Result of GENSCAN for
pF1KB6329
GENSCAN 1.0 Date run: 5-Nov-116 Time: 00:30:39 Sequence gi568815596f:218300091_218504422 : 204332 bp : 48.31% 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 + 9658 9660 3 0 0 113 81 0 0.260 1.80 1.02 Intr + 17880 17982 103 2 1 42 49 234 0.301 14.65 1.03 Term + 18134 18336 203 0 2 7 48 86 0.221 -5.95 1.04 PlyA + 20105 20110 6 1.05 2.00 Prom + 20720 20759 40 -3.86 2.01 Init + 23178 23341 164 2 2 97 48 234 0.927 17.50 2.02 Intr + 27463 27539 77 1 2 76 17 58 0.142 -3.34 2.03 Intr + 35430 35523 94 1 1 99 101 25 0.631 3.92 2.04 Intr + 39693 39808 116 0 2 77 89 151 0.993 14.19 2.05 Intr + 39939 40051 113 1 2 103 94 232 0.995 25.40 2.06 Intr + 40638 40696 59 2 2 120 95 43 0.999 5.88 2.07 Intr + 41444 41536 93 2 0 111 100 153 0.999 17.88 2.08 Intr + 41891 42054 164 2 2 98 89 158 0.999 16.52 2.09 Intr + 43410 43496 87 1 0 69 85 67 0.944 4.44 2.10 Intr + 44365 44480 116 2 2 74 89 246 0.999 23.47 2.11 Intr + 44718 44887 170 2 2 104 3 180 0.335 9.84 2.12 Intr + 54023 54504 482 2 2 -4 55 550 0.344 35.18 2.13 Intr + 56972 57097 126 0 0 132 49 106 0.944 11.75 2.14 Intr + 57444 57644 201 1 0 57 9 242 0.990 12.46 2.15 Intr + 57947 58002 56 0 2 100 75 90 0.961 7.60 2.16 Intr + 60483 60569 87 2 0 66 94 121 0.959 10.67 2.17 Intr + 62630 62812 183 1 0 25 64 184 0.620 9.68 2.18 Intr + 64538 64662 125 1 2 57 80 292 0.999 24.68 2.19 Intr + 66934 67010 77 1 2 93 96 51 0.999 5.56 2.20 Intr + 67340 67428 89 0 2 94 100 137 0.999 15.19 2.21 Intr + 67632 67782 151 2 1 68 -24 406 0.005 27.14 2.22 Intr + 68978 69022 45 0 0 99 72 28 0.002 0.68 2.23 Intr + 82870 83012 143 2 2 108 60 62 0.753 5.47 2.24 Intr + 84153 84275 123 2 0 113 27 179 0.997 15.08 2.25 Intr + 85057 85176 120 0 0 95 105 100 0.997 13.09 2.26 Intr + 86545 86651 107 0 2 108 33 211 0.999 16.61 2.27 Intr + 87070 87140 71 1 2 79 76 136 0.999 10.33 2.28 Intr + 87475 87542 68 2 2 94 75 35 0.967 1.42 2.29 Intr + 87734 87865 132 1 0 31 105 189 0.805 15.74 2.30 Intr + 89780 89938 159 1 0 71 81 254 0.996 23.18 2.31 Intr + 91108 91197 90 0 0 76 72 241 0.745 21.49 2.32 Intr + 91286 91405 120 1 0 95 75 144 0.939 14.49 2.33 Intr + 92891 93040 150 1 0 77 85 230 0.999 21.96 2.34 Intr + 94030 94103 74 0 2 90 76 155 0.999 12.70 2.35 Intr + 94542 94695 154 0 1 92 52 180 0.936 14.87 2.36 Intr + 97052 97158 107 1 2 30 86 85 0.488 1.51 2.37 Intr + 99210 99543 334 0 1 27 101 182 0.607 8.97 2.38 Intr + 99941 100067 