GENSCAN 1.0 Date run: 6-Nov-116 Time: 01:02:59 Sequence gi568815596f:219318463_219525987 : 207525 bp : 52.15% C+G : Isochore 3 (51 - 57 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.09 PlyA - 2827 2822 6 1.05 1.08 Term - 9101 9051 51 2 0 123 53 56 0.959 3.32 1.07 Intr - 10790 10701 90 2 0 131 100 70 0.999 13.19 1.06 Intr - 11302 11175 128 2 2 130 78 54 0.724 9.50 1.05 Intr - 12413 12309 105 0 0 87 115 -8 0.614 2.49 1.04 Intr - 34137 34017 121 0 1 88 -10 60 0.083 -3.23 1.03 Intr - 34648 34547 102 1 0 87 110 55 0.959 8.47 1.02 Intr - 35162 35035 128 0 2 93 72 40 0.881 3.80 1.01 Init - 40521 40350 172 0 1 71 60 144 0.474 7.47 1.00 Prom - 45166 45127 40 -2.71 2.00 Prom + 50098 50137 40 -3.01 2.01 Init + 50571 50685 115 2 1 71 111 111 0.923 12.03 2.02 Term + 51734 51741 8 0 2 48 54 0 0.248 -9.09 2.03 PlyA + 52512 52517 6 1.05 3.18 PlyA - 53333 53328 6 1.05 3.17 Term - 56560 56300 261 1 0 114 42 255 0.794 19.36 3.16 Intr - 62974 62873 102 1 0 120 94 160 0.886 20.67 3.15 Intr - 63122 63083 40 1 1 104 100 22 0.994 3.71 3.14 Intr - 63677 63517 161 2 2 41 76 150 0.988 8.40 3.13 Intr - 64752 64669 84 0 0 62 94 98 0.982 8.31 3.12 Intr - 65171 65115 57 2 0 88 75 25 0.607 0.77 3.11 Intr - 65981 65904 78 2 0 82 94 87 0.996 8.94 3.10 Intr - 67069 66962 108 1 0 93 77 68 0.982 7.18 3.09 Intr - 67244 67169 76 1 1 72 83 76 0.987 5.51 3.08 Intr - 67636 67506 131 1 2 52 28 225 0.993 12.90 3.07 Intr - 67949 67824 126 2 0 93 81 135 0.943 14.68 3.06 Intr - 68316 68203 114 0 0 108 90 166 0.900 19.95 3.05 Intr - 68518 68430 89 2 2 55 79 123 0.976 8.29 3.04 Intr - 68701 68608 94 1 1 115 103 86 0.996 12.84 3.03 Intr - 70286 70240 47 0 2 64 105 62 0.162 4.12 3.02 Intr - 76862 76814 49 2 1 75 92 5 0.033 -1.66 3.01 Init - 81463 81404 60 1 0 111 86 91 0.979 12.40 3.00 Prom - 84804 84765 40 -3.81 4.00 Prom + 98984 99023 40 2.29 4.01 Init + 99689 100578 890 1 2 83 61 1300 0.990 118.81 4.02 Intr + 101633 101693 61 2 1 72 101 103 0.974 9.23 4.03 Intr + 101789 101884 96 1 0 102 59 143 0.990 13.51 4.04 Intr + 102033 102194 162 2 0 55 98 230 0.992 21.39 4.05 Intr + 102366 102491 126 2 0 109 74 305 0.999 32.58 4.06 Intr + 102878 103098 221 1 2 133 93 498 0.961 52.43 4.07 Intr + 105315 105358 44 0 2 85 105 35 0.922 3.27 4.08 Intr + 107129 107283 155 0 2 49 107 104 0.589 8.70 4.09 Intr + 107643 107768 126 2 0 62 73 36 0.601 0.88 4.10 Intr + 108043 108099 57 0 0 95 59 57 0.252 3.07 4.11 Intr + 116447 116914 468 1 0 51 75 574 0.018 46.28 4.12 Intr + 124646 124754 109 1 1 133 37 55 0.716 5.26 4.13 Intr + 126191 126280 90 0 0 93 88 153 0.993 16.26 4.14 Intr + 126363 126699 337 1 1 88 86 206 0.957 15.53 4.15 Intr + 129512 130809 1298 2 2 89 99 1381 0.917 127.38 4.16 Intr + 132674 132817 144 0 0 93 105 236 0.987 26.56 4.17 Intr + 133163 133345 183 0 0 82 70 177 0.955 15.58 4.18 Intr + 141689 141857 169 0 1 16 85 99 0.357 1.92 4.19 Intr + 142347 142383 37 0 1 124 72 16 0.787 2.35 4.20 Intr + 142748 142838 91 1 1 130 49 4 0.952 0.77 4.21 Intr + 143420 143595 176 0 2 106 77 206 0.998 21.48 4.22 Intr + 143836 143924 89 0 2 105 105 121 0.999 14.77 4.23 Intr + 145971 146146 176 0 2 84 105 280 0.999 29.40 4.24 Intr + 148712 148972 261 0 0 84 88 489 0.987 46.50 4.25 Intr + 150116 150274 159 0 0 113 60 198 0.999 19.97 4.26 Intr + 150397 150586 190 2 1 118 81 226 0.995 24.06 4.27 Intr + 150694 150917 224 1 2 65 46 355 0.998 27.30 4.28 Intr + 153406 153525 120 2 0 113 94 155 0.997 19.57 4.29 Intr + 154428 154634 207 1 0 65 101 285 0.964 27.07 4.30 Intr + 155042 155165 124 0 1 80 64 205 0.999 17.45 4.31 Intr + 155266 155441 176 1 2 106 94 221 0.999 24.60 4.32 Intr + 158408 158520 113 0 2 87 77 140 0.886 13.40 4.33 Intr + 158815 158983 169 0 1 24 96 277 0.644 22.13 4.34 Intr + 159227 159323 97 0 1 77 64 144 0.976 10.47 4.35 Intr + 159443 159626 184 2 1 101 1 204 0.975 13.31 4.36 Intr + 161297 161398 102 1 0 87 100 110 0.704 12.97 4.37 Intr + 161500 161678 179 0 2 92 95 