Result of GENSCAN for
pF1KB5503
GENSCAN 1.0 Date run: 5-Nov-116 Time: 13:03:15 Sequence gi568815581r:28454223_28671190 : 216968 bp : 49.79% C+G : Isochore 2 (43 - 51 C+G%) Parameter matrix: HumanIso.smat Predicted genes/exons: Gn.Ex Type S .Begin ...End .Len Fr Ph I/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.01 Init + 10476 10551 76 2 1 100 93 60 0.977 8.95 1.02 Intr + 11568 11660 93 1 0 19 100 70 0.677 1.24 1.03 Intr + 11694 11842 149 1 2 58 75 37 0.575 -0.65 1.04 Term + 13567 14184 618 0 0 -4 41 713 0.785 51.84 1.05 PlyA + 14198 14203 6 1.05 2.00 Prom + 19385 19424 40 -3.86 2.01 Init + 19491 19592 102 2 0 101 116 140 0.981 18.36 2.02 Intr + 19837 19971 135 0 0 38 94 72 0.584 3.56 2.03 Intr + 34992 35120 129 2 0 116 83 218 0.999 24.99 2.04 Intr + 36085 36368 284 0 2 51 86 290 0.781 21.32 2.05 Intr + 36479 36684 206 2 2 79 77 390 0.996 35.84 2.06 Intr + 37215 37395 181 1 1 111 80 154 0.997 15.83 2.07 Intr + 37508 37630 123 2 0 97 108 197 0.995 22.30 2.08 Intr + 39349 39567 219 1 0 103 78 310 0.997 28.92 2.09 Intr + 39795 39883 89 0 2 75 115 131 0.990 14.11 2.10 Intr + 40166 40290 125 0 2 13 78 136 0.677 5.40 2.11 Intr + 41433 41594 162 2 0 124 89 161 0.999 19.97 2.12 Intr + 42228 42365 138 2 0 81 115 154 0.995 18.06 2.13 Term + 42877 43047 171 0 0 64 44 157 0.990 6.73 2.14 PlyA + 43228 43233 6 1.05 3.06 PlyA - 43458 43453 6 1.05 3.05 Term - 56885 56728 158 0 2 97 52 76 0.751 3.00 3.04 Intr - 59593 59481 113 0 2 73 60 63 0.802 2.02 3.03 Intr - 60768 60674 95 0 2 69 98 91 0.967 6.96 3.02 Intr - 61335 61123 213 0 0 20 85 137 0.798 5.51 3.01 Init - 62457 62353 105 0 0 67 85 37 0.070 1.58 3.00 Prom - 64092 64053 40 -10.25 4.00 Prom + 64941 64980 40 -7.66 4.01 Init + 67273 67419 147 0 0 77 28 132 0.341 4.19 4.02 Intr + 69739 69870 132 0 0 20 84 87 0.169 2.34 4.03 Intr + 70281 70745 465 2 0 73 105 522 0.611 45.72 4.04 Intr + 73029 73139 111 2 0 90 94 26 0.705 3.98 4.05 Intr + 74872 75002 131 0 2 75 88 80 0.986 6.19 4.06 Intr + 76527 76623 97 0 1 89 105 106 0.995 12.41 4.07 Intr + 80109 80316 208 2 1 102 94 321 0.980 32.75 4.08 Intr + 80485 80976 492 2 0 73 84 299 0.711 20.97 4.09 Term + 82895 83214 320 0 2 125 49 227 0.991 17.54 4.10 PlyA + 84650 84655 6 1.05 5.06 PlyA - 86740 86735 6 1.05 5.05 Term - 93187 93075 113 2 2 70 46 223 0.950 15.02 5.04 Intr - 93627 93455 173 2 2 88 -3 330 0.869 23.49 5.03 Intr - 93879 93777 103 1 1 42 94 149 0.983 10.13 5.02 Intr - 94483 94370 114 2 0 94 109 160 0.990 19.12 5.01 Init - 98335 98116 220 1 1 77 77 303 0.988 24.89 5.00 Prom - 98850 98811 40 -12.59 6.13 PlyA - 99198 99193 6 1.05 6.12 Term - 100273 99998 276 1 0 130 53 349 0.999 31.06 6.11 Intr - 100839 100629 211 2 1 105 99 227 0.995 24.42 6.10 Intr - 102044 101944 101 2 2 105 77 80 0.995 7.51 6.09 Intr - 102750 102605 146 1 2 105 45 133 0.946 10.70 6.08 Intr - 104368 104254 115 1 1 104 80 10 0.999 1.82 6.07 Intr - 105969 105827 143 1 2 105 94 192 0.983 21.57 6.06 Intr - 107407 107200 208 1 1 103 45 219 0.995 17.75 6.05 Intr - 109300 109209 92 2 2 83 110 54 0.999 6.81 6.04 Intr - 109685 109596 90 0 0 92 86 126 0.984 12.77 6.03 Intr - 116741 116630 112 2 1 89 82 154 0.983 14.85 6.02 Intr - 116966 116827 140 0 2 74 94 206 0.676 19.98 6.01 Init - 117274 117241 34 1 1 94 52 62 0.701 1.62 6.00 Prom - 118549 118510 40 -8.56 7.29 PlyA - 118916 118911 6 1.05 7.28 Term - 119399 119304 96 2 0 137 48 120 0.995 10.87 7.27 Intr - 119712 119513 200 1 2 85 31 195 0.755 12.57 7.26 Intr - 120019 119845 175 1 1 87 79 204 0.993 18.91 7.25 Intr - 120355 120272 84 1 0 101 113 97 0.941 13.52 7.24 Intr - 120634 120474 161 2 2 52 89 252 0.993 21.41 7.23 Intr - 120784 120730 55 1 1 125 75 23 0.999 3.25 7.22 Intr - 121112 120901 212 0 2 123 56 413 0.999 40.23 7.21 Intr - 121322 121199 124 2 1 94 97 173 0.947 18.96 7.20 Intr - 123868 123788 81 1 0 67 75 97 0.962 6.13 7.19 Intr - 124070 123996 75 2 0 72 66 106 0.989 6.51 7.18 Intr - 124306 124151 156 1 0 75 47 111 0.885 5.91 7.17 Intr - 124530 124450 81 0 0 122 39 119 0.998 10.23 7.16 Intr - 125030 124919 112 1 1 59 67 155 0.624 10.88 7.15 Intr - 125304 125143 162 2 0 91 82 66 0.404 5.39 7.14 Intr - 128054 127963 92 2 2 0 38 107 0.400 -4.31 7.13 Intr - 129427 129289 139 0 1 102 97 120 0.986 14.77 7.12 Intr - 129764 129631 134 2 2 108 111 98 0.971 13.54 7.11 Intr - 130030 129928 103 0 1 42 94 137 0.970 9.88 7.10 Intr - 130274 130111 164 2 2 31 70 113 0.584 2.57 7.09 Intr - 130993 130880 114 1 0 70 72 131 0.990 10.34 7.08 Intr - 131189 131097 93 2 0 72 76 36 0.481 0.96 7.07 Intr - 131431 131312 120 1 0 59 51 123 0.988 6.39 7.06 Intr - 131960 131868 93 2 0 116 99 -1 0.770 3.96 7.05 Intr - 132277 132203 75 1 0 28 115 45 0.606 0.91 7.04 Intr - 137650 137476 175 0 1 98 78 107 0.998 10.64 7.03 Intr - 138844 137760 1085 1 2 95 94 383 0.990 28.51 7.02 Intr - 144413 144288 126 2 0 124 94 81 0.702 13.18 7.01 Init - 144724 144674 51 1 0 49 115 87 0.994 6.69 7.00 Prom - 151157 151118 40 -7.06 8.46 PlyA - 153098 153093 6 1.05 