127 1 1 76 81 89 0.926 7.25 2.39 Intr + 101474 101622 149 0 2 83 100 128 0.872 13.45 2.40 Intr + 102021 102125 105 2 0 54 86 220 0.651 18.81 2.41 Intr + 102259 102315 57 0 0 102 94 126 0.994 13.68 2.42 Intr + 102945 103037 93 2 0 95 105 144 0.585 16.96 2.43 Intr + 103142 103327 186 1 0 52 68 284 0.970 22.69 2.44 Intr + 104207 104334 128 1 2 105 47 148 0.473 11.88 2.45 Intr + 119957 120024 68 2 2 64 26 97 0.062 -0.35 2.46 Intr + 123678 123763 86 1 2 106 78 119 0.866 12.24 2.47 Intr + 124187 124261 75 1 0 128 68 136 0.999 15.31 2.48 Intr + 125525 125721 197 1 2 44 -3 360 0.950 20.71 2.49 Intr + 127875 127983 109 0 1 68 80 160 0.943 13.49 2.50 Intr + 128137 128247 111 0 0 91 59 93 0.928 7.28 2.51 Intr + 129126 129397 272 2 2 48 55 280 0.490 17.04 2.52 Intr + 129507 129585 79 0 1 112 94 75 0.998 10.05 2.53 Intr + 129759 129863 105 2 0 82 28 177 0.569 11.51 2.54 Intr + 130635 130788 154 2 1 88 68 232 0.997 20.85 2.55 Intr + 131767 131867 101 2 2 66 91 83 0.976 6.23 2.56 Intr + 131956 132093 138 0 0 100 71 299 0.998 30.06 2.57 Intr + 132703 132861 159 0 0 120 64 224 0.998 23.38 2.58 Intr + 134436 134615 180 2 0 121 93 138 0.997 17.66 2.59 Intr + 135199 135344 146 0 2 70 78 218 0.999 18.08 2.60 Intr + 136392 136536 145 0 1 97 91 216 0.987 23.08 2.61 Intr + 137034 137222 189 2 0 64 65 168 0.997 11.88 2.62 Intr + 138568 138636 69 0 0 64 68 82 0.900 3.18 2.63 Intr + 140632 140772 141 0 0 108 92 179 0.996 20.85 2.64 Term + 149133 149246 114 2 0 133 54 61 0.995 5.77 2.65 PlyA + 150168 150173 6 1.05 3.14 PlyA - 151155 151150 6 1.05 3.13 Term - 154927 154840 88 0 1 70 55 88 0.866 0.83 3.12 Intr - 155628 155490 139 1 1 82 71 128 0.881 10.02 3.11 Intr - 157071 157002 70 0 1 91 68 12 0.906 -1.75 3.10 Intr - 159815 159700 116 0 2 73 76 162 0.937 13.67 3.09 Intr - 163276 163216 61 1 1 115 70 54 0.997 4.61 3.08 Intr - 166086 165920 167 1 2 89 71 104 0.995 8.48 3.07 Intr - 174795 174540 256 0 1 70 69 256 0.998 18.92 3.06 Intr - 176891 176750 142 1 1 89 106 151 0.999 17.36 3.05 Intr - 182144 181980 165 1 0 83 101 19 0.698 1.78 3.04 Intr - 185653 185574 80 1 2 112 59 27 0.588 0.55 3.03 Intr - 188331 188214 118 2 1 104 61 8 0.476 0.17 3.02 Intr - 195860 195670 191 2 2 61 94 59 0.762 2.18 3.01 Intr - 197767 197644 124 0 1 92 82 50 0.920 5.39 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 67632 67874 243 2 0 68 47 456 0.992 35.40 