Result of GENSCAN for
pF1KA1567
GENSCAN 1.0 Date run: 4-Nov-116 Time: 01:39:02 Sequence gi568815597f:35716881_35953602 : 236722 bp : 43.28% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.24 Intr - 2182 1827 356 2 2 37 78 198 0.110 8.71 1.23 Intr - 11811 11784 28 0 1 89 92 -7 0.018 -2.51 1.22 Intr - 20195 20034 162 2 0 110 80 34 0.902 4.97 1.21 Intr - 20541 20459 83 1 2 88 77 14 0.937 -0.34 1.20 Intr - 21217 21112 106 1 1 98 89 118 0.995 12.69 1.19 Intr - 21702 21575 128 1 2 66 58 129 0.749 8.10 1.18 Intr - 22377 22256 122 2 2 117 38 102 0.743 8.24 1.17 Intr - 22649 22485 165 1 0 70 29 222 0.999 13.58 1.16 Intr - 26361 26261 101 0 2 36 63 124 0.998 3.61 1.15 Intr - 26650 26575 76 0 1 69 105 124 0.999 11.72 1.14 Intr - 28682 28571 112 0 1 64 108 1 0.177 -0.86 1.13 Intr - 30112 29886 227 0 2 70 61 177 0.310 10.83 1.12 Intr - 31181 31027 155 2 2 57 69 81 0.818 1.97 1.11 Intr - 31724 31525 200 0 2 99 116 3 0.646 3.27 1.10 Intr - 32651 32587 65 1 2 95 106 48 0.998 5.66 1.09 Intr - 32931 32753 179 0 2 -11 98 139 0.624 3.72 1.08 Intr - 34626 34370 257 1 2 87 -6 412 0.644 28.86 1.07 Intr - 37056 36865 192 1 0 35 68 173 0.990 9.46 1.06 Intr - 44036 43462 575 1 2 96 74 331 0.853 24.88 1.05 Intr - 44324 44216 109 0 1 55 63 34 0.602 -3.06 1.04 Intr - 46441 46276 166 1 1 60 42 114 0.382 3.53 1.03 Intr - 47834 47386 449 0 2 59 88 183 0.824 8.47 1.02 Intr - 48446 48338 109 2 1 87 68 100 0.999 7.76 1.01 Init - 52805 52626 180 2 0 86 9 149 0.821 4.00 1.00 Prom - 53577 53538 40 -6.16 2.00 Prom + 59968 60007 40 -2.26 2.01 Init + 80836 80969 134 0 2 84 87 48 0.484 3.91 2.02 Intr + 91431 91555 125 0 2 66 93 159 0.438 14.43 2.03 Intr + 100002 100167 166 1 1 56 110 106 0.571 8.62 2.04 Intr + 105982 106102 121 1 1 20 110 79 0.233 3.80 2.05 Intr + 108433 108614 182 0 2 86 88 34 0.969 1.87 2.06 Intr + 108799 108935 137 1 2 106 58 33 0.983 2.31 2.07 Intr + 109046 109180 135 0 0 57 107 106 0.991 9.94 2.08 Intr + 114657 114694 38 1 2 48 107 -21 0.425 -6.22 2.09 Intr + 114932 115051 120 1 0 108 65 61 0.945 6.49 2.10 Intr + 115177 115305 129 0 0 96 102 33 0.970 6.39 2.11 Intr + 115557 115690 134 2 2 84 87 52 0.984 4.14 2.12 Intr + 117110 117294 185 2 2 70 56 98 0.396 4.23 2.13 Intr + 124344 124600 257 1 2 4 78 314 0.122 19.16 2.14 Intr + 124736 124870 135 1 0 123 90 47 0.997 9.16 2.15 Intr + 133277 133378 102 1 0 146 91 31 0.759 9.57 2.16 Intr + 133974 134077 104 2 2 68 40 56 0.257 -2.23 2.17 Intr + 156479 156564 86 2 2 67 89 47 0.008 2.16 