Result of GENSCAN for
pF1KE2438
GENSCAN 1.0 Date run: 7-Nov-116 Time: 20:11:39 Sequence gi568815581r:10421283_10647920 : 226638 bp : 40.33% C+G : Isochore 1 ( 0 - 43 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.04 PlyA - 1225 1220 6 1.05 1.03 Term - 10998 10868 131 1 2 45 48 123 0.351 1.36 1.02 Intr - 14083 13995 89 0 2 -8 81 95 0.254 -2.10 1.01 Init - 17186 17116 71 2 2 100 74 73 0.804 7.67 1.00 Prom - 18055 18016 40 -4.05 2.37 PlyA - 19719 19714 6 1.05 2.36 Term - 22245 22093 153 0 0 74 31 146 0.604 4.44 2.35 Intr - 23417 23322 96 2 0 89 68 133 0.711 10.69 2.34 Intr - 23617 23513 105 1 0 124 60 115 0.999 11.79 2.33 Intr - 23864 23694 171 2 0 43 73 311 0.999 24.32 2.32 Intr - 24080 23955 126 2 0 42 69 196 0.999 13.06 2.31 Intr - 25934 25731 204 2 0 73 94 294 0.999 26.97 2.30 Intr - 26844 26536 309 0 0 30 91 401 0.999 30.18 2.29 Intr - 27238 27114 125 2 2 70 73 119 0.995 7.98 2.28 Intr - 27501 27336 166 0 1 70 92 212 0.991 18.41 2.27 Intr - 27765 27582 184 2 1 59 30 280 0.811 18.17 2.26 Intr - 29367 29171 197 0 2 49 55 315 0.930 21.59 2.25 Intr - 29613 29495 119 1 2 124 100 146 0.999 18.66 2.24 Intr - 30170 30044 127 2 1 83 82 116 0.993 9.83 2.23 Intr - 31048 30659 390 1 0 31 11 521 0.990 32.69 2.22 Intr - 31224 31134 91 2 1 70 111 111 0.999 10.68 2.21 Intr - 31650 31505 146 0 2 -12 106 188 0.999 8.76 2.20 Intr - 32046 31870 177 0 0 55 95 329 0.999 29.49 2.19 Intr - 32603 32361 243 2 0 98 82 358 0.998 32.97 2.18 Intr - 33528 33273 256 2 1 101 87 296 0.996 27.32 2.17 Intr - 33795 33659 137 0 2 45 78 68 0.970 -0.05 2.16 Intr - 34013 33890 124 1 1 75 64 127 0.972 8.67 2.15 Intr - 34449 34332 118 1 1 29 68 113 0.421 2.00 2.14 Intr - 36447 36138 310 0 1 88 45 354 0.828 26.06 2.13 Intr - 38139 37969 171 0 0 87 22 299 0.997 22.42 2.12 Intr - 38819 38670 150 2 0 44 76 256 0.998 19.44 2.11 Intr - 39039 38921 119 1 2 75 97 57 0.985 4.56 2.10 Intr - 39772 39634 139 1 1 28 76 138 0.983 5.72 2.09 Intr - 41686 41583 104 2 2 69 95 141 0.989 11.87 2.08 Intr - 41906 41808 99 0 0 47 91 54 0.613 0.76 2.07 Intr - 42119 42056 64 2 1 106 103 57 0.999 6.37 2.06 Intr - 42361 42269 93 1 0 60 78 109 0.752 6.34 2.05 Intr - 43304 43190 115 1 1 41 80 164 0.949 10.43 2.04 Intr - 43426 43399 28 2 1 108 49 9 0.558 -4.74 2.03 Intr - 44316 44160 157 0 1 97 105 193 0.933 20.56 2.02 Intr - 45134 44991 144 2 0 105 57 165 0.999 14.66 2.01 Init - 45463 45260 204 1 0 93 68 287 0.907 26.10 2.00 Prom - 47039 47000 40 -5.65 3.37 PlyA - 49100 49095 6 1.05 3.36 Term - 60944 60693 252 2 0 45 44 184 0.112 4.35 3.35 Intr - 71286 71179 108 0 0 62 34 126 0.150 4.16 3.34 Intr - 73167 73072 96 0 0 12 101 178 0.990 10.79 3.33 Intr - 73391 73287 105 2 0 79 80 164 0.996 14.19 3.32 Intr - 73819 73649 171 1 0 70 59 341 0.999 28.62 3.31 Intr - 74035 73910 126 1 0 51 76 181 0.999 13.16 3.30 Intr - 74871 74668 204 0 0 101 57 339 0.997 30.57 3.29 Intr - 75267 74959 309 0 0 65 94 299 0.999 23.78 3.28 Intr - 75911 75787 125 0 2 52 99 152 0.999 12.08 3.27 Intr - 76170 76005 166 0 1 84 55 186 0.999 13.51 3.26 Intr - 76635 76452 184 2 1 80 61 292 0.999 24.57 3.25 Intr - 77540 77344 197 2 2 95 55 280 0.995 22.69 3.24 Intr - 77810 77692 119 0 2 94 121 88 0.999 11.96 3.23 Intr - 79470 79344 127 0 1 53 80 163 0.998 11.33 3.22 Intr - 80217 79828 390 0 0 57 82 537 0.999 43.99 3.21 Intr - 80402 80312 91 1 1 41 70 142 0.999 6.78 3.20 Intr - 80629 80484 146 1 2 29 80 187 0.999 10.16 3.19 Intr - 81632 81456 177 2 0 92 69 315 0.999 29.19 3.18 Intr - 81966 81724 243 0 0 92 64 372 0.991 31.97 3.17 Intr - 83783 83528 256 1 1 49 68 236 0.962 14.22 3.16 Intr - 84017 83881 137 2 2 60 62 181 0.997 11.15 3.15 Intr - 84229 84106 124 0 1 66 85 148 0.995 11.97 3.14 Intr - 84647 84530 118 0 1 41 55 113 0.823 1.90 3.13 Intr - 87390 87081 310 0 1 62 91 316 0.992 24.26 3.12 Intr - 88373 88203 171 2 0 46 58 294 0.996 21.42 3.11 Intr - 90706 90557 150 1 0 29 76 185 0.998 10.84 3.10 Intr - 90910 90792 119 2 2 48 111 91 0.926 6.66 3.09 Intr - 91264 91126 139 1 1 74 76 131 0.998 9.62 3.08 Intr - 91502 91399 104 0 2 47 95 149 0.999 10.47 3.07 Intr - 91683 91585 99 1 0 96 91 30 0.903 3.26 3.06 Intr - 92631 92436 196 0 1 88 10 170 0.610 7.27 3.05 Intr - 92842 92728 115 0 1 75 109 156 0.971 15.93 3.04 Intr - 93613 93586 28 2 1 115 60 -19 0.948 -5.74 3.03 Intr - 94800 94644 157 0 1 79 105 152 0.997 14.66 3.02 Intr - 95060 94917 144 2 0 47 83 160 0.999 10.96 3.01 Init - 95360 95157 204 2 0 93 68 235 0.865 20.90 3.00 Prom - 96429 96390 40 -3.45 4.39 PlyA - 96468 96463 6 1.05 4.38 Term - 100150 99998 153 1 0 59 43 154 0.726 4.94 4.37 Intr - 101903 101808 96 2 0 67 87 84 0.978 5.49 4.36 Intr - 102130 102026 105 1 0 55 92 145 0.999 11.09 4.35 Intr - 102384 102214 171 0 0 61 59 299 0.999 23.52 4.34 Intr - 102602 102477 126 2 0 66 76 177 0.999 14.26 4.33 Intr - 103387 103184 204 1 0 97 75 343 0.999 32.37 4.32 Intr - 103783 103475 309 1 0 61 94 317 0.999 25.18 4.31 Intr - 104066 103942 125 0 2 24 73 204 0.998 11.88 4.30 Intr - 104334 104169 166 0 1 34 94 186 0.912 12.41 4.29 Intr - 104594 104411 184 1 1 21 86 352 0.963 27.17 4.28 Intr - 105513 105317 197 0 2 66 55 360 0.988 27.79 4.27 Intr - 105774 105656 119 1 2 85 25 184 0.999 11.06 4.26 Intr - 106592 106466 127 2 1 109 53 197 0.999 17.63 4.25 Intr - 107797 107408 390 1 0 68 74 590 0.999 49.59 4.24 Intr - 107970 107880 91 2 1 49 108 77 0.999 4.88 4.23 Intr - 108199 108054 146 1 2 20 106 215 0.999 14.66 4.22 Intr - 108458 108282 177 2 0 104 95 309 0.976 32.39 4.21 Intr - 108792 108550 243 0 0 58 64 385 0.991 29.87 4.20 Intr - 110606 110237 370 1 1 27 32 317 0.510 14.18 4.19 Intr - 112139 112003 137 2 2 94 70 165 0.959 13.75 4.18 Intr - 112350 112227 124 2 1 44 86 110 0.853 6.07 4.17 Intr - 113908 113791 118 2 1 53 78 92 0.961 3.30 4.16 Intr - 114083 113996 88 2 1 90 99 12 0.466 1.12 4.15 Intr - 115324 115248 77 2 2 89 61 63 0.470 2.02 4.14 Intr - 116260 115951 310 1 1 47 80 361 0.990 26.16 4.13 Intr - 116553 116383 171 0 0 -31 81 341 0.917 20.72 4.12 Intr - 118072 117923 150 1 0 62 76 264 0.994 22.04 4.11 Intr - 118280 118162 119 0 2 94 96 104 0.998 11.06 4.10 Intr - 118784 118646 139 2 1 47 64 147 0.994 7.32 4.09 Intr - 119415 119312 104 1 2 80 95 153 0.996 14.17 4.08 Intr - 121691 121593 99 0 0 107 91 19 0.893 3.26 4.07 Intr - 121879 121816 64 1 1 -1 103 78 0.705 -2.23 4.06 Intr - 122521 122429 93 1 0 88 78 87 0.661 6.94 4.05 Intr - 122734 122620 115 0 1 17 109 164 0.804 10.93 4.04 Intr - 122845 122818 28 2 1 86 113 13 0.967 -0.14 4.03 Intr - 124220 124064 157 2 1 72 105 172 0.988 15.96 4.02 Intr - 126336 126193 144 0 0 88 83 143 0.999 13.36 4.01 Init - 126638 126435 204 2 0 93 101 274 0.805 28.10 4.00 Prom - 132676 132637 40 -3.65 5.00 Prom + 133568 133607 40 -8.05 5.01 Init + 138361 138427 67 0 1 78 97 77 0.865 8.89 5.02 Intr + 148755 148772 18 1 0 110 95 18 0.033 0.36 5.03 Intr + 170582 170656 75 0 0 108 55 95 0.373 6.77 5.04 Term + 181114 181214 101 2 2 46 43 132 0.553 1.81 5.05 PlyA + 181415 181420 6 1.05 6.04 PlyA - 181577 181572 6 1.05 6.03 Term - 187327 187068 260 2 2 26 43 262 0.858 10.23 6.02 Intr - 190349 190222 128 1 2 85 50 73 0.183 2.60 6.01 Init - 199436 199234 203 2 2 71 -32 192 0.014 2.80 6.00 Prom - 204173 204134 40 -3.95 7.33 PlyA - 205747 205742 6 1.05 7.32 Term - 207397 207371 27 1 0 94 52 61 0.831 0.20 7.31 Intr - 208452 208315 138 0 0 100 96 190 0.976 20.74 7.30 Intr - 208655 208509 147 2 0 100 89 121 0.852 12.91 7.29 Intr - 208914 208810 105 0 0 109 111 145 0.999 18.39 7.28 Intr - 209176 209006 171 1 0 64 61 366 0.939 30.72 7.27 Intr - 210454 210329 126 1 0 70 77 180 0.996 15.06 7.26 Intr - 210734 210531 204 2 0 62 94 374 0.996 33.87 7.25 Intr - 211502 211194 309 2 0 79 42 430 0.995 33.08 7.24 Intr - 212433 212309 125 1 2 72 105 205 0.995 19.98 7.23 Intr - 212900 212735 166 2 1 41 68 270 0.926 18.91 7.22 Intr - 213741 213558 184 2 1 73 70 245 0.999 20.07 7.21 Intr - 214281 214085 197 0 2 92 25 386 0.999 29.99 7.20 Intr - 214571 214453 119 0 2 86 81 119 0.999 10.26 7.19 Intr - 216653 216527 127 2 1 110 107 156 0.999 19.03 7.18 Intr - 217150 216761 390 1 0 76 48 519 0.459 40.69 7.17 Intr - 217681 217591 91 0 1 106 91 72 0.889 8.38 7.16 Intr - 217907 217762 146 2 2 29 21 204 0.957 5.96 7.15 Intr - 218192 218016 177 2 0 70 105 222 0.999 21.29 7.14 Intr - 218520 218278 243 0 0 61 61 401 0.988 31.47 7.13 Intr - 218969 218714 256 1 1 55 49 357 0.860 25.02 7.12 Intr - 219187 219051 137 1 2 75 27 154 0.907 6.45 7.11 Intr - 219404 219281 124 1 1 74 90 156 0.999 14.07 7.10 Intr - 219920 219803 118 0 1 100 93 103 0.997 10.60 7.09 Intr - 220090 220003 88 1 1 77 94 29 0.845 1.02 7.08 Intr - 221028 220958 71 1 2 84 90 40 0.875 1.78 7.07 Intr - 221441 221135 307 2 1 59 95 299 0.779 22.80 7.06 Intr - 221714 221523 192 2 0 44 77 326 0.724 25.87 7.05 Intr - 223218 223069 150 0 0 76 68 128 0.998 9.04 7.04 Intr - 223420 223302 119 2 2 80 92 96 0.995 8.46 7.03 Intr - 224563 224425 139 1 1 112 82 228 0.998 23.72 7.02 Intr - 224750 224647 104 0 2 91 105 208 0.999 21.77 7.01 Init - 226185 225900 286 0 1 69 66 144 0.444 7.59 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Sngl - 199436 199230 207 2 0 71 47 201 0.872 8.14 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581r:10421283_10647920|GENSCAN_predicted_peptide_1|96_aa MAKRSQSTAKDVASEGASPNPAELSQNGGVNQKIKIVSTTSSKALARILPEGRTEAPKHM NQKLTEIKGETDNSTIMIEDVNNPLSIMDVTINEDQ >gi568815581r:10421283_10647920|GENSCAN_predicted_CDS_1|291_bp atggctaaaaggagccaaagtacagctaaggatgttgcttcagagggtgcaagccctaat cctgcagaactttcccagaatggaggtgtcaatcagaagattaaaattgtctccaccacc agctccaaagccctggctcggattttgcctgaggggagaacagaggcaccaaaacatatg aatcaaaaactgacagaaataaagggagaaactgacaattccacaataatgattgaagat gtcaataacccactttcaataatggatgtaacaattaatgaagatcaataa >gi568815581r:10421283_10647920|GENSCAN_predicted_peptide_2|1886_aa MSSDSEMAIFGEAAPFLRKSEKERIEAQNKPFDAKTSVFVVDPKESYVKAIVQSREGGKV TAKTEAGATVTVKEDQVFSMNPPKYDKIEDMAMMTHLHEPAVLYNLKERYAAWMIYTYSG LFCVTVNPYKWLPVYNPEVVTAYRGKKRQEAPPHIFSISDNAYQFMLTDRENQSILITGE SGAGKTVNTKRVIQYFATIAVTGEKKKEEPASGKMQGTLEDQIISANPLLEAFGNAKTVR NDNSSRFGKFIRIHFGATGKLASADIETYLLEKSRVTFQLKAERSYHIFYQILSNKKPEL IEMLLITTNPYDFAFVSQGEITVPSIDDQEELMATDSAVDILGFTADEKVAIYKLTGAVM HYGNMKFKQKQREEQAEPDGTEVADKAAYLTSLNSADLLKSLCYPRVKVGNEFVTKGQTV QQVYNAVGALAKAIYEKMFLWMVTRINQQLDTKQPRQYFIGVLDIAGFEIFDFNSLEQLC INFTNEKLQQFFNHHMFVLEQEEYKKEGIEWEFIDFGMDLAACIELIEKPMGIFSILEEE CMFPKATDTSFKNKLYEQHLGKSNNFQKPKPAKGKPEAHFSLVHYAGTVDYNIAGWLDKN KDPLNETVVGLYQKSAMKTLAFLFSGAQTAEAGAMEHELVLHQLRCNGVLEGIRICRKGF PSRILYADFKQRYKVLNASAIPEGQFIDSKKASEKLLGSIEIDHTQYKFGHTKVFFKAGL LGTLEEMRDEKLAQLITRTQAICRGFLMRVEFRKMMERRESIFCIQYNIRAFMNVKHWPW MKLYFKIKPLLKSAETEKEMANMKEEFEKTKEELAKTEAKRKELEEKMVTLMQEKNDLQL QVQAEADALADAEERCDQLIKTKIQLEAKIKEVTERAEDEEEINAELTAKKRKLEDECSE