GENSCAN 1.0 Date run: 5-Nov-116 Time: 09:02:27 Sequence gi568815590f:66964399_67295590 : 331192 bp : 38.22% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.17 PlyA - 285 280 6 1.05 1.16 Term - 20054 19749 306 2 0 -10 40 338 0.971 13.33 1.15 Intr - 20864 20343 522 2 0 84 70 388 0.977 28.82 1.14 Intr - 21295 21144 152 2 2 81 52 173 0.800 11.96 1.13 Intr - 22281 22053 229 0 1 41 4 277 0.869 11.12 1.12 Intr - 46433 46317 117 2 0 102 67 55 0.279 4.54 1.11 Intr - 48698 48560 139 1 1 84 92 56 0.807 5.15 1.10 Intr - 64260 64093 168 2 0 58 89 153 0.771 10.54 1.09 Intr - 81562 81414 149 1 2 98 110 170 0.954 18.31 1.08 Intr - 86943 86832 112 2 1 83 93 19 0.943 1.36 1.07 Intr - 92206 92121 86 1 2 83 98 104 0.998 8.60 1.06 Intr - 93813 93685 129 0 0 70 83 141 0.999 11.77 1.05 Intr - 95047 94813 235 0 1 61 98 154 0.758 10.47 1.04 Intr - 97626 97456 171 2 0 19 36 333 0.156 19.34 1.03 Intr - 97733 97708 26 2 2 89 82 17 0.115 -2.89 1.02 Intr - 100147 99817 331 0 1 84 -25 356 0.112 18.61 1.01 Init - 104724 104702 23 0 2 97 83 10 0.703 0.33 1.00 Prom - 109331 109292 40 -4.95 2.00 Prom + 109597 109636 40 -11.64 2.01 Init + 109855 109953 99 0 0 80 94 155 0.997 15.61 2.02 Intr + 112084 112183 100 0 1 85 77 61 0.956 3.46 2.03 Intr + 121609 121712 104 2 2 70 95 115 0.997 9.37 2.04 Intr + 129145 129243 99 0 0 54 92 67 0.873 3.09 2.05 Intr + 130895 131254 360 1 0 50 100 307 0.390 22.59 2.06 Intr + 151516 151724 209 0 2 74 49 150 0.108 6.65 2.07 Intr + 153850 153971 122 1 2 71 87 26 0.843 0.02 2.08 Intr + 154345 154423 79 2 1 90 75 67 0.843 3.29 2.09 Intr + 167553 167682 130 0 1 44 72 151 0.991 8.88 2.10 Intr + 173058 173205 148 2 1 35 59 199 0.978 10.59 2.11 Intr + 185385 185537 153 1 0 91 7 97 0.058 1.02 2.12 Intr + 189626 189738 113 0 2 53 67 58 0.077 -0.62 2.13 Intr + 194049 194198 150 2 0 19 73 238 0.997 14.84 2.14 Intr + 194593 194739 147 0 0 47 115 170 0.999 15.11 2.15 Intr + 197778 197914 137 2 2 49 75 99 0.945 3.15 2.16 Intr + 198240 198364 125 0 2 67 70 83 0.703 3.71 2.17 Intr + 199334 199400 67 0 1 65 75 42 0.371 -2.36 2.18 Intr + 208018 208157 140 1 2 59 105 127 0.845 10.69 2.19 Intr + 210898 211038 141 2 0 37 116 102 0.937 7.30 2.20 Intr + 213282 213328 47 1 2 66 103 86 0.998 5.11 2.21 Intr + 217447 217506 60 0 0 92 103 17 0.736 1.61 2.22 Intr + 221274 221390 117 2 0 -42 -32 300 0.006 4.74 2.23 Intr + 229066 229204 139 0 1 92 99 113 0.998 11.92 2.24 Term + 230984 231195 212 0 2 99 38 234 0.997 15.97 2.25 PlyA + 231354 231359 6 1.05 3.33 PlyA - 231852 231847 6 1.05 3.32 Term - 234700 234536 165 1 0 57 45 118 0.363 1.33 3.31 Intr - 236115 235998 118 2 1 69 110 41 0.676 3.95 3.30 Intr - 237207 237069 139 1 1 93 63 146 0.985 11.20 3.29 Intr - 238853 238685 169 2 1 41 115 178 0.999 14.40 3.28 Intr - 240421 240282 140 2 2 36 110 139 0.961 10.16 3.27 Intr - 247217 247085 133 2 1 72 89 116 0.994 9.40 3.26 Intr - 252264 252192 73 2 1 67 111 68 0.923 5.49 3.25 Intr - 253522 253384 139 2 1 113 48 82 0.997 5.30 3.24 Intr - 253740 253605 136 0 1 83 100 63 0.980 6.22 3.23 Intr - 255162 255033 130 2 1 82 94 22 0.794 1.98 3.22 Intr - 260635 260505 131 1 2 80 92 49 0.795 3.07 3.21 Intr - 261785 261625 161 0 2 72 80 180 0.998 14.39 3.20 Intr - 263020 262739 282 2 0 26 70 211 0.587 9.57 3.19 Intr - 263866 263826 41 0 2 101 111 52 0.993 5.75 3.18 Intr - 268547 268457 91 0 1 53 82 120 0.994 6.03 3.17 Intr - 274095 273945 151 0 1 50 66 152 0.985 8.01 3.16 Intr - 275892 275764 129 0 0 64 92 45 0.845 2.47 3.15 Intr - 278533 278365 169 0 1 104 92 100 0.776 11.03 3.14 Intr - 287052 286887 166 1 1 80 34 86 0.088 0.50 3.13 Intr - 289224 289053 172 0 1 44 89 57 0.359 -0.01 3.12 Intr - 293418 293334 85 2 1 56 91 64 0.724 2.40 3.11 Intr - 293892 293687 206 0 2 72 61 197 0.799 12.48 3.10 Intr - 295528 295417 112 0 1 53 47 89 0.968 0.76 3.09 Intr - 301809 301608 202 1 1 116 78 169 0.978 16.12 3.08 Intr - 302586 302478 109 0 1 71 87 44 0.951 1.54 3.07 Intr - 302832 302693 140 1 2 55 110 96 0.978 7.76 3.06 Intr - 303044 302945 100 2 1 72 68 55 0.977 0.66 3.05 Intr - 307538 307304 235 1 1 100 94 22 0.927 0.77 3.04 Intr - 311711 311578 134 2 2 54 106 78 0.966 4.72 3.03 Intr - 313059 312884 176 1 2 67 75 124 0.605 7.74 3.02 Intr - 323667 323557 111 1 0 72 52 103 0.927 4.53 3.01 Intr - 327725 327422 304 2 1 50 49 294 0.277 16.94 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 151564 151724 161 0 2 54 49 138 0.834 5.84 S.002 Term + 185385 185545 161 1 2 91 37 110 0.874 3.32 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815590f:66964399_67295590|GENSCAN_predicted_peptide_1|964_aa MGNPVVSWPHLATHAPHPRLADSYSGERARVRGDTQCSRGSSRTEEVTAATWSGNSMTDL RAGAPPLRPSPPLALRQPPGTAPPPLQAAARQDIAPCCPGGRIAARCSRFASTLAGDLVS WLPQESRDDNFSASSAMAASGSGMAQKTWELANNMQEAQSIDEIYKYDKKQQQEILAAKP WTKDHHYFKYCKISALALLKMVMHARSGGNLEVMGLMLGKVDGETMIIMDSFALPVEGTE TRVNAQAAAYEYMAAYIENAKQVGRLENAIGWYHSHPGYGCWLSGIDVSTQMLNQQFQEP FVAVVGYKPPDEGPSEYQTIPLNKIEDFGVHCKQYYALEVSYFKSSLDRKLLELLWNKYW