GENSCAN 1.0 Date run: 5-Nov-116 Time: 17:02:47 Sequence gi568815587r:47337978_47548964 : 210987 bp : 49.33% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.26 Intr - 702 543 160 0 1 86 85 380 0.260 37.06 1.25 Intr - 1427 1347 81 2 0 95 113 88 0.970 11.83 1.24 Intr - 1813 1674 140 2 2 102 84 150 0.999 16.18 1.23 Intr - 3055 3026 30 2 0 121 110 1 0.929 3.70 1.22 Intr - 3267 3161 107 2 2 85 80 208 0.999 19.56 1.21 Intr - 4179 4014 166 1 1 90 101 299 0.999 30.42 1.20 Intr - 4767 4601 167 2 2 26 84 278 0.999 20.80 1.19 Intr - 4958 4853 106 0 1 65 101 129 0.999 11.17 1.18 Intr - 5168 5044 125 1 2 78 86 205 0.994 19.53 1.17 Intr - 5647 5515 133 2 1 -54 61 230 0.977 5.80 1.16 Intr - 8393 8230 164 1 2 -16 71 345 0.997 22.02 1.15 Intr - 9502 9449 54 0 0 84 105 42 0.908 3.59 1.14 Intr - 9928 9880 49 2 1 53 94 86 0.968 3.44 1.13 Intr - 10564 10447 118 1 1 106 89 204 0.993 22.34 1.12 Intr - 11945 11797 149 0 2 114 98 294 0.999 32.95 1.11 Intr - 12192 12037 156 1 0 43 92 149 0.495 10.78 1.10 Intr - 12638 12525 114 0 0 87 100 55 0.992 7.02 1.09 Intr - 13528 13262 267 2 0 31 110 407 0.593 34.70 1.08 Intr - 16206 16158 49 0 1 83 95 58 0.972 4.25 1.07 Intr - 17095 16964 132 1 0 124 41 77 0.932 7.44 1.06 Intr - 17569 17298 272 2 2 131 -23 720 0.860 62.46 1.05 Intr - 21029 20867 163 2 1 121 75 159 0.937 17.45 1.04 Intr - 22063 21876 188 2 2 110 57 314 0.681 29.91 1.03 Intr - 37755 37656 100 0 1 40 101 142 0.475 10.38 1.02 Intr - 45187 45086 102 1 0 95 67 25 0.124 1.47 1.01 Init - 51387 51199 189 0 0 33 84 105 0.273 3.61 1.00 Prom - 55614 55575 40 -7.66 2.00 Prom + 64616 64655 40 -7.06 2.01 Init + 72148 72418 271 0 1 70 100 186 0.900 13.14 2.02 Intr + 73949 74062 114 0 0 102 119 139 0.999 18.82 2.03 Intr + 74369 74490 122 0 2 101 80 195 0.999 20.21 2.04 Intr + 75423 75530 108 2 0 126 87 135 0.999 17.68 2.05 Intr + 75620 75709 90 1 0 141 100 218 0.983 28.49 2.06 Intr + 76448 76498 51 1 0 96 83 37 0.885 3.10 2.07 Intr + 76800 76932 133 2 1 83 68 187 0.977 16.42 2.08 Intr + 77083 77182 100 2 1 71 89 151 0.973 12.67 2.09 Term + 77311 77386 76 1 1 117 32 149 0.999 9.51 2.10 PlyA + 78501 78506 6 1.05 3.21 PlyA - 78655 78650 6 1.05 3.20 Term - 80968 80858 111 1 0 76 49 214 0.999 14.86 3.19 Intr - 81220 81139 82 0 1 88 101 163 0.933 17.24 3.18 Intr - 82432 82287 146 1 2 107 99 188 0.999 20.88 3.17 Intr - 82750 82654 97 0 1 86 