250 0.999 25.33 4.38 Intr + 162209 162235 27 2 0 136 95 5 0.929 3.71 4.39 Intr + 162842 162994 153 2 0 110 68 245 0.977 24.40 4.40 Intr + 163176 163218 43 0 1 75 87 26 0.977 -0.07 4.41 Intr + 164322 164390 69 2 0 93 111 -24 0.462 0.27 4.42 Intr + 164636 166610 1975 1 1 63 94 1847 0.963 171.06 4.43 Intr + 166890 167015 126 1 0 20 90 105 0.494 5.06 4.44 Intr + 169732 169848 117 2 0 72 116 82 0.795 10.34 4.45 Intr + 170036 170203 168 0 0 100 60 224 0.846 21.23 4.46 Intr + 170316 170438 123 1 0 88 77 160 0.936 15.96 4.47 Intr + 170592 170759 168 1 0 95 86 161 0.822 17.03 4.48 Intr + 170979 171370 392 1 2 90 37 156 0.166 5.71 4.49 Intr + 171858 172186 329 2 2 74 70 436 0.620 35.45 4.50 Intr + 172271 172494 224 2 2 106 68 398 0.849 37.90 4.51 Intr + 173332 173407 76 2 1 61 73 73 0.785 2.17 4.52 Intr + 173649 173798 150 0 0 76 105 181 0.981 18.39 4.53 Term + 174132 174324 193 0 1 82 44 309 0.983 23.12 4.54 PlyA + 175148 175153 6 1.05 5.00 Prom + 177634 177673 40 1.79 5.01 Init + 177893 178020 128 1 2 45 94 172 0.954 13.16 5.02 Intr + 178347 178654 308 0 2 47 107 847 0.999 79.14 5.03 Intr + 179258 179477 220 0 1 86 -43 212 0.633 5.79 5.04 Term + 179589 179727 139 0 1 108 47 313 0.633 26.94 5.05 PlyA + 179803 179808 6 1.05 6.00 Prom + 180265 180304 40 -5.61 6.01 Init + 181514 181553 40 1 1 52 72 33 0.871 -1.50 6.02 Intr + 181659 181756 98 1 2 98 91 35 0.932 5.03 6.03 Intr + 183014 183117 104 1 2 98 37 122 0.976 7.57 6.04 Intr + 183389 183575 187 2 1 42 89 124 0.962 8.11 6.05 Intr + 183920 183979 60 1 0 102 78 63 0.985 6.12 6.06 Intr + 185621 185751 131 1 2 115 40 161 0.999 14.00 6.07 Intr + 186996 187093 98 0 2 103 65 137 0.983 13.05 6.08 Intr + 187253 187299 47 0 2 96 77 46 0.965 2.92 6.09 Intr + 187518 187610 93 2 0 109 96 125 0.966 16.06 6.10 Intr + 187792 187960 169 0 1 109 47 227 0.999 20.73 6.11 Term + 188236 188336 101 2 2 85 48 168 0.999 11.09 6.12 PlyA + 188506 188511 6 1.05 7.00 Prom + 193979 194018 40 -5.71 7.01 Init + 195882 196844 963 2 0 50 89 1035 0.883 91.33 7.02 Term + 203599 203766 168 0 0 75 49 88 0.583 1.79 7.03 PlyA + 207246 207251 6 1.05 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 16150 16198 49 0 1 37 113 17 0.865 0.17 S.002 Init + 123589 123621 33 0 0 101 94 53 0.971 7.01 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815596f:219318463_219525987|GENSCAN_predicted_peptide_1|298_aa MRGPLRAHGARGPAGVPLILCFLLLSSRPGGWDAISPHRQEETWGKGRGDPEGGLRVGLF WKDDITQGVRTQQTEHTPWLHAPEAHLRSGQAAFPTRVTRNPMTRVSREQCFKSEAVSEV LNQEVTSHTKALLQSLPFVDCRNSGCRDWGFRWLGPVQSIMCTEIEGSAEICFRDGQDQV GVGQLWPLQGFATPVFQHLQVVLQQIIPQGLFWKDDITQDAMIQKMEHASRLHPQEPCLK DGKALFPTKTTESPLAKVNRDQCFTSEVVSKALKQEVANPVKGFSGPLPTVGRNPVAD >gi568815596f:219318463_219525987|GENSCAN_predicted_CDS_1|897_bp atgcgggggcccctgcgcgcgcatggggctcggggcccagcgggggtgcctctgattctc tgcttcctgctgctgagcagccgcccggggggctgggacgccattagtccccaccgtcag gaggaaacctgggggaagggcaggggcgatcctgagggagggctgcgggttggattgttc tggaaggatgacatcactcaaggtgtgaggacccagcagacagagcacacgccctggctc catgccccagaggcccatctgaggagcggacaggcagcctttcccaccagagtcaccagg aaccccatgaccagggtgagcagggagcaatgctttaaatctgaagcggtttcagaggtc ctgaaccaagaggtgaccagccacaccaaggccctgctccagagtctccctttcgtagat tgccgcaactcaggatgcagggactggggcttccgatggcttggtcctgtacaatcaatc atgtgcacagaaattgaagggtctgcagaaatctgcttcagagatggtcaggaccaagta ggagtggggcagctttggcccctccaaggatttgccaccccagtcttccagcatttacag gttgtgctccagcagattataccccaaggtctgttctggaaggatgacatcacccaggat gcaatgatccaaaagatggagcatgccagcagactgcatccccaagaaccatgcctgaag gatgggaaggcacttttccccactaaaaccactgagagccccctggccaaggtgaacagg gatcagtgctttacctccgaagtggtttctaaggccctgaaacaagaggtggccaaccct gtcaagggcttctctgggccacttcctactgtgggccgcaaccctgtggctgattga >gi568815596f:219318463_219525987|GENSCAN_predicted_peptide_2|40_aa MGVENCSQAAKKALRQEVQMLAAENGSVYTEMVKVTDTGG >gi568815596f:219318463_219525987|GENSCAN_predicted_CDS_2|123_bp atgggagtggaaaactgtagtcaagcagcaaagaaagccctcaggcaagaagtgcagatg