VNTLSSSSLLTNADYTTGQVFDLSEKLEQSEAQLGRGSFMLGLETHDRKSEDKLAKATRD RGRTHRGGSSLRCREISRERRLDSASGRPATAAGLRRDPAPMKPTKLELATGLSRERYLG GNYIAVIEGLEGLGELRELHVENQRLPLGEKLLFDPRTLHSLAKSLCILNISNNNIDDIT DLELLENLNQLIAVDNQLLHVKEVKDINLAETGLVRETESKQLVHGNVSVLRRMRSASRK VANMAARIGGPAHSGHVLGDSGVAAAVAIGTTGLGQSEEQLPIGHTIQPSQGATFMNDAI EKARKTAELQARIQAGLALKPGLISNANMRQKRTFKFHDKGKFEKTAQRLRTKAQLEKLQ AEISQAAQKTDIHTLTRLALIAPRKELKEGDIPEIEWWDSYIIPNGFNLREENPKREDYF GITNLVEHPAQLNAPVDNDTPVTLGVYLTKKEQKKLQRQTRREAQKELLEKVRLGLMPPP EPKVRISNLMRVLGTEAVQDPTKGVNVVVVEGGPKTQKKLKHLMLHRIKWDEQTSNTKGD DHEEPDEEAVKKTNKCVLFWEGTAKDRSFGEMKFKQCPIENIAHEHFRKHGAEHYWDLAL SESV >gi568815590f:66964399_67295590|GENSCAN_predicted_CDS_1|2895_bp atggggaaccctgtggtatcgtggccacacctcgccactcacgctccccatccgcggctg gctgactcttactcaggggagcgggctcgcgtccggggagacacacagtgctctagagga tcgtcgcggaccgaagaggttacagcggccacctggagcgggaacagcatgacagacctc cgggccggggctccgcccctcaggcccagccctccgctcgcccttcgccaaccgccgggt acggccccgcccccactgcaggcggccgcgcggcaagacatcgccccctgctgtcctgga ggccgcatagctgcccgctgctctcggttcgccagtacgctggccggggacttggtgtca tggctgccccaagagtctagagacgacaacttctccgcttcctcggcgatggcggcgtcc gggagcggtatggcccagaaaacctgggaactggccaacaacatgcaggaagctcagagt atcgatgaaatctacaaatacgacaagaaacagcagcaagaaatcctggcggcgaagccc tggactaaggatcaccattactttaagtactgcaaaatctcagcattggctctgctgaag atggtgatgcatgccagatcgggaggcaacttggaagtgatgggtctgatgctaggaaag gtggatggtgaaaccatgatcattatggacagttttgctttgcctgtggagggcactgaa acccgagtaaatgctcaggctgctgcatatgaatacatggctgcatacatagaaaatgca aaacaggttggccgccttgaaaatgcaatcgggtggtatcatagccaccctggctatggc tgctggctttctgggattgatgttagtactcagatgctcaatcagcagttccaggaacca tttgtagcagtggtgggctacaaacctcctgatgaaggaccttctgagtaccagactatt ccacttaataaaatagaagattttggtgtacactgcaaacaatattatgccttagaagtc tcatatttcaaatcctctttggatcgcaaattgcttgagctgttgtggaataaatactgg gtgaatacgttgagttcttctagcttgcttactaatgcagactataccactggtcaggtc tttgatttgtctgaaaagttagagcagtcagaagcccagctgggacgagggagtttcatg ttgggtttagaaacgcatgaccgaaaatcagaagacaaacttgccaaagctacaagagac aggggaaggacccaccggggagggagcagcctgcgatgtcgcgagatttctcgtgagcgg cgcttggacagcgcgtctggtcgcccagcaaccgccgctggtctgcgtagggacccggcg ccgatgaaaccgaccaaactggagttagctaccggactgtcccgcgagcggtatctggga ggcaattacattgctgtcatagaaggtttagaaggattaggagaactaagagagcttcat gttgagaatcagaggcttccccttggggaaaagcttctgtttgatccaagaactcttcat tctctggcaaaatccctctgtatattgaatatcagcaataataatattgatgacattaca gacttagaactactagagaatcttaatcagctcatagccgttgacaaccaacttctgcat gtgaaggaagttaaagacattaacttggcagaaacaggcttagtccgggaaacagaaagc