GENSCAN 1.0 Date run: 5-Nov-116 Time: 02:07:35 Sequence gi568815597r:153710180_153928347 : 218168 bp : 46.37% 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 + 18456 18605 150 2 0 112 92 63 0.964 7.16 1.02 Intr + 20090 20143 54 1 0 96 94 -4 0.510 0.18 1.03 Intr + 30472 30555 84 0 0 87 92 104 0.923 10.72 1.04 Intr + 31106 31189 84 1 0 95 116 35 0.992 7.02 1.05 Intr + 36778 36891 114 0 0 81 110 175 0.999 19.64 1.06 Intr + 37100 37184 85 1 1 103 109 53 0.985 8.29 1.07 Intr + 38510 38576 67 0 1 53 64 41 0.735 -3.84 1.08 Intr + 40916 41060 145 2 1 61 76 233 0.920 19.68 1.09 Intr + 42100 42229 130 0 1 54 111 22 0.628 1.37 1.10 Intr + 44463 44560 98 1 2 74 102 51 0.686 4.83 1.11 Intr + 47393 47584 192 1 0 124 89 181 0.993 21.49 1.12 Intr + 49347 49434 88 2 1 106 77 76 0.999 7.84 1.13 Intr + 50132 50211 80 0 2 75 96 79 0.994 6.67 1.14 Intr + 50648 50739 92 1 2 130 60 79 0.997 8.09 1.15 Intr + 51391 51497 107 1 2 81 86 68 0.998 5.76 1.16 Intr + 52549 52668 120 2 0 57 100 236 0.999 22.17 1.17 Intr + 53054 53183 130 0 1 100 90 141 0.999 15.25 1.18 Intr + 53653 53707 55 1 1 94 78 95 0.987 8.08 1.19 Intr + 53939 54042 104 1 2 84 55 104 0.969 5.67 1.20 Intr + 54765 54884 120 0 0 83 94 118 0.998 11.51 1.21 Intr + 57495 57648 154 0 1 33 78 200 0.967 13.57 1.22 Intr + 58714 58782 69 0 0 84 66 110 0.995 7.78 1.23 Intr + 59590 59665 76 0 1 91 89 64 0.985 5.89 1.24 Intr + 60019 60132 114 2 0 58 96 72 0.973 5.42 1.25 Intr + 60506 60554 49 0 1 115 87 9 0.961 1.24 1.26 Intr + 61617 61784 168 0 0 92 59 307 0.999 27.26 1.27 Intr + 62161 62261 101 1 2 55 14 185 0.503 7.55 1.28 Intr + 62460 62532 73 1 1 107 53 64 0.909 3.26 1.29 Intr + 62746 62902 157 1 1 74 33 233 0.981 16.41 1.30 Term + 63014 63091 78 1 0 122 54 72 0.990 4.96 1.31 PlyA + 63880 63885 6 1.05 2.00 Prom + 64969 65008 40 -13.70 2.01 Init + 65178 65985 808 2 1 65 110 796 0.894 74.38 2.02 Intr + 66339 66548 210 1 0 76 76 124 0.994 8.88 2.03 Intr + 66883 67041 159 2 0 92 57 167 0.999 13.96 2.04 Intr + 67582 67706 125 2 2 76 90 193 0.998 18.60 2.05 Intr + 67982 68176 195 1 0 67 100 254 0.995 24.11 2.06 Intr + 68284 68374 91 0 1 67 77 75 0.943 3.87 2.07 Intr + 68508 68706 199 1 1 59 70 236 0.998 17.31 2.08 Intr + 68935 69032 98 1 2 113 51 134 0.984 11.85 2.09 Intr + 69164 69294 131 0 2 50 91 53 0.984 2.21 2.10 Term + 69647 69823 177 1 0 114 54 262 0.984 23.09 2.11 PlyA + 69937 69942 6 1.05 3.00 Prom + 80518 80557 40 -2.06 3.01 Init + 83993 84026 34 1 1 89 78 98 0.934 7.29 3.02 Intr + 85242 85544 303 1 0 87 108 392 0.795 