Result of GENSCAN for
pF1KB6813
GENSCAN 1.0 Date run: 5-Nov-116 Time: 00:03:14 Sequence gi568815586r:56566203_56773065 : 206863 bp : 46.15% 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 Intr + 2773 2868 96 1 0 100 100 83 0.839 9.82 1.02 Intr + 3674 3788 115 2 1 71 116 113 0.869 12.85 1.03 Intr + 3822 4025 204 2 0 35 116 42 0.661 1.10 1.04 Intr + 5496 5653 158 2 2 93 100 114 0.791 11.91 1.05 Intr + 14982 15061 80 0 2 58 94 77 0.601 4.49 1.06 Intr + 15197 15306 110 0 2 113 95 33 0.998 6.50 1.07 Intr + 15631 15677 47 0 2 109 82 52 0.923 3.91 1.08 Intr + 22092 22172 81 0 0 104 94 80 0.416 8.95 1.09 Term + 27886 27994 109 1 1 76 54 73 0.380 0.68 1.10 PlyA + 28148 28153 6 1.05 2.62 PlyA - 29754 29749 6 1.05 2.61 Term - 32581 32416 166 0 1 98 54 267 0.790 21.69 2.60 Intr - 32809 32666 144 0 0 42 110 134 0.988 10.40 2.59 Intr - 33153 32927 227 0 2 72 72 123 0.792 5.88 2.58 Intr - 33646 33500 147 1 0 32 110 50 0.796 2.03 2.57 Intr - 33894 33762 133 2 1 76 83 128 0.947 11.75 2.56 Intr - 34288 33999 290 1 2 48 76 254 0.942 16.24 2.55 Intr - 34630 34479 152 2 2 111 67 84 0.981 8.48 2.54 Intr - 34896 34741 156 1 0 75 59 139 0.992 9.68 2.53 Intr - 35200 35044 157 1 1 92 100 -6 0.575 0.58 2.52 Intr - 35990 35344 647 0 2 96 100 189 0.974 12.60 2.51 Intr - 36655 36511 145 1 1 70 82 111 0.806 8.56 2.50 Intr - 37216 37157 60 1 0 120 67 64 0.989 6.43 2.49 Intr - 37498 37318 181 0 1 69 69 138 0.998 9.87 2.48 Intr - 38089 38015 75 0 0 108 75 83 0.995 7.63 2.47 Intr - 38597 38383 215 2 2 94 52 231 0.999 17.61 2.46 Intr - 39125 38871 255 2 0 104 109 135 0.971 14.84 2.45 Intr - 39861 39628 234 0 0 55 72 233 0.837 16.29 2.44 Intr - 40110 40045 66 0 0 53 100 89 0.530 5.70 2.43 Intr - 40531 40431 101 2 2 120 94 83 0.996 11.93 2.42 Intr - 43744 43534 211 1 1 97 87 186 0.992 17.89 2.41 Intr - 44013 43912 102 0 0 71 46 111 0.962 5.57 2.40 Intr - 44315 44207 109 1 1 69 90 90 0.997 7.59 2.39 Intr - 45431 45371 61 0 1 104 34 43 0.992 -1.71 2.38 Intr - 45663 45571 93 1 0 60 89 81 0.487 5.34 2.37 Intr - 47031 46813 219 1 0 73 115 118 0.999 11.27 2.36 Intr - 47936 47751 186 0 0 78 96 101 0.915 9.56 2.35 Intr - 49405 48812 594 2 0 141 75 283 0.864 24.84 2.34 Intr - 51246 51193 54 1 0 102 87 25 0.338 2.75 2.33 Intr - 67029 66951 79 0 1 50 76 48 0.112 -1.08 2.32 Intr - 68929 68743 187 0 1 86 94 118 0.391 11.89 2.31 Intr - 72221 72125 97 0 1 94 50 111 0.425 6.97 2.30 Intr - 73105 72904 202 1 1 110 94 221 0.967 23.76 2.29 Intr - 73990 73778 213 1 0 50 109 206 0.999 17.81 2.28 Intr - 76378 