Result of GENSCAN for
pF1KE6171
GENSCAN 1.0 Date run: 8-Nov-116 Time: 10:03:34 Sequence gi568815592r:75137933_75341266 : 203334 bp : 37.95% C+G : Isochore 1 ( 0 - 43 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.37 Intr - 648 516 133 0 1 63 63 202 0.751 14.50 1.36 Intr - 1029 890 140 1 2 84 53 92 0.976 4.56 1.35 Intr - 4229 4100 130 2 1 74 86 139 0.992 11.65 1.34 Intr - 5456 5320 137 0 2 57 92 118 0.989 8.47 1.33 Intr - 7523 7394 130 2 1 68 69 202 0.990 15.65 1.32 Intr - 8312 8170 143 0 2 11 52 70 0.274 -5.15 1.31 Intr - 9872 9743 130 2 1 93 76 158 0.365 14.45 1.30 Intr - 10565 10426 140 0 2 60 81 173 0.990 13.06 1.29 Intr - 13355 13209 147 0 0 56 111 134 0.993 11.79 1.28 Intr - 14099 13935 165 0 0 62 72 275 0.795 22.31 1.27 Intr - 14318 14199 120 0 0 28 109 75 0.891 3.15 1.26 Intr - 14550 14401 150 1 0 45 74 73 0.625 0.81 1.25 Intr - 16605 16484 122 2 2 45 99 113 0.982 7.32 1.24 Intr - 17922 17730 193 1 1 102 63 212 0.999 17.73 1.23 Intr - 18591 18325 267 1 0 77 80 251 0.920 19.78 1.22 Intr - 27847 27575 273 2 0 75 51 282 0.676 19.79 1.21 Intr - 37378 37106 273 2 0 15 86 234 0.915 12.49 1.20 Intr - 40003 39731 273 2 0 80 75 213 0.985 15.79 1.19 Intr - 43279 43007 273 2 0 76 70 319 0.988 25.49 1.18 Intr - 45720 45118 603 1 0 111 96 537 0.999 48.32 1.17 Intr - 46212 45922 291 1 0 86 106 303 0.999 28.08 1.16 Intr - 50690 50430 261 0 0 88 113 221 0.845 21.14 1.15 Intr - 51449 51285 165 0 0 104 69 121 0.996 10.81 1.14 Intr - 51883 51620 264 2 0 37 91 183 0.987 10.06 1.13 Intr - 54423 54280 144 1 0 99 82 106 0.997 10.43 1.12 Intr - 57015 56899 117 1 0 95 114 89 0.967 11.72 1.11 Intr - 67236 67081 156 1 0 47 80 65 0.036 0.66 1.10 Intr - 67798 67709 90 2 0 80 52 101 0.484 4.75 1.09 Intr - 67989 67845 145 0 1 108 76 70 0.610 6.73 1.08 Intr - 68328 68188 141 0 0 119 -29 177 0.192 8.73 1.07 Intr - 71194 71126 69 1 0 18 59 121 0.071 0.66 1.06 Intr - 79940 79801 140 0 2 75 61 49 0.026 0.16 1.05 Intr - 102453 102369 85 0 1 63 79 49 0.045 -0.03 1.04 Intr - 103333 103244 90 1 0 54 84 55 0.236 0.97 1.03 Intr - 105606 105548 59 1 2 114 20 71 0.336 0.58 1.02 Intr - 105941 105785 157 2 1 40 81 170 0.382 10.16 1.01 Init - 108126 108106 21 0 0 71 100 9 0.344 0.14 1.00 Prom - 111573 111534 40 -4.15 2.00 Prom + 115072 115111 40 -5.85 2.01 Init + 115570 115624 55 0 1 79 75 64 0.425 5.70 2.02 Term + 116245 116339 95 2 2 88 41 88 0.944 1.11 2.03 PlyA + 116404 116409 6 1.05 3.10 PlyA - 