37.66 3.03 Intr + 86026 86170 145 2 1 78 105 133 0.995 13.34 3.04 Intr + 86254 86384 131 1 2 71 91 146 0.979 13.54 3.05 Intr + 89304 89441 138 1 0 62 53 81 0.841 2.44 3.06 Intr + 89531 89721 191 0 2 105 31 253 0.932 20.60 3.07 Intr + 89842 90005 164 0 2 62 46 166 0.884 8.57 3.08 Intr + 90302 90546 245 2 2 53 90 162 0.840 10.04 3.09 Intr + 90978 91142 165 1 0 52 73 183 0.993 13.13 3.10 Intr + 91229 91415 187 0 1 108 68 67 0.013 5.45 3.11 Intr + 92326 92455 130 1 1 73 94 69 0.236 6.70 3.12 Intr + 94962 95102 141 2 0 99 6 87 0.377 2.15 3.13 Term + 96334 96411 78 0 0 125 49 15 0.359 -0.94 3.14 PlyA + 96869 96874 6 1.05 4.15 PlyA - 99863 99858 6 -0.45 4.14 Term - 100131 99998 134 1 2 92 42 94 0.979 3.45 4.13 Intr - 101669 101552 118 2 1 77 110 5 0.914 1.64 4.12 Intr - 101953 101843 111 1 0 80 110 75 0.998 9.48 4.11 Intr - 103273 103071 203 2 2 75 110 161 0.984 16.00 4.10 Intr - 106409 106094 316 2 1 62 116 233 0.379 19.14 4.09 Intr - 107363 107193 171 2 0 126 111 54 0.999 11.64 4.08 Intr - 108743 108612 132 2 0 85 90 155 0.999 16.24 4.07 Intr - 109556 109427 130 1 1 78 93 26 0.929 2.80 4.06 Intr - 118169 117834 336 1 0 114 64 248 0.076 19.63 4.05 Intr - 131546 131515 32 2 2 36 70 43 0.012 -5.77 4.04 Intr - 142904 142688 217 1 1 29 54 202 0.030 9.41 4.03 Intr - 197309 197260 50 2 2 109 80 -5 0.004 -1.72 4.02 Intr - 212661 212554 108 0 0 92 94 49 0.697 6.38 4.01 Init - 213191 213120 72 2 0 79 98 62 0.961 7.37 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Intr + 91538 91645 108 0 0 102 119 122 0.887 16.96 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815597r:153710180_153928347|GENSCAN_predicted_peptide_1|1045_aa MELQKGKGAAAAAAASGAAGGGGGGAGAGAPGGGRLLLSTSLDAKDELEELSAKVDIIMN VNNVFPKQRLERCMSIVTSMTAGVSEREANDALNAYVCKGLPQHEEICLGLFTLILTEPA QAQKCYRDLALVSRDGMNIVLNKINQILMEKYLKLQDTCRTQLVWLVRELVKSGVLGADG VCMTFMKQIAGGDVTAKNIWLAESVLDILTEQREWVLKSSILIAMAVYTYLRLIVDHHGT AQLQALRQKEVDFCISLLRERFMECLMIGRDLVRLLQNVARIPEFELLWKDIIHNPQALS PQFTGILQLLQSRTSRKFLACRLTPDMETKLLFMTSRVRFGQQKRYQDWFQRQYLSTPDS QSLRCDLIRYICGVVHPSNEVLSSDILPRWAIIGWLLTTCTSNVAASNAKLALFYDWLFF SPDKDSIMNIEPAILVMHHSMKPHPAITATLLDFMCRIIPNFYPPLEGHVRQGVFSSLNH IVEKRVLAHLAPLFDNPKLDKELRAMLREKFPEFCSSPSPPVEVKIEEPVSMEMDNHMSD KDESCYDNAEAAFSDDEEDLNSKGKKREFRFHPIKETVVEEPVDITPYLDQLDESLRDKV LQLQKGSDTEAQCEVMQEIVDQVLEEDFDSEQLSVLASCLQELFKAHFRGEVLPEEITEE NLCQMQEDNSSFSLLLDLLSELYQKQPKIGYHLLYYLRASKAAAGKMNLYESFAQATQLG DLHTCLMMDMKACQEDDVRLLCHLTPSIYTEFPDETLRSGELLNMIVAVIDSAQLQELVC HVMMGNLVMFRKDSVLNILIQSLDWETFEQYCAWQLFLAHNIPLETIIPILQHLKYKEHP