aagcaacttgttcacggaaacgtttcggttctgcgacgcatgcgctctgcctccaggaaa gtggcaaacatggctgcacgaattggcggcccggcccactctggtcacgtgttgggagac agcggcgtggcagctgccgtggcgatagggacaacaggcctagggcagtcagaagagcaa cttccaattggccacactattcagccctcccagggtgccactttcatgaatgatgccatt gagaaggcaaggaaaacagctgaactacaagctcgaatccaagccgggctggcactgaag ccaggactcatcagcaatgccaacatgcgccagaaacgcacttttaaattccatgacaag ggcaaatttgagaagactgctcagcgattaaggacaaaggctcaactggagaagcttcag gcagagatttcacaagcagctcaaaaaacagacatccatactttgactaggcttgccctt attgctcctaggaaggagctaaaggaaggagatatccctgaaattgagtggtgggactct tacataatccccaatggctttaaccttagagaggaaaatcccaagagagaagattatttt ggaatcacaaatcttgttgaacatccagcccagctcaatgctccagttgacaatgacaca ccagttactttgggagtgtatcttaccaagaaggaacagaaaaaacttcagagacagaca aggagggaagcacagaaggaactactagaaaaagtcaggctgggcctgatgcctcctcca gaacccaaagtgagaatttctaatttgatgcgagtattaggaacagaagctgttcaagac cccacgaagggtgtcaacgtggtagtagtggaagggggccccaagacccagaagaaattg aagcatcttatgctgcatcggataaagtgggatgaacagacatctaacacaaagggagat gatcatgaggaacctgatgaggaagctgtgaagaaaaccaacaaatgtgtactattctgg gagggtacagccaaagaccggagctttggagagatgaagtttaaacagtgtcctatagag aacatagctcatgagcatttcagaaagcatggggctgaacattactgggaccttgcgctg agtgaatctgtgtag >gi568815590f:66964399_67295590|GENSCAN_predicted_peptide_2|1065_aa MADNLDEFIEEQKARLAEDKAELESDPPYMEMKGKLSAKLSENSKILISMAKENIPPNSQ QTRGSLGIDYGLSLPLGEDYERKKHKLKEELRQDYRRYLTQERLKLERNKEYNQFLRGKE ESSEKFRQVEKSTEPKSQRNKKPIGQVKPDLTSQIQTSCENSEGPRKDVLTPSEAYEELL NQRRLEEDRYRQLDDEIELRNRRIIKKANEEVGISNLKHQRFASKAGIPDRRFHRFNEDR VFDRRYHRPDQDPEPDRLKQFSVAPRHFEEMIPPERPRIAFQTPLPPLSAPSVPPIPSVH PVPSQNEDLRSGLSSALGEMVSPRIAPLPPPPLLPPLATNYRTPYDDAYYFYGSRNTFDP SLAYYGSGMMGVQPAAYVSAPVTHQLAQPVVNTVGQNELKITSDQVINSGLIFEDKPKPS KQSLQSYQEALQQQIREREERRKKEREEKEEYEAKLEAEMRTYNPWGKGGGGAPLRDAKG NLITDLNRMHRQNIDAYHNPDARTYEDKRAVVSLDPNLATSNAENLEDAANKSSGHMQTQ SSPFARGNVFGEPPTELQIKQQELYKNFLRFQIEEKKQREEAERERLRIAEEKEERRLAE QRARIQQEYEEEQEKKREKEEEQRLKNEEHIRLAEERQKEAERKKKEEEEKYNLQLQHYC ERDNLIGEETKIELQGKENMENVLRLILKVMLEEYAGICLEEEGEGLSACGKSWRAMQWC GDKFWRWGKTKHGDKMLLHKSRCETEDPNKGSDTKNCEGKFHVQGTVTPGTCQEKSAPCR RKKERNPMDIFDMARHRLQAPVRRQSPKGLDAATFQNVHDFNELKDRDSETRVDLKFMYL DPPRDHHTLEIQQQALLREQQKRLNRIKMQEGAKVDLDAIPSAKVREQRMPLAANIVLSI SINLTTLGPHSTPGGGSKVPKKKVKLAAAEDDEDDDDEFDDEEAEEKAPDSSRPNVAPDG LSLKSISSVNVDELRVRNEERMRRLNEFHNKPINTDDESSLVDPDDIMKHIGDDGSNSVA TEPWLRPGTSETLKRFMAEQLNQEQQQIPGKPGTFTWQGLSTAHG >gi568815590f:66964399_67295590|GENSCAN_predicted_CDS_2|3198_bp atggctgataatttggatgaatttattgaagagcaaaaagccagattggccgaagacaaa