116935 116930 6 1.05 3.09 Term - 121054 120807 248 2 2 93 48 184 0.994 9.87 3.08 Intr - 121558 121415 144 2 0 65 93 127 0.998 10.23 3.07 Intr - 122979 122892 88 0 1 59 60 122 0.999 5.12 3.06 Intr - 127406 127299 108 2 0 114 89 102 0.999 12.46 3.05 Intr - 129816 129709 108 0 0 83 58 66 0.854 2.66 3.04 Intr - 146763 146470 294 0 0 -8 78 254 0.024 11.08 3.03 Intr - 146907 146769 139 2 1 115 44 173 0.023 15.15 3.02 Intr - 153149 152968 182 2 2 24 91 88 0.021 0.44 3.01 Init - 167444 167367 78 2 0 79 76 23 0.305 1.31 3.00 Prom - 167667 167628 40 -4.95 4.05 PlyA - 167981 167976 6 1.05 4.04 Term - 170965 170759 207 1 0 88 55 178 0.999 10.86 4.03 Intr - 172364 172208 157 1 1 -7 89 134 0.559 3.09 4.02 Intr - 177270 174418 2853 2 0 91 86 3053 0.576 291.79 4.01 Intr - 189486 189344 143 0 2 98 17 134 0.014 5.53 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 64860 64788 73 0 1 68 93 153 0.979 13.08 S.002 Term + 146612 147017 406 2 1 22 43 346 0.945 17.17 S.003 Term - 181317 181217 101 1 2 22 42 202 0.962 6.31 S.004 Init - 181577 181340 238 2 1 64 64 158 0.956 9.22 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815592r:75137933_75341266|GENSCAN_predicted_peptide_1|2113_aa MDECRKKERKPLFGPERFKFVNAYARLGGSSGSGVAIFVGGVQLWRLLVSNSQDAAESAG RYWVDVRSGEAGEVTRDSWALRQIGQRTISTASRRHFKNKVPEKQKLFQEDDEIPLYLKG GVADALLYRATMILTVGDSNLFSAALNHPTHFGVGNLWYLHKFLSMAIHLRPREKNCEAL DVTRIALSDKKSEGSEPPGAQDSEGEERGTATTAIATSRRRNARSMHTFPKVDLLHRRRS IHHPVAAVHLLRRFLPTPRRPPGAPGVQRLSPGRVGATPSTSFSDAGKPLSPPLPLPVAA ASETTRETASSLHLARSGEESWARTVWTCNSVAPGESPLSDSLPVHWWRPYSGSVRSPRR FPTQILDLWGSESVGRRTRSASGTVDPPSDLNFKIIDENTVHMSWAKPVDPIVGYRITVD PTTDGPTKEFTLSASTTETLLSELVPETEYVVTITSYDEVEESVPVIGQLTKCSVSAWTD LVFLVDGSWSVGRNNFKYILDFIAALVSAFDIGEEKTRVGVVQYSSDTRTEFNLNQYYQR DELLAAIKKIPYKGGNTMTGDAIDYLVKNTFTESAGARVGFPKVAIIITDGKSQDEVEIP ARELRNVGVEVFSLVVKDGENEELLQVSWHISHFNMSLSFCFEGIKAADAKELKQIASTP SLNHVFNVANFDAIVDIQNEIISQVCSGVDEQLGELVSGEEVVEPPSNLIAMEVSSKYVK LNWNPSPSPVTGYKVILTPMTAGSRQHALSVGPQTTTLSVRDLSADTEYQISVSAMKGMT SSEPISIMEKTQPMKVQVECSRGVDIKADIVFLVDGSYSIGIANFVKVRAFLEVLVKSFE ISPNRVQISLVQYSRDPHTEFTLKKFTKVEDIIEAINTFPYRGGSTNTGKAMTYVREKIF VPSKGSRSNVPKVMILITDGKSSDAFRDPAIKLRNSDVEIFAVGVKDAVRSELEAIASPP AETHVFTVEDFDAFQRISFELTQSICLRIEQELAAIKKKAYVPPKDLSFSEVTSYGFKTN WSPAGENVFSYHITYKEAAGDDEVTVVEPASSTSVVLSSLKPETLYLVNVTAEYEDGFSI PLAGEETTEEVKGAPRNLKVTDETTDSFKITWTQAPGRVLRYRIIYRPVAGGESREVTTP PNQRRRTLENLIPDTKYEVSVIPEYFSGPGTPLTGNAATEEVRGNPRDLRVSDPTTSTMK