|1130_aa MQVPKHPPGDSSSVGQDDSEVGDVYDPFDLPQLNPAGIVCASRLNTPTAAREGIERGHRW ATQKDRFLGTDQEEGRSYYSPEATWGLSPKPQLLFQLPPATPPHFAKGTLTVTGHPKLEG IEARVKRGHLAIAQTGSDRSYNVYSDEFRPGSRRDVMVLIHHGAVAKTLAPMAQDSDSQC EVPGPAASASFRDLLETEILRRYPRPVVAETLGQGPAICDVTSPAADCDPPKCETHCCNV SRHPLGTIMAAHLLRGIGRKPWVGVQGLEDKEKKLPGKERHLCGGPRVCLWVKGLLSLIE AYYVMVFGRTMKSIRERYGPYYQRAHGFVDDLSTGGRLQNMTVDECFQSRNTVLQGQPFG GVPTVLCLNIALWVLVLVVYSFLRKAAWDYGRLALLIHNDSLTSLIYGEQSEKTSPSETS LEMERRDKGFCSWFFNSITMKDEDLINKCGDDARIYIVFQYHLIIFVLIICIPSLGIILP INYTGSVLDWSSHFARTTIVNVSTESKLLWLHSLLSFFYFITNFMFMAHHCLGFAPRNSQ KVTRTLMITYVPKDIEDPELIIKHFHEAYPGSVVTRVHFCYDVRNLIDLDDQRRHAMRGR LFYTAKAKKTGKVMIRIHPCARLCFCKCWTCFKEVDAEQYYSELEEQLTDEFNAELNRVP LKRLDLIFVTFQDSRMAKRVRKDYKYVQCGVQPQQSSVTTIVKSYYWRVTMAPHPKDIIW KHLSVRRFFWWARFIAINTFLFFLFFFLTTPAIIMNTIDMYNVTRPIEKLQNPIVTQFFP SVMLWGFTVILPLIVYFSAFLEAHWTRSSQNLVMVHKCYIFLVFMVVILPSMGLTSLDVF LRWLFDIYYLEQASIRFQCVFLPDNGAFFVNYVITAALLGTGMELLRLGSLFCYSTRLFF SRSEPERVNIRKNQAIDFQFGREYAWMMNVFSVVMAYSITCPIIVPFGLLYLCMKHLTDR YNMYYSFAPTKLNEQIHMAAVSQAIFAPLLGLFWMLFFSILRLGSLHAITIFSLSTLLIA MVIAFVGIFLGKLRMVADYEPEEEEIQTVFDMEPSSTSSTPTSLLYVATVLQEPELNLTP ASSPARHTYGTMNNQPEEGEEESGLRGFARELDSAQFQEGLELEGQNQYH >gi568815584r:77166539_77370937|GENSCAN_predicted_CDS_2|3393_bp atgcaggttcccaaacaccctcctggagattcaagttcagtgggtcaagatgattctgaa gtgggtgatgtgtatgacccctttgacctcccccagctcaaccctgctggcattgtctgt gcatctaggctgaacacccccacagcagcaagggaaggaatcgagcggggacaccgctgg gccactcagaaggaccgtttcctggggactgatcaagaggagggaaggtcctattacagc ccagaggccacgtggggcctgagccccaaacctcagctgctgttccagttacctccagca actcctccccactttgcaaaaggaacattgacagtgactggacatcccaagctagaaggt attgaagctagagtcaagagaggacacttggccattgcccagacaggcagtgaccgcagt tataatgtgtactctgatgagttcaggccaggcagcagacgtgacgtcatggtcctcatt catcatggggctgtggccaaaaccttggctcccatggctcaggatagtgattctcagtgt gaggtccctggcccagcggcatcagcatccttcagggacttgttggagacagagattctc aggcgctacccaagacctgttgtggcagaaaccctggggcagggcccagcgatctgtgat gtaacaagccctgctgctgattgtgacccaccaaagtgtgagacccattgctgtaatgtt tcaaggcaccccctgggcaccatcatggctgctcacttactcaggggcataggcagaaag ccatgggttggggtccagggtctggaggacaaggaaaagaaacttcctggcaaggagagg catctctgtgggggtcccagagtgtgtctctgggtaaagggccttctgtctctcattgag gcctactacgtgatggtctttgggagaaccatgaaaagtataagagaaagatatggtccc tactatcaaagagcccatggatttgttgacgacctgagtacagggggaaggttacagaac atgacagtggatgaatgcttccagtctcggaacaccgtcctccaggggcagccctttggg ggtgtccccaccgtgctgtgcctcaacatcgccctgtgggtgctcgtccttgtggtttac tccttcctccggaaagctgcgtgggactatgggcgcctggctctgctgatacacaatgac agcctgacctcgctgatctatggggagcagagcgagaagacatctccctcggagacttcc ttggagatggaacgcagagacaagggattctgttcctggttcttcaacagcataacaatg aaggacgaggatctgattaacaagtgtggggacgacgcgcgcatctacatcgtgttccag taccacctcatcatctttgtgctcatcatctgtatcccctccctgggcatcattttgccc atcaactatactggatctgttctggactggagcagtcactttgctcggaccaccattgtc