113 110 0.789 13.31 3.16 Intr - 84745 84597 149 1 2 120 91 299 0.999 32.43 3.15 Intr - 84996 84853 144 0 0 72 113 110 0.996 12.38 3.14 Intr - 86206 86069 138 1 0 63 78 250 0.997 22.16 3.13 Intr - 86514 86452 63 0 0 88 89 55 0.957 4.51 3.12 Intr - 86734 86630 105 1 0 57 99 146 0.999 13.01 3.11 Intr - 87269 87144 126 2 0 68 85 162 0.999 14.78 3.10 Intr - 87973 87890 84 1 0 25 86 186 0.976 12.12 3.09 Intr - 88305 88156 150 0 0 101 24 124 0.504 7.66 3.08 Intr - 100070 100004 67 1 1 80 -12 101 0.031 -1.79 3.07 Intr - 100954 100755 200 1 2 56 75 330 0.999 26.65 3.06 Intr - 103235 103182 54 2 0 80 77 104 0.777 7.68 3.05 Intr - 103756 103634 123 1 0 79 100 162 0.999 17.28 3.04 Intr - 103944 103846 99 0 0 68 78 147 0.997 12.01 3.03 Intr - 104837 104679 159 2 0 121 59 300 0.912 30.58 3.02 Intr - 110173 109835 339 1 0 70 86 660 0.910 59.67 3.01 Init - 110987 110796 192 2 0 83 98 384 0.999 37.87 3.00 Prom - 117174 117135 40 -6.16 4.13 PlyA - 118862 118857 6 1.05 4.12 Term - 134380 134253 128 2 2 43 53 217 0.956 12.14 4.11 Intr - 135254 135111 144 0 0 42 76 168 0.943 11.25 4.10 Intr - 137544 137359 186 1 0 61 113 188 0.964 18.26 4.09 Intr - 138979 138869 111 2 0 63 110 41 0.588 4.15 4.08 Intr - 139448 139320 129 0 0 72 115 52 0.990 6.97 4.07 Intr - 140975 140900 76 2 1 58 107 36 0.681 1.59 4.06 Intr - 144879 144718 162 0 0 91 73 111 0.962 10.07 4.05 Intr - 145555 145476 80 2 2 111 75 70 0.999 7.27 4.04 Intr - 146546 146412 135 0 0 53 92 158 0.685 13.24 4.03 Intr - 148821 148773 49 0 1 112 103 45 0.983 6.65 4.02 Intr - 149264 149182 83 0 2 72 78 39 0.953 0.66 4.01 Init - 151037 150860 178 2 1 56 72 220 0.959 16.62 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 100070 99998 73 1 1 80 41 97 0.917 1.58 S.002 Init + 116211 116285 75 2 0 51 116 73 0.927 7.49 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815587r:47337978_47548964|GENSCAN_predicted_peptide_1|1161_aa MREPRDRDSHGGTGLRGPENHNHLLPCSRLCALGRAPYLRELHFRHLQNGTDKACLVRLR EGGELLTVRLWITKPFLFLESGSYYSQEFELPRVPGDQPSEDLVPYDTDLYQRQTHEYYP YLSSDGESHSDHYWDFHPHHVHSEFESFAENNFTELQSVQPPQLQQLYRHMELEQMHVLD TPMVPPHPSLGHQVSYLPRMCLQYPSLSPAQPSSDEEEGERQSPPLEVSDGEADGLEPGP GLLPGETGSKKKIRLYQFLLDLLRSGDMKDSIWWVDKDKGTFQFSSKHKEALAHRWGIQK GNRKKMTYQKMARALRNYGKTGEVKKVKKKLTYQFSGEAPSTSRFASLQDSTPAPGRQLG VRPHRGNLAEDDPGYCLGSLKSLLATAGEKQTKLSGEAFSAFSKKPRSVEVAAGSPAVFE