GENSCAN 1.0 Date run: 6-Nov-116 Time: 20:35:32 Sequence gi568815586r:52575196_52780348 : 205153 bp : 47.42% 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.22 PlyA - 1191 1186 6 1.05 1.21 Term - 10977 10787 191 1 2 78 45 181 0.720 10.41 1.20 Intr - 11785 11751 35 0 2 114 84 30 0.997 3.07 1.19 Intr - 12656 12436 221 2 2 113 94 539 0.999 54.10 1.18 Intr - 15766 15641 126 1 0 61 94 208 0.995 19.58 1.17 Intr - 16433 16269 165 2 0 92 105 363 0.936 38.56 1.16 Intr - 17296 17201 96 1 0 73 74 113 0.989 8.61 1.15 Intr - 17757 17697 61 2 1 96 116 98 0.977 12.14 1.14 Intr - 23014 22880 135 0 0 39 46 98 0.514 0.38 1.13 Intr - 23917 23703 215 1 2 80 105 373 0.998 35.71 1.12 Intr - 26275 25832 444 1 0 65 113 698 0.918 63.60 1.11 Intr - 26486 26446 41 0 2 49 109 52 0.675 1.34 1.10 Intr - 26645 26526 120 0 0 106 83 -5 0.464 1.27 1.09 Intr - 33257 33102 156 0 0 122 8 215 0.878 16.88 1.08 Intr - 34086 34052 35 2 2 143 59 33 0.999 3.77 1.07 Intr - 35640 35420 221 0 2 5 94 558 0.977 45.20 1.06 Intr - 36134 36009 126 2 0 85 72 180 0.975 16.98 1.05 Intr - 38657 38493 165 2 0 119 100 399 0.970 44.36 1.04 Intr - 39479 39384 96 2 0 30 74 214 0.999 14.41 1.03 Intr - 40144 40084 61 0 1 109 100 79 0.993 9.94 1.02 Intr - 41185 40971 215 1 2 59 83 475 0.992 41.61 1.01 Init - 43329 42883 447 0 0 98 98 548 0.999 52.77 1.00 Prom - 47244 47205 40 -3.26 2.14 PlyA - 50509 50504 6 1.05 2.13 Term - 53501 53420 82 1 1 143 49 -5 0.286 -1.73 2.12 Intr - 55288 55184 105 0 0 62 65 135 0.737 7.93 2.11 Intr - 58506 58267 240 2 0 80 81 236 0.705 18.76 2.10 Intr - 68762 68627 136 0 1 104 75 49 0.226 4.83 2.09 Intr - 70239 69898 342 1 0 82 59 174 0.274 9.30 2.08 Intr - 70374 70340 35 2 2 123 75 47 0.752 4.77 2.07 Intr - 71765 71545 221 2 2 64 94 547 0.997 50.00 2.06 Intr - 72723 72535 189 0 0 84 94 165 0.795 16.48 2.05 Intr - 73142 72963 180 2 0 97 14 343 0.945 27.86 2.04 Intr - 73907 73812 96 2 0 50 91 180 0.997 14.71 2.03 Intr - 74779 74719 61 0 1 82 105 82 0.968 8.04 2.02 Intr - 75358 75144 215 1 2 90 50 248 0.999 18.71 2.01 Init - 76947 76363 585 0 0 87 57 651 0.891 57.10 2.00 Prom - 77050 77011 40 -1.76 3.00 Prom + 77904 77943 40 -7.76 3.01 Init + 80245 80288 44 0 2 82 49 58 0.375 -0.53 3.02 Intr + 84679 84864 186 1 0 97 72 63 0.373 4.40 3.03 Intr + 88854 88941 88 0 1 100 98 19 0.678 4.07 3.04 Term + 95766 95903 138 2 0 106 35 107 0.860 5.16 3.05 PlyA + 97142 97147 6 1.05 4.10 PlyA - 99561 99556 6 1.05 4.09 Term - 100422 99998 425 1 2 43 43 574 0.975 43.86 4.08 Intr - 100549 100515 35 0 2 90 75 26 0.926 -0.63 4.07 Intr - 101300 101080 221 2 2 55 94 490 0.961 43.40 4.06 Intr - 101989 101810 180 1 0 59 103 165 0.838 15.16 4.05 Intr - 102285 102121 165 0 0 73 113 250 0.998 26.16 4.04 Intr - 102550 102455 96 1 0 110 92 101 0.999 12.91 4.03 Intr - 103028 102968 61 1 1 125 121 122 0.999 17.94 4.02 Intr - 103561 103347 215 1 2 45 80 258 0.999 18.21 4.01 Init - 105153 104563 591 0 0 90 113 515 0.953 49.44 4.00 Prom - 108295 108256 40 -7.26 5.22 PlyA - 111139 111134 6 1.05 5.21 Term - 116244 115970 275 1 2 94 44 330 0.999 24.83 5.20 Intr - 116777 116743 35 1 2 101 84 11 0.896 -0.13 5.19 Intr - 117446 117226 221 2 2 22 94 463 0.869 37.40 5.18 Intr - 117685 117560 126 1 0 73 75 219 0.969 19.98 5.17 Intr - 119595 119431 165 0 0 54 86 384 0.954 34.96 5.16 Intr - 120672 120577 96 0 0 80 113 32 0.905 5.11 5.15 Intr - 121235 121175 61 1 1 99 100 121 0.998 13.14 5.14 Intr - 122701 122487 215 1 2 57 52 314 0.994 22.21 5.13 Intr - 125666 125457 210 2 0 33 68 93 0.529 0.91 5.12 Intr - 127987 127697 291 1 0 -13 105 253 0.277 14.23 5.11 Intr - 130906 130844 63 1 0 81 37 75 0.162 0.61 5.10 Intr - 132682 132594 89 2 2 127 55 12 0.284 1.49 5.09 Intr - 134199 134113 87 1 0 77 105 9 0.273 1.44 5.08 Intr - 139374 