ctggcagctgaaaacggtagtgtgtacactgaaatggtaaaagtgacggatacaggaggc tga >gi568815596f:219318463_219525987|GENSCAN_predicted_peptide_3|558_aa MARSLSIMFVPNSWLNGYHKVTVVLLSSSPPLDHLVCGCGERQHFVPYPSDPVAMNGKAR KEAVQTAAKELLKFVNRSPSPFHAVAECRNRLLQAGFSELKETEKWNIKPESKYFMTRNS STIIAFAVGGQYVPGNGFSLIGAHTDSPCLRVKRRSRRSQVGFQQVGVETYGGGIWSTWF DRDLTLAGRVIVKCPTSGRLEQQLVHVERPILRIPHLAIHLQRNINENFGPNTEMHLVPI LATAIQEELEKGTPEPGPLNAVDERHHSVLMSLLCAHLGLSPKDIVEMELCLADTQPAVL GGAYDEFIFAPRLDNLHSCFCALQDSQLFLSVLHIFYCLLHGKALIDSCAGPGSLATEPH VRMVTLYDNEEVGSESAQGAQSLLTELVLRRISASCQHPTAFEEAIPKSFMISADMAHAV HPNYLDKHEENHRPLFHKGPVIKVNSKQRYASNAVSEALIREVANKVKVPLQDLMVRNDT PCGTTIGPILASRLGLRVLDLGSPQLAMHSIREMACTTGVLQTLTLFKVTPTPDPLWQLG CFPSSAWIGCWDNIAITK >gi568815596f:219318463_219525987|GENSCAN_predicted_CDS_3|1677_bp atggctcggagcctctccatcatgttcgtccccaacagctggctcaatggctaccacaag gtgacagtggttctactgtccagctcgccaccactggaccatcttgtatgtggctgtggc gagagacagcactttgtaccgtacccgtcggacccggtggccatgaacggtaaggcccgc aaagaggcggtgcagactgcggctaaggaactcctcaagttcgtgaaccggagtccctct cctttccatgctgtggctgaatgccgcaaccgccttctccaggctggcttcagtgaactc aaggagactgagaaatggaatattaagcccgagagcaagtacttcatgaccaggaactcc tccaccatcatagcttttgctgtagggggccagtacgttcctggcaatggcttcagcctc atcggggcccacacggacagcccctgcctccgggtgaaacgtcggtctcgccgcagccag gtgggcttccagcaagtcggtgtggagacctatggtggtgggatctggagcacctggttt gaccgtgacctgactctggctggacgcgtcattgtcaagtgccctacctcaggtcggctg gagcagcagctggtgcacgtggagcggcccattcttcgcatcccacacctggccatccat ctgcagcgaaatatcaacgagaactttgggcccaacacagagatgcatctagtccccatt cttgccacagccatccaggaggagctggagaaggggactcctgagccagggcctctcaat gctgtggatgagcggcaccattcggtcctcatgtccctgctctgtgcccatctggggctg agccccaaggacatagtggagatggagctctgccttgcagacacccagcctgcggtcttg ggtggtgcctatgatgagttcatctttgctcctcggctggacaatctgcacagctgcttc tgtgccctgcaggactctcagctcttcctctctgtcctccacatcttctactgccttttg catgggaaggccttgatagattcctgtgcaggccctggctccctggccacagagcctcac gtgcgcatggtcacactctatgacaacgaagaggtggggtctgagagtgcacagggagca cagtcactgctgacagagctggtgctgcggcggatctcagcctcgtgccagcacccgaca gccttcgaggaagccatacccaagtccttcatgatcagcgcagacatggcccatgctgtg catcccaactacctggacaagcatgaggagaaccaccggcctttattccacaagggcccc gtgatcaaggtgaacagcaagcaacgctatgcttcaaacgcggtgtcagaggccctgatc cgagaggtggccaacaaagtcaaggtccccctgcaggatctcatggtccggaatgacacc ccctgtggaaccaccattggacctatcttggcttctcggctggggctgcgggtgctggat ttaggcagcccccaactggccatgcactctatccgggagatggcctgcaccacaggagtc ctccagaccctcaccctcttcaaggtaacacccaccccagaccctctctggcagctgggc tgcttcccctctagtgcctggattggttgctgggacaacatcgccatcacaaagtga >gi568815596f:219318463_219525987|GENSCAN_predicted_peptide_4|3980_aa MLAACPGEGLAGLPVTGPPLADSGAQASCGGAGLPAPTATGRPFLAGQRDLAAVRGGEAG ADVRRDTNSADGWGPCLPSPHPLSGRPPARRLLRAPASLARAVTMSQAYSSSQRVSSYRR TFGGAPGFPLGSPLSSPVFPRAGFGSKGSSSSVTSRVYQVSRTSGGAGGLGSLRASRLGT TRTPSSYGAGELLDFSLADAVNQEFLTTRTNEKVELQELNDRFANYIEKVRFLEQQNAAL AAEVNRLKGREPTRVAELYEEELRELRRQVEVLTNQRARVDVERDNLLDDLQRLKAKLQE EIQLKEEAENNLAAFRADVDAATLARIDLERRIESLNEEIAFLKKVHEEEIRELQAQLQE QQVQVEMDMSKPDLTAALRDIRAQYETIAAKNISEAEEWYKSKVSDLTQAANKNNDALRQ AKQEMMEYRHQIQSYTCEIDALKGTNDSLMRQMRELEDRFASEASGYQDNIARLEEEIRH LKDEMARHLREYQDLLNVKMALDVEIATYRKLLEGEESRINLPIQTYSALNFRDGLPAPG IAQPGLGQAECAMDPVTETSPEQRGSEVHTKKTVMIKTIETRDGEPLTPPHWPSLVVPNS DIAHPCLVTGHAPATSADPSCEPWLLAPRVDLESRGYKRESPKVLEGTVPRVPPWPPSSG VPPAQLSVAMQKARGTRGEDAGTRAPPSPGVPPKRAKVGAGGGAPVAVAGAPVFLRPLKN AAVCAGSDVRLRVVVSGTPQPSLRWFRDGQLLPAPAPEPSCLWLRRCGAQDAGVYSCMAQ NERGRASCEAVLTVLEVGGKGQKTGHSRRAFGRLTHGAWTVGVLALAHAYSSSWSLSLYS ETAEDDISDVQGTQRLELRDDGAFSTPTGGSDTLVGTSLDTPPTSVTGTSEEQVSWWGSG QTVLEQEAGSGGGTRRLPGSPRQAQATGAGPRHLGVEPLVRASRANLVGASWGSEDSLSV ASDLYGSAFSLYRGRALSIHVSVPQSGLRREEPDLQPQLASEAPRRPAQPPPSKSALLPP PSPRVGKRSPPGPPAQPAATPTSPHRRTQEPVLPEDTTTEEKRGKKSKSSGPSLAGTAES RPQTPLSEASGRLSALGRSPRLVRAGSRILDKLQFFEERRRSLERSDSPPAPLRPWVPLR KARSLEQPKSERGAPWGTPGASQEELRAPGSVAERRRLFQQKAASLDERTRQRSPASDLE LRFAQELGRIRRSTSREELVRSHESLRATLQRAPSPREPGEPPLFSRPSTPKTSRAVSPA AAQPPSPSSAEKPGDEPGRPRSRGPAGRTEPGEGPQQEVRRRDQFPLTRSRAIQECRSPV PPPAADPPEARTKAPPGRKREPPAQAVRFLPWATPGLEGAAVPQTLEKNRAGPEAEKRLR RGPEEDGPWGPWDRRGARSQGKGRRARPTSPELESSDDSYVSAGEEPLEAPVFEIPLQNV VVAPGADVLLKCIITANPPPQVSWHKDGSALRSEGRLLLRAEGERHTLLLREARAADAGS YMATATNELGQATCAASLTVRPGRLDVGLGPVVAAGQTFHGRDEGAEVGFWAPSDSSPTS VKEGKDLDSSPIFGAKENRAFSVQGLSWVSRAELPFLVDDSSSAFLSLERLGVQAVGLWP TGGSTSPFSSPITSDEEYLSPPEEFPEPGETWPRTPTMKPSPSQNRRSSDTGSKAPPTFK VSLMDQSVREGQDVIMSIRVQGEPKPVVSWLRNRQPVRPDQRRFAEEAEGGLCRLRILAA ERGDAGFYTCKAVNEYGARQCEARLEVRAHPESRSLAVLAPLQDVDVGAGEMALFECLVA GPTDVEVDWLCRGRLLQPALLKCKMHFDGRKCKLLLTSVHEDDSGVYTCKLSTAKDELTC SARLTVRPSLAPLFTRLLEDVEVLEGRAARFDCKISGTPPPVVTWTHFGCPMEESENLRL RQDGGLHSLHIAHVGSEDEGLYAVSAVNTHGQAHCSAQLYVEEPRTAASGPSSKLEKMPS IPEEPEQGELERLSIPDFLRPLQDLEVGLAKEAMLECQVTGLPYPTISWFHNGHRIQSSD DRRMTQYRDVHRLVFPAVGPQHAGVYKSVIANKLGKAACYAHLYVTDPDSLTYTVQHQVL GSDQWTALVTGLREPGWAATGLRKGVQHIFRVLSTTVKSSSKPSPPSEPVQLLEHGPTLE EAPAMLDKPDIVYVVEGQPASVTVTFNHVEAQVVWRSCRGALLEARAGVYELSQPDDDQY CLRICRVSRRDMGALTCTARNRHGTQTCSVTLELAEAPRFESIMEDVEVGAGETARFAVV VEGKPLPDIMWYKDEVLLTESSHVSFVYEENECSLVVLSTGAQDGGVYTCTAQNLAGEVS CKAELAVHSAQTAMEVEGVGEDEDHRGRRLSDFYDIHQEIGRGAFSYLRRIVERSSGLEF AAKFIPSQAKPKASARREARLLARLQHDCVLYFHEAFERRRGLTLGPLFPQIRAYMRQVL EGIHYLHQSHVLHLDVKPENLLVWDGAAGEQQVRICDFGNAQELTPGEPQYCQYGTPEFV APEIVNQSPVSGVTDIWPVGVVAFLCLTGISPFVGENDRTTLMNIRNYNVAFEETTFLSL SREARGFLIKVLVQDRLRPTAEETLEHPWFKTQAKGAEVSTDHLKLFLSRRRWQRSQISY KCHLVLRPIPELLRAPPERVWVTMPRRPPPSGGLSSSSDSEEEELEELPSVPRPLQPEFS GSRVSLTDIPTEDEALGTPETGAATPMDWQEQGRAPSQDQEAPSPEALPSPGQEPAAGAS PRRGELRRGSSAESALPRAGPRELGRGLHKAASVELPQRRSPSPGATRLARGGLGEGEYA QRLQALRQRLLRGGPEDGKVSGLRGPLLESLGGRARDPRMARAASSEAAPHHQPPLENRG LQKSSSFSQGEAEPRGRHRRAGAPLEIPVARLGARRLQESPSLSALSEAQPSSPARPSAP KPSTPKSAEPSATTPSDAPQPPAPQPAQDKAPEPRPEPVRASKPAPPPQALQTLALPLTP YAQIIQSLQLSGHAQGPSQGPAAPPSEPKPHAAVFARVASPPPGAPEKRVPSAGGPPVLA EKARVPTVPPRPGSSLSSSIENLESEAVFEAKFKRSRESPLSLGLRLLSRSRSEERGPFR GAEEEDGIYRPSPAGTPLELVRRPERSRSVQDLRAVGEPGLVRRLSLSLSQRLRRTPPAQ RHPAWEARGGDGESSEGGSSARGSPVLAMRRRLSFTLERLSSRLQRSGSSEDSGGASGRS TPLFGRLRRATSEGESLRRLGLPHNQLAAQAGATTPSAESLGSEASATSGSSGESRSRLR WGFSRPRKDKGLSPPNLSASVQEELGHQYVRSESDFPPVFHIKLKDQVLLEGEAATLLCL PAACPAPHISWMKDKKSLRSEPSVIIVSCKDGRQLLSIPRAGKRHAGLYECSATNVLGSI TSSCTVAVARVPGKLAPPEVPQTYQDTALVLWKPGDSRAPCTYTLERRVDGESVWHPVSS GIPDCYYNVTHLPVGVTVRFRVACANRAGQGPFSNSSEKVFVRGTQAPAAPTPPSVTVSP SSPPTPPSQALSSLKAVGPPPQTPPRRHRGLQAARPAEPTLPSTHVTPSEPKPFVLDTGT PIPASTPQGVKPVSSSTPVYVVTSFVSAPPAPEPPAPEPPPEPTKVTVQSLSPAKEVGSL LSSVSPHYGSVPLLSSEPVVSLPPTHRGRFGVVRACRENATGRTFVAKIVPYAAEGKRRV LQEYEVLRTLHHERIMSLHEAYITPRYLVLIAESCGNRELLCGLSDRFRYSEDDVATYMV QLLQGLDYLHGHHVLHLDIKPDNLLLAPDNALKIVDFGSAQPYNPQALRPLGHRTGTLEF MAPEMVKGEPIGSATDIWGAGVLTYIMLSGRSPFYEPDPQETEARIVGGRFDAFQLYPNT SQSATLFLRKVLSVHPWSRPSLQDCLAHPWLQDAYLMKLRRQTLTFTTNRLKEFLGEQRR RRAEAATRHKVLLRSYPGGP >gi568815596f:219318463_219525987|GENSCAN_predicted_CDS_4|11943_bp atgcttgctgcctgccctggcgaaggattggcaggcttgcccgtcacaggacccccgctg gctgactcaggggcgcaggcctcttgcgggggagctggcctccccgcccccacggccacg ggccgccctttcctggcaggacagcgggatcttgcagctgtcaggggaggggaggcgggg gctgatgtcaggagggatacaaatagtgccgacggctgggggccctgtctcccctcgccg catccactctccggccggccgcctgcccgccgcctcctccgtgcgcccgccagcctcgcc cgcgccgtcaccatgagccaggcctactcgtccagccagcgcgtgtcctcctaccgccgc accttcggcggggccccgggcttcccactcggctccccgctgagttcgcccgtgttcccg cgggcgggtttcggctctaagggctcctccagctcggtgacgtcccgcgtgtaccaggtg tcgcgcacgtcgggcggggccgggggcctggggtcgctgcgggccagccggctggggacc acccgcacgccctcctcctacggcgcaggcgagctgctggacttctcactggccgacgcg gtgaaccaggagtttctgaccacgcgcaccaacgagaaggtggagctgcaggagctcaat gaccgcttcgccaactacatcgagaaggtgcgcttcctggagcagcagaacgcggcgctc gccgccgaagtgaaccggctcaagggccgcgagccgacgcgagtggccgagctctacgag gaggagctgcgggagctgcggcgccaggtggaggtgctcactaaccagcgcgcgcgcgtc gacgtcgagcgcgacaacctgctcgacgacctgcagcggctcaaggccaagctgcaggag gagattcagttgaaggaagaagcagagaacaatttggctgccttccgagcggacgtggat gcagctactctagctcgcattgacctggagcgcagaattgaatctctcaacgaggagatc gcgttccttaagaaagtgcatgaagaggagatccgtgagttgcaggctcagcttcaggaa cagcaggtccaggtggagatggacatgtctaagccagacctcactgccgccctcagggac