EALSCLLLQLRREKPSEEMVKMVLSRPCHPDDQFTTSILRHWCMKHDELLAEHIKSLLIK NNSLPRKRQSLRSSSSKLAQLTLEQILEHLDNLRLNLTNTKQNFFSQTPILQALQHVQAS CDEAHKMKFSDLFSLAEEYEDSSTKPPKSRRKAALSSPRSRKNATQPPNAEEESGSSSAS EEEDTKPKPTKRKRKGSSAVGSDSD >gi568815597r:153710180_153928347|GENSCAN_predicted_CDS_1|3138_bp atggagttgcagaagggaaaaggggcggcagcagcagcagctgcttcgggagcagcggga ggtggaggaggaggagcgggagcaggagccccaggaggggggaggctgctactttcaacc agtttggatgccaaggatgagttagaggagttatcagctaaggtagatataattatgaat gtgaacaatgtattcccaaaacagagattggaaaggtgtatgagcattgtgacatcgatg actgctggtgtctcggagagagaagccaatgatgccctcaatgcgtatgtgtgcaaaggc ctcccccagcatgaagaaatctgcctgggcctgtttactctcatcctcactgaacctgcc caagcccagaagtgttaccgggacttagctctggtgagtcgtgatggcatgaatattgtc ctgaataaaatcaaccagatacttatggagaagtacctgaagctgcaggatacctgccgt actcagttggtgtggttggtacgggaactggtgaagagtggggttctgggagccgatggt gtttgtatgacgtttatgaagcagattgcaggtggagatgttacagccaaaaatatctgg ttggcagaaagtgttctggatatcctgacagagcaaagggagtgggtcctgaagagcagc atcctcattgccatggctgtttacacgtacctccgcctcatcgtggaccaccatgggact gcccagctccaggccctgcgacagaaggaagtagacttctgcatctcactgcttcgggaa cggttcatggaatgtctgatgattggtcgggatctcgtaagactacttcagaatgttgct aggataccagaatttgaactgctttggaaagatattatccataatcctcaggccttgagt cctcagttcacaggtatcctacagcttcttcagtcaagaacatcccgaaaattcctagca tgtcgtctaaccccggacatggagactaaactcctcttcatgacatcccgggtgcgattt ggtcaacaaaagcgataccaagattggttccagcgccagtacctgtcaactccagatagt cagtctctgcgctgtgacctcattcgctacatctgtggggtagtccacccttctaatgaa gtactgagttcagatatcttgccccggtgggccatcattggttggctcctgacaacgtgc acgtcaaatgtcgctgcctccaatgccaagctggctttgttttatgactggctgttcttt agtccagacaaggatagcattatgaacatagaaccagccatcctggtcatgcaccactcc atgaagccccacccagccatcactgccacactcctggacttcatgtgccgcatcattccc aacttctatccaccattggagggccacgtgcggcagggtgtcttttcctccctcaaccac attgtggagaaacgggtcttggcacacctagctcccctgtttgacaaccctaagttggat aaggagctgcgggcaatgctgagagagaagtttcctgagttctgcagctcaccctcccca cctgtggaagtcaaaattgaggagccagtttccatggagatggacaaccatatgtcggat aaggatgagagttgctatgacaatgcagaggcagccttcagtgacgatgaagaggatctc aacagcaaaggaaagaagagggagtttcgcttccaccctatcaaggagacagttgtggag gagccagttgatatcaccccttaccttgaccagttggatgagtccctgagggacaaagta ctccagctacagaaggggagtgatacggaggcccagtgtgaggtcatgcaggaaattgtg gaccaggtcctggaggaagactttgactcggagcagctgtctgtccttgcttcctgccta caggagctcttcaaggcccactttcgaggggaggtcctgcctgaggagattactgaggag aacctatgtcagatgcaggaagacaacagcagcttctctctacttctagaccttctctcc gagctatatcagaagcagcccaagattggctaccacctgctctactacctgagggccagc aaagccgccgcagggaagatgaacctgtacgagtcatttgcccaggctacccagctgggc gatctgcacacctgcctgatgatggacatgaaggcctgccaggaggacgatgtgcggctc