GENSCAN 1.0 Date run: 3-Nov-116 Time: 04:40:09 Sequence gi568815578f:57461412_57665801 : 204390 bp : 48.91% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.05 PlyA - 110 105 6 -1.95 1.04 Term - 385 359 27 1 0 104 49 36 0.119 -0.63 1.03 Intr - 3479 3300 180 2 0 -19 86 198 0.134 8.96 1.02 Intr - 4200 4054 147 0 0 28 56 115 0.795 2.73 1.01 Init - 5398 5237 162 1 0 82 74 86 0.617 6.34 1.00 Prom - 10904 10865 40 -4.86 2.04 PlyA - 11549 11544 6 1.05 2.03 Term - 11736 11644 93 0 0 92 46 109 0.983 4.93 2.02 Intr - 13492 13406 87 1 0 126 70 86 0.971 10.77 2.01 Init - 21979 21815 165 1 0 58 75 97 0.551 5.03 2.00 Prom - 24365 24326 40 -6.66 3.02 PlyA - 26517 26512 6 1.05 3.01 Sngl - 27616 26981 636 1 0 85 38 784 0.936 69.29 3.00 Prom - 31299 31260 40 -3.76 4.22 PlyA - 32473 32468 6 1.05 4.21 Term - 37290 37139 152 1 2 48 54 130 0.492 3.67 4.20 Intr - 42190 42025 166 1 1 61 36 105 0.546 2.13 4.19 Intr - 47377 47195 183 1 0 104 94 82 0.992 10.38 4.18 Intr - 50045 49944 102 2 0 37 95 46 0.552 0.57 4.17 Intr - 51341 51181 161 0 2 54 72 169 0.992 11.61 4.16 Intr - 53330 53181 150 0 0 69 83 172 0.993 14.93 4.15 Intr - 54423 54303 121 0 1 43 110 99 0.993 7.67 4.14 Intr - 57480 57347 134 1 2 51 88 118 0.998 8.46 4.13 Intr - 57966 57796 171 1 0 65 98 103 0.993 8.91 4.12 Intr - 61867 61657 211 1 1 42 61 166 0.983 7.79 4.11 Intr - 62805 62252 554 1 2 78 87 671 0.482 58.58 4.10 Intr - 63816 63617 200 2 2 124 77 39 0.625 5.39 4.09 Intr - 63951 63899 53 0 2 102 36 -4 0.426 -6.49 4.08 Intr - 64169 64063 107 0 2 125 63 61 0.858 7.23 4.07 Intr - 64881 64827 55 0 1 151 63 -32 0.578 -0.85 4.06 Intr - 66871 66787 85 0 1 64 48 85 0.335 1.92 4.05 Intr - 72820 72649 172 2 1 58 81 65 0.275 1.80 4.04 Intr - 74222 74132 91 2 1 97 -8 56 0.230 -3.53 4.03 Intr - 74662 74439 224 2 2 77 46 149 0.746 7.45 4.02 Intr - 77076 76979 98 2 2 72 96 7 0.438 -0.45 4.01 Init - 77557 77511 47 1 2 103 44 62 0.194 1.89 4.00 Prom - 82887 82848 40 -2.76 5.00 Prom + 92654 92693 40 -2.46 5.01 Init + 94817 94874 58 1 1 75 84 18 0.061 1.57 5.02 Intr + 99668 99792 125 0 2 58 115 8 0.128 0.80 5.03 Intr + 99989 100224 236 1 2 61 107 282 0.085 23.89 5.04 Intr + 100684 100841 158 1 2 53 105 182 0.584 16.05 5.05 Intr + 101285 101488 204 0 0 62 106 245 0.989 22.87 5.06 Intr + 101617 101804 188 2 2 64 93 260 0.999 23.51 5.07 Intr + 102154 102316 163 0 1 37 57 195 0.997 10.85 5.08 Intr + 102758 102982 225 0 0 71 66 314 0.989 25.46 5.09 Intr + 103071 103202 132 1 0 113 81 126 0.999 15.02 5.10 Intr + 103629 103724 96 1 0 