Result of GENSCAN for
pF1KE6135
GENSCAN 1.0 Date run: 8-Nov-116 Time: 09:46:32 Sequence gi568815579f:5590508_5791618 : 201111 bp : 51.50% C+G : Isochore 3 (51 - 57 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.16 Intr - 1286 1241 46 1 1 113 109 -25 0.412 1.00 1.15 Intr - 2380 2240 141 0 0 -13 82 283 0.675 17.58 1.14 Intr - 3671 3384 288 1 0 73 117 786 0.983 76.90 1.13 Intr - 4990 4854 137 1 2 34 101 142 0.992 9.97 1.12 Intr - 8377 8286 92 2 2 55 70 89 0.759 4.01 1.11 Intr - 9753 9623 131 2 2 49 94 159 0.457 13.44 1.10 Intr - 14188 14076 113 1 2 79 37 111 0.221 4.78 1.09 Intr - 14494 14280 215 2 2 20 100 154 0.264 8.76 1.08 Intr - 19588 19488 101 0 2 73 91 143 0.395 13.35 1.07 Intr - 21123 20613 511 1 1 60 68 477 0.996 35.52 1.06 Intr - 22060 22033 28 1 1 80 84 33 0.964 0.27 1.05 Intr - 23020 22958 63 1 0 114 131 17 0.963 8.01 1.04 Intr - 25828 25625 204 1 0 124 37 141 0.793 12.52 1.03 Intr - 25979 25915 65 0 2 49 111 56 0.082 2.93 1.02 Intr - 30889 30802 88 1 1 92 67 138 0.686 12.14 1.01 Init - 32208 32023 186 0 0 110 100 315 0.999 31.93 1.00 Prom - 32639 32600 40 -5.81 2.00 Prom + 32642 32681 40 -14.00 2.01 Init + 32699 32887 189 1 0 65 40 307 0.543 20.58 2.02 Intr + 34727 34825 99 1 0 98 72 8 0.469 1.01 2.03 Intr + 35898 35982 85 2 1 104 86 90 0.970 10.29 2.04 Intr + 51087 51151 65 1 2 90 91 103 0.592 9.73 2.05 Intr + 51233 51439 207 1 0 74 37 291 0.889 22.40 2.06 Intr + 54830 54892 63 1 0 110 97 30 0.908 5.51 2.07 Intr + 57509 57536 28 1 1 109 84 48 0.983 4.67 2.08 Intr + 58482 58992 511 1 1 60 68 477 0.972 35.52 2.09 Intr + 60526 60565 40 1 1 46 115 28 0.261 0.01 2.10 Intr + 62608 62757 150 0 0 50 87 176 0.866 14.57 2.11 Intr + 62831 62913 83 1 2 78 80 107 0.998 7.83 2.12 Intr + 63554 63693 140 2 2 76 80 93 0.957 7.92 2.13 Intr + 63861 63949 89 1 2 107 70 59 0.996 6.19 2.14 Intr + 66734 66840 107 1 2 67 95 120 0.998 10.11 2.15 Intr + 71011 71301 291 1 0 54 119 683 0.894 64.79 2.16 Intr + 73515 73652 138 0 0 111 82 345 0.986 36.29 2.17 Intr + 73890 73932 43 0 1 81 111 1 0.939 0.43 2.18 Intr + 76539 76738 200 2 2 42 39 154 0.472 4.57 2.19 Intr + 77313 77379 67 0 1 89 86 29 0.157 2.20 2.20 Intr + 84715 84832 118 0 1 99 111 45 0.811 8.44 2.21 Intr + 85382 85474 93 0 0 106 86 24 0.882 4.43 2.22 Term + 86214 86698 485 1 2 94 48 62 0.111 -1.90 2.23 PlyA + 87426 87431 6 -3.64 3.07 PlyA - 87934 87929 6 1.05 3.06 Term - 88141 88044 98 2 2 85 44 167 0.999 10.43 3.05 Intr - 88889 88838 52 2 1 106 110 22 0.999 5.17 3.04 Intr - 89256 89079 178 2 1 128 79 305 0.976 34.04 3.03 Intr - 89743 89682 62 1 2 88 37 24 0.553 -4.68 3.02 Intr - 90155 89951 205 1 1 39 92 227 0.445 17.93 3.01 Init - 91643 91630 14 2 2 59 80 -9 0.143 -4.94 3.00 Prom - 92500 92461 40 -8.77 4.00 Prom + 93416 93455 40 -4.21 4.01 Init + 93789 93843 55 2 1 73 44 27 0.818 -1.79 4.02 Intr + 94312 94398 87 2 0 142 99 117 0.940 18.64 4.03 Intr + 94515 94612 98 1 2 7 105 127 0.604 6.53 4.04 Intr + 95909 96020 112 1 1 71 68 193 0.996 16.06 4.05 Intr + 96393 96484 92 1 2 49 47 139 0.423 6.11 4.06 Intr + 96775 96922 148 0 1 64 88 183 0.390 16.22 4.07 Intr + 96996 97161 166 1 1 99 94 338 0.996 35.03 4.08 Term + 97246 97438 193 1 1 103 53 277 0.997 22.92 4.09 PlyA + 97992 97997 6 1.05 5.00 Prom + 98791 98830 40 -7.79 5.01 Init + 100001 100093 93 1 0 114 84 171 0.928 19.63 5.02 Intr + 100812 100946 135 2 0 141 73 185 0.996 23.57 5.03 Term + 101025 101114 90 2 0 91 52 192 0.999 13.92 5.04 PlyA + 101139 101144 6 1.05 6.22 PlyA - 101345 101340 6 -1.95 6.21 Term - 101701 101525 177 1 0 88 49 516 0.997 45.70 6.20 Intr - 102955 102791 165 1 0 101 101 248 0.999 28.07 6.19 Intr - 103262 103045 218 0 2 67 45 365 0.917 28.85 6.18 Intr - 103641 103423 219 1 0 1 27 170 0.427 1.00 6.17 Intr - 104045 103880 166 2 1 64 80 