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815596f:218300091_218504422|GENSCAN_predicted_peptide_1|102_aa MLLHDCFVIITIVTVIIIIITTSDFLNANQAPVIKRTHITGQTCMIARHPTRVMKVSLLR EWQRQTLALAVRLKLLRGEVTAKALECMGSLAMVLLQLPLIL >gi568815596f:218300091_218504422|GENSCAN_predicted_CDS_1|309_bp atgctccttcatgattgtttcgtcatcatcaccatcgtcactgtcatcatcatcatcatc accaccagtgatttcctgaatgccaaccaagcaccagtcatcaagcgaacccacatcaca ggccagacctgcatgatcgccaggcacccgactcgggttatgaaggtgtctctcctaaga gagtggcagaggcaaactttagccttggcagtgcgcctcaagctgctcaggggagaagtc acggccaaagccctggagtgcatgggttctttagccatggttctcctgcagcttcctctg atattatga >gi568815596f:218300091_218504422|GENSCAN_predicted_peptide_2|2769_aa MAWQGWPAAWQWVAGCWLLLVLVLVLLVSPRGCRARRGLRGLLMAHSQRLLFRIGFPLLP GSSSKCGSDQVSPSASHIADNRTFTRTVSLPCSVCVQCLANSKDSVNIVEEMYSLYTRTW LGYLFYRQQLRRARNRYPKGHSKTQPRLFNGVKVLPIPVLSDNYSYLIIDTQAQLAVAVD PSDPRAVQASIEKEGVTLVAILCTHKHWDHSGGNRDLSRRHRDCRVYGSPQDGIPYLTHP LCHQDVVSVGRLQIRALATPGHTQGHLVYLLDGEPYKGPSCLFSGDLLFLSGCGRTFEGN AETMLSSLDTVLGLGDDTLLWPGHEYAEENLGFAGVVEPENLARERKMQWVQRQRLERKG TCPSTLGEERSYNPFLRTHCLALQEALGPGPGPTGDDDYSRAQLLEELRRLKDMHKSNVL CCGKKVWLDPSETNEIANASSHQQIRKLIKDGLIIGKPVMVHSQAPCQKNTLASRKGRHT GIGKRKGTANVRMPEVTWIRRMRILCWLLRRYRESKKIDRHMYHSLYLKVKGNVFKNKRI ILEHIHKLKADKAYKKLLADQAEARRSKTKEVWAEDYPGSAILASHPSVGSRAKDHQPSG PECLPLPEANAEAIDFLSSLHKEELQMLFFSETLAMVSDTGEPQGELTIEVQRGKYQEKL GMLTYCLFVHASSRGFLDKMLCGNSLLGYLSEKLELMEQHSQDFIKFLILPMERKMSLLK QDDQLAVTRSIKEGEISSEQEVKTGVTSFPWSSIKGFISEAANLVLLRVMAWRRMVPSNA RFLTLDTEGKLCYLTYQNLGFQTIQVDHQQAEVFIVEQTVHAEEGIPMSCQYYLLSDGHL AKRIQVGSPGCCIITKMPILREEDEIEPRPVFEKKPLVWEEDMELYSKFLDRKEELRLGH ASYLRQHPEAHALISDFLLFLLLRQPEDVVTFAAEFFGPFDPWHLLLQTPETLCSLVDGD KGPQRLSGSSYGSISSPTSPTSPGPQQAPPRETYLSEKIPIPDTKPGTFSLRKLWAFTGP GFLMSIAFLDPGNIESDLQAGAVAGFKLLWVLLWATVLGLLCQRLAARLGVVTGKDLGEV CHLYYPKVPRTVLWLTIELAIVGSDMQEVIGTAIAFNLLSAGRIPLWGGVLITIVDTFFF LFLDNYGLRKLEAFFGLLITIMALTFGYEGALLRGLFLPSCPGCGHPELLQAVGIVGAII MPHNIYLHSALVKSREIDRARRADIREANMYFLIEATIALSVSFIINLFVMAVFGQAFYQ KTNQAAFNICANSSLHDYAKIFPMNNATVAVDIYQGGVILGCLFGPAALYIWAIGLLAAG QSSTMTGTYAGQFVMEGFLRLRWSRFARVLLTRSCAILPTVLVAVFRDLRDLSGLNDLLN VLQSLLLPFAVLPILTFTSMPTLMQEFANGLLNKVVTSSIMVLVCAINLYFVVSYLPSLP HPAYFGLAALLAAAYLGLSTYLDGGRQSNGQVGQEDTETRLKGYPGPGQRASDEVAPRPG APRPGAAGGGDRPIQERDSEVCTAVSGQQSLRWLLTSLRGDLCDHQTGEKTHFTDEVVLS PSPQRGNREASSPGSSENAEVEPRRTRALPGVGAPGGRALAEGARRPGTPGGRPGARARV RPERSAPGPMDSSAVITQISKEEARGPLRGKGDQKSAASQKPRSRGILHSLFCCVCRDDG EALPAHSGAPLLVEENGAIPKQTPVQYLLPEAKAQDSDKICVVIDLDETLVHSSFKPVNN