80 94 45 0.901 4.28 5.11 Term + 103939 104393 455 2 2 134 37 750 0.999 69.82 5.12 PlyA + 104723 104728 6 -0.45 6.03 PlyA - 105662 105657 6 1.05 6.02 Term - 107408 107247 162 2 0 57 43 133 0.331 3.64 6.01 Init - 117143 116991 153 2 0 98 95 68 0.225 8.52 6.00 Prom - 119903 119864 40 -6.66 7.17 PlyA - 121313 121308 6 1.05 7.16 Term - 128875 128766 110 2 2 115 38 109 0.950 7.27 7.15 Intr - 131229 131136 94 0 1 67 119 74 0.753 7.94 7.14 Intr - 132960 132798 163 2 1 93 49 82 0.647 4.78 7.13 Intr - 134641 134607 35 1 2 75 91 34 0.171 -0.58 7.12 Intr - 135794 135658 137 0 2 95 59 11 0.098 -0.81 7.11 Intr - 143358 143173 186 1 0 122 59 59 0.630 6.06 7.10 Intr - 148956 148738 219 1 0 84 99 148 0.942 13.77 7.09 Intr - 150480 150316 165 1 0 54 93 98 0.853 6.83 7.08 Intr - 152066 151752 315 0 0 45 127 160 0.842 11.64 7.07 Intr - 153649 153476 174 2 0 88 96 223 0.999 23.01 7.06 Intr - 154169 154101 69 0 0 118 98 25 0.971 5.65 7.05 Intr - 155057 154833 225 0 0 129 53 223 0.891 20.86 7.04 Intr - 159086 158851 236 1 2 34 87 108 0.189 2.63 7.03 Intr - 164294 164159 136 0 1 73 116 -1 0.413 0.83 7.02 Intr - 167499 167110 390 1 0 46 92 159 0.854 6.80 7.01 Init - 189595 189466 130 1 1 73 80 152 0.868 13.25 7.00 Prom - 190018 189979 40 -7.66 8.06 PlyA - 190080 190075 6 -0.45 8.05 Term - 191187 190642 546 0 0 109 46 760 0.890 68.18 8.04 Intr - 191508 191387 122 1 2 115 3 58 0.950 0.21 8.03 Intr - 191675 191622 54 0 0 123 78 27 0.916 4.15 8.02 Intr - 195813 195672 142 0 1 65 41 134 0.820 6.33 8.01 Intr - 198286 198132 155 2 2 123 89 203 0.996 23.69 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 100001 100224 224 1 2 79 107 271 0.845 26.13 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815578f:57461412_57665801|GENSCAN_predicted_peptide_1|171_aa MPTLLKPDCAGECQGILEMQILTQRVRVDQKCHLGTKYSYRYTPSPCLEQYESKGSPCLA WVAVVDHSLMPVGPFLHPHPKQAKKDFRNTILMATLHHFGDENVSDVLKVNGSLKVNSSL KVSGSLEVNGSPKVSDTLKVNGSLKVSGSLKVSGSLKVSDSLKEEPLPFVD >gi568815578f:57461412_57665801|GENSCAN_predicted_CDS_1|516_bp atgccaacacttctcaaacctgactgtgccggagaatgccagggaatcttagaaatgcag attctgacccagagggtcagggtggaccagaaatgccaccttggtacaaagtattcatac cgctacactccaagcccctgcttggagcagtatgagtctaagggaagtccttgcctggcc tgggtagcagtagtggaccactcactcatgccagtaggacccttcctacatccacacccc aagcaagcaaagaaggacttccggaacacaatcctcatggcaaccctgcaccattttgga gatgagaatgtcagtgacgtgctcaaggtcaatggctcactcaaggtcaatagctcactc aaggtcagtggctcgctcgaggtcaatggctcgcccaaggtcagtgacacgctcaaggtc aatggctcgctcaaggtcagtggctcgctcaaggtcagtggctcactcaaggtcagtgac