LSWSGAPGKVKQYLVTYTPVAGGETQEVTVRGDTTNTVLQGLKEGTQYALSVTALYASGA GDALFGEGTTLEERGSPQDLVTKDITDTSIGAYWTSAPGMVRGYRVSWKSLYDDVDTGEK NLPEDAIHTMIENLQPETKYRISVFATYSSGEGEPLTGDATTELSQDSKTLKVDEETENT MRVTWKPAPGKVVNYRVVYRPHGRGKQMVAKVPPTVTSTVLKRLQPQTTYDITVLPIYKM GEGKLRQGSGTTASRFKSPRNLKTSDPTMSSFRVTWEPAPGEVKGYKVTFHPTGDDRRLG ELVVGPYDNTVVLEELRAGTTYKVNVFGMFDGGESSPLVGQEMTTLSDTTVMPILSSGME CLTRAEADIVLLVDGSWSIGRANFRTVRSFISRIVEVFDIGPKRVQIALAQYSGDPRTEW QLNAHRDKKSLLQAVANLPYKGGNTLTGMALNFIRQQNFRTQAGMRPRARKIGVLITDGK SQDDVEAPSKKLKDEGVELFAIGIKNADEVELKMIATDPDDTHAYNVADFESLSRIVDDL TINLCNSVKGPGDLEAPSNLVISERTHRSFRVSWTPPSDSVDRYKVEYYPVSGGKRQEFY VSRMETSTVLKDLKPETEYVVNVYSVVEDEYSEPLKGTEKTLPVPVVSLNIYDVGPTTMH VQWQPVGGATGYILSYKPVKDTEPTRPKEVRLGPTVNDMQLTDLVPNTEYAVTVQAVLHD LTSEPVTVREVTLPLPRPQDLKLRDVTHSTMNVFWEPVPGKVRKYIVRYKTPEEDVKEVE VDRSETSTSLKDLFSQTLYTVSVSAVHDEGESPPVTAQETTRPVPAPTNLKITEVTSEGF RGTWDHGASDVSLYRITWAPFGSSDKMETILNGDENTLVFENLNPNTIYEVSITAIYPDE SESDDLIGSERTX >gi568815592r:75137933_75341266|GENSCAN_predicted_CDS_1|6339_bp atggatgaatgtagaaaaaaggagcgcaagcctctcttcggcccggaaagatttaagttc gtgaatgcatacgcaagactcggaggtagttccggttccggcgtggccattttcgttggt ggtgttcagttgtggcggttgctggtcagtaacagccaagatgctgcggaatctgctggc cgttactgggtagatgtaaggagtggagaggctggggaagtgaccagagactcgtgggct cttcgtcagattgggcagaggacgataagcactgcttcccgcaggcattttaaaaataaa gttccggagaagcaaaaactgttccaggaggatgatgaaattccactgtatctaaagggt ggggtagctgatgccctcctgtatagagccaccatgattcttacagttggtgattctaat ctcttttctgccgccttaaaccatcctacacactttggagtaggtaatctgtggtacctt cataaattcctttctatggccatccatctcagacccagagaaaaaaactgtgaagcttta gatgtgactaggatagcgctgtcggacaagaaatctgagggctcggaaccgccgggagcc caggactcagagggtgaagagcggggcactgctactacggcgatcgccacctcacgccga aggaatgctcgaagtatgcacacgttcccaaaagtagacctccttcaccgccggaggagc atacatcaccccgtggcagccgtccaccttctcaggcgtttcctgcccacgcctcggcgg ccgccaggtgctcctggagtgcagcgcctatcgccggggcgtgtgggggccacaccgagc accagcttctccgacgccgggaagccgctgtcgccgccgctacctctccctgttgccgcc gcctcagagacaactcgggaaacggcgtctagcttgcaccttgcccggagcggtgaagaa tcctgggcgaggacagtttggacttgtaatagtgtagctccgggagaaagtcccctctcc gactccctcccggtgcattggtggaggccctattcggggtctgtgagatctccgcggcgg tttcccactcagatcctagacttgtggggatcagaaagcgtgggtcgccggactcgttca gcgagcggaacagttgacccaccttcagacttgaattttaaaattatagatgaaaatact gttcatatgtcatgggcaaaaccagttgatccaattgtgggttacagaataacggtggac cctacaacggatgggcctactaaagaatttaccctttcagctagtaccactgaaacttta ttgtcagaacttgtacctgaaacagagtatgtggtgacaataacttcatatgatgaagta