ADFIIPVEIDGVVHQVYVLKRPHVDEFLQRMGELFECVLFTASLAKYADPVADLLDKWGA FRARLFRESCVFHRGNYVKDLSRLGRDLRRVLILDNSPASYVFHPDNAVPVASWFDNMSD TELHDLLPFFEQLSRVDDVYSVLRQPRPGSYSELHDWELGAVAAPHLQQSRNSSSLTMTK LSAQVKGSLNITTPGLQIWRIEAMQMVPVPSSTFGSFFDGDCYIILAIHKTASSLSYDIH YWIGQDSSLDEQGAAAIYTTQMDDFLKGRAVQHREVQGNESEAFRGYFKQGLVIRKGGVA SGMKHVETNSYDVQRLLHVKGKRNVVAGEVEMSWKSFNRGDVFLLDLGKLIIQWNGPEST RMERLRGVGWQTLPHSPTTPDGSPGAFLQGMTLAKEIRDQERGGRTYVGVVDGENELASP KLMEVMNHVLGKRRELKAAVPDTVVEPALKAALKLYHVSDSEGNLVVREVATRPLTQDLL SHEDCYILDQGGLKIYVWKGKKANEQEKKGAMSHALVVNFIKAKQYPPSTQVEVQNDGAE SAVFQQLFQKWTASNRTSGLGKTHTVGSVAKVEQVKFDATSMHVKPQVAAQQKMVDDGSG EVQVWRIENLELVPVDSKWLGHFYGGDCYLLLYTYLIGEKQHYLLYVWQGSQASQDEITA SAYQAVILDQKYNGEPVQIRVPMGKEPPHLMSIFKGRMVVYQGGTSRTNNLETGPSTRLF QVQGTGANNTKAFEVPARANFLNSNDVFVLKTQSCCYLWCGKGCSGDEREMAKMVADTIS RTEKQVVVEGQEPANFWMALGGKAPYANTKRLQEENLVITPRLFECSNKTGRFLATEIPD FNQDDLEEDDVFLLDVWDQVFFWIGKHANEEEKKAAATTAQEYLKTHPSGRDPETPIIVV KQGHEPPTFTGWFLAWDPFKWSNTKSYEDLKAELGNSRDWSQITAEVTSPKVDVFNANSN LSSGPLPIFPLEQLVNKPVEELPEGVDPSRKEEHLSIEDFTQAFGMTPAAFSALPRWKQQ NLKKEKGLF >gi568815596f:218300091_218504422|GENSCAN_predicted_CDS_2|8310_bp atggcttggcagggctggcccgcggcgtggcagtgggtcgccggctgctggctcctcctc gtccttgtcctcgtcctacttgtgagcccccgcggctgccgagcgcggcggggcctccgc ggtctgctcatggcgcacagccagcggctgctcttccgaatcggcttccccctgctgcct ggttcgtcttcaaagtgtggctctgatcaagtgtccccttctgcaagccacattgccgac aatagaaccttcacaaggacagtgagtttgccttgctcagtgtgtgttcagtgcctggcc aatagcaaggattcagtaaatattgttgaagaaatgtacagcctgtacacccgcacctgg ctcgggtacctcttctaccgacagcagctgcgcagggctcggaatcgctaccctaaaggc cactcgaaaacccagccccgcctcttcaatggagtgaaggtgcttcccatccctgtcctc tcggacaactacagctacctcatcatcgacacccaggcccagctggctgtggctgtggac ccttcagaccctcgggctgtgcaggcttccattgaaaaggaaggggtcaccttggtcgcc attctgtgtactcacaagcactgggaccacagtggagggaaccgtgacctcagccggcgg caccgggactgtcgggtgtacgggagccctcaggacggcatcccctacctcacccatccc ctgtgtcatcaagatgtggtcagcgtgggacggcttcagatccgggccctggctacacct ggccacacacaaggccatctggtctacctactggatggggagccctacaagggtccctcc tgcctcttctcaggggacctgctcttcctctctggctgtgggcggacctttgagggcaat gcagagaccatgctgagctcactggacactgtgctggggctaggggatgacacccttctg tggcctggtcatgagtatgcagaggagaacctgggctttgcaggtgtggtggagcccgag aacctggcccgggagaggaagatgcagtgggtgcagcggcagcggctggagcgcaagggc acgtgcccatctaccctgggagaggagcgctcctacaacccgttcctgagaacccactgc ctggcgctacaggaggctctggggccggggccgggccccactggggatgatgactactcc cgggcccagctcctggaagagctccgccggctgaaggatatgcacaagagcaatgtcctc tgctgtggcaagaaggtctggttggaccccagtgagaccaatgaaatcgccaatgccagc tcccatcagcagatccgaaagctaatcaaagatgggctgatcatcggcaagcctgtgatg gtccattcccaggctccatgccagaaaaacaccttggcctcccggaagggcaggcacacg ggcataggtaagcggaagggtacagccaacgtccgaatgccagaggtcacgtggataagg agaatgaggattctgtgctggctactcagaagataccgtgaatctaagaagattgatcgc cacatgtatcacagcctgtacctgaaggtgaaggggaatgtgttcaaaaacaagcggatt atcctggaacacatccacaagctgaaagcagacaaggcctacaagaagctcctggctgac caggcggaggcccgcaggtctaagaccaaggaagtgtgggcagaggattacccagggtct gccatcttagcctctcatccctctgtaggctccagagctaaggaccaccagccctcgggt ccggagtgtctgccactcccagaggccaatgctgaagccatcgacttcctcagctccctc cacaaggaggagctacagatgctgttcttctctgagacgctggccatggtctcagacacc ggggagcctcagggagagctgaccattgaggtgcagagagggaaataccaggaaaaactc ggcatgctgacatactgcctcttcgtgcatgcctctagccgaggcttcttggacaaaatg ctctgcggaaattccctcctgggctatctctcagagaagctggagctcatggaacagcac agccaagacttcatcaagttcctcatcctccccatggaacggaagatgagtttgctgaag caggatgatcagctggctgtgaccagaagtatcaaggagggtgagatcagttctgaacag gaagtgaagactggagtgacttctttcccctggagctcaatcaagggcttcatctcagag gctgccaacctggtgctgctcagggtgatggcctggcggcggatggtgcccagcaatgcc cgcttcctgaccttggacaccgagggcaaactctgctatttgacctatcaaaacctgggc ttccagaccatccaggtagaccatcagcaggctgaagtcttcatcgtggagcagactgtc cacgcggaggagggcatccccatgtcctgccagtactacctgctctccgatgggcacctg gccaagagaatacaggtgggctccccagggtgctgcatcatcaccaagatgcccatcttg agggaagaggatgagattgagccacgcccagtgtttgagaagaagcccctggtatgggag gaggatatggagctctattcgaagttcctggaccggaaggaggagctccggctcggccac gccagctatctgcggcagcaccccgaagcccacgcgctcatctccgacttcctgctcttc ctgctgctgcgccagccggaggacgtggtcaccttcgccgccgagttcttcggccccttc gacccgtggcacctgctgctgcagactccagagacgctttgctctctagtggacggtgac aagggtccccaaaggctaagcgggtccagctatggttccatctccagcccgaccagcccg accagcccagggccacagcaagcacctcccagagagacctacctgagtgagaagatcccc atcccagacacaaaaccgggcaccttcagcctgcggaagctatgggccttcacggggcct ggcttcctcatgagcattgctttcctggacccaggaaacatcgagtcagatcttcaggct ggcgccgtggcgggattcaaacttctctgggtgctgctctgggccaccgtgttgggcttg ctctgccagcgactggctgcacgtctgggcgtggtgacaggcaaggacttgggcgaggtc tgccatctctactaccctaaggtgccccgcaccgtcctctggctgaccatcgagctagcc attgtgggctccgacatgcaggaagtcatcggcacggccattgcattcaatctgctctca gctggacgaatcccactctggggtggcgtcctcatcaccatcgtggacaccttcttcttc ctcttcctcgataactacgggctgcggaagctggaagctttttttggactccttataacc attatggccttgacctttggctatgagggagcgcttcttcggggcctgttcctgccctcg tgcccgggctgcggccaccccgagctgctgcaggcggtgggcattgttggcgccatcatc atgccccacaacatctacctgcactcggccctggtcaagtctcgagagatagaccgggcc