GENSCAN 1.0 Date run: 3-Nov-116 Time: 14:32:58 Sequence gi568815575f:47098803_47314926 : 216124 bp : 48.33% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 10597 10699 103 0 1 60 68 89 0.737 2.70 1.02 Intr + 10726 10850 125 2 2 43 89 110 0.118 6.90 1.03 Term + 30605 30721 117 1 0 71 40 76 0.206 -0.36 1.04 PlyA + 32753 32758 6 1.05 2.04 PlyA - 33140 33135 6 1.05 2.03 Term - 43638 43515 124 2 1 81 47 192 0.999 12.26 2.02 Intr - 43942 43812 131 1 2 118 55 226 0.844 21.79 2.01 Init - 45877 45671 207 1 0 77 100 260 0.999 22.92 2.00 Prom - 53587 53548 40 -7.96 3.03 PlyA - 53827 53822 6 1.05 3.02 Term - 58393 57881 513 1 0 52 43 678 0.727 54.04 3.01 Init - 58975 58532 444 1 0 64 -25 590 0.708 41.32 3.00 Prom - 60220 60181 40 -7.56 4.00 Prom + 61031 61070 40 -6.86 4.01 Init + 61641 61783 143 2 2 69 32 52 0.080 -2.69 4.02 Intr + 70513 70696 184 1 1 101 78 328 0.923 32.89 4.03 Intr + 72226 72456 231 0 0 71 67 383 0.993 32.47 4.04 Intr + 74326 74395 70 0 1 83 99 90 0.992 8.35 4.05 Intr + 76217 76290 74 0 2 74 9 107 0.794 0.53 4.06 Intr + 77607 77645 39 2 0 90 86 31 0.730 1.52 4.07 Intr + 77698 77784 87 0 0 130 87 177 0.999 21.97 4.08 Intr + 80301 80361 61 2 1 101 94 96 0.996 9.81 4.09 Intr + 80517 80693 177 1 0 80 79 93 0.960 7.49 4.10 Intr + 81078 81238 161 1 2 68 65 255 0.999 20.91 4.11 Intr + 81410 81507 98 1 2 136 55 192 0.993 19.51 4.12 Intr + 81617 81704 88 2 1 90 78 96 0.951 8.77 4.13 Intr + 82413 82599 187 2 1 113 99 255 0.999 28.36 4.14 Intr + 82705 82844 140 2 2 121 109 90 0.878 14.58 4.15 Intr + 82947 83064 118 2 1 24 84 30 0.764 -3.76 4.16 Intr + 83149 83240 92 2 2 88 90 163 0.940 16.21 4.17 Intr + 83360 83524 165 1 0 113 66 248 0.672 25.26 4.18 Intr + 86253 86402 150 2 0 67 93 185 0.960 17.26 4.19 Intr + 86500 86565 66 0 0 94 81 45 0.919 3.50 4.20 Intr + 86640 86828 189 2 0 114 87 322 0.999 34.48 4.21 Intr + 86914 86988 75 0 0 109 78 93 0.998 10.11 4.22 Intr + 87263 87369 107 1 2 23 56 204 0.995 9.71 4.23 Intr + 87456 87585 130 0 1 96 105 214 0.999 24.60 4.24 Intr + 87672 87793 122 2 2 82 55 174 0.089 12.79 4.25 Intr + 91804 92072 269 1 2 -15 22 191 0.015 -0.62 4.26 Intr + 99507 99553 47 1 2 71 115 -21 0.463 -2.97 4.27 Intr + 100001 100117 117 1 0 121 92 115 0.959 15.86 4.28 Intr + 100246 100304 59 0 2 118 87 106 0.999 11.18 4.29 Intr + 100407 100575 169 0 1 88 82 162 0.999 15.55 4.30 Intr + 100678 100812 135 0 0 58 70 155 0.660 11.46 4.31 Intr + 102092 102198 107 1 2 108 92 145 0.999 15.91 4.32 Intr + 102474 102564 91 0 1 95 116 72 0.997 10.70 4.33 Intr + 102676 102808 133 0 1 84 80 152 0.999 14.22 4.34 Intr + 103354 103451 98 2 2 113 59 172 0.829 16.53 4.35 Intr + 103556 103702 147 1 0 109 90 174 0.999 20.13 4.36 Intr + 103836 104012 177 2 0 78 82 300 0.999 28.52 4.37 Intr + 104141 104245 105 1 0 141 91 99 0.999 15.91 4.38 Intr + 104332 104412 81 0 0 115 119 144 0.998 20.03 4.39 Intr + 104739 104894 156 2 0 106 113 184 0.980 22.91 4.40 Intr + 107146 107311 166 0 1 53 86 280 0.927 23.83 4.41 Intr + 107446 107642 197 2 2 111 59 282 0.928 26.73 4.42 Intr + 110821 110885 65 0 2 84 94 136 0.999 11.32 4.43 Intr + 111126 111321 196 0 1 50 95 279 0.999 24.22 4.44 Intr + 112040 112114 75 1 0 74 101 46 0.945 4.21 4.45 Intr + 112234 112423 190 0 1 106 73 340 0.990 33.46 4.46 Intr + 113622 113710 89 1 2 94 86 111 0.999 11.19 4.47 Intr + 113969 114061 93 1 0 104 100 152 