AETERAGVKVRWQRGGSDISASNKYGLATEGTRHTLTVREVGPADQGSYAVIAGSSKVKF DLKVIEAEKAEPMLAPAPAPAEATGAPGEAPAPAAELGESAPSPKAWVTEQDSISNKQKK PLLTGSSSAALNGPTPGAPDDPIGLFVMRPQDGEVTVGGSITFSARVAGASLLKPPVVKW FKGKWVDLSSKVGQHLQLHDSYDRASKVYLFELHITDAQPAFTGSYRCEVSTKDKFDCSN FNLTVHEAMGTGDLDLLSAFRRTDSHEDTGILDFSSLLKKRDSKLEAPAEEDVWEILRQA PPSEYERIAFQYGVTDLRGMLKRLKGMRRDEKKSTAFQKKLEPAYQVSKGHKIRLTVELA DHDAEVKWLKNGQEIQMSGRYIFESIGAKRTLTISQCSLADDAAYQCVVGGEKCSTELFV KEPPVLITRPLEDQLVMVGQRVEFECEVSEEGAQVKWLKDGVELTREETFKYRFKKDGQR HHLIINEAMLEDAGHYALCTSGGQALAELIVQEKKLEVYQSIADLMVGAKDQAVFKCEVS DENVRGVWLKNGKELVPDSRIKVSHIGRVHKLTIDDVTPADEADYSFVPEGFACNLSAKL HFMEVKIDFVPRQEPPKIHLDCPGRIPDTIVVVAGNKLRLDVPISGDPAPTVIWQKAITQ GNKAPARPAPDAPEDTGDSDEWVFDKKLLCETEGRVRVETTKDRSIFTVEGAEKEDEGVY TVTVKNPVGEDQVNLTVKVIX >gi568815587r:47337978_47548964|GENSCAN_predicted_CDS_1|3483_bp atgagagaacctcgagatagggacagccacggaggcacaggcctgaggggccctgagaac cacaatcacctcctgccctgctcccggctgtgtgcccttggccgtgccccttacctccgg gaactgcacttccgtcatctgcagaatggcactgacaaggcctgcctcgtacggttacgt gagggaggggaactactaaccgtgaggttatggattaccaaaccgttcctgttcttggaa tctgggtcctactattcccaagaatttgaattaccacgggtccctggggatcagccatca gaagacctggtgccctatgacacggatctataccaacgccaaacgcacgagtattacccc tatctcagcagtgatggggagagccatagcgaccattactgggacttccacccccaccac gtgcacagcgagttcgagagcttcgccgagaacaacttcacggagctccagagcgtgcag cccccgcagctgcagcagctctaccgccacatggagctggagcagatgcacgtcctcgat acccccatggtgccaccccatcccagtcttggccaccaggtctcctacctgccccggatg tgcctccagtacccatccctgtccccagcccagcccagctcagatgaggaggagggcgag cggcagagccccccactggaggtgtctgacggcgaggcggatggcctggagcccgggcct gggctcctgcctggggagacaggcagcaagaagaagatccgcctgtaccagttcctgttg gacctgctccgcagcggcgacatgaaggacagcatctggtgggtggacaaggacaagggc accttccagttctcgtccaagcacaaggaggcgctggcgcaccgctggggcatccagaag ggcaaccgcaagaagatgacctaccagaagatggcgcgcgcgctgcgcaactacggcaag acgggcgaggtcaagaaggtgaagaagaagctcacctaccagttcagcggcgaagccccc tccacatcccgcttcgcctccctccaggactccaccccggctcccggacgccagctgggc gtcagaccccaccggggcaaccttgcagaggacgacccggggtactgccttgggagtctc aagtccctcctagccacagcaggggagaaacagaccaagctgagcggagaagccttctca gcttttagcaagaagccacggtcagtggaagtggccgcaggcagccctgccgtgttcgag gccgagacagagcgggcaggagtgaaggtgcgctggcagcgcggaggcagtgacatcagc gccagcaacaagtacggcctggccacagagggcacacggcatacgctgacagtgcgggaa gtgggccctgccgaccagggatcttacgcagtcattgctggctcctccaaggtcaagttc gacctcaaggtcatagaggcagagaaggcagagcccatgctggcccctgcccctgcccct