GENSCAN 1.0 Date run: 7-Nov-116 Time: 20:28:51 Sequence gi568815587r:17292994_17576776 : 283783 bp : 47.59% 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 Intr + 2331 2474 144 2 0 87 100 21 0.799 3.68 1.02 Intr + 3057 3218 162 2 0 4 94 143 0.785 6.67 1.03 Intr + 8751 8877 127 2 1 70 115 -20 0.719 -0.85 1.04 Intr + 16579 16682 104 2 2 92 81 58 0.793 5.39 1.05 Intr + 17832 18017 186 2 0 82 72 158 0.989 13.49 1.06 Intr + 19035 19127 93 2 0 80 87 56 0.875 4.86 1.07 Intr + 37134 37304 171 2 0 92 38 203 0.966 15.84 1.08 Term + 40604 40630 27 1 0 132 53 17 0.824 0.67 1.09 PlyA + 44295 44300 6 1.05 2.00 Prom + 47896 47935 40 -4.66 2.01 Init + 58977 59046 70 2 1 98 97 191 0.996 20.21 2.02 Intr + 63658 64008 351 2 0 111 92 239 0.599 21.89 2.03 Intr + 74016 74354 339 1 0 105 95 170 0.940 14.85 2.04 Intr + 80060 80323 264 0 0 78 81 69 0.554 2.68 2.05 Term + 81673 81689 17 2 2 111 55 12 0.461 -1.40 2.06 PlyA + 82838 82843 6 1.05 3.02 PlyA - 83412 83407 6 1.05 3.01 Sngl - 95098 93926 1173 1 0 90 52 2216 0.999 214.25 3.00 Prom - 97375 97336 40 -5.36 4.73 PlyA - 99916 99911 6 1.05 4.72 Term - 100135 99998 138 1 0 83 43 263 0.997 19.26 4.71 Intr - 100766 100704 63 2 0 60 91 110 0.985 7.41 4.70 Intr - 101452 101273 180 1 0 73 24 186 0.646 10.76 4.69 Intr - 102282 102129 154 2 1 77 67 104 0.733 7.27 4.68 Intr - 102725 102617 109 0 1 38 105 244 0.811 20.44 4.67 Intr - 102937 102859 79 1 1 98 113 121 0.999 14.72 4.66 Intr - 104053 103923 131 2 2 13 77 333 0.835 25.11 4.65 Intr - 104320 104200 121 1 1 89 72 200 0.976 18.57 4.64 Intr - 104804 104691 114 2 0 91 89 137 0.994 14.74 4.63 Intr - 107158 106965 194 2 2 106 47 78 0.622 4.71 4.62 Intr - 109760 109645 116 1 2 133 97 165 0.999 21.99 4.61 Intr - 111676 111519 158 1 2 119 64 243 0.997 23.81 4.60 Intr - 112570 112501 70 0 1 91 92 73 0.995 7.18 4.59 Intr - 113795 113629 167 2 2 20 65 185 0.895 8.16 4.58 Intr - 114136 113895 242 2 2 19 64 418 0.945 29.77 4.57 Intr - 114460 114361 100 1 1 52 87 74 0.834 3.38 4.56 Intr - 115524 115399 126 0 0 104 98 218 0.987 25.28 4.55 Intr - 117660 117523 138 0 0 119 68 168 0.988 18.56 4.54 Intr - 119753 119673 81 2 0 89 97 147 0.999 15.53 4.53 Intr - 120485 120401 85 1 1 76 48 149 0.997 9.52 4.52 Intr - 121617 121519 99 2 0 101 50 131 0.996 9.83 4.51 Intr - 122346 122311 36 2 0 92 84 42 0.734 1.58 4.50 Intr - 134161 134056 106 2 1 134 90 80 0.251 12.07 4.49 Intr - 134949 134874 76 0 1 -57 64 109 0.567 -6.91 4.48 Intr - 135478 135296 183 1 0 99 109 71 0.492 10.28 4.47 Intr - 135677 135572 106 1 1 32 89 95 0.798 4.22 4.46 Intr - 137966 137821 146 2 2 108 78 237 0.961 23.78 4.45 Intr - 139251 139211 41 1 2 108 92 64 0.992 6.74 4.44 Intr - 144532 144447 86 0 2 102 72 -10 0.586 -1.74 4.43 Intr - 149889 149657 233 0 2 58 94 373 0.790 31.47 4.42 Intr - 150319 150185 135 1 0 63 105 128 0.990 12.76 4.41 Intr - 155678 155523 156 2 0 98 79 95 0.833 9.81 4.40 Intr - 160290 160126 165 0 0 108 80 55 0.908 6.86 4.39 Intr - 167683 167495 189 1 0 80 102 241 0.935 24.48 4.38 Intr - 168832 168590 243 1 0 81 49 564 0.697 49.49 4.37 Intr - 170611 170445 167 2 2 89 98 347 0.760 35.48 4.36 Intr - 177229 177108 122 0 2 108 74 128 0.809 13.54 4.35 Intr - 182034 181893 142 1 1 130 92 103 0.981 14.31 4.34 Intr - 183957 183636 322 0 1 106 97 309 0.034 29.03 4.33 Intr - 184086 184014 73 2 1 120 86 32 0.034 5.61 4.32 Intr - 199901 199588 314 2 2 90 110 141 0.444 11.48 4.31 Intr - 201595 201546 50 2 2 125 70 -33 0.268 -3.00 4.30 Intr - 202525 202473 53 0 2 89 48 59 0.352 0.55 4.29 Intr - 203820 203765 56 0 2 80 87 121 0.916 8.98 4.28 Intr - 205278 205169 110 1 2 96 78 172 0.996 17.00 4.27 Intr - 208157 208058 100 2 1 72 101 144 0.846 13.78 4.26 Intr - 208542 208489 54 0 0 100 77 73 0.836 6.58 4.25 Intr - 208987 208946 42 1 0 110 95 88 0.926 10.14 4.24 Intr - 212956 212837 120 1 0 45 107 90 0.890 7.29 4.23 Intr - 216584 216363 222 2 0 50 90 90 0.543 3.72 4.22 Intr - 217528 217412 117 1 0 79 77 50 0.670 3.66 4.21 Intr - 219061 218909 153 1 0 27 87 230 0.947 17.07 4.20 Intr - 223297 223248 50 2 2 94 97 90 0.643 8.90 4.19 Intr - 223489 223462 28 1 1 39 115 -7 0.332 -5.21 4.18 Intr - 224481 224408 74 1 2 91 57 117 0.645 8.03 4.17 Intr - 228001 227877 125 0 2 48 84 67 0.959 2.53 4.16 Intr - 228418 228353 66 0 0 64 79 104 0.955 5.12 4.15 Intr - 230101 229791 311 1 2 -6 73 312 0.609 15.41 4.14 Intr - 230274 230218 57 0 0 129 87 38 0.991 6.88 4.13 Intr - 230485 230426 60 1 0 87 78 101 0.987 7.93 4.12 Intr - 231542 231458 85 1 1 84 105 41 0.878 5.22 4.11 Intr - 233448 233354 95 0 2 123 94 76 0.958 10.46 4.10 Intr - 233817 233760 58 2 1 74 74 65 0.984 2.59 4.09 Intr - 234047 234023 25 0 1 132 100 36 0.999 6.28 4.08 Intr - 234338 234230 109 2 1 72 86 177 0.994 15.76 4.07 Intr - 238299 238161 139 2 1 87 99 148 0.998 16.27 4.06 Intr - 238549 238406 144 0 0 79 61 275 0.994 23.30 4.05 Intr - 240329 240262 68 2 2 92 100 115 0.996 10.80 4.04 Intr - 240829 240726 104 2 2 15 110 74 0.486 2.19 4.03 Intr - 250933 250876 58 1 1 88 78 7 0.532 -1.84 4.02 Intr - 251421 251279 143 1 2 58 77 162 0.322 12.17 4.01 Init - 255112 255025 88 1 1 38 31 128 0.117 0.94 4.00 Prom - 256547 256508 40 -7.26 5.00 Prom + 257043 257082 40 -7.56 5.01 Init + 258747 258786 40 2 1 96 100 22 0.253 4.63 5.02 Intr + 260126 260218 93 0 0 85 55 93 0.980 5.64 5.03 Intr + 260372 260526 155 0 2 51 94 140 0.858 10.69 5.04 Intr + 262786 262904 119 0 2 63 78 108 0.995 6.56 5.05 Intr + 264125 264330 206 2 2 83 81 238 0.880 21.44 5.06 Intr + 265192 265322 131 2 2 69 41 56 0.939 -0.59 5.07 Intr + 265545 265651 107 2 2 93 81 154 0.999 14.21 5.08 Intr + 266059 266168 110 1 2 97 42 48 0.989 1.03 5.09 Intr + 266541 266669 129 1 0 42 68 142 0.959 8.27 5.10 Intr + 267716 267850 135 0 0 84 37 101 0.693 5.14 5.11 Intr + 268669 268814 146 2 2 87 99 194 0.994 20.40 5.12 Intr + 276163 276295 133 0 1 111 64 113 0.994 11.42 5.13 Intr + 277220 277397 178 0 1 89 57 331 0.889 29.08 5.14 Intr + 279087 279211 125 0 2 28 117 84 0.977 5.53 5.15 Intr + 280085 280297 213 0 0 129 89 244 0.996 27.29 5.16 Intr + 281727 281919 193 1 1 56 117 198 0.999 18.05 5.17 Intr + 283563 283637 75 0 0 112 93 77 0.976 9.23 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 35356 35416 61 0 1 110 57 46 0.822 4.11 S.002 Sngl - 48110 47751 360 2 0 60 41 153 0.820 3.87 S.003 Intr - 127279 127225 55 2 1 87 86 32 0.864 0.94 S.004 Init - 183783 183636 148 0 1 111 97 367 0.945 40.15 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815587r:17292994_17576776|GENSCAN_predicted_peptide_1|337_aa MRWRTILLQYCFLLITCLLTALEAVPIDIDKTKVQNIHPVESAKIEPPIQTRKNLQKHYC WFLNLKDTGLYYDEYLKQVIDVLETDKHFREKLQKADIEEIKSGRLSKELDLVSHHVRTK LDELKRQEVGRLRMLIKAKLDSLQDIGMDHQALLKQFDHLNHLNPDKFESTDLDMLIKAA TSDLEHYDKTRHEEFKKYEMMKEHERREYLKTLNEEKRKEEESKFEEMKKKHENHPKVNH PLEKVYDPKNEEDDMVEMEEERLRMREHVMNETLDQQQFFTEEELKEYENIIALQENELK KKADELQKQKEELQRQHDQLEAQKLEYHQEWYLLEIL >gi568815587r:17292994_17576776|GENSCAN_predicted_CDS_1|1014_bp atgaggtggaggaccatcctgctacagtattgctttctcttgattacatgtttacttact gctcttgaagctgtgcctattgacatagacaagacaaaagtacaaaatattcaccctgtg gaaagtgcgaagatagaaccaccaattcaaacaaggaaaaacctgcagaagcattactgt tggtttcttaatttgaaggatactggactttattatgatgaatatctcaagcaagtgatt gatgtgctggaaacagataaacacttcagagaaaagctccagaaagcagacatagaggaa ataaagagtgggaggctaagcaaagaactggatttagtaagtcaccatgtgaggacaaaa cttgatgaactgaaaaggcaagaagtaggaaggttaagaatgttaattaaagctaagttg gattcccttcaagatataggcatggaccaccaagctcttctaaaacaatttgatcaccta aaccacctgaatcctgacaagtttgaatccacagatttagatatgctaatcaaagcggca acaagtgatctggaacactatgacaagactcgtcatgaagaatttaaaaaatatgaaatg atgaaggaacatgaaaggagagaatatttaaaaacattgaatgaagaaaagagaaaagaa gaagagtctaaatttgaagaaatgaagaaaaagcatgaaaatcaccctaaagttaatcac ccattggagaaagtatatgaccctaaaaatgaagaggatgatatggtagaaatggaagaa gaaaggcttagaatgagggaacatgtaatgaatgagacattagatcagcaacagttcttc acagaggaagaactaaaagaatatgaaaatattattgctttacaagaaaatgaacttaag aagaaggcagatgagcttcagaaacaaaaagaagagctacaacgtcagcatgatcaactg gaggctcagaagctggaatatcatcaggaatggtacctccttgagatcctttga >gi568815587r:17292994_17576776|GENSCAN_predicted_peptide_2|346_aa MTWRAAASTCAALLILLWALTTEGDLKVEMMAGGTQITPLNDNVTIFCNIFYSQPLNITS MGITWFWKSLTFDKEVKVFEFFGDHQEAFRPGAIVSPWRLKSGDASLRLPGIQLEEAGEY RCEVVVTPLKAQGTVQLEVVASPASRLLLDQVGMKENEDKYMCESSGFYPEAINITWEKQ TQKFPHPIEISEDVITGPTIKNMDGTFNVTSCLKLNSSQEDPGTVYQCVVRHASLHTPLR SNFTLTAARHSLSGMFIPHINNSIEGQLILKDKFITQTAPDIRRKLEKQAMGLDSTLQNL LKVATSVFYNRDQEEAQGKERKHKKKAETLVATLYKTQYPQEPSSS >gi568815587r:17292994_17576776|GENSCAN_predicted_CDS_2|1041_bp atgacgtggagggctgccgcctccacgtgcgcggcgctcctgattctgctgtgggcgctg acgaccgaaggtgatctgaaagtagagatgatggcaggggggactcagatcacacccctg aatgacaatgtcaccatattctgcaatatcttttattcccaacccctcaacatcacgtct atgggtatcacctggttttggaagagtctgacgtttgacaaagaagtcaaagtctttgaa ttttttggagatcaccaagaggcattccgacctggagccattgtgtctccatggaggctg aagagtggggacgcctcactgcggctgcctggaatccagctggaggaagcaggagagtac cgatgtgaggtggtggtcacccctctgaaggcacagggaacagtccagcttgaagttgtg gcttccccagccagcagattgttgctggatcaagtgggcatgaaagagaatgaagacaaa tatatgtgtgagtcaagtgggttctacccagaggctattaatataacatgggagaagcag acccagaagtttccccatcccatagagatttctgaggatgtcatcactggtcccaccatc aagaatatggatggcacatttaatgtcactagctgcttgaagctgaactcctctcaggaa gaccctgggactgtctaccagtgtgtggtacggcatgcgtccttgcatacccccttgagg agcaactttaccctgactgctgctcggcacagtctttctggtatgtttatacctcacata aataattcaattgagggacagctaattttgaaagacaagtttattactcagacagcccct gatatcagaaggaagctagagaaacaggccatgggattagatagcaccttacaaaacctc ctgaaggtagccacctcggtcttttataatagggaccaggaggaggcccaggggaaggag aggaaacacaagaaaaaggcagagactctggtggccactttgtataaaacccagtatccc caagaaccctcaagcagctga >gi568815587r:17292994_17576776|GENSCAN_predicted_peptide_3|390_aa MLSRKGIIPEEYVLTRLAEDPAKPRYRARQRRARFVSKKGNCNVAHKNIREQGRFLQDVF TTLVDLKWPHTLLIFTMSFLCSWLLFAMAWWLIAFAHGDLAPSEGTAEPCVTSIHSFSSA FLFSIEVQVTIGFGGRMVTEECPLAILILIVQNIVGLMINAIMLGCIFMKTAQAHRRAET LIFSKHAVIALRHGRLCFMLRVGDLRKSMIISATIHMQVVRKTTSPEGEVVPLHQVDIPM ENGVGGNSIFLVAPLIIYHVIDANSPLYDLAPSDLHHHQDLEIIVILEGVVETTGITTQA RTSYLADEILWGQRFVPIVAEEDGRYSVDYSKFGNTVKVPTPLCTARQLDEDHSLLEALT LASARGPLRKRSVPMAKAKPKFSISPDSLS >gi568815587r:17292994_17576776|GENSCAN_predicted_CDS_3|1173_bp atgctgtcccgcaagggcatcatccccgaggaatacgtgctgacacgcctggcagaggac cctgccaagcccaggtaccgtgcccgccagcggagggcccgctttgtgtccaagaaaggc aactgcaacgtggcccacaagaacatccgggagcagggccgcttcctgcaggacgtgttc accacgctggtggacctcaagtggccacacacattgctcatcttcaccatgtccttcctg tgcagctggctgctcttcgccatggcctggtggctcatcgccttcgcccacggtgacctg gcccccagcgagggcactgctgagccctgtgtcaccagcatccactccttctcgtctgcc ttccttttctccattgaggtccaagtgactattggctttggggggcgcatggtgactgag gagtgcccactggccatcctgatcctcatcgtgcagaacatcgtggggctcatgatcaac gccatcatgcttggctgcatcttcatgaagactgcccaagcccaccgcagggctgagacc ctcatcttcagcaagcatgcggtgatcgccctgcgccacggccgcctctgcttcatgcta cgtgtgggtgacctccgcaagagcatgatcatcagcgccaccatccacatgcaggtggta cgcaagaccaccagccccgagggcgaggtggtgcccctccaccaggtggacatccccatg gagaacggcgtgggtggcaacagcatcttcctggtggccccgctgatcatctaccatgtc attgatgccaacagcccactctacgacctggcacccagcgacctgcaccaccaccaggac ctcgagatcatcgtcatcctggaaggcgtggtggaaaccacgggcatcaccacccaggcc cgcacctcctacctggccgatgagatcctgtggggccagcgctttgtgcccattgtagct gaggaggacggacgttactctgtggactactccaagtttggcaacaccgtcaaagtgccc acaccactctgcacggcccgccagcttgatgaggaccacagcctactggaagctctgacc ctcgcctcagcccgcgggcccctgcgcaagcgcagcgtgcccatggccaaggccaagccc aagttcagcatctctccagattccctgtcctga >gi568815587r:17292994_17576776|GENSCAN_predicted_peptide_4|2889_aa MPPRSPLAYPTLSAKALGSLMPEIRMGAVAPRAAGPVAVAALSSSWQPGTRRNGSCNDAA GPGPAMDRKVAREFRHKCPQLRAVEACGDSLGQYLREEFGGKGLLESGMCYLSEWPKSFL KAFIRHYSHHQVDFLIENDAEKDYLYDVLRMYHQTMDVAVLVGDLKLVINEPSRLPLFDA IRPLIPLKHQVEYDQLTPRRSRKLKEVRLDRLHPEGLGLSVRGGLEFGCGLFISHLIKGG QADSVGLQVGDEIVRINGYSISSCTHEEVINLIRTKKTVSIKVRHIGLIPVKSSPDEPLT WQYVDQFVSESGGVRGSLGSPGNRENKEKKVFISLVGSRGLGCSISSGPIQKPGIFISHV KPGSLSAEVGLEIGDQIVEVNGVDFSNLDHKEAVNVLKSSRSLTISIVAAASRARGLLPS KKFGSGIAGAAVPDGAEKTTCISAPRGVSGDPQVPRGLSKGPLFSHEGRELFMTDRERLA EARQRELQRQELLMQKRLAMESNKILQEQQEMERQRRKEIAQKAAEENERYRKEMEQIVE EEEKFKKQWEEDWGSKEQLLLPKTITAEVHPVPLRKPKYDQGVEPELEPADDLDGGTEEQ GEQACSATKARPAFGWFYRYDGKFPTIRKKGKDKKKAKYGSLQDLRKNKKELEFEQKLYK EKEEMLEKEKQLKINRLAQEVSETEREDLEESEKIQYWVERLCQTRLEQISSADNEISER TPPPIPIPPPPSVPTQDLTPTRPLPSALEEALSNHPFRTGDTGNPVEDWEAKNHSGKPTN SPVPEQSFPPTPKTFCPSPQPPRGPGVSTISKPVMVHQEPNFIYRPAVKSEVLDFRKYEE GFDPYSMFTPEQIMGKDVRLLRIKKEGSLDLALEGGVDSPIGKVVVSAVYERGAAERHGG IVKGDEIMAINGKIVTDYTLAEAEAALQKAWNQGGDWIDLVVAVCPPKEYDDELGHLLPT LSAGSLDWRLEGVPPAFSLASCVLWLWLWMQTKLDPENLVIKQTGSQHLPESWQGRGAQT KMQRLPCGTERNQWVGTERGSRETAKLSDVLDEDKATVTFKLLALRDSSHTDELPVFSCQ APNLVLEKIPKPSARVHQGTHEATPATSGSTRLHIWKVVEQGGVREGEASGAGRGPGGGG LTAGPGGGAARDRGAAGARSQRSQLSPSPARARAAMPLAFCGSENHSAAYRVDQGVLNNG CFVDALNVVPHVFLLFITFPILFIGWGSQSSKVHIHHSTWLHFPGHNLRWILTFMLLFVL VCEIAEGILSDGVTESHHLHLYMPAGMAFMAAVTSVVYYHNIETSNFPKLLIALLVYWTL AFITKTIKFVKFLDHAIGFSQLRFCLTGLLVILYGMLLLVEVNVIRVRRYIFFKTPREVK PPEDLQDLGVRFLQPFVNLLSKGTYWWMNAFIKTAHKKPIDLRAIGKLPIAMRALTNYQR LCEAFDAQVRKDIQGTQGARAIWQALSHAFGRRLVLSSTFRILADLLGFAGPLCIFGIVD HLGKENDVFQPKTQFLGVYFVSSQEFLANAYVLAVLLFLALLLQRTFLQASYYVAIETGI NLRGAIQTKIYNKIMHLSTSNLSMGEMTAGQICNLVAIDTNQLMWFFFLCPNLWAMPVQI IVGVILLYYILGVSALIGAAVIILLAPVQYFVATKLSQAQRSTLEYSNERLKQTNEMLRG IKLLKLYAWENIFRTRVETTRRKEMTSLRAFAIYTSISSEFTPHSQPWVLLRTCKERVSE LGCILQLGPNCEPACSSPGPAQATKLKLIRVFMNTAIPIAAVLITFVGHVSFFKEADFSP SVAFASLSLFHILVTPLFLLSSVVRSTVKALVSVQKLSEFLSSAEIREEQCAPHEPTPQG PASKYQAVEEGLPSLHSSQPSGSSPPNHPQPLRVVNRKRPAREDCRGLTGPLQSLVPSAD GDADNCCVQIMGGYFTWTPDGIPTLSNITIRIPRGQLTMIVGQVGCGKSSLLLAALGEMQ KVSGAVFWSSPERETATDLDIRKRGPVAYASQKPWLLNATVEENIIFESPFNKQRYKMVI EACSLQPDIDILPHGDQTQIGERGINLSGGQRQRISVARALYQHANVVFLDDPFSALDIH LSDHLMQAGILELLRDDKRTVVLVTHKLQYLPHADWIIAMKDGTIQREGTLKDFQRSECQ LFEHWKTLMNRQDQELEKETVTERKATEPPQGLSRAMSSRDGLLQDEEEEEEEAAESEED DNLSSMLHQRAEIPWRACAKYLSSAGILLLSLLVFSQLLKHMVLVAIDYWLAKWTDSALT LTPAARNCSLSQECTLDQTVYAMVFTVLCSLGIVLCLVTSVTVEWTGLKVAKRLHRSLLN RIILAPMRFFETTPLGSILNRFSSDCNTIDQHIPSTLECLSRSTLLCVSALAVISYVTPV FLVALLPLAIVCYFIQKYFRVASRDLQQLDDTTQLPLLSHFAETVEGLTTIRAFRYESTF PQETIKAELTPSRVKSKCPVRYVLGASVSPEFGPIKPAMMRQLFFRSFLHHQTSAPASPL GRAYVSKEYIGACVVLIAAVTSISNSLHRELSAGLVGLGLTYALMVSNYLNWMVRNLADM ELQLGAVKRIHGLLKTEAESYEGLLAPSLIPKNWPDQGKIQIQNLSVRYDSSLKPVLKHV NALIAPGQKIGICGRTGSGKSSFSLAFFRMVDTFEGHIIIDGIDIAKLPLHTLRSRLSII LQDPVLFSGTIRFNLDPERKCSDSTLWEALEIAQLKLVVKALPGGLGNYSWLCSWVGWAL KDPHKINSVLLHLPGLFSDAIITEGGENFSQGQRQLFCLARAFVRKTSIFIMDEATASID MATENILQKVVMTAFADRTVVTIAHRVHTILSADLVIVLKRGAILEFDKPEKLLSRKDSV FASFVRADK >gi568815587r:17292994_17576776|GENSCAN_predicted_CDS_4|8670_bp atgcctccccgcagtcccctggcctatcccaccctaagtgctaaagccctggggtcgctg atgccagaaatacggatgggagctgtggctccgagggcggctggcccggtcgcggtcgcg gctctttccagctcctggcagccgggcacccgaaggaacgggtcgtgcaacgacgcagct ggacctggcccagccatggaccgaaaagtggcccgagaattccggcataagtgcccccag ctcagggctgttgaggcatgtggagacagtctggggcagtatctgagagaagaattcggt ggtaaggggcttctggagagtggcatgtgctatctaagcgagtggcccaaatccttcctg aaagcatttatccggcactacagccaccatcaggtggattttctgattgaaaatgatgca gagaaggactatctctatgatgtgctgcgaatgtaccaccagaccatggacgtggccgtg ctcgtgggagacctgaagctggtcatcaatgaacccagccgtctgcctctgtttgatgcc attcggccgctgatcccactgaagcaccaggtggaatatgatcagctgaccccccggcgc tccaggaagctgaaggaggtgcgtctggaccgtctgcaccccgaaggcctcggcctgagt gtgcgtggtggcctggagtttggctgtgggctcttcatctcccacctcatcaaaggcggt caggcagacagcgtcgggctccaggtaggggacgagatcgtccggatcaatggatattcc atctcctcctgtacccatgaggaggtcatcaacctcattcgaaccaagaaaactgtgtcc atcaaagtgagacacatcggcctgatccccgtgaaaagctctcctgatgagcccctcact tggcagtatgtggatcagtttgtgtcggaatctgggggcgtgcgaggcagcctgggctcc cctggaaatcgggaaaacaaggagaagaaggtcttcatcagcctggtaggctcccgaggc cttggctgcagcatttccagcggccccatccagaagcctggcatctttatcagccatgtg aaacctggctccctgtctgctgaggtgggattggagataggggaccagattgtcgaagtc aatggcgtcgacttctctaacctggatcacaaggaggctgtaaatgtgctgaagagtagc cgcagcctgaccatctccattgtagctgcagctagcagagcgagaggacttctgcccagc aagaagtttgggtcagggattgcgggagccgcagtgcctgatggtgctgagaagaccacc tgcatctcggcccccaggggtgtgtcaggggatccccaggttccccgggggctgagcaag gggcctcttttctcccatgagggccgggagctgttcatgacagaccgggagcggctggca gaggcgcggcagcgtgagctgcagcggcaggagcttctcatgcagaagcggctggcgatg gagtccaacaagatcctccaggagcagcaggagatggagcggcaaaggagaaaagaaatt gcccagaaggcagcagaggaaaatgagagataccggaaggagatggaacagattgtagag gaggaagagaagtttaagaagcaatgggaagaagactggggctcaaaggaacagctactc ttgcctaaaaccatcactgctgaggtacacccagtaccccttcgcaagccaaagtatgat cagggagtggaacctgagctcgagcccgcagatgacctggatggaggcacggaggagcag ggagagcaggcctgttctgcaaccaaggcaaggccagcttttggatggttttatcgttac gatggcaaattcccaaccatccggaagaaaggaaaagataagaagaaagccaagtatggc agcctgcaggacttgagaaagaataagaaagaactggagtttgagcaaaagctttacaaa gagaaagaggaaatgctggagaaggaaaagcagctaaagatcaaccggctggcccaggag gtgtctgagacagagcgggaagaccttgaagaatcggaaaagattcaatattgggtggag aggctctgtcaaacgcgcctcgagcagatttcctctgctgataatgagatttcagagcgc actccaccccccattcccatccctcccccgccatccgttcccacccaagacctcactccc acccgcccactgccctcggcgctggaagaagcactgagcaaccatcccttccgcactggg gacacaggcaatccagtggaggactgggaggcaaagaaccacagtgggaagcccactaac tcccctgtccctgaacagagcttcccacccaccccaaagacattttgcccaagcccacag cctccacgaggccctggcgtgtccaccatctccaaacctgtcatggtccaccaggagccc aatttcatctacaggccagctgtgaaatctgaagttctggatttccggaaatatgaggaa ggctttgacccctactctatgttcaccccagagcagatcatggggaaggatgtccggctc ctacgcatcaagaaggagggatccttagacctggccctggaaggcggtgtggactccccc attgggaaggtggtcgtttctgctgtgtatgagcggggagctgctgagcggcatggtggc attgtgaaaggggacgagatcatggcaatcaacggcaagattgtgacagactacaccctg gctgaggctgaggctgccctgcagaaggcctggaatcagggcggggactggatcgacctt gtggttgccgtctgccccccaaaggagtatgacgatgagcttggccatctgctgcccacg ctgtcagcaggttctttggactggcgtctggagggtgtccctcccgctttctccctggcc tcctgtgtgctgtggctgtggctgtggatgcagactaagctggatcccgagaacttggta ataaaacagacaggctctcaacacctcccagaatcatggcaggggagaggggctcagacc aaaatgcagcgactaccatgtgggactgaaagaaatcaatgggtggggacagagagaggg agcagagaaactgccaaactttctgatgtcctcgatgaagacaaagccacagtgaccttc aaattactggcgctcagagacagcagccacacagacgagctccctgtgttttcctgtcag gcacctaacctggttctggagaaaattccaaaacccagcgcacgcgtgcatcagggcact cacgaagccaccccggcaacatctgggagcacgcgcctccacatctggaaggtggtggag cagggcggggtgagggagggggaggccagcggggctgggcggggcccggggggcgggggc ctgacggccgggccgggcggcggagctgcaagggacagaggcgcggcaggcgcgcggagc cagcggagccagctgagcccgagcccagcccgcgcccgcgccgccatgcccctggccttc tgcggcagcgagaaccactcggccgcctaccgggtggaccagggggtcctcaacaacggc tgctttgtggacgcgctcaacgtggtgccgcacgtcttcctactcttcatcaccttcccc atcctcttcattggatggggaagtcagagctccaaggtgcacatccaccacagcacatgg cttcatttccctgggcacaacctgcggtggatcctgaccttcatgctgctcttcgtcctg gtgtgtgagattgcagagggcatcctgtctgatggggtgaccgaatcccaccatctgcac ctgtacatgccagccgggatggcgttcatggctgctgtcacctccgtggtctactatcac aacatcgagacttccaacttccccaagctgctaattgccctgctggtgtattggaccctg gccttcatcaccaagaccatcaagtttgtcaagttcttggaccacgccatcggcttctcg cagctacgcttctgcctcacagggctgctggtgatcctctatgggatgctgctcctcgtg gaggtcaatgtcatcagggtgaggagatacatcttcttcaagacaccgagggaggtgaag cctcccgaggacctgcaagacctgggggtacgcttcctgcagcccttcgtgaatctgctg tccaaaggcacctactggtggatgaacgccttcatcaagactgcccacaagaagcccatc gacttgcgagccatcgggaagctgcccatcgccatgagggccctcaccaactaccaacgg ctctgcgaggcctttgacgcccaggtgcggaaggacattcagggcactcaaggtgcccgg gccatctggcaggcactcagccatgccttcgggaggcgcctggtcctcagcagcactttc cgcatcttggccgacctgctgggcttcgccgggccactgtgcatctttgggatcgtggac caccttgggaaggagaacgacgtcttccagcccaagacacaatttctcggggtttacttt gtctcatcccaagagttccttgccaatgcctacgtcttagctgtgcttctgttccttgcc ctcctactgcaaaggacatttctgcaagcatcctactatgtggccattgaaactggaatt aacttgagaggagcaatacagaccaagatttacaataaaattatgcacctgtccacctcc aacctgtccatgggagaaatgactgctggacagatctgtaatctggttgccatcgacacc aatcagctcatgtggtttttcttcttgtgcccaaacctctgggctatgccagtacagatc attgtgggtgtgattctcctctactacatactcggagtcagtgccttaattggagcagct gtcatcattctactggctcctgtccagtacttcgtggccaccaagctgtctcaggcccag cggagcacactggagtattccaatgagcggctgaagcagaccaacgagatgctccgcggc atcaagctgctgaagctgtacgcctgggagaacatcttccgcacgcgggtggagacgacc cgcaggaaggagatgaccagcctcagggcctttgccatctatacctccatctccagtgag ttcaccccacacagccagccctgggtgctgctgcgtacatgcaaggagagggtgtcagag ctcggatgcatcttgcaattaggcccaaactgtgagcctgcatgctcctcccctggccct gcacaggcaacaaagctgaagttaatcagagttttcatgaacacggccatccccattgca gctgtcctcataactttcgtgggccacgtcagcttcttcaaagaggccgacttctcgccc tccgtggcctttgcctccctctccctcttccatatcttggtcacaccgctgttcctgctg tccagtgtggtccgatctaccgtcaaagctctagtgagcgtgcaaaagctaagcgagttc ctgtccagtgcagagatccgtgaggagcagtgtgccccccatgagcccacacctcagggc ccagccagcaagtaccaggcggtggaagaggggctcccttccctacacagctcccagccc agtgggtcctcacctccaaaccacccccagcccctcagggttgtgaaccgcaagcgtcca gcccgggaggattgtcggggcctcaccggcccactgcagagcctggtccccagtgcagat ggcgatgctgacaactgctgtgtccagatcatgggaggctacttcacgtggaccccagat ggaatccccacactgtccaacatcaccattcgtatcccccgaggccagctgactatgatc gtggggcaggtgggctgcggcaagtcctcgctccttctagccgcactgggggagatgcag aaggtctcaggggctgtcttctggagcagcccagagcgggagacagcgaccgacttggat atcaggaagagaggccccgtggcctatgcttcgcagaaaccatggctgctaaatgccact gtggaggagaacatcatctttgagagtcccttcaacaaacaacggtacaagatggtcatt gaagcctgctctctgcagccagacatcgacatcctgccccatggagaccagacccagatt ggggaacggggcatcaacctgtctggtggtcaacgccagcgaatcagtgtggcccgagcc ctctaccagcacgccaacgttgtcttcttggatgaccccttctcagctctggatatccat ctgagtgaccacttaatgcaggccggcatccttgagctgctccgggacgacaagaggaca gtggtcttagtgacccacaagctacagtacctgccccatgcagactggatcattgccatg aaggatggcaccatccagagggagggtaccctcaaggacttccagaggtctgaatgccag ctctttgagcactggaagaccctcatgaaccgacaggaccaagagctggagaaggagact gtcacagagagaaaagccacagagccaccccagggcctatctcgtgccatgtcctcgagg gatggccttctgcaggatgaggaagaggaggaagaggaggcagctgagagcgaggaggat gacaacctgtcgtccatgctgcaccagcgtgctgagatcccatggcgagcctgcgccaag tacctgtcctccgccggcatcctgctcctgtcgttgctggtcttctcacagctgctcaag cacatggtcctggtggccatcgactactggctggccaagtggaccgacagcgccctgacc ctgacccctgcagccaggaactgctccctcagccaggagtgcaccctcgaccagactgtc tatgccatggtgttcacggtgctctgcagcctgggcattgtgctgtgcctcgtcacgtct gtcactgtggagtggacagggctgaaggtggccaagagactgcaccgcagcctgctaaac cggatcatcctagcccccatgaggttttttgagaccacgccccttgggagcatcctgaac agattttcatctgactgtaacaccatcgaccagcacatcccatccacgctggagtgcctg agccgctccaccctgctctgtgtctcagccctggccgtcatctcctatgtcacacctgtg ttcctcgtggccctcttgcccctggccatcgtgtgctacttcatccagaagtacttccgg gtggcgtccagggacctgcagcagctggatgacaccacccagcttccacttctctcacac tttgccgaaaccgtagaaggactcaccaccatccgggccttcaggtacgagtccacattc ccccaagagacaatcaaagctgaactaacaccttccagggtgaaaagcaaatgcccagta aggtacgtcttgggtgcctccgtgtcccctgagtttggtcctatcaaaccagcgatgatg aggcagcttttctttcgttccttcctccatcatcaaacaagtgctcctgcatctcctctg ggccgggcctacgtcagcaaggagtacatcggtgcatgtgtggtgctcatcgcagcggtg acctccatctccaactccctgcacagggagctctctgctggcctggtgggcctgggcctt acctacgccctaatggtctccaactacctcaactggatggtgaggaacctggcagacatg gagctccagctgggggctgtgaagcgcatccatgggctcctgaaaaccgaggcagagagc tacgaggggctcctggcaccatcgctgatcccaaagaactggccagaccaagggaagatc cagatccagaacctgagcgtgcgctacgacagctccctgaagccggtgctgaagcacgtc aatgccctcatcgcccctggacagaagatcgggatctgcggccgcaccggcagtgggaag tcctccttctctcttgccttcttccgcatggtggacacgttcgaagggcacatcatcatt gatggcattgacatcgccaaactgccgctgcacaccctgcgctcacgcctctccatcatc ctgcaggaccccgtcctcttcagcggcaccatccgatttaacctggaccctgagaggaag tgctcagatagcacactgtgggaggccctggaaatcgcccagctgaagctggtggtgaag gcactgccaggaggcctcggtaactactcctggctatgcagctgggttggttgggcactc aaggaccctcacaagattaactcagtcctacttcatctccccgggctgttttcagatgcc atcatcacagaaggcggggagaatttcagccagggacagaggcagctgttctgcctggcc cgggccttcgtgaggaagaccagcatcttcatcatggacgaggccacggcttccattgac atggccacggaaaacatcctccaaaaggtggtgatgacagccttcgcagaccgcactgtg gtcaccatcgcgcatcgagtgcacaccatcctgagtgcagacctggtgatcgtcctgaag cggggtgccatccttgagttcgataagccagagaagctgctcagccggaaggacagcgtc ttcgcctccttcgtccgtgcagacaagtga >gi568815587r:17292994_17576776|GENSCAN_predicted_peptide_5|763_aa MGLMVCRRDATWEDLFSCFNGGECVHPAFCDCRRFNATGPRCQMVYNAGPERDSICRAWG QHHVETFDGLYYYLSGKGSYTLVGRHEPEGQSFSIQVHNDPQCGSSPYTCSRAVSLFFVG EQEIHLAKEVTHGGMRVQLPHVMGSARLQQLAGYVIVRHQSAFTLAWDGASAVYIKMSPE LLGWTHGLCGNNNADPKDDLVTSSGKLTDDVVEFVHSWQEQAPNQPPGPTTSSLPRPPCL QQNPGTMQGVYEQCEALLRPPFDACHAYVSPLPFTASCTSDLCQSMGDVATWCRALAEYA RACAQAGRPLQGWRTQLRQCTVHCKEKAFTYNECIACCPASCHPRASCVDSEIACVDGCY CPNGLIFEDGGCVAPAECPCEFHGTLYPPGSVVKEDCNTWSVSAAGKQAECSVTGDIHFT TFDGRRYTFPATCQYILAKSRSSGTFTVTLQNAPCGLNQDGACVQSVSVILHQDPRRQVT LTQAGDVLLFDQYKIIPPYTDDAFEIRRLSSVFLRVRTNVGVRVLYDREGLRLYLQVDQR WVEDTVGLCGTFNGNTQDDFLSPVGVPESTPQLFGNSWKTLSACSPLVSGSPLDPCDVHL QAASYSVQACSVLTGEMFAPCSAFLSPVPYFEQCRRDACRCGQPCLCATLAHYAHLCRRH GLPVDFRARLPACALSCEASKEYSPCVAPCGRTCQDLASPEACGVDGGDDLSRDECVEGC ACPPDTYLDTQADLCVPRNQCSCHFQGVDYPPGDSDIPSLGHX >gi568815587r:17292994_17576776|GENSCAN_predicted_CDS_5|2289_bp atgggcctcatggtctgccgcagagatgccacttgggaagacttgttctcctgcttcaat ggaggcgagtgtgtgcacccagccttctgtgactgcagacgcttcaatgccactggaccg cgctgccagatggtgtacaatgccggccctgagagggacagcatttgccgggcgtggggg cagcaccacgtggagacatttgatgggctctactactacctctccggaaagggcagctac accctggtgggtcgccatgagcccgagggacagagcttctccatccaggtacacaatgac ccgcagtgtggctcttcaccctacacctgctccagggctgtcagcctcttctttgtgggt gagcaggagatccatctggccaaggaggtcacccatggaggcatgagggtccaactgcca catgtcatggggagcgcgcgtctgcagcagcttgccggctatgtcatcgtgcggcatcag tcagccttcacactggcctgggatggtgcctcggctgtctacatcaagatgagtccagag cttctgggctggacccatgggctgtgtgggaacaacaatgctgaccccaaggatgatctg gtgaccagctctgggaagctgactgacgacgtggttgagtttgtgcacagctggcaggag caggcccctaaccagcctccagggcccacaacttcctccctgcctcgcccaccgtgccta cagcagaacccaggaaccatgcagggcgtgtacgagcagtgtgaggctctactgcggccc ccctttgacgcctgccacgcctacgtcagccctctgcccttcacagccagttgtaccagt gatctctgccaatcaatgggtgatgtagccacctggtgccgggcactggcggagtatgcc cgggcgtgtgcccaggcagggcggcccttgcaaggctggaggacccagctccggcaatgc actgtgcactgcaaggagaaggcctttacctacaatgagtgcatcgcctgctgccctgcc tcctgccatccccgggcatcctgtgtggacagtgagatcgcctgtgtggacggctgctat tgccccaatgggctcatcttcgaggatgggggctgcgtggcaccagctgagtgtccctgt gagtttcacgggactctgtacccacctggctctgtggtgaaggaagactgcaatacttgg tctgtgtctgctgccgggaagcaggctgagtgctcagtgactggtgacattcacttcaca acctttgatggccgccggtacacgttccccgccacatgtcagtacatcctggccaagagc cgctcttcgggcaccttcaccgtgacattgcagaatgccccatgtggcctgaaccaagat ggagcctgtgtccagtcagtgtcagtgattctgcaccaggaccctcggaggcaggtgacc ctgacccaggcaggggatgtccttctgtttgaccagtacaagatcatcccgccatacaca gatgatgcctttgagatccgtaggctgtcctccgtgttcctgcgggtgaggacgaacgtg ggcgtgcgggtgctctacgaccgtgaagggctccgactgtacctgcaagtggaccagcga tgggtggaggataccgtgggcctctgcggcaccttcaatggcaacacgcaggatgacttc ctgtctccagtgggtgtacctgagagcaccccacaactttttggcaattcctggaaaaca ctttctgcttgctccccgctggtctctggctcccctctggacccctgcgatgtgcacctg caagccgcctcctactcagtgcaggcctgcagcgtgctcacgggggagatgtttgcgccc tgctctgcgttcctgagccccgtgccctactttgagcagtgccgcagggatgcctgccgc tgcgggcagccctgcctgtgcgccacactggcccactacgcccacctgtgccggcgccat gggctccccgttgatttccgcgcccgcctgccagcctgtgcactgtcctgtgaggcctcc aaggagtatagcccctgcgtggccccgtgtggacgtacctgccaggacctggccagccct gaggcctgtggggttgatggtggcgatgacctgagcagagacgagtgtgtggagggctgt gcctgcccaccggacacctatctggacacccaggctgacctctgtgtcccccggaaccag tgctcctgccacttccagggagtggactatccccccggagacagtgacatcccatccctg ggccactgn