417 0.998 38.55 6.16 Intr - 104394 104254 141 0 0 99 105 330 0.998 36.86 6.15 Intr - 105663 105547 117 0 0 82 99 321 0.999 33.77 6.14 Intr - 105864 105742 123 0 0 99 81 331 0.997 34.79 6.13 Intr - 106250 106163 88 1 1 82 92 211 0.993 21.37 6.12 Intr - 108698 108520 179 2 2 98 96 291 0.997 30.13 6.11 Intr - 110420 110282 139 1 1 80 93 308 0.997 31.47 6.10 Intr - 115485 115265 221 0 2 76 89 607 0.998 57.23 6.09 Intr - 116636 116553 84 2 0 112 83 170 0.999 19.41 6.08 Intr - 117319 117190 130 0 1 98 82 265 0.999 28.10 6.07 Intr - 117896 117835 62 2 2 66 80 82 0.512 3.22 6.06 Intr - 121495 121264 232 0 1 80 87 394 0.917 36.80 6.05 Intr - 122746 122627 120 0 0 99 98 252 0.527 27.41 6.04 Intr - 123764 123676 89 2 2 41 111 71 0.523 3.97 6.03 Intr - 129755 129197 559 1 1 91 80 469 0.615 39.84 6.02 Intr - 130156 130011 146 1 2 -40 1 185 0.491 -3.41 6.01 Init - 130265 130167 99 2 0 64 53 154 0.928 9.72 6.00 Prom - 139145 139106 40 -0.61 7.00 Prom + 147495 147534 40 -3.41 7.01 Init + 147816 147818 3 2 0 108 81 0 0.094 1.23 7.02 Intr + 153974 154003 30 1 0 103 115 1 0.369 3.11 7.03 Intr + 155406 155556 151 2 1 79 99 150 0.532 15.45 7.04 Intr + 157653 157748 96 1 0 102 32 95 0.836 5.78 7.05 Intr + 158594 158680 87 0 0 91 66 56 0.744 4.14 7.06 Intr + 161147 161316 170 0 2 26 95 107 0.731 5.38 7.07 Intr + 163625 163738 114 1 0 76 119 12 0.914 4.25 7.08 Intr + 167336 167425 90 1 0 103 93 139 0.944 16.59 7.09 Intr + 168579 168637 59 2 2 76 91 15 0.421 -1.23 7.10 Intr + 172708 172786 79 1 1 76 82 51 0.347 3.35 7.11 Intr + 175596 175648 53 2 2 105 100 99 0.976 10.99 7.12 Intr + 177661 177735 75 1 0 83 74 113 0.968 8.52 7.13 Intr + 180437 180565 129 2 0 66 50 243 0.999 18.61 7.14 Intr + 182281 182458 178 1 1 99 77 265 0.974 26.94 7.15 Intr + 185654 185808 155 1 2 111 109 197 0.996 23.48 7.16 Term + 187869 188169 301 0 1 108 54 231 0.828 16.74 7.17 PlyA + 188204 188209 6 1.05 8.03 PlyA - 188254 188249 6 -0.45 8.02 Term - 193655 192471 1185 2 0 61 42 1354 0.314 120.40 8.01 Init - 194560 194501 60 1 0 82 69 34 0.665 1.68 8.00 Prom - 194645 194606 40 -3.41 9.15 PlyA - 194654 194649 6 1.05 9.14 Term - 194768 194696 73 1 1 131 38 138 0.976 10.77 9.13 Intr - 195004 194876 129 0 0 107 51 346 0.998 33.11 9.12 Intr - 195284 195096 189 1 0 78 68 457 0.992 41.92 9.11 Intr - 196035 195960 76 1 1 104 131 132 0.999 18.17 9.10 Intr - 196338 196242 97 0 1 92 72 243 0.999 23.18 9.09 Intr - 196664 196554 111 2 0 82 76 232 0.999 22.48 9.08 Intr - 196854 196789 66 0 0 123 96 79 0.996 11.79 9.07 Intr - 197198 197082 117 2 0 83 69 326 0.928 31.37 9.06 Intr - 197669 197517 153 2 0 88 82 306 0.988 30.78 9.05 Intr - 197891 197850 42 2 0 106 70 58 0.960 4.72 9.04 Intr - 199212 198658 555 0 0 139 58 959 0.783 91.64 9.03 Intr - 199877 199591 287 0 2 56 -47 233 0.386 4.20 9.02 Intr - 200392 200312 81 2 0 93 75 42 0.496 3.51 9.01 Init - 200747 200648 100 2 1 87 48 66 0.444 2.88 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 25971 25915 57 0 0 80 111 37 0.913 6.45 S.002 Term - 144442 144319 124 0 1 113 41 74 0.848 3.36 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815579f:5590508_5791618|GENSCAN_predicted_peptide_1|803_aa MAETLPGSGDSGPGTASLGPGVAETGTRRLSELRVIDLRAELKKRNLDTGGNKSVLMERL KKAVKEEGQDPDEIGIELEATSKKSAKRCVKGLKMEEEGTEDNGLEDDSRDGQEDMEASL ENLQNMGMMDMSVLDETEVANSSAPDFGEDGTDGLLDSFCDSKEYVAAQLRQLPAQPPEH AVDGEGFKNTLETSSLNFKVTPDIEESLLEPENEKILDILGETCKSEPVKEESSELEQPF AQDTSSVGPDRKLAEEEDLFDSAHPEEGDLDLASESTAHAQSSKADSLLAVVKREPAEQP GDGERTDCEPVGLEPAVEQSSAASELAEASSEELAEAPTEAPSPEARDSKEDGRKFDFDA CNEVPPAPKESSTSEGADQKMRSGRQRFWSEPVGQRAVLHNTRYGSQEPFQQVWEGNNFS KLCGHLYERVRVPFFMKVVGAKVVTNARSPGARCYGFVTMSTSDEATKCISHLHRTELHG RMISVEKAKNEPAGKKLSDRKECEVKKEKLSSVDRHHSVEIKIEKTVIKKEEKIEKKEEK KPEDIKKEEKDQDELKPGPTNRSRVTKSGSRGMERTVVMDKSKGEPVISVKTTSRSKERS