aatgtctccacagagagcaagctcctgtggctgcatagcctgctgtccttcttctacttc atcaccaacttcatgttcatggctcatcactgcctggggtttgcacccaggaatagccaa aaggtcacaaggacactaatgatcacctatgtgcccaaggacattgaagacccagaactc atcattaagcattttcacgaggcctatccaggcagtgtcgtgacaagagtccacttctgc tacgacgtcaggaacctgatcgacttggacgatcagaggcgccatgccatgcggggccgg cttttctatacagccaaggccaagaagactgggaaggtgatgatcaggatccacccctgt gcccgcctgtgcttctgcaagtgctggacctgcttcaaggaggtggatgcagagcagtat tacagcgagctagaggagcagctaacggacgagttcaacgccgagctcaaccgcgtgccg ctcaagcggctggacctgatctttgtcaccttccaggactccaggatggccaagcgtgtc cgtaaggattacaagtatgtccagtgtggtgtgcaaccccagcagtcctcagtgaccacc atcgtcaaatcatattactggagggtcactatggccccacaccccaaagacattatttgg aaacacctgtctgtccgccgcttcttttggtgggcccgctttatcgcaatcaacaccttc ctcttcttcctcttcttctttctcaccacgcctgccatcatcatgaacactatcgacatg tacaacgtcacccgccccatcgagaagctgcagaacccaattgtgacccagttcttcccc tctgtgatgctctggggcttcacagtgatactgcctctgattgtctacttctccgccttc ctcgaggcccactggaccagatcaagtcagaatctggtcatggtgcacaagtgctacatc tttctggtgttcatggtagtcattctgccctctatgggactgaccagtttggatgtcttt ctccgctggctctttgacatctactatctagagcaagcatccatcaggttccagtgtgtg ttcctgccagacaacggcgccttctttgtcaactacgtgatcacggcagctttacttggc acaggcatggagctgctgcgtctggggtcactcttctgctacagcacccgcctcttcttc tctagatcagagccagagagagtcaacatcagaaagaaccaggccatagacttccagttt gggcgtgagtatgcgtggatgatgaacgtgttcagcgtggtgatggcgtacagcatcact tgccccatcattgtgccttttgggttgctctacctgtgcatgaagcacttgacggatcgc tataacatgtactactcctttgcacccaccaaactgaacgagcagatccacatggctgcc gtctcccaggccatctttgcgccactcttgggtctgttctggatgctgttcttctccatc ctgcggttgggttctctccacgccatcaccatcttttccctgtccaccctcctcattgcc atggtgattgcctttgttggcatttttctggggaagcttcggatggttgccgactacgag cccgaggaggaggagatccagacagtgtttgacatggagccaagcagcacctcctccacg cccacctccctcctgtatgtggccaccgtgctgcaagaaccggagttgaatctgaccccc gcctcctccccagccaggcacacctatggcaccatgaacaaccagccggaagagggagaa gaagagagtggtctgaggggctttgcgagggagctagactcggcccagttccaggaaggg ctggaactggagggccagaaccagtaccactga >gi568815584r:77166539_77370937|GENSCAN_predicted_peptide_3|886_aa MPPATGGGLAESELRPRRGRCGPQAARAAGRDVAAEAVARSPKRPAWGSRRFEAVGWWAL LALVTLLSFATRFHRLDEPPHICWDETHFGKMGSYYINRTFFFDVHPPLGKMLIGLAGYL SGYDGTFLFQKPGDKYEHHSYMGMRGFCAFLGSWLVPFAYLTVLDLSKSLSAALLTAALL TFASSCFSDTGCLTLSQYILLDPILMFFIMAAMLSMVKYNSCADRPFSAPWWFWLSLTGV SLAGALGVKFVGLFIILQVGLNTIADLWYLFGDLSLSLVTVGKHLTARVLCLIVLPLALY TATFAVHFMVLSKSGPGDGFFSSAFQARLSGNNLHNASIPEHLAYGSVITVKNLRMAIGY LHSHRHLYPEGIGARQQQVTTYLHKDYNNLWIIKKHNTNSDPLDPSFPVEFVRHGDIIRL EHKECPLKKIWRWEQKETSRNLHSHYHEAPMTRKHYQVTGYGINGTGDSNDFWRIEVVNR KFGNRIKVLRSRIRFIHLVTGCVLGSSGKVLPKWGWEQLEVTCTPYLKETLNSIWNVEDH INPKLPNISLDVLQPSFPEILLESHMVMIRGNSGLKPKDNEFTSKPWHWPINYQGLRFSG VNDTDFRVYLLGNPVVWWLNLLSIALYLLSGSIIAVAMQRGARLPAEVAGLSQVLLRGGG QVLLGWTLHYFPFFLMGRVLYFHHYFPAMLFSSMLTGILWDTLLRLCAWGLASWPLARGI