2.18 Intr + 171547 171730 184 2 1 109 131 311 0.993 36.35 2.19 Intr + 175677 175797 121 0 1 96 90 122 0.999 13.70 2.20 Intr + 176217 176398 182 2 2 47 57 194 0.776 10.87 2.21 Intr + 176794 176930 137 1 2 92 101 138 0.963 15.71 2.22 Intr + 177157 177291 135 2 0 92 72 189 0.641 18.24 2.23 Intr + 177435 177522 88 1 1 27 105 98 0.860 4.43 2.24 Intr + 178242 178389 148 0 1 100 78 -14 0.779 -0.96 2.25 Intr + 184594 184713 120 0 0 114 65 111 0.998 12.09 2.26 Intr + 185068 185190 123 0 0 116 88 226 0.991 26.18 2.27 Intr + 185324 185457 134 1 2 80 80 173 0.895 15.14 2.28 Intr + 190055 190239 185 2 2 89 47 233 0.881 18.73 2.29 Intr + 196962 197155 194 1 2 91 76 121 0.829 10.41 2.30 Intr + 198468 198662 195 2 0 56 91 229 0.972 19.61 2.31 Intr + 200713 200847 135 0 0 82 72 129 0.999 11.46 2.32 Intr + 201442 201543 102 0 0 60 70 96 0.975 5.37 2.33 Intr + 202175 202374 200 1 2 118 94 229 0.983 24.65 2.34 Intr + 212041 212171 131 1 2 104 84 -17 0.011 -0.16 2.35 Intr + 214349 214565 217 0 1 95 109 96 0.902 9.96 2.36 Term + 214725 214854 130 0 1 113 39 40 0.850 -0.75 2.37 PlyA + 217269 217274 6 1.05 3.00 Prom + 224716 224755 40 -4.66 3.01 Init + 228868 228983 116 0 2 112 110 69 0.484 11.19 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 202619 202727 109 2 1 80 49 66 0.818 -0.12 S.002 Init + 214065 214260 196 2 1 40 44 175 0.883 5.43 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597f:35716881_35953602|GENSCAN_predicted_peptide_1|1434_aa MGSDRASRPAAGLPALRAPWPESSRSLRRALPAAQPLFSRFLPPALPFGAFPVAEAPPLR VHLEINDPNVISQEEADSPSDSGQGSYETIGPLSEGDSDEEIFVSKKLKNRKVLQDSDSE TEDTNASPEKTTYDSAEEENKENLYAGKNTKIKRIYKTVADSDESYMEKSLYQENLEAQV KPCLELSLQSGNSTDFTTDRKSSKKHIHDKEGTAGKAKVKSKRRLEKEERKMEKIRQLKK KETKNQEDDVEQPFNDSGCLLVDKDLFETGLEDENNSPLEDEESLESIRAAVKNKVKKHK AKSALNLPYHMPENKTIHDFFKRKPRPTCHGNAMALLKSSKYQSSHHKEIIDTANTTEMN SDHHSKGSEQTTGAENEVETNALPVVSKETQIITGSDESCRKDLVKNEELEIQEKQKQSD IRPSPGDSSVLQQESNFLGNNHSEECQVGGLVAFEPHALEGEGPQNPEETDEKVEEPEQQ NKSSAVGPPEKVRRFTLDRLKQLGVDVSIKPRLGADEDSFVILEPETNRELEALKQRFWK HANPAAKPRAGQTVNVNVIVKDMGTDGKEELKADVVPVTLAPKKLDGASHTKPGEKLQVL KAKLQEAMKLRRFEERQKRQALFKLDNEDGFEEEEEEEEEMTDESEEDGEEKVEKEEKEE ELEEEEEKEEEEEEEGNQETAEFLLSSEEIETKDEKEMDKENNDGSSEIGKAVGFLSVPK SLSSDSTLLLFKDSSSKMGYFPTEEKSETDENSGKQPSKLDEDDSCSLLTKESSHNSSFE LIGSTIPSYQPCNRQTGRGTSFFPTAGGFRSPSPGLFRASLVSSASKSSGKLSEPSLPIE DSQDLYNASPEPKTLFLGAGDFQFCLEDDTQSQLLDADGFLNVRNHRNQYQALKPRLPLA SMDENAMDANMDELLDLCTGKFTSQAEKHLPRKSDKKENMEELLNLCSGKFTSQDASTPA