SKSQDRKSESKEKRDILSFDKIKEQRERERQRQREREIRETERRREREQREREQRLEAFH ERKEKARLQRERLQLECQRQRLERERMERERLERERMRVERERRKEQERIHREREELRRQ QEQLRYEQERRPGRRPYDLDRRDDAYWPEGKRVAMEDRYRADFPRPDHRFHDFDHRDRGQ YQDHAIDRREGSRPMMGDHRDGQ >gi568815579f:5590508_5791618|GENSCAN_predicted_CDS_1|2409_bp atggcggagactctgcccgggtcgggcgactcgggccctggcacggcttctctcggcccg ggcgttgcggagactgggacgaggcggctcagcgagctgcgggtgatcgatctgcgggcg gagctgaagaagcggaacctggacacgggcggcaacaagagcgtcctgatggagcggctc aagaaggcggttaaagaagaggggcaagatcctgatgaaattggcatcgagttagaagcc accagcaagaagtcagccaagagatgtgttaaaggactgaagatggaggaggaaggcaca gaagataatggcctggaagacgattccagagacgggcaggaggacatggaagcaagtctg gagaacctgcagaatatgggcatgatggacatgagtgtgctagacgaaactgaagtggcg aatagcagtgctccagattttggggaggatggcacggacggccttctcgattccttttgt gatagtaaagaatacgtggctgcacagctgagacagctcccggctcagcccccagagcat gctgtggatggggaaggatttaagaacactttggaaacttcatcgttgaacttcaaagta actccggacattgaagaatcccttttggagccagaaaatgagaaaatactcgacattttg ggggaaacttgtaaatctgagccagtaaaagaagaaagttccgagctggagcagccattt gcacaggacacaagtagcgtggggccagacagaaagcttgcggaggaagaggacctattt gacagcgcccatccggaagagggtgatttagatttggccagcgagtcaacagcacacgct cagtcgagcaaggcagacagcctgttagcggtagtgaaaagggagcccgcggagcagcca ggcgatggcgagaggacggactgtgagcctgtagggctagagccggcagttgagcagagt agtgcggcctccgagctcgcggaggcctctagcgaggagctcgcagaagcacccacggaa gccccaagcccagaagccagagatagcaaagaagacgggaggaagtttgattttgacgct tgtaatgaagtccctccggctcctaaagagtcctcaaccagtgagggcgctgatcagaaa atgaggtcgggtcggcagcggttctggtcggaacctgtgggtcagcgggctgtcctccac aacacgcgctacggatctcaagaaccttttcagcaagtatgggaaggtaataactttagc aagttgtgtggtcatttgtatgagagagtaagagtgccctttttcatgaaggttgtcggg gccaaagtggtaacgaacgcccgcagcccgggggctcgatgctatggattcgtcaccatg tcgacatctgacgaggcgaccaagtgcatcagccatctccacagaactgagctgcatgga cgaatgatctccgtagagaaggccaaaaatgagcctgctgggaaaaagctttccgacaga aaagagtgcgaagtgaagaaggaaaaattatcgagtgtcgacagacatcattctgtggag atcaaaattgaaaaaactgtaattaagaaggaagagaagattgagaagaaggaggaaaaa aagcctgaagacattaagaaggaagaaaaagaccaggatgagctgaaacccggacctaca aatcggtctagagtcaccaaatcaggaagcagaggaatggagcggacggtcgtgatggat aaatcgaaaggagagcccgtcattagcgtgaaaaccacaagcaggtccaaagagagaagc tccaagagtcaggatcgcaagtcagaaagcaaagaaaagagagacatcttgtcgtttgat aaaatcaaagaacaaagggagagagagcgccagaggcagcgggaacgggagatccgcgaa acggagaggcggcgggagcgcgagcagcgggagcgggagcaacgcctcgaggccttccat gagcggaaggagaaggcccggctacagcgggaacgcctgcagctcgagtgccagcgccag cggctggagcgggagcgcatggagcgggagcggctggagcgcgagcgcatgcgcgtggag cgtgagcgcaggaaggagcaggagcgcatccaccgcgagcgcgaggagctgcggcgccag caggagcagctgcgttacgagcaggagcggcggcccgggcggaggccctacgacctggac cgacgagatgatgcctattggccagaaggaaagcgtgtggcaatggaggaccgatatcgt gcagactttccccggccagaccaccgctttcacgacttcgatcatcgagaccggggccag taccaggaccacgccatcgacaggcgggagggttcgaggccaatgatgggagaccaccgg gatgggcag >gi568815579f:5590508_5791618|GENSCAN_predicted_peptide_2|1096_aa MAETLSGLGDSGAAGAAALSSASSETGTRRLSDLRVIDLRAELRKRNVDSSGNKSVLMER LKKEGQKNKKGKQDTCLGHCFSSPGGVSELPVPGKRAIEDEGGNPDEIEITSEGNKKTSK RSSKGRKPEEEGVEDNGLEENSGDGQEDVETSLENLQDIDIMDISVLDEAEIDNGSVADC VEDDDADNLQESLSDSRELVEGEMKELPEQLQEHAIEDKETINNLDTSSSDFTILQEIEE PSLEPENEKILDILGETCKSEPVKEESSELEQPFAQDTSSVGPDRKLAEEEDLFDSAHPE EGDLDLASESTAHAQSSKADSLLAVVKREPAEQPGDGERTDCEPVGLEPAVEQSSAASEL AEASSEELAEAPTEAPSPEARDSKEDGRKFDFDACNEVPPAPKESSTSEGADQKMRATDL KNLFSKYGKVVGAKVVTNARSPGARCYGFVTMSTAEEATKCINHLHKTELHGKMISVEKA KNEPVGKKTSDKRDSDGKKEKSSNSDRSTNLKRDDKCDRKDDAKKGDDGSGEKSKDQDDQ KPGPSERSRATKSGSRGTERTVVMDKSKGVPVISVKTSGSKERASKSQDRKSASREKRSV VSFDKVKEPRKSRDSESHSRVRERSEREQRMQAQWEREERERLEIARERLAFQRQRLERE RMERERLERERMHVEHERRREQERIHREREELRRQQELRYEQERRPAVRRPYDLDRRDDA YWPEAKRAALDERYHSDFNRQDRFHDFDHRDRGRYPDHSVDRREGSRSMMGEREGQHYPE RHGGPERHGRDSRDGWGGYGSDKRMSEGRGLPPPPRFVSHTRQYLTPPPPTRGPASRWDV GTGWREKHVRSLRAWPHDEPRRNVRRPPLGMKDTSPPVASVPPEASRGVRAQGFHCCLCH