cgccgagcagacatcagagaagccaacatgtacttcctgattgaggccaccatcgccctg tccgtctcctttatcatcaacctctttgtcatggctgtctttgggcaggccttctaccag aaaaccaaccaggctgcgttcaacatctgtgccaacagcagcctccacgactacgccaag atcttccccatgaacaacgccaccgtggccgtggacatttaccaggggggcgtgatcctg ggctgcctgttcggccccgcggccctctacatctgggccataggtctcctggcggctggg cagagctccaccatgacgggcacctacgcgggacagttcgtgatggagggcttcctgagg ctgcggtggtcacgcttcgcccgtgtcctcctcacccgctcctgcgccatcctgcccacc gtgctcgtggctgtcttccgggacctgagggacttgtcgggcctcaatgatctgctcaac gtgctgcagagcctgctgctcccgttcgccgtgctgcccatcctcacgttcaccagcatg cccaccctcatgcaggagtttgccaatggcctgctgaacaaggtcgtcacctcttccatc atggtgctagtctgcgccatcaacctctacttcgtggtcagctatctgcccagcctgccc caccctgcctacttcggccttgcagccttgctggccgcagcctacctgggcctcagcacc tacctggacgggggacggcagagtaatgggcaggttggtcaagaagacacggagacccgg ctaaagggctacccaggacctgggcaaagggctagtgatgaggtcgcgccaagaccgggg gcacctcgccctggggctgcggggggcggcgaccgtcccattcaagagcgtgattctgag gtttgcacagctgtttcgggccagcagagccttcgctggctcttgacgtccttgcgaggt gatctctgcgaccaccagacaggagagaagacccattttacagatgaggtagtgctatct ccaagtcctcaacgaggaaaccgagaagcctctagtcccgggtcttcagaaaacgcagag gtggagccgcgccgcactcgggcactccccggcgtgggcgctcccggcgggcgggccttg gccgagggcgctcggcggcctggaacgccgggggggaggccgggcgcccgggccagagtc cggccggagcggagcgcgcccggccccatggacagctcggccgtcattactcagatcagc aaggaggaggctcggggcccgctgcggggcaaaggtgaccagaagtcagcagcttcccag aagccccgaagccggggcatcctccactcactcttctgctgtgtctgccgggatgatggg gaggccctgcctgctcacagcggggcgcccctgcttgtggaggagaatggcgccatccct aagcagaccccagtccaatacctgctccctgaggccaaggcccaggactcagacaagatc tgcgtggtcatcgacctggacgagaccctggtgcacagctccttcaagccagtgaacaac gcggacttcatcatccctgtggagattgatggggtggtccaccaggtctacgtgttgaag cgtcctcacgtggatgagttcctgcagcgaatgggcgagctctttgaatgtgtgctgttc actgctagcctcgccaagtacgcagacccagtagctgacctgctggacaaatggggggcc ttccgggcccggctgtttcgagagtcctgcgtcttccaccgggggaactacgtgaaggac ctgagccggttgggtcgagacctgcggcgggtgctcatcctggacaattcacctgcctcc tatgtcttccatccagacaatgctgtaccggtggcctcgtggtttgacaacatgagtgac acagagctccacgacctcctccccttcttcgagcaactcagccgtgtggacgacgtgtac tcagtgctcaggcagccacggccagggagctactcagagctgcacgactgggaactagga gccgtggcagcaccccacttacaacagagccgcaactcaagctcactcaccatgaccaag ctgagcgcccaagtcaaaggctctctcaacatcaccaccccggggctgcagatatggagg atcgaggccatgcagatggtgcctgttccttccagcacctttggaagcttcttcgatggt gactgctacatcatcctggctatccacaagacagccagcagcctgtcctatgacatccac tactggattggccaggactcatccctggatgagcagggggcagctgccatctacaccaca