LKKDIDDLELTLAKVEKEKHATENKVKNLTEEMAGLDETIAKLTKEKKALQEAHQQTLDD LQMEEDKVNTLTKAKTKLEQQVDDLEGSLEQEKKLCMDLERAKRKLEGDLKLAQESTMDT ENDKQQLNEKLKKKEFEMSNLQGKIEDEQALAIQLQKKIKELQARIEELEEEIEAERASR AKAEKQRSDLSRELEEISERLEEAGGATSAQIEMNKKREAEFQKMRRDLEESTLQHEATA AALRKKHADSVAELGEQIDSLQRVKQKLEKEKSELKMEINDLASNMETVSKAKANFEKMC RTLEDQLSEIKTKEEEQQRLINELSAQKARLHTESGEFSRQLDEKDAMVSQLSRGKQAFT QQIEELKRQLEEETKAKSTLAHALQSARHDCDLLREQYEEEQEAKAELQRGMSKANSEVA QWRTKYETDAIQRTEELEEAKKKLAQRLQDAEEHVEAVNSKCASLEKTKQRLQNEVEDLM IDVERSNAACIALDKKQRNFDKVLAEWKQKYEETQAELEASQKESRSLSTELFKVKNAYE ESLDHLETLKRENKNLQQEISDLTEQIAEGGKHIHELEKVKKQLDHEKSELQTSLEEAEA SLEHEEGKILRIQLELNQVKSEIDRKIAEKDEELDQLKRNHLRVVESMQSTLDAEIRSRN DALRIKKKMEGDLNEMEIQLNHANRQAAEALRNLRNTQGILKDTQLHLDDAIRGQDDLKE QLAMVERRANLMQAEVEELRASLERTERGRKMAEQELLDASERVQLLHTQNTSLINTKKK LETDISQIQGEMEDIVQEARNAEEKAKKAITDAAMMAEELKKEQDTSAHLERMKKNMEQT VKDLQLRLDEAEQLALKGGKKQIQKLEARVRELESEVESEQKHNVEAVKGLRKHERRVKE LTYQTEEDRKNILRLQDLVDKLQTKVKAYKRQAEEAEEQSNVNLAKFRKLQHELEEAKER ADIAESQVNKLRVKSREVHTKVISEE >gi568815581r:10421283_10647920|GENSCAN_predicted_CDS_2|5661_bp atgagttctgactctgagatggccatttttggggaggctgctcctttcctccgaaagtct gaaaaggagcgaattgaagctcagaacaagccttttgatgccaagacatcagtctttgtg gtggaccctaaggagtcctacgtgaaagcaatagtgcagagcagggaaggggggaaggtg acagccaagaccgaagctggagctactgtaactgtgaaagaagaccaagtcttctccatg aaccctcccaaatatgacaagatcgaggacatggccatgatgactcacctgcatgagcct gctgtgctgtataacctcaaagagcgttacgcagcctggatgatctacacctactcgggc ctcttctgtgtcaccgtcaacccctacaagtggctgccggtgtacaaccctgaggtggtg acagcctaccgaggcaaaaagcgccaggaggccccaccccatatcttctccatctctgac aatgcctatcagttcatgctaactgatcgtgaaaaccagtcaatcttgattactggagaa tctggtgcagggaagactgtgaacacgaagcgtgtcatccagtactttgcaacaattgca gttactggagagaagaaaaaagaggaacctgcctctggcaaaatgcaggggacccttgaa gatcaaatcatcagtgctaaccccctactggaagccttcggcaatgccaagaccgtgagg aatgacaactcctctcgctttggtaaattcatcaggatccattttggtgccacaggcaaa ctggcttctgcagatattgaaacatatctgctagagaagtcccgagttacttttcagcta aaggctgaaagaagctaccacatattttatcaaatcctgtccaataagaaaccagagctc attgaaatgcttctgatcaccaccaacccatatgacttcgcatttgtcagccaaggggaa attactgtgcccagcattgatgaccaggaagagctgatggccacagatagtgctgtggac atcctgggtttcactgctgatgaaaaggtggccatttacaagctcactggagccgtgatg cattatgggaacatgaaattcaagcaaaagcaaagggaagagcaggcagagccagatggc acggaagttgctgacaaagctgcttatctgacaagtctgaactctgctgacctgctcaaa tctctctgctatcccagagtcaaggtcggcaatgagttcgtaaccaaaggccagactgtg cagcaggtgtacaatgcagtgggtgctctggccaaagccatctacgagaagatgttcctg tggatggtcacccgcatcaaccagcagctggacaccaagcagcccaggcagtacttcatc ggggtcttggacattgctggctttgagatctttgatttcaacagcctggagcagctgtgc atcaacttcaccaacgagaaactgcaacagtttttcaaccaccacatgttcgtgctggag caggaagagtacaagaaggaaggcatcgagtgggagttcattgacttcgggatggacctg gctgcctgcatcgagctcatcgagaagcctatgggcatcttctccatcctagaagaggag tgcatgttccccaaggcaacagacacctccttcaagaacaagctgtatgaacaacatctt ggaaaatccaacaacttccagaagcccaagcctgccaaaggcaagcctgaggctcacttc tcactggtgcactatgccggcaccgtggactacaacatcgccggctggctggacaaaaac aaggaccccctgaatgagactgtggtggggctgtaccagaagtctgcaatgaagactctg gctttcctcttctctggggcacaaactgctgaagcaggtgccatggagcatgagcttgtc ctgcatcagctgaggtgtaacggtgtgctggaaggcatccgcatctgcaggaaaggcttc ccaagcagaatcctttatgcagacttcaaacagagatacaaggttctaaatgcgagtgct atcccagagggtcagttcattgacagcaagaaggcttctgagaaacttctagggtctatt gaaattgaccacacccagtacaaattcggtcataccaaggttttcttcaaagctggcctg ctgggaactctagaggaaatgcgagatgaaaagctagctcaactcatcacgcgcactcaa gccatatgcagagggttcctgatgagagtggagttcagaaagatgatggagaggagagag tccatcttctgcattcagtacaacatccgtgctttcatgaatgtgaagcactggccctgg atgaagctgtatttcaagatcaagcccctcctcaagagtgcagagacagagaaggagatg gccaacatgaaggaagaatttgagaaaaccaaagaagagctggctaagacagaggcaaaa aggaaagaactagaagaaaagatggtgacgctaatgcaagagaaaaatgacttacaactc caagttcaagctgaagcagatgccttggctgatgcagaggaaagatgtgatcagttgatt aaaaccaaaatccaacttgaggccaaaatcaaagaggtaactgaaagagctgaggatgag gaagagatcaatgctgagctgacagccaagaagaggaaactggaggatgaatgttcagag ctcaagaaagacattgatgaccttgagctgacactggccaaggttgagaaggagaaacat gccacagagaacaaggtgaaaaacctcacagaagagatggcaggtctggatgaaaccatt gctaagctgaccaaggagaagaaggctctccaggaggcccaccagcagaccctggatgac ctgcagatggaggaggacaaagtcaacaccctgaccaaagctaaaaccaagctagaacag caagtggacgatcttgaaggatctctggaacaagaaaagaaactttgcatggacttagaa agagccaagagaaaactggagggtgacctaaaattggcccaagaatccacaatggataca gaaaatgacaaacagcaacttaatgagaaactcaaaaagaaagagtttgaaatgagcaat ctgcaaggcaagattgaagatgaacaagcccttgcaatacagctacaaaagaagatcaaa gaattacaggcccgcattgaggagctggaggaggaaatcgaggcagagcgggcctcccgg gccaaagcagagaagcagcgctctgacctctcccgggagctggaggagatcagtgagagg ctggaagaagccggtggggccacttcagcccagattgagatgaacaagaagcgggaggct gagttccagaaaatgcgcagggacctggaagagtccaccctgcagcacgaagccacggca gctgctcttcggaagaagcacgcagatagtgtggctgagcttggggagcagattgacagc cttcagcgggtcaagcagaagctggagaaggaaaagagtgagctgaagatggagatcaat gaccttgctagtaacatggagactgtctccaaagccaaggcaaactttgagaaaatgtgc cgcaccctagaggaccagcttagtgaaataaaaacaaaggaagaagagcaacaacgctta ataaatgagttgtcagcccagaaggcacgtttacacacagaatcaggtgagttttcacga cagctagatgaaaaagatgctatggtttctcagctatcccgaggcaaacaagcatttaca caacagattgaagaattaaagaggcagctagaagaggagactaaggccaagagcactctg gcccatgccctgcagtcagcccgccatgactgtgacctgctgcgggaacagtatgaggag gagcaggaagccaaggctgagctgcagaggggaatgtccaaggccaacagtgaggttgcc cagtggaggaccaagtacgagacggacgccatccagcgcacagaggagctggaggaggcc aagaagaagctagcccagcgtctgcaggatgcagaagaacatgtagaagctgtgaattcc aaatgtgcttctcttgaaaagacaaagcagaggctacagaatgaagtagaggacctcatg attgatgtggaacgatctaatgctgcctgcatagctctcgataagaagcaaagaaacttt