tcgctcaaggaggaacctctgccctttgtggactag >gi568815578f:57461412_57665801|GENSCAN_predicted_peptide_2|114_aa MQKRKPPIKPSDLMRLIRYHENSMGETAPMIQMISHHVPPTTRGNYGSIIQDEIQAEGYT SPNSSSYKEADIEIRVVPENPGPLRWEISAARVPESSGNSDAGSKCGSIVGDEP >gi568815578f:57461412_57665801|GENSCAN_predicted_CDS_2|345_bp atgcaaaagcggaaacccccgatcaaaccgtcagatctcatgagacttattcgctaccat gagaacagtatgggggaaactgcccccatgattcaaatgatctcccaccatgtccctccc acaacacgtgggaattatgggagtataattcaagatgagattcaggccgagggctatact tccccaaactcatcctcctacaaagaagcagatattgagatcagggttgtaccagaaaat ccaggccctctgagatgggaaatctctgctgcacgggtacctgaaagttctggcaactcg gatgcaggatcaaaatgtggttccattgttggcgatgaaccataa >gi568815578f:57461412_57665801|GENSCAN_predicted_peptide_3|211_aa MGKGDPKKPRGKMSSYAFFVQTCREEHKKKHSDASVNFSEFSNKCSERWKTMSAKEKGKF EDMAKADKTHYERQMKTYIPPKGETKKKFKDPNAPKRPPSAFFLFCSEYHPKIKGEHPGL SIGDVAKKLGEMWNNTAADDKQPGEKKAAKLKEKYEKDIAAYQAKGKPEAAKKGVVKAEK SKKKKEEEEDEEDEEDEEEEDEEDEEDDDDE >gi568815578f:57461412_57665801|GENSCAN_predicted_CDS_3|636_bp atgggcaaaggagatcctaagaagccgagaggcaaaatgtcatcatatgcattttttgtg caaacttgtcgggaggagcataagaagaagcactcagatgcttcagtcaacttctcagag ttttctaacaagtgctcagagaggtggaagaccatgtctgctaaagagaaaggaaaattt gaggatatggcaaaggcggacaagacccattatgaaagacaaatgaaaacctatatccct cccaaaggggagacaaaaaagaagttcaaggatcccaatgcacccaagaggcctccttcg gccttcttcctgttctgctctgagtatcacccaaaaatcaaaggagaacatcctggcctg tccattggtgatgttgcgaagaaactgggagagatgtggaataacactgctgcagatgac aagcagcctggtgaaaagaaggctgcgaagctgaaggaaaaatacgaaaaggatattgct gcatatcaagctaaaggaaagcctgaggcagcaaaaaagggagttgtcaaagctgaaaaa agcaagaaaaagaaggaagaggaggaagatgaggaagatgaagaggatgaggaggaggaa gatgaagaagatgaagaagatgatgatgatgaataa >gi568815578f:57461412_57665801|GENSCAN_predicted_peptide_4|1078_aa MEVIVMSLGALARPLRGAQTDTGLRLEDSAEPLRLTHPKKNMYLKLTEVRKEVISLKCMR LEKELDFKMAVFVRDVSAPALSGTSLFATPHHKQTHKKPFPKAFESAPQQADGLKEARTT SPLINCQGDFLNQDSSAVKRRIGQAAPNNVLSPGRTGKASETEQLNKDLQKVEEQVLLLG GRASPQKEHQMPSPWGISQLGVSEQQQEATSTYTVTETPDTTQKLGSEESHWQVYQYPLV SQRPLQDPLPSLSIPPQDLPGPLQALVPSLLPPRVSQRPLRGPPPFLIHFNPKVSQCPVW DPPPLLIHPPSTSPPPPTLPGSAPFTPPLFRSAPAHCHPPLSRQPGGGRLWAAARGARGR AHKPKTEWAEHSGHAFRGQVIMAATEISVLSEQFTKIKELELMPEKGLKEEEKDGVCREK DHRSPSELEAERTSGAFQDSVLEEEVELVLAPSEESEKYILTLQTVHFTSEAVELQDMSL LSIQQQEGVQVVVQQPGPGLLWLEEGPRQSLQQCVAISIQQELYSPQEMEVLQFHALEEN VMVASEDSKLAVSLAETTGLIKLEEEQEKNQLLAERTKEQLFFVETMSGDERSDEIVLTV SNSNVEEQEDQPTAGQADAEKAKSTKNQRKTKGAKGTFHCDVCMFTSSRMSSFNRHMKTH TSEKPHLCHLCLKTFRTVTLLRNHVNTHTGTRPYKCNDCNMAFVTSGELVRHRRYKHTHE KPFKCSMCKYASVEASKLKRHVRSHTGERPFQCCQCSYASRDTYKLKRHMRTHSGEKPYE