HVAGILSLLLGTAYSMERPEPELIRQSWRAVSRSPLEHGTVLFARLFALEPDLLPLFQYN CRQFSSPEDCLSSPEFLDHIRKVMLVIDAAVTNVEDLSSLEEYLASLGRKHRAVGVKLSS FSTVGESLLYMLEKCLGPAFTPATRAAWSQLYGAVVQAMSRGWDGE >gi568815584r:77166539_77370937|GENSCAN_predicted_CDS_3|2661_bp atgccgccggccacgggcggaggcctggcagagtccgagctgcgtccccggaggggccgc tgtggcccccaggctgctagggccgcaggccgggacgtggccgctgaggctgtggcgcga agccccaaacggcctgcttggggctcacggcgcttcgaggcggtcggctggtgggccctg ctggccttggtgacgctgctgtccttcgccacccgcttccaccgcttggacgagccgccg cacatctgttgggatgagactcactttggaaaaatgggaagttactatatcaaccgtaca tttttctttgatgtgcacccgcccctgggaaagatgctgataggtcttgctggctacctg agtggatatgatggtacctttttgttccagaagcctggggataaatatgagcatcacagc tacatgggaatgagaggattctgtgcattccttggctcctggctggtcccctttgcctac ctcactgtactggatctgtccaagtccctctcggcagcactgctcacagctgccctcctc acctttgcgagctcatgtttttcagacacgggatgcctcactctgtcccagtacatcctc cttgaccccatcctgatgttcttcatcatggctgccatgctgagcatggtcaagtacaac tcttgcgccgacaggcccttctctgccccctggtggttctggctcagcctgactggcgtt agtcttgctggtgctttaggggtcaagtttgttggcctctttatcatccttcaagtgggg ctgaacaccattgcagacctttggtacctgttcggagacctcagtctttcattggtgact gtgggaaaacacctgactgctcgtgtcctgtgcctcatagtgctgcccctggctctctat acagccacctttgctgttcacttcatggtgctgagtaaaagtggccctggtgacggtttc ttcagttctgccttccaggcccggctttcagggaacaacctgcacaatgcttccatccct gaacacctggcctacggctctgtgatcactgtgaagaacctccggatggccatcggctat ctgcactcccacaggcacctctaccccgagggcattggtgcccgtcagcagcaggtcacc acctatttgcacaaggactacaacaacctgtggattatcaagaaacataacacaaactca gatcccctagacccttccttcccagtggagtttgtaagacatggagacattattcgacta gaacacaaagaatgtccacttaaaaaaatctggcgatgggagcagaaagaaacttcccgg aacttgcacagtcactatcatgaggcccccatgacccggaagcactatcaggtcaccggc tatggcataaatggaacaggggactcaaatgatttctggcggattgaggtcgtaaacagg aaatttggaaaccggatcaaagtgctgagaagtcgaattcgcttcatccatttggtcaca ggttgtgtcctgggctcctcgggaaaggttctgcccaagtggggctgggagcagttggaa gttacttgcaccccatacctgaaagaaaccctcaactccatctggaatgtggaggaccat atcaatcccaagttgccaaacatcagcctggatgtgctacagcccagttttcctgagatc ttgctggaatcccacatggtcatgatccgggggaacagtggcctcaaacccaaggacaat gagttcacgtccaaaccctggcactggcctatcaactatcagggcctacgcttctcaggg gtcaatgacacagatttccgagtctatctgcttggcaacccggtggtttggtggctgaat ctgttgagcatcgccctctacctcctctcagggagcatcattgctgtagccatgcagaga ggggcacggctgccagcggaggttgcagggttgtcccaggtcctgcttcgaggaggcggc caggtcctgctcggctggacactccattacttcccgtttttcctgatgggccgggtcctc tacttccaccactacttcccagccatgctcttctcaagcatgttgacaggcattctgtgg gacaccctcctgcggctctgtgcctggggcttggcctcatggcccctggcgaggggcata catgtggcgggaatcctgagcctgctcctgggaactgcctacagcatggagcgcccggag cccgagctgatccggcagagctggcgggcagtgagccgcagcccgctggagcacggcacc gtcctgtttgccaggctgtttgccctggagcctgacctgctgcccctcttccagtacaac tgccgccagttctccagcccagaggactgtctctcctcgcctgagttcctggaccacatc aggaaggtgatgctcgtgattgatgctgcagtgaccaatgtggaagacctgtcctcactg