gacaaggttctggcagaatggaaacagaagtatgaggaaactcaggctgaacttgaggcc tcccagaaggagtcgcgttctctcagcactgagctgttcaaggtgaagaatgcctacgag gaatccctggatcatcttgaaactctaaagcgagagaataagaacttacaacaggagatt tctgacctgacagagcaaattgcagagggtggaaagcatatccatgaactggagaaagta aagaaacaacttgatcatgagaagagtgaactacagacttccctagaggaagcagaggca tctcttgagcatgaagaaggcaaaattcttcgcattcaacttgagctaaatcaggtgaaa tctgagattgaccgaaaaattgctgaaaaagatgaagaactcgatcagctaaagaggaac catctcagagttgtggagtcaatgcagagtacactggatgctgagatcaggagcagaaat gatgctctgaggatcaagaagaagatggagggagatcttaatgaaatggaaatccagctg aaccatgccaaccgccaggctgctgaggcactaaggaatcttagaaacacacaaggaata ctgaaggacactcagctacatttggatgatgccatcagaggccaagatgaccttaaggaa caactggcaatggttgagcgcagagctaacctgatgcaggctgaagttgaagagctcagg gcatccctggaacggactgagagaggcaggaaaatggcagagcaagagcttctggatgcc agtgaacgtgtgcaacttctgcacactcagaacaccagcctgatcaacaccaagaagaag ctggaaacagacatttcccaaatccagggagagatggaggacatcgtccaggaagcccgc aatgcagaggagaaggccaagaaggccatcactgatgctgccatgatggctgaggagctg aagaaggaacaggacaccagcgcccacctggagcggatgaagaagaacatggagcagacc gtgaaggatctgcagctccgtctggatgaggctgagcagctggcgctgaagggtgggaag aagcagatccagaaactggaggccagggtgagagagcttgaaagtgaggtggaaagtgaa cagaagcacaatgttgaggctgtcaagggtcttcgcaaacatgagagaagagtgaaggaa ctcacttaccagactgaggaggaccgcaagaatattctcaggctgcaggacttggtggac aaattgcaaaccaaagtcaaagcttacaagagacaagctgaagaggctgaggaacaatcc aatgtcaaccttgccaagttccgcaagctccagcacgagctggaggaggccaaggaacgg gctgacattgctgagtcccaagtcaacaagctgagagtgaagagtcgggaggttcacaca aaagtcataagtgaagagtaa >gi568815581r:10421283_10647920|GENSCAN_predicted_peptide_3|1968_aa MSSDSEMAIFGEAAPFLRKSERERIEAQNKPFDAKTSVFVVDPKESFVKATVQSREGGKV TAKTEAGATVTVKDDQVFPMNPPKYDKIEDMAMMTHLHEPAVLYNLKERYAAWMIYTYSG LFCVTVNPYKWLPVYNAEVVTAYRGKKRQEAPPHIFSISDNAYQFMLTDRENQSILITGE SGAGKTVNTKRVIQYFATIAVTGEKKKEEVTSGKMQGTLEDQIISANPLLEAFGNAKTVR NDNSSRFVSLLVAKGSSLPLDARESMSELFQWHPHYVLQALDLLEKSRVTFQLKAERSYH IFYQIMSNKKPDLIEMLLITTNPYDYAFVSQGEITVPSIDDQEELMATDSAIEILGFTSD ERVSIYKLTGAVMHYGNMKFKQKQREEQAEPDGTEVADKAAYLQNLNSADLLKALCYPRV KVGNEYVTKGQTVQQVYNAVGALAKAVYDKMFLWMVTRINQQLDTKQPRQYFIGVLDIAG FEIFDFNSLEQLCINFTNEKLQQFFNHHMFVLEQEEYKKEGIEWTFIDFGMDLAACIELI EKPMGIFSILEEECMFPKATDTSFKNKLYEQHLGKSNNFQKPKPAKGKPEAHFSLIHYAG TVDYNIAGWLDKNKDPLNETVVGLYQKSAMKTLALLFVGATGAEAGAMEHELVLHQLRCN GVLEGIRICRKGFPSRILYADFKQRYKVLNASAIPEGQFIDSKKASEKLLGSIDIDHTQY KFGHTKVFFKAGLLGLLEEMRDEKLAQLITRTQAMCRGFLARVEYQKMVERRESIFCIQY NVRAFMNVKHWPWMKLYFKIKPLLKSAETEKEMANMKEEFEKTKEELAKTEAKRKELEEK MVTLMQEKNDLQLQVQAEADSLADAEERCDQLIKTKIQLEAKIKEVTERAEDEEEINAEL TAKKRKLEDECSELKKDIDDLELTLAKVEKEKHATENKVKNLTEEMAGLDETIAKLTKEK KALQEAHQQTLDDLQAEEDKVNTLTKAKIKLEQQVDDLEGSLEQEKKIRMDLERAKRKLE GDLKLAQESTMDIENDKQQLDEKLKKKEFEMSGLQSKIEDEQALGMQLQKKIKELQARIE ELEEEIEAERASRAKAEKQRSDLSRELEEISERLEEAGGATSAQIEMNKKREAEFQKMRR DLEEATLQHEATAATLRKKHADSVAELGEQIDNLQRVKQKLEKEKSEMKMEIDDLASNME TVSKAKGNLEKMCRALEDQLSEIKTKEEEQQRLINDLTAQRARLQTESGEYSRQLDEKDT LVSQLSRGKQAFTQQIEELKRQLEEEIKAKSALAHALQSSRHDCDLLREQYEEEQEAKAE LQRAMSKANSEVAQWRTKYETDAIQRTEELEEAKKKLAQRLQDAEEHVEAVNAKCASLEK TKQRLQNEVEDLMIDVERTNAACAALDKKQRNFDKILAEWKQKCEETHAELEASQKESRS LSTELFKIKNAYEESLDQLETLKRENKNLQQEISDLTEQIAEGGKRIHELEKIKKQVEQE KSELQAALEEAEASLEHEEGKILRIQLELNQVKSEVDRKIAEKDEEIDQMKRNHIRIVES MQSTLDAEIRSRNDAIRLKKKMEGDLNEMEIQLNHANRMAAEALRNYRNTQAILKDTQLH LDDALRSQEDLKEQLAMVERRANLLQAEIEELRATLEQTERSRKIAEQELLDASERVQLL HTQNTSLINTKKKLETDISQIQGEMEDIIQEARNAEEKAKKAITDAAMMAEELKKEQDTS AHLERMKKNLEQTVKDLQHRLDEAEQLALKGGKKQIQKLEARVRELEGEVESEQKRNVEA VKGLRKHERKVKELTYQTEEDRKNILRLQDLVDKLQAKVKSYKRQAEEAEEQSNVNLSKF RRIQHELEEAEERADIAESQVNKLRDMVHCIPAASAPAMAKQGTGPRYSLAIASEDASPK SWQLTHGVRLASAQKSRIEIGEPLPGFQKMYGNAWVSRQKFAAGAEPS >gi568815581r:10421283_10647920|GENSCAN_predicted_CDS_3|5907_bp atgagttccgactctgagatggccatttttggggaggctgctcctttcctccgaaagtct gaaagggagcgaattgaagcccagaacaagccttttgatgccaagacatcagtctttgtg gtggaccctaaggagtcctttgtgaaagcaacagtgcagagcagggaaggggggaaggtg acagctaagaccgaagctggagctactgtaacagtgaaagatgaccaagtcttccccatg aaccctcccaaatatgacaagatcgaggacatggccatgatgactcatctacacgagcct gctgtgctgtacaacctcaaagagcgctacgcagcctggatgatctacacctactcaggc ttgttctgtgtcactgtcaacccctacaagtggttgccagtgtataatgcagaggtggtg acagcctaccgaggcaaaaagcgccaggaggccccaccccacatcttctccatctctgac aatgcctatcagttcatgctgactgatcgggagaatcagtctatcttgatcaccggagaa tctggcgcagggaagactgtgaacaccaagcgtgtcatccagtactttgcaacaattgca gttactggggagaagaagaaggaagaagttacttctggcaaaatgcaggggactctggaa gatcaaatcatcagtgccaaccccctactggaggcctttggcaacgccaagaccgtgagg aatgacaactcctctcgctttgtaagtctcttggttgccaaagggtcttctctgccttta gatgccagagaaagcatgtctgaattatttcagtggcatccccactacgtacttcaagct ttggatcttctggagaagtctagagttactttccagctaaaggctgaaagaagctatcat attttttatcagatcatgtctaacaagaagccagatctaattgaaatgctcctgatcacc accaacccatacgattatgccttcgtcagtcaaggggagatcacagtgcccagcattgat gaccaagaagagttgatggctacagatagtgccattgaaattctgggctttacttcagat gaaagagtgtccatctataagctcacaggggctgtgatgcattatgggaacatgaaattc aagcaaaagcagcgtgaggagcaagctgagccagatggcactgaagttgctgacaaggca gcctatctccaaaatctgaactctgcagatctgctcaaagccctctgctaccctagggtc aaggtcggcaatgagtatgtcaccaaaggtcaaactgtgcagcaggtgtacaatgcagtg ggtgctctggccaaagctgtctacgataagatgttcttgtggatggtcacccgcatcaac cagcagctggacaccaagcagcccaggcagtacttcattggggtcttggacattgctggc tttgagatctttgatttcaacagcctggagcagctgtgcatcaacttcaccaatgagaaa ctgcaacagtttttcaaccaccacatgttcgtgctggagcaggaggagtacaagaaggaa ggcattgagtggacgttcattgactttgggatggacctggctgcctgcatcgagctcatc