cagatggatgacttcctgaagggccgggctgtgcagcaccgcgaggtccagggcaacgag agcgaggccttccgaggctacttcaagcaaggccttgtgatccggaaagggggcgtggct tctggcatgaagcacgtggagaccaactcctatgacgtccagaggctgctgcatgtcaag ggcaagaggaacgtggtagctggagaggtagagatgtcctggaagagtttcaaccgaggg gatgttttcctcctggaccttgggaagcttatcatccagtggaatggaccggaaagcacc cgtatggagagactcaggggtgtagggtggcagacactgcctcattccccgactactccc gatgggtcaccaggggccttcctgcagggcatgactctggccaaggagatccgagaccag gagcggggagggcgcacctatgtaggcgtggtggacggagagaatgaattggcatccccg aagctgatggaggtgatgaaccacgtgctgggcaagcgcagggagctgaaggcggccgtg cccgacacggtggtggagccggcactcaaggctgcactcaaactgtaccatgtgtctgac tccgaggggaatctggtggtgagggaagtcgccacacggccactgacacaggacctgctc agtcacgaggactgttacatcctggaccaggggggcctgaagatctacgtgtggaaaggg aagaaagccaatgagcaggagaagaagggagccatgagccatgcgctggtagtgaacttc atcaaagccaagcagtacccaccaagcacacaggtggaggtgcagaatgatggggctgag tcggccgtctttcagcagctcttccagaagtggacagcgtccaaccggacctcaggccta ggcaaaacccacactgtgggctccgtggccaaagtggaacaggtgaagttcgatgccaca tccatgcatgtcaagcctcaggtggctgcccagcagaagatggtagatgatgggagtggg gaagtgcaggtgtggcgcattgagaacctagagctggtacctgtggattccaagtggcta ggccacttctatgggggcgactgctacctgctgctctacacctacctcatcggcgagaag cagcattacctgctctacgtttggcagggcagccaggccagccaagatgaaattacagca tcagcttatcaagccgtcatcctggaccagaagtacaatggtgaaccagtccagatccgg gtcccaatgggcaaggagccacctcatcttatgtccatcttcaagggacgcatggtggtc taccagggaggcacctcccgaactaacaacttggagaccgggccctccacacggctgttc caggtccagggaactggcgccaacaacaccaaggcctttgaggtcccagcgcgggccaat ttcctcaattccaatgatgtctttgtcctcaagacccagtcttgctgctatctatggtgt gggaagggttgtagcggggacgagcgggagatggccaagatggttgctgacaccatctcc cggacggagaagcaagtggtggtggaagggcaggagccagccaacttctggatggccctg ggtgggaaggccccctatgccaacaccaagagactacaggaagaaaacctggtcatcacc ccccggctctttgagtgttccaacaagactgggcgcttcctggccacagagatccctgac ttcaatcaggatgacttggaagaggatgatgtgttcctactagatgtctgggaccaggtc ttcttctggattgggaaacatgccaacgaggaggagaagaaggccgcagcaaccactgca caggaatacctcaagacccatcccagcgggcgtgaccctgagacccccatcattgtggtg aagcagggacacgagccccccaccttcacaggctggttcctggcttgggatcccttcaag tggagtaacaccaaatcctatgaggacctgaaggcggagcttggcaactctagggactgg agccagatcactgctgaggtcacaagccccaaagtggacgtgttcaatgctaacagcaac ctcagttctgggcctctgcccatcttccccctggagcagctagtgaacaagcctgtagag gagctccccgagggtgtggaccccagcaggaaggaggaacacctgtccattgaagatttc actcaggcctttgggatgactccagctgccttctctgctctgcctcgatggaagcaacaa aacctcaagaaagaaaaaggactattttga >gi568815596f:218300091_218504422|GENSCAN_predicted_peptide_3|572_aa