SSELNKQEKESSMGDPMEEALALCSGSFPTDKEEEDEEEEFGDFRLVSNDNEFDSDEDEH SDSGNDLALEDHEDDDEEELLKRSEKLKRQMRLRKYLEDEAEVSGSDVGSEDEYDGEEID EYEEDVIDEVLPSDEELQSQIKKIHMKTMLDDDKRQLRLYQERYLADGDLHSDGPGRMRK FRWKNIDDASQMDLFHRDSDDDQTEEQLDESEARWRKERIEREQWLRDMAQQGKITAEEE EEIGEDSQFMILAKKVTAKALQKNASRPMVIQESKSLLRNPFEAIRPGSAQQVKTGSLLN QPKAVLQKLAALSDHNPSAPRNSRNFVFHTLSPVKAEAAKESSKSQPSVPYTEWAARLTD GKGPANANRREHRTWKAWVNAAPRGGEAVPAQGPGAGLRGKPNRPTWDRSLRPAAQTPPD SAVRDWGWARCPGAPHPRLDRGDAQAEEPPAQGLDTTRAGRSQSQTRRSGRLYA >gi568815597f:35716881_35953602|GENSCAN_predicted_CDS_1|4302_bp atgggttccgaccgggcatcccgtcccgccgccgggcttcccgcgcttcgggctccgtgg ccggagagctccaggtctctgcggcgcgcactgccggcagcccagcccctcttcagccgg ttcctgccgccagccctcccctttggcgcgtttcctgtcgcggaagctcctcccctcagg gttcacctagaaatcaatgacccaaacgtcatttcacaagaggaagcagatagtccttca gatagtggacagggcagctatgaaacaattggacccttgagtgaaggagattcagatgaa gagatatttgtaagtaagaagttgaaaaacaggaaggttctacaagacagtgattccgaa acagaggacacaaatgcctctccagagaaaactacctatgacagtgccgaggaggaaaat aaagagaatttatatgctgggaaaaatacaaaaatcaaaaggatttacaaaactgtggca gacagtgatgaaagttacatggaaaagtctttgtatcaggaaaatcttgaagcgcaagtg aaaccttgcttagagctgagtcttcagtctggaaactctacagactttaccactgacaga aagagttccaaaaagcacatacatgataaagaaggaactgcaggaaaagcaaaagtaaaa tcaaaaagaagacttgagaaagaggagagaaaaatggaaaaaattagacagctaaaaaag aaggaaacaaaaaaccaggaagatgatgtagaacagccatttaatgacagtggctgtctt cttgtggataaagacctttttgaaactgggttggaggatgaaaataactctccattggaa gatgaagagtcattagaatcaataagagcagctgtaaaaaacaaagtaaaaaagcacaag gcaaagtctgcactgaaccttccatatcatatgcctgagaataaaaccattcatgatttc ttcaaacgtaaaccccggcccacttgccacggaaatgccatggcactattgaagtcatct aaatatcagtcaagccatcacaaagaaatcatagacactgcaaatactactgaaatgaac agtgatcaccatagtaaaggttctgagcagacaacaggtgcagaaaatgaagtggaaact aatgcactccctgtagtttcaaaggaaacccagatcattactggatcagatgagtcttgc aggaaggatttggtaaaaaatgaagagctagaaattcaggagaaacagaagcagagtgac attagaccttcacctggggacagctcagtgttgcaacaggaatccaacttcctcgggaac aatcacagtgaggaatgtcaggttggagggcttgtagcatttgaacctcatgccctggag ggtgaaggcccccaaaatccagaagaaacagatgagaaagtggaagagcctgagcagcaa aataaatcatcagcagttgggccacctgaaaaagtgagacggtttactctggatagactt aagcaactgggagtagatgtttccattaaaccacggctaggtgctgatgaagattccttt gtgatacttgaacctgaaaccaacagagaactggaagccttgaagcagcgtttctggaag catgctaatccagcagccaaacccagggctggtcagacagtgaatgtgaacgtcatagtg aaagacatgggcactgatggaaaggaagagctaaaagcagatgtggtacctgtgacttta gcacctaagaagttggatggagcaagccacacaaaaccaggtgaaaagcttcaggtgtta aaagctaaactgcaagaagcaatgaaactccgaaggtttgaggagcgccagaagcgccaa gcactgtttaaattagataatgaagatgggtttgaggaagaggaggaggaagaggaagaa