CHICHTRFTQSGTMKIHILQKHGENVPKYQCPHCATIIARKSDLRVHMRNLHAYSAAELK CRYCSAVFHERYALIQHQKTHKNEKRFKCKHCSYACKQVKDPFKVKDRPRGYNVAEEHKF FGTVSDSTLQPMERHMTAHIRTHTGEKPFTCLSCNKCFRQKQLLNAHFRKYHDANFIPTV YKCSKCGKGFSRWINLHRHSEKCGSGEAKSAASGKGRRTRKRKQTILKEATKGQKEAAKG WKEAANGDEAAAEEASTTKGEQFPGEMFPVACRETTARVKEEVDEGVTCEMLLNTMDK >gi568815578f:57461412_57665801|GENSCAN_predicted_CDS_4|3237_bp atggaagtaattgtcatgtcgctgggagctctggcaagacccctaaggggagctcaaact gatacggggctaagacttgaggacagtgctgaacccctcagattgactcaccctaagaag aacatgtatctgaaactgaccgaggttagaaaagaagtgatttccttgaaatgcatgagg ctagaaaaggagctggattttaaaatggcggtgtttgtccgagatgtcagtgctcctgct ctgtcaggaaccagcctctttgctacaccgcaccacaagcaaacacacaagaaaccattc cccaaggcttttgagagtgccccacagcaggctgacggcttgaaggaggcacgcacaacc agtcctttaataaactgtcaaggtgatttcctgaatcaggacagttctgctgtcaagaga agaatagggcaagctgcaccaaacaacgtcctctcccctgggaggactgggaaggcctca gagacagagcagttgaacaaagacttgcagaaagtggaagaacaagtattgctactgggg ggaagagcatccccacagaaggaacatcaaatgccaagtccctggggtatcagccagctt ggggtgtctgagcaacagcaagaggccacaagtacatatactgtgacggaaaccccagac accacgcagaaactagggagcgaagaaagtcactggcaagtgtaccagtacccactggtc tcccagcgccccctgcaggaccccctcccctccttatccattcccccacaagatctccca ggccccctgcaggccctcgtgccctccttacttcccccccgggtctcccagcgccccctg cggggccctcctcccttcctcatccacttcaaccccaaggtctcccagtgccctgtatgg gaccctcctcccctcctcatccacccccccagtacatcaccccctcccccaaccctgcct ggctccgcccccttcacgccccctcttttccgctccgcgcctgcgcactgccaccctcca ctctcgcgccagcccggcggcggccggctgtgggctgcagcacgcggtgcacgaggcaga gcccacaagccaaagacggagtgggccgagcattccggccacgccttccgcggccaagtc attatggcagccactgagatctctgtcctttctgagcaattcaccaagatcaaagaactc gagttgatgccggaaaaaggcctgaaggaggaggaaaaagacggagtgtgcagagagaaa gaccatcggagccctagtgagttggaggccgagcgtacctctggggccttccaggacagc gtcctggaggaagaagtggagctggtgctggccccctcggaggagagcgagaagtacatc ctgaccctgcagacggtgcacttcacttctgaagctgtggagttgcaggatatgagcttg ctgagcatacagcagcaagaaggggtgcaggtggtggtgcaacagcctggccctgggttg ctgtggcttgaggaagggccccggcagagcctgcagcagtgtgtggccattagtatccag caagagctgtactccccgcaagagatggaggtgttgcagttccacgctctagaggagaat gtgatggtggccagtgaagacagtaagttagcggtgagcctggctgaaactactggactg atcaagctcgaggaagagcaggagaagaaccagttattggctgaaagaacaaaggagcag ctcttttttgtggaaacaatgtcaggagatgaaagaagtgacgaaattgttctcacagtt tcaaattcaaatgtggaagaacaagaggatcaacctacagctggtcaagcagatgctgaa aaggccaaatctacaaaaaatcaaagaaagacaaagggagcaaaaggaaccttccactgt gatgtctgcatgttcacctcttctagaatgtcaagttttaatcgtcatatgaaaactcac accagtgagaagcctcacctgtgtcacctctgcctgaaaaccttccgtacggtcactctg ctgcggaaccatgttaacacccacacaggaaccaggccctacaagtgtaacgactgcaac