XRFAHLLVKKDICNSETKKDLLKKVKNAISATAERFSGYMQNDAHEFLSQCLDQLKEDME KLNKTWKTEPVSGEENSPDISATRAYTCPVITNLEFEVQHSIICKACGEIIPKREQFNDL SIDLPRRKKPLPPRSIQDSLDLFFRAEELEYSCEKCGGKCALVRHKFNRLPRVLILHLKR YSFNVALSLNNKIGQQVIIPRYLTLSSHCTENTKPPFTLGWSAHMAMKFTFKSKSSLALC LDSDSEDELKRSVALSQRLCEMLGNEQQQEDLEKDSKLCPIEPDKSELENSGFDRMSEEE LLAAVLEISKRDASPSLSHEDDDKPTSSPDTGFAEDDIQEMPENPDTMETEKPKTITELD PASFTEITKDCDENKENKTPEGSQGEVDWLQQYDMEREREEQELQQALAQSLQEQEAWEQ KEDDDLKRATELSLQEFNNSFVDALGSDEDSGNEDVFDMEYTEAEAEELKRNAETGNLPH SYRLISVVSHIGSTSSSGHYISDVYDIKKQAWFTYNDLEVSKIQEAAVQSDRDRSGYIFF YMHKEIFDELLETEKNSQSLSTEVGKTTRQAL >gi568815596f:218300091_218504422|GENSCAN_predicted_CDS_3|1719_bp nnacgctttgcacacttgcttgttaaaaaagatatctgtaattcagagaccaaaaaggat ttactcaagaaggttaaaaatgccatttcagctacagcagagagattctctggttatatg cagaatgatgctcatgaatttttaagtcagtgtttggaccagctgaaagaagatatggaa aaattaaataaaacttggaagactgaacctgtttctggagaagaaaattcaccagatatt tcagctaccagagcatacacttgccctgttattactaatttggagtttgaggttcagcac tccatcatttgtaaagcatgtggagagattatccccaaaagagaacagtttaatgacctc tctattgaccttcctcgtaggaaaaaaccactccctcctcgttcaattcaagattctctt gatcttttctttagggccgaagaactggagtattcttgtgagaagtgtggtgggaagtgt gctcttgtcaggcacaaatttaacaggcttcctagggtcctcattctccatttgaaacga tatagcttcaatgtggctctctcgcttaacaataagattgggcagcaagtcatcattcca agatacctgaccctgtcatctcattgcactgaaaatacaaaaccaccttttacccttggt tggagtgcacatatggcaatgaaattcaccttcaaatccaagagctccttggctttatgc cttgattcagacagtgaggatgagctaaaacgttctgtggccctcagccagagactttgt gaaatgttaggcaacgaacagcagcaggaagacctggaaaaagattcaaaattatgccca atagagcctgacaagtctgaattggaaaactcaggatttgacagaatgagcgaagaagag cttctagcagctgtcttggagataagtaagagagatgcttcaccatctctgagtcatgaa gatgatgataagccaactagcagcccagataccggatttgcagaagatgatattcaagaa atgccagaaaatccagacactatggaaactgagaagcccaaaacaatcacagagctggat cctgccagttttactgagataactaaagactgtgatgagaataaagaaaacaaaactcca gaaggatctcagggagaagttgattggctccagcagtatgatatggagcgtgaaagggaa gagcaagagcttcagcaggcactggctcagagccttcaagagcaagaggcttgggaacag aaagaagatgatgacctcaaaagagctaccgagttaagtcttcaagagtttaacaactcc tttgtggatgcattgggttctgatgaggactctggaaatgaggatgtttttgatatggag tacacagaagctgaagctgaggaactgaaaagaaatgctgagacaggaaatctgcctcat tcgtaccggctcatcagtgttgtcagtcacattggtagcacttcttcttcaggtcattac attagtgatgtatatgacattaagaagcaagcgtggtttacttacaatgacctggaggta tcaaaaatccaagaggctgccgtgcagagtgatcgagatcggagtggctacatcttcttt tatatgcacaaggagatctttgatgagctgctggaaacagaaaagaactctcagtcactt agcacggaagtggggaagactacccgtcaggccttgtga