gaagaaagtgtaccagttataggacaactaacaaaatgctctgtcagtgcctggactgat ttggttttcctcgtggatggctcttggagtgtgggaagaaataatttcaagtacatttta gacttcattgctgctcttgtgtctgcttttgacattggggaagagaagacaagagttgga gttgttcaatacagctctgataccaggactgaatttaacttaaatcagtactaccaaagg gatgaacttcttgctgcaataaaaaaaattccatataaaggtggcaacacaatgacaggg gatgccattgattatttagttaaaaatactttcacggaatctgctggggcaagagttggc tttcctaaagtggcaattattattacggatggaaaatcccaggatgaagtggaaattcca gcaagagagcttcgtaatgttggagttgaagttttctccttggttgtgaaagatggagaa aacgaagaacttctccaagtcagttggcacatttcccatttcaatatgtccttatccttt tgttttgaaggcattaaagctgcagatgcaaaagaactcaaacaaattgcctccacacct tcactgaaccatgttttcaatgtggccaactttgatgcaattgtggatattcagaatgag atcatctcccaggtgtgctcaggtgttgatgaacaacttggtgaattggttagtggagaa gaagttgttgagcctccttcaaatttgattgccatggaagtctcttcaaaatatgttaag ctaaattggaatccatctcctagtccagtgactggctacaaagtcatcctcacaccaatg actgcaggaagccgacagcacgctctgagtgtggggcctcagacaaccacgctcagtgtt cgcgacctctcagcagacacagaataccagatcagtgtttccgccatgaagggaatgaca tccagtgaacccatttcaataatggagaagactcagccaatgaaagttcaagtggaatgc tcacgtggtgtggatataaaagccgatattgtgtttttggttgatggctcctatagcatt gggattgcaaactttgttaaagttagagcctttttggaagttcttgtaaaaagttttgaa atttcaccaaatagggtccagattagtcttgtgcaatacagccgggatcctcatactgag ttcactttgaaaaaattcaccaaagttgaagatataattgaagcaataaacaccttccct tacagaggaggatctacaaatactggcaaagcaatgacttatgtcagagagaaaatattt gtgcctagcaagggatcaagaagcaatgtgccaaaggtcatgattcttatcacggatggg aaatcatcagatgctttcagagatcctgcgataaaactgaggaattcagatgttgaaatc tttgcagttggtgtgaaggatgccgttcgctcagaattggaagctattgcctctcctcct gcagagacccatgtgttcacagtggaagattttgatgcttttcagaggatatcttttgaa ctcacacagtctatctgccttagaattgagcaagaattggcagctataaagaagaaagct tacgtccctccaaaggatcttagtttttcagaagtgacttcttatggtttcaaaaccaac tggtctccagctggagaaaatgttttttcatatcacatcacctacaaggaagcggctggg gatgatgaggtcactgtggtggagccagcatcgagcaccagtgttgttctcagcagcctg aagccagagaccttgtatttggtcaatgtgactgcggagtatgaggatggcttcagcatt cccttagctggagaggagaccaccgaagaagtaaaaggagcacctcgaaacctaaaggtg acagatgagactacagatagtttcaaaattacttggactcaagctccagggagagtttta agatatcgaattatatatagaccagttgctggtggagagagcagagaagttaccacccca cccaatcagaggaggagaacactggagaacttgattccagacacgaaatatgaagtatct gtaattcctgaatatttctcaggacctggtactccattaactggaaatgcagccactgaa gaagttagagggaatccaagagacttaagagtttctgaccctacgacgtctactatgaaa ttatcttggagtggggcaccaggaaaagtgaaacagtatctcgtcacatataccccagtg gcagggggtgaaactcaagaggtcactgtgaggggagatacaaccaatacggtgctgcag ggattgaaggaagggacacaatacgccttatctgtgacagccttgtatgcgtctggggct