gctgaggccactggagcccctggagaagccccggccccagccgctgagctgggagaaagt gccccaagtcccaaagcctgggtgacagagcaagactccatctcaaacaaacagaaaaag cctttgctcacagggtcaagctcagcagctctcaatggtcctacccctggagcccccgat gaccccattggcctcttcgtgatgcggccacaggatggcgaggtgaccgtgggtggcagc atcaccttctcagcccgcgtggccggcgccagcctcctgaagccgcctgtggtcaagtgg ttcaagggcaaatgggtggacctgagcagcaaggtgggccagcacctgcagctgcacgac agctacgaccgcgccagcaaggtctatctgttcgagctgcacatcaccgatgcccagcct gccttcactggcagctaccgctgtgaggtgtccaccaaggacaaatttgactgctccaac ttcaatctcactgtccacgaggccatgggcaccggagacctggacctcctatcagccttc cgccgcactgatagccatgaggacactgggattctggacttcagctcactgctgaaaaag agggactcgaagctggaggcaccagcagaggaggacgtgtgggagatcctacggcaggca cccccatctgagtacgagcgcatcgccttccagtacggcgtcactgacctgcgcggcatg ctaaagaggctcaagggcatgaggcgcgatgagaagaagagcacagcctttcagaagaag ctggagccggcctaccaggtgagcaaaggccacaagatccggctgaccgtggaactggct gaccatgacgctgaggtcaaatggctcaagaatggccaggagatccagatgagcggcagg tacatctttgagtccatcggtgccaagcgtaccctgaccatcagccagtgctcattggcg gacgacgcagcctaccagtgcgtggtgggtggcgagaagtgtagcacggagctctttgtg aaagagccccctgtgctcatcacgcgccccttggaggaccagctggtgatggtggggcag cgggtggagtttgagtgtgaagtatcggaggagggggcgcaagtcaaatggctgaaggac ggggtggagctgacccgggaggagaccttcaaataccggttcaagaaggacgggcagaga caccacctgatcatcaacgaggccatgctggaggacgcggggcactatgcactgtgcact agcgggggccaggcgctggctgagctcattgtgcaggaaaagaagctggaggtgtaccag agcatcgcagacctgatggtgggcgcaaaggaccaggcggtgttcaaatgtgaggtctca gatgagaatgttcggggtgtgtggctgaagaatgggaaggagctggtgcccgacagccgc ataaaggtgtcccacatcgggcgggtccacaaactgaccattgacgacgtcacacctgcc gacgaggctgactacagctttgtgcccgagggcttcgcctgcaacctgtcagccaagctc cacttcatggaggtcaagattgacttcgtacccaggcaggaacctcccaagatccacctg gactgcccaggccgcataccagacaccattgtggttgtagctggaaataagctacgtctg gacgtccctatctctggggaccctgctcccactgtgatctggcagaaggctatcacgcag gggaataaggccccagccaggccagccccagatgccccagaggacacaggtgacagcgat gagtgggtgtttgacaagaagctgctgtgtgagaccgagggccgggtccgcgtggagacc accaaggaccgcagcatcttcacggtcgagggggcagagaaggaagatgagggcgtctac acggtcacagtgaagaaccctgtgggcgaggaccaggtcaacctcacagtcaaggtcatc gnn >gi568815587r:47337978_47548964|GENSCAN_predicted_peptide_2|354_aa MAGPRLLFLTALALELLERAGGSQPALRSRGTATACRLDNKESESWGALLSGERLDTWIC SLLGSLMVGLSGVFPLLVIPLEMGTMLRSEAGAWRLKQLLSFALGGLLGNVFLHLLPEAW AYTCSASPGGEGQSLQQQQQLGLWVIAGILTFLALEKMFLDSKEEGTSQAPNKDPTAAAA ALNGGHCLAQPAAEPGLGAVVRSIKVSGYLNLLANTIDNFTHGLAVAASFLVSKKIGLLT TMAILLHEIPHEVGDFAILLRAGFDRWSAAKLQLSTALGGLLGAGFAICTQSPKGVEETA