8.45 Term - 156477 156256 222 0 0 104 52 243 0.969 19.22 8.44 Intr - 157031 156921 111 2 0 58 94 35 0.727 1.68 8.43 Intr - 158465 158396 70 1 1 126 64 1 0.254 0.68 8.42 Intr - 158924 158809 116 2 2 97 91 28 0.314 3.25 8.41 Intr - 159123 159040 84 0 0 89 97 77 0.993 8.72 8.40 Intr - 159463 159218 246 1 0 19 115 96 0.468 3.06 8.39 Intr - 161024 160893 132 2 0 84 -11 175 0.427 8.04 8.38 Intr - 161576 161442 135 2 0 127 68 193 0.999 21.96 8.37 Intr - 161731 161708 24 1 0 87 94 25 0.700 1.22 8.36 Intr - 161975 161874 102 2 0 87 52 139 0.915 10.57 8.35 Intr - 162287 162157 131 0 2 76 66 45 0.935 1.51 8.34 Intr - 162531 162396 136 0 1 122 85 176 0.993 20.84 8.33 Intr - 162777 162667 111 0 0 119 88 58 0.979 9.48 8.32 Intr - 164749 164569 181 0 1 111 65 190 0.934 18.87 8.31 Intr - 165553 165432 122 1 2 64 49 168 0.875 9.79 8.30 Intr - 165793 165638 156 1 0 107 61 134 0.999 12.81 8.29 Intr - 166408 166287 122 2 2 24 105 211 0.966 16.61 8.28 Intr - 166948 166766 183 2 0 89 61 185 0.999 15.66 8.27 Intr - 167276 167177 100 2 1 110 76 131 0.999 13.78 8.26 Intr - 169744 169538 207 1 0 72 88 149 0.999 12.57 8.25 Intr - 170168 170011 158 0 2 107 82 133 0.999 14.33 8.24 Intr - 174337 174043 295 1 1 97 99 130 0.991 11.58 8.23 Intr - 177456 177257 200 1 2 82 63 80 0.692 3.97 8.22 Intr - 177697 177598 100 1 1 95 93 41 0.995 4.98 8.21 Intr - 178017 177827 191 1 2 91 110 74 0.984 9.20 8.20 Intr - 178882 178720 163 1 1 34 53 140 0.507 4.65 8.19 Intr - 179529 179327 203 1 2 64 78 98 0.914 5.40 8.18 Intr - 179864 179673 192 0 0 70 74 134 0.814 9.66 8.17 Intr - 181387 180295 1093 1 1 76 106 831 0.664 73.28 8.16 Intr - 182948 182743 206 0 2 40 80 200 0.856 13.32 8.15 Intr - 183872 183614 259 2 1 93 111 75 0.990 7.34 8.14 Intr - 184193 184030 164 0 2 67 96 54 0.989 3.79 8.13 Intr - 184420 184302 119 0 2 86 82 35 0.954 2.81 8.12 Intr - 185238 185093 146 0 2 98 86 44 0.991 4.28 8.11 Intr - 185420 185353 68 0 2 124 64 40 0.775 3.82 8.10 Intr - 185803 185679 125 0 2 58 22 181 0.627 8.73 8.09 Intr - 186461 186338 124 0 1 56 78 -9 0.658 -5.46 8.08 Intr - 187856 187667 190 2 1 69 103 106 0.831 9.36 8.07 Intr - 188113 188053 61 0 1 88 119 36 0.994 5.44 8.06 Intr - 188765 188647 119 2 2 120 121 46 0.999 10.36 8.05 Intr - 189965 189836 130 1 1 30 89 119 0.978 6.90 8.04 Intr - 192306 192234 73 1 1 36 107 84 0.328 3.56 8.03 Intr - 195054 194808 247 0 1 133 81 212 0.641 22.03 8.02 Intr - 201261 201065 197 1 2 56 94 158 0.996 12.33 8.01 Init - 207654 207504 