138955 420 1 0 101 4 277 0.089 14.52 5.07 Intr - 139698 139664 35 2 2 89 95 -25 0.982 -3.83 5.06 Intr - 140542 140382 161 1 2 -65 94 378 0.412 21.89 5.05 Intr - 141395 141270 126 2 0 56 75 226 0.999 18.98 5.04 Intr - 142664 142541 124 1 1 11 52 137 0.781 2.99 5.03 Intr - 143072 142894 179 2 2 30 74 158 0.800 7.32 5.02 Intr - 146105 145949 157 1 1 44 99 179 0.409 14.61 5.01 Init - 146615 146458 158 2 2 64 55 112 0.328 4.88 5.00 Prom - 147786 147747 40 -4.06 6.00 Prom + 152371 152410 40 -1.26 6.01 Init + 155261 155856 596 1 2 83 -41 419 0.103 23.23 6.02 Intr + 155881 156112 232 1 1 -77 61 318 0.307 10.38 6.03 Intr + 156291 156510 220 2 1 25 38 288 0.926 15.37 6.04 Intr + 156669 156989 321 1 0 -96 -22 389 0.349 5.33 6.05 Term + 157108 157670 563 2 2 78 47 755 0.935 64.94 6.06 PlyA + 158350 158355 6 1.05 7.09 PlyA - 158462 158457 6 -4.04 7.08 Term - 158977 158917 61 0 1 134 43 68 0.131 4.18 7.07 Intr - 160166 160078 89 2 2 83 78 62 0.019 3.47 7.06 Intr - 160501 160430 72 1 0 1 113 94 0.035 2.80 7.05 Intr - 167001 166816 186 0 0 110 5 63 0.011 0.09 7.04 Intr - 172268 172158 111 2 0 -30 75 139 0.040 1.38 7.03 Intr - 176843 176783 61 1 1 110 105 97 0.898 12.34 7.02 Intr - 178265 178114 152 2 2 -13 107 261 0.964 16.86 7.01 Init - 182998 182906 93 1 0 86 111 -5 0.478 1.98 7.00 Prom - 186630 186591 40 -9.06 8.00 Prom + 187174 187213 40 -3.96 8.01 Sngl + 188339 188698 360 1 0 26 33 266 0.769 10.97 8.02 PlyA + 190547 190552 6 1.05 9.10 PlyA - 191692 191687 6 1.05 9.09 Term - 193915 193518 398 2 2 92 39 453 0.965 36.04 9.08 Intr - 194388 194354 35 2 2 103 78 33 0.988 1.67 9.07 Intr - 196024 195804 221 1 2 67 94 466 0.996 42.20 9.06 Intr - 196801 196676 126 1 0 50 75 212 0.999 16.98 9.05 Intr - 197063 196899 165 2 0 74 81 270 0.881 25.06 9.04 Intr - 197683 197588 96 1 0 87 15 192 0.976 12.01 9.03 Intr - 198447 198387 61 2 1 117 100 91 0.996 11.94 9.02 Intr - 200407 200193 215 1 2 119 53 236 0.705 20.71 9.01 Init - 202096 201497 600 1 0 63 100 599 0.612 53.89 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 139374 138944 431 1 2 101 40 260 0.863 17.96 S.002 Term - 154444 154310 135 1 0 81 49 252 0.998 18.62 S.003 Intr - 154978 154901 78 1 0 109 59 147 0.966 13.65 S.004 Intr + 158975 159059 85 2 1 91 72 100 0.844 8.52 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815586r:52575196_52780348|GENSCAN_predicted_peptide_1|1123_aa MSRQFTYKSGAAAKGGFSGCSAVLSGGSSSSYRAGGKGLSGGFSSRSLYSLGGARSISFN VASGSGWAGGYGFGRGRASGFAGSMFGSVALGSVCPSLCPPGGIHQVTINKSLLAPLNVE LDPEIQKVRAQEREQIKVLNNKFASFIDKVRFLEQQNQVLETKWELLQQLDLNNCKNNLE PILEGYISNLRKQLETLSGDRVRLDSELRSVREVVEDYKKRYEEEINKRTTAENEFVVLK KDVDAAYTSKVELQAKVDALDGEIKFFKCLYEGETAQIQSHISDTSIILSMDNNRNLDLD SIIAEVRAQYEEIARKSKAEAEALYQTKFQELQLAAGRHGDDLKHTKNEISELTRLIQRL RSEIESVKKQCANLETAIADAEQRGDCALKDARAKLDELEGALQQAKEELARMLREYQEL LSVKLSLDIEIATYRKLLEGEECRMSGEYTNSVSISVINSSMAGMAGTGAGFGFSNAGTY GYWPSSVSGGYSMLPGGCVTGSGNCSPHTHPEGQPHWKFPGVILGVITPVIGGQQVEIRS LSHDNAGGIHGEFTVEQTKISHRYLRAMSRQLTHFPRGERLGFSGCSAVLSGGIGSSSAS FRARVKGSASFGSKSLSCLGGSRSLALSAAARRGGGRLGGFVGTAFGSAGLGPKCPSVCP PGGIPQVTVNKSLLAPLNVEMDPEIQRVRAQEREQIKALNNKFASFIDKVRFLEQQNQVL ETKWNLLQQLDLNNCRKNLEPIYEGYISNLQKQLEMLSGDGVRLDSELRNMQDLVEDYKK RTLAQALHGEPKEGGDTVPDLREHTDCEDRLKEQFQIATNKKKQIWYEVEINRRTAAENE FVVLKKDVDAAYMNKVELQAKVDSLTDEIKFFKCLYEGEITQIQSHISDTSIVLSMDNNR DLDLDSIIAEVRAQYEEIALKSKAEAETLYQTKIQELQVTAGQHGDDLKLTKAEISELNR LIQRIRSEIGNVKKQCADLETAIADAEQRGDCALKDARAKLDELEGALHQAKEELARMLR EYQELVSLKLALDMEIATYRKLLESEECRMSGEYPNSVSISVISSTNAGAGGAGFSMGFG ASSSYSYKTAAADVKTKGSCGSELKDPLAKTSGSSCATKKASR >gi568815586r:52575196_52780348|GENSCAN_predicted_CDS_1|3372_bp atgagccgccaattcacctacaagtcgggagctgctgccaaggggggcttcagcggctgc tccgctgtgctctcagggggcagctcatcctcctaccgagcagggggcaaagggctcagt