atccgggctcagtatgagaccatcgcggctaagaacatttctgaagctgaggagtggtac aagtcgaaggtgtcagacctgacccaggcagccaacaagaacaacgacgccctgcgccag gccaagcaggagatgatggaataccgacaccagatccagtcctacacctgcgagattgac gccctgaagggcactaacgattccctgatgaggcagatgcgggaattggaggaccgattt gccagtgaggccagtggctaccaggacaacattgcgcgcctggaggaggaaatccggcac ctcaaggatgagatggcccgccatctgcgcgagtaccaggacctgctcaacgtgaagatg gccctggatgtggagattgccacctaccggaagctgctggagggagaggagagccggatc aatctccccatccagacctactctgccctcaacttccgagatggactcccagcccctggt atagcccagcctggacttggtcaggctgagtgtgcgatggaccctgttacagaaaccagc cctgagcaaaggggttctgaggtccataccaagaagacggtgatgatcaagaccatcgag acacgggatggggagcctctgacccctcctcactggccatccctcgtggtccccaacagc gacatagcccatccctgcctggtcacagggcatgccccggccacctctgcggaccccagc tgtgagccttggctgttggcacccagggtggacttagaaagcaggggctacaagagggaa tccccgaaggtgctggagggcaccgtcccgcgggtgcccccgtggccgcccagttccggc gtccccccagcccagctctcagtggccatgcagaaagcccggggcacgcgaggcgaggat gcgggcacgagggcaccccccagccccggagtgcccccgaaaagggccaaggtgggggcc ggcggcggggctcctgtggccgtggccggggcgccagtcttcctgcggcccctgaagaac gcggcggtgtgcgcgggcagcgacgtgcggctgcgggtggtggtgagcgggacgccccag cccagcctccgctggttccgggatgggcagctcctgcccgcgccggcccccgagcccagc tgcctgtggctgcggcgctgcggggcgcaggacgccggcgtgtacagctgcatggcccag aacgagcggggccgggcctcctgcgaggcggtgctcacagtgctggaggtcggaggtaaa gggcagaaaaccggccattcccgccgggcctttggccgactcacccatggtgcgtggacc gtgggcgtccttgctctagcccatgcctactcctcctcttggtccctgtccctctactca gagacggctgaggatgacatcagcgatgtgcagggaacccagcgcctggagcttcgggat gacggggccttcagcacccccacggggggttctgacaccctggtgggcacctccctggac acacccccgacctccgtgacaggcacctcagaggagcaagtgagctggtggggcagcggg cagacggtcctggagcaggaagcgggcagtgggggtggcacccgccgcctcccgggcagc ccaaggcaagcacaggcaaccggggccgggccacggcacctgggggtggagccgctggtg cgggcatctcgagctaatctggtgggcgcaagctgggggtcagaggatagcctttccgtg gccagtgacctgtacggcagcgcattcagcctgtacagaggacgggcgctctctatccac gtcagcgtccctcagagcgggttgcgcagggaggagcccgaccttcagcctcaactggcc agcgaagccccacgccgccctgcccagccgcctccttccaaatccgcgctgctcccccca ccgtcccctcgggtcgggaagcggtccccgccgggacccccggcccagcccgcggccacc cccacgtcgccccaccgtcgcactcaggagcctgtgctgcccgaggacaccaccaccgaa gagaagcgagggaagaagtccaagtcgtccgggccctccctggcgggcaccgcggaatcc cgaccccagacgccactgagcgaggcctcaggccgcctgtcggcgttgggccgatcgcct aggctggtgcgcgccggctcccgcatcctggacaagctgcagttcttcgaggagcgacgg cgcagcctggagcgcagcgactcgccgccggcgcccctgcggccctgggtgcccctgcgc aaggcccgctctctggagcagcccaagtcggagcgcggcgcaccgtggggcacccccggg gcctcgcaggaagaactgcgggcgccaggcagcgtggccgagcggcgccgcctgttccag cagaaagcggcctcgctggacgagcgcacgcgtcagcgcagcccggcctcagacctcgag ctgcgcttcgcccaggagctgggccgcatccgccgctccacgtcgcgggaggagctggtg cgctcgcacgagtccctgcgcgccacgctgcagcgtgccccatcccctcgagagcccggc gagcccccgctcttctctcggccctccacccccaagacatcgcgggccgtgagccccgcc gccgcccagccgccctctccgagcagcgcggagaagccgggggacgagcctgggaggccc aggagccgcgggccggcgggcaggacagagccgggggaaggcccgcagcaggaggttagg cgtcgggaccaattcccgctgacccggagcagagccatccaggagtgcaggagccctgtg ccgccccccgccgccgatcccccagaggccaggacgaaagcaccccccggtcggaagcgg gagcccccggcgcaggccgtgcgcttcctgccctgggccacgccgggcctggagggcgct gctgtaccccagaccttggagaagaacagggcggggcctgaggcagagaagaggcttcgc agagggccggaggaggacggtccctgggggccctgggaccgccgaggggcccgcagccag ggcaaaggtcgccgggcccggcccacctcccctgagctcgagtcttcggatgactcctac gtgtccgctggagaagagcccctagaggcccctgtgtttgagatccccctgcagaatgtg gtggtggcaccaggggcagatgtgctgctcaagtgtatcatcactgccaaccccccgccc caagtgtcctggcacaaggatgggtcagcgctgcgcagcgagggccgcctcctcctccgg gctgagggtgagcggcacaccctgctgctcagggaggccagggcagcagatgccgggagc tatatggccaccgccaccaacgagctgggccaggccacctgtgccgcctcactgaccgtg agacccggaaggctggatgtgggcttaggccctgtggtggctgctggccagaccttccat ggcagggatgagggggcagaggtgggattctgggccccctcagattcttcccccacctct gtgaaggagggcaaagatcttgacagttctccgattttcggggccaaagaaaacagggcc ttctccgtgcagggcctcagctgggtcagccgagctgagctgccctttttggtggatgac tccagctctgctttcctatccctcgagcgtttgggggtgcaagctgtagggctgtggcca acaggtgggtctacatcccctttcagcagccccatcacctccgacgaggaatacctgagc