gcagagttggaaagtgatccaccttacatggaaatgaagggaaagttgtcagcgaagctt tctgaaaacagtaagatactgatctctatggctaaggaaaacataccaccaaatagtcaa cagaccaggggttccttaggaattgattatggattaagtttaccacttggagaagactat gaacggaagaaacataaattaaaagaagaattgcggcaagattacagacgttatcttact caggaaaggttgaaacttgaacgtaacaaagaatacaatcagtttctcaggggtaaggaa gaatccagtgaaaagttcaggcaggtggaaaagagtactgagcccaagagtcagagaaat aaaaaacctattggtcaagttaagcctgatctaacttcacaaatacagacatcttgtgaa aattcagagggtcctagaaaagatgtcttaactccttcagaggcatatgaagaacttctg aaccaaagacgactagaggaggacagataccgacaactagatgatgaaatcgaattaagg aatagaagaattattaaaaaagcaaatgaagaagtgggcatttccaacctaaaacatcaa aggtttgcaagcaaggctggcattccagatagaagatttcacagatttaatgaggatcgt gtttttgatagacggtatcatagaccagaccaagatcctgaacctgatagactaaagcag tttagtgtggcaccaagacactttgaagagatgataccacctgaaagacccagaatagct ttccagacacctctccctcctttatctgccccatctgtcccacccatcccatcagttcat cctgttccttctcaaaatgaagatttgcgcagtggactcagcagcgcccttggtgaaatg gtgtctcccaggattgcacctctgcctccacctcccctactaccacctttggctactaac tatcgaactccttatgatgatgcatactatttttatgggtccaggaatactttcgatccc agtcttgcttattatggttcaggaatgatgggcgtacagcctgcagcttatgttagtgct cctgtcacccaccaactagcacaacctgttgtgaatacggttggacagaatgaactgaag attacaagtgatcaagtgataaattcaggattgatttttgaagataaaccgaaaccttcc aaacagtcacttcagtcttaccaagaggctttgcagcagcagattcgggaaagagaagaa agaaggaagaaagaacgtgaagaaaaagaagaatatgaagctaaattagaagctgaaatg agaacatataatccctggggaaaaggtggaggtggtgctcctctcagggatgcaaaagga aatctgataactgatttgaataggatgcacagacaaaatatagatgcctaccataaccca gatgcaagaacatatgaagataaaagggctgttgtatctctagacccaaatttagccact tcaaatgctgagaacctagaagatgctgcaaataaaagctcaggtcatatgcaaacacag agctctccttttgctcggggaaatgtatttggtgagcctccaactgaacttcagattaaa cagcaagaattatacaagaattttcttcgtttccagattgaggaaaagaaacaaagagag gaagcagagcgagagagactgagaattgcagaagaaaaagaagaaagacggcttgcagaa cagagggcacgaattcagcaggagtatgaagaggaacaggaaaagaaaagagagaaagag gaggagcaaaggctaaaaaatgaagagcatattcggttagctgaagaaagacaaaaagaa gcagaaagaaagaagaaagaagaagaagaaaaatataacctgcaacttcagcactactgt gaaagagacaatttgattggggaagaaacaaagattgaactacaaggaaaagagaacatg gaaaatgttctaagattgatcctcaaggtgatgcttgaagaatatgcaggaatttgcctt gaagaggagggtgagggattatcagcttgtggaaagtcgtggagagcaatgcaatggtgt ggagataagttttggaggtggggcaagactaaacatggagataagatgcttttgcacaag tccagatgtgagactgaggacccaaacaaaggcagtgacaccaagaactgtgaaggaaag ttccatgtccagggcacagtcacccccggtacctgccaggaaaaatcagctccgtgcaga aggaaaaaggaaaggaatcccatggatatatttgatatggctagacatcggttgcaagct cctgtcagaagacagtcccctaagggcttagacgctgccacttttcagaatgttcatgat