76256 123 1 0 97 110 95 0.999 13.38 2.27 Intr - 76629 76471 159 0 0 63 94 77 0.983 5.98 2.26 Intr - 77385 77201 185 1 2 93 121 225 0.999 25.81 2.25 Intr - 77756 77635 122 1 2 77 76 112 0.974 9.04 2.24 Intr - 78753 78579 175 1 1 108 98 138 0.999 15.80 2.23 Intr - 79151 78969 183 0 0 62 106 177 0.988 16.66 2.22 Intr - 79814 79635 180 0 0 47 119 128 0.483 11.64 2.21 Intr - 98598 98574 25 0 1 106 106 35 0.870 4.70 2.20 Intr - 100064 100002 63 2 0 47 95 94 0.550 4.91 2.19 Intr - 104162 104073 90 2 0 43 107 72 0.556 4.79 2.18 Intr - 106607 106538 70 1 1 50 101 -13 0.505 -4.62 2.17 Intr - 106863 106750 114 2 0 113 111 106 0.805 14.96 2.16 Intr - 121385 121295 91 0 1 41 84 53 0.003 -0.75 2.15 Intr - 122180 121796 385 2 1 34 82 122 0.001 0.62 2.14 Intr - 146706 146584 123 0 0 116 115 141 0.995 20.38 2.13 Intr - 146988 146860 129 0 0 69 59 95 0.980 5.59 2.12 Intr - 147481 147335 147 1 0 110 113 126 0.995 17.73 2.11 Intr - 148237 148160 78 1 0 76 116 108 0.999 12.15 2.10 Intr - 148485 148400 86 1 2 51 94 79 0.992 4.34 2.09 Intr - 150493 149669 825 2 0 87 30 222 0.127 7.69 2.08 Intr - 158321 158250 72 0 0 97 96 49 0.844 5.98 2.07 Intr - 168043 167945 99 2 0 61 83 91 0.972 5.98 2.06 Intr - 172323 172232 92 2 2 70 94 125 0.995 10.94 2.05 Intr - 173161 173092 70 2 1 104 95 59 0.999 6.44 2.04 Intr - 175374 175233 142 0 1 87 79 101 0.998 9.03 2.03 Intr - 180830 180741 90 2 0 45 48 94 0.209 1.29 2.02 Intr - 184993 184836 158 2 2 83 52 130 0.937 8.63 2.01 Init - 186096 185994 103 0 1 57 49 167 0.750 10.10 2.00 Prom - 187689 187650 40 -4.06 3.00 Prom + 192305 192344 40 -1.96 3.01 Init + 192386 192398 13 1 1 75 99 -2 0.705 0.11 3.02 Intr + 196996 197034 39 2 0 60 85 71 0.212 2.20 3.03 Term + 202642 202712 71 2 2 83 38 72 0.200 -0.20 3.04 PlyA + 203271 203276 6 1.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815586r:56566203_56773065|GENSCAN_predicted_peptide_1|333_aa XYGKIVSTKAILDKTTNKCKGERTTVLGVGEHHDAVSSVPGYGFVDFDSPSAAQKAVTAL KASGVQAQMAKGFVVSTKVPVLRFPEGLRTMKLSGQGLSVVLSRQSMSTPGCWRKMYSKS MAGSSISSLPFTKLLAARKQQEQDPTNLYISNLPLSMDEQELEGMLKPFGQVISTRILRD TSGTSRGVGFARMESTEKCEAIITHFNGKYIKTPPGVPAPSDPLLCKFADGGPKKRQNQG KFVQNGRAWPRNADMGVMALTYDPTTALQNGICRRLQLCKELTSPSTPLCLLPVFQSSAS SAYSCHSNVNPLGVEACHSNVNPWAVTLRHMML >gi568815586r:56566203_56773065|GENSCAN_predicted_CDS_1|1002_bp nnatatggcaagattgtttccactaaggccatactggacaagaccacaaacaaatgtaaa ggtgagagaacaactgtccttggtgttggagagcaccatgatgctgtttcctctgttcca ggctatggctttgtagattttgacagcccttcagcagcacagaaagctgtaacagcactg