atgacagatgagtctgaggaagatggagaagagaaggtagagaaagaagagaaagaggaa gaactagaggaagaggaggagaaagaagaggaggaggaagaagaaggaaatcaggagact gcagaattccttcttagtagtgaagaaatagaaacaaaagatgaaaaagaaatggataaa gaaaataatgatggcagtagtgaaattggcaaggcagttggcttcctctctgttcccaag tctctctcatcagattctactttacttctgtttaaggacagctcttccaagatgggttac tttcctactgaagaaaaatcagaaacagatgaaaactcaggcaagcagcctagcaaactg gatgaggatgattcatgttcattgctaacaaaggagagcagccacaatagcagctttgag ctgattggctccacgattccatcctatcagccttgcaacagacaaacaggccgtgggacc agttttttccctacagcaggaggattcagatctccttcccctgggctatttcgagccagt ttggtcagctcagcttctaagagttcagggaaactgtctgagccttcacttcccatagag gattcccaggatctgtataacgcctccccagagcctaagacacttttcctaggagcagga gacttccagttctgtttagaagatgacactcagagccaactgttggatgcagatgggttc ttaaatgttagaaaccacaggaatcagtaccaagctttgaagcctcgattgccattggcc agtatggatgagaatgccatggatgccaacatggatgagctgttggatttgtgtactgga aagttcacatctcaggctgaaaaacatctacccaggaagagtgacaagaaagagaacatg gaggaacttctgaacctttgttcaggaaaattcacttctcaggatgcctccactccagcc tcatcagagttaaataaacaggagaaggagagcagcatgggtgatccaatggaagaagca cttgctctttgctcaggctcttttcccacagacaaggaagaggaagacgaggaggaggaa tttggagactttcggcttgtttcaaatgataatgagtttgatagtgatgaggatgaacac agtgactctggtaatgatctggcactggaagaccatgaagatgatgatgaagaagaactc ctgaagcgatctgagaagttgaaaaggcaaatgaggttgaggaaatacctggaggatgag gcagaggtgtcaggaagtgatgtgggaagcgaagatgagtatgatggggaagaaattgat gaatatgaagaggacgtaattgatgaagtacttccttctgatgaggaactgcagagtcaa atcaagaaaatacacatgaaaactatgttggatgatgataagcgacagctacgtttatac caagagaggtaccttgctgatggggatctgcacagcgatggtcctgggcgaatgaggaag tttcgatggaaaaacatagatgatgcttcccagatggacttgttccacagagactctgat gatgatcagactgaagaacagcttgatgagtcagaagccaggtggaggaaggagcgaatt gaacgagagcagtggcttcgggacatggcacagcaggggaaaattacagctgaagaagaa gaagaaattggggaggacagtcagtttatgatactggccaagaaagttacagccaaagca ctgcagaagaatgccagtcgccctatggttattcaggaatcaaagtctttgctcagaaat ccttttgaagccatcagaccaggaagtgctcaacaggtgaagacaggctcactgctaaac cagcccaaagctgtgcttcagaaactggctgctctctctgaccataaccccagtgctcct cgaaattcaagaaactttgtctttcatacactttctcctgtcaaggctgaggcggcaaag gaatcgtctaagtctcagccctcagtcccttacacagagtgggcagcgaggctaactgat gggaagggcccagcgaatgccaataggagagagcaccggacctggaaggcctgggtcaac gcggccccgcgcgggggcgaagcggttccggcgcaggggcctggcgcggggctccgcgga aaaccgaaccggcccacgtgggaccggtcgctccgccctgctgcgcagacgccgcctgac tccgcagtccgggactggggctgggcgcgctgcccgggagccccgcacccacgcctggac cgcggagacgcccaggccgaggaacccccagcccagggactagacaccaccagggccggg cggagccagagccagacgcgccggagcgggcgcctctacgcc >gi568815597f:35716881_35953602|GENSCAN_predicted_peptide_2|1716_aa MAYKIEIGELEYKSEFECRLISFHNSFPLLHLKEEKEKSIGVVKNANIPEIKRYAAAAAA AAGPGAGGAGDRGEAAPAAAMEALGPGPPASLFQPPRRPGLGTVGKPIRLLANHFQVQIP KIDVYHYDVDIKPEKRPRRVNREVVDTMVRHFKMQIFGDRQPGYDGKRNMYTAHPLPIGR DRVDMEVTLPGEGKDQTFKVSVQWVSVVSLQLLLEALAGHLNEVPDDSVQALDVITRHLP SMRYTPVGRSFFSPPEGYYHPLGGGREVWFGFHQSVRPAMWNMMLNIDVSATAFYRAQPI IEFMCEVLDIQNINEQTKPLTDSQRVKFTKEIRVGQEQKHTYLPLEVCNIVAGQRCIKKL TDNQTSTMIKATARSAPDRQEEISRLVKSNSMVGGPDPYLKEFGIVVHNEMTELTGRVLP APMLQYGGRNKTVATPNQGVWDMRGKQFYAGIEIKVWAVACFAPQKQCREDLLKSFTDQL RKISKDAGMPIQGQPCFCKYAQGADSVEPMFKHLKMTYVGLQLIVVILPGKTPVYAGDGK KPSIAAVVGSMDGHPSRYCATVRVQTSRQEISQELLYSQEVIQDLTNMVRELLIQFYKST RFKPTRIIYYRGGVSEGQMKQVAWPELIAIRKACISLEEDYRPGITYIVVQKRHHTRLFC ADKTERVGKSGNVPAGTTVDSTITHPSEFDFYLCSHAGIQGTSRPSHYQVLWDDNCFTAD ELQLLTYQLCHTYVRPLVALDVLEALLNGLYWSRVDLTHLDDGAAGAYLPPLQQVFQAPR RPGIGTVGKPIKLLANYFEVDIPKIDVYHYEVDIKPDKCPRRVNREVVEYMVQHFKPQIF GDRKPVYDGKKNIYTVTALPIGNERVDFEVTIPGEGKDRIFKVSIKWLAIVSWRMLHEAL VSGQIPVPLESVQALDVAMRHLASMRYTPVGRSFFSPPEGYYHPLGGGREVWFGFHQSVR PAMWKMMLNIDVSATAFYKAQPVIEFMCEVLDIRNIDEQPKPLTDSQRVRFTKEIKGLKV EVTHCGQMKRKYRVCNVTRRPASHQTFPLQLESGQTVECTVAQYFKQKYNLQLKYPHLPC LQVGQEQKHTYLPLEVCNIVAGQRCIKKLTDNQTSTMIKATARSAPDRQEEISRLMKNAS YNLDPYIQEFGIKVKDDMTEVTGRVLPAPILQYGGRNRAIATPNQGVWDMRGKQFYNGIE IKVWAIACFAPQKQCREEVLKNFTDQLRKISKDAGMPIQGQPCFCKYAQGADSVEPMFRH LKNTYSGLQLIIVILPGKTPVYAEVKRVGDTLLGMATQCVQVKNVVKTSPQTLSNLCLKI NVKLGGINNILVPHQRYELCCPLALVKVVGSMDAHPSRYCATVRVQRPRQEIIEDLSYMV RELLIQFYKSTRFKPTRIIFYRDGVPEGQLPQILHYELLAIRDACIKLEKDYQPGITYIV VQKRHHTRLFCADKNERIGKSGNIPAGTTVDTNITHPFEFDFYLCSHAGIQGTSRPSHYY VLWDDNRFTADELQILTYQLCHTYVRCTRSVSIPAPAYYARLVAFRARYHLVDKEHDRTT SVTRYEGRVLACLLSPILEAHLFIHLSVHQSNKYTECCYVPVLCRFPSATLPAQSFRSAV AQGKPSPPPPRGRVRVPVASRRVAPRAASLPPVAGSVLPRSTPPSSMNGNRLRSPAPVPR GPLSRRNCEAGKRLEDLSLGLSRRHYSLLEYPSSRL >gi568815597f:35716881_35953602|GENSCAN_predicted_CDS_2|5151_bp atggcctataaaattgaaattggagaattagaatataaatcggaatttgaatgcaggctt atctcatttcataattcattccctttacttcatcttaaggaagagaaagaaaaatcaatt ggtgtggttaaaaacgccaatattccggagatcaagcgttacgcggcggcggcggcggcg gcggcggggcccggagcgggaggcgccggggaccggggcgaggcggcccccgccgccgcc atggaggcgctgggacccggacctccggctagcctgtttcagccacctcgtcgtcctggc cttggaactgttggaaaaccaattcgactgttagccaatcattttcaggttcagattcct aaaatagatgtgtatcactatgatgtggatattaagcctgaaaaacggcctcgtagagtc aacagggaggtagtagatacaatggtgcggcacttcaagatgcaaatatttggtgatcgg cagcctgggtatgatggcaaaagaaacatgtacacagcacatccactaccaattggacgg gatagggttgatatggaggtgactcttccaggcgagggtaaagaccaaacatttaaagtg