151 0 1 66 95 171 0.903 13.81 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815581r:28454223_28671190|GENSCAN_predicted_peptide_1|311_aa MPGLRNTFTYTIIIPFEAKRPKPKEATTIVQTPVPRRALGTWSAAHVAVRIELPTQDSQP RWGHAKDKSLPPKVSMVCAKNQSSMSSKGLGNSVIKMGHNIRQGWQPALGKFSQEKAMFS SSAKIVKPNGEKPDEFESGISQALLELEMNSDLKAQLRELNITAAKEIEVGGGQKAIIIF VPVPQLKSFQKIQVRLVRELEKKFSGKHVVFIAQRRILPKPTRKSRTKNKQKRPRSRTLT AVHDAILEDLVFPSEIVVKRIRVKLDGSRLIKAHLDKAQQNNVEHKVETFSGVYKKLTGK DVNFEFPEFQL >gi568815581r:28454223_28671190|GENSCAN_predicted_CDS_1|936_bp atgcctggactaagaaatacctttacatacaccatcatcatcccatttgaggccaagaga ccaaagcccaaagaagccaccaccatcgttcagacccctgttccaagaagagcactgggc acatggagtgctgcacacgtggcggtccgcattgagctacccacccaagactcccagccc cgctgggggcatgccaaggacaaatccttaccaccaaaagtaagtatggtctgtgccaaa aaccagagcagtatgtcctcaaaggggcttgggaacagtgtcatcaagatgggccacaat atcaggcaagggtggcagccggcgctcggcaagttctcccaggagaaagccatgttcagt tcgagcgccaagattgtgaagcccaatggcgagaagccggacgagttcgagtccggcatc tcccaggctcttctggagctggagatgaactcggacctcaaggctcagctcagggagctg aatattacggcagctaaggaaattgaagttggtggtggtcagaaagctatcataatcttt gttcccgttcctcaactgaaatctttccagaaaatccaagtccggctagtacgcgaattg gagaaaaagttcagtgggaagcatgtcgtctttatcgctcagaggagaattctgcctaag ccaactcgaaaaagccgtacaaaaaataagcaaaagcgtcccaggagccgtactctgaca gctgtgcacgatgccatcctcgaggacttggtcttcccaagcgaaattgtggtcaagaga atccgcgtcaaactagatggcagccggctcataaaggctcatttggacaaagcacagcag aacaatgtggaacacaaggttgaaactttttctggtgtctataagaagctcacgggcaag gatgttaattttgaattcccagagtttcaattgtaa >gi568815581r:28454223_28671190|GENSCAN_predicted_peptide_2|687_aa MATCWQALWAYRSYLIVFFVPILLLPLPILVPSKETGNQFHQQDARGADGADLPTVCPPS PGLGSMAAEMGWLWGGDGWEAYCAYAIILMALFWCTEALPLAVTALFPLILFPMMGIVDA SEIIQRPFPSSFESPGECQSVGMSVTASHNLGGTVGDSRVFPPLSHVSTCQVAVEYLKDS NLLFFGGLLVAIAVEHWNLHKRIALRVLLIVGVRPAPLILGFMLVTAFLSMWISNTATSA MMVPIAHAVLDQLHSSQASSNVEEGSNNPTFELQEPSPQKEVTKLDNGQALPVTSASSEG RAHLSQKHLHLTQCMSLCVCYSASIGGIATLTGTAPNLVLQGQINSLFPQNGNVVNFASW FSFAFPTMVILLLLAWLWLQILFLGFNFRKNFGIGEKMQEQQQAAYCVIQTEHRLLGPMT FAEKAISILFVILVLLWFTREPGFFLGWGNLAFPNAKGESMVSDGTVAIFIGIIMFIIPS KFPGLTQDPVENPGKLKAPLGLLDWKTVNQKMPWNIVLLLGGGYALAKGSERSGLSEWLG NKLTPLQSVPAPAIAIILSLLVATFTECTSNVATTTIFLPILASMAQAICLHPLYVMLPC TLATSLAFMLPVATPPNAIVFSFGDLKVLDMARAGFLLNIIGVLIIALAINSWGIPLFSL HSFPSWAQSNTTAQCLPSLANTTTPSP >gi568815581r:28454223_28671190|GENSCAN_predicted_CDS_2|2064_bp atggccacctgctggcaggccctgtgggcctatcgctcctacctgatcgtgttcttcgtg cccattctcctgctgcctctgcccatcctcgtccccagtaaggaaacaggaaaccagttc