RLPPDLIKTGCSALSPHGEKPGCRWPVWHRMDGAKGASGWVRTNSWDKACDPREELSHIR GAAGPGRLDGGEGPESSCSLASSSPSPLTVTVTGVRLQRPPGADGRPLAQPWHHSTECKP LLSSQAGAGAGAGCLGARRLEILHPLRGFVVNSLGSGQAGQTELSVCASFFVCKMGLQSA PSWAFGKDLVDSVRGQ >gi568815579f:5590508_5791618|GENSCAN_predicted_CDS_2|3291_bp atggcggagactctgtcaggcctaggtgattctggagcggcgggcgcggcggctctgagc tccgcctcgtcagagaccgggacgcggcgcctcagcgacctgcgagtgatcgatctgcgg gcggagctgaggaaacggaatgtggactcgagcggcaacaagagcgttttgatggagcgg ctgaagaaggaagggcaaaagaacaaaaaggggaaacaggacacctgcctagggcattgc ttctcttctcctggtggtgtttcagaattgcctgtccccgggaaaagggcaattgaagat gaaggtggtaatcctgacgaaattgaaattacctccgagggaaacaagaaaacatcaaag aggtctagcaaagggcgcaaaccagaagaagagggtgtggaagataacgggctggaggaa aactctggggatggacaggaggatgttgagaccagtctggagaacttgcaggacatcgac atcatggatatcagtgtgttggatgaagcagaaattgataatggaagcgttgcagattgt gtcgaagacgatgatgctgataacctccaggagtccctgtcggatagtagagagctagtc gagggggaaatgaaagagcttccggagcagcttcaggaacatgctatagaggacaaagaa actataaacaatttagatacttcatcatctgacttcactatattacaggaaattgaagag ccatccctggagccagaaaatgagaaaatactcgacattttgggggaaacttgtaaatct gagccagtaaaagaagaaagttccgagctggagcagccatttgcacaggacacaagtagc gtggggccagacagaaagcttgcggaggaagaggacctatttgacagcgcccatccggaa gagggtgatttagatttggccagcgagtcaacagcacacgctcagtcgagcaaggcagac agcctgttagcggtagtgaaaagggagcccgcggagcagccaggcgatggcgagaggacg gactgtgagcctgtagggctagagccggcagttgagcagagtagtgcggcctccgagctc gcggaggcctctagcgaggagctcgcagaagcacccacggaagccccaagcccagaagcc agagatagcaaagaagacgggaggaagtttgattttgacgcttgtaatgaagtccctccg gctcctaaagagtcctcaaccagtgagggcgctgatcagaaaatgagagctacagatttg aagaatcttttcagcaaatatgggaaggtggtgggcgccaaggttgtgacaaatgcccgg agtcctggagctcgctgttacggttttgtcacgatgtccacagcagaagaggccacaaaa tgcattaaccacctgcacaagacggagctccacggaaagatgatctccgtggagaaagcc aaaaatgaacctgtgggaaagaaaacctctgacaaaagagacagtgacgggaaaaaggag aagtcgagcaacagtgacagatctacaaaccttaagagggatgataaatgtgacagaaaa gatgatgctaagaagggtgacgacggaagtggagaaaagagtaaggaccaagatgatcag aaacctggcccctcagagcgatctcgagccacaaagtcaggaagtcgagggaccgaacgg actgtagtaatggataaatccaaaggggtgcctgtgattagtgtaaaaacgtccgggtcc aaagagagagcttccaaaagccaggatcgcaaatcagccagcagagagaagcggtccgtc gtgtcctttgataaggtcaaggagcctcggaagtcaagagactcagagtcccatagcagg gtgcgtgaacgcagtgaacgcgaacaacgcatgcaggcgcagtgggagcgcgaggagcgt gagcggctggagattgcccgagagaggctggccttccagcgccagcggctggagcgggag cgcatggagcgggaacggctggagcgcgaacgcatgcacgtggagcacgagcgcaggcgc gagcaggagcgcatccaccgtgagcgcgaggagctgaggcgccagcaggaactgcgctat gagcaggagcggcggcccgcggtgcggcggccctacgacctggaccggcgagatgatgcc tattggccggaagccaagcgggccgccctggatgagcgctaccattctgactttaaccgc caggaccgcttccacgactttgaccacagggaccgcggccgctaccccgaccactcggtg gacaggagagaaggttcaaggtcaatgatgggagaacgagaaggacagcattacccagaa cgccatggaggaccagagcgccacggccgggactcccgcgatggctgggggggctatggc tctgacaagaggatgagcgagggccgggggctgcctcctccccccaggtttgtgtcccac acccgacagtacctgaccccccccccgcccacaagggggcccgcaagtcgctgggatgtg ggcacagggtggcgagagaagcatgtccggtcactccgggcctggccacatgatgaaccg aggaggaatgtcaggagaccacccctggggatgaaggacaccagccctccggtggcatca gtgccaccagaggccagcagaggggtcagagcacagggcttccactgttgcctctgccat cgcctgcctccagatttaattaaaactggctgctcagcactcagcccacacggggagaag ccaggttgccgctggcccgtatggcaccggatggatggggccaaaggtgccagtggatgg gtgaggacgaactcatgggataaagcctgtgaccccagggaagaactaagccacattcgt ggagctgcaggacccggccgcctggatggaggggaggggccagaaagcagctgctcactg gcctcgtccagtccttcccctctaacagtgacggtaacaggtgtgaggctgcagaggcct cctggagcggacggacgccctctggcccagccatggcatcacagcaccgagtgcaaaccc ctcctgtcctcacaggctggggctggggctggggctgggtgcctgggtgcgaggcgacta gaaattctgcatcccctgcgagggtttgtggtgaacagcctgggctccggacaggctggg cagacagaactgtctgtctgtgcaagtttcttcgtctgtaaaatgggcctgcagtctgct ccttcctgggccttcgggaaggacttggtggacagtgtcaggggacagtga >gi568815579f:5590508_5791618|GENSCAN_predicted_peptide_3|202_aa MRPCSGPPLRDRSPSLESQSRKTPRLPEDLASGKKDYTFQRPLRRRDRKRRASRVSLRVD