ctgtgccacctcacgccctccatctacacagagtttccagatgaaaccttgaggagcgga gagctgctgaacatgatcgtggctgttattgactctgcacagctccaggagctggtctgc cacgtgatgatgggtaacctggttatgtttcgaaaagactcagttctcaacatactcatt cagagcctagactgggagacctttgagcagtattgtgcctggcagctctttctggcccac aatattcccctggagaccataatccccatcctgcagcacctcaaatacaaggagcaccca gaggccctgtcctgcctactgcttcaactccgaagagaaaagcccagcgaggagatggtg aagatggtgctgagccggccctgccatcctgacgaccagttcaccaccagcatcctgcgg cactggtgcatgaaacatgacgagctgctggccgagcacatcaagtccctgctcatcaag aacaacagcctgcctcgcaagagacagagcctgaggagctctagcagcaagctggcccag ctgactctggagcagatcctggagcacttggacaatctgcggctcaacctgaccaacacc aagcagaacttttttagccagacgccaattctccaggcgctgcagcatgtccaagcgagc tgtgacgaagcccacaagatgaaattcagtgatctcttctccctggcggaggaatatgag gactcttccaccaagccacccaagagccggcgaaaagcagctctgtccagccctcgaagt cgaaagaatgccacacagccccccaatgccgaagaagagtcgggctccagcagtgcttca gaagaggaagacacgaaaccgaagcctaccaagcggaaacgaaaagggtcctctgcagtg ggctctgacagtgactga >gi568815597r:153710180_153928347|GENSCAN_predicted_peptide_2|730_aa MGVCQRTRAPWKEKSQLERAALGFRKGGSGMFASGWNQTVPIEEAGSMAALLLLPLLLLL PLLLLKLHLWPQLRWLPADLAFAVRALCCKRALRARALAAAAADPEGPEGGCSLAWRLAE LAQQRAAHTFLIHGSRRFSYSEAERESNRAARAFLRALGWDWGPDGGDSGEGSAGEGERA APGAGDAAAGSGAEFAGGDGAARGGGAAAPLSPGATVALLLPAGPEFLWLWFGLAKAGLR TAFVPTALRRGPLLHCLRSCGARALVLAPEFLESLEPDLPALRAMGLHLWAAGPGTHPAG ISDLLAEVSAEVDGPVPGYLSSPQSITDTCLYIFTSGTTGLPKAARISHLKILQCQGFYQ LCGVHQEDVIYLALPLYHMSGSLLGIVGCMGIGATVVLKSKFSAGQFWEDCQQHRVTVFQ YIGELCRYLVNQPPSKAERGHKVRLAVGSGLRPDTWERFVRRFGPLQVLETYGLTEGNVA TINYTGQRGAVGRASWLYKHIFPFSLIRYDVTTGEPIRDPQGHCMATSPGEPGLLVAPVS QQSPFLGYAGGPELAQGKLLKDVFRPGDVFFNTGDLLVCDDQGFLRFHDRTGDTFRWKGE NVATTEVAEVFEALDFLQEVNVYGVTVPGHEGRAGMAALVLRPPHALDLMQLYTHVSENL PPYARPRFLRLQESLATTETFKQQKVRMANEGFDPSTLSDPLYVLDQAVGAYLPLTTARY SALLAGNLRI >gi568815597r:153710180_153928347|GENSCAN_predicted_CDS_2|2193_bp atgggcgtgtgccagcgcacgcgcgctccctggaaggagaagtctcagctagaacgagcg gccctaggttttcggaagggaggatcagggatgtttgcgagcggctggaaccagacggtg ccgatagaggaagcgggctccatggctgccctcctgctgctgcccctgctgctgttgcta ccgctgctgctgctgaagctacacctctggccgcagttgcgctggcttccggcggacttg gcctttgcggtgcgagctctgtgctgcaaaagggctcttcgagctcgcgccctggccgcg gctgccgccgacccggaaggtcccgaggggggctgcagcctggcctggcgcctcgcggaa ctggcccagcagcgcgccgcgcacacctttctcattcacggctcgcggcgctttagctac tcagaggcggagcgcgagagtaacagggctgcacgcgccttcctacgtgcgctaggctgg gactggggacccgacggcggcgacagcggcgaggggagcgctggagaaggcgagcgggca gcgccgggagccggagatgcagcggccggaagcggcgcggagtttgccggaggggacggt gccgccagaggtggaggagccgccgcccctctgtcacctggagcaactgtggcgctgctc