tctgttcagtgggtgtcagttgtgagccttcagttgcttttagaagctttggctgggcac ttgaatgaagtcccagatgactcagtacaagcacttgatgttatcacaagacaccttccc tccatgaggtacaccccagtgggccgttcctttttctcacccccggaaggttactaccac cctctgggagggggcagggaggtctggtttggttttcatcagtctgtgagacctgccatg tggaatatgatgctcaacattgatgtatctgcaactgctttctaccgggctcagcctatc attgagttcatgtgtgaggttttagacattcagaacatcaatgaacagaccaaacctcta acagactcccagcgtgtcaaatttaccaaagaaatcagagtgggacaagaacaaaagcat acatacttgccactcgaggtctgtaatatagtggcaggacagcgatgtatcaagaagctc acagacaatcagacttccacaatgatcaaagctacagcaagatctgctcctgacagacag gaagagatcagtagactggtgaagagcaacagtatggtgggtggacctgatccatacctt aaagaatttggtattgttgtccacaatgaaatgacagagctcacaggcagggtacttcca gcaccaatgctgcaatatggaggccggaataaaacagtagccacacccaaccagggtgtc tgggacatgcgaggaaagcagttttatgctggcattgaaattaaagtttgggcagttgct tgttttgcacctcagaaacaatgtagggaagatttactaaagagtttcactgaccagctg cgtaaaatctctaaggatgcaggaatgcccatccagggtcagccatgtttctgcaagtat gcacaaggtgcagacagtgtggagcctatgtttaaacatctgaaaatgacttatgtgggc ctacagctaatagtggttatcctgcctggaaagacaccagtatatgcaggggatgggaag aaaccttccattgctgctgtggttggcagtatggatggccaccccagccggtactgtgcc accgttcgggtgcagacttcccggcaggagatctcccaagagctcctctacagtcaagag gtcatccaggacctgactaacatggttcgagagctgctgattcagttctacaaatccaca cgcttcaaacccactcggatcatctattaccgtggaggggtatctgagggacaaatgaaa caggtagcttggccagaactaatagcaattcgaaaggcatgtattagcttggaagaagat taccggccaggaataacttatattgtggtgcaaaaaagacatcacacacgactcttctgt gcagataaaacagaaagggtagggaaaagtggcaatgtaccagcaggcactacagtggat agtaccatcacacatccatctgagtttgacttttacctctgtagtcatgcaggaattcag ggaaccagccgtccctcacattaccaggtcttgtgggatgacaactgcttcactgcagat gaactccagctactgacttaccagctgtgtcacacctatgtgagaccactggtagcactg gatgtcctggaagctcttcttaatgggctgtattggtcaagagtagatctcactcatctc gatgatggtgctgcgggcgcttacctgccccccctgcagcaggtgttccaggcacctcgc cggcctggcattggcactgtggggaaaccaatcaagctcctggccaattactttgaggtg gacatccctaagatcgacgtgtaccactacgaggtggacatcaagccggataagtgtccc cgtagagtcaaccgggaagtggtggaatacatggtccagcatttcaagcctcagatcttt ggtgatcgcaagcctgtgtatgatggaaagaagaacatttacactgtcacagcactgccc attggcaacgaacgggtcgactttgaggtgacaatccctggggaagggaaggatcgaatc tttaaggtctccatcaagtggctagccattgtgagctggcgaatgctgcatgaggccctg gtcagcggccagatccctgttcccttggagtctgtgcaagccctggatgtggccatgagg cacctggcatccatgaggtacacccctgtgggccgctccttcttctcaccgcctgagggc tactaccacccgctggggggtgggcgcgaggtctggttcggctttcaccagtctgtgcgc cctgccatgtggaagatgatgctcaacattgatgtctcagccactgccttttataaggca cagccagtgattgagttcatgtgtgaggtgctggacatcaggaacatagatgagcagccc