gagaagcctatgggcatcttctccatcctggaagaggagtgcatgttccccaaggcgaca gacacctccttcaagaacaagctgtatgaacaacatcttggaaaatccaataacttccag aagcccaagcctgccaaaggcaagcctgaggcccacttctctttgattcactatgctggc accgtggactacaacattgccggctggcttgacaagaacaaggaccccctgaatgagact gtggtggggctgtaccagaagtctgcaatgaagactctggctctcctctttgttggggca acgggagcggaagcaggtgccatggagcatgagcttgtcctgcatcagctgaggtgtaac ggtgtgctggaaggcatccgcatctgcaggaaaggcttcccaagcagaatcctttatgca gacttcaaacagagatacaaggtgttaaatgcaagtgctatccctgaaggacaattcatc gatagcaagaaggcttcagagaagctcctggggtccattgacattgaccacacccagtat aaatttggtcacaccaaggtctttttcaaagctggtcttctggggctcctagaggagatg cgagatgagaagctggcccagctgattacccgaacccaggccatgtgcagagggttcttg gcaagagtggagtaccagaaaatggtggaaagaagagagtccatcttctgcatccagtac aatgtccgtgccttcatgaatgtgaagcactggccctggatgaagctgtatttcaagatc aaacccctcctcaaaagtgcagagacagagaaggagatggccaacatgaaggaagaattt gagaaaaccaaagaagagctggctaagaccgaggcaaaaaggaaagagctggaagaaaaa atggttactctgatgcaagaaaaaaatgacttgcaactccaggttcaagctgaagctgac agcttggctgatgcagaggaaaggtgtgaccagctaatcaaaaccaaaatccagctagaa gccaaaatcaaagaggtgactgagagagctgaggatgaggaagagatcaatgctgagctg acagccaagaagaggaaactggaggatgaatgttcagaactcaagaaagacattgatgac cttgagctgacactggccaaggttgagaaggagaaacatgccacagaaaacaaggtgaaa aacctcacagaagagatggcgggtctggatgaaaccattgctaagctgaccaaggagaag aaggctctccaggaggcccaccagcagaccctggatgacctgcaggcagaggaggacaaa gtcaacaccctgaccaaagctaaaatcaaacttgaacaacaagtggatgatcttgaagga tctttggaacaagaaaagaaaatccggatggatctagaaagagcaaagagaaaactagag ggagacctaaaattggctcaagaatccacaatggatatagaaaatgacaaacaacaactt gatgaaaagcttaaaaagaaagagtttgaaatgagcggtctgcaaagcaagattgaagat gaacaagcccttggtatgcagctgcagaagaaaatcaaggagttacaagcccgcattgag gagctggaggaggaaatcgaggcagagcgggcctcccgggccaaagcagagaagcagcgc tctgatctctcccgggagctggaggagatcagcgagaggctggaagaagccggtggggcc acctcagcccagattgagatgaacaagaagcgggaggctgagttccagaaaatgcgcagg gacctggaggaggccaccctacagcatgaagccacggcggccaccctgaggaagaagcat gcagatagtgtggccgagcttggggagcagattgacaacctgcagcgagtgaagcagaag ctggagaaggagaagagtgagatgaagatggagatcgatgaccttgctagtaacatggag actgtctccaaagccaagggaaaccttgaaaagatgtgccgcgctctagaagatcaactg agtgaaattaagaccaaggaagaggagcagcagcggctgatcaatgacctcacagcacag agagcgcgcctgcaaacagaatcaggtgaatattcacgccagctagatgaaaaggacaca ctagtttcacagctctcgaggggcaaacaagcctttacacaacagattgaggaactgaaa aggcaacttgaagaggagataaaggccaagagtgccctggcacatgccctgcagtcctcc cgccatgactgtgacctgctgcgggaacagtatgaggaggagcaggaagccaaggccgag ctacagagagcaatgtccaaggccaacagtgaggttgcccagtggaggaccaaatatgag acagatgccatccagcgcacagaggagctggaggaggccaagaagaagctggctcagcgt ctgcaggatgctgaggaacatgtagaagctgtgaatgccaaatgtgcttcccttgagaag acgaagcagaggctccagaatgaagttgaggacctcatgattgatgttgagaggacaaat gctgcctgtgccgccctggacaaaaagcaaaggaactttgataagatcctggcagaatgg aaacagaagtgtgaagaaactcatgctgaacttgaagcttctcaaaaggaatcccgctca ctcagcacagaactatttaagattaagaatgcttatgaggaatctttagaccaacttgaa accttgaaacgggaaaataagaatttgcaacaggagatttctgatctcactgaacagatt gcagaaggaggaaagcgcatccatgaactggaaaaaataaagaagcaagttgagcaagaa aagtctgaacttcaggctgccttagaggaggcagaggcatctcttgaacatgaagaggga aagatcctgcgcatccagcttgagttgaaccaagtcaagtctgaggttgataggaaaatt gctgaaaaagatgaggaaattgaccagatgaagagaaaccacattagaatcgtggagtcc atgcagagcacactggatgctgagatcaggagcaggaatgatgccattaggctcaagaag aagatggagggagacctcaatgaaatggaaatccagctgaaccatgccaaccgcatggct gctgaggccctgaggaactataggaacacccaagccatcctcaaggatacccagctccac ctggatgatgctctccggagccaggaggacctgaaggaacagctggctatggtggagcgc agagccaacctgctgcaggctgagatcgaggagctgcgggccactctggaacagacagag aggagcaggaaaatcgcagaacaggagctcctggatgccagtgagcgtgttcagctcctg cacacccagaacaccagcctgatcaacaccaagaagaagctggagacagacatttcccaa atccagggagagatggaagacatcatccaggaagcccgcaatgcagaagagaaggccaag aaggccatcactgatgctgccatgatggctgaggagctgaagaaggaacaggacaccagc gcccatctggagcggatgaagaagaacctggaacagacggtgaaggacctgcagcatcgt ctggatgaggctgagcagctggccctgaagggtgggaagaagcagatccagaaactggag gccagggttcgtgaacttgaaggtgaagttgaaagtgaacagaagcgcaatgttgaagct gtcaagggtctacgcaaacatgagagaaaagtgaaggaactcacttaccaaactgaggaa gaccgcaagaatattctcaggctccaggacctggtggacaaactgcaagcaaaggtgaaa tcctacaagagacaagctgaagaagcggaggaacaatccaacgtcaacctctccaaattc cgcaggatccagcacgagctggaggaggccgaggaacgggctgacattgctgagtcccag gtcaacaagctgagggacatggtgcactgcattccagctgcttcagctccagccatggct aaacagggaacagggccaaggtacagcttggccattgcttcagaggatgcaagccccaag tcttggcagctgactcatggtgtcaggcttgcaagtgcacagaagtcaagaattgaaatt ggggaacctctgcctggatttcagaagatgtatggaaatgcctgggtgtccaggcagaag tttgctgcaggggcagagccctcatag >gi568815581r:10421283_10647920|GENSCAN_predicted_peptide_4|1979_aa MSSDSELAVFGEAAPFLRKSERERIEAQNRPFDAKTSVFVAEPKESFVKGTIQSREGGKV TVKTEGGATLTVKDDQVFPMNPPKYDKIEDMAMMTHLHEPAVLYNLKERYAAWMIYTYSG LFCVTVNPYKWLPVYKPEVVTAYRGKKRQEAPPHIFSISDNAYQFMLTDRENQSILITGE SGAGKTVNTKRVIQYFATIAVTGEKKKEEITSGKIQGTLEDQIISANPLLEAFGNAKTVR NDNSSRFGKFIRIHFGTTGKLASADIETYLLEKSRVVFQLKAERSYHIFYQITSNKKPEL IEMLLITTNPYDYPFVSQGEISVASIDDQEELMATDSAIDILGFTNEEKVSIYKLTGAVM HYGNLKFKQKQREEQAEPDGTEVADKAAYLQSLNSADLLKALCYPRVKVGNEYVTKGQTV EQVSNAVGALAKAVYEKMFLWMVARINQQLDTKQPRQYFIGVLDIAGFEIFDFNSLEQLC INFTNEKLQQFFNHHMFVLEQEEYKKEGIEWTFIDFGMDLAACIELIEKPMGIFSILEEE CMFPKATDTSFKNKLYDQHLGKSANFQKPKVVKGKAEAHFALIHYAGVVDYNITGWLEKN KDPLNETVVGLYQKSAMKTLAQLFSGAQTAEGEGAGGGAKKGGKKKGSSFQTVSALFREN LNKLMTNLRSTHPHFVRCIIPNETKTPGAMEHELVLHQLRCNGVLEGIRICRKGFPSRIL YADFKQRYKVLNASAIPEGQFIDSKKASEKLLASIDIDHTQYKFGHTKVFFKAGLLGLLE EMRDDKLAQLITRTQARCRGFLARVEYQRMVERREAIFCIQYNIRSFMNVKHWPWMKLFF KIKPLLKSAETEKEMATMKEEFQKIKDELAKSEAKRKELEEKMVTLLKEKNDLQLQVQAV