PSDHGGPGVVADERALGVQFAVSASASEPQLSSLFLIKGSVAGGAVYLVYDQELLGPSDK SQAALQKAGEVVPPAMYQFSQYVCQQTGLQIPQLPAPPKIYFPIRDSWNAGIMTVMSALS VAPSKAREYSKEGWEYVKARTK >gi568815579f:5590508_5791618|GENSCAN_predicted_CDS_3|609_bp atgaggccctgcagcggccctccgctgcgagaccgcagcccttctctggagtctcagagc cgcaagacaccacgactcccagaggaccttgcgtcgggcaagaaagactacaccttccag aggcctctgcggcgccgcgacaggaagcggcgggcgagccgagtgtccttgcgcgtggat ccgagcgaccatggtggcccgggtgtggtcgctgatgagcgagcccttggcgttcagttc gcggtgtcagcctccgcctccgagcctcagttgtcttctctgttcctcatcaagggaagt gtggctgggggcgccgtctacctggtgtacgaccaggagctgctggggcccagcgacaag agccaggcagccctacagaaggctggggaggtggtcccccccgccatgtaccagttcagc cagtacgtgtgtcagcagacaggcctgcagataccccagctcccagcccctccaaagatt tactttcccatccgtgactcctggaatgcaggcatcatgacggtgatgtcagctctgtcg gtggccccctccaaggcccgcgagtactccaaggagggctgggagtatgtgaaggcgcgc accaagtag >gi568815579f:5590508_5791618|GENSCAN_predicted_peptide_4|316_aa MSHHIQLKEVTFALRLERSPHRTMKVLLLTGLGALFFAYYWDDNFDPGANAGVGEELAYH YARLGSHLVLTAHTEALLQKVVGNCRKLGAPKVFYIAADMASPEAPESVVQFALDKLGGL DYLVLNHIGGAPAGTRARSPQATRWLMQVNFVSYVQLTSRALPSLTDSKGSLVVVSSLLG ACTRPRLCGTGSGELDAGRVPTSFSTPYSAAKFALDGFFGSLRRELDVQDVNVAITMCVL GLRDRASAAEAVRGVTRVKAAPGPKAALAVIRGGATRAAGVFYPWRFRLLCLLRRWLPRP RAWFIRQELNVTAAAA >gi568815579f:5590508_5791618|GENSCAN_predicted_CDS_4|951_bp atgagccaccacatccagctgaaggaggtcacttttgcactgagacttgaaagaagccca cacaggaccatgaaggtgcttctcctcacagggctgggggccctgttcttcgcctattat tgggatgacaacttcgacccaggggccaacgctggtgttggtgaggagctggcctatcac tacgcgcgtctgggctcccacctggtgctcactgcccacactgaggctctcctgcagaag gtggtagggaactgccggaagctgggcgcccccaaggtcttctacatcgcggcggacatg gcctcccctgaggcgcccgagagcgtggtgcagtttgcgctggacaagctgggcgggctg gactacctcgtgctgaaccacatcggcggcgccccggccggcacgcgagcccgcagcccc caggcaactcgctggctcatgcaggtaaactttgtgagctacgtgcaactgacgtcgcgg gcgctgcccagcctgacggacagcaagggctccctggtggtggtgtcctcgctgctcggt gcgtgcacccggccccggctctgcgggacggggagtggggagctcgatgcgggccgcgtg cccacgtcgttctccactccctactcggcggccaagtttgcgctggacggcttcttcggc tccctgcggcgggagctggacgtgcaggacgtgaacgtggccatcaccatgtgcgtcctg ggcctccgagatcgcgcctccgccgccgaggcagtcaggggagtcacgagggtcaaggcg gccccggggcccaaggcagccctggccgtgatccgcggcggcgccacgcgcgcggccggc gtcttctacccgtggcgtttccgcctgctgtgcttgctccggcgctggctaccgcgcccg cgggcctggtttatccgccaggagctcaacgtcacggccgcggcagcctga >gi568815579f:5590508_5791618|GENSCAN_predicted_peptide_5|105_aa MALRYPMAVGLNKGHKVTKNVSKPRHSRRRGRLTKHTKFVRDMIREVCGFAPYERRAMEL LKVSKDKRALKFIKKRVGTHIRAKRKREELSNVLAAMRKAAAKKD >gi568815579f:5590508_5791618|GENSCAN_predicted_CDS_5|318_bp atggccctacgctaccctatggccgtgggcctcaacaagggccacaaagtgaccaagaac gtgagcaagcccaggcacagccgacgccgcgggcgtctgaccaaacacaccaagttcgtg cgggacatgattcgggaggtgtgtggctttgccccgtacgagcggcgcgccatggagtta ctgaaggtctccaaggacaaacgggccctcaaatttatcaagaaaagggtggggacgcac atccgcgccaagaggaagcgggaggagctgagcaacgtactggccgccatgaggaaagct gctgccaagaaagactga >gi568815579f:5590508_5791618|GENSCAN_predicted_peptide_6|1157_aa MVTAATSINISIDLGFRRHHCPSTATGSRCTIRAEALRMRINESRERASAHCSPALRLNL EHAQTNPGKPESAHPKVRSEPEPSSLKRLFRATRPSGTEARAGRHVRFAASGNDASCVSR QYGRAMAASTGYVRLWGAARCWVLRRPMLAAAGGRVPTAAGAWLLRGQRTCDASPPWALW GRGPAIGGQWRGFWEASSRGGGAFSGGEDASEGGAEEGAGGAGGSAGAGEGPVITALTPM TIPDVFPHLPLIAITRNPVFPRFIKIIEVKNKKLVELLRRKVRLAQPYVGVFLKRDDSNE SDVVESLDEIYHTGTFAQIHEMQDLGDKLRMIVMGHRRVHISRQLEVEPEEPEAENKHKP RRKSKRGKKEAEDELSARHPAELAMEPTPELPAEVLMVEVENVVHEDFQVTEEVKALTAE IVKTIRDIIALNPLYRESVLQMMQAGQRVVDNPIYLSDMGAALTGAESHELQDVLEETNI PKRLYKALSLLKKEFELSKLQQRLGREVEEKIKQTHRKYLLQEQLKIIKKELGLEKDDKD AIEEKFRERLKELVVPKHVMDVVDEELSKLGLLDNHSSEFNVTRNYLDWLTSIPWGKYSN ENLDLARAQAVLEEDHYGMEDVKKRILEFIAVSQLRGSTQGKILCFYGPPGVGKTSIARS IARALNREYFRFSVGGMTDVAEIKGHRRTYVGAMPGKIIQCLKKTKTENPLILIDEVDKI GRGYQGDPSSALLELLDPEQNANFLDHYLDVPVDLSKVLFICTANVTDTIPEPLRDRMEM INVSGYVAQEKLAIAERYLVPQARALCGLDESKAKLSSDVLTLLIKQYCRESGVRNLQKQ VEKVLRKSAYKIVSGEAESVEVTPENLQDFVGKPVFTVERMYDVTPPGVVMGLAWTAMGK DKLIQMGLGATTHKGGERAKGMVREGLEKGLCLSAGQRQLGLVALGVSSVAGSCWGLPCG AYRARNPQRSKRGSTLFVETSLRRPQDKDAKGDKDGSLEVTGQLGEVMKESARIAYTFAR AFLMQHAPANDYLVTSHIHLHVPEGATPKDGPSAGCTIVTALLSLAMGRPVRQNLAMTGE VSLTGKILPVGGIKEKTIAAKRAGVTCIVLPAENKKDFYDLAAFITEGLEVHFVEHYREI FDIAFPDEQAEALAVER >gi568815579f:5590508_5791618|GENSCAN_predicted_CDS_6|3474_bp atggtcacagccgccaccagcatcaacatcagcatcgacttgggcttccgccgccaccac tgcccctcaaccgccacggggagtcgctgcacaatccgagctgaagccctgcgcatgcgc atcaatgagtcccgggagcgggcctccgcgcactgcagcccggcgctccgcctgaatctt gagcatgcgcagacgaatcccgggaagcccgaatccgcgcaccccaaagtgcgctcagag cctgagcccagctccctgaagcggctgtttcgagccacgcgcccatcgggtaccgaggca cgcgccgggcgtcacgtgcgtttcgcggcgagcggaaatgacgcgagttgtgtgagccgc cagtatggccgggctatggcggcgagcactggctacgtgcgactgtggggagcggcgcgg tgctgggtgctgcggcggccgatgctggccgccgccggggggcgggttcccactgcagca ggagcgtggttgctccgaggccagcggacctgcgacgcctctcctccttgggcactgtgg ggccgaggcccggcaattgggggccaatggcgggggttttgggaagcgagcagccgcggc ggaggcgcattctcggggggcgaggacgcctccgagggcggcgcggaggaaggagccggc ggcgcggggggcagcgcgggcgccggggaaggcccggtcataacggcgctcacgcccatg acgatccccgatgtgtttccgcacctgccgctcatcgccatcacccgcaacccggtgttc ccgcgctttatcaagattatcgaggttaaaaataagaagttggttgagctgctgagaagg aaagttcgtctcgcccagccttatgtcggcgtctttctaaagagagatgacagcaatgag tcggatgtggtcgagagcctggatgaaatctaccacacggggacgtttgcccagatccat gagatgcaggaccttggggacaagctgcgcatgatcgtcatgggacacagaagagtccat atcagcagacagctggaggtggagcccgaggagccggaggcggagaacaagcacaagccc cgcaggaagtcaaagcggggcaagaaggaggcggaggacgagctgagcgccaggcacccg gcggagctggcgatggagcccacccctgagctcccggctgaggtgctcatggtggaggta gagaacgttgtccacgaggacttccaggtcacggaggaggtgaaagccctgactgcagag atcgtgaagaccatccgggacatcattgccttgaaccctctctacagggagtcagtgctg cagatgatgcaggctggccagcgggtggtggacaaccccatctacctgagcgacatgggc gccgcgctcaccggggccgagtcccatgagctgcaggacgtcctggaagagaccaatatt cctaagcggctgtacaaggccctctccctgctgaagaaggaatttgaactgagcaagctg cagcagcgcctggggcgggaggtggaggagaagatcaagcagacccaccgtaagtacctg ctgcaggagcagctaaagatcatcaagaaggagctgggcctggagaaggacgacaaggat gccatcgaggagaagttccgggagcgcctgaaggagctcgtggtccccaagcacgtcatg gatgttgtggacgaggagctgagcaagctgggcctgctggacaaccactcctcggagttc aatgtcacccgcaactacctagactggctcacgtccatcccttggggcaagtacagcaac gagaacctggacctggcgcgggcacaggcagtgctggaggaagaccactacggcatggag gacgtcaagaaacgcatcctggagttcattgccgttagccagctccgcggctccacccag ggcaagatcctctgcttctatggcccccctggcgtgggtaagaccagcattgctcgctcc atcgcccgcgccctgaaccgagagtacttccgcttcagcgtcgggggcatgactgacgtg gctgagatcaagggccacaggcggacctacgtgggcgccatgcccgggaagatcatccag tgtttgaagaagaccaagacggagaaccccctgatcctcatcgacgaggtggacaagatc ggccgaggctaccagggggacccgtcgtcggcactgctggagctgctggacccagagcag aatgccaacttcctggaccactacctggacgtgcccgtggacttgtccaaggtgctgttc atctgcacggccaacgtcacggacaccatccccgagccgctgcgagaccgtatggagatg atcaacgtgtcgggctacgtggcccaggagaagctggccattgcggagcgctacctggtg ccccaggctcgcgccctgtgtggcttggatgagagcaaggccaagctgtcatcggacgtg ctgacgctgctcatcaagcagtactgccgcgagagcggtgtccgcaacctgcagaagcaa gtggagaaggtgttacggaaatcggcctacaagattgtcagcggcgaggccgagtccgtg gaggtgacgcccgagaacctgcaggacttcgtggggaagcccgtgttcaccgtggagcgc atgtatgacgtgacaccgcccggcgtggtcatggggctggcctggaccgcaatgggtaag gacaagctcatccagatgggccttggggccaccacgcacaaaggaggcgagagggcaaag gggatggtgcgggaggggctggagaagggcttgtgtctgtctgcagggcagcggcagctg ggccttgtagccctgggcgtgtcctctgtggctggcagctgctgggggctgccctgtggg gcgtacagagccaggaacccgcaacgcagcaaacgaggctccacgctgtttgtggagaca tccctgagacggccacaggacaaggatgccaagggtgacaaggatggcagcctggaggtg acaggccagctgggggaggtgatgaaggagagcgcccgcatagcctacaccttcgccaga gccttcctcatgcagcacgcccccgccaatgactacctggtgacctcacacatccacctg catgtgcccgagggcgccacccccaaggacggcccaagcgcaggctgcaccatcgtcacg gccctgctgtccctggccatgggcaggcctgtccggcagaatctggccatgactggcgaa gtctccctcacgggcaagatcctgcctgttggtggcatcaaggagaagaccattgcggcc