ggaggcttcagcagtcggagcctttacagcctggggggtgcccggagcatctctttcaat gtggccagtggcagtgggtgggcaggaggctatggatttggccggggccgggccagtggc tttgctggcagcatgtttggcagtgtggccttggggtccgtgtgtccgtcgttgtgcccg cccgggggtatccatcaggtcaccatcaacaagagcctcctggcacccctgaacgtggag ctggaccctgaaatccagaaagtgcgtgcccaggagcgggagcagatcaaggtgctgaac aacaagttcgcctccttcattgacaaggtgcggttcctggagcagcagaaccaggtgctg gagaccaagtgggagctgctacagcagctggacctgaacaactgcaagaataacctggag cccatccttgagggctacatcagcaacctgcggaagcagctggagacgctgtctggggac agggtgaggctggactcggagctgaggagcgtgcgcgaagtggtggaggactacaagaag aggtatgaagaagaaataaacaagcgcacaactgctgagaatgaatttgtggtgcttaag aaggacgtggacgcagcttacacgagcaaagtggagctgcaggccaaggtggatgccctg gatggagaaatcaagttcttcaagtgtctgtacgagggggagactgctcagatccagtcc cacatcagcgacacgtccatcatcctgtccatggacaacaaccggaacctggacctggac agcatcattgctgaggtccgtgcccagtatgaggagatcgcccggaagagcaaggccgag gccgaggccctgtaccagaccaagttccaggagctgcagctagcagccggccggcatggg gatgacctgaaacacaccaaaaatgagatctcagagctgacccgtctcatccaaagactg cgctcggagattgagagtgtgaagaagcagtgtgccaacctggagacggccatcgctgac gccgagcagcggggggactgtgccctcaaggatgccagggccaagctggatgagctggag ggcgccctgcagcaggccaaggaggagctggcacggatgctgcgcgagtaccaagagctt ttgagcgtgaagctgtccctggatattgagatcgccacctaccgcaagctgctggagggc gaggagtgcaggatgtccggagaatataccaactccgtgagcatttcggtcatcaacagc tccatggccgggatggcaggcacaggggctggctttggattcagcaatgctggcacctac ggctactggcccagctctgtcagcgggggctacagcatgctgcctgggggctgtgtcact ggcagtgggaactgtagcccccacacacacccagagggtcagccccactggaagtttcca ggggtgatcttgggagtgataaccccagtaattggaggccagcaggtggagataaggtcg ctaagccatgataatgcaggagggattcatggggagttcacggtggaacagacaaaaatc tcgcaccggtacttgcgagccatgagccgccaactgacccatttcccccgcggggagcgc ctgggcttcagcggttgctccgcggtcctctctggcgggatcggcagcagctccgcctca ttccgggcccgggtcaagggctcggcctcctttggcagcaagagcctctcctgccttggg ggcagccgaagcctggcgctcagcgctgctgcacggcggggcggcggccgcctgggcggc ttcgtgggcaccgccttcggcagcgccgggctggggcccaagtgtccctccgtgtgccca cccgggggcatccctcaggtcaccgtcaacaagagcctcctggccccgctcaacgtggag atggaccccgagatccagagggtgcgcgcccaggagcgggagcagatcaaggcgctaaac aacaagttcgcctccttcatcgacaaggtgcggttcctggagcagcagaatcaggtgcta gagaccaagtggaacctcctacagcagctggacttgaacaactgcaggaagaacctggag cccatttatgagggctacatcagcaacctgcagaagcagctggagatgctgtctggggac ggggtgaggctggattcggagctgaggaacatgcaggatttggtggaggactacaagaag agaaccctggcccaagccctgcatggagaacctaaggaaggaggagacacggtccctgac ctcagagagcacacagattgtgaggacaggcttaaagaacagtttcagatagccaccaac aagaagaaacaaatatggtatgaggtggagattaacagacgcacagctgctgagaatgag tttgtggtgctcaagaaggacgtggatgctgcttacatgaataaggttgagctccaggcc aaggtggactccttgacagatgagattaaattcttcaagtgcctttatgaaggggagatc actcagatccagtcccacatcagcgacacgtccatcgtcctgtcaatggacaacaaccgg gatctggacctggacagcatcattgccgaggtccgtgcccagtacgaggagattgcccta aagagcaaggccgaggctgagaccctgtaccagaccaagatccaggagctgcaggtcaca gcaggccagcatggggatgacctcaagctcaccaaggctgaaatctctgagctcaaccgc ctgatccagaggatccgctcagagatagggaatgtgaagaagcagtgtgccgatctggag acggccatcgccgacgctgaacagcggggggactgcgccctgaaagatgcccgggccaag ctggatgagctggagggcgccctgcaccaggccaaggaggagctggcacggatgctgcgt gagtaccaggagctcgtgagcctgaagctggccctggatatggagatcgccacctaccgc aagctgctggagagcgaggagtgcaggatgtctggcgaatatccaaattctgtgagcatc tccgtcatcagcagcaccaatgctggggcaggaggggctggcttcagcatgggctttggc gcctcaagcagttatagctacaaaactgcagctgcagacgtcaagaccaaaggcagctgt ggcagtgagctcaaggatccccttgccaaaacctcggggagcagctgtgccaccaaaaag gcctccagatga >gi568815586r:52575196_52780348|GENSCAN_predicted_peptide_2|828_aa MSCQISCKSRGRGGGGGGFRGFSSGSAVVSGGSRRSTSSFSCLSRHGGGGGGFGGGGFGS RSLVGLGGTKSISISVAGGGGGFGAAGGFGGRGGGFGGGSSFGGGSGFSGGGFGGGGFGG GRFGGFGGPGGVGGLGGPGGFGPGGYPGGIHEVSVNQSLLQPLNVKVDPEIQNVKAQERE QIKTLNNKFASFIDKVRFLEQQNQVLQTKWELLQQMNVGTRPINLEPIFQGYIDSLKRYL DGLTAERTSQNSELNNMQDLVEDYKKKYEDEINKRTAAENDFVTLKKDVDNAYMIKVELQ SKVDLLNQEIEFLKVLYDAEISQIHQSVTDTNVILSMDNSRNLDLDSIIAEVKAQYEEIA