catcaacaagatgcaaggggggcagatggagctgatctacctactgtgtgcccacctagc cctggactgggctccatggcggctgagatgggctggctgtggggaggggacggctgggag gcctactgcgcgtatgccatcatcctcatggcgctcttctggtgcactgaggccctgccc ctggccgtcactgccctcttccccttaatcctgttccctatgatgggcatcgtggatgcc tctgagatcattcagagaccatttccatccagtttcgagagcccaggggaatgccagtct gtgggaatgtcagtgactgcatcccataacctcgggggcaccgtgggagactccagggtc ttcccgccgctcagccatgtctccacctgccaggttgccgtcgagtatcttaaggactcc aacctcctgttcttcggggggctgctggtggccatcgcggtggaacactggaacctgcat aaacgcatcgccctccgtgtcctcctcatcgttggggtgcggcctgccccgctaatcctg ggcttcatgctggtcacggccttcctgtccatgtggatcagcaacacggccacctcagcc atgatggtgcccatcgcacatgccgtcctggaccagctgcacagctcgcaagccagcagc aacgtcgaggagggcagcaacaaccccaccttcgagctccaggaaccaagtccccagaag gaggtgaccaagcttgataatgggcaggccctccctgtcacgtctgcctcttcggagggg agggcacatctcagccagaagcatctccacctcacccagtgcatgagcctgtgcgtgtgc tactccgccagcatcgggggcatcgccacgctgactggcaccgcacccaacctggtgctg caaggccagatcaactcgctcttcccccaaaacggcaacgtggtgaacttcgcctcctgg ttcagcttcgccttccccaccatggtcatcttgctgctgctggcctggttgtggctgcag atcctcttcctgggcttcaacttccggaagaactttggcattggggaaaagatgcaggag caacagcaggcagcctactgcgtcatccagaccgagcacaggctgctgggccccatgacc tttgcagaaaaggccatcagcatcctattcgtcatcctggtgctgctctggttcacccgg gagccgggcttttttcttggctggggcaatttggcttttcccaatgccaagggggagagc atggtgtccgatgggacagtggccatcttcatcggcataattatgttcatcataccctcc aagttcccagggctgacccaggacccagtagaaaacccagggaagctgaaggcccctctt ggcctcctcgactggaagacggtgaaccagaagatgccgtggaatatcgtgttattgctg ggtggtggctatgccctggccaagggcagtgagcgatcgggcctgtcagagtggctggga aacaagctgaccccactgcagagtgtgccagctccagccattgccatcatcctctccctc ctggtggccaccttcaccgagtgcactagcaacgtggccaccactacgatcttcctgccc atcctagcctccatggcccaggccatctgcctccaccctctctacgtcatgctcccctgc actctggccacctccctggccttcatgttgcctgtggccaccccgcccaatgccatcgtc ttctctttcggggacctcaaagtgttggatatggcccgggcaggattcctcctcaacatc attggagtcctgatcatcgcactggccatcaacagctggggcatccccctcttcagcctg cactctttcccctcctgggcacagtccaacaccacagcccagtgcctgccaagcctggcc aacaccaccacaccaagcccctag >gi568815581r:28454223_28671190|GENSCAN_predicted_peptide_3|227_aa MVWILWRCVPSGGVYPVEVWILRRCVPYGGMDPVEKHVPHGGVYLCEGVYTCGSMFTYGS MYPVEVCSPVEVCSPVEVYTPLEMCTPVEGVPCGDVYTYEGVYSVEDSNPGFKASMLNHY ATRPHLGNASASLLKPESHGPKGAKSKHSQWALGHGHHHRFGESFSLQLPRSLHRDGETE VPPVGEIVPCYAGICALLLPPGAGAMGSSSQHLIMSLEKGQALGAFS >gi568815581r:28454223_28671190|GENSCAN_predicted_CDS_3|684_bp atggtatggatcctgtggaggtgtgtacccagtggaggtgtgtaccctgtggaggtatgg atcctgcggaggtgtgtaccctatggaggtatggatcctgtggagaagcatgtaccacat