ggagacgccctctttggtgaaggaacaacacttgaagaacgtggttctcctcaagattta gttactaaagacatcactgacacatcaattggggcttattggacatctgctccaggaatg gttcgcggttacagggtctcatggaaatcactttatgatgatgttgacactggagagaaa aatctgcctgaagatgcaattcatacgatgatagaaaatctgcagccagagaccaaatac agaatttcagtatttgccacttacagcagtggagaaggagaacctttgactggagatgcc acaactgaattatctcaagattccaaaaccctgaaagtagatgaagaaacagaaaacaca atgagagttacatggaaaccagcaccagggaaagtcgtcaactaccgtgttgtctatcgc cctcatgggagagggaagcaaatggttgctaaggtgccccccacagtcacttcgacagtg ttaaagcgacttcagccacagaccacatatgacatcacagttcttcctatttacaagatg ggagaaggaaagcttaggcaaggatcaggaacaacagcttctcggtttaagtctcctaga aacctcaaaacatctgacccaaccatgtcaagcttccgagtgacttgggagcctgcccct ggggaagtgaagggttataaagtcacattccaccctacgggggatgacagaagactgggg gagttagtggttggaccctatgacaacacagttgttttggaggaacttagggctggtacc acctataaagtaaatgtttttggaatgtttgatggaggagaaagctcaccacttgttgga caagaaatgacaaccctttccgacacaactgttatgccaattttatcttctgggatggag tgtctcaccagagctgaggcagacattgtgttgctggtggatggatcatggagcatcggc cgggcaaattttagaaccgtgaggagtttcatttctcgtattgtggaagtctttgacatt ggccccaaaagagtacaaattgctcttgctcagtatagtggggatcccagaacagagtgg cagttaaatgcacacagagacaagaagagcttgttgcaagctgtggcaaacttgccgtac aaaggaggcaatactctcacaggcatggctttgaatttcattcgccaacagaacttcagg acccaagctggcatgagacctcgagctcgaaaaattggtgtgctcattactgatggaaaa tcacaagacgatgttgaagcaccttcaaagaaactcaaggatgagggagtggagctgttt gctattggtattaaaaatgctgatgaagtcgaattaaagatgattgcaactgatcctgat gatacccatgcatacaatgtggcagattttgagtcactctccaggatagtggatgatctc accattaatttgtgtaacagtgtcaaaggtccaggtgatttggaagcaccttctaactta gttatttctgagcgaacccatcgttcttttagagtgagctggacaccaccttctgacagt gtggatcgatataaggtggaatactatccagtttctggagggaaacgtcaagaattttat gtgagtcgaatggaaactagcacagtgctgaaagatctgaaacctgaaactgaatatgtt gtcaatgtgtattctgtggtagaagatgaatatagtgagcctctgaaggggacagaaaaa accttgccagtgcctgtagtcagcctgaatatttatgatgttggccctaccaccatgcat gtgcagtggcagcctgtgggaggagctactggctacatcttgtcatacaaacctgttaag gacacagagccaacaagacccaaagaggtgcgtttggggccaacagtgaatgacatgcag ctgactgaccttgttcccaacacggagtatgcagtcacagtccaggctgtcctgcacgac ctcactagtgaacctgtcactgttcgggaagtcaccttgcctttacccagacctcaggat ctgaaactcagagatgtgactcacagcactatgaatgtcttttgggaacctgtgcctgga aaagtgcgtaaatatattgttcgatacaaaacaccagaagaggatgtcaaagaggtagag gtggacagatcagagaccagcacttccctcaaagacctcttctcacagaccttgtacaca gtcagcgtttctgcagtacatgacgagggggagtctcctccagtgactgctcaagaaact acccgacccgtgccagccccaacaaacttaaagattactgaagtaacatcagagggtttc