QRSKEEAEALYHSKASRGNSVWNVSQAGTSLQTVLFSPYQYEELQVTVGRHGDSLKEIKI EISELNRVIQRLQGEIAHVKKQCKNVQDAIADAEQRGEHALKDARNKLNDLEEALQQAKE DLARLLRDYQELMNVKLALDVEIATYRKLLEGEECRMSGDLSSNVTVSVTSSTISSNVAS KAAFGGSGGRGSSSGGGYSSGSSSYGSGGRQSGSRGGSGGGGSISGGGYGSGGGSGGRYG SGGGSKGGSISGGGYGSGGGKHSSGGGSRGGSSSGGGYGSGAPGACRMDVAIRLAFSCGC EDAFSPFLRKAMSPEQGFQGVQEWLGRYSSWSSRTRCCKPTGSCCGSWMAAGWQLDGSYC CTTSPELIFEGYISNLRKQVAQVMAEKTRQEVELKNTQDSMEKYKRNAALQDTILEAEQK GKVAIGDAQDKLAEVEAGPAALLVVLLAHTVSFCDAEARALLLSLVLK >gi568815586r:52575196_52780348|GENSCAN_predicted_CDS_2|2487_bp atgagttgtcagatctcttgcaaatctcgaggaagaggaggaggtggaggaggattccgg ggcttcagcagcggctcagctgtggtgtctggtggaagccggagatcaacttccagcttc tcctgcttgagccgccatggtggtggtggcgggggcttcggtggaggcggctttggcagt cggagtcttgttggccttggagggaccaagagcatctccattagtgtggctggaggaggt ggtggctttggcgccgctggtggatttggtggcagaggaggtggttttggaggcggcagc agctttggaggtggcagcggcttcagtggtggtggtttcggtggaggcggctttggtgga ggccgctttggaggttttgggggccctggtggtgttggaggtttagggggtcctggtggc tttgggcctggaggataccctggtggcatccacgaagtctctgtcaaccagagcctcctg cagcctctcaacgtgaaagttgacccagagatccagaatgtgaaggcccaagagcgtgag cagatcaaaactctcaacaacaaatttgcctccttcattgacaaggtgcggttcttggag cagcagaaccaggtgttacagaccaaatgggagctgctacaacaaatgaatgttggcacc cgccccatcaacctggagcccatcttccaggggtatatcgacagcctcaagagatatctg gatgggctcactgcagaaagaacatcacagaattcagagctgaataacatgcaggatctt gtggaggattataagaagaagtatgaggatgaaatcaataagcgcacagctgctgagaat gattttgtgacgcttaaaaaggacgtggacaatgcctacatgataaaggtggagttgcag tccaaggtggacctgctgaaccaggaaattgagtttctgaaagttctctatgatgcggag atatcccagatacatcagagtgtcactgacaccaacgtcatcctctccatggacaacagc cgcaacctggacttggatagcatcatcgccgaggtcaaggcccagtatgaggagatcgcc cagaggagcaaggaagaagcggaggccctgtaccacagcaaggcaagtagagggaattca gtctggaatgtgagccaggctggaacttccttgcaaactgtcctcttctccccatatcag tatgaggagctccaggtgactgtcgggagacatggagacagcctgaaagagatcaagata gagatcagcgagctgaaccgcgtgatccagaggctgcagggggagatcgcacatgtgaag aagcagtgtaagaatgtgcaagatgccatcgcagatgccgagcagcgtggggagcatgcc ctcaaggatgccaggaacaagttgaatgacctggaggaggccctgcagcaggccaaggag gacttggcgcggctgctgcgtgactaccaggagctgatgaacgtgaagctggccctagat gtggagatcgccacctaccgcaaactgctggagggcgaggagtgcaggatgtctggagac ctcagcagcaatgtgactgtgtctgtgacaagcagcaccatttcatcaaatgtggcatcc aaggctgcctttggaggttctggaggtagagggtccagttccggaggaggatacagctct ggaagcagcagttatggctctggaggccgacagtctggctccagaggcggtagtggagga ggaggttctatctctggaggaggatatggctctggcggtggttctggaggaagatacgga tctggtggtggctctaagggagggtccatctctggaggaggatatggctctggaggtgga aaacacagctctggaggtggctctagaggaggctccagctctggaggaggatatggctct ggagcccccggggcctgtcgcatggatgttgccatcaggttggccttctcctgtgggtgt gaagatgccttcagccccttcctcaggaaggccatgtcacctgagcagggcttccaggga gttcaggaatggttgggcaggtacagttcctggagcagcagaaccaggtgttgcaaacca actgggagctgctgtggcagctggatggcagctggatggcagctagatggcagctactgc tgcaccactagcccagagctcatcttcgagggctacatcagcaacctcaggaagcaggtg gcccaggtcatggcagagaaaaccaggcaggaagtagagctcaagaacactcaggactcg atggagaaatacaagaggaatgctgccctgcaagacaccatcctggaggcagagcagaag ggcaaggtagccatcggagatgcccaggacaagctggctgaggtggaggctggaccagct gctctgctcgtagtgctcttagcccacactgtctccttctgtgatgcagaagcaagagct cttctcctatctctggtactgaagtaa >gi568815586r:52575196_52780348|GENSCAN_predicted_peptide_3|151_aa MGSGCLASAWAAGSGSFLDSLTHLTALLPGILALLGDTCFPNSKTRSIILEQVGCLHYLG KADFAFVLKPKRSSVKGAYSVQFIDQQKLTNHCSRIHILLHPQDEKGVSVILLLLLPELS DDLFYPPNADDSLVYTFSPIHYKDKADALAT >gi568815586r:52575196_52780348|GENSCAN_predicted_CDS_3|456_bp atgggcagcggctgcctggcctctgcatgggctgctggctccgggagctttctagactcc ctcacccacctaacagccttgttgcctggcatcctggcccttcttggggacacctgcttt ccaaacagcaaaacaaggagcatcatactagagcaggttggctgtttacattaccttggg aaagcagactttgcctttgtcctaaaacccaaacgatcgtctgtcaagggtgcttactct gtccagttcattgaccaacaaaaactcactaatcactgcagtagaatacacattctgctg catcctcaggatgaaaagggagtatcagtaattcttctgctccttcttcctgagttatct