gaggagtaccttgccagcctgggcaggaagcaccgggcagtgggtgtgaagctcagctcc ttctcgacagtgggtgagtctctgctctacatgctggagaagtgtctgggccctgccttc acaccagccacacgggctgcctggagccaactctacggggccgtagtgcaggccatgagt cgaggctgggatggcgagtaa >gi568815584r:77166539_77370937|GENSCAN_predicted_peptide_4|265_aa MTESGKPILYSYFRSSCSWRVRIALALKGIDYETVPINLIKDGGQQFSKDFQALNPMKQV PTLKIDGITIHQSLAIIEYLEEMRPTPRLLPQDPKKRASVRMISDLIAGGIQPLQNLSVL KQVGEEMQLTWAQNAITCGFNALEQILQSTAGIYCVGDEGRQELEVGWVKEPKQIVGTPS RVAVDTPSPATDSGVCTLMGTHRDLFQVTMADLCLVPQVANAERFKVDLTPYPTISSINK RLLVLEAFQVSHPCRQPDTPTELRA >gi568815584r:77166539_77370937|GENSCAN_predicted_CDS_4|798_bp atgacagagtctggcaagcccatcctctattcctatttccgaagctcctgctcatggaga gttcgaattgctctggccttgaaaggcatcgactacgagacggtgcccatcaatctcata aaggatgggggccaacagttttctaaggacttccaggcactgaatcctatgaagcaggtg ccaaccctgaagattgatggaatcaccattcaccagtcactggccatcattgagtatcta gaggagatgcgtcccactccgcgacttctgcctcaggacccaaagaagagggccagcgtg cgtatgatttctgacctcatcgctggtggcatccagcccctgcagaacctgtctgtcctg aagcaagtgggagaggagatgcagctgacctgggcccagaacgccatcacttgtggcttt aacgccctggagcagatcctacagagcacagcgggcatatactgtgtaggagacgagggc agacaagaattggaggtgggatgggtgaaagagccgaagcagattgttggtacccccagt agagtcgcagtggacacacccagtccagccactgactctggggtatgcaccctgatggga acccaccgggacctctttcaggtgaccatggctgatctgtgcttggtgcctcaggtggca aatgctgaaagattcaaggtggatctcaccccctaccctaccatcagctccatcaacaag aggctgctggtcttggaggccttccaggtgtctcacccctgccggcagccagatacaccc actgagctgagggcctag >gi568815584r:77166539_77370937|GENSCAN_predicted_peptide_5|286_aa XNEDLENKDTSLLASATDPEPCSSPHRPQMVSPVSKDATEDLRKATGPLEAQALVKQDLL PADQAQVLNEMAKYQVPQRSGDIVMIQSEHTGAIDVLSADLESADLLGDHRKVSPPLMAP PCIWTFAKVKEFKSKLGKEKNSRLVVKRGEVVTIRVPTHPEGKRVCWEFATDDYDIGFGV YFDWTPVTSTDITVQVSDSSDDEDEEEEEEEEIEEPVPAGDVERGSRSSLRGRYGEVMPV YRRDSHRDVQAGSHDYPGEGIYLLKFDNSYSLLRNKTLYFHIYYTS >gi568815584r:77166539_77370937|GENSCAN_predicted_CDS_5|861_bp nagaatgaagatctagaaaacaaggatacctctttattggcttctgccaccgatccagaa ccctgctcctcaccccacaggccacagatggtatctccagtgagtaaggatgccacggaa gatctgcggaaagcaactggtcctttggaggctcaggccttggtgaaacaggatttgctg cctgcagaccaggcccaggtcctcaatgagatggctaagtatcaagttccacagaggtct ggggacatcgttatgatccagtctgaacatacaggagctatagatgttctttcagctgat ttggaatctgcagatcttctgggggaccacaggaaagtctccccacctctgatggctcct ccatgcatctggacctttgccaaggtgaaggaattcaaaagcaagctgggcaaagagaag aacagccgtctggtggtgaagcgtggtgaggtggtgaccatccgggtacctactcatcca gaggggaagcgtgtctgctgggagtttgcgaccgatgactatgacattggctttggagtt tattttgactggacccctgtaactagcactgacataactgtgcaggtcagtgattccagt gacgatgaggatgaagaagaggaagaggaggaagagattgaagaacccgttccagctgga gatgtggagagaggctccaggagctccttgcggggtcgctatggggaggtcatgcctgtg taccggcgggacagccaccgagacgtgcaggctggcagccatgactaccctggtgagggc atctacctgctcaagttcgacaactcctactccctgctgcgcaacaagactctctacttc cacatctactacaccagctga