aaggccagcggtgtacaggcacagatggcaaaggggtttgtggttagcaccaaagttcca gttctaaggtttccagagggcttaagaaccatgaaattgagtgggcaagggctatccgtg gtgctttctagacagtccatgagcacccctggctgctggaggaagatgtattcaaagtct atggcaggtagctctatcagctctcttcctttcaccaagttattggcagcaagaaagcaa caggaacaggaccccacaaatttatacatctcaaacctcccactgtcaatggatgagcag gaactggaggggatgctgaagccctttggccaggttatctccacccgtatccttcgagat accagtgggaccagcagaggtgttggctttgcaaggatggagtccacagagaagtgtgaa gccatcatcacccactttaatggaaaatatattaagacaccccctggagtaccagcccca tccgatcccttgctttgcaaatttgctgatggcgggccaaagaaacgacagaaccaagga aaatttgtgcaaaatggacgggcttggccaaggaatgcagacatgggcgtcatggccttg acctatgaccccaccacagctcttcagaatggtatatgccgacggctgcagctatgcaag gagcttacatctcccagtacacccctgtgccttcttccagtgtttcagtcgagtgcctcc agtgcctactcctgtcactccaatgtcaacccattgggagttgaggcctgtcactccaat gtcaacccgtgggctgttactttgcgtcatatgatgctgtga >gi568815586r:56566203_56773065|GENSCAN_predicted_peptide_2|3378_aa METFDPTELPELLKLYYRRLFPYSQYYRWLNYGGVIKNYFQHREFSFTLKDDIYIRYQSF NNQSDLEKEMQKMNPYKIDIGAVYSHRPNQHNTVKLGAFQAQEKELVFDIDMTDYDDNNI KNDKYGPWLEWEIMLQYCFPRLDINVSKGINHLLKSPFSVHPKTGRISVPIDLQKVDQFD PFTVPTISFICRELDAISTNEEEKEENEAESDVKHRTRDYKKTSLAPYVKVFEHFLENLD KSRKGELLKKSEMPGEATETVPATEQELPQPQAETEAPTPPAVTPPSPEKGPATPAPKGT PTSPPVTPSSLKDSPTSPASVTCKMGATVPQASKGLPAKKGPTALKEVLVAPAPESTPII TAPTRKGPQTKKSSATSPPICPDPSAKNGSKGPLSTVAPAPLLPVQKDSSKTAKGKDASH SPKGPLAPPESKASTPLTAAAFEKVLPKPESASVSAAPSPPVSLPLAPSPVPTLPPKQQF LPSSPGLVLESPSKPLAPADEDELLPLIPPEPISGGVPFQSVLVNMPTPKSAGIPVPTPS AKQPVTKNNKGSGTESDSDESVPELEEQDSTQATTQQAQLAAAAEIDEEPVSKAKQSRSE KKARKAMSKLGLRQVTGVTRVTIRKSKNILFVITKPDVYKSPASDTYIVFGEAKIEDLSQ QAQLAAAEKFKVQGEAVSNIQENTQTPTVQEESEEEEVDETGVEVKDIELVMSQANVSRA KAVRALKNNSNDIVNAIMISLESRAGAQKQGLRTRGGKARAFCCVTSRRPASPPLVCTHA RSFSVLAPLFLHFPLLPDRRSRSFRAVHSGARGRARRCRRRLREARRGRDRREKAESPPE RSRLPSSSRRQRGPPTSSPVPLPRSQCPESSAPVVGAARCLAELLGEPHADLAVSCRQPA SAKWYDRRDYVFIEFCVEDSKDVNVNFEKSKLTFSCLGGSDNFKHLNEIDLFHCIDPNLN WLSVDFNNWKDWEDDSDEDMSNFDRFSEMMNNMGGDEDVDLPEVDGADDDSQDSDDEREQ AAAVAAAFSLHPDYAMLGFVGRVAAAPASGALRRLTPSASLPPAQLLLRAAPTAVHPVRD YAAQTSPSPKAGAATGRIVAVIGAVVDVQFDEGLPPILNALEVQGRETRLVLEVAQHLGE STVRTIAMDGTEGLVRGQKVLDSGAPIKIPVGPETLGRIMNVIGEPIDERGPIKTKQFAP IHAEAPEFMEMSVEQEILVTGIKVVDLLAPYAKGGKIGLFGGAGVGKTVLIMELINNVAK AHGGYSVFAGVGERTREGNDLYHEMIESGVINLKDATSKVALVYGQMNEPPGARARVALT GLTVAEYFRDQEGQDVLLFIDNIFRFTQAGSEVSALLGRIPSAVGYQPTLATDMGTMQER ITTTKKGSITSVQAIYVPADDLTDPAPATTFAHLDATTVLSRAIAELGIYPAVDPLDSTS RIMDPNIVGSEHYDVARGVQKILQDYKSLQDIIAILGMDELSEEDKLTVSRARKIQRFLS QPFQVAEVFTGHMGKLVPLKETIKGFQQILAGEYDHLPEQAFYMVGPIEEAVAKADKLAE