tttaatgagctgaaagatagagattcagaaacacgagttgatctgaaatttatgtacctg gatcctccaagagatcatcacaccttagagattcagcagcaagccctgctaagagagcag cagaagaggctgaacagaataaaaatgcaggaaggtgccaaagttgacttagatgccatc ccaagtgctaaagtacgagagcaaagaatgcccctggcagccaacattgtactttccatc tccataaatttgactactctaggacctcattctacccctggaggtggtagcaaggttcca aagaaaaaagtaaaacttgctgctgctgaagatgatgaagatgatgatgatgagtttgat gatgaggaagctgaagaaaaagcaccagatagcagtcgtcctaatgtagcaccagatggt ctctctctaaaatctatatccagtgtaaatgttgatgagcttagagtgagaaatgaggaa cgaatgcgaagactgaatgaatttcacaataaacctattaatacagatgatgagagttca ctggttgaccctgatgacatcatgaaacacataggggatgacggatcaaactctgtagca actgagccctggctccgccctggcacttcagaaacgctgaaacgtttcatggcagagcag ctgaaccaggagcagcagcagattcctggaaaaccaggcactttcacttggcagggcctg tcgactgcacatggttaa >gi568815590f:66964399_67295590|GENSCAN_predicted_peptide_3|1582_aa LQEAKQMEKERHRQHHHLLQSPVSHHEPESPQLRYLPPQTVDHISQEHEGDLDLHTNDVD KSLQDDTEPENGSDISSAENEQTEADQATAAESNLLEKGVWALSKNEVLYDGENHDCEEK PQDIVQNIVEEMVNIVVGDMGEGTTINASADGNIGTIEDGSDSENIQANGIPGTPISVAY TPSLPDDRLSVSSNDTQESGNSSGPSPGAKFSHILQKDAFLVFRSLCKLSMKPLSDGPPD PKSHELRSKILSLQLLLSILQNAGPIFRTNEMFINAIKQYLCVALSKNGVSSVPEVFELS LSIFLTLLSNFKTHLKMQIEVFFKEIFLYILETSTSSFDHKWMVIQTLTRICADAQSVVD IYVNYDCDLNAANIFERLVNDLSKIAQGRGSQELGMSNVQELSLRKKGLECLVSILKCMV EWSKDQYVNPNSQTTLGQEKPSEQEMSEIKHPETINRYGSLNSLESTSSSGIGSYSTQMS GTDNPEQFEVLKQQKEIIEQGIDLFNKKPKRGIQYLQEQGMLGTTPEDIAQFLHQEERLD STQVGEFLGDNDKFNKEVMYAYVDQHDFSGKDFVSALRMFLEGFRLPGEAQKIDRLMEKF AARYLECNQGQTLFASADTAYVLAYSIIMLTTDLHSPQVKNKMTKEQYIKMNRGINDSKD LPEEYLSAIYNEIAGKKISMKETKELTIPTKSSKQNVASEKQRRLLYNLEMEQMAKTAKA LMEAVSHVQAPFTSATHLEHVRPMFKVRIFKQKSLSPWPSPPQAHGEYCQATADVHKGQG LSHELVLNAARPGLTLQGSGLPSGPGQLAWTPFLAAFSVGLQDCDDTEVASLCLEGIRCA IRIACIFSIQILKCISQLELAQLIGTGVKPRYISGTVRGREGSLTGTKDQAPDEFVGLGL VGGNVDWKQIASIQESIGETSSQSVVVAVDRIFTGSTRLDGNAIEGKSCCFPQQGEKQKK GGKTDEFYRFAYPSNYINIFRSPTIRDMVVRCIAQMVNSQAANIRSGWKNIFSVFHLAAS DQDESIVELAFQTTGHIVTLVFEKHFPATIDSFQDAVKCLSEFACNAAFPDTSMEAIRLI RHCAKYVSDRPQAFKEYTSDDMNVAPEDRVWVRGWFPILFELSCIINRCKLDVRTRGLTV MFEIMKTYGHTYEKHWWQDLFRIVFRIFDNMKLPEQQTEKAEWMTTTCNHALYAICDVFT QYLEVLSDVLLDDIFAQLYWCVQQDNEQLARSGTNCLENVVILNGEKFTLEIWDKTCNCT LDIFKTTIPHALLTWRPNSGETAPPPPSPVSEKPLDTISQKSVDIHDSIQPRSVDNRPQA PLVSASAVNEEVSKIKSTAKFPEQKLFAALLIKCVVQLELIQTIDNIVFFPATSKKEDAE NLAAAQRDAVDFDVRVDTQDQGMYRFLTSQQLFKLLDCLLESHRFAKAFNSNNEQRTALW KAGFKGKSKPNLLKQETSSLACGLRILFRMYMDESRVSAWEEVQQRLLNVCSEALSYFLT LTSESHREAWTNLLLLFLTKVLKISDNRFKAHASFYYPLLCEIMQFDLIPELRAVLRRFF LRIGVVFQISQPPEQELGINKQ >gi568815590f:66964399_67295590|GENSCAN_predicted_CDS_3|4749_bp ttacaggaagcaaaacaaatggaaaaagaaaggcatcggcagcatcatcatctgttacag tctccagtaagccatcacgagcctgaatcacctcaacttagatatttgccacctcagact gttgatcatatatcccaagaacacgaaggggaccttgacctccatacaaatgatgtagat aaaagtcttcaggatgacacagagcctgaaaatggatctgatatttccagtgcagaaaat gaacagactgaagctgatcaggcaactgcagctgaaagtaatcttcttgaaaagggggtt tgggcattatctaaaaatgaagtgttatatgacggagaaaaccatgattgtgaggaaaag ccacaagacattgtacagaacattgtagaagaaatggtgaacattgttgttggagatatg ggagaagggactactataaatgcaagtgcagatggcaacattggaactatagaggatggt agtgacagtgaaaatattcaagcaaatggaattccaggaacaccaatttctgttgcatat acaccatccttacctgatgatagattgtcagtctcttccaatgatactcaggaatctgga aattcttcaggaccttcacctggtgctaagttttcccacattttacaaaaggatgccttt ctagtattcaggtcattgtgtaaactgtcaatgaaaccactgtcagatggaccaccagat ccaaagtctcatgaactacgatccaagattctttcattgcagttacttctatccattctg cagaatgcaggacctattttcaggacaaatgagatgtttattaatgctattaagcagtat ctttgtgttgcactctcaaaaaatggagtctcatctgttccagaggtttttgagctttct ctttctatatttcttactttgttgtcaaatttcaagacacatctgaagatgcaaattgag gtgttctttaaagaaattttcttatacattttggaaacttctaccagctcatttgatcac aaatggatggttattcagacactgacgaggatttgtgcagatgctcagagtgtagtggat atttatgtaaactatgactgtgacttaaatgcagccaatatatttgaaagactagtaaat gatctatcaaaaattgctcaaggaaggggcagtcaagaacttggtatgagtaatgttcag gaattgagcctgaggaaaaaaggtttagaatgcttagtgtcgattttgaagtgtatggtt gaatggagtaaggatcagtatgtgaatcccaactcccagacaactcttggtcaggaaaaa ccctcagagcaagagatgagtgaaatcaaacaccctgagacaataaacagatacggaagt ttaaattccctggagtcaacatcatcatcaggaataggcagctacagtacacagatgtct ggcactgataatccagaacaatttgaggtcctaaagcaacaaaaagaaataatagaacaa gggatagatttatttaataagaaaccaaagagaggaatacagtacctccaagaacaaggg atgcttggcaccacacctgaagatattgcccaattcttacatcaagaggaaagattagac tctactcaagtgggtgagttcctgggagataatgataaatttaacaaagaagtcatgtat gcatatgtggaccaacatgacttttcaggaaaagacttcgtttcagcccttcgtatgttt ctagaaggatttcgtcttccaggggaagctcagaaaatcgatcgattaatggaaaaattt gctgcaagatacctagaatgcaaccaaggacaaactctctttgctagtgcggatacagct tatgttttggcttattcaattatcatgttgaccacagaccttcacagtccacaggtgaaa aataaaatgacaaaggaacaatacattaagatgaatagaggtatcaatgacagtaaagac cttcctgaagagtatctatcagccatctataatgaaatagctgggaaaaagatatcaatg aaagaaacaaaagaactaacaatccctacaaaatcaagtaaacagaatgtagccagtgaa aaacaaagaagacttctgtataacttagaaatggagcagatggccaagacagctaaagca ctcatggaggccgtgagccatgttcaggcaccctttacaagtgcaacacatttggagcat gtgaggcccatgtttaaggttagaattttcaagcagaagagccttagcccgtggccatca ccaccacaggcccacggagagtactgccaagctactgctgatgttcacaagggccaaggg