aagcgcgcaggggtgacgtgcatcgtcctgccagccgagaacaagaaggacttctacgac ctggcagccttcatcaccgagggcctggaggtgcacttcgtggaacactaccgggagatc ttcgacatcgccttcccggacgagcaggcagaggcgctggccgtggaacggtga >gi568815579f:5590508_5791618|GENSCAN_predicted_peptide_7|589_aa MVAMLVVNQGKGMFKYSDHPLNRSFGLSFDYNGTLDILIAPGQRGILLLWFENSLLFSHN AGQLVDTVRVKKGDQTLFSSIFEAKITIHNIAVTENELAVITREDNLYYGNLGIVPSSII KVDQYIWSEDVALMFRSPGTLEILTPLRDTAFPAFDFQKCLVNIQALLMDPELHVGKCKI EFLTGEFIYRMYTIDMHSQLELTASLIPQPGTSLIPLVMVSNPHSLGFQATFYENGYTSD GNTKYKLDIFLKQQQHWGRTDSNFTSSLKKATMSTLTVDIANKEISCVDIKPLSTLISVG CDLDKKIVIQNKVSACSMGILDPLTLQDNYSFIIEKEFYDPGFQGQQSSEDLHVFYSYQQ LGCPLLVYYDTLWKPVVELWRKDSFQEVIDAEYVLLEVNGQFSYSYSLTAQSAMCTSQPQ NWTTMIKEFGGPFFWNRENYVSCHDPNNNAPLRWPDVQYQILGGRTANQIIFGHNGFYVF YISIVDPYYSYCQLETIFSIYVYGAFPVQLVSAGVVILLIISSILGSVWLAYKTPKLLRT ARGRRIKKCATQLCRRCKTVCQFRASATARAGTEPPGRHRTPHGGRSDH >gi568815579f:5590508_5791618|GENSCAN_predicted_CDS_7|1770_bp atggttgcgatgcttgtagtgaatcaagggaagggcatgttcaagtactcagatcacccc ctcaaccggagtttcgggctgtcttttgactataatgggactctagacatcctcatcgcc cccggccagagaggcatcctgctcctatggtttgagaacagcctgttgttttcccataat gcaggtcagctcgtcgacaccgtccgggtgaaaaaaggagaccagaccttgttttcttcc atttttgaagccaagatcaccatccacaacattgctgtcactgaaaatgaactggcagtt ataactcgggaggataatttgtattatggcaatctgggcatcgtgccaagttccataatc aaagtagaccaatacatctggtcagaagacgtggccctgatgttcaggagcccagggact ctggaaatactgaccccactgcgtgacacagcctttccagcttttgatttccagaagtgc ctcgtgaatatccaggcgcttctcatggaccctgaactccacgttggaaagtgcaagata gagtttctgacaggagaatttatatacaggatgtataccattgacatgcacagccagctg gaattgactgcttcgttgataccccagccaggcacatccctgattcctctggtgatggtg agcaacccccactccctggggttccaggccaccttctacgagaacggttacacatcagat gggaacaccaagtacaaactggatattttcctaaaacagcagcagcactggggcaggacc gactccaacttcacttccagtttaaagaaagccaccatgtctaccttaactgtggacata gcaaacaaggaaatttcatgtgtggatatcaagccactgtcgacactgatttcagttggc tgcgacctggataaaaagatcgtcatccagaacaaagtttccgcctgttccatgggcatc ctggaccccttgaccctgcaagacaattacagcttcatcatcgagaaggaattctacgac cccggcttccaggggcagcagtcctccgaggacctgcacgtgttttactcctaccagcag ctgggctgtcctctcctcgtctactatgacaccctatggaagcccgtggtggagctgtgg cgaaaagacagtttccaggaggtcatcgacgccgagtatgtgttactggaggtgaacggg cagttctcatactcctattccctgacggcccagtcggccatgtgtacctcccagccgcag aactggaccaccatgataaaggaattcggggggcccttcttctggaacagagagaactat gtgagctgccacgaccccaacaacaatgcccctttgaggtggccagacgtccagtatcag atcttgggcggccggacagcaaaccagatcattttcggccacaatggcttttatgtcttc tacatttcgatcgtggatccgtactacagctactgtcaactggagaccatctttagcatc tacgtgtatggagcattccccgtgcagctggtctctgctggagtcgtcatcctactgatc atctccagcatcctggggtccgtttggctggcctacaagacccccaagctgctacgcaca gcacgcggccgcaggatcaagaagtgtgcgacacagctgtgtaggagatgcaagacggtc tgccagttcagggcctcagccacagccagggcaggcacagagcccccgggacgccaccgc actcctcacggaggcaggtctgaccactga >gi568815579f:5590508_5791618|GENSCAN_predicted_peptide_8|414_aa MGPAPSWVLLVPREALTPKKGPPNGKVLVASPKQAPRLGLGPSGSSCSQGTRLPPTGFQM APCGCFFDPRIYRIEWTTPDLGQSALYKLAASSGGPAGVPSAPGSYLLEPQPYLKAPGLP PYPHYQQAPGGPQFLLPYFPPEGPGPEALGFVGDAGPAAFVELPLPPLEEGPAPLPPPPP KENKPPPVLITLPAEPTLPPDAYSHLQGHLGHFPGPEPLAFPVKELQGSGARPGVPLYPP GLSELKVAEVKEGALLGAGKAKAPKTARALALPDKVLLEDAMKLFDCLPGASEPEGTLCE VPGPALPDSSGGNSADDIRSLCLPEELLSFDYSVPEILDTVSNVDYFFNFKALDEEQPPH PGPPATNTPAPILSGKRKASTAKKGKPGRKARQPAGPASATPPGPREDLGATPH >gi568815579f:5590508_5791618|GENSCAN_predicted_CDS_8|1245_bp atgggccctgccccaagctgggtgctgctggtgcccagagaggccttgacccccaagaag gggccccccaatggcaaggttcttgtggcatctcccaaacaggcccccaggcttgggctg ggcccctcaggcagcagctgctctcagggcacccgcctgccgcccacaggtttccagatg gccccatgcgggtgcttcttcgacccccgcatctatcggatcgagtggaccacccccgac ctgggccagtcagccctgtataagctggcagcaagcagcggggggccagcgggggtcccc tccgccccaggcagctacctcctggagcctcagccctacctcaaggccccggggctgcct ccatacccccactaccagcaggcacccggggggccccagtttctcttgccctacttcccg cctgagggccccgggccagaggctctgggttttgtgggggacgcagggcccgccgccttc