0.999 18.16 4.48 Intr + 114188 114379 192 1 0 104 75 126 0.813 12.59 4.49 Intr + 115525 115626 102 0 0 107 116 72 0.999 12.27 4.50 Intr + 115735 115835 101 0 2 124 78 96 0.995 11.11 4.51 Term + 115992 116127 136 0 1 112 46 263 0.999 21.99 4.52 PlyA + 116305 116310 6 1.05 5.00 Prom + 118637 118676 40 -8.26 5.01 Init + 119851 120303 453 0 0 43 105 259 0.065 16.98 5.02 Intr + 124750 124957 208 0 1 74 94 240 0.830 21.85 5.03 Intr + 125583 125773 191 1 2 88 34 179 0.823 11.80 5.04 Intr + 125816 125941 126 1 0 85 68 245 0.999 23.08 5.05 Intr + 126032 126088 57 1 0 115 78 84 0.998 9.18 5.06 Intr + 126186 126300 115 2 1 78 81 156 0.999 13.92 5.07 Intr + 126970 127064 95 2 2 101 95 172 0.948 18.88 5.08 Intr + 127163 127225 63 1 0 121 37 181 0.919 15.21 5.09 Intr + 127477 127600 124 0 1 77 9 253 0.899 16.46 5.10 Intr + 127781 127901 121 0 1 109 79 156 0.999 16.35 5.11 Intr + 128010 128107 98 0 2 76 66 130 0.999 9.25 5.12 Intr + 128192 128297 106 0 1 75 93 125 0.999 10.97 5.13 Intr + 128379 128421 43 0 1 74 94 64 0.958 3.84 5.14 Intr + 128577 128667 91 2 1 37 79 118 0.996 5.37 5.15 Intr + 129765 129842 78 1 0 83 96 60 0.982 5.82 5.16 Intr + 130718 130764 47 0 2 70 81 32 0.023 -1.17 5.17 Intr + 134077 134417 341 0 2 42 81 413 0.149 30.27 5.18 Intr + 140268 140377 110 0 2 87 82 90 0.999 8.23 5.19 Intr + 140549 140679 131 0 2 111 70 124 0.996 13.31 5.20 Intr + 140988 141105 118 2 1 110 97 146 0.997 17.74 5.21 Intr + 141503 141648 146 0 2 57 110 75 0.949 6.60 5.22 Intr + 141785 141846 62 1 2 83 58 80 0.999 2.03 5.23 Intr + 141972 142074 103 0 1 96 47 156 0.952 12.48 5.24 Intr + 142475 142648 174 1 0 111 70 299 0.981 30.54 5.25 Intr + 142739 142897 159 1 0 101 96 196 0.993 21.88 5.26 Intr + 143280 143504 225 2 0 42 64 244 0.994 15.58 5.27 Intr + 143637 143720 84 2 0 81 76 62 0.951 4.32 5.28 Intr + 143824 143918 95 0 2 93 67 147 0.992 11.86 5.29 Intr + 144594 144800 207 0 0 106 99 368 0.997 37.89 5.30 Intr + 145696 145748 53 1 2 79 100 154 0.991 14.25 5.31 Intr + 145880 146122 243 0 0 74 23 210 0.990 10.57 5.32 Intr + 146214 146284 71 1 2 99 84 143 0.907 13.90 5.33 Intr + 146568 146680 113 2 2 65 81 246 0.999 20.78 5.34 Intr + 148270 148419 150 1 0 56 53 267 0.992 19.28 5.35 Intr + 148502 148617 116 2 2 100 40 203 0.851 16.79 5.36 Intr + 148809 148897 89 1 2 48 48 144 0.985 6.09 5.37 Term + 148991 149128 138 1 0 111 54 83 0.977 5.16 5.38 PlyA + 151242 151247 6 1.05 6.03 PlyA - 154015 154010 6 1.05 6.02 Term - 175013 174564 450 2 0 37 48 239 0.859 9.99 6.01 Init - 175654 175538 117 1 0 61 75 114 0.632 5.60 6.00 Prom - 179460 179421 40 -5.06 7.00 Prom + 181822 181861 40 -5.86 7.01 Init + 191298 191352 55 2 1 78 106 21 0.575 4.35 7.02 Term + 202088 202266 179 0 2 -47 40 249 0.324 4.45 7.03 PlyA + 207012 207017 6 1.05 8.03 PlyA - 207920 207915 6 1.05 8.02 Term - 214291 214275 17 2 2 134 42 27 0.687 1.10 8.01 Intr - 214525 214432 94 1 1 85 80 24 0.376 0.84 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 46645 46714 70 0 1 50 94 57 0.972 3.73 S.002 Intr + 48555 48696 142 1 1 113 113 106 0.845 15.01 S.003 Term + 87672 87797 126 2 0 82 53 183 0.908 12.48 S.004 Term + 129929 129966 38 0 2 111 46 86 0.922 4.20 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815575f:47098803_47314926|GENSCAN_predicted_peptide_1|114_aa MKPQTLAVSVTALKVARLEFVPSDVRMCSEFLPSGVKLQTFVVSVTALKAVLLELFIPPG GLVVSLASGVKLQTLVFCTSPAIRARTSGRSACRSFTYRAHPLKVSKLLQRTID >gi568815575f:47098803_47314926|GENSCAN_predicted_CDS_1|345_bp atgaagccgcagaccctcgcggtgagtgttacagctcttaaggtggcgcgtctggagttt gttccttctgatgttcggatgtgttcggagtttcttccttctggagtgaagctgcagacc ttcgtggtgagtgttacagctcttaaggcggtgcttctggagttgttcattcctcccggt gggcttgtggtctcgctggcttcaggagtgaagctgcagaccctcgtgttctgcacatcc ccggccatcagagcacgaacttctggtcggtccgcctgccgttctttcacctatagagcc caccctctaaaggtgtccaagctgctccaaagaacaattgattaa >gi568815575f:47098803_47314926|GENSCAN_predicted_peptide_2|153_aa MAAGLFGLSARRLLAAAATRGLPAARVRWESSFSRTVVAPSAVAGKRPPEPTTPWQEDPE PEDENLYEKNPDSHGYDKDPVLDVWNMRLVFFFGVSIILVLGSTFVAYLPDYRMKEWSRR EAERLVKYREANGLPIMESNCFDPSKIQLPEDE >gi568815575f:47098803_47314926|GENSCAN_predicted_CDS_2|462_bp atggcggctgggctgtttggtttgagcgctcgccgtcttttggcggcagcggcgacgcga gggctcccggccgcccgcgtccgctgggaatctagcttctccaggactgtggtcgccccg tccgctgtggcgggaaagcggcccccagaaccgaccacaccgtggcaagaggacccagaa cccgaggacgaaaacttgtatgagaagaacccagactcccatggttatgacaaggacccc gttttggacgtctggaacatgcgacttgtcttcttctttggcgtctccatcatcctggtc cttggcagcacctttgtggcctatctgcctgactacaggatgaaagagtggtcccgccgc gaagctgagaggcttgtgaaataccgagaggccaatggccttcccatcatggaatccaac tgcttcgaccccagcaagatccagctgccagaggatgagtga >gi568815575f:47098803_47314926|GENSCAN_predicted_peptide_3|318_aa MQLNLSRPIEEQGPLDVIIHKLTDVILEADQNDSQSLELVHRFQDYIDAHPETIVLDSFP AVRTLLDRSKSCKLIWKIEIYMEGGRICLLPFMEVTSLCGDDTMWLLEKNSLAFLFMCKT RVAHGTNSHEMSTVFNQEGLNGIQPPCVPQCVKARVIIGPDGAGQDQGVWSVQEQPSKEV IRELPRALRQALGVLLFGTDIIINNQMGQHAVIDINAFPAYEGVSRFFTDLWNHIATIFQ DQSTATAATGDVAPLRHSKLLAKPASSLAGKQTCSTSHSCCSSMMGQDAPWKANAYVGST SKLPHPRLCCTTSMSPSF >gi568815575f:47098803_47314926|GENSCAN_predicted_CDS_3|957_bp atgcagctgaacctcagccggccaatcgaggagcagggacccctggacgtcatcattcac aagttgactgatgtcatccttgaagccgaccagaatgacagccagtccctggagctggtg cacaggtttcaggactacatcgatgcccaccctgaaaccatcgtcctggactccttccct gccgtcagaaccctgctcgaccgctccaagtcctgcaaactcatctggaagattgagatc tacatggaaggcggcaggatctgcttgctgcccttcatggaggtcacaagcctgtgcggg gatgacaccatgtggctgctggagaagaacagcctggctttcctgttcatgtgcaaaact agagtggctcacggcaccaactctcacgagatgtctactgtattcaatcaggagggcctg aatggcatacagccaccctgtgtgccacagtgtgtcaaagccagagtcatcattggtcct gatggagctggacaagatcaaggggtctggtctgttcaagagcagccgagcaaagaggtc atccgggaactcccccgggccctgcggcaggcactgggagtattgctgttcggcaccgac atcatcatcaacaaccagatggggcagcatgccgtcatcgacatcaacgccttcccagcc tacgagggtgtgagcaggttcttcacagacctctggaaccacatcgccaccattttccaa gaccagagcacagccacagcagccacaggggatgtggccccactgaggcacagcaagctc ctggccaagccggcgagcagcctagcaggcaagcagacatgcagcaccagccacagctgc tgcagcagcatgatgggccaggatgcaccctggaaggccaatgcctatgtgggtagtacc tccaagctgccgcacccgagactctgctgcaccaccagtatgtcgcccagcttctag >gi568815575f:47098803_47314926|GENSCAN_predicted_peptide_4|2148_aa MNRYFSKDNIQVANKHEKMLIITNHQRNANQNHKETPSHASQMAIIKNGGRGDRTGRYGA TDRSQDDGGENRSRDHDYRDMDYRSYPREYGSQEGKHDYDDSSEEQSAEDSYEASPGSET QRRRRRRHRHSPTGPPGFPRDGDYRDQDYRTEQGEEEEEEEDEEEEEKASNIVMLRMLPQ AATEDDIRGQLQSHGVQAREVRLMRNKSSGQSRGFAFVEFSHLQDATRWMEANQLKGSLT LFSYAETHSLNILGQKVSMHYSDPKPKINEDWLCNKCGVQNFKRREKCFKCGVPKSEAEQ KLPLGTRLDQQTLPLGGRELSQGLLPLPQPYQAQGVLASQALSQGSEPSSENANDTIILR NLNPHSTMDSILGALAPYAVLSSSNVRVIKDKQTQLNRGFAFIQLSTIVEAAQLLQILQA LHPPLTIDGKTINVEFAKGSKRDMASNEGSRISAASVASTAIAAAQWAISQASQGGEGTW ATSEEPPVDYSYYQQDEGYGNSQGTESSLYAHGYLKGTKGPGITGTKGDPTGAGPEASLE PGADSVSMQAFSRAQPGAAPGIYQQSAEASSSQGTAANSQSYTIMSPAVLKSELQSPTHP SSALPPATSPTAQESYSQYPVPDVSTYQYDETSGYYYDPQTGLYYDPNSQYYYNAQSQQY LYWDGERRTYVPALEQSADGHKETGAPSKEGKEKKEKHKTKTAQQIAKDMERWARSLNKQ KENFKNSFQPISSLRDDERRESATADAGYAILEKKGALAERQHTSMDLPKLASDDRPSPP RGLVAAYSGESDSEEEQERGGPEREEKLTDWQKLACLLCRRQFPSKEALIRHQQLSGLHK QNLEIHRRAHLSENELEALEKNDMEQMKYRDRAAERREKYGIPEPPEPKRRKYGGISTAS VDFEQPTRDGLGSDNIGSRMLQAMGWKEGSGLGRKKQGIVTPIEAQTRVRGSGLGARGSS YGVTSTESYKETLHKTMVTRFNEAQLTFSHILDAGAHHVHQALARQNYHPQHAARIWAVP QPVGSSGSETGTSDAGAGTDAPLAKHLWYIPDPGLSKAPRFRAPRKLWLLLYDRGSMLCV IYHLDNPVGKMSSSPLSKKRRVSGPDPKPGSNCSPAQSVLSEVPSVPTNGMAKNGSEADI DEGLYSRQLYVLGHEAMKRLQTSSVLVSGLRGLGVEIAKNIILGGVKAVTLHDQGTAQWA DLSSQFYLREEDIGKNRAEVSQPRLAELNSYVPVTAYTGPLVEDFLSGFQVVVLTNTPLE DQLRVGEFCHNRGIKLVVADTRGLFGQLFCDFGEEMILTDSNGEQPLSAMVSMVTKDNPG VVTCLDEARHGFESGDFVSFSEVQGMVELNGNQPMEIKVLGPYTFSICDTSNFSDYIRGG IVSQVKVPKKISFKSLVASLAEPDFVVTDFAKFSRPAQLHIGFQALHQFCAQHGRPPRPR NEEDAAELVALAQAVNARALPAVQQNNLDEDLIRKLAYVAAGDLAPINAFIGGLAAQEVM KACSGKFMPIMQWLYFDALECLPEDKEVLTEDKCLQRQNRYDGQVAVFGSDLQEKLGKQK YFLVGAGAIGCELLKNFAMIGLGCGEGGEIIVTDMDTIEKSNLNRQFLFRPWDVTKLKSD TAAAAVRQMNPHIRVTSHQNRVGPDTERIYDDDFFQNLDGVANALDNVDARMYMDRRCVY YRKPLLESGTLGTKGNVQVVIPFLTESYSSSQDPPEKSIPICTLKNFPNAIEHTLQWARD EFEGLFKQPAENVNQYLTDPKFVERTLRLAGTQPLEVLEAVQRSLVLQRPQTWADCVTWA CHHWHTQYSNNIRQLLHNFPPDQLTSSGAPFWSGPKRCPHPLTFDVNNPLHLDYVMAAAN LFAQTYGLTGSQDRAAVATFLQSVQVPEFTPKSGVKIHVSDQELQSANASVDDSRLEELK ATLPSPDKLPGFKMYPIDFEKDDDSNFHMDFIVAASNLRAENYDIPSADRHKSKLIAGKI IPAIATTTAAVVGLVCLELYKVVQGHRQLDSYKNGFLNLALPFFGFSEPLAAPRHQYYNQ EWTLWDRFEVQGLQPNGEEMTLKQFLDYFKTEHKLEITMLSQGVSMLYSFFMPAAKLKER LDQPMTEIVSRVSKRKLGRHVRALVLELCCNDESGEDVEVPYVRYTIR >gi568815575f:47098803_47314926|GENSCAN_predicted_CDS_4|6447_bp atgaacagatacttctcaaaagataacatacaagtggccaacaaacatgaaaaaatgctc atcatcactaatcatcagagaaatgcaaatcaaaaccacaaggagacaccgtctcatgcc agtcagatggcaattattaaaaatggtggtcgtggtgacaggactggccgctatggagcc actgaccgctcgcaggatgatggtggggagaaccgcagccgagaccacgactaccgggac atggactaccgttcatatcctcgcgagtatggcagccaggagggcaagcatgactatgac gactcatctgaggagcagagtgcggaggattcctacgaggcctccccgggctccgagact cagcgtaggcggcggcggcggcacaggcacagccccaccggcccgccaggcttcccccga gacggcgactatcgggaccaggactatcggaccgagcaaggggaggaggaggaggaggag gaggatgaggaggaggaggagaaggccagtaacatcgtcatgctgaggatgctgccacag gcagccactgaggatgacatccgtggccagctgcagtcgcacggcgtgcaagcacgggag gttcggctgatgcggaacaaatcttcaggtcagagccggggcttcgccttcgtcgagttt agtcacttgcaggacgctacacgatggatggaagccaatcagctgaagggctcgctcact ctcttctcctatgctgaaacgcactccctcaacatcctgggccagaaggtgtcgatgcac tacagtgaccccaagcccaagatcaatgaggactggctgtgcaataagtgtggcgtccag aacttcaaacgccgagagaagtgcttcaaatgtggcgtgcccaagtcagaggcagagcag aagctgcccctcggcacgaggctggatcagcagacactgccactgggtggccgggagctg agccagggcctgcttcccctgccgcagccctaccaggcccagggagtcctggcctcccaa gccctgtcacagggctcggagccaagctcagagaacgccaatgacaccatcattttgcgc aacctgaacccacacagcaccatggattccatcctgggggccctggcaccctacgcggtg ctgtcctcctccaacgtgcgcgtcataaaggacaagcagacccaactgaaccgcggcttt gccttcatccagctctccaccatcgtggaggcagcccagctgctgcagatcctgcaggcc ctgcacccaccactcactatcgacggcaagaccatcaatgttgagtttgccaagggttct aagagggacatggcctccaatgaaggcagtcgcatcagtgctgcctctgtggccagcact gccattgctgcggcccagtgggccatctcacaggcctcccaaggtggggagggtacctgg gccacctccgaggagccgccggtcgactacagctactaccaacaggatgagggctatggc aacagccagggcacagagtcttccctctatgcccatggctacctcaagggcaccaagggc cctggcatcactggaaccaaaggggatcccactggagcaggtcccgaggcctccctagag cctggggccgactctgtgtcgatgcaggctttctctcgcgcccagcctggtgctgctcct ggcatctaccaacaatcagccgaggcgagcagtagccagggcactgctgccaacagccag tcgtataccatcatgtcacccgctgtgctcaaatctgagctccagagccctacccatcct agttctgctctcccaccggctaccagccccactgcccaggaatcctacagccagtaccct gttcccgacgtctctacctaccagtacgatgagacctccggctactactatgacccccag accggcctctactatgaccccaactcccagtattactacaatgctcagagccagcagtac ctgtactgggatggggagaggcggacctatgttcccgccctggagcagtcggccgacgga cataaggagacaggggcaccctcgaaggagggcaaagagaagaaggagaagcacaagacc aagacagctcaacagattgccaaggacatggaacgctgggcccgcagtctcaacaaacaa aaagaaaacttcaaaaatagcttccagcctatcagctccctgcgagatgacgagaggcgg gagtcagccactgcagatgctggctatgccatcctcgagaagaagggagcactagccgag agacagcacaccagcatggatctcccgaaattggccagtgacgaccgcccaagccctccg cgaggactggtggcagcctacagcggggagagtgacagtgaggaggagcaggagcgtggg ggccctgagcgggaggagaagctcaccgactggcagaagctggcctgtctgctctgccga cgccagttccccagcaaagaggcgctcatccggcaccagcagctctcagggctccacaag caaaaccttgagattcaccggcgagcccacttgtcagaaaacgagctagaagcactagag aagaatgacatggagcaaatgaagtaccgggaccgtgcagctgaacgcagagaaaagtat ggcatccccgagccgccagagcccaagaggaggaagtacggcggcatatccacagcctct gtagacttcgagcagcctactcgggacgggctgggcagtgacaacattggcagtcggatg ctgcaggccatgggctggaaagagggcagcggcctgggccgcaagaagcagggcattgta acgcctatcgaggcccaaacacgggtgcggggctccggcctgggtgcacggggcagctcc tacggggtcacctcaaccgagtcctacaaggagacactgcacaagacaatggtgacccgc ttcaacgaggcccagcttacattttcccatattctggacgctggtgcccaccacgtgcac caggcactggccagacagaactaccacccccagcatgccgcgcgcatttgggccgtacca caacctgtagggtcatctgggtctgaaacgggcaccagcgacgcgggagcagggactgac gcccctctagcaaagcatctgtggtacatcccagacccggggctctccaaggccccgcgc ttccgagctccgcgcaaactctggcttctcttgtacgacagaggttctatgctctgtgtt atttatcatctcgataaccccgtggggaagatgtccagctcgccgctgtccaagaaacgt cgcgtgtccgggcctgatccaaagccgggttctaactgctcccctgcccagtccgtgttg tccgaagtgccctcggtgccaaccaacggaatggccaagaacggcagtgaagcagacata gacgagggcctttactcccggcagctgtatgtgttgggccatgaggcaatgaagcggctc cagacatccagtgtcctggtatcaggcctgcggggcctgggcgtggagatcgctaagaac atcatccttggtggggtcaaggctgttaccctacatgaccagggcactgcccagtgggct gatctttcctcccagttctacctgcgggaggaggacatcggtaaaaaccgggccgaggta tcacagccccgcctcgctgagctcaacagctatgtgcctgtcactgcctacactggaccc ctcgttgaggacttccttagtggtttccaggtggtggtgctcaccaacacccccctggag gaccagctgcgagtgggtgagttctgtcacaaccgtggcatcaagctggtggtggcagac acgcggggcctgtttgggcagctcttctgtgactttggagaggaaatgatcctcacagat tccaatggggagcagccactcagtgctatggtttctatggttaccaaggacaaccccggt gtggttacctgcctggatgaggcccgacacgggtttgagagcggggactttgtctccttt tcagaagtacagggcatggttgaactcaacggaaatcagcccatggagatcaaagtcctg ggtccttatacctttagcatctgtgacacctccaacttctccgactacatccgtggaggc atcgtcagtcaggtcaaagtacctaagaagattagctttaaatccttggtggcctcactg gcagaacctgactttgtggtgacggacttcgccaagttttctcgccctgcccagctgcac attggcttccaggccctgcaccagttctgtgctcagcatggccggccacctcggccccgc aatgaggaggatgcagcagaactggtagccttagcacaggctgtgaatgctcgagccctg ccagcagtgcagcaaaataacctggacgaggacctcatccggaagctggcatatgtggct gctggggatctggcacccataaacgccttcattgggggcctggctgcccaggaagtcatg aaggcctgctccgggaagttcatgcccatcatgcagtggctatactttgatgcccttgag tgtctccctgaggacaaagaggtcctcacagaggacaagtgcctccagcgccagaaccgt tatgacgggcaagtggctgtgtttggctcagacctgcaagagaagctgggcaagcagaag tatttcctggtgggtgcgggggccattggctgtgagctgctcaagaactttgccatgatt gggctgggctgcggggagggtggagaaatcatcgttacagacatggacaccattgagaag tcaaatctgaatcgacagtttcttttccggccctgggatgtcacgaagttaaagtctgac acggctgctgcagctgtgcgccaaatgaatccacatatccgggtgacaagccaccagaac cgtgtgggtcctgacacggagcgcatctatgatgacgattttttccaaaacctagatggc gtggccaatgccctggacaacgtggatgcccgcatgtacatggaccgccgctgtgtctac taccggaagccactgctggagtcaggcacactgggcaccaaaggcaatgtgcaggtggtg atccccttcctgacagagtcgtacagttccagccaggacccacctgagaagtccatcccc atctgtaccctgaagaacttccctaatgccatcgagcacaccctgcagtgggctcgggat gagtttgaaggcctcttcaagcagccagcagaaaatgtcaaccagtacctcacagacccc aagtttgtggagcgaacactgcggctggcaggcactcagcccttggaggtgctggaggct gtgcagcgcagcctggtgctgcagcgaccacagacctgggctgactgcgtgacctgggcc tgccaccactggcacacccagtactcgaacaacatccggcagctgctgcacaacttccct cctgaccagctcacaagctcaggagcgccgttctggtctgggcccaaacgctgtccacac ccgctcacctttgatgtcaacaatcccctgcatctggactatgtgatggctgctgccaac ctgtttgcccagacctacgggctgacaggctctcaggaccgagctgctgtggccacattc ctgcagtctgtgcaggtccccgaattcacccccaagtctggcgtcaagatccatgtttct gaccaggagctgcagagcgccaatgcctctgttgatgacagtcgtctagaggagctcaaa gccactctgcccagcccagacaagctccctggattcaagatgtaccccattgactttgag aaggatgatgacagcaactttcatatggatttcatcgtggctgcatccaacctccgggca gaaaactatgacattccttctgcagaccggcacaagagcaagctgattgcagggaagatc atcccagccattgccacgaccacagcagccgtggttggccttgtgtgtctggagctgtac aaggttgtgcaggggcaccgacagcttgactcctacaagaatggtttcctcaacttggcc ctgcctttctttggtttctctgaaccccttgccgcaccacgtcaccagtactataaccaa gagtggacattgtgggatcgctttgaggtacaagggctgcagcctaatggtgaggagatg accctcaaacagttcctcgactattttaagacagagcacaaattagagatcaccatgctg tcccagggcgtgtccatgctctattccttcttcatgccagctgccaagctcaaggaacgg ttggatcagccgatgacagagattgtgagccgtgtgtcgaagcgaaagctgggccgccac gtgcgggcgctggtgcttgagctgtgctgtaacgacgagagcggcgaggatgtcgaggtt ccctatgtccgatacaccatccgctga >gi568815575f:47098803_47314926|GENSCAN_predicted_peptide_5|1647_aa MQSEVSPLLSTSPFRAPACACAERGARGGWAVGCSALGSAATPRSDRSVPRAAVSTRIQA GANESGGIARSGQAHGRLSGTPPPPQPPPPPPPPPPQPAAARAQQPWLKTTGTGACGEQE EKEVARPHPGPPPQAPPRRPRGSEVARAPPPIAMDRMKKIKRQLSMTLRGGRGIDKTNGA PEQIGLDESGGGGGSDPGEAPTRAAPGELRSARGPLSSAPEIVHEDLKMGSDGESDQASA TSSDEVQSPVRVRMRNHPPRKISTEVLDPVWMVEELEKGVGPGEDINKRLSLPADIRLPE GYLEKLTLNSPIFDKPLSRRLRRVSLSEIGFGKLETYIKLDKLGEGTYATVYKGKSKLTD NLVALKEIRLEHEEGAPCTAIREVSLLKDLKHANIVTLHDIIHTEKSLTLVFEYLDKDLK QYLDDCGNIINMHNVKLFLFQLLRGLAYCHRQKVLHRDLKPQNLLINERGELKLADFGLA RAKSIPTKTYSNEVVTLWYRPPDILLGSTDYSTQIDMWGVGCIFYEMATGRPLFPGSTVE EQLHFIFRILGTPTEETWPGILSNEEFKTYNYPKYRAEALLSHAPRLDSDGADLLTKLLQ FEGRNRISAEDAMKHPFFLSLGERIHKLPDTTSIFALKEIQLQKEASLRSSSMPDSVAGG SGDYQRLWEMDKPFDASVHGAISNMAVAPRLFGGLCFRFRDQNPEVAVEGRLPISHSCVG CRRERTAMATVAANPAAAAAAVAAAAAVTEDREPQHEELPGLDSQWRQIENGESGRERPL RAGESWFLVEKHWYKQWEAYVQGGDQDSSTFPGCINNATLFQDEINWRLKEGLVEGEDYV LLPAAAWHYLVSWYGLEHGQPPIERKVIELPNIQKVEVYPVELLLVRHNDLGKSHTVQFS HTDSIGLVLRTARERFLVEPQEDTRLWAKNSEGSLDRLYDTHITVLDAALETGQLIIMET RKKDGTWPSAQLHVMNNNMSEEDEDFKGQPGICGLTNLGNTCFMNSALQCLSNVPQLTEY FLNNCYLEELNFRNPLGMKGEIAEAYADLVKQAWSGHHRSIVPHVFKNKVGHFASQFLGY QQHDSQELLSFLLDGLHEDLNRVKKKEYVELCDAAGRPDQEVAQEAWQNHKRRNDSVIVD TFHGLFKSTLVCPDCGNVSVTFDPFCYLSVPLPISHKRVLEVFFIPMDPRRKPEQHRLVV PKKGKISDLCVALSKHTGISPERMMVADVFSHRFYKLYQLEEPLSSILDRDDIFVYEVSG RIEAIEGSREDIVVPVYLRERTPARDYNNSYYGLMLFGHPLLVSVPRDRFTWEGLYNVLM YRLSRYVTKPNSDDEDDGDEKEDDEEDKDDVPGPSTGGSLRDPEPEQAGPSSGVTNRCPF LLDNCLGTSQWPPRRRRKQLFTLQTVNSNGTSDRTTSPEEVHAQPYIAIDWEPEMKKRYY DEVEAEGYVKHDCVGYVMKKAPVRLQECIELFTTVETLEKENPWYCPSCKQHQLATKKLD LWMLPEILIIHLKRFSYTKFSREKLDTLVEFPIRDLDFSEFVIQPQNESNPELYKYDLIA VSNHYGGMRDGHYTTFACNKDSGQWHYFDDNSVSPVNENQIESKAAYVLFYQRQDVARRL LSPAGSSGAPASPACSSPPSSEFMDVN >gi568815575f:47098803_47314926|GENSCAN_predicted_CDS_5|4944_bp atgcagtccgaggtgagtcccctcctttccacttcacccttccgagcgcctgcgtgcgca tgcgcggagcgcggcgcgcgcggcggttgggccgttggctgttcggccctgggatccgcc gccactccgcgatcagaccgctctgtgccgcgagccgccgtgagcactcggattcaagcc ggcgccaacgagtccgggggcatcgcccgcagcggccaagctcatggccggctgagcggg acgccgcctccgcctcagccaccgccgccgccgccgcctcctcctcctcagccggcggcg gcccgggcccagcaaccatggctgaagactactgggacgggcgcctgcggcgaacaggag gagaaggaggtcgcgcggcctcatcccgggccgccgccccaggcgccgccgcgccggccc cgcggctctgaggttgctcgcgcgcccccgccgatcgccatggatcggatgaagaagatc aaacggcagctgtcaatgacactccgaggtggccgaggcatagacaagaccaatggtgcc cctgagcagataggcctggatgagagtggtggtggtggcggcagtgaccctggagaggcc cccacacgtgctgctcctggggaacttcgttctgcacggggcccactcagctctgcacca gagattgtgcacgaggacttgaagatggggtctgatggggagagtgaccaggcttcagcc acgtcctcggatgaggtgcagtctccagtgagagtgcgtatgcgcaaccatcccccacgc aagatctccactgaggtgcttgaccccgtctggatggtggaggaactggaaaagggggtt ggacctggggaggacatcaacaagcgcctatcactaccagctgacatccggctgcctgag ggctacctggagaagctgaccctcaatagccccatctttgacaagcccctcagccgccgc ctccgtcgtgtcagcctatctgagattggctttgggaaactggagacctacattaagctg gacaaactgggcgagggtacctatgccaccgtctacaaaggcaaaagcaagctcacagac aaccttgtggcactcaaggagatcagactggaacatgaagagggggcaccctgcaccgcc atccgggaagtgtccctgctcaaggacctcaaacacgccaacatcgttacgctacatgac attatccacacggagaagtccctcacccttgtctttgagtacctggacaaggacctgaag cagtacctggatgactgtgggaacatcatcaacatgcacaacgtgaaactgttcctgttc cagctgctccgtggcctggcctactgccaccggcagaaggtgctacaccgagacctcaag ccccagaacctgctcatcaacgagaggggagagctcaagctggctgactttggcctggcc cgagccaagtcaatcccaacaaagacatactccaatgaggtggtgacactgtggtaccgg ccccctgacatcctgcttgggtccacggactactccactcagattgacatgtggggtgtg ggctgcatcttctatgagatggccacaggccgtcccctctttccgggctccacggtggag gaacagctacacttcatcttccgtatcttaggaaccccaactgaggagacgtggccaggc atcctgtccaacgaggagttcaagacatacaactaccccaagtaccgagccgaggccctt ttgagccacgcaccccgacttgatagcgacggggccgacctcctcaccaagctgttgcag tttgagggtcgaaatcggatctccgcagaggatgccatgaaacatccattcttcctcagt ctgggggagcggatccacaaacttcctgacactacttccatatttgcactaaaggagatt cagctacaaaaggaggccagccttcggtcttcgtcgatgcctgactcagttgcaggggga tctggggactaccagagactctgggaaatggacaagcccttcgacgcgtctgtgcacggg gccatttccaatatggcagtagccccgcgactgtttggggggctctgcttccgtttccgg gaccagaatccggaagtggctgttgaggggcgtcttccaatctcgcacagctgcgttggc tgtagaagagaacggacggcgatggcgacggtcgcagcaaatccagctgctgctgcggcg gctgtggcggcggcagcggcggtgactgaggatagagagccacagcacgaggagctgcca ggcctggacagccagtggcgccagatagaaaacggcgagagtgggcgagaacgtccactg cgggccggcgaaagctggttccttgtggagaagcactggtataagcagtgggaggcatac gtgcagggaggggaccaggactccagcaccttccctggctgcatcaacaatgccacactc tttcaagatgagataaactggcgcctcaaggagggactggtggaaggcgaggattatgtg ctgctcccagcagctgcttggcattacctggtcagctggtatggtctagagcatggccag ccacccattgaacgcaaggtcatagagctgcccaacatccagaaggtcgaagtgtaccca gtagaactgctgcttgtccggcacaatgatttgggcaaatctcacactgttcagttcagc cataccgattctattggcctagtattgcgcacagctcgggagcggtttctggtggagccc caggaagacactcggctttgggccaagaactcagaaggctctttggataggttgtatgac acacacatcacggttctcgatgcggcccttgagactgggcagttgatcatcatggagacc cgcaagaaagatggcacttggcccagcgcacagctgcatgtcatgaacaacaacatgtcg gaagaggatgaggacttcaagggtcagccaggcatctgtggcctcaccaatctgggcaac acgtgcttcatgaactcggccctgcagtgcctcagcaatgtgccacagctcaccgagtac ttcctcaacaactgctacctggaggagctcaacttccgcaacccactgggcatgaagggt gagatcgcagaggcctatgcagacctggtgaagcaggcgtggtctggccaccaccgctcc attgtgccacatgtgttcaagaacaaggttggccattttgcatcccaatttctgggctac