AWVLPFTSGGFLYIALVNVLPDLLEEEDPWRSLQQLLLLCAGIVVMVLFSLFVD >gi568815587r:47337978_47548964|GENSCAN_predicted_CDS_2|1065_bp atggcgggcccaaggctcctcttcctcactgcccttgccctggagctcttggaaagggct gggggttcccagccggccctccggagccgggggactgcgacggcctgtcgcctggacaac aaggaaagcgagtcctggggggctctgctgagcggagagcggctggacacctggatctgc tccctcctgggttccctcatggtggggctcagtggggtcttcccgttgcttgtcattccc ctagagatggggaccatgctgcgctcagaagctggggcctggcgcctgaagcagctgctc agcttcgccctggggggactcttgggcaatgtgtttctgcatctgctgcccgaagcctgg gcctacacgtgcagcgccagccctggtggtgaggggcagagcctgcagcagcagcaacag ctggggctgtgggtcattgctggcatcctgaccttcctggcgttggagaagatgttcctg gacagcaaggaggaggggaccagccaggcccccaacaaagaccccactgctgctgccgcc gcgctcaatggaggccactgtctggcccagccggctgcagagcccggcctcggtgccgtg gtccggagcatcaaagtcagcggctacctcaacctgctggccaacaccatcgataacttc acccacgggctggctgtggctgccagcttccttgtgagcaagaagatcgggctcctgaca accatggccatcctcctgcatgagatcccccatgaggtgggcgactttgccatcctgctc cgggccggctttgaccgatggagcgcagccaagctgcaactctcaacagcgctggggggc ctactgggcgctggcttcgccatctgtacccagtcccccaagggagtagaggagacggca gcctgggtcctgcccttcacctctggcggctttctctacatcgccttggtgaacgtgctc cctgacctcttggaagaagaggacccgtggcgctccctgcagcagctgcttctgctctgt gcgggcatcgtggtaatggtgctgttctcgctcttcgtggattaa >gi568815587r:47337978_47548964|GENSCAN_predicted_peptide_3|875_aa MGQDQTKQQIEKGLQLYQSNQTEKALQVWTKVLEKSSDLMGRFRVLGCLVTAHSEMGRYK EMLKFAVVQIDTARELEDADFLLESYLNLARSNEKLCEFHKTISYCKTCLGLPGTRAGAQ LGGQVSLSMGNAFLGLSVFQKALESFEKALRYAHNNDDAMLECRVCCSLGSFYAQVKDYE KALFFPCKAAELVNNYGKGWSLKYRAMSQYHMAVAYRLLGRLGSAMECCEESMKIALQHG DRPLQALCLLCFADIHRSRGDLETAFPRYDSAMSIMTEIGNRLGQVQALLGVAKCWVARK ALDKALDAIERAQDLAEEVGNKLSQLKLHCLSESIYRSKGLQRELRAHVVRFHECVEETE LYCGLCGESIGEKNSRLQALPCSHIFHLRCLQNNGTRSCPNCRRSSMKPGFEMNLLPNIE SPVTRQEKMATVWDEAEVGTGRAGGPGTGARRETPLTRGKEQDGIGEEVLKMSTEEIIQR TRLLDSEIKIMKSEVLRVTHELQAMKDKIKENSEKIKVNKTLPYLVSNVIELLDVDPNDQ EEDGANIDLDSQRKGKCAVIKTSTRQTYFLPVIGLVDAEKLKPGDLVGVNKDSYLILETL PTEYDSRVKAMEVDERPTEQYSDIGGLDKQIQELVEAIVLPMNHKEKFENLGIQPPKGVL MYGPPGTGKTLLARACAAQTKATFLKLAGPQLVQMFIGDGAKLVRDAFALAKEKAPSIIF IDELDAIGTKRFDSEKAGDREVQRTMLELLNQLDGFQPNTQVKVIAATNRVDILDPALLR SGRLDRKIEFPMPNEEARARIMQIHSRKMNVSPDVNYEELARCTDDFNGAQCKAVCVEAG MIALRRGATELTHEDYMEGILEVQAKKKANLQYYA >gi568815587r:47337978_47548964|GENSCAN_predicted_CDS_3|2628_bp atggggcaggaccagaccaagcagcagatcgagaaggggctccagctgtaccagtccaac cagacagagaaggcattgcaggtgtggacaaaggtgctggagaagagctcggacctcatg