gtggagctgcccctaccgcccctagaggaaggcccggccccgctgccacccccacccccc aaggagaacaagccgccccctgtactcatcacgctgcctgcagagcccacactgccccca gacgcctacagccacctccagggtcacctcggccacttccctgggcccgaacccctggcc ttccccgtcaaggagctgcagggcagtggggcccgacctggggtgcccctgtacccaccg ggcctcagcgagctcaaggtggccgaggtcaaggagggggccctgctgggagcaggcaag gccaaggcccccaagacggccagagctttggcactgcctgacaaggttctgctggaggac gccatgaagctcttcgactgcctgccaggcgcctctgagcctgagggtaccctgtgcgag gtccctgggccggccctgcctgacagcagtggtgggaactcagccgatgacatccgctcg ctgtgcctgcccgaggagctgctgtcctttgactacagcgtgcctgagatcctggacacc gtgtccaacgttgactacttcttcaacttcaaggcgctcgacgaggagcagccgccccac ccggggccccctgccaccaacaccccggcccccattctgtctggcaagagaaaggcctcg acggccaagaagggaaagccgggaaggaaggccaggcagccggcaggcccagccagcgcc actcccccggggcccagggaggacctgggagccaccccgcattaa >gi568815579f:5590508_5791618|GENSCAN_predicted_peptide_9|691_aa MASLERHEHAHFPSTIREDTRDPEGLPATLQSGWWSAEVPEIVHVGACHMREGHHVHARA VFIDYVRRVFLSLSVGRYLTTKEQFHQFLEAKGQEKTCRETEVGDPAGNELAEPEAKRIR LEDGQTADGQTEEAAEPGEQLQTQKRARGQNKGRPHESAAKCFFGDRCRFLHDVGRYLET KPADLGPRCVLFETFGRCPYGVTCRFAGAHLRPEGQNLVQEELAARGTQPPSIRNGLDKA LQQQLRKREVRFERAEQALRRFSQGPTPAAAVPEGTAAEGAPRQENCGAQQVPAGPGTST PPSSPVRTCGPLTDEDVVRLRPCEKKRVRVEDNVSSRSVHLLDIRGKLYLAPLTTCGNLP FRRICKRFGADVTCGEMAVCTNLLQGQMSEWALLKRHQCEDIFGVQLEGAFPDTMTKCAE LLSRTVEVDFVDINVGCPIDLVYKKGGGCALMNRSTKFQQIVRGMNQVLDVPLTVKIRTG VQERVNLAHRLLPELRDWGVALVTLHGRSREQRYTKLADWQYIEECVQAASPMPLFGNGD ILSFEDANRAMQTGVTGIMIARGALLKPWLFTEIKEQRHWDISSSERLDILRDFTNYGLE HWGSDTQGVEKTRRFLLEWLSFLCRYVPVGLLERLPQRINERPPYYLGRDYLETLMASQK AADWIRISEMLLGPVPPSFAFLPKHKANAYK >gi568815579f:5590508_5791618|GENSCAN_predicted_CDS_9|2076_bp atggcgtcattggaacgacatgagcatgcgcacttccccagcacaatcagggaagacacg cgtgacccggaaggtcttcccgccacactccagagcggatggtggtcagcggaggtacct gagatcgtgcacgttggggcctgtcacatgcgcgaaggacaccacgtgcatgctagggca gtgtttattgactatgttcggagggttttcctttccctttctgtcggcagatacctcacc accaaggagcagtttcaccaattcctggaagccaaagggcaggagaagacttgccgggaa accgaggtaggagaccctgctggcaatgagctggctgagcctgaggctaagcggatccga ctggaggatggacagacggcggacgggcagacggaggaggcagcagagcccggggagcag ctacagactcagaagagggcccggggacaaaacaagggccggccccatgagtcggctgct aagtgtttcttcggtgatcgctgccgctttctgcacgacgtggggcgctacctggagacc aagccggccgacctgggcccccgctgcgtgctcttcgagaccttcggccggtgcccctac ggcgtgacctgccgcttcgctggggcccacctgaggcccgagggacagaacctggtgcag gaggagttggcggcccgcgggacccagcccccgtccatccgcaacggcctggacaaagcc ctgcagcagcagctgcggaagcgcgaggtccgcttcgagcgagctgagcaggccctgcgc cggttcagccagggccccacacccgctgccgctgtccccgagggcacggcagccgagggc gctcccaggcaggaaaactgtggtgcccagcaggtccccgcagggccgggcactagcacc cctcccagcagccccgtgcggacctgcgggcccctgacggatgaggacgtggtcaggctg cggccctgtgagaagaagcgggtacgtgttgaggacaacgtcagtagcagatctgtccat ctgctggacatccgtggcaaactttacctggcccccctcaccacgtgtgggaacctgccc ttccgacggatctgcaagcgcttcggggcggatgtgacatgtggagagatggccgtctgc accaacctgctgcagggccagatgtccgagtgggccctactcaaacgccaccagtgtgag gacatctttggcgtccagctggagggcgccttccccgacaccatgaccaagtgtgccgag ctgctgagccgcaccgtggaggtggactttgtggacatcaacgtcggctgccccatcgac ctcgtgtacaagaagggtgggggctgtgccctcatgaatcgctccaccaagttccagcag atcgtccgtggcatgaaccaggtgctggatgtgccgctgactgtgaagatccgcacaggc gtccaggagcgtgtgaacctggcgcaccgcctgctgcccgagctgcgggactggggcgtg gcactcgtcacgctccacggccgctctcgggagcagcgctacaccaagctagccgactgg cagtacatcgaggagtgcgtgcaggccgccagccccatgcccctgttcggaaatggggac atcttgtcatttgaggatgccaaccgcgccatgcagactggtgtcaccgggatcatgatt gcccgtggcgccctgctcaagccgtggctcttcacggagatcaaggagcagcggcactgg gacatctcgtcgtccgagcgcctggacatcctgcgggacttcaccaactacggcctggag cactggggctcggacacgcagggcgtggagaagacccggcgctttctgctcgagtggctg tccttcctgtgccggtacgtgcccgtggggctgctggagcggctcccacagaggatcaac gagcggccgccctactacctgggccgcgactacctggagacgctgatggccagccagaag gcagccgactggatccgcatcagcgagatgctccttgggccagtgccccccagcttcgcc ttcttgccgaagcacaaggccaacgcgtacaagtag