agagggacttgggatcatggagcttcagatgtgtctctctacagaataacttgggcacct tttggaagctcagataagatggagaccatcttaaatggagatgaaaacactttggtgttc gaaaacctgaaccccaacaccatctatgaagtttccattactgccatctatcctgatgag tcagaaagtgatgacctgattggcagtgagcgcacacnn >gi568815592r:75137933_75341266|GENSCAN_predicted_peptide_2|49_aa MKKLKPGLTDAVLKFSAKYEKVLKGLFNFSLATSSVPQLEKELQDGSPP >gi568815592r:75137933_75341266|GENSCAN_predicted_CDS_2|150_bp atgaagaagttaaaacctggactcactgacgctgtgttaaaatttagtgctaaatatgag aaagtgctgaaagggctcttcaacttttctttagcgacatcctctgtgccccagttagaa aaagagttgcaggatggtagtcctccttaa >gi568815592r:75137933_75341266|GENSCAN_predicted_peptide_3|462_aa MKTSLRISSVKIFKFLIPQIQNIEERRIAPFGAIPQSGYSVPNLPHQIILVADAFLAEIS VPTEGFRGRLSGLNKKRPLVITDSKGSRLSLPVSSLWRKSVPPLPLYSGGGCGGGAGGCG GGGGSGARAVPVRPAGPLGGPPANRGAAPQGSMAMNYNAKDEVDGGPPCAPGGTAKTRRP DNTAFKQQRLPAWQPILTAGTVLPIFFIIGLIFIPIGIGIFVTSNNIREIEIDYTGTEPS SPCNKCLSPDVTPCFCTINFTLEKSFEGNVFMYYGLSNFYQNHRRYVKSRDDSQLNGDSS ALLNPSKECEPYRRNEDKPIAPCGAIANSMFNDTLELFLIGNDSYPIPIALKKKGIAWWT DKNVKFRNPPGGDNLEERFKGTTKPVNWLKPVYMLDSDPDNNGFINEDFIVWMRTAALPT FRKLYRLIERKSDLHPTLPAGRYSLNVTYSILFWLGIQIHRA >gi568815592r:75137933_75341266|GENSCAN_predicted_CDS_3|1389_bp atgaaaacaagtctaagaatatcaagtgtaaaaatatttaaatttctcattccccagatt cagaatattgaggaaaggaggattgctccttttggagcaatacctcagtcagggtattct gtgccaaatcttcctcaccaaattattctggttgctgatgctttccttgcagaaatttct gtgcccacggaaggtttcagaggcagattatctggattaaataagaaaagacctttagta atcactgattctaagggaagccgactttcgcttcccgtcagcagcctttggcggaagagt gtcccgcctcttccgctctacagcggaggtggctgtggcggtggcgctggtggctgcggc ggcggcggcggcagcggcgctcgagcggttcctgtcaggccggcgggccccctgggtggt ccacctgcaaatcgcggagcggcgccccagggatcgatggcgatgaactataacgcgaag gatgaagtggacggtgggcccccgtgtgctccggggggcaccgcgaagactcggagaccg gataacacggccttcaaacagcaacggctgccagcttggcagcccatccttacggctggc acggtgctacctattttcttcatcatcggtctcatcttcattcccatcggcattggcatt tttgtcacctccaacaacatccgcgagatcgagattgattataccggaacagagccttcc agtccctgtaataaatgtttatctccggatgtgacaccttgcttttgtaccattaacttc acactggaaaagtcatttgagggcaacgtgtttatgtattatggactgtctaatttctat caaaaccatcgtcgttacgtgaaatctcgagatgatagtcaactaaatggagattctagt gctttgcttaatcccagtaaggaatgtgaaccttatcgaagaaatgaagacaaaccaatt gctccttgtggagctattgccaacagcatgtttaatgatacattagaattgtttctcatt ggcaatgattcttatcctatacctatcgctttgaaaaagaaaggtattgcttggtggaca gataaaaatgtgaaattcagaaatccccctggaggagacaacctggaagaacgatttaaa ggtacaacaaagcctgtgaactggcttaaaccagtttacatgctggattctgacccagat aataatggattcataaatgaggattttattgtttggatgcgtactgcagcattacctact