atggcatttgtcaccagtggagaactcgtccgacacaggcgctataaacatactcatgag aaaccctttaaatgttccatgtgcaagtatgccagtgtggaggcaagtaaattgaagcgc catgtccgatcccacactggggagcgcccctttcagtgttgccagtgcagctatgccagc agagatacctacaagctgaaacgccacatgagaacgcactcaggtgagaagccttacgaa tgccacatctgccacacccgcttcacccagagcgggaccatgaaaatacatattctgcag aaacacggcgaaaatgtccccaaataccagtgtccccattgtgccaccatcattgcacgg aaaagcgacctacgtgtgcatatgcgcaacttgcatgcttacagcgctgcagagctgaaa tgccgctactgttctgctgtcttccatgaacgctatgccctcattcagcaccagaaaact cataagaatgagaagaggttcaagtgcaaacactgcagttatgcctgcaagcaggtaaaa gatccattcaaagtaaaagatagaccaagaggttataatgtcgcagaggagcacaagttc tttggcacggtttcagattccacattgcaacccatggaacgtcatatgaccgctcacatt cgtacccacactggagagaaaccattcacctgcctttcttgcaataaatgtttccgacag aagcaacttctaaacgctcacttcaggaaataccacgatgcaaatttcatcccgactgtt tacaaatgctccaagtgtggcaaaggcttttcccgctggattaacctgcacagacattcg gagaagtgtggatcaggggaagcaaagtcggctgcttcaggaaagggaagaagaacaaga aagaggaagcagaccatcctgaaggaagccacaaagggtcagaaggaagctgcgaaggga tggaaggaagccgcgaacggagacgaagctgctgctgaggaggcttccaccacgaaggga gaacagttcccaggagagatgtttcctgtcgcctgcagagaaaccacagccagagtcaaa gaggaagtggatgaaggcgtgacctgtgaaatgctcctcaacacgatggataagtga >gi568815578f:57461412_57665801|GENSCAN_predicted_peptide_5|679_aa MGEEGLEPVSYSLSLSSVRVFKAGRFCHQARPSHWEHKLAGGKSPERNLWISLRDHPKRR KHSAEMPPQLQNGLNLSAKVVQGSLDSLPQAVREFLENNAELCQPDHIHICDGSEEENGR LLGQMEEEGILRRLKKYDNWDVARIESKTVIVTQEQRDTVPIPKTGLSQLGRWMSEEDFE KAFNARFPGCMKGRTMYVIPFSMGPLGSPLSKIGIELTDSPYVVASMRIMTRMGTPVLEA VGDGEFVKCLHSVGCPLPLQKPLVNNWPCNPELTLIAHLPDRREIISFGSGYGGNSLLGK KCFALRMASRLAKEEGWLAEHMLILGITNPEGEKKYLAAAFPSACGKTNLAMMNPSLPGW KVECVGDDIAWMKFDAQGHLRAINPENGFFGVAPGTSVKTNPNAIKTIQKNTIFTNVAET SDGGVYWEGIDEPLASGVTITSWKNKEWSSEDGEPCAHPNSRFCTPASQCPIIDAAWESP EGVPIEGIIFGGRRPAGVPLVYEALSWQHGVFVGAAMRSEATAAAEHKGKIIMHDPFAMR PFFGYNFGKYLAHWLSMAQHPAAKLPKIFHVNWFRKDKEGKFLWPGFGENSRVLEWMFNR IDGKASTKLTPIGYIPKEDALNLKGLGHINMMELFSISKEFWEKEVEDIEKYLEDQVNAD LPCEIEREILALKQRISQM >gi568815578f:57461412_57665801|GENSCAN_predicted_CDS_5|2040_bp atgggtgaggagggcttagagcccgtctcctacagcctttctctctcctctgtgagggta tttaaagctgggaggttctgccaccaagcacggccttcccactgggaacacaaacttgct ggcgggaagagcccggaaagaaacctgtggatctcccttcgagatcatccaaagagaaga aagcactctgcagaaatgcctcctcagctgcaaaacggcctgaacctctcggccaaagtt gtccagggaagcctggacagcctaccccaggcagtgagggagtttctcgagaataacgct gagctgtgtcagcctgatcacatccacatctgtgacggctctgaggaggagaatgggcgg cttctgggccagatggaggaagagggcatcctcaggcggctgaagaagtatgacaactgg gatgtggccaggatcgaaagcaagacggttatcgtcacccaagagcaaagagacacagtg cccatccccaaaacaggcctcagccagctcggtcgctggatgtcagaggaggattttgag