cccccagaggagttcccagagcctggggagacctggccgcgaacccccaccatgaagccc agtcccagccagaaccgccgttcttctgacactggctccaaggcaccccccaccttcaag gtctcacttatggaccagtcagtaagagaaggccaagatgtcatcatgagcatccgcgtg cagggggagcccaagcctgtggtctcctggctgagaaaccgccagcccgtgcgcccagac cagcggcgctttgcggaggaggctgagggtgggctgtgccggctgcggatcctggctgca gagcgtggcgatgctggtttctacacttgcaaagcggtcaatgagtatggtgctcggcag tgcgaggcccgcttggaggtccgagcacaccctgaaagccggtccctggccgtgctggcc cccctgcaggacgtggacgtgggggccggggagatggcgctgtttgagtgcctggtggcg gggcccactgacgtggaggtggattggctgtgccgtggccgcctgctgcagcctgcactg ctcaaatgcaagatgcatttcgatggccgcaaatgcaagctgctacttacatctgtacat gaggacgacagtggcgtctacacctgcaagctcagcacggccaaagatgagctgacctgc agtgcccggctgaccgtgcggccctcgttggcacccctgttcacacggctgctggaagat gtggaggtgttggagggccgagctgcccgtttcgactgcaagatcagtggcaccccgccc cctgttgttacctggactcattttggctgccccatggaggagagtgagaacttgcggctg cggcaggacgggggtctgcactcactgcacattgcccatgtgggcagcgaggacgagggg ctctatgcggtcagtgctgttaacacccatggccaggcccactgctcagcccagctgtat gtagaagagccccggacagccgcctcaggccccagctcgaagctggagaagatgccatcc attcccgaggagccagagcagggtgagctggagcggctgtccattcctgacttcctgcgg ccactgcaggacctggaggtgggactggccaaggaggccatgctagagtgccaggtgacc ggcctgccctaccccaccatcagctggttccacaatggccaccgcatccagagcagcgac gaccggcgcatgacacagtacagggatgtccatcgcttggtgttccctgccgtggggcct cagcacgccggtgtctacaagagcgtcattgccaacaagctgggcaaagctgcctgctat gcccacctgtatgtcacagacccggactccctgacgtacacagtgcagcaccaggtgctg ggctcggaccagtggacggcactggtcacaggcctgcgggagccagggtgggcagccaca gggctgcgtaagggggtccagcacatcttccgggtcctcagcaccactgtcaagagcagc agcaagccctcacccccttctgagcctgtgcagctgctggagcacggcccaaccctggag gaggcccctgccatgctggacaaaccagacatcgtgtatgtggtggagggacagcctgcc agcgtcaccgtcacattcaaccatgtggaggcccaggtcgtctggaggagctgccgaggg gccctcctagaggcacgggccggtgtgtacgagctgagccagccagatgatgaccagtac tgtcttcggatctgccgggtgagccgccgggacatgggggccctcacctgcaccgcccga aaccgtcacggcacacagacctgctcggtcacattggagctggcagaggcccctcggttt gagtccatcatggaggacgtggaggtgggggctggggaaactgctcgctttgcggtggtg gtcgagggaaaaccactgccggacatcatgtggtacaaggacgaggtgctgctgaccgag agcagccatgtgagcttcgtgtacgaggagaatgagtgctccctggtggtgctcagcacg ggggcccaggatggaggcgtctacacctgcaccgcccagaacctggcgggtgaggtctcc tgcaaagcagagttggctgtgcattcagctcagacagctatggaggtcgagggggtcggg gaggatgaggaccatcgaggaaggagactcagcgacttttatgacatccaccaggagatc ggcaggggtgctttctcctacttgcggcgcatagtggagcgtagctccggcctggagttt gcggccaagttcatccccagccaggccaagccaaaggcatcagcgcgtcgggaggcccgg ctgctggccaggctccagcacgactgtgtcctctacttccatgaggccttcgagaggcgc cggggactgactctgggcccactatttccacagatccgggcctatatgcggcaggtgcta gagggaatacactacctgcaccagagccacgtgctgcacctcgatgtcaagcctgagaac ctgctggtgtgggatggtgctgcgggcgagcagcaggtgcggatctgtgactttgggaat gcccaggagctgactccaggagagccccagtactgccagtatggcacacctgagtttgta gcacccgagattgtcaatcagagccccgtgtctggagtcactgacatctggcctgtgggt gttgttgccttcctctgtctgacaggaatctccccgtttgttggggaaaatgaccggaca acattgatgaacatccgaaactacaacgtggccttcgaggagaccacattcctgagcctg agcagggaggcccggggcttcctcatcaaagtgttggtgcaggaccggctgagacctacc gcagaagagaccctagaacatccttggttcaaaactcaggcaaagggcgcagaggtgagc acggatcacctgaagctattcctctcccggcggaggtggcagcgctcccagatcagctac aaatgccacctggtgctgcgccccatccccgagctgctgcgggcccccccagagcgggtg tgggtgaccatgcccagaaggccaccccccagtggggggctctcatcctcctcggattct gaagaggaagagctggaagagctgccctcagtgccccgcccactgcagcccgagttctct ggctcccgggtgtccctcacagacattcccactgaggatgaggccctggggaccccagag actggggctgccacccccatggactggcaggagcagggaagggctccctctcaggaccag gaggctcccagcccagaggccctcccctccccaggccaggagcccgcagctggggctagc cccaggcggggagagctccgcaggggcagctcggctgagagcgccctgccccgggccggg ccgcgggagctgggccggggcctgcacaaggcggcgtctgtggagctgccgcagcgccgg agccccagcccgggagccacccgcctggcccggggaggcctgggtgagggcgagtatgcc cagaggctgcaggccctgcgccagcggctgctgcggggaggccccgaggatggcaaggtc agcggcctcaggggtcccctgctggagagcctggggggccgtgctcgggacccccggatg gcacgagctgcctccagcgaggcagcgccccaccaccagcccccactcgagaaccggggc ctgcaaaagagcagcagcttctcccagggtgaggcggagccccggggccggcaccgccga gcgggggcgcccctcgagatccccgtggccaggcttggggcccgtaggctacaggagtct