gggcgcttccgcgtgctgggctgcctggtcacagcccactcggagatgggccgctacaag gagatgctgaagttcgctgtggtccagatcgacacggcccgggagctggaggatgccgac ttcctcctggagagctacctgaacctggcacgcagcaacgagaagctgtgcgagtttcac aagaccatctcctactgcaagacctgccttgggctgcctggtaccagggcaggtgcccag ctcggaggccaggtcagcctgagcatgggcaatgccttcctgggcctcagcgtcttccag aaggccctggagagcttcgagaaggccctgcgctatgcccacaacaatgatgacgccatg ctcgagtgccgcgtgtgctgcagcctgggcagcttctatgcccaggtcaaggactacgag aaagccctgttcttcccctgcaaggcggcagagcttgtcaacaactatggcaaaggctgg agcctgaagtaccgggccatgagccagtaccacatggccgtggcctatcgcctgctgggc cgcctgggcagtgccatggagtgttgtgaggagtctatgaagatcgcgctgcagcacggg gaccggccactgcaggcgctctgcctgctctgcttcgctgacatccaccggagccgtggg gacctggagacagccttccccaggtacgactccgccatgagcatcatgaccgagatcgga aaccgcctggggcaggtgcaggcgctgctgggtgtggccaagtgctgggtggccaggaag gcgctggacaaggctctggatgccatcgagagagcccaggatctggccgaggaggtgggg aacaagctgagccagctcaagctgcactgtctgagcgagagcatttaccgcagcaaaggg ctgcagcgggaactgcgggcgcacgttgtgaggttccacgagtgcgtggaggagacggag ctctactgcggcctgtgcggcgagtccataggcgagaagaacagccggctgcaggcccta ccttgctcccacatcttccacctcaggtgcctgcagaacaacgggacccggagctgtccc aactgccgccgctcatccatgaagcctggctttgaaatgaatctgctgccgaatattgag agtccagtgactcggcaggagaagatggcgaccgtgtgggatgaggccgaggtgggcacc gggcgagctggcggtccgggaaccggggcccgcagggagacgccattgacaagagggaag gagcaagatggaattggggaggaggtgctcaagatgtccacggaggagatcatccagcgc acacggctgctggacagtgagatcaagatcatgaagagtgaagtgttgagagtcacccat gagctccaagccatgaaggacaagataaaagagaacagtgagaaaatcaaagtgaacaag accctgccgtaccttgtctccaacgtcatcgagctcctggatgttgatcctaatgaccaa gaggaggatggtgccaatattgacctggactcccagaggaagggcaagtgtgctgtgatc aaaacctctacacgacagacgtacttccttcctgtgattgggttggtggatgctgaaaag ctaaagccaggagacctggtgggtgtgaacaaagactcctatctgatcctggagacgctg cccacagagtatgactcgcgggtgaaggccatggaggtagacgagaggcccacggagcaa tacagtgacattgggggtttggacaagcagatccaggagctggtggaggccattgtcttg ccaatgaaccacaaggagaagtttgagaacttggggatccaacctccaaaaggggtgctg atgtatgggcccccagggacggggaagaccctcctggcccgggcctgtgccgcacagact aaggccaccttcctaaagctggctggcccccagctggtgcagatgttcattggagatggt gccaagctagtccgggatgcctttgccctggccaaggagaaagcgccctctatcatcttc attgatgagttggatgccatcggcaccaagcgctttgacagtgagaaggctggggaccgg gaggtgcagaggacaatgctggagcttctgaaccagctggatggcttccagcccaacacc caagttaaggtaattgcagccacaaacagggtggacatcctggaccccgccctcctccgc tcgggccgccttgaccgcaagatagagttcccgatgcccaatgaggaggcccgggccaga