aaagcgttcaatgccaggttcccagggtgcatgaaaggtcgcaccatgtacgtcatccca ttcagcatggggccgctgggctcgcctctgtcaaagatcggcatcgagctgacggattca ccctacgtggtggccagcatgcggatcatgacgcggatgggcacgcccgtcctggaagca gtgggcgatggggagtttgtcaaatgcctccattctgtggggtgccctctgcctttacaa aagcctttggtcaacaactggccctgcaacccggagctgacgctcatcgcccacctgcct gaccgcagagagatcatctcctttggcagtgggtacggcgggaactcgctgctcgggaag aagtgctttgctctcaggatggccagccggctggccaaggaggaagggtggctggcagag cacatgctgattctgggtataaccaaccctgagggtgagaagaagtacctggcggccgca tttcccagcgcctgcgggaagaccaacctggccatgatgaaccccagcctccccgggtgg aaggttgagtgcgtcggggatgacattgcctggatgaagtttgacgcacaaggtcattta agggccatcaacccagaaaatggctttttcggtgtcgctcctgggacttcagtgaagacc aaccccaatgccatcaagaccatccagaagaacacaatctttaccaatgtggccgagacc agcgacgggggcgtttactgggaaggcattgatgagccgctagcttcaggtgtcaccatc acgtcctggaagaataaggagtggagctcagaggatggggaaccttgtgcccaccccaac tcgaggttctgcacccctgccagccagtgccccatcattgatgctgcctgggagtctccg gaaggtgttcccattgaaggcattatctttggaggccgtagacctgctggtgtccctcta gtctatgaagctctcagctggcaacatggagtctttgtgggggcggccatgagatcagag gccacagcggctgcagaacataaaggcaaaatcatcatgcatgacccctttgccatgcgg cccttctttggctacaacttcggcaaatacctggcccactggcttagcatggcccagcac ccagcagccaaactgcccaagatcttccatgtcaactggttccggaaggacaaggaaggc aaattcctctggccaggctttggagagaactccagggtgctggagtggatgttcaaccgg atcgatggaaaagccagcaccaagctcacgcccataggctacatccccaaggaggatgcc ctgaacctgaaaggcctggggcacatcaacatgatggagcttttcagcatctccaaggaa ttctgggagaaggaggtggaagacatcgagaagtatctggaggatcaagtcaatgccgac ctcccctgtgaaatcgagagagagatccttgccttgaagcaaagaataagccagatgtaa >gi568815578f:57461412_57665801|GENSCAN_predicted_peptide_6|104_aa MQQWDSSAQQTFPCRIPLHTGDKYCTEPTFIECREYPKHLVYTPSVSLLNPGRKKGRREE AGGQLFPIDEFIAAIAKGEDKAKAAPLARCPLAGLQVKGAQQGP >gi568815578f:57461412_57665801|GENSCAN_predicted_CDS_6|315_bp atgcagcagtgggactcctctgcccaacaaacttttccctgcagaattccactacacaca ggagacaagtactgcacggagcccacatttattgagtgccgagagtatccaaagcacttg gtgtacaccccttctgtgagtcttctcaaccctggaaggaaaaagggcaggagggaggaa gcaggtggccagctctttcccatagatgaattcatcgctgcaattgctaaaggtgaggac aaagcaaaagctgctcccctggctcggtgccctctggcagggctgcaggtcaagggagct caacagggcccatga >gi568815578f:57461412_57665801|GENSCAN_predicted_peptide_7|927_aa MVPLTSRSGWCPGYQGHARGLDDLSLQGALVVVQLAKGSPVKAGPAGPAGCSECGARQAH AHPELQLALARSPGSHSHLSLHTSLQAEGAGSGLGQPRKGLPQCSGGLKGSTSAAKVGAQ AEEAQRAARAVRTASTLSSLSNTLALCRQCSFLCMKLGKAAVSEPVRPFPTTSGPGSVAS SAARVGNGGRNQQMELLLLECPLQNSCGNLIAIVMVLKRHLFPGCKQLTPAQWKLASLPL WVQSCKKHQARPLQKPQPRPSPPSQGHSAEACTPAKSLRLLAAAVSMAQAPADPGREGHL EQRILQVLTEAGSPVKLAQLVKECQAPKRELNQVLYRMKKELKVSLTSPATWCLGGTDPE