ggaggggtgtacctctgtgaaggggtgtacacttgtggaagtatgttcacctatggaagt atgtaccctgtggaagtgtgttcacctgtggaggtatgttcacctgtggaagtgtataca cctttggaaatgtgcacacctgtggagggtgtaccctgtggagatgtgtacacctatgaa ggggtgtactctgtggaggattccaacccgggcttcaaagccagcatgctgaaccattac gctacacggccccaccttggtaacgcctcagcctccctgctcaagcctgaaagccatggc cccaaaggagccaaatccaagcactcacagtgggctctgggtcatggccaccatcaccgc ttcggggagtcattcagcctgcagctccccaggagcctccatcgagatggggaaaccgag gtcccaccagtgggagagattgttccctgctatgcaggcatctgtgcgctgctccttcct ccaggtgctggggctatgggaagcagctctcagcacctaatcatgtccctggagaagggg caggctctgggggcattttcctga >gi568815581r:28454223_28671190|GENSCAN_predicted_peptide_4|700_aa MRSGRWAAPHLGPHACSAVVSRYGQLGASLVTPHLALPSEQAPGHQEGVDWVMVSLPPPQ SDVTLPGPTRLEGERQGDLMQAPGLPGSPAPQSKHAGFSCSSFVSDGPPERTPSLPPHSP RIASPGPEQVQGHCPAGPGPGPFRLSPSDKYPGFGFEEAAASSPGRFLKGSHAPFHPYKR PFHEDVFPEAETTLALKGHSFKTPGPLEAFEEIPVDVAEAEAFLPGFSAEAWCNGLPYPS QEHGPQVLGSEVKVKPPVLESGAGMFCYQPPLQHMYCSSQPPFHQYSPGGGSYPIPYLGS SHYQYQRMAPQASTDGHQPLFPKPIYSYSILIFMALKNSKTGSLPVSEIYNFMTEHFPYF KTAPDGWKNSVRHNLSLNKCFEKVENKSGSSSRKGCLWALNPAKIDKMQEELQKWKRKDP IAVRKSMAKPEELDSLIGDKREKLGSPLLGCPPPGLSGSGPIRPLAPPAGLSPPLHSLHP APGPIPGKNPLQDLLMGHTPSCYGQTYLHLSPGLAPPGPPQPLFPQPDGHLELRAQPGTP QDSPLPAHTPPSHSAKLLAEPSPARTMHDTLLPDGDLGTDLDAINPSLTDFDFQGNLWEQ LKDDSLALDPLVLVTSSPTSSSMPPPQPPPHCFPPGPCLTETGSGAGDLAAPGSGGSGAL GDLHLTTLYSAFMELEPTPPTAPAGPSVYLSPSSKPVALA >gi568815581r:28454223_28671190|GENSCAN_predicted_CDS_4|2103_bp atgcggagcgggaggtgggctgccccgcacctcgggccccatgcctgctccgctgtggtg tcccgttacggccagctcggcgcttccctggtcacgccacatttagcattgccgagtgag caggcgccaggacatcaagaaggggtggactgggtgatggtgtcgctacccccgccgcag tctgacgtcacgctgccgggccccaccagactggagggcgagcgccaaggggacctcatg caggcaccgggcctcccaggctcccctgccccacagagtaagcatgccggcttcagctgc tcgtcatttgtgtccgacggccctccagagaggacaccctcactgcccccacacagcccc cgcattgcgtcaccagggcccgagcaagtccagggccactgcccagccggccccggccct gggcccttcaggctctcaccctcagacaagtatcctggctttggctttgaggaggccgca gcaagcagccctgggcgattcctcaagggcagccacgcgcccttccacccgtacaagcgg cctttccatgaggacgtcttcccagaggccgagaccaccctggccctcaaaggacactcc tttaagaccccagggccgctggaggccttcgaggagatcccagtggacgtggcggaggcc gaggccttcctgcctggcttctcagcagaggcctggtgtaacgggctcccctaccccagc caggagcatggcccccaagtcctgggttcagaggtcaaagtcaagcccccagttctggag agtggtgctgggatgttctgctaccagcctcccttgcagcatatgtactgctcctcccag ccccccttccaccagtactcgccaggtggtggcagctaccccataccctacctgggctcc tcacactatcagtaccagcgaatggcaccccaggccagcaccgatgggcaccagcctctc ttcccaaaacccatctattcctacagcatcctcatcttcatggcccttaagaacagtaaa actgggagccttcccgtcagcgagatctacaattttatgacggagcactttccttacttc