tttcgcaagttgtatcgtcttatagaaaggaaaagtgatttacatccaacattaccagct ggccgatactctttgaatgtcacatacagtatccttttttggctgggtatacagattcat agagcttga >gi568815592r:75137933_75341266|GENSCAN_predicted_peptide_4|1119_aa DHSGFWEENRLWVDKSGSWESDWVALAIIQIRDDGGLGQGDSNGGSEKLKKLLEQEKAYQ ARKEKENAKRLNKLRDELVKLKSFALMLVDERQMHIEQLGLQSQKVQDLTQKLREEEEKL KAITSKSKEDRQKLLKLEVDFEHKASRFSQEHEEMNAKLANQESHNRQLRLKLVGLTQRI EELEETNKNLQKAEEELQELRDKIAKGECGNSSLMAEVENLRKRVLEMEGKDEEITKTES QCRELRKKLQEEEHHSKELRLEVEKLQKRMSELEKLEEAFSKSKSECTQLHLNLEKEKNL TKDLLNELEVVKSRVKELECSESRLEKAELSLKDDLTKLKSFTVMLVDERKNMMEKIKQE ERKVDGLNKNFKVEQGKVMDVTEKLIEESKKLLKLKSEMEEKVYNLTRERDELIGKLKSE EEKSSELSCSVDLLKKRLDGIEEVEREITRGRSRKGSELTCPEDNKIKELTLEIERLKKR LQQLEVVEGDLMKTEDEYDQLEQKFRTEQDKANFLSQQLEEIKHQIAKNKAIEKGEVVSQ EAELRHRFRLEEAKSRDLKAEVQALKEKIHELMNKEDQLSQLQVDYSVLQQRFMEEENKN KNMGQEVLNLTKELELSKRYSRALRPSVNGRRMVDVPVTSTGVQTDAVSGEAAEEETPAV FIRKSFQEENHIMSNLRQVGLKKPVERSSVLDRYPPAANELTMRKSWIPWMRKRENGPSI TQEKGPRTNSSPGHPGEVVLSPKQGQPLHIRVTPDHENSTATLEITSPTSEEFFSSTTVI PTLGNQKPRITIIPSPNVMPQKQKSGDTTLGPERAMSPVTITTFSREKTPESGRGAFADR PTSPIQIMTVSTSAAPAEIAVSPESQEMPMGRTILKVTPEKQTVPTPVRKYNSNANIITT EDNKIHIHLGSQFKRSPGTSGEGVSPVITVRPVNVTAEKEVSTGTVLRSPRNHLSSRPGA SKVTSTITITPVTTSSARGTQSVVSRRGSKAQACRGRETGMYKGANGEGFTEVEVSQLKR DFQEGKEKDFVDRTACAKARQCEGAWRAWGMSGQDGSSQRPTPTRIPMSKGMKAGKPVVA APGAGNLTKFEPRAETQSMKIELKKSAASSTTSLGGGKG >gi568815592r:75137933_75341266|GENSCAN_predicted_CDS_4|3360_bp gatcattccggcttctgggaagagaacagactgtgggtggacaagagtggaagttgggag tcagactgggtggctcttgcaataatccagataagagatgatggtggcttgggccagggg gatagcaatggaggaagtgagaagttaaaaaagctccttgaacaagaaaaggcttatcaa gcccgcaaagaaaaggaaaatgctaaacgactcaataaactaagagatgagcttgttaaa ctcaaatcctttgcactcatgctggtggatgaaagacaaatgcacattgaacaacttggc ctgcaaagccagaaagtacaggatcttactcagaagctgagggaagaagaagagaagctc aaagccattacttccaaatccaaagaagacagacagaaattgctcaagttagaagtggac tttgaacacaaggcttcgaggttttctcaagagcatgaagagatgaacgctaaactggct aatcaagagtctcacaataggcaacttagactcaagctggttggcttaacccaaagaatc gaggagctagaagagaccaacaaaaatctgcagaaggcagaggaagaacttcaagaatta agagataaaattgccaaaggagaatgtggaaactctagcctcatggcagaagtggaaaat cttcgaaagcgtgtgcttgaaatggaaggtaaagatgaggagatcactaaaactgaatcc cagtgtagggaattgaggaagaagctgcaagaggaagaacaccatagtaaggagctcaga cttgaagttgagaagctacagaagagaatgtctgaactagagaaattggaagaagcattt agcaagagtaaatctgagtgcacccagctacatttaaatctggagaaagaaaagaactta accaaagacctgctaaatgaattggaggtggtcaagagtcgagttaaagaattggaatgt