gatgatttattctaccctccaaatgctgatgactctttggtttacacctttagccccatt cattacaaggataaagcagatgcacttgctacgtaa >gi568815586r:52575196_52780348|GENSCAN_predicted_peptide_4|662_aa MSRQFSSRSGYRSGGGFSSGSAGIINYQRRTTSSSTRRSGGGGGRFSSCGGGGGSFGAGG GFGSRSLVNLGGSKSISISVARGGGRGSGFGGGYGGGGFGGGGFGGGGFGGGGIGGGGFG GFGSGGGGFGGGGFGGGGYGGGYGPVCPPGGIQEVTINQSLLQPLNVEIDPEIQKVKSRE REQIKSLNNQFASFIDKVRFLEQQNQVLQTKWELLQQVDTSTRTHNLEPYFESFINNLRR RVDQLKSDQSRLDSELKNMQDMVEDYRNKYEDEINKRTNAENEFVTIKKDVDGAYMTKVD LQAKLDNLQQEIDFLTALYQAELSQMQTQISETNVILSMDNNRSLDLDSIIAEVKAQYED IAQKSKAEAESLYQSKYEELQITAGRHGDSVRNSKIEISELNRVIQRLRSEIDNVKKQVC AFSFYHSAVWNGGNPQISNLQQSISDAEQRGENALKDAKNKLNDLEDALQQAKEDLARLL RDYQELMNTKLALDLEIATYRTLLEGEESRMSGECAPNVSVSVSTSHTTISGGGSRGGGG GGYGSGGSSYGSGGGSYGSGGGGGGGRGSYGSGGSSYGSGGGSYGSGGGGGGHGSYGSGS SSGGYRGGSGGGGGGSSGGRGSGGGSSGGSIGGRGSSSGGVKSSGGSSSVKFVSTTYSGV TR >gi568815586r:52575196_52780348|GENSCAN_predicted_CDS_4|1989_bp atgagtcgacagtttagttccaggtctgggtaccgaagtggagggggcttcagctctggc tctgctgggatcatcaactaccagcgcaggaccaccagcagctccacacgccgcagtgga ggaggtggtgggagattttcaagctgtggtggtggtggtggtagctttggtgctggtggt ggatttggaagtcggagtcttgttaaccttggtggcagtaaaagcatctccataagtgtg gctagaggaggtggacgtggtagtggctttggtggtggttatggtggtggtggctttggt ggtggtggctttggtggtggtggctttggtggaggtggcattgggggtggtggctttggt ggttttggcagtggtggtggtggttttggtggaggtggctttgggggtggtggatatggg ggtggttatggtcctgtctgccctcctggtggcatacaagaagtcactatcaaccagagc cttcttcagcccctcaatgtggagattgaccctgagatccaaaaggtgaagtctcgagaa agggagcaaatcaagtcactcaacaaccaatttgcctccttcattgacaaggtgaggttc ctggagcagcagaaccaggtactgcaaacaaaatgggagctgctgcagcaggtagatacc tccactagaacccataatttagagccctactttgagtcattcatcaacaatctccgaagg agagtggaccaactgaagagtgatcaatctcggttggattcggaactgaagaacatgcag gacatggtggaggattaccggaacaagtatgaggatgaaatcaacaagcggacaaatgca gagaatgaatttgtgaccatcaagaaggatgtggatggtgcttatatgaccaaggtggac cttcaggccaaacttgacaacttgcagcaggaaattgatttccttacagcactctaccaa gcagagttgtctcagatgcagactcaaatcagtgaaactaatgtcatcctctctatggac aacaaccgcagtctcgacctggacagcatcattgctgaggtcaaggcccagtacgaggat atagcccagaagagcaaagctgaggccgagtccttgtaccagagcaagtatgaagagctg cagatcactgctggcagacatggggatagtgtgagaaattcaaagatagaaatttctgag ctgaatcgtgtgatccagagacttagatctgaaatcgacaatgtcaagaagcaggtatgt gctttctccttctaccactcagctgtatggaatgggggtaaccctcagatctccaacttg cagcagtccatcagtgatgcagagcagcgtggcgagaatgccctcaaggatgccaagaac aagctgaatgacctggaggatgccctgcagcaggccaaggaagacctggcccgcctgctg cgcgactaccaggagctgatgaacacaaagctggccctggatctggagattgccacctac aggaccctcctggagggagaagaaagcaggatgtctggagaatgtgccccgaacgtgagt gtgtctgtgagcacaagccacaccaccatcagtggaggtggcagccgaggaggtggcggc ggtggctacggctctggaggtagcagctatggctccggaggtggtagctatggttctgga ggtggcggcggcggcggccgtggcagctatggctccggaggtagcagctacggctccgga ggtggcagctatggctctggaggtggcggcggcggccatggcagctacggctccggaagc agcagtgggggctacagaggtggctctggaggcggcggcggcggcagctctggcggccgg ggctctggcggcgggagctctggaggctccataggaggccggggatccagctctgggggt gtcaagtcctctggtggcagttccagcgtgaagtttgtttctaccacttattccggagta accagataa >gi568815586r:52575196_52780348|GENSCAN_predicted_peptide_5|1097_aa MSRQISYSQQPCRSSGGAYCQTFSSHLAVVSGHSWISSIMSSFASSSGRAGGGDLGGFLG GIQEVTVNQSLLQPLQETDLKFGQVKAQKREQIKTLNNVCLLHRQDVDAAHMTKVELEAN VERMIGEMNFLKALYDAGSLSSLPFLGTHLPCLLEERAFRSPAGLRGHVCLALWELSQMQ SDTSDTSVVLSMDKNRCLDLDSIVAKLGEQQTTASRHGDDLRNTKNEIMELNRMTQRLWV EIESIKKQDTNAKLQDIKSGLRQAKEDLALLLCAYQALMNAKLALDVEIATYRTLLEGEE CRVSGRCQSSVILETGHSSTGGGCALGGGVGARARGGSRGRSGWGLGGSSAVLGGLLWLR DSCAVSRGGGGGGSSAARENKAPPRAGGPATNSEPRARGVLGPQSPSPSGTPRSELPRTP AGPLPSAASDLCPGAPPSQTAGIAAARKLPRRMSQKALISRRLKAPIPRPGLQLSTLFLV GTGLGTSSFSGPSQSQSLQQSTLSLAYSTSFECLLDDPLNRYHVRNAEVHEKRGGGVGGF GGGRGFGVGSTGAGGFGGGGFGGAGFGTSNFGLGGFGPYCPPGGIQEVTINQSLLEPLHL EVDPEIQRIKTQEREQIMVLNNKFASFIDKQSHPLKACHDTPPFESSSGFLSRLKEKPKS YKALYYLPFNPQLLLSPHLHLWNQATLPSLGGTAFGIQWLVRFLEQQNQVLQTKWELLQQ VNTSTGTNNLEPLLENYIGDLRRQVDLLSAEQMRQNAEVRSMQDVVEDYKSKYEDEINKR TGSENDFVVLKKDVDAAYVSKVDLESRVDTLTGEVNFLKYLFLTELSQVQTHISDTNVIL SMDNNRSLDLDSIIDAVRTQYELIAQRSKDEAEALYQTKYQELQITAGRHGDDLKNSKME IAELNRTVQRLQAEISNVKKQIEQMQSLISDAEERGEQALQDAWQKLQDLEEALQQSKEE LARLLRDYQAMLGVKLSLDVEIATYRQLLEGEESRMSGELQSHVSISVQNSQVSVNGGAG GGGSYGSGGYGGGSGGGYGGGRSYRGGGARGRSGGGYGSGCGGGGGSYGGSGRSGRGSSR VQIIQTSTNTSHRRILE >gi568815586r:52575196_52780348|GENSCAN_predicted_CDS_5|3294_bp atgagtcgccagataagctacagccagcagccctgcaggtcttctggtggggcctactgc cagaccttcagcagccacttagcagtggtgtcaggccacagctggatcagctccatcatg tcctcctttgcctccagctcaggaagggctggtggtggtgatctgggtggcttcctgggt ggaatccaggaagtgactgtcaaccagagccttcttcagcccctccaggagactgacctt aagtttgggcaagtaaaggcccagaagcgggagcagatcaagaccctcaacaacgtttgc ctccttcatcgacaggatgtcgatgctgcccacatgaccaaagtggagctggaggccaac gtggagaggatgataggcgagatgaacttcctgaaagccctctacgatgctggaagtctc tcctcattgccattcctcgggactcacctgccctgcctcctagaggagagggcatttaga agtccagcaggactgagggggcatgtttgcttggccctgtgggagctgtcccagatgcag tcagacaccagcgacacgtctgtggttctttccatggacaaaaaccgctgcctggacctg gacagtatcgttgccaagttgggggagcagcagaccacggccagcaggcatggggatgac ctgaggaacaccaagaatgagatcatggagctcaacaggatgacccagaggctgtgggtg gagatcgagagcatcaagaagcaggacaccaatgccaagcttcaggacatcaagtctgga ctgcggcaggccaaagaggacctggccctgctgctttgtgcgtaccaggcgctgatgaat gccaagctggccctggacgtggagatcgccacctaccggaccctcctggagggcgaggaa tgcagggtgtctgggaggtgccagagttccgtgatcctagagactggccacagcagcact ggcggcggctgcgccctgggaggaggagtcggagcccgggcccgcggcggtagccggggc cgcagcggctggggcttgggcgggagctccgcggtgctcggggggcttctctggctccgg gactcctgcgccgtcagccggggtggcggcggcggcggcagcagcgccgccagagagaac aaagctcctcctagagctggcggtcccgccacaaattctgaaccccgcgccaggggcgtc ctcggaccccagtccccttcgccctccggcacgccccgctctgagctcccccgcaccccc gcggggccccttccctccgctgcttctgacctgtgccccggagccccaccttcccagact gctggcatcgcagcagcccgaaagttgccgcgaaggatgagtcaaaaggctctcatttca aggaggttaaaggcccccattcctagaccggggctgcagctctccactctcttcttggtg gggactggccttggcacgagcagtttctctggtccttcccagtcccagtccctacaacag agcaccctctcactggcctacagtacatccttcgagtgtctcctggatgacccactgaac agataccatgtacggaatgcagaggttcatgagaagaggggtgggggagtagggggattt ggagggggcagaggctttggggttggcagcaccggggctggtggctttggaggaggtggt tttgggggtgctggatttgggactagcaattttgggcttgggggctttggtccttattgt cctcctgggggcatccaagaggtgaccattaaccagagcctcctagagccacttcacctg gaggtggaccctgaaattcagaggatcaagacccaggagcgggagcagattatggttctc aacaacaagtttgcctccttcattgacaagcagagccatcctttaaaagcatgtcacgac actcctccatttgaatcctccagtggcttcttgtctcgactgaaagaaaagcccaagtcc tacaaggccctatattacttgcccttcaacccgcagctgctgctaagcccacacttgcat ttgtggaatcaggccacgttgccctcactgggtggaacagctttcgggatacaatggcta gtgcgattcctggagcagcagaaccaggtgctacaaacaaaatgggagttgctgcagcag gtgaacacctcaactggaaccaacaacctggagcccctcttggagaactacatcggtgac ctgcggaggcaggtggatttgctcagtgcggagcagatgcgccagaacgcggaggtcagg agcatgcaggatgtcgtggaggactacaagagcaagtatgaggatgaaatcaacaagagg actggcagcgagaatgactttgtcgtcctgaagaaggatgtggatgctgcttatgtgagc aaagtggacctggagtccagggtggacactctgactggggaggtcaatttcttgaaatat ttatttttgacggagctgtctcaggtgcagactcacatcagcgacaccaacgtcatcctg tccatggacaataaccgttccctggacctggacagcatcatcgatgcagtgcggacccag tatgaactgattgcacagaggagcaaggacgaggccgaagccctgtaccagaccaagtac caggagctccagatcacggcagggagacatggagacgacctgaagaacagcaagatggag attgcagagctcaaccgcaccgtccagaggctgcaggcagagatcagcaacgtgaagaag cagattgaacagatgcagtcactcatttcggatgctgaggagagaggcgagcaggccctc caggatgcgtggcagaagctgcaggacctggaggaggccctgcagcagtccaaggaggag ctggcccggctgctgcgtgactaccaggccatgctgggggtcaagctgtccctggatgtg gagatcgccacctaccgccagctgctggagggcgaggagagcaggatgtcaggagagctg cagagccatgtgagcatctccgtgcagaacagccaggtgagcgtcaacggcggcgcggga ggcggcggcagctacggctcaggaggctacggcggcggcagcggtgggggctatggcggc ggaagaagctaccgcggaggcggggcacgaggcaggagtggaggcggttatggcagcggc