EHSSGSFATALLSGCPHLGSSCPFKHHLLPSAAAGPGLGEEAQPPPGSATCASAAAAAAC GPALLQPSGYRVEPGTVAADPRVREVLQEHREGEGLYTNGSPMNFPQQGKSLNGDVNVNG LSTVSHTTTSGILNSAPHSSSTSHLHHPSVAYDCLWNYSQYPSANPGSNLKDPPLLSQFS GGQYPLNGILGGSRQPSSPSHNTNLRAGSQEFWANGTQSPMGLNFDSQELYDSFPDQNFE VMPNGPPSFFTSPQTSPMLGSSIQTFAPSQEVGSGIHPDEAAEKEMTSVVAENGTGLVGS LELEEEQPELKMCGYNGSVPSVESLHQEVSVLVPDPTVSCLDDPSHLPDQLEDTPILSED SLEPFNSLAPEPVSGGLYGIDDTELMGAEDKLPLEDSPVISALDCPSLNNATAFSLLADD SQTSTSIFASPTSPPVLGESVLQASPANKDVSSFLETTADVEEITGEGLTASGSGDVMRR RIATPEEVRLPLQHGWRREVRIKKGSHRWQGETWYYGPCGKRMKQFPEVIKYLSRNVVHS VRREHFSFSPRMPVGDFFEERDTPEGLQWVQLSAEEIPSRIQAITGKRGRPRNTEKAKTK EVPKVKRGRGRPPKVKITELLNKTDNRPLKKLEAQETLNEEDKAKIAKSKKKMRQKVQRG ECQTTIQGQARNKRKQETKSLKQKEAKKKSKAEKEKGKTKQEKLKEKVKREKKEKVKMKE KEEVTKAKPACKADKTLATQRRLEERQRQQMILEEMKKPTEDMCLTDHQPLPDFSRVPGL TLPSGAFSDCLTIVEFLHSFGKVLGFDPAKDVPSLGVLQEGLLCQGDSLGEVQDLLVRLL KAALHDPGFPSYCQSLKILGEKVSEIPLTRDNVSEILRCFLMAYGVEPALCDRLRTQPFQ AQPPQQKAAVLAFLVHELNGSTLIINEIDKTLESMSSYRKNKWIVEGRLRRLKTVLAKRT GRSEVEMEGPEECLGRRRSSRIMEETSGMEEEEEEESIAAVPGRRGRRDGEVDATASSIP ELERQIEKLSKRQLFFRKKLLHSSQMLRAVSLGQDRYRRRYWVLPYLAGIFVEGTEGNLV PEEVIKKETDSLKVAAHASLNPALFSMKMELAGSNTTASSPARARGRPRKTKPGSMQPRH LKSPVRGQDSEQPQAQLQPEAQLHAPAQPQPQLQLQLQSHKGFLEQEGSPLSLGQSQHDL SQSAFLSWLSQTQSHSSLLSSSVLTPDSSPGKLDPAPSQPPEEPEPDEAESSPDPQALWF NISAQMPCNAAPTPPPAVSEDQPTPSPQQLASSKPMNRPSAANPCSPVQFSSTPLAGLAP KRRAGDPGEMPQSPTGLGQPKRRGRPPKMCSGWWWIRDPEMLDAMLKALHPRGIREKALH KHLNKHRDFLQEVCLRPSADPIFEPRQLPAFQEGIMSWSPKEKTYETDLAVLQWVEELEQ RVIMSDLQIRGWTCPSPDSTREDLAYCEHLSDSQEDITWRGRGREGLAPQRKTTNPLDLA VMRLAALEQNVERRYLREPLWPTHEVVLEKALLSTPNGAPEGTTTEISYEITPRIRVWRQ TLERCRSAAQVCLCLGQLERSIAWEKSVNKVTCLVCRKGDNDEFLLLCDGCDRGCHIYCH RPKMEAVPEGDWFCTVCLAQVEGEFTQKPGFPKRGQKRKSGYSLNFSEGDGRRRRVLLRG RESPAAGPRYSEEGLSPSKRRRLSMRNHHSDLTFCEIILMEMESHDAAWPFLEPVNPRLV SGYRRIIKNPMDFSTMRERLLRGGYTSSEEFAADALLVFDNCQTFNEDDSEVGKAGHIMR RFFESRWEEFYQGKQANL >gi568815586r:56566203_56773065|GENSCAN_predicted_CDS_2|10137_bp atggagacgtttgaccccaccgagctgcccgagctgcttaaactttattaccggaggctc tttccctactctcagtactatcgctggctcaactacggtggagtgataaagaattacttt caacaccgtgaattttcattcacattgaaagatgatatttacattcgctaccaatccttc aacaaccagagtgatctggaaaaggagatgcagaaaatgaatccatacaagattgatata ggcgcagtatattctcacagacccaatcaacacaatacagtgaagctgggagctttccag gctcaggaaaaagaactggtatttgacattgacatgacagactatgacgataataacatc aaaaatgacaaatatggaccctggctggagtgggagattatgctccagtactgttttcca cggctggatatcaatgtcagcaaaggaatcaatcatctactgaagagcccttttagtgtt catcctaaaacaggtcgcatatctgtgcctattgatttgcagaaagtggaccagtttgat ccatttactgttccgaccataagcttcatctgccgtgaattggatgccatttccactaat