aagacagcacccgatggctggaagaattctgtccggcacaacctatccctcaacaagtgc ttcgagaaggtggagaacaaatcaggaagttcctcccgcaagggctgcctgtgggccctc aatccggccaagatcgacaagatgcaagaggagctgcaaaaatggaagaggaaagatccc attgctgtgcgcaaaagcatggccaagccagaagagctggacagcctcattggagacaag agagaaaagctgggctccccactcctgggctgtccgccccctgggctgtccggctcaggc cccatccggcccctggcacccccagctggcctctccccaccactgcactcactccaccca gctccaggccccattcctggcaagaaccccctgcaggacctacttatggggcacacaccc tcctgctatgggcagacatacttgcacctctcaccaggcctggcccctcctggacccccg cagccattgttcccacagccggacgggcaccttgagctgcgggcccagccaggcaccccc caggactcgcctctgcctgcccacaccccacccagccacagtgccaagctactggccgag ccttccccagccaggactatgcacgacaccctgctgccagatggagaccttggcactgac ctggatgccatcaatccctcactcactgacttcgacttccagggaaacctgtgggaacag ttgaaggatgatagcttggccctcgaccccctggtactggtgacctcatccccgacatca tcttcgatgccaccaccccagccaccacctcactgcttcccccctgggccctgtctgaca gagacaggcagtggggcaggtgacttggcagccccgggcagtggtggctccggggcactg ggtgacctgcacctcaccaccctctactctgcctttatggagctggagcccacgcccccc acggcccctgcaggcccctctgtgtacctcagccccagctccaagcccgtggccctggca tga >gi568815581r:28454223_28671190|GENSCAN_predicted_peptide_5|240_aa MKVKKGGGGAGTATESAPGPSGQSVAPIPQPPAESESGSESEPDAGPGPRPGPLQRKQPI GPEDVLGLQRITGDYLCSPEENIYKIDFVRFKIRDMDSGTVLFEIKKPPVSERLPINRRD LDPNAGRFVRYQFTPAFLRLRQVGATVEFTVGDKPVNNFRMIERHYFRNQLLKSFDFHFG FCIPSSKNTCEHIYDFPPLSEELISEMIRHPYETQSDSFYFVDDRLVMHNKADYSYSGTP >gi568815581r:28454223_28671190|GENSCAN_predicted_CDS_5|723_bp atgaaggtgaagaagggcggcggtggggccgggacggcgacggagtccgctccggggccc tcgggccagagcgtggcccccataccacagccgcctgcggaatccgaatctgggtccgag tcggagccggacgcaggcccagggcccaggccggggccgctgcagaggaagcagccgatc gggccggaggacgtgctggggctgcagcggatcaccggtgactacctctgctcccctgag gagaatatctacaagatcgactttgtcaggtttaagattcgggacatggactcaggcact gtcctctttgaaatcaagaagcccccagtctcagaacggttgcccatcaaccggcgggac ctggaccccaatgctgggcgctttgtccgctaccagttcacgcctgccttcctccgcctg aggcaggtgggagccacggtggagttcacagtgggagacaagcctgtcaacaacttccgc atgatcgagaggcactacttccgcaaccagctactcaaaagcttcgacttccactttggc ttctgcatccccagcagcaagaacacctgcgagcacatttacgacttcccccctctctcc gaggagctgatcagcgagatgatccgccacccgtatgagacccagtctgacagcttctac ttcgtggatgaccggctggtgatgcacaataaagcagactattcctacagcgggacaccc tga >gi568815581r:28454223_28671190|GENSCAN_predicted_peptide_6|555_aa MAAAGAAATHLEVARGKRAALFFAAVAIVLGLPLWWKTTETYRASLPYSQISGLNALQLR LMVPVTVVFTRESVPLDDQEKLPFTVVHEREIPLKYKMKIKCRFQKAYRRALDHEEEALS SGSVQEAEAMLDEPQEQAEGSLTVYVISEHSSLLPQDMMSYIGPKRTAVVRGIMHREAFN IIGRRIVQVAQAMSLTEDVLAAALADHLPEDKWSAEKRRPLKSSLGYEITFSLLNPDPKS