tgcggcggcggtggcgggagctacggagggagcggcagaagcggccgcggatcctcgcgc gtgcagatcatccagacctccaccaacacctcccacaggcggatcttggagtag >gi568815586r:52575196_52780348|GENSCAN_predicted_peptide_6|643_aa MMHHLPRRKGSDHGLLTESKIETRTGSLPHLKIGSSIIQGTDIEEAAILAFVLVPNLQKK NNGTKNKNEIRRGIGIRRTNIKTMMGTDGTRTRNDPVSPGRGKDFKSRKDGDSKKDEEDE HGDKKPKAQLLSLEELLAKKKAKEEAEVKPKFLSKAEQEAEALKQRQQEVEEQQRMLVEE RKKRKQFQDLGRKMLEDSQERMEPETSGNEDEKGQQKIREEKDKSKELHAIKEHYLGGIK KRHQTRHLNDRKFVFEGDASEDTSIDYNPLYKERHQKKLDEMTDRDWWLFREGYSITTKG GKIPNPIRSWKESSLLPHILEVIDKCGYKESTPIQRQAIPFGLQNRDIIGRDRQVWEAAR YPTVAVIGGISREDWGFRLLMGCEIVIATPGHLIDVLENRYLVLSCCTYVVLDEADRMID VGFEPDVQKILEHMPVSNQKPDTMSLRTLRRCWPTLSKPHERVEQVFLMSESEKRKKLLE ILKQGFDPAITIFVNQKKGCDVLAKSLEKMGYNACTLHGGKGQEQREFALSNLKPGAKDV LVTTDVAGHGIDIQDVSMVVNYDMAKNIDDYIHRIGRMGQAGKSGVAITFLTKEDSAVFY ELKQAILESPVSSCPPKLANHPDAQHKPGTILTKKRRGETIFA >gi568815586r:52575196_52780348|GENSCAN_predicted_CDS_6|1932_bp atgatgcatcaccttccaaggaggaaaggaagcgatcatggactcctgacagagagcaag atagagaccagaactggaagtcttccccatctaaagataggaagcagcattattcaagga acagacatcgaggaggcagccattcttgctttcgttctcgttccaaatctgcagaaaaag aacaacggcacgaagaacaagaatgagataaggagagggattggaataagaaggaccaat atcaagacaatgatgggcacagatgggacaaggaccagaaacgatccagtttctcctggc cgaggaaaagactttaaatctcggaaggatggagactctaagaaggatgaagaggatgaa catggtgataagaagcctaaggcccagctgttatccctggaggaacttctggccaagaaa aaggctaaggaagaagctgaggttaagcccaagttcctctccaaagcagaacaagaggct gaagctctaaagcaacggcagcaggaggtggaagagcagcagaggatgcttgtagaggag aggaagaaaaggaaacagttccaagacttgggcaggaagatgttggaagattctcaggag aggatggagccagagaccagtggaaatgaggatgagaaagggcagcagaagatacgggaa gagaaggataagagcaaagaactgcatgccattaaggagcattacctgggtggcatcaaa aagcggcaccaaacaagacatctcaatgaccgaaagtttgtttttgagggggatgcatct gaggatacatccattgactacaaccccctgtacaaagaacggcaccagaaaaagttagat gagatgacggacagggactggtggctcttccgtgagggctacagcatcaccaccaaaggt ggcaagatccccaatcccatccgatcctggaaagagtcttctctgctgccacacatcttg gaggtcattgataagtgtggctacaaggaatcaacacctatccagcgtcaggcaattccc tttgggctacagaatcgtgacatcattggaagagaccgtcaagtttgggaagctgctaga tatccaactgtggctgtcattggtggcatctccagagaagactggggcttcaggctgctc atgggttgtgagattgtgatcgccacccctgggcatttgattgatgtgctggagaatcgc tacctggtgctgagctgctgtacctacgtggttctggatgaggcagataggatgattgac gtgggcttcgagccagatgtccagaagatcctggagcacatgcctgtcagcaatcagaag ccagacacgatgagtctgaggaccctgagaagatgctggccaactttgagcaagccccat gagcgtgtggaacaggtcttcctcatgtcagagtcagaaaagaggaaaaagctgctggaa atcttgaagcaaggctttgacccagccatcactatttttgtcaaccagaagaagggctgc gacgtgttggccaaatccctggagaagatggggtacaatgcctgtacactgcacggtgga aaaggccaggagcagcgagagtttgcattgtccaacctcaagcctggggccaaggatgtc ttggtgactacagatgtggctggtcatggtattgacatccaagatgtgtctatggttgtc aactatgatatggccaaaaatattgacgattacatccaccgcattggccgcatgggacaa gcaggcaagagtggggtggccatcaccttcctcacaaaagaggactctgcagttttctac gagctgaagcaagccatcctggaaagcccagtgtcttcctgtccccccaaactagccaat cacccagatgcccagcataagccaggcaccatcctcaccaagaagcgccggggagagacc atctttgcctga >gi568815586r:52575196_52780348|GENSCAN_predicted_peptide_7|274_aa MEKGILRNVVSMMSGLCTELDFMGLGANQRQTAKASANDLQPFLESYIGCLQAYLDKLLM EQSLLDGELGTMQALVEEYKRRYEDEFNKYSEADNDFMVLKKTTARRHDDDLRSTKNEIA ELSRMIHRLQAEIENINKQSGRPRSAAVDQAAAAAPRKADPAYSWTSKEHREAPIHSHIL GGCSPDEEGGASAFSLEQEDWIEVKTQEKEQIKTLNNKFSSFIDKAHLDKLLMERGRLEG ELGTMQALGEAYKRRYCEERSKRAAAEKDLVLLK >gi568815586r:52575196_52780348|GENSCAN_predicted_CDS_7|825_bp atggagaaaggcattcttaggaatgtggtatccatgatgtcagggttgtgtacagagcta gatttcatgggtttaggagctaatcagagacagacggccaaggctagtgccaatgacctg cagcccttcttggagtcctacattggctgcctccaagcctacctggacaagctactgatg gaacagagcctgctggatggggagctgggcaccatgcaggcactcgtggaggagtacaag aggaggtatgaggatgaatttaacaagtactcagaggctgataatgacttcatggttctg aagaagaccacagccagaagacatgatgatgacttgaggagcaccaaaaatgagattgcg gagctcagcaggatgatccacaggctgcaggcagagattgagaacatcaacaagcagagt gggagacccaggtctgctgctgtagatcaggcagctgctgctgcacccaggaaggcagac