ctccccgctggcccagagtttctgtggctctggttcgggctggccaaggccggcctgcgc actgcctttgtgcccaccgccctgcgccggggccccctgctgcactgcctccgcagctgc ggcgcgcgcgcgctggtgctggcgccagagtttctggagtccctggagccggacctgccc gccctgagagccatggggctccacctgtgggctgcaggcccaggaacccaccctgctgga attagcgatttgctggctgaagtgtccgctgaagtggatgggccagtgccaggatacctc tcttccccccagagcataacagacacgtgcctgtacatcttcacctctggcaccacgggc ctccccaaggctgctcggatcagtcatctgaagatcctgcaatgccagggcttctatcag ctgtgtggtgtccaccaggaagatgtgatctacctcgccctcccactctaccacatgtcc ggttccctgctgggcatcgtgggctgcatgggcattggggccacagtggtgctgaaatcc aagttctcggctggtcagttctgggaagattgccagcagcacagggtgacggtgttccag tacattggggagctgtgccgataccttgtcaaccagcccccgagcaaggcagaacgtggc cataaggtccggctggcagtgggcagcgggctgcgcccagatacctgggagcgttttgtg cggcgcttcgggcccctgcaggtgctggagacatatggactgacagagggcaacgtggcc accatcaactacacaggacagcggggcgctgtggggcgtgcttcctggctttacaagcat atcttccccttctccttgattcgctatgatgtcaccacaggagagccaattcgggacccc caggggcactgtatggccacatctccaggtgagccagggctgctggtggccccggtaagc cagcagtccccattcctgggctatgctggcgggccagagctggcccaggggaagttgcta aaggatgtcttccggcctggggatgttttcttcaacactggggacctgctggtctgcgat gaccaaggttttctccgcttccatgatcgtactggagacaccttcaggtggaagggggag aatgtggccacaaccgaggtggcagaggtcttcgaggccctagattttcttcaggaggtg aacgtctatggagtcactgtgccagggcatgaaggcagggctggaatggcagccctagtt ctgcgtcccccccacgctttggaccttatgcagctctacacccacgtgtctgagaacttg ccaccttatgcccggccccgattcctcaggctccaggagtctttggccaccacagagacc ttcaaacagcagaaagttcggatggcaaatgagggcttcgaccccagcaccctgtctgac ccactgtacgttctggaccaggctgtaggtgcctacctgcccctcacaactgcccggtac agcgccctcctggcaggaaaccttcgaatctga >gi568815597r:153710180_153928347|GENSCAN_predicted_peptide_3|683_aa MGLLLLLLPGWGCAAGSELAFVQELGDTVAVWEHPLVLPCQVEGEPPVSISWQRDRLALA NESGVTLMPDGSLHLAALPSRRSLPSRAHEYHCVAQNRYGRLVSRQARVQLASLSRFHQH PESIEVERGGVARFQCLIQGVPEPSISWEHNGTALNTANHRVTLLPSGILHITSVSQTDM GTYRCVAWNVASTRHSQDAQLTLSVGPLRLLQEPEILSGPQNLTLTVHQTAVLECIATSH PWPLVSWSRLDGRSIGVEGIQVLDILDTGNLMISDVSVQHSGVYVCAANRPGTHVRRTAQ GVLLVQGEPQGPNWLPEFVQWPQSLSKPPGSSAIFTCVAQGVPESRLVWLKNGKVLSPGN NIRLTHNNSTLMLAGVSVEDEAIYQCVAENSTGSNQASARLVVTGGPEPPRPQGPACHGS LYFCHSSVLGATPPSSRDIIGYVLHLRPVGEPSGPELQEAISKGTSEHVFSNLEPATAYT IHLRAYSAEGASQDSAPIFASTMGSTPAALGFSTKVLNATSVQASWELPPQLGPIQGFKL SPQAACCPFSGASAPGQQCQLLPLHRPGLLCKQESQECWAVPRTASDRTGGHQGQTQSGG KLGEKTELTTQALSAQNLKKRVGVLSPGCGEIGPLKETDCETAAFSGVQMKSEERRQNKP FCTDHTQTGTLQNDITQFHNIHG >gi568815597r:153710180_153928347|GENSCAN_predicted_CDS_3|2052_bp atggggctgctgctgctgctgctcccaggctggggctgtgctgcaggctccgagctggcc ttcgtgcaggagctgggggacacagtggctgtgtgggagcacccactggtgctgccctgc