gaagaggaaaaagaggagaatgaagctgaatctgatgtcaaacatagaaccagagattat aagaagaccagtctagcaccttatgtgaaagtttttgaacattttcttgaaaatctggat aaatcccgaaaaggagaacttcttaagaagagtgaaatgcccggcgaagccacagaaacc gtccctgctacagagcaggagttgccgcagccccaggctgagacagaggcacctactcct ccagctgtgactcctccatcccccgaaaagggcccagcaactccagcccccaaagggact cccacttccccacctgtgactccttcctccctcaaagactcccctacttccccagcttct gtcacatgtaaaatgggggccactgttcctcaagcatctaaagggcttccagcaaagaaa ggccccacagctctgaaagaagtacttgttgccccagctccagaaagcacgccaatcatc acagctcccactcggaaaggtccacagaccaaaaagagttctgctacttcacctcctata tgcccagatccctcagctaagaatggttctaaaggacccctttccacagtggctccagcc cctctactccctgttcagaaagactcttcaaagacagcaaaaggcaaagatgcttctcat tccccaaagggccccttggctcctcctgagtctaaggcgtccacccctctaacagcagct gcctttgagaaggtccttcctaaacctgaatcagcatctgtctctgcagcaccctcccca ccagtctctctgcctcttgctccctccccagttcccactctgcctcctaaacagcaattt ctgccgtcctctcctgggctggtgttggaatcaccctctaaaccccttgcccctgctgat gaggatgagctgctgcctctgattcccccggaaccaatctctgggggagtgcctttccag tcggtcctcgtcaacatgcccacccctaaatctgctggaatccctgtcccaaccccctct gccaagcaacctgttacgaagaacaacaaggggtctggaacagaatctgacagtgatgaa tcagtaccagagcttgaagaacaggattccacccaggcaaccacacaacaagcccagctg gcggcagcagctgaaattgatgaagaaccagtcagtaaagcaaaacagagtcggagtgaa aagaaggcacggaaggctatgtccaaactgggtcttcggcaggttacaggagttactaga gtcactatccggaaatctaagaatatcctctttgtcatcacaaaaccagatgtctacaag agccctgcttcagatacttacatagtttttggggaagccaagatcgaagatttatcccag caagcacaactagcagctgctgagaaattcaaagttcaaggtgaagctgtctcaaacatt caagaaaacacacagactccaactgtacaagaggagagtgaagaggaagaggtcgatgaa acaggtgtagaagttaaggacattgaattggtcatgtcacaagcaaatgtgtcgagagca aaggcagtccgagccctgaagaacaacagtaatgatattgtaaatgcgattatgatatct ctagaaagccgcgccggagcccaaaaacaaggactgcgcacgcgcggcggcaaggcccgg gcattttgctgcgtcaccagccgccgcccggcctcaccacccctcgtttgcacgcacgca cgttcattctccgtcctcgcgccccttttcctacactttcctcttctccccgaccggagg agccgctctttccgcgcggtgcattctggggcccgaggtcgagcccgccgctgccgccgt cgcctgagggaagcgagaagaggccgcgaccggagagaaaaagcggagtcgccaccggag agaagtcgactccctagcagcagccgccgccagagaggcccgcccaccagttcgcccgtc cccctgccccgttcacaatgccctgagtcgagtgcacctgtggtgggtgccgccaggtgc ctggcggagctcctgggagagccccacgcggacctcgccgtgagctgcaggcagcctgct tctgcaaagtggtacgatcgaagggactatgtcttcattgaattttgtgttgaagacagt aaggatgttaatgtaaattttgaaaaatccaaacttacattcagttgtctcggaggaagt gataattttaagcatttaaatgaaattgatctttttcactgtattgatccaaatcttaat tggcttagtgtcgacttcaataattggaaagactgggaagatgattcagatgaagacatg tctaattttgatcgtttctctgagatgatgaacaacatgggtggtgatgaggatgtagat ttaccagaagtagatggagcagatgatgattcacaagacagtgatgatgaaagagagcag