cctgcctactcctggacctctaaagagcacagggaggctccgatccacagccacattttg gggggctgtagccctgacgaggagggcggggcttctgctttctccttagaacaggaggac tggattgaggtgaagacccaagagaaggaacagatcaagaccctcaacaacaaattttcc tctttcattgacaaggctcaccttgacaagctactgatggagcggggtcggctggagggg gagctgggcaccatgcaggcgctcggggaggcatacaagaggaggtactgtgaagagcgg agcaagcgtgcagcagctgagaaggacttggtgcttctcaagtag >gi568815586r:52575196_52780348|GENSCAN_predicted_peptide_8|119_aa MDKYYQEFEDTEENKLTYTPIFNEYLSLVEKYIEEQLLERIPEFNMATFTATLKHHKNEV ADDIFNMLVTFTDFLAFKEMFLDYRAEKEGQGLDLSGDLVVTSLCKTPSTPAIQNNLWH >gi568815586r:52575196_52780348|GENSCAN_predicted_CDS_8|360_bp atggacaaatactaccaggaatttgaagacacagaagagaataaactcacctacacacca atctttaacgaatacctttctttggtagaaaaatatattgaagaacagctgctggagcgg attccagaattcaacatggcgaccttcacagcaacattaaagcaccataaaaatgaagtg gctgatgacatattcaacatgctagtcacatttacagactttctggcatttaaagagatg tttctggactacagagcagaaaaagaaggccagggactggatttaagtggcgatttagtg gtgacttcgttgtgcaaaacaccttccacgccagctatccaaaacaatctgtggcactag >gi568815586r:52575196_52780348|GENSCAN_predicted_peptide_9|638_aa MNRQVCKKSFSGRSQGFSGRSAVVSGSSRMSCVARSGGAGGGACGFRSGAGSFGSRSLYN LGSNKSISISVAAGSSRAGGFGGGRSSCGFAGGYGGGFGGSYGGGFGGGRGVGSGFGGAG GFGGAGGFGGPGVFGGPGSFGGPGGFGPGGFPGGIQEVIVNQSLLQPLNVEIDPQIGQVK AQEREQIKTLNNKFASFIDKVRFLEQQNKVLETKWELLQQQTTGSGPSSLEPCFESYISF LCKQLDSLLGERGNLEGELKSMQDLVEDFKKKYEDEINKRTAAENEFVGLKKDVDAAFMN KVELQAKVDSLTDEVSFLRTLYEMELSQMQSHASDTSVVLSMDNNRCLDLGSIIAEVRAQ YEEIAQRSKSEAEALYQTKLGELQTTAGRHGDDLRNTKSEIMELNRMIQRLRAEIENVKK QNANLQTAIAEAEQRGEMALKDANAKLQDLQTALQKAKDDLARLLRDYQELMNVKLALDV EIATYRKLLEGEECRMSGECQSAVCISVVSNVTSTSGSSGSSRGVFGGVSGSGSGGYKGG SSSSSSSGYGVSGGSGSGYGGVSSGSTGGRGSSGSYQSSSSGSRLGGAGSISVSHSGMGS SSGSIQTSGGSGYKSGGGGSTSIRFSQTTSSSQHSSTK >gi568815586r:52575196_52780348|GENSCAN_predicted_CDS_9|1917_bp atgaacagacaagtttgcaagaaatccttcagtggcaggagccagggtttctctggccgc tctgctgtggtctccggcagcagcaggatgagctgtgtggcccgctctgggggagctggt ggaggggcctgtggcttcaggagcggagcaggcagctttggcagtcgcagcctctacaac ctgggcagcaacaagagcatctccatcagcgtggcagctggcagctcccgggctggaggc tttgggggagggcggagcagctgtggctttgcaggtggctatggaggtggctttgggggc agctatggtggtggctttggtggtggcagaggagtaggtagtggttttggaggggctggt ggctttggtggagctggtggctttggtggtcctggtgtatttggtgggcctggcagcttt ggtggtcctggtggctttggccctgggggctttcctgggggaattcaggaagtgattgta aaccagagtctcctgcagcccctcaatgtggagatcgacccccagattgggcaagtaaag gcccaggagcgggaacagatcaagaccctcaacaacaagtttgcctccttcatcgacaag gtgcggttcctggaacagcagaacaaggtcctggagaccaagtgggaactgctccagcag cagaccacaggctcagggcccagcagcctggagccttgttttgaatcctacatcagcttc ctatgcaagcagctagattcacttctaggggagagggggaacctggagggagagctgaaa agcatgcaggacctggtggaagacttcaaaaagaagtatgaagatgaaatcaacaaacgc actgccgcagagaatgagtttgtggggctcaagaaggatgtggatgcggctttcatgaac aaggtggagctgcaggccaaagtggacagcctgacagatgaagtcagcttcctgaggacc ctctatgagatggagctgtcccagatgcaaagccatgccagtgacacgtctgtggttctg tccatggacaacaaccgctgcctggacctgggcagcatcattgccgaggtccgcgcccag tatgaggagattgcccagaggagcaagtctgaagctgaggccctgtaccagaccaagctt ggggagctgcagaccacagctggcaggcatggggatgacctgaggaacaccaagagtgag atcatggagctcaacaggatgatccagaggctacgggctgagattgaaaatgtcaagaag cagaatgccaacctgcagacggcaattgcagaggctgagcagcgtggagagatggccctc aaggacgccaatgccaagctccaagacttgcagactgccctacagaaggctaaggatgac ctggctcggctcctgcgtgactaccaggagctgatgaacgtcaagctggccctggatgtg gagattgccacctaccgcaagctgctggagggagaggagtgcaggatgtctggagaatgt cagagtgccgtgtgcatttcagtggtcagcaatgtcaccagcacaagtggcagctctggc agtagccgtggagtttttggaggggtcagtggcagtggcagtggtggctacaaaggcggc agcagcagcagcagcagcagtggctatggagtcagtggcggcagcggcagtggctatgga ggggtcagcagtggcagcactgggggcaggggtagcagcgggagctaccagagcagcagt agtgggagcaggctcggcggtgcaggtagcatctccgtgagccacagtggaatgggctcc agctctggcagcatccagacttctggaggaagtggctacaagtctggtggtggaggcagc accagtatccgcttctcccagaccacgagctcaagccagcatagctccaccaagtga