ccttccctgtctgccctcagcgaggcccagccatccagccctgcacggcccagcgccccc aaacccagtacccctaagtctgcagaaccttctgccaccacacctagtgatgctccgcag ccccccgcaccccagcctgcccaagacaaggctccagagcccaggccagaaccagtccga gcctccaagcctgcaccacccccccaggccctgcaaaccctagcgctgcccctcacaccc tatgctcagatcattcagtccctccagctgtcaggccacgcccagggcccctcgcagggc cctgccgcgccgccttcagagcccaagccccacgctgctgtctttgccagggtggcctcc ccacctccgggagcccccgagaagcgcgtgccctcagccgggggtcccccggtgctagcc gagaaagcccgagttcccacggtgccccccaggccaggcagcagtctcagtagcagcatc gaaaacttggagtcggaggccgtgttcgaggccaagttcaagcgcagccgcgagtcgccc ctgtcgctggggctgcggctgctgagccgttcgcgctcggaggagcgcggccccttccgt ggggccgaggaggaggatggcatataccggcccagcccggcggggaccccgctggagctg gtgcgacggcctgagcgctcacgctcggtgcaggacctcagggctgtcggagagcctggc ctcgtccgccgcctctcgctgtcactgtcccagcggctgcggcggacccctcccgcgcag cgccacccggcctgggaggcccgcggcggggacggagagagctcggagggcgggagctcg gcgcggggctccccggtgctggcgatgcgcaggcggctgagcttcaccctggagcggctg tccagccgattgcagcgcagtggcagcagcgaggactcggggggcgcgtcgggccgcagc acgccgctgttcggacggcttcgcagggccacgtccgagggcgagagtctgcggcgcctt ggccttccgcacaaccagttggccgcccaggccggcgccaccacgccttccgccgagtcc ctgggctccgaggccagcgccacgtcgggctcctcaggggaaagccgaagccggctccgc tggggcttctctcggccgcggaaggacaaggggttatcgccaccaaacctctctgccagc gtccaggaggagttgggtcaccagtacgtgcgcagtgagtcagacttccccccagtcttc cacatcaaactcaaggaccaggtgctgctggagggggaggcagccaccctgctctgcctg ccagcggcctgccctgcaccgcacatctcctggatgaaagacaagaagtccttgaggtca gagccctcagtgatcatcgtgtcctgcaaagatgggcggcagctgctcagcatcccccgg gcgggcaagcggcacgccggtctctatgagtgctcggccaccaacgtactgggcagcatc accagctcctgtaccgtggctgtggcccgagtcccaggaaagctagctcctccagaggta ccccagacctaccaggacacggcgctggtgctgtggaagccgggagacagccgggcacct tgcacgtatacgctggagcggcgagtggatggggagtctgtgtggcaccctgtgagctca ggcatccccgactgttactacaacgtgacccacctgccagttggcgtgactgtgaggttc cgtgtggcctgtgccaaccgtgctgggcaggggcccttcagcaactcttctgagaaggtc tttgtcaggggtactcaagctcctgctgcccccacacccccgtcagtcactgtcagcccc tcatctccccccacacctcctagccaggccttgtcctcgctcaaggctgtgggtccacca ccccaaacccctccacgaagacacaggggcctgcaggctgcccggccagcggagcccacc ctacccagtacccacgtcaccccaagtgagcccaagcctttcgtccttgacactgggacc ccgatcccagcctccactcctcaaggggttaaaccagtgtcttcctctactcctgtgtat gtggtgacttcctttgtgtctgcaccaccagcccctgagcccccagcccctgagccccct cctgagcctaccaaggtgactgtgcagagcctcagcccggccaaggaggtggggtccctg ctctcctccgttagccctcactatggaagtgtccccctcctctcctctgagccggtggtg tccctccccccgacacacaggggccgctttggtgttgtgcgagcgtgccgggagaatgcc acggggcgaacgttcgtggccaagatcgtgccctatgctgccgagggcaagcggcgggtc ctgcaggagtacgaggtgctgcggaccctgcaccacgagcggatcatgtccctgcacgag gcctacatcacccctcggtacctcgtgctcattgctgagagctgtggcaaccgggaactc ctctgtgggctcagtgacaggttccggtattctgaggatgacgtggccacttacatggtg cagctgctacaaggcctggactacctccacggccaccacgtgctccacctagacatcaag ccagacaacctgctgctggcccctgacaatgccctcaagattgtggactttggcagtgcc cagccctacaacccccaggcccttaggccccttggccaccgcacgggcacgctggagttc atggctccggagatggtgaagggagaacccatcggctctgccacggacatctggggagcg ggtgtgctcacttacattatgctcagtggacgctccccgttctatgagccagacccccag gaaacggaggctcggattgtggggggccgctttgatgccttccagctgtaccccaataca tcccagagcgccaccctcttcttgcgaaaggttctctctgtacatccctggagccggccc tccctgcaggactgcctggcccacccatggttgcaggacgcctacctgatgaagctgcgc cgccagacgctcaccttcaccaccaaccggctcaaggagttcctgggcgagcagcggcgg cgccgggctgaggctgccacccgccacaaggtgctgctgcgctcctaccctggcggcccc tag >gi568815596f:219318463_219525987|GENSCAN_predicted_peptide_5|264_aa MSKAAPAKKPVAVAPAPGCTLDINDPQVQSAAIRIQASYRGHRSRKELREKGPPRVLEPL KDVVLIEGSAAKLTCRISAFPDPFIRWSKDGKELRDGPKYRYVFEDPDVVALVVRDGELA DLGQYSINVTNPFGQCSDSARILVEVPTKIQKGPDNTKARKGTTVTLTAEILGEPAPDVG WTKDGEDIEEDDRRGPGPAARPGPGAGTWVGLSPEIWLEVFFEIGSTTTTLTIRRATPQD SGKYEVYVENSLGMDQSFARVDVA >gi568815596f:219318463_219525987|GENSCAN_predicted_CDS_5|795_bp atgtctaaagcagctcctgccaaaaagccagtggctgtggccccagctcctggatgtacc ctggacatcaatgacccacaggtccagagtgcggccattcgtatccaggcctcttaccgg ggccacaggtcccggaaggagctgcgcgagaaggggccgccgcgggtgctggagccgctg aaggacgtggtgctgatcgaaggcagcgcggccaagctcacttgccgcatttcggctttc