tctgaaagtagattggaaaaggctgaattaagcctaaaagatgatcttaccaagttgaag tcatttaccgtgatgctggttgatgaaaggaaaaatatgatggaaaaaataaaacaagaa gagagaaaagtggatggactcaataaaaattttaaggtggaacaaggaaaagttatggat gtaactgaaaaactaattgaagaaagtaagaaacttttaaaactaaaatctgaaatggag gaaaaagtatacaacttgacaagagaaagagatgagttgataggcaaattgaaaagtgaa gaagaaaaatcctctgaattaagctgcagtgttgacttactaaagaagagacttgatggt atagaggaagtggaaagagaaataacaagaggaaggtcacgaaaagggtctgagctcacc tgcccggaagataataagattaaggaactaacacttgaaattgagagactgaagaaacgt ctccaacaattggaagtggtcgaaggggatttgatgaagacagaagatgagtatgatcag ctggaacagaaatttagaactgagcaggataaggctaacttcctctctcaacaactagag gagatcaagcaccaaattgccaagaataaagcaatagagaagggtgaggttgtgagccag gaagctgaactgagacacagatttcggttggaagaagctaaaagtcgagacttaaaagcc gaagtacaagctcttaaagagaagattcacgaattaatgaacaaagaagatcagctttct cagctccaggtagattattctgtacttcaacaaagatttatggaagaagaaaataagaac aaaaacatggggcaggaggttctcaatctgaccaaagagttggagctttccaagcgctac agcagagctcttaggcccagtgtgaatggaagaagaatggtggatgttcctgtgacgtca actggagtccaaactgatgcagtcagcggtgaagcagcagaggaagaaacgccagctgta ttcatacggaaatccttccaggaagaaaatcatattatgagtaatcttcggcaggtggga ttgaagaaacccgtggaaagatcttctgttctagacaggtatcctccagcagcaaatgag ctcactatgagaaagtcttggattccatggatgagaaagagggaaaacggcccctccatc actcaggagaaagggccccgaacaaattccagtccagggcacccaggagaggtagtcctt tcaccaaagcagggccagcccctgcatattcgagtgacaccagaccacgagaacagcact gcgactttggagataacaagcccgacatctgaagaatttttttctagtaccactgtcatt cctaccttagggaatcagaaaccaagaataaccattattccatcaccaaacgttatgcct caaaaacaaaaaagtggagatactactcttggcccagaacgagccatgtccccagtcaca attactacattttccagagagaagactccagaaagtggaagaggcgcatttgcagacagg cccacatcccctattcagataatgacggtgtctacatcagcagcaccagctgagattgca gtttctcccgaatcccaggaaatgcccatgggacggacaatcctcaaagtcaccccagaa aaacagactgttccaactccagtacggaaatacaactccaatgccaatatcataaccaca gaggacaataaaattcacattcacttagggtctcagtttaaacggtcccctgggacttca ggtgaaggagtcagtccagttattactgtccgaccagtaaacgtgacagccgaaaaggag gtttccaccggcactgtccttcgctctcccaggaatcacctctcctcacggcctggtgca agcaaagtgacgagcactatcaccataacaccggtcacaacgtcatctgctcgaggaacc cagtcagtggtgagtagaagaggctccaaagcgcaggcctgcagagggagggagacaggt atgtacaaaggagccaatggagaaggcttcacagaagtggaggtttcacagttaaagagg gattttcaagaaggaaaagagaaggattttgtagacagaacagcatgtgcgaaggcacga cagtgtgaaggagcctggcgtgcttggggaatgtcaggacaagacgggtcatcccagcgg cctacacccacccgcattcctatgtcaaaaggtatgaaagcaggaaagccagtagtggca gccccaggagcaggaaatctgaccaaattcgagcctcgagctgagactcagtctatgaaa atagagctgaagaaatctgcagccagcagcaccacctctctcggaggggggaagggctga