atcatgcagatccactcccgaaagatgaatgtcagtcctgacgtgaactacgaggagctg gcccgctgcacagatgacttcaatggggcccagtgcaaggctgtgtgtgtggaggcgggc atgatcgcactgcgcaggggtgccacggagctcacccacgaggactacatggaaggcatc ctggaggtgcaggccaagaagaaagccaacctacaatactacgcctag >gi568815587r:47337978_47548964|GENSCAN_predicted_peptide_4|486_aa MNGTLDHPDQPDLDAIKMFVGQVPRTWSEKDLRELFEQYGAVYEINVLRDRSQNPPQSKG CCFVTFYTRKAALEAQNALHNMKVLPGMHHPIQMKPADSEKNNAVEDRKLFIGMISKKCT ENDIRVMFSSFGQIEECRILRGPDGLSRGCAFVTFTTRAMAQTAIKAMHQAQTMEGCSSP MVVKFADTQKDKEQKRMAQQLQQQMQQISAASVWGNLAGLNTLGPQYLALYLQLLQQTAS SGNLNTLSSLHPMGGLNAMQLQNLAALAAAASAAQNTPSGTNALTTSSSPLSVLTSSGSS PSSSSSNSVNPIASLGALQTLAGATAGLNVGSLAGMAALNGGLGSSGLSNGTGSTMEALT QAYSGIQQYAAAALPTLYNQNLLTQQSIGAAGSQKEGPEGANLFIYHLPQEFGDQDLLQM FMPFGNVVSAKVFIDKQTNLSKCFGFVSYDNPVSAQAAIQSMNGFQIGMKRLKVQLKRSK NDSKPY >gi568815587r:47337978_47548964|GENSCAN_predicted_CDS_4|1461_bp atgaacggcaccctggaccacccagaccaaccagatcttgatgctatcaagatgtttgtg ggccaggttccaaggacctggtctgaaaaggacttgcgggaactcttcgaacagtatggt gctgtgtatgaaatcaacgtcctaagggataggagccaaaacccgcctcagagcaaaggg tgctgttttgttacattttacacccgtaaagctgcattagaagctcagaatgctcttcac aacatgaaagtcctcccagggatgcatcaccctatacagatgaaacctgctgacagtgag aagaacaatgcagtggaagacaggaagctgtttattggtatgatttccaagaagtgcact gaaaatgacatccgagtcatgttctcttcgtttggacagattgaagaatgccggatattg cggggacctgatggcctgagccgaggttgtgcatttgtgacttttacaacaagagccatg gcacagacggctatcaaggcaatgcaccaagcacagaccatggagggttgctcatcaccc atggtggtaaaatttgctgatacacagaaggacaaagaacagaagagaatggcccagcag ctccagcagcagatgcagcaaatcagcgcagcatctgtgtggggaaaccttgctggtcta aatactcttggaccccagtatttagcactttatttgcagctccttcagcagactgcctcc tctgggaacctcaacaccctgagcagcctccacccaatgggagggttgaatgcaatgcag ttacagaatttggctgcactagctgctgcagctagtgcagctcagaacacaccaagtggt accaatgctctcactacatccagcagtcccctcagcgtgctcactagttcagggtcctca cctagctctagcagcagtaattctgtcaaccccatagcctcacttggagccctgcagaca ttagctggagcaacggctggcctcaatgttggctctttggcaggaatggctgctttaaat ggtggcctgggcagcagtggcctttccaatggcaccgggagcaccatggaggccctcact caggcctactcgggtatccagcaatatgctgctgctgcgctccccactctgtacaaccag aatcttctgacacagcagagtattggtgctgctggaagccagaaggaaggtccagaggga gccaacctgttcatctaccacctgccccaggagtttggtgatcaggacctgctgcagatg tttatgccctttgggaatgtcgtgtctgccaaggttttcatagacaagcagacaaacctg agcaagtgttttggttttgtaagttacgacaatcctgtttcggcccaagctgccatccag tccatgaacggctttcagattggcatgaagcggcttaaagtgcagctcaaacgttcgaag aatgacagcaagccctactga