ccggacccattcatccgctggagtaaggacggcaaggagctacgtgacggtcccaagtac cgctacgtcttcgaggaccctgacgtggtggcactggtggtgcgcgacggcgagctggca gacctgggccagtacagcatcaacgtcaccaaccccttcggccagtgctccgactcggcg cgcatcctcgtggaagtcccgacgaagattcaaaagggacccgacaacactaaggcgcgc aaaggcaccaccgtgacgctgactgcggagatcctgggagagcctgcgcccgacgtaggc tggaccaaggacggggaggacatcgaggaggatgacaggcgagggccgggacctgcggca cggccagggcctggggctggaacctgggtgggactgagcccagaaatctggctggaggtg ttcttcgagatcggcagcaccaccacgacgctgaccattcgccgggccacgcctcaggac agcggcaagtacgaggtgtacgtggagaacagcctgggcatggaccagagcttcgctcgc gtcgacgtggcctga >gi568815596f:219318463_219525987|GENSCAN_predicted_peptide_6|375_aa MLKAVILIGGPQKGTRFRPLSFEVPKPLFPVAGVPMIQHHIEACAQVPGMQEILLIGFYQ PDEPLTQFLEAAQQEFNLPVRYLQEFAPLGTGGGLYHFRDQILAGSPEAFFVLNADVCSD FPLSAMLEAHRRQRHPFLLLGTTANRTQSLNYGCIVENPQTHEVLHYVEKPSTFISDIIN CGIYLFSPEALKPLRDVFQRNQQDGQFSALYASRLYLSRYQDTHPERLAKHTPGGPWIRG NVYIHPTAKVAPSAVLGPNVSIGKGVTVGEGVRLRESIVLHGATLQEHTCVLHSIVGWGS TVGRWARVEGTPSDPNPNDPRARMDSESLFKDGKLLPAITILGCRVRIPAEVLILNSIVL PHKELSRSFTNQIIL >gi568815596f:219318463_219525987|GENSCAN_predicted_CDS_6|1128_bp atgctcaaagcggtgatcctgattggaggccctcaaaagggaactcgcttcagacctttg tcttttgaggtgcccaaaccattgtttcctgtggcaggggtccctatgatccaacaccat attgaagcctgtgcccaggtccctggaatgcaggagattctgctcattggcttctaccaa cctgatgagcccctcacccagttcctagaagccgcccagcaggagtttaaccttccagtc aggtacctgcaggaatttgcccccctaggcacagggggtggtctttaccattttcgagac cagatcctggctgggagccccgaggcattcttcgtgctcaatgctgatgtctgctccgac ttccccttgagtgctatgttggaagcccaccgacgccagcgtcaccctttcttactcctt ggcactacggctaacaggacgcaatccctcaactacggctgcatcgttgagaatccacag acacacgaggtattgcactatgtggagaaacccagcacatttatcagtgacatcatcaac tgcggcatctacctcttttctcctgaagccttgaagcctcttcgggatgtcttccagcgt aatcagcaggatgggcaattttcagccctctacgcctcccgcctctacctgagccgatac caggacactcacccagaacggctggccaagcacaccccagggggcccatggatccgaggg aatgtgtacatccacccgaccgccaaggtggccccctcggctgtgctgggccccaacgtc tccatcgggaagggggtgaccgtgggtgagggtgtgcggctccgggagagcatcgtcctc catggagccactttgcaggagcacacgtgtgttctgcatagcatcgtgggctgggggagc accgtgggacgctgggcccgcgtggagggtacccccagtgaccctaaccccaacgatccc cgagcccgcatggacagtgagagcctcttcaaggacgggaagctgctgcctgctatcacc atcctgggctgccgagtccggatccctgccgaggtgctcatcctgaactcgattgttctg ccacacaaggagctgagccgaagcttcaccaaccagatcatcctctga >gi568815596f:219318463_219525987|GENSCAN_predicted_peptide_7|376_aa MLSGAAGAARRGGAALAPSLTRSLAGTHAGADSCAGADKGSHKETIEERDKRQQRQQRQR QHQGCGAAGSGSDSPTSGPHPVPVLFPLALSLEEQPLPPLPLGRAPGLLAREGQGREALA SPSSRGQMPIEIVCKIKFAEEDAKPKEKEAGDEQSLLGAVAPGAAPRDLATFASTSTLHG LGRACGPGPHGLRRTLWALALLTSLAAFLYQAAGLARGYLTRPHLVAMDPAAPAPVAGFP AVTLCNINRFRHSALSDADIFHLANLTGLPPKDRDGHRAAGLRYPEPDMVDILNRTGHQL ADMLKSCNFSGHHCSASNFSVAGAGSAGNPTHPSNAHHALGTPVGVGLEGEQFQRDRHGL QQPRRQQEFREEPRDD >gi568815596f:219318463_219525987|GENSCAN_predicted_CDS_7|1131_bp atgctgagcggagcggctggggctgcgcggcgtggcggagcagcgctcgctccctcgctc actcgctcgctcgcagggacacacgcaggggctgacagctgtgctggtgctgataaggga agccacaaggagacgatcgaggagagagacaagcggcagcagaggcagcagcggcagagg cagcaccagggctgcggagctgctgggagtgggagtgactcccccacctcgggcccccac cctgtccctgtcctcttcccgcttgccctgagtttagaagagcagccgctgccaccactg ccactcgggagggcaccagggctgctggctagggagggacagggcagggaggctctggcc agtcccagcagccggggacagatgccgatcgagattgtgtgcaaaatcaaatttgctgag gaggatgcgaaacccaaggagaaggaggcaggggatgagcagagcctcctcggggctgtt gcccctggagcagccccccgagacctggccacctttgccagcaccagcaccctgcatgga ctgggccgggcctgtggcccaggcccccacggactgcgcagaaccctgtgggcactggcc ctactcacctcgctggctgccttcctgtaccaggcggctggcctggcccggggctacctg acccggcctcacctggtggcaatggaccccgctgccccagccccagtggcgggcttcccg gctgtcaccctctgcaatatcaaccgcttccggcattcggcactcagcgatgccgacatc ttccacctggccaatctgacagggctgccccccaaagaccgggatgggcaccgtgcggct ggcctgcgctacccagagcctgacatggtagacatcctcaaccgcactggccaccagctc gccgacatgcttaagagctgcaacttcagtgggcatcactgctccgccagcaacttctct gtggctggggctggcagcgctggaaatccaacccacccctcaaatgctcaccatgccctt gggacacccgtgggtgttgggttggagggggagcagttccagagagataggcacgggctg cagcagccgaggcggcagcaagagttcagagaggagccacgggatgattaa