gcggctgcggttgctgcagccttcagtctccacccggactacgccatgttggggtttgtg ggtcgggtggccgctgctccggcctccggggccttgcggagactcaccccttcagcgtcg ctgcccccagctcagctcttactgcgggccgctccgacggcggtccatcctgtcagggac tatgcggcgcaaacatctccttcgccaaaagcaggcgccgccaccgggcgcatcgtggcg gtcattggcgcagtggtggacgtccagtttgatgagggactaccaccaattctaaatgcc ctggaagtgcaaggcagggagaccagactggttttggaggtggcccagcatttgggtgag agcacagtaaggactattgctatggatggtacagaaggcttggttagaggccagaaagta ctggattctggtgcaccaatcaaaattcctgttggtcctgagactttgggcagaatcatg aatgtcattggagaacctattgatgaaagaggtcccatcaaaaccaaacaatttgctccc attcatgctgaggctccagagttcatggaaatgagtgttgagcaggaaattctggtgact ggtatcaaggttgtcgatctgctagctccctatgccaagggtggcaaaattgggcttttt ggtggtgctggagttggcaagactgtactgatcatggagttaatcaacaatgtcgccaaa gcccatggtggttactctgtgtttgctggtgttggtgagaggacccgtgaaggcaatgat ttataccatgaaatgattgaatctggtgttatcaacttaaaagatgccacctctaaggta gcgctggtatatggtcaaatgaatgaaccacctggtgctcgtgcccgggtagctctgact gggctgactgtggctgaatacttcagagaccaagaaggtcaagatgtactgctatttatt gataacatctttcgcttcacccaggctggttcagaggtgtctgcattattgggccgaatc ccttctgctgtgggctatcagcctaccctggccactgacatgggtactatgcaggaaaga attaccactaccaagaagggatctatcacctctgtacaggctatctatgtgcctgctgat gacttgactgaccctgcccctgctactacgtttgcccatttggatgctaccactgtactg tcgcgtgccattgctgagctgggcatctatccagctgtggatcctctagactccacctct cgtatcatggatcccaacattgttggcagtgagcattacgatgttgcccgtggggtgcaa aagatcctgcaggactacaaatccctccaggatatcattgccatcctgggtatggatgaa ctttctgaggaagacaagttgaccgtgtcccgtgcacggaaaatacagcgtttcttgtct cagccattccaggttgctgaggtcttcacaggtcatatggggaagctggtacccctgaag gagaccatcaaaggattccagcagattttggcaggtgaatatgaccatctcccagaacag gccttctatatggtgggacccattgaagaagctgtggcaaaagctgataagctggctgaa gagcattcatctggatccttcgcgactgctctcctgagcggttgtcctcacctcggtagt tcctgcccctttaagcaccacctcctcccctccgccgccgccggcccagggctgggggag gaggcgcagccgccgcccggctcggccacctgcgcctctgccgccgccgccgccgcctgc ggcccggccctgctccagccatctggctacagagtggagccaggcactgtggcagctgac cccagagtcagggaggtgctgcaggaacacagggagggggagggcctctacactaacggg tctcccatgaacttcccccagcaagggaaaagtttgaatggggatgtgaatgttaatggc ttatctactgtatctcacactactacttcagggattttgaactctgctccccactcctcc agcacctcacacctccatcaccccagcgtggcctacgactgtctctggaactactcacag tacccatctgccaatcctggcagcaacctcaaggacccaccccttctctcccagttctcg gggggacaatacccactcaacggcatccttgggggcagccggcaaccttcatccccaagt cataacactaaccttcgggctgggagccaagagttctgggccaacggtacccagagtccc atggggcttaactttgattcacaagaactgtatgattcctttcctgaccagaattttgag gtgatgcccaatggaccccctagttttttcacctccccacagacttctcctatgttggga tctagcattcaaacctttgcaccctcccaggaggtaggcagtggtatccatcctgatgag