HDVYWDIEGAVRRYVQPFLNALGAAGNFSVDSQILYYAMLGVNPRFDSASSSYYLDMHSL PHVINPVESRLGSSAASLYPVLNFLLYVPELAHSPLYIQDKDGAPVATNAFHSPRWGGIM VYNVDSKTYNASVLPVRVEVDMVRVMEVFLAQLRLLFGIAQPQLPPKCLLSGPTSEGLMT WELDRLLWARSVENLATATTTLTSLAQLLGKISNIVIKDDVASEVYKAVAAVQKSAEELA SGHLASAFVASQEAVTSSELAFFDPSLLHLLYFPDDQKFAIYIPLFLPMAVPILLSLVKI FLETRKSWRKPEKTD >gi568815581r:28454223_28671190|GENSCAN_predicted_CDS_6|1668_bp atggcggccgccggggctgcggctacacacctagaggtggcccggggcaagcgcgccgcc ctcttcttcgctgcggtggccatcgtgctggggctaccgctctggtggaagaccacggag acctaccgggcctcgttgccttactcccagatcagtggcctgaatgcccttcagctccgc ctcatggtgcctgtcactgtcgtgtttacgcgggagtcagtgcccctggacgaccaggag aagctgcccttcaccgttgtgcatgaaagagagattcctctgaaatacaaaatgaaaatc aaatgccgtttccagaaggcctatcggagggctttggaccatgaggaggaggccctgtca tcgggcagtgtgcaagaggcagaagccatgttagatgagcctcaggaacaagcggagggc tccctgactgtgtacgtgatatctgaacactcctcacttcttccccaggacatgatgagc tacattgggcccaagaggacagcagtggtgcgggggataatgcaccgggaggcctttaac atcattggccgccgcatagtccaggtggcccaggccatgtctttgactgaggatgtgctt gctgctgctctggctgaccaccttccagaggacaagtggagcgctgagaagaggcggcct ctcaagtccagcttgggctatgagatcaccttcagtttactcaacccagaccccaagtcc catgatgtctactgggacattgagggggctgtccggcgctatgtgcaacctttcctgaat gccctcggtgccgctggcaacttctctgtggactctcagattctttactatgcaatgttg ggggtgaatccccgctttgactcagcttcctccagctactatttggacatgcacagcctc ccccatgtcatcaacccagtggagtcccggctgggatccagtgctgcctccttgtaccct gtgctcaactttctactctacgtgcctgagcttgcacactcaccgctgtacattcaggac aaggatggcgctccagtggccaccaatgccttccatagtccccgctggggtggcattatg gtatataatgttgactccaaaacctataatgcctcagtgctgccagtgagagtcgaggtg gacatggtgcgagtgatggaggtgttcctggcacagttgcggttgctctttgggattgct cagccccagctgcctccaaaatgcctgctttcagggcctacgagtgaagggctaatgacc tgggagctagaccggctgctctgggctcggtcagtggagaacctggccacagccaccacc acccttacctccctggcgcagcttctgggcaagatcagcaacattgtcattaaggacgac gtggcatctgaggtgtacaaggctgtagctgccgtccagaagtcggcagaagagttggcg tctgggcacctggcatctgcctttgtcgccagccaggaagctgtgacatcctctgagctt gccttctttgacccgtcactcctccacctcctttatttccctgatgaccagaagtttgcc atctacatcccactcttcctgcctatggctgtgcccatcctcctgtccctggtcaagatc ttcctggagacccgcaagtcctggagaaagcctgagaagacagactga >gi568815581r:28454223_28671190|GENSCAN_predicted_peptide_7|1445_aa MWRVKKLSLSLSPSPQTGKPSMRTPLRELTLQPGALTNSGKRSPACSSLTPSLCKLGLQE GSNNSSPVDFVNNKRTDLSSEHFSHSSKWLETCQHESDEQPLDPIPQISSTPKTSEEAVD PLGNYMVKTIVLVPSPLGQQQDMIFEARLDTMAETNSISLNGPLRTDDLVREEVAPCMGD RFSEVAAVSEKPIFQESPSHLLEESPPNPCSEQLHCSKESLSSRTEAVREDLVPSESNAF LPSSVLWLSPSTALAADFRVNHVDPEEEIVEHGAMEEