Result of GENSCAN for
pF1KE1994
GENSCAN 1.0 Date run: 6-Nov-116 Time: 19:27:44 Sequence gi568815597r:24020808_24243082 : 222275 bp : 48.94% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Intr + 1150 1250 101 2 2 -19 92 116 0.197 1.13 1.02 Intr + 15291 15396 106 2 1 62 78 93 0.219 5.49 1.03 Term + 28922 28971 50 0 2 94 49 34 0.026 -2.43 1.04 PlyA + 30818 30823 6 1.05 2.39 PlyA - 31113 31108 6 1.05 2.38 Term - 36820 36557 264 1 0 79 48 466 0.641 37.21 2.37 Intr - 38172 38117 56 1 2 84 79 66 0.870 4.00 2.36 Intr - 40275 40148 128 2 2 104 9 103 0.491 4.32 2.35 Intr - 40502 40466 37 0 1 107 100 38 0.999 4.22 2.34 Intr - 41302 41139 164 0 2 62 105 203 0.989 19.02 2.33 Intr - 42427 42319 109 2 1 94 108 205 0.999 22.44 2.32 Intr - 42723 42685 39 1 0 110 91 64 0.993 7.10 2.31 Intr - 43352 43265 88 2 1 107 70 98 0.659 9.44 2.30 Intr - 43784 43681 104 0 2 54 59 7 0.354 -5.71 2.29 Intr - 45194 45080 115 2 1 102 8 153 0.748 8.72 2.28 Intr - 45805 45768 38 2 2 51 107 21 0.479 -1.72 2.27 Intr - 47270 47163 108 0 0 109 90 25 0.605 5.06 2.26 Intr - 47560 47416 145 1 1 44 61 233 0.940 16.06 2.25 Intr - 50446 50310 137 2 2 83 48 178 0.976 13.59 2.24 Intr - 51206 51162 45 0 0 87 115 42 0.972 5.18 2.23 Intr - 53462 53353 110 1 2 104 90 167 0.999 18.43 2.22 Intr - 54668 54512 157 0 1 100 108 213 0.999 23.57 2.21 Intr - 55466 55352 115 2 1 110 91 127 0.993 15.22 2.20 Intr - 59387 59209 179 0 2 91 110 176 0.999 19.74 2.19 Intr - 60649 60523 127 1 1 98 94 142 0.999 16.05 2.18 Intr - 61381 61194 188 2 2 79 97 216 0.969 21.01 2.17 Intr - 61907 61786 122 1 2 71 92 78 0.995 6.64 2.16 Intr - 63814 63661 154 2 1 89 98 61 0.805 6.33 2.15 Intr - 66020 65837 184 2 1 62 80 213 0.994 17.26 2.14 Intr - 68858 68731 128 0 2 38 97 178 0.999 14.10 2.13 Intr - 69311 69258 54 0 0 106 107 72 0.989 9.85 2.12 Intr - 70189 69990 200 0 2 50 94 166 0.999 12.39 2.11 Intr - 71508 71367 142 1 1 56 101 136 0.994 11.11 2.10 Intr - 72301 72140 162 2 0 113 78 284 0.929 29.85 2.09 Intr - 74183 74046 138 0 0 65 91 179 0.999 16.34 2.08 Intr - 74734 74635 100 1 1 26 106 121 0.831 7.38 2.07 Intr - 75767 75679 89 0 2 96 77 30 0.685 2.39 2.06 Intr - 77204 77116 89 1 2 99 92 164 0.995 17.51 2.05 Intr - 78968 78873 96 1 0 103 78 163 0.846 15.92 2.04 Intr - 85270 85113 158 1 2 103 107 173 0.997 19.51 2.03 Intr - 86425 86266 160 0 1 88 90 291 0.999 29.29 2.02 Intr - 87320 87186 135 1 0 1 97 201 0.818 11.98 2.01 Init - 87829 87669 161 1 2 94 75 223 0.920 19.26 2.00 Prom - 94799 94760 40 -4.06 3.23 PlyA - 94812 94807 6 1.05 3.22 Term - 100930 99998 933 1 0 71 55 413 0.782 28.43 3.21 Intr - 102616 102495 122 2 2 78 93 136 0.974 13.31 3.20 Intr - 107472 107334 139 0 1 65 109 114 0.960 11.24 3.19 Intr - 113579 113404 176 0 2 103 101 178 0.936 20.26 3.18 Intr - 116502 116324 179 2 2 98 79 185 0.998 18.16 3.17 Intr - 117907 117775 133 2 1 116 29 210 0.995 17.60 3.16 Intr - 121442 121303 140 1 2 36 48 36 0.002 -5.49 3.15 Intr - 122310 122233 78 2 0 65 105 65 0.003 4.57 3.14 Intr - 136486 136327 160 2 1 -11 99 135 0.182 3.75 3.13 Intr - 136997 136799 199 2 1 75 44 176 0.463 10.82 3.12 Intr - 138375 138245 131 1 2 105 40 67 0.971 4.01 3.11 Intr - 138826 138667 160 1 1 116 94 121 0.977 15.06 3.10 Intr - 140877 140735 143 1 2 99 81 155 0.983 15.97 3.09 Intr - 148794 148610 185 2 2 121 100 139 0.797 17.83 3.08 Intr - 160047 159924 124 1 1 119 65 93 0.971 9.74 3.07 Intr - 166448 166384 65 1 2 16 110 92 0.002 2.56 3.06 Intr - 167196 166864 333 2 0 95 -13 245 0.002 9.79 3.05 Intr - 178842 178794 49 1 1 100 110 113 0.980 12.44 3.04 Intr - 182419 182382 38 0 2 92 49 13 0.216 -4.29 3.03 Intr - 185868 185799 70 1 1 141 97 33 0.333 7.74 3.02 Intr - 187560 187406 155 2 2 63 26 154 0.061 6.42 3.01 Init - 191861 191026 836 2 2 91 -27 646 0.030 47.58 3.00 Prom - 192736 192697 40 -2.26 4.03 PlyA - 192867 192862 6 1.05 4.02 Term - 194154 194049 106 2 1 93 49 99 0.977 4.38 4.01 Init - 199779 199610 170 0 2 83 81 106 0.966 8.41 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 122275 122233 43 1 1 73 105 82 0.993 8.63 S.002 Init - 166441 166384 58 1 1 92 110 148 0.996 16.89 S.003 Term - 167196 166860 337 2 1 95 42 249 0.906 15.04 S.004 Sngl - 191861 191010 852 2 0 91 49 672 0.965 59.40 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597r:24020808_24243082|GENSCAN_predicted_peptide_1|85_aa XIKVDEAVAPGVQAVKEVESFLRQQQTVSCRVKYVHIHVTTIRIKKGDIDSKPASLCVPL SHLYYPPIGESIRKNFSEMHAKIYV >gi568815597r:24020808_24243082|GENSCAN_predicted_CDS_1|258_bp ngcataaaagttgatgaagctgtagcaccaggagtccaagctgtgaaggaagttgagtcc ttcctccgccagcagcagactgtgagctgcagagtcaaatatgtacacatccatgtgacc accatccgaataaagaaaggggacattgacagcaagccagcgagcctctgtgtgcccctt tcccatctatactatcctcctattggagagtctatccgaaagaatttttcagagatgcac gcaaagatttatgtataa >gi568815597r:24020808_24243082|GENSCAN_predicted_peptide_2|1574_aa MTLPHSLGGAGDPRPPQAMEVHRLEHRQEEEQKEERQHSLRMGSSVRRRTFRSREPPANP ARAIYSPPSGSSEEEHEFSAADYALAAALALTASSELSWEAQLRRQTSAVELEERGQKRV GFGNDWERTEIAFLQTHRLLRQRRDWKTLRRRTEEKVQEAKELRELCYGRGPWFWIPLRS HAVWEHTTVLLTCTVQASPPPQVTWYKNDTRIDPRLFRAGKYRITNNYGLLSLEIRRCAI EDSATYTVRVKNAHGQASSFAKVLVRTLRRQILLPGQALVQKFELSPQSMPRVKPKHRNV GSEPSPTLFAFGFSAYLGKDAGFDSEIFKRSTFGPSVEFTSVLKPVFAREKEPFSLSCLF SEDVLDAESIQWFRDGSLLRSSRRRKILYTDRQASLKVSCTYKEDEGLYMVRVPSPFGPR EQSTYVLVRDAEAENPGAPGSPLNVRCLDVNRDCLILTWAPPSDTRGNPITAYTIERCQG ESGEWIACHEAPGGTCRCPIQGLVEGQSYRFRVRAISRVGSSVPSKASELVVMGDHDAAR RKTEIPFDLGNKITISTDAFEDTVTIPSPPTNVHASEIREAYVVLAWEEPSPRDRAPLTY SLEKSVIGSGTWEAISSESPVRSPRFAVLDLEKKKSYVFRVRAMNQYGLSDPSEPSEPIA LRGPPAQVQAFRDTQTSVSLTWDPVKDPELLGYYIYSRKVGTSEWQTVNNKPIQGTRFTV PGLRTGKEYEFCVRSVSEAGVGESSAATEPIRVKQALATPSAPYGFALLNCGKNEMVIGW KPPKRRGGGKILGYFLDQHDSEELDWHAVNQQPIPTRVCKVSDLHEGHFYEFRARAANWA GVGELSAPSSLFECKEWTMPQPGPPYDVRASEVRATSLVLQWEPPLYMGAGPVTGYHVSF QEEGSEQWKPVTPGPISGTHLRVSDLQPGKSYVFQVQAMNSAGLGQPSMPTDPVLLEDKP GAHEIEVGVDEEGFIYLAFEAPEAPDSSEFQWSKDYKGPLDPQRVKIEDKVNKSKVILKE PGLEDLGTYSVIVTDADEDISASHTLTEEELEKLKKLSHEIRNPVIKLISGWNIDILERG EVRLWLEVEKLSPAAELHLIFNNKEIFSSPNRKINFDREKGLVEVIIQNLSEEDKGSYTA QLQDGKAKNQITLTLVDDDPHSSRLMPVPPSVFTDFDKLLRKADAKRRDWKRKQDEKTNG EIAQGHTVTNTKKETRFQWFFQRAEMPDGQYDPETGTGLLCIEEARENTLPPGELQVVGV PPSRSPQGVKGGPGPDKLCKLSKKDKGIYRAMVSDDRGEDDTILDLTGDALDAIFTELGR IGALSATPLKIQGTEEGIRIFSKVKYYNVEYMKTTWFHKDKRLESGDRIRTGTTLDEIWL HILDPKDSDKGKYTLEIAAGKEVRQLSTDLSGQAFEDAMAEHQRLKTLAIIEKSKSADIS VVFVSEFGANFLEAQPSWWAAEGLIPQWDRAKVVRGLPDVATIMEDKTLCLTCIVSGDPT PEISWLKNDQPVTFLDRYRMEVRGTEVTITIEKVNSEDSGRYGVFVKNKYGSETGQVTIS VFKHGDEPKELKSM >gi568815597r:24020808_24243082|GENSCAN_predicted_CDS_2|4725_bp atgactctgccgcacagcttgggaggtgcgggggacccccggcccccccaggccatggag gttcacaggctggagcaccggcaggaggaggagcagaaggaggagcggcagcacagcctg cgcatgggctcctctgtgcggaggcggaccttccgcagcagggagcccccagccaatcct gcaagagccatttactcccctccttctgggagcagcgaagaagagcatgagttcagcgcc gcggactacgccctggcagcagccctggctctgacggcctcctccgagctgtcttgggaa gcccagctgagacgccagacctctgccgtggagctggaggagcgagggcagaagcgggtg ggcttcggcaatgactgggagaggactgagatcgccttcctgcagacccaccggctgctg cgccagaggcgggactggaagacgctgaggcggcggacagaggagaaggtccaggaggcc aaggagctgagggagctgtgctacggccgcgggccctggttctggatccctcttcgctcc cacgccgtctgggagcacaccacggtcctgctgacctgcactgtccaggcctcaccacca ccccaggtcacctggtacaaaaatgacacacggattgatccccgcctctttcgtgccgga aaataccgaatcaccaacaactacgggctgctgtccctggagattaggagatgcgccatt gaggactcagcaacttacactgtgcgagtgaagaacgcccacggccaggcctcctccttc gccaaagtcctcgtccgcactcttaggaggcagatcctgctgccaggccaagctcttgtg cagaaatttgagctgtccccacagtccatgcccagagtcaagcccaagcataggaatgtg ggctctgaaccttctccaactctgtttgcctttggtttttcagcttacctggggaaggat gctggcttcgattcagagatcttcaaaagatcgacgtttggccccagcgtggaattcacc tcggtgctgaagccagtctttgctcgtgagaaggaacccttctccctgtcatgcttgttt tcggaagatgtgttagatgctgagagcatccagtggttccgagatgggagcctactgagg tcctcgagacgtcggaagatcctctacacagaccgccaggcatccctgaaggtgtcctgc acctacaaggaggacgaggggctctacatggtccgggtgccctcgcccttcggaccccgg gaacagagcacctacgtgcttgtgagagatgccgaggccgagaaccccggggccccaggc tccccactgaacgtccgatgcctggatgtgaacagagactgcctcatcctgacttgggcc ccgcccagtgacacccggggcaaccccatcactgcctacaccattgagcggtgccagggc gagtctggggaatggatcgcctgccatgaggcccccggagggacttgtcggtgcccaatc caaggcctcgtcgaaggtcagagctatcggttccgggtgagagccatcagcagggtaggc agcagcgtcccctccaaggcctcagagttggttgtcatgggtgaccatgatgcagcccgg aggaagacagagatcccctttgatctgggaaacaagatcaccatcagcacagacgctttt gaagatactgtgaccatcccctcaccgccaaccaatgtccatgccagcgagatccgagag gcctatgtggttctggcctgggaggagcccagcccccgggacagagcaccactgacgtac tccctggagaagtcagtcataggtagtggcacctgggaggccatcagctcggaaagccct gtgagatccccgagattcgccgttctggacctggagaaaaagaagtcgtatgtcttcaga gtgcgagcaatgaaccagtatggcctgagcgatccctcggagcccagcgaacccatcgcc ttgcggggcccgccagctcaagttcaagctttcagagacacacagacctctgtctccctg acatgggatcctgtgaaagacccagagctcctgggttattacatctactcccggaaggtg gggacatctgagtggcaaacagttaacaacaaacccatccaaggcaccaggtttacagtt cccgggctgaggacggggaaggagtacgagttttgtgtcaggtcagtcagcgaggctggg gtaggcgagagctcagccgccaccgagcccatcagggtcaagcaggctctggctaccccg tctgccccatatggctttgccctcctgaactgcgggaagaatgaaatggtcattgggtgg aaaccccccaagcgtcgtggaggtggcaagatcctgggctacttcctggaccagcatgac tcggaagagctggactggcatgcggtcaatcagcagcccatccccacccgggtctgcaag gtcagtgaccttcatgaaggccacttctatgagttccgtgcccgggctgccaactgggca ggtgttggcgagctgtcggcacccagcagcctgtttgagtgcaaagagtggacaatgccc cagccaggccccccgtacgatgtacgggcatccgaggtgcgggccacatccctggtgctg cagtgggaacccccactgtatatgggggctgggcctgtcacaggctatcacgtcagtttc caggaggaaggctctgagcagtggaagccggtcaccccaggccccatctctggcacccac ctgagggtttccgacttgcagccaggaaagagttacgtgttccaggtacaggccatgaat tcagctggtctggggcaaccgtccatgcccactgatcccgtgctcctggaggacaagcca ggtgcccatgagatcgaggttggtgtggatgaagagggctttatctatttggcttttgaa gcccctgaagcccccgactcctcagagtttcagtggtccaaagactacaagggcccactg gacccccagagggtcaagatcgaggataaagttaacaagtccaaggtcatcctgaaagaa cccggcctcgaggatttgggcacctactcagtcatagtcactgatgccgatgaagacatc tccgcaagccacacgctaaccgaggaagagctggagaagctgaagaagctgagtcatgag atcagaaacccagtgatcaaactgatctccggctggaacattgacatcctggagcgaggg gaggtgcggctttggctggaagtagaaaagttatctccagccgctgagctacatctaatc ttcaacaacaaggagatcttcagctcgccgaaccgcaaaatcaattttgaccgagagaag ggcctggtggaagtgatcatccagaacttgtctgaggaggacaaagggtcgtacaccgct caactccaagatggaaaagccaaaaaccagattaccttgacactggtggatgacgaccca cactcctctcggctcatgccagttcctccctctgtgttcacagattttgacaagcttctg aggaaggcagatgctaagagaagggactggaagagaaaacaggatgagaaaacaaatgga gaaatagctcaaggccacacggtgaccaacaccaagaaggagactcgctttcagtggttc ttccagagggcagagatgccagatggtcagtatgacccagagacgggaacgggacttctc tgcattgaagaggcaagagaaaacacgcttcctcctggggaactgcaggtggtgggggtc cctccatccaggagcccccagggagtgaaaggtgggccaggcccagacaagctctgcaaa ttgtccaaaaaggacaagggaatttacagagcgatggtttctgacgatcgaggggaggac gacaccatattggacctcacgggtgacgccctggatgccatcttcaccgagttgggcagg attggtgccctctctgcaactccactgaaaatccaggggaccgaggaagggatccggatc ttcagcaaggtcaagtactacaacgtggagtacatgaaaaccacctggttccacaaagac aaacgtctggagagtggtgatcggataaggacgggcaccaccctggatgagatctggctt cacatcctggaccccaaagactcagacaagggcaaatacactctggaaatagctgcaggg aaggaagtccggcagctctcaacagatctctcagggcaagcttttgaggatgcaatggct gaacaccagagactgaaaaccttggccatcatcgagaagagtaagtcggccgatatttct gttgtttttgtttctgaatttggggcaaacttcctggaagctcaaccctcttggtgggct gctgaaggcctcattccacagtgggatcgtgccaaagtggtgagaggtctgccggatgtg gccactatcatggaagataagaccctgtgcttgacttgcatcgtctcaggagaccccacc cctgaaatctcttggctgaagaatgaccagcctgtcaccttccttgaccgataccgcatg gaagtgagggggacagaggtcaccatcaccattgagaaggtcaacagtgaagacagcggc cgctacggcgtcttcgtcaagaacaagtatggctccgagacgggccaggtcaccatcagt gtgttcaagcacggggacgagcccaaggagctgaagagcatgtga >gi568815597r:24020808_24243082|GENSCAN_predicted_peptide_3|1515_aa MASSIIHPTTTNIPSTSPVSPPLPSPPASPPSPSPPLSPSPPPSSSPTPSPSPPPSPPPS PSPPPSPPPSPSPPPSPPPSPSPPPSPPPSPSPPPSPPPSPSPPPSPPPSPSPPPSPPLS LPPSLTPPPSPPSSPSPSPSPPLLLPPSPSPPPSPPLSLPVTLTTSTTTSITLTTSITTS ITTSITLTTSITTFITLTTSLTTSITLTTSITTSLTTSITLTTSITTSITLTTSLTTSIT LTTSITSITLITFITTSITTSITVTTPITTTTTFVQEMHLQMKPKCAAGQKPAFRFLPVR RKGVYGGPVQAYTQHQYIHKVGKILKRFHTGLEPSPESALGFLLGAQTLPAQGRAFPEVH LMLSSRASYGYIRESPKRLQNVSVLQTPRCRYTPFGNVLLKGRIILRVVACALLGSYCCP GEHHSLRGQKDSFPQNKHLKLWGLPLPGREVRGEGQHGSAGIPGGIKGNRVCKARSSASG SETRSDPANGIEAAKAMAGPERWGPLLLCLLQAAPGRPRLAPPQNVTLLSQNFSVYLTWL PGLGNPQDVTYFVAYQSSPTRRRWREVEECAGTKELLCSMMCLKKQDLYNKFKGRVRTVS PSSKSPWVESEYLDYLFEVEPAPPVLVLTQTEEILSANATYQLPPCMPPLDLKYEVAFWK EGAGNKTLFPVTPHGQPVQITLQPAASEHHCLSARTIYTFSVPKYSKFSKPTCFLLEVPE ANWAFLVLPSLLILLLVIAAGGVIWKTLMGNPWFQRAKMPRALELTRGVRPTPRVRAPAT QQTRWKKDLAEDEEEEDEEDTEDGVSFQPYIEPPSFLGQEHQAPGHSEAVSLQTLTFCWE SSPEEEEEARESEIEDSDAGSWGAESTQRTEDRGRTLGHYMARVEAKGGLCASPDEDAAD HLDCGIPGWTRPTKRQSFPPSLPLSRQGCLRLQGFQLCGTPSSLLPSIKLGVPGRSHAPE DPSDLLQHVKFQSSNFENILTWDSGPEGTPDTVYSIEYKTYGERDWVAKKGCQRITRKSC NLTVETGNLTELYYARVTAVSAGGRSATKMTDRFSSLQHTTLKPPDVTCISKVRSIQMIV HPTPTPIRAGDGHRLTLEDIFHDLFYHLELQVNRTYQMHLGGKQREYEFFGLTPDTEFLG TIMICVPTWAKESAPYMCRVKTLPDRTWTYSFSGAFLFSMGFLVAVLCYLSYRYVTKPPA PPNSLNVQRVLTFQPLRFIQEHVLIPVFDLSGPSSLAQPVQYSQIRVSGPREPAGAPQRH SLSEITYLGQPDISILQPSNVPPPQILSPLSYAPNAAPEVGPPSYAPQVTPEAQFPFYAP QAISKVQPSSYAPQATPDSWPPSYGVCMEGSGKDSPTGTLSSPKHLRPKGQLQKEPPAGS CMLGGLSLQEVTSLAMEESQEAKSLHQPLGICTDRTSDPNVLHSGEEGTPQYLKGQLPLL SSVQIEGHPMSLPLQPPSRPCSPSDQGPSPWGLLESLVCPKDEAKSPAPETSDLEQPTEL DSLFRGLALTVQWES >gi568815597r:24020808_24243082|GENSCAN_predicted_CDS_3|4548_bp atggcttcatctatcatccaccccactacgactaacatcccatcaacctcaccagtatca ccacctctaccatctcctccagcatcacctccatcaccatcaccacctctatcaccatca ccacctccatcatcatcaccaactccatcaccatcaccacctccatcaccacctccatca ccctcaccacctccatcaccacctccatcaccctcaccacctccatcaccacctccatca ccctcaccacctccgtcaccacctccatcaccctcaccacctccatcaccacctccatca ccctcaccacctccatcaccacctccatcaccctcaccacctccatcaccacctctatca ctgcctccatcactcacaccacctccatcaccaccttcatcaccctcaccatctccatca ccacctctattactacctccatcaccctcaccacctccatcaccacctctatcactacct gtcaccctcaccacctccaccaccacctccatcaccctcaccacctccatcaccacctct atcaccacctccatcaccctcaccacctccatcaccaccttcatcaccctcaccacctcc ctcaccacctccatcaccctcaccacctccatcaccacctccctcaccacctccatcacc ctcaccacctccatcaccacctccatcaccctcaccacctccctcaccacctccatcacc ctcaccacctccatcacctctatcaccctcatcaccttcatcaccacctccatcactacc tctatcaccgtcaccacccccatcaccactaccaccacctttgtgcaagagatgcatttg caaatgaaaccaaaatgtgctgctggacagaaaccagcattccgcttcctcccagtgcgc aggaagggtgtttatggtggtccggtccaggcctacactcagcaccagtacatccacaaa gttggcaaaatattgaaacgcttccacactggtctagaaccatctcctgagtcagctctg ggcttcctgctaggagctcagacccttcctgctcagggaagggccttcccagaagttcac ctgatgctaagcagcagggcctcctatgggtacatccgagagtctcccaagaggctgcag aacgtcagtgtgttgcaaacacctcggtgtcgatacacaccattcggcaacgtcctccta aagggccgcataatattgcgcgtcgtggcgtgtgccttactgggaagctactgctgtcca ggtgaacaccacagccttcggggtcagaaagacagctttccccagaacaagcacctgaag ctctggggcctgccgctccccgggagagaagtacgtggagaagggcagcacggatccgcc gggatccccgggggcattaaagggaatcgcgtgtgtaaggcgcggagctcagcatccggc tcagaaacgcgctcggatcccgccaatggcattgaggccgcgaaggccatggcggggccc gagcgctggggccccctgctcctgtgcctgctgcaggccgctccagggaggccccgtctg gcccctccccagaatgtgacgctgctctcccagaacttcagcgtgtacctgacatggctc ccagggcttggcaacccccaggatgtgacctattttgtggcctatcagagctctcccacc cgtagacggtggcgcgaagtggaagagtgtgcgggaaccaaggagctgctatgttctatg atgtgcctgaagaaacaggacctgtacaacaagttcaagggacgcgtgcggacggtttct cccagctccaagtccccctgggtggagtccgaatacctggattacctttttgaagtggag ccggccccacctgtcctggtgctcacccagacggaggagatcctgagtgccaatgccacg taccagctgcccccctgcatgcccccactggatctgaagtatgaggtggcattctggaag gagggggccggaaacaagaccctatttccagtcactccccatggccagccagtccagatc actctccagccagctgccagcgaacaccactgcctcagtgccagaaccatctacacgttc agtgtcccgaaatacagcaagttctctaagcccacctgcttcttgctggaggtcccagaa gccaactgggctttcctggtgctgccatcgcttctgatactgctgttagtaattgccgca gggggtgtgatctggaagaccctcatggggaacccctggtttcagcgggcaaagatgcca cgggccctggaactgaccagaggggtcaggccgacgcctcgagtcagggccccagccacc caacagacaagatggaagaaggaccttgcagaggacgaagaggaggaggatgaggaggac acagaagatggcgtcagcttccagccctacattgaaccaccttctttcctggggcaagag caccaggctccagggcactcggaggctgtttctcttcagacactgaccttctgctgggaa agcagccctgaggaggaagaggaggcgagggaatcagaaattgaggacagcgatgcgggc agctggggggctgagagcacccagaggaccgaggacaggggccggacattggggcattac atggccagagtagaggccaagggagggctctgtgccagccccgatgaggacgctgctgac catcttgactgtgggatccctggctggacgaggcccacgaaaaggcagagcttcccacct tctctgccactgtcccgccagggctgcctgcgtctccagggcttccagctctgtgggacc ccctccagtctgcttcccagcatcaagctgggcgttccaggaagatctcacgcccctgag gacccctcggatctgctccagcacgtgaaattccagtccagcaactttgaaaacatcctg acgtgggacagcgggccggagggcaccccagacacggtctacagcatcgagtataagacg tacggagagagggactgggtggcaaagaagggctgtcagcggatcacccggaagtcctgc aacctgacggtggagacgggcaacctcacggagctctactatgccagggtcaccgctgtc agtgcgggaggccggtcagccaccaagatgactgacaggttcagctctctgcagcacact accctcaagccacctgatgtgacctgtatctccaaagtgagatcgattcagatgattgtt catcctacccccacgccaatccgtgcaggcgatggccaccggctaaccctggaagacatc ttccatgacctgttctaccacttagagctccaggtcaaccgcacctaccaaatgcacctt ggagggaagcagagagaatatgagttcttcggcctgacccctgacacagagttccttggc accatcatgatttgcgttcccacctgggccaaggagagtgccccctacatgtgccgagtg aagacactgccagaccggacatggacctactccttctccggagccttcctgttctccatg ggcttcctcgtcgcagtactctgctacctgagctacagatatgtcaccaagccgcctgca cctcccaactccctgaacgtccagcgagtcctgactttccagccgctgcgcttcatccag gagcacgtcctgatccctgtctttgacctcagcggccccagcagtctggcccagcctgtc cagtactcccagatcagggtgtctggacccagggagcccgcaggagctccacagcggcat agcctgtccgagatcacctacttagggcagccagacatctccatcctccagccctccaac gtgccacctccccagatcctctccccactgtcctatgccccaaacgctgcccctgaggtc gggcccccatcctatgcacctcaggtgacccccgaagctcaattcccattctacgcccca caggccatctctaaggtccagccttcctcctatgcccctcaagccactccggacagctgg cctccctcctatggggtatgcatggaaggttctggcaaagactcccccactgggacactt tctagtcctaaacaccttaggcctaaaggtcagcttcagaaagagccaccagctggaagc tgcatgttaggtggcctttctctgcaggaggtgacctccttggctatggaggaatcccaa gaagcaaaatcattgcaccagcccctggggatttgcacagacagaacatctgacccaaat gtgctacacagtggggaggaagggacaccacagtacctaaagggccagctccccctcctc tcctcagtccagatcgagggccaccccatgtccctccctttgcaacctccttcccgtcca tgttccccctcggaccaaggtccaagtccctggggcctgctggagtcccttgtgtgtccc aaggatgaagccaagagcccagcccctgagacctcagacctggagcagcccacagaactg gattctcttttcagaggcctggccctgactgtgcagtgggagtcctga >gi568815597r:24020808_24243082|GENSCAN_predicted_peptide_4|91_aa MVNTLRLESCIPLSTNEVPTVCQVQFLAPRKQQQTGQSPLHEKLTILAGEDYEEARKTIK GQIKDVAIEAKEKVREMEFSEDSKGGIRSPT >gi568815597r:24020808_24243082|GENSCAN_predicted_CDS_4|276_bp atggtcaatactttacggctggagtcttgcattccactgagcactaatgaggtgcctact gtgtgccaggtacagtttttggctccaaggaagcagcagcagacaggacagagtcccctg catgagaagctgaccattctggctggggaagactatgaagaggcaaggaaaaccataaaa ggccagatcaaagatgtagcaatagaagcaaaagaaaaagtgagagagatggaattttct gaagatagtaaaggagggattcggagccccacatga