GEGPAELALSSPAERPQQHAATIPETPGPQFSQQREEDIYRFLKDNGPQRALVIAQALGM RTAKDVNRDLYRMKSRHLLDMDEQSKAWTIYRPALASHLALLTRNAQGILTSSPGEFGAA DWYWEPLTHRQWQRDTVEYYFAEDSGRRAKSASIIYQHNPINMICQNGPNSWISIANSEA IQIGHGNIITRQTVSREDGDSSTWGTLVDPWGPQDIHMEQSILRRVQLGHSNEMRLHGVP SEGPAHIPPGSPPVSATAAGPEASFEARIPSPGTHPEGEAAQRIHMKSCFLEDATIGNSN KMSISPGVAGPGGVAGSGEGEPGEDAGRRPADTQSRSHFPRDIGQPITPSHSKLTPKLET MTLGNRSHKAAEGSHYVDEASHEGSWWGGLDCRGGLEGRSAEPAFHSLGPSALCWPHAAG RRSPGWARKLPGPESSSLFESDNVLRPLDQGLVPEVPSRVRVSDSETPYTHPISADPQIP SQAVRLRSTGDALRMPVCPEPTVIPGPGPWQPGCISDSLGATVGSGKIKVPGHQNTPIGM FVPSSCSTQAVLWPENSIQAKSRIHGE >gi568815578f:57461412_57665801|GENSCAN_predicted_CDS_7|2784_bp atggtgcccctcacaagccgcagcggctggtgcccgggctaccagggacatgccagaggg ctcgatgacttgtctctgcagggcgctttggtggttgttcagctggctaaaggttcaccg gtgaaggcagggccagcagggccggccggctgctccgagtgcggggcccgccaagcccac gcccacccggaactccagctggctcttgctcgcagccccggttcccactcgcacctctcc ctccacacctccctgcaagctgagggagccggctccggccttggccagcccagaaagggg ctcccacagtgcagcggtgggctgaagggctccacaagtgccgccaaagtgggagcgcag gcagaggaggcgcagagagcagcgagggctgtgaggactgccagcacgctgtcatctctc agcaacactcttgcattgtgtagacagtgcagtttcctgtgcatgaagctggggaaggca gccgtgtctgaaccagtccgtccatttccaacgacttcaggaccaggcagtgtggcctct tctgcagccagagtgggaaatggaggcaggaatcagcaaatggaactgctattgttagaa tgtcccttgcaaaactcatgtggaaatttaattgccattgtgatggtattaaaaaggcat ctatttccgggctgtaagcagctgacacctgcccagtggaagctggcatccctccccttg tgggttcagagctgcaagaagcaccaggctcggccacttcagaagccccagcctcgacct agcccaccctctcagggccacagtgcagaagcctgcacacctgccaagtctctccgactc cttgcagctgctgtcagcatggcccaggctcctgctgacccgggcagagaaggccacctt gaacaaagaatcctgcaggtgctgacagaggctggctccccggtgaaacttgcccagctg gtgaaggaatgccaagcacccaagagggagctcaaccaagtcctctaccgaatgaaaaag gagttgaaagtctccctcacatcccctgccacctggtgcttgggcgggactgatcctgaa ggcgagggtcctgcagagctggccttgtccagccctgccgagaggccccagcaacatgca gctacaattccagagacccctggccctcagttcagccaacaacgggaggaagacatctac aggtttctcaaagacaatggtccccagagggccctggtcatcgcccaagcactgggaatg aggacagcaaaagatgtgaaccgagacttgtacaggatgaagagcaggcaccttctggac atggatgagcagtccaaagcatggacgatttaccgcccagctctggcctcccacttggcc ctactgactcggaacgcccagggtattttaacaagctccccaggagaatttggtgctgcc gactggtattgggaacccctgacccatagacagtggcaaagggatacagttgaatattat tttgcagaagattctggaagaagagcaaagtcagcctcaattatttaccagcacaatcca atcaacatgatctgccagaatggacccaacagctggatttccattgcaaactccgaagcc atccagattggacacgggaacatcattacaagacagacagtctccagggaggacggtgat tcctcaacttgggggaccctagttgatccctgggggccccaggacatccacatggagcag tccatactgagacgggtgcagctgggacacagcaatgagatgaggctccacggcgtcccg