gcagcagaaaaggagatgacttcagttgtggcagagaatggcactggcttggtaggcagc ttggagctggaagaagagcagccagaactgaagatgtgtggctacaatggctctgtccct tctgtggaatcgttacaccaagaggtctcagtcctggtccctgaccccacagtgagctgt ttagatgatccttcacatcttcctgatcaactggaagacactccaatcctcagtgaagac tctctggagcccttcaactctctggcaccagagccagtgagtggaggactatatggtatt gatgacacggagctgatgggtgcagaggacaagctgcctcttgaggacagccctgtgatt tctgcccttgattgcccttccctcaataatgctactgccttcagtctcctggcagatgat agtcaaacatcaacctctatctttgccagtcccacctctccacctgtcctaggggagtct gtcctgcaagcctccccagcaaataaggatgtcagcagctttctagaaaccactgctgac gtggaagagatcactggagaaggactcactgcttctggtagtggtgatgtcatgaggaga cgtattgctaccccagaagaagttcgtcttcccctccaacatgggtggcggagagaggtg cgcatcaagaagggcagccaccgatggcagggggagacctggtattatggcccctgtggg aagaggatgaagcaatttccagaagtgatcaagtacctgagccgcaacgtggtacacagt gtccgccgagagcacttcagcttcagtccccgtatgcctgttggagatttctttgaagaa agagacacgccagagggcttgcagtgggtgcagctctcagcagaggagatcccgtcgagg attcaggcaattactggcaaacggggtcgacctcgaaacactgagaaggctaagactaag gaagtccccaaggtgaaacggggtcgaggtcggccacctaaggtcaaaatcactgagcta ttgaacaagacagacaaccgccccctaaagaaactggaggcccaagaaacattgaatgag gaggataaagcaaagattgctaaaagcaagaagaagatgaggcagaaggttcaacgggga gagtgtcagactactatccaagggcaggccagaaataagcggaaacaagagaccaagagc ttaaagcagaaggaagctaagaagaaatccaaggctgagaaagaaaaaggaaagacaaag caggaaaaactgaaggaaaaagtcaagagggaaaagaaggagaaggtaaaaatgaaggaa aaggaggaggtgaccaaagccaagccagcctgtaaagcagataagaccctggccacacag aggcgcttggaggaacggcagaggcagcagatgatcttggaggaaatgaagaagccgaca gaggatatgtgtctgactgaccaccagcccctgcctgacttctcacgagtccctggtctg acattgcccagtggagccttctcagactgcttgaccattgtggagttcctgcatagcttt ggcaaggtgctgggctttgatcctgccaaagatgtgcctagcctgggggtcctgcaggag ggactcctgtgtcaaggtgacagcttgggtgaggtgcaagacctgctggtcaggctgctg aaggctgcactccatgatcctggctttccctcctactgtcagtccctaaagatcttgggg gagaaggtgtctgagatcccactgacaagagacaatgtgtcagagatcctgcgctgcttc cttatggcatatggagtagagccagccctctgtgaccgcctgcgcacccagccttttcag gcccagccaccccagcagaaggctgctgtcctggccttccttgtgcatgagctcaatggc tccaccctcatcatcaatgagattgacaagactctggagagtatgtccagctacaggaaa aacaagtggattgttgaaggccggctccggaggctgaaaactgttctggccaagcgaact gggcggtctgaagtagagatggaagggccagaggaatgcctgggacggaggcgcagttct cggatcatggaggagaccagtggcatggaagaagaggaagaagaggagtctatagcagct gtccctggccgcaggggtcgaagagatggagaggttgatgccacagcatctagcatccca gagctagagcgccagatagaaaaactcagcaagcgtcagcttttctttcgcaaaaagctg cttcactcatcccagatgcttcgggcggtctccctgggtcaggaccgctacagacgtcgc tactgggtattgccgtatttggctggtatctttgtagaaggaacagaggggaacttagtt cctgaggaggtgataaagaaggaaactgactccttaaaagtggcagcccatgcgtcactc