aagcccctcacggactctcagcgcgttcgcttcaccaaggagatcaagggcctgaaggtg gaagtcacccactgtggacagatgaagaggaagtaccgcgtgtgtaatgttacccgtcgc cctgctagccatcagacattccccttacagctggagagtggacagactgtggagtgcaca gtggcacagtatttcaagcagaaatataaccttcagctcaagtatccccatctgccctgc ctacaagttggccaggaacaaaagcatacctaccttcccctagaggtctgtaacattgtg gctgggcagcgctgtattaaaaagctgaccgacaaccagacctcgaccatgataaaggcc acagctagatccgctccagacagacaggaggagatcagtcgcctgatgaagaatgccagc tacaacttagatccctacatccaggaatttgggatcaaagtgaaggatgacatgacggag gtgacagggcgagtgctgccggcgcccatcttgcagtacggcggccggaaccgggccatt gccacacccaatcagggtgtctgggacatgcgggggaaacagttctacaatgggattgag atcaaagtctgggccatcgcctgcttcgcaccccaaaaacagtgtcgagaagaggtgctc aagaacttcacagaccagctgcggaagatttccaaggatgcggggatgcctatccagggt caaccttgtttctgcaaatatgcacagggggcagacagcgtggagcctatgttccggcat ctcaagaacacctactcagggctgcagctcattattgtcatcctgccagggaagacgccg gtgtatgctgaggtgaaacgtgtcggagatacactcttgggaatggctacgcagtgtgtg caggtgaagaacgtggtcaagacctcacctcagactctgtccaacctctgcctcaagatc aatgtcaaacttggtggcattaacaacatcctagtcccacaccagcggtatgaactctgt tgtccacttgcccttgtcaaggtggtaggcagtatggatgcccaccccagccgatactgt gctactgtgcgggtacagcgaccacggcaagagatcattgaagacttgtcctacatggtg cgtgagctcctcatccaattctacaagtccacccgtttcaagcctacccgcatcatcttc taccgagatggggtgcctgaaggccagctaccccagatactccactatgagctactggcc attcgtgatgcctgcatcaaactggaaaaggactaccagcctgggatcacttatattgtg gtgcagaaacgccatcacacccgccttttctgtgctgacaagaatgagcgaattgggaag agtggtaacatcccagctgggaccacagtggacaccaacatcacccacccatttgagttt gacttctatctgtgcagccacgcaggcatccagggcaccagccgaccatcccattactat gttctttgggatgacaaccgtttcacagcagatgagctccagatcctgacgtaccagctg tgccacacttacgtacgatgcacacgctctgtctctatcccagcacctgcctactatgcc cgcctggtggctttccgggcacgataccacctggtggacaaggagcatgacagaacaacc agtgtcaccaggtatgagggcagagttttagcttgtttgctgagccccattcttgaagct catttatttattcacctatctgtccatcaatccaacaaatatactgaatgctgctatgtg ccagtcctgtgccgttttccgtccgcgactcttccggcccagagctttcggagtgcggtt gctcaggggaagccgtcgccgcccccgcctcggggccgagtgagagtgcccgtcgcgtcg cgccgcgtcgccccccgggccgcctccttgccgccagtggcgggctccgttctccctcga agcactccccccagctccatgaatggaaatcggctccgcagcccagccccagttccccgg gggcccctgagtcggcgaaactgcgaggcggggaaacgcttggaggatttaagtttgggg ttatctaggcggcattactctttgctggagtacccttcttctagactttag >gi568815597f:35716881_35953602|GENSCAN_predicted_peptide_3|39_aa MGKPIKLLANCFQVEIPKIDVYLYEVDIKPDKCPRRVNS >gi568815597f:35716881_35953602|GENSCAN_predicted_CDS_3|117_bp atgggcaaacccattaaactgctggctaactgttttcaagttgaaatcccaaagattgat gtctacctctatgaggtagatattaaaccagacaagtgtcctaggagagtgaacagn