tccgagggccctgcccacatcccccctggcagccccccagtctctgccactgctgccggc ccagaagcttcgtttgaagcaagaattcccagtccaggaactcaccctgagggggaagcc gcccagagaatccacatgaaatcgtgctttctcgaggacgccaccatcggcaacagcaac aaaatgtctatcagcccaggggtggctggcccaggaggagtcgcagggtctggagagggg gagccaggggaggacgcaggtcgtcgtcccgcagacacacaatccagaagtcactttcct cgagacattggtcagcccatcactcccagccactcgaagctcacccccaagctggaaact atgactcttggaaacaggagtcacaaagctgcagaaggcagccactatgtggatgaagcc tcacacgaggggagctggtggggaggtctcgactgcaggggcggcctggaggggaggagc gcggagccggcctttcacagccttggcccgagcgccctctgctggccgcacgccgccggc cgccgctcaccaggctgggctcggaaacttccagggcctgagtctagctccttgtttgag tctgacaatgtgctcagacccctggaccaggggctggtccccgaggtcccatccagggtc agagtttctgattctgagaccccctacacccaccccatctctgcagaccctcaaatccca agtcaggccgttcgtctgcggagcacaggtgatgctctgcgcatgcccgtctgcccagag cccactgtgattcctggaccagggccatggcagccaggatgcatctcggattccctgggg gccacagttgggtccggaaagatcaaggtgcccggtcaccagaacacccccattggaatg tttgtgccatcctcgtgctcaacccaggccgtcctgtggcctgaaaactccatccaggcc aagtcccgaatccacggagaatga >gi568815578f:57461412_57665801|GENSCAN_predicted_peptide_8|339_aa XELEFVQIIIIVVVMMVMVVVITCLLSHYKLSARSFISRHSQGRRREDALSSWVEARPVR PVVMGRMQLVESVPYPEADCRGFTVVEQETAPGILLPGRGRMPVALGEHSVRQRNPRVPL LLGSSLPEIICSLPLREQPSSLLSAHGSTDAATVWRRAPQVYAPPRPTDRLAVPPFAQRE RFHRFQPTYPYLQHEIDLPPTISLSDGEEPPPYQGPCTLQLRDPEQQLELNRESVRAPPN RTIFDSDLMDSARLGGPCPPSSNSGISATCYGSGGRMEGPPPTYSEVIGHYPGSSFQHQQ SSGPPSLLEGTRLHHTHIAPLESAAIWSKEKDKQKGHPL >gi568815578f:57461412_57665801|GENSCAN_predicted_CDS_8|1020_bp ncggagctggagtttgttcagatcatcatcatcgtggtggtgatgatggtgatggtggtg gtgatcacgtgcctgctgagccactacaagctgtctgcacggtccttcatcagccggcac agccaggggcggaggagagaagatgccctgtcctcatgggttgaagctaggcctgtgcgg cccgtggtcatggggaggatgcagttagtggagagtgtaccgtacccagaggccgactgc aggggcttcactgttgtggagcaggagacggcacctgggatcctgctgccaggaagggga aggatgcctgtggccctcggagagcacagtgtcaggcaacggaatcccagagtgcccttg ctgctgggatcctccttgccggagatcatctgctccctgcccctgagggagcagcccagc tctctgctctctgcacacgggagcacggacgctgccactgtttggaggagggcgccgcag gtctacgccccgcctcggcccaccgaccgcctggccgtgccgcccttcgcccagcgggag cgcttccaccgcttccagcccacctatccgtacctgcagcacgagatcgacctgccaccc accatctcgctgtcagacggggaggagcccccaccctaccagggcccctgcaccctccag cttcgggaccccgagcagcagctggaactgaaccgggagtcggtgcgcgcacccccaaac agaaccatcttcgacagtgacctgatggatagtgccaggctgggcggcccctgccccccc agcagtaactcgggcatcagcgccacgtgctacggcagcggcgggcgcatggaggggccg ccgcccacctacagcgaggtcatcggccactacccggggtcctccttccagcaccagcag agcagtgggccgccctccttgctggaggggacccggctccaccacacacacatcgcgccc ctagagagcgcagccatctggagcaaagagaaggataaacagaaaggacaccctctctag