aaccctgccctcttctctatgaagatggagttagctggctccaacaccactgccagttct cctgcccgggcccgaggccgacctcgaaaaactaagcccgggtctatgcaacctaggcat cttaagtcccctgtcaggggtcaggattcagaacagccccaggcccagcttcagcctgag gctcagcttcatgctcctgcccagccccagcctcagcttcagcttcagcttcagtcccat aaggggttcctggagcaagaaggctcccctttgtcactgggtcagagccagcatgacctc agccagtcagccttcctgtcttggctgagccagactcagagccatagctccctgttgagc agctcagtcctcacacctgatagcagtccgggaaaactagacccagctccatcacaaccc ccggaggagccagagcctgatgaggcagaatccagccctgatcctcaagcactctggttt aacatctcagcccagatgccctgcaatgctgcccccacaccgccccctgcagtttctgag gaccaacccactccctcccctcagcagcttgcctcctccaagccaatgaatagacctagt gctgccaacccttgttctccagtgcagttctcttccacgcccttggctgggttggcccct aagaggcgagcaggagaccctggagaaatgccacagagtcccacagggctgggacagccc aaacggagagggagacctcccaagatgtgctcaggctggtggtggatacgagatcctgag atgttggatgccatgctcaaggccctacacccccgaggtatccgggagaaggcacttcac aaacaccttaacaagcacagggacttcttgcaggaagtctgcctgcggccctcagctgac cccatctttgagcccaggcaactacctgcctttcaagaagggattatgagctggtccccc aaagagaagacatacgagacagacctagcagtgcttcaatgggtagaggagctggagcag cgggttatcatgtctgatctgcagattcggggctggacatgtcctagcccagactctacc cgtgaagacttggcctactgtgagcacctctccgactcccaggaggatatcacctggcga ggtcggggcagggagggactggcacctcagcgtaaaactaccaaccctttggacctggct gtgatgcggctggctgccctggaacagaatgtagaacggcggtacctgcgggagcccctc tggccaactcatgaggttgtgctggagaaggccctgcttagcacacctaatggtgcccct gagggcaccactacagagatatcatatgagatcacccctcgcattcgtgtctggcgccag accctcgagcggtgccggagcgcagcccaggtgtgcttgtgcctgggccagctggagagg tccattgcctgggagaagtctgtcaacaaagtgacatgtctagtctgccggaagggtgac aatgatgagtttcttctgctttgtgatgggtgtgaccgtggctgccacatttactgccat cgtcccaagatggaggctgtcccagaaggagattggttctgtactgtctgtttggctcag gtggagggagaattcactcagaagcctggtttcccaaagcgtggccagaagcggaaaagt ggttattcgctgaacttctcagagggtgatggccgccgacgccgggtactgttgaggggc cgagaaagcccagcagcagggcctcggtactcggaagaagggctctccccctccaagcgg cggcgactctctatgcggaaccaccacagtgatctcacattttgcgagattatcctgatg gagatggagtcccatgatgcagcctggcctttcctagagcctgtgaacccacgtttggtg agtgggtaccggcgcatcatcaaaaatcctatggatttttccaccatgcgggagcggctg ctcaggggagggtacaccagctcagaggagtttgcggctgatgccctcctggtatttgac aactgccagactttcaacgaggatgactctgaagtaggcaaggctgggcacatcatgcgc cgcttcttcgagagccgctgggaggagttttatcagggaaaacaggccaatctgtga >gi568815586r:56566203_56773065|GENSCAN_predicted_peptide_3|40_aa MGLRVTDLILQLIKDDTAPLGSWQLENMDGKGFGVLVKHP >gi568815586r:56566203_56773065|GENSCAN_predicted_CDS_3|123_bp atggggctaagagtaacagatctgattctgcagctgatcaaggatgacactgcaccactt ggcagctggcagctagagaacatggatggtaaaggctttggggtgctagtgaagcacccc taa