cagcagcatgactctcaggagctgctgtcattcctcctggacgggctgcatgaggacctt aatcgggtgaagaagaaggagtatgtggagctgtgcgatgctgctgggcgaccggatcag gaggtggcacaggaggcatggcaaaaccacaaacggcggaacgattctgtgatcgtggac actttccacggcctcttcaagtccacgctggtgtgccccgattgtggcaatgtatctgtg accttcgaccccttctgctacctcagtgttccactgcctatcagccacaagagggtcttg gaggtcttctttatccccatggatccgcgccgcaagccagagcagcaccggctcgtggtc cccaagaaaggcaagatctcggatctatgtgtggctctgtccaaacacacgggcatctcg ccagagaggatgatggtggctgatgtcttcagtcaccgcttctataagctctatcagcta gaggagcctctgagcagcatcttggaccgtgatgatatcttcgtctatgaggtgtcaggt cgcattgaggccattgagggctcaagagaggacatcgtggttcctgtctacctgcgggag cgcacccctgcccgtgactacaacaactcctactacggcctgatgctttttggacacccc ctcctggtatcagtgccccgggaccgcttcacctgggagggcctgtataacgtcctgatg taccggctctcacgctacgtgaccaaacccaactcagatgatgaggacgatggggatgag aaagaagatgacgaggaggataaagatgacgtccctgggccctcaactgggggcagcctc cgagaccctgagccagagcaggctgggcccagctctggagtcacgaacaggtgcccgttc ctcctggacaattgccttggcacatctcagtggcccccaaggcgacgacgcaagcagctg ttcaccctgcagacggtgaactccaatgggaccagcgaccgcacaacctcccctgaagaa gtccatgcccagccgtacattgctatcgactgggagccagagatgaagaagcgttactat gacgaggtagaggctgagggctacgtgaagcatgactgcgtcgggtacgtgatgaagaag gctcccgtgcggctgcaggagtgcattgagctcttcaccactgtggagaccctggagaag gaaaacccctggtactgcccttcctgcaagcagcaccagctggcaaccaagaagctggac ctgtggatgctgccggagattctcatcatccacctgaaacgcttttcctacaccaagttc tcccgagagaagctggacaccctcgtggagtttcctatccgggacctggacttctctgag tttgtcatccagccacagaatgagtcgaatccggagctgtacaaatatgacctcatcgcg gtttccaaccattatgggggcatgcgtgatggacactacacaacatttgcctgcaacaag gacagcggccagtggcactactttgatgacaacagcgtctcccctgtcaatgagaatcag atcgagtccaaggcagcctatgtcctcttctaccaacgccaggacgtggcgcgacgcctg ctgtccccggccggctcatctggcgccccagcctcccctgcctgcagctccccacccagc tctgagttcatggatgttaattga >gi568815575f:47098803_47314926|GENSCAN_predicted_peptide_6|188_aa MAGRAGGRGLEQLLHLIAAASTMSRVLVPCHVKGTVALQHTSAHTPAKWVTCLWDYCLMP NPHSEEGAQEYVSLFKQQILCDMARISELHLILQQPSPLWLSFTVEELQIYQQGPKSPSM IFPKWLSHPVPCEQPALLHEGLPDPSRVSSEVQQMWALTEMIRASHTSARIGHFDVDGCY DLNLLSYT >gi568815575f:47098803_47314926|GENSCAN_predicted_CDS_6|567_bp atggcaggaagggctggaggtcggggcctggagcagctattgcacttaatcgcggctgct agcaccatgtcccgcgttttggtgccttgccatgtgaaaggcaccgtagccctgcagcac acctcagcacacacaccggccaagtgggtgacctgcctgtgggactactgtctgatgccc aacccacacagtgaggagggagcccaggagtatgtgtcgctgttcaagcaacagatactg tgtgacatggccagaatatcggagctacacctgattctgcagcagccatcaccactgtgg ctgtctttcacagtggaggagctgcagatctatcagcagggaccaaagagcccctccatg atcttccccaagtggctctcccacccagtgccctgtgagcaacctgcactcctccatgag ggtctcccagaccccagcagggtatcctctgaggtgcagcagatgtgggcactgacagag atgatccgggccagtcacacctccgcgaggataggccactttgatgtagatggctgttat gacctgaacttactctcctacacttga >gi568815575f:47098803_47314926|GENSCAN_predicted_peptide_7|77_aa MAKFAVYNQKYPTNPRKEKGNSFEEEEGEEEEEEEEEERGEGEEEEEEEEEKGEGEEEET IWLILGQSHIASTYLHD >gi568815575f:47098803_47314926|GENSCAN_predicted_CDS_7|234_bp atggcaaaatttgctgtctataatcagaaatatcccactaatccaaggaaagaaaagggg aactccttcgaagaagaagaaggagaagaagaagaagaagaagaagaagaagaaagagga gaaggagaggaggaggaggaggaggaggaggaaaaaggggaaggggaagaagaagaaaca atatggttaattttaggccagagtcacatagctagcacatatctccatgactaa >gi568815575f:47098803_47314926|GENSCAN_predicted_peptide_8|36_aa LNLKKCDKPTLLCCCLTTAWPLDKLASNVKPRHCYM >gi568815575f:47098803_47314926|GENSCAN_predicted_CDS_8|111_bp ctgaatctaaagaaatgtgacaagccaactttactgtgctgctgcttaacaactgcttgg ccgcttgacaaattggcatccaacgtgaagccaaggcactgctacatgtaa