ctctctcatgagcttgtcttgaatgctgccaggccgggactcacccttcagggcagtggg cttccctctggcccagggcagttggcttggacgccttttctggctgcattcagtgtgggt ctacaagattgtgatgatactgaagtagcctctctttgcctggaaggtataagatgtgca atcagaattgcatgcattttcagcattcagattctgaagtgcatcagtcagttggagctg gcacagcttataggaactggagtgaaacctcgatacatttctggaacagtgcgaggcaga gaaggatctcttactggaacaaaagatcaggctcctgatgaatttgtgggtttagggcta gttggaggaaatgtggactggaaacagatagcaagtattcaggaatccattggagaaacc agttctcagagtgttgttgttgctgtagatagaatattcacaggatctacaaggctagat ggaaatgccattgaaggaaaatcttgttgttttccacagcagggagaaaaacagaagaaa gggggaaaaactgatgagttttatcggtttgcatatccaagcaattatattaatattttt aggtctccaacaattcgagatatggttgtacggtgtatagcacagatggttaattctcaa gctgctaacattcgatctggatggaagaacattttctctgtatttcatctagctgcatct gatcaagatgaaagcatagtggaacttgcattccaaacaaccgggcacattgtcaccctt gtatttgaaaaacactttccagcgaccattgattctttccaggatgcagtgaagtgtttg tctgaatttgcgtgcaatgcagctttcccagacacaagtatggaagcaattcgacttatt cgccattgtgcaaaatatgtgtctgatagacctcaggctttcaaggaatacacaagcgat gatatgaacgtagcacctgaagacagggtgtgggtgagaggatggttcccaattctcttt gagttatcctgtatcatcaatagatgcaaattagatgtaagaaccaggggtttaacagta atgtttgaaataatgaaaacatatggccacacttatgagaaacactggtggcaggattta tttagaattgttttcagaatctttgacaatatgaaattgccagaacaacagacagagaaa gctgaatggatgacaacaacttgcaatcatgcactttatgcaatctgtgatgtattcact cagtatttagaagtactcagtgatgtacttttggatgacatttttgctcagctctactgg tgtgtgcagcaagacaatgagcagttagcgcgatctggtacaaactgtttagagaatgtt gttattctgaatggtgaaaaatttaccctagaaatctgggataaaacttgcaactgcaca ctggatatcttcaaaaccacaatcccacatgcgctgttgacctggcgacccaattctgga gaaactgcccccccacctccatctcctgtaagtgaaaagccattggatacaatatcacag aagtctgtagatattcatgattctattcaaccaaggtctgtggataacagaccacaagca ccactggtttctgcgtctgctgttaatgaagaagtcagcaaaattaaatctacagcaaaa tttccagaacaaaaattgtttgctgccctgttgattaaatgtgttgtgcagctggaactc atccagactatcgacaacattgtcttcttcccagccacaagtaagaaagaagatgcagaa aacttagctgcagcacagagagatgcggtggactttgatgttcgcgttgatactcaagac caaggaatgtaccgctttttaacatcacaacaactttttaagctactggactgcttatta gagtcacatagatttgcaaaagcgtttaattccaacaacgaacagaggactgccctgtgg aaagcaggattcaaaggcaaatccaagcccaaccttctgaagcaggagaccagcagcctg gcctgtgggctgcgcattctcttccggatgtacatggatgagagccgcgttagtgcctgg gaggaggtccagcagaggcttttgaatgtctgcagtgaagcactaagttacttcctcact ctaacatcagaaagtcatcgagaagcctggactaacttactgcttttgtttctaactaaa gttctaaagataagtgataataggtttaaagctcatgcatcattctactaccctctctta tgtgaaattatgcaatttgacttgattcctgaacttcgtgctgttcttagaagatttttt ctgcgaatcggagtagtttttcagatatcacaaccacctgaacaggaacttggaataaac aagcaatga