caggtggagggtgagccgcctgtgtccatttcctggcagcgggataggctggccttagcc aatgagagtggtgtcaccctgatgccagatggctccctgcacctggccgccctgccttcc cgccggagcctcccttcccgtgcccacgagtaccactgcgtggcccagaaccgctacggg cggctggtgagccgacaggcccgggtacagctggcaagtctgtcccgcttccaccaacat ccagaatccattgaggtggagcggggtggagttgctcgcttccagtgcctgatccagggg gtgcctgagccatccatttcctgggagcacaatggcacagccctgaatactgccaaccac cgggtcacactgctgcctagtggcatcctccacatcaccagtgtgagccagactgacatg ggaacctaccgctgcgtggcatggaatgtggccagtacccgccacagccaggatgcccag ctgaccctgagtgtgggacccctgaggctgctgcaggagccagagatcctgtctgggcct cagaacctgaccctcacagtgcaccagacggcagtgctggagtgcattgccaccagtcac ccttggccgcttgtctcctggagccgcctggatggccgctccatcggcgtagagggcatc caagttctggacattctggacacagggaatctcatgatctccgacgtctcagtccagcac tcaggtgtctatgtctgcgccgccaatcggccaggcacccatgtccggcgcacagcgcag ggcgtcctgctcgtgcagggtgagccccaagggcccaactggctccccgagtttgtccag tggccacagtccttgtccaagcctccgggcagcagtgccatcttcacctgcgtggcccag ggcgtccctgagtcccgtctggtctggctgaagaatgggaaggtgttgagtcctgggaat aacatcaggctgactcacaacaatagtacgctgatgctggcaggggtttcagttgaggat gaggccatctatcaatgcgtggcagagaacagcacgggctccaaccaggccagtgcccgc ctggttgtgacagggggcccagagccaccccgtccccaggggcctgcatgccatggctct ctctacttctgccattcgagtgtcctgggagccacccccccctccagcagggacatcatt ggctacgtgctgcacctccggcctgtgggagagccatctggcccggagctccaagaggcc ataagcaaaggcacttctgagcacgtcttctccaacctggagcctgccacagcctacacc atccatttgcgggcctactcagcagagggtgccagtcaggactctgctcccatctttgcc tccaccatgggcagcacccctgctgccctgggcttctccaccaaagtgctgaatgccacc tctgtgcaggcctcctgggagctgccaccccagctggggcccatccaaggcttcaaactt tcaccgcaagctgcctgctgcccattttcaggggcctctgctcctggccagcagtgtcag ctccttcctctacacagacctggcctcctctgcaaacaggagtcccaggaatgctgggca gtgcctcggactgcctcggacagaactgggggccatcaaggccagactcagagtggaggg aagctgggggagaagactgaactcaccacccaggctttatcagcccagaacctaaagaag agagtaggagtactcagcccaggctgtggggaaattgggcccctgaaggagacagactgt gaaacagctgcctttagcggggttcagatgaaatctgaggaaaggagacaaaataaaccc ttttgcacggatcatacacaaacgggcacattacaaaatgacataacacagtttcacaat atccatggctag >gi568815597r:153710180_153928347|GENSCAN_predicted_peptide_4|709_aa MAKGESRFGETGVRRLPGDQNVSKSRQQGLDPLCRRLFLFRRLRRRLRRRASRELHRHRQ FLAVTILLCFYKFDYFRCCDWGKRCCDDYCDWGQGFITGLMDKTKGVVTGTVEKTQVCVS GSINTSLGSQIMQLMSSGLEHALTKSELLPKTENNSDVLQMDRMTEDALRLNLLKRSLDP ADERDDVLAKRLKMEGHEAMERLKMLALLKRKDLANLEVPHELPTKQDGSGVKGYEEKLN GNLRPHGDNRTAGRPGKENINDEPVDMSARRSEPERGRLTPSPDIIVLSDNEASSPRSSS RMEERLKAANLEMFKGKGIEERQQLIKQLRDELRLEEARLVLLKKLRQSQLQKENVVQKG HSVIRSATNTTLPHMLMSQRVIAPNPAQLQGQRGPPKPGLVRTTTPNMNPAINYQPQSSS SVPCQRTTSSAIYMNLASHIQPGTVNRVSSPLPSPSAMTDAANSQAAAKLALRKQLEKTL LEIPPPKPPAPLLHFLPSAANSEFIYMVGLEEVVQSVIDSQGKSCASLLRVEPFVCAQCR TDFTPHWKQEKNGKILCEQCMTSNQKKALKAEHTNRLKNAFVKALQQEQEIEQRLQQQAA LSPTTAPAVSSVSKQETIMRHHTLRQAPQPQSSLQRGIPTSARSMLSNFAQAPQLSVPGG LLGMPGVNIAYLNTGIGGHKGPSLADRQREYLLDMIPPRSISQSISGQK >gi568815597r:153710180_153928347|GENSCAN_predicted_CDS_4|2130_bp atggccaaaggggaatcccggtttggagagactggggtacggcggctgcctggggaccaa aacgtctctaagtcccgtcagcagggtctggatcccctgtgccgtcgcctcttccttttt cgacgcctccgccgccgcctgaggaggcgagctagccgggagttacaccgccaccgccag ttcctggcagtcaccattctactttgtttctataaatttgactacttcaggtgctgtgac tggggcaaaagatgctgtgacgactactgtgactggggccaaggattcatcacagggttg atggacaagaccaaaggggtagtgactggcactgtggagaagacccaagtctgtgtcagt ggcagcattaacacaagcttaggaagtcagataatgcagctcatgagcagtggcttggaa catgcgctcaccaaatcagagctcttgccaaaaacggaaaacaactcagatgtccttcag atggatagaatgacagaagatgctcttcgcttgaatctgttgaagcggagcttggaccca gcagatgagcgagatgatgtcctggcaaagcgactcaaaatggaggggcatgaggccatg gaacgtctgaaaatgttggcattgctcaaaaggaaggatttggcaaatcttgaggtgcca catgagttacccaccaaacaggatggcagtggtgtcaagggctatgaagaaaaacttaac gggaatctcaggcctcatggagacaacaggactgctggaaggccaggcaaagaaaacatc aatgatgagcctgtggatatgagtgctagacggagtgagccagagcgaggaaggctaact ccctcaccagacatcattgttttgtctgacaatgaggcttccagtccccgttccagttcc agaatggaagaaagactcaaagcagccaacttagagatgtttaaggggaaaggcattgag gagcggcagcagcttatcaagcagctgagggatgagctacgattggaagaagcccgactg gtcctgttaaagaaactgagacagagtcagctacagaaagagaatgtggtccagaagggt cacagtgtcatccgttcagctaccaataccacccttccacacatgttgatgtctcaacgt gttattgcaccaaacccagcccagctacagggtcagcggggcccgcctaagcctggcctt gtacgcaccacaacacccaacatgaatcccgccatcaattatcaaccgcagtcaagttct tctgttccatgtcagcgtacaacatcctctgccatctatatgaaccttgcttctcatatc cagccagggacggtgaacagagtgtcctcgccacttcctagccccagcgccatgactgat gctgccaactcacaggctgcagccaaattggctcttcgcaaacagctggaaaagacactc ctggagatcccaccccctaaacctcctgctcccttacttcatttcttgcctagtgcagcc aatagcgagttcatctacatggtaggcttggaagaagtcgtacagagtgtcattgacagc caaggcaaaagctgtgcctcacttctgcgggttgaaccctttgtatgtgcccagtgccgc acagatttcacccctcactggaagcaagaaaagaatggtaagattctatgtgagcagtgt atgacctccaaccagaaaaaggctctaaaagctgaacacaccaaccggctgaaaaatgca tttgtgaaagccctacagcaggaacaggaaattgaacagcgattacagcagcaggcagcc ctctcccccactacggctccagctgtgtccagtgtcagtaaacaagagaccatcatgaga catcatacgcttcggcaggctccacagccccagagcagcctccagcgtggcatacccaca tctgcccgctccatgctttcaaactttgcacaggcaccccagttgtctgtgccaggtggc ctccttggtatgccaggtgtcaacattgcatacttgaatactggcatcggaggacacaaa ggccccagtttggcagaccgacagcgtgaataccttttagacatgatccctccccggtct atatcgcagtccatcagtggacagaaataa