SWNITLGITNQDAGARTLAIVGHELGNCKGDTHWKEKEAEGLADAEERCDQLIKTKIQLE AKIKEVTERAEDEEEINAELTAKKRKLEDECSELKKDIDDLELTLAKVEKEKHATENKVK NLTEEMAGLDETIAKLTKEKKALQEAHQQTLDDLQAEEDKVNTLTKAKIKLEQQVDDLEG SLEQEKKLRMDLERAKRKLEGDLKLAQESIMDIENEKQQLDEKLKKKEFEISNLQSKIED EQALGIQLQKKIKELQARIEELEEEIEAERASRAKAEKQRSDLSRELEEISERLEEAGGA TSAQIEMNKKREAEFQKMRRDLEEATLQHEATAATLRKKHADSVAELGEQIDNLQRVKQK LEKEKSEMKMEIDDLASNVETVSKAKGNLEKMCRTLEDQLSELKSKEEEQQRLINDLTAQ RGRLQTESGEFSRQLDEKEALVSQLSRGKQAFTQQIEELKRQLEEEIKAKNALAHALQSS RHDCDLLREQYEEEQESKAELQRALSKANTEVAQWRTKYETDAIQRTEELEEAKKKLAQR LQAAEEHVEAVNAKCASLEKTKQRLQNEVEDLMLDVERTNAACAALDKKQRNFDKILAEW KQKCEETHAELEASQKEARSLGTELFKIKNAYEESLDQLETLKRENKNLQQEISDLTEQI AEGGKRIHELEKIKKQVEQEKCELQAALEEAEASLEHEEGKILRIQLELNQVKSEVDRKI AEKDEEIDQLKRNHIRIVESMQSTLDAEIRSRNDAIRLKKKMEGDLNEMEIQLNHANRMA AEALRNYRNTQGILKDTQIHLDDALRSQEDLKEQLAMVERRANLLQAEIEELRATLEQTE RSRKIAEQELLDASERVQLLHTQNTSLINTKKKLETDISQMQGEMEDILQEARNAEEKAK KAITDAAMMAEELKKEQDTSAHLERMKKNMEQTVKDLQLRLDEAEQLALKGGKKQIQKLE ARVRELEGEVESEQKRNAEAVKGLRKHERRVKELTYQTEEDRKNILRLQDLVDKLQAKVK SYKRQAEEAEEQSNTNLAKFRKLQHELEEAEERADIAESQVNKLRVKSREVHTKVISEE >gi568815581r:10421283_10647920|GENSCAN_predicted_CDS_4|5940_bp atgagttcagactcagaattggctgtttttggggaggctgctcctttcctccgaaagtct gaaagggagcgcattgaggcccagaataggccctttgatgccaaaacatctgtctttgtg gcggagcccaaagaatcctttgtcaaagggaccatccagagcagagaaggaggaaaagtg acggtgaagactgagggaggagcgactctgacagtgaaggatgatcaggtcttccccatg aaccctcccaaatatgacaagatcgaggatatggccatgatgactcatctgcatgagcct gctgtgctgtacaacctcaaagaacgttatgcagcctggatgatctacacctattcaggt ctcttctgtgtcactgtcaacccctacaagtggctgcctgtgtataagcccgaggtggtg acagcctaccgaggcaaaaagcgccaggaggccccgccccacatcttctccatctctgac aacgcctatcagttcatgctgactgaccgagagaatcagtcaatcctgatcactggagaa tctggtgcagggaagactgtgaacaccaagcgtgtcatccagtactttgcaacaattgca gttactggtgagaagaagaaggaagaaattacttctggcaaaatacaggggactctggaa gatcaaatcatcagtgccaaccccctactggaggcctttggcaacgccaagaccgtgagg aatgacaactcctctcgctttggtaaattcatcagaatccactttggcactactggaaaa ctggcatctgctgatattgaaacatatctgctagagaagtctagagttgttttccagctt aaggctgagagaagttatcatattttttaccagattacatcgaataagaaaccagaactt attgaaatgcttctgattaccacgaacccatatgattacccatttgtcagtcaaggggag atcagtgtggccagcatcgatgatcaggaagaactgatggccacagatagtgctattgat attttgggctttactaatgaagaaaaggtctccatttacaagctcacgggggctgtgatg cattatgggaacctaaaatttaagcaaaagcagcgtgaggagcaagcagagccagatggc acagaagttgctgacaaggcggcctacctccagagtctgaactctgcagatctgctcaaa gctctctgctaccccagggtcaaggtcggcaatgagtatgtcaccaaaggccagactgta gaacaggtgtccaacgcagtaggtgctctggccaaagccgtctacgagaagatgttcctg tggatggttgcccgcatcaaccagcagctggacaccaagcagcccaggcagtacttcatc ggggtcttggacattgctggttttgagatttttgatttcaacagcctggagcagctgtgc atcaacttcaccaatgagaaactgcaacagtttttcaaccaccacatgttcgtgctggag caggaggagtacaagaaggaaggcatcgagtggacgttcatcgacttcgggatggacctg gctgcctgcatcgagctcatcgagaagcctatgggcatcttctccatcctggaagaggag tgcatgttccctaaggcaacagacacctccttcaagaacaagctgtatgaccagcacctg ggcaagtctgccaacttccagaagcccaaggtggtcaaaggcaaggccgaggcccacttc gctctgattcactatgctggtgttgtggactacaacattactggctggctggagaagaac aaggaccccctgaatgagaccgtggttggactgtaccagaagtctgcaatgaaaactcta gctcagctcttctctggggctcaaactgctgaaggagagggagctggtggaggggccaag aaaggtggtaagaagaagggctcttctttccagacagtgtctgcccttttcagagagaat ttgaacaagctgatgaccaacctcaggagtacccatcctcactttgtgaggtgtatcatc cccaatgagacaaaaactcctggtgccatggagcatgagcttgtcctccaccagctgagg tgtaacggtgtgctggaaggcatccgcatctgtaggaaaggatttccaagcagaatcctt tatgcagacttcaaacagagatacaaggtattaaatgcaagtgcaatccctgaagggcaa ttcattgatagcaagaaggcctctgagaagctccttgcatccatcgacattgaccacacc cagtataaatttgggcacaccaaggtctttttcaaagctggtcttctggggctcctagag gagatgcgagatgacaagctggcccagctgattacccgaacccaggccaggtgcagaggg ttcttggcaagagtggagtaccagaggatggtggagagaagggaggccatcttctgtatc cagtacaatatcagatccttcatgaatgtcaagcactggccctggatgaaactcttcttc aagatcaagcctctgttgaagagtgcagaaactgagaaggagatggccaccatgaaggaa gaatttcagaaaattaaagacgaacttgccaagtcagaggcaaaaaggaaggaactggaa gaaaagatggtgacgctgttgaaagaaaaaaatgacttgcagctccaagttcaggctgtg agttggaatatcacccttggtatcactaaccaggatgcaggtgctagaactttggccatt gtgggccatgagttgggtaattgcaagggagacactcattggaaggaaaaggaagccgaa ggcttggctgatgcagaggaaaggtgtgaccagctaatcaaaaccaaaatccagctagaa gccaaaatcaaagaggtgactgagagagctgaggatgaggaagagatcaatgctgagctg acagccaagaagaggaaactggaggatgaatgttcagaactcaagaaagacattgatgac cttgagctgacactggccaaggttgagaaggagaaacatgccacagaaaacaaggtgaaa aacctcacagaagagatggcaggtctggatgaaaccattgctaagctgaccaaggagaag aaggctctccaggaggcccaccagcagaccctggatgacctgcaggcagaggaggacaaa gtcaacaccctgaccaaagctaaaatcaaacttgaacaacaagtggatgatcttgaaggg tccttggagcaagaaaagaaacttcgcatggacctagaaagggctaagaggaaacttgag ggtgacttgaagttggcccaagaatccataatggacattgaaaatgagaaacagcaactt gatgaaaagctcaaaaagaaagagtttgaaatcagcaatctgcaaagcaagattgaagat gaacaggcacttggcattcaattgcagaagaaaattaaagaattgcaagcccgcattgag gagctggaggaggaaatcgaggcagagcgggcctcccgggccaaagcagagaagcagcgc tctgacctctcccgggagctggaggagatcagcgagaggctggaagaagccggtggggcc acttcagcccagattgagatgaacaagaagcgggaggctgagttccagaaaatgcgcagg gacctggaggaggccaccctacagcatgaagccacagcggccaccctgaggaagaagcat gcagatagtgtggccgagcttggggagcagattgacaacctgcagcgagtgaagcagaag ctggagaaggagaagagtgagatgaagatggagattgatgaccttgctagtaatgtagaa acggtctccaaagccaagggaaacctagagaaaatgtgccggactctagaggaccaactg agtgaactgaaatcaaaggaagaggagcagcagcggctgatcaatgacctgactgcgcag agggggcgcctgcagactgaatctggtgagttttcacgccagcttgatgaaaaggaagct ctggtgtctcagttatcaagaggcaaacaagcctttactcaacagattgaagaattaaag aggcaacttgaagaggagataaaagccaagaacgccctggcgcatgccctgcagtcttcc cgccacgactgtgacctgctgcgggaacagtatgaggaggagcaggaatccaaggccgag ctgcagagagcactgtccaaggccaacaccgaggttgcccaatggaggaccaaatacgag acggacgccatccagcgcacagaggagctggaggaggccaagaagaagctggcccagcgg ctgcaggcagctgaggaacatgtagaagctgtgaacgccaaatgtgcttccctcgaaaag acgaagcagcggctgcagaatgaggtcgaggacctcatgcttgatgtggagaggacaaat gccgcctgtgccgcccttgacaaaaagcaaaggaacttcgataagatcctggcagaatgg aaacagaaatgtgaggaaacgcatgctgagcttgaggcctcccagaaggaggcccgttcc cttggcactgagctgttcaagataaagaatgcctatgaggaatctttggatcagctagaa accctgaagcgagagaacaaaaacttacagcaggagatttctgacctcacggaacagatt gcagaaggagggaaacgtatccatgaactggagaaaataaagaaacaagtggaacaagaa aagtgtgaacttcaggctgctttagaagaagcagaggcatctcttgaacatgaagaggga aagatcctgcgcatccagcttgagttgaaccaagtcaagtctgaggttgataggaaaatt gctgaaaaagatgaggaaattgaccagctgaagagaaaccacattagaatcgtggagtcc atgcagagcacgctggatgctgagatcaggagtaggaatgatgccattaggctcaagaag aagatggagggagacctcaatgaaatggaaatccagctgaaccatgccaaccgcatggct gctgaggccctgaggaactacaggaacacccaaggcatcctcaaggatacccagatccac ctggatgatgctctccggagccaggaggacctgaaggaacagctggccatggtggagcgc agagccaacctgctgcaggctgagatcgaggagctgcgggccactctggaacagacagag aggagcagaaaaatcgcagaacaggagctcctggatgccagtgagcgtgttcagctactg cacacccagaacaccagcctgatcaacaccaagaagaagctggagacagatatttcccaa atgcaaggagagatggaggacattctccaggaagcccgcaatgcagaagaaaaggccaag aaggccatcactgatgccgccatgatggctgaggagctgaagaaggagcaggacaccagc gcccacctggagcggatgaagaagaacatggagcagaccgtgaaggatctgcagctccgt ctggatgaggctgagcagctggccctgaagggtgggaagaagcagatccagaaactggag gccagggtacgggagctggaaggagaggttgagagtgagcaaaagcgtaatgctgaggct gtcaaaggtctgcgcaaacatgagaggcgagtgaaggaactcacttaccagacggaagaa gatagaaagaatattctcaggcttcaagatttggtagataaacttcaggcaaaagtgaaa tcttataagagacaagctgaggaggctgaggaacaatccaacaccaatctagctaaattc cgcaagctccagcatgagctggaggaggccgaggaacgggctgacattgctgagtcccag gtgaacaaactgcgggtgaagagccgggaggttcacacaaaagtcataagtgaagagtga >gi568815581r:10421283_10647920|GENSCAN_predicted_peptide_5|86_aa MERNSENFMEKVPLPGKFHEVKECKIAHAEVFQNVEGPHTLHTGTYRGYPTLQGPTVQMA STPGNQRTVVQTQSVVSLAGVEPSLE >gi568815581r:10421283_10647920|GENSCAN_predicted_CDS_5|261_bp atggagcggaattcagaaaacttcatggaaaaagtaccattacctggtaaattccatgag gtcaaagaatgtaagattgctcatgctgaggtctttcagaatgtagaaggacctcatacg cttcacactgggacctacagaggctacccaactctccaaggacccacggtccagatggct tctacgccaggcaaccaacggaccgttgtgcaaacacagtctgtggtttctctggctggt gtagaacccagtctggaatga >gi568815581r:10421283_10647920|GENSCAN_predicted_peptide_6|196_aa MPRNALQGLLAETHLTRPHLPGSDSQVWNGAQGFTVLASSLMILMLVVQGPPSENQALED FSKLHVQEFMWKPSSYTMRAVEDRDGTWRIAADTHRWKLPFSWGKMQPWQGLKKLQVTTC TRQQLNLMESVSPRQHSNPQTGINDGIGARKEGVTTGGFILPLLERLQVTLYQQTIKMKL PIHHLESAGPNTLKLI >gi568815581r:10421283_10647920|GENSCAN_predicted_CDS_6|591_bp atgcctcggaatgctctgcagggcttgttggctgaaacccacctcaccagaccccacctt ccaggttctgattctcaggtctggaatggggctcaaggttttacggttctagcaagttcc ctgatgatactgatgctggtggtccagggaccaccctctgagaaccaggccctggaggat ttctcaaaactccatgtccaagagtttatgtggaagccctcaagttatactatgcgggcg gtggaagacagagatggtacttggaggattgcggccgacacgcaccgatggaagcttcca ttttcatgggggaaaatgcagccctggcaagggctgaagaagctgcaggtgaccacatgt accaggcagcagctgaacctcatggagtctgtcagtcctcggcagcactcaaatcctcaa acggggattaatgatggaattggagcgaggaaggagggggtgacaaccggaggattcatt ttacctcttctggaaaggctacaggtcaccctgtaccaacagactattaaaatgaagctg cctatccatcacctggaatctgctggtccaaacacgctgaaattgatctag >gi568815581r:10421283_10647920|GENSCAN_predicted_peptide_7|1760_aa MVESGLPLNPAPYRASSSESILEPLGSWPLQILKLVSRSMGIRWRLRVNWEQFERESCVC VPDLLEKSRVTFQLKAERSYHIFYQILSNKKPELIELLLITTNPYDYPFISQGEILVASI DDAEELLATDSAIDILGFTPEEKSGLYKLTGAVMHYGNMKFKQKQREEQAEPDGTEVADK TAYLMGLNSSDLLKALCFPRVKVGNEYVTKGQTVDQVHHAVNALSKSVYEKLFLWMVTRI NQQLDTKLPRQHFIGVLDIAGFEIFEYNSLEQLCINFTNEKLQQFFNHHMFVLEQEEYKK EGIEWTFIDFGMDLAACIELIEKVSSSIPTPMGIFSILEEECMFPKATDTSFKNKLYDQH LGKSNNFQKPKVVKGRAEAHFSLIHYAGTVDYSVSGWLEKNKDPLNETVVGLYQKSSNRL LAHLYATFATADADSGKKKVAKKKGSSFQTVSALFRENLNKLMSNLRTTHPHFVRCIIPN ETKTPGAMEHSLVLHQLRCNGVLEGIRICRKGFPNRILYGDFKQRYRVLNASAIPEGQFI DSKKACEKLLASIDIDHTQYKFGHTKVFFKAGLLGTLEEMRDDRLAKLITRTQAVCRGFL MRVEFQKMVQRRESIFCIQYNIRSFMNVKHWPWMKLFFKIKPLLKSAETEKEMATMKEEF QKTKDELAKSEAKRKELEEKLVTLVQEKNDLQLQVQAESENLLDAEERCDQLIKAKFQLE AKIKEVTERAEDEEEINAELTAKKRKLEDECSELKKDIDDLELTLAKVEKEKHATENKVK NLTEELSGLDETIAKLTREKKALQEAHQQALDDLQAEEDKVNSLNKTKSKLEQQVEDLES SLEQEKKLRVDLERNKRKLEGDLKLAQESILDLENDKQQLDERLKKKDFEYCQLQSKVED EQTLGLQFQKKIKELQARIEELEEEIEAERATRAKTEKQRSDYARELEELSERLEEAGGV TSTQIELNKKREAEFLKLRRDLEEATLQHEAMVAALRKKHADSVAELGEQIDNLQRVKQK LEKEKSEFKLEIDDLSSSMESVSKSKANLEKICRTLEDQLSEARGKNEEIQRSLSELTTQ KSRLQTEAGELSRQLEEKESIVSQLSRSKQAFTQQTEELKRQLEEENKAKNALAHALQSS RHDCDLLREQYEEEQEGKAELQRALSKANSEVAQWRTKYETDAIQRTEELEEAKKKLAQR LQDSEEQVEAVNAKCASLEKTKQRLQGEVEDLMVDVERANSLAAALDKKQRNFDKVLAEW KTKCEESQAELEASLKESRSLSTELFKLKNAYEEALDQLETVKRENKNLEQEIADLTEQI AENGKTIHELEKSRKQIELEKADIQLALEEAEAALEHEEAKILRIQLELTQVKSEIDRKI AEKDEEIEQLKRNYQRTVETMQSALDAEVRSRNEAIRLKKKMEGDLNEIEIQLSHANRQA AETLKHLRSVQGQLKDTQLHLDDALRGQEDLKEQLAIVERRANLLQAEVEELRATLEQTE RARKLAEQELLDSNERVQLLHTQNTSLIHTKKKLETDLMQLQSEVEDASRDARNAEEKAK KAITDAAMMAEELKKEQDTSAHLERMKKNLEQTVKDLQHRLDEAEQLALKGGKKQIQKLE TRIRELEFELEGEQKKNTESVKGLRKYERRVKELTYQSEEDRKNVLRLQDLVDKLQVKVK SYKRQAEEAVSEIGADCGRQTVLFPVDEQANAHLTKFRKAQHELEEAEERADIAESQVNK LRAKTRDFTSSRMVVHESEE >gi568815581r:10421283_10647920|GENSCAN_predicted_CDS_7|5283_bp atggtagaatctggtctccccctgaatcccgccccatacagggcaagttcatccgaatcc attttggaaccactgggaagctggcctctgcagatattgaaacttgtaagtagatccatg gggattcgatggcgtctcagagttaactgggaacagtttgaaagagagtcctgtgtttgt gttccagatcttctggaaaaatcaagagtcactttccagctgaaggctgaaagaagctac cacatcttctaccagattctttctaacaagaagcctgagctcatagagctgctgcttatt acgaccaacccttacgactacccgttcattagccagggggagatcctggtggccagcata gatgatgcagaggagctgctggctacagacagcgccattgacatcctgggcttcacccca gaagagaaatctgggctctacaagctgacgggagccgtgatgcactacgggaacatgaag ttcaagcagaagcagcgagaggagcaggccgagccggatggcacagaagtggctgacaaa acagcctatctgatgggcctgaactcttcggacctcctaaaagctttgtgctttcctaga gtgaaagttgggaatgagtacgttaccaaaggtcaaactgtggatcaggttcaccatgct gtgaatgctctttcaaaatcagtttatgaaaagttgttcttgtggatggtcactcgcatt aaccagcaactggatacgaagcttccaagacaacacttcattggtgttttggacattgca ggctttgaaatctttgagtataacagcctggagcagctgtgcatcaacttcaccaatgag aaactgcaacagtttttcaaccaccacatgttcgtgctggagcaggaggagtacaagaag gaaggcatcgagtggacgttcattgacttcgggatggacctggctgcctgcatcgagctc atcgagaaggtatccagttccatccccacccctatgggcatcttctccatcctggaagag gagtgcatgttccccaaggcaacagacacctccttcaagaacaagctgtatgaccagcat cttggaaagtccaacaacttccagaagcccaaggtggtcaaaggcagggccgaggctcac ttctcactgatccactatgcgggcaccgtggactacagtgtctcaggttggctggagaag aacaaggaccctctgaacgagactgtggttgggctgtaccagaagtcttccaacaggctc ctggcacacctctatgccacgtttgccacggcggatgctgacagtggaaagaagaaagtt gccaagaagaagggttcttccttccaaactgtctctgcccttttcagggaaaacctgaac aagctgatgtcaaatttaagaactactcaccctcattttgtgcgttgtataattcccaat gaaaccaaaactccaggggctatggaacacagccttgttctgcaccagctgcggtgtaac ggtgtcctggagggcatccgcatctgcaggaaagggttcccaaacaggattctctatggc gattttaaacaaagataccgagtgctgaatgccagtgcaatccctgagggacaattcatt gacagcaagaaagcctgtgaaaagcttctggcatccattgatattgaccacactcagtac aaatttggacataccaaggtgttcttcaaggctggcttgctgggaaccctggaagagatg cgggatgaccgcctggccaaactaatcacccggacacaagctgtgtgcagagggttcctc atgcgtgtggaattccagaagatggtgcagaggagggagtccatcttctgcatccagtac aacattcgctcattcatgaacgtcaagcactggccctggatgaaactcttcttcaagatc aagcccctcctcaagagtgcagagactgagaaagagatggccaccatgaaggaagaattc cagaaaaccaaagatgaactcgccaagtcggaggcaaaaaggaaggagctagaggaaaaa ctggtgactctggtccaagagaagaatgacctgcagctccaagtacaagctgaaagcgaa aatttgttggatgctgaggaaagatgcgatcagctgatcaaagccaaattccagctcgag gccaagatcaaggaggtgacagagagagctgaagatgaggaggagatcaatgctgagctg acggccaagaagaggaaactggaggatgaatgctcagagctcaagaaagacattgatgac cttgagttgaccctggccaaggttgagaaggagaagcatgccacagagaacaaggttaaa aaccttactgaggaactctctgggttagatgaaacaattgcaaagttaaccagagagaag aaggccctccaagaggcgcaccagcaggccttggatgacctccaagctgaagaagacaaa gtcaattctttgaacaaaaccaagagcaaactggaacagcaagtggaagacctggaaagc tccctagaacaagaaaagaagctccgagtagacctggaaaggaacaaaaggaaattggaa ggagacttgaagcttgctcaagagtccatattagatctggagaatgacaagcaacagctg gacgaaaggctcaagaagaaagattttgaatattgtcaacttcaaagcaaagtggaagat gagcagacactgggcctccagtttcagaagaaaatcaaagagttgcaggctcgaattgag gagctggaagaggagatagaggcggagagggccacccgcgcgaagacagagaaacagcgc agcgactatgcccgggagctggaggagctgagcgagcggctggaggaggcgggaggcgtc acctccacgcagatagagctcaacaagaagcgggaggcggagttcctgaagctgcgcagg gacctggaggaggccacactgcagcacgaagccatggtggccgcgctgaggaagaagcat gcggatagtgtggccgagcttggggagcagattgacaacctgcagcgggtcaagcagaag ctggagaaggagaagagcgagttcaagctggagatcgatgacctctccagcagcatggag agtgtgtcgaaatctaaggcaaatctggaaaaaatctgccgaaccctggaggatcagtta agtgaggccaggggcaagaatgaggaaattcagaggagcctgagcgagctgaccacacag aagtctcgtttgcagaccgaggctggtgagctgagtcgtcagctggaagaaaaagaaagc atagtatcccaactttccaggagcaagcaagcctttacccagcaaacagaagagctcaag aggcagctggaggaagagaacaaggccaagaacgccctggcgcacgccctgcagtcctcc cgccacgactgtgacctgctgcgggaacagtatgaggaggagcaggaaggcaaagctgag ctgcagagggcgctgtccaaggccaatagtgaggttgcccagtggagaaccaaatacgag acggacgccatccagcgcacagaagagctggaggaggccaagaaaaaacttgctcagcgc cttcaagattccgaggaacaggttgaggcagtgaatgctaaatgtgcttcactggagaag accaagcagaggctgcaaggagaggtggaggatctgatggttgatgttgaaagagccaat tccttggccgccgctctggacaagaagcagaggaactttgacaaggtgttggcagagtgg aagacaaagtgtgaggagagccaagcagagctggaggcatccctgaaggagtcccgctcc ttgagcactgagctcttcaaactgaaaaatgcctacgaggaagccttagatcaacttgaa actgtgaaacgggaaaataagaacttagagcaggagatagcagatctcacagaacaaatt gctgaaaatggcaaaaccatccatgaactggagaaatcaagaaagcagattgagctggaa aaggctgatatccagctggctctcgaggaagcagaggctgctcttgagcatgaagaagcc aagatcctccgaatccagcttgaattgacacaagtgaaatcagaaattgatagaaagatc gccgagaaggatgaagagatcgagcagctgaagaggaactaccagagaacagtggaaacc atgcagagcgccctggacgccgaggtgcggagcaggaatgaagccatccggctcaagaag aagatggagggggacctgaatgaaatcgagatccagctgagccacgccaaccgccaggcg gcggagaccctcaaacacctcaggagtgtccagggacagctgaaggatacgcagctccac ctggatgatgccctccggggccaggaggacctgaaggagcagctggcgattgtggagcgc agagccaacctgctgcaggccgaggtggaggagctgcgggctactctggagcagacggag agggcccggaaactggcggaacaggagctcctggactccaacgagagggtgcagctgctg catacccagaacaccagcctcatccacaccaagaagaagctggagacagacctcatgcag ctccagagtgaggtagaagatgccagcagggatgcaaggaacgctgaggagaaggccaag aaggccatcacggacgctgccatgatggcggaggagctgaagaaggagcaggacaccagc gcccaccttgagcggatgaagaagaacctggaacagacggtgaaggacctgcagcatcgt ctagatgaggccgagcagctggcgctgaagggcgggaagaagcagatccagaaactggag accaggatccgagagctggagtttgaacttgagggagagcagaagaagaacacagagtct gttaagggcctgaggaagtatgagcggagggtcaaggagctgacgtaccagagtgaagag gacaggaagaatgtgctgagattgcaggatctggtggataaactgcaagtgaaagtcaag tcctacaagaggcaggcggaggaggctgtaagtgagataggtgctgactgcggcaggcag accgtgctgtttcccgtggatgaacaagccaatgctcatctcaccaaattccgaaaggct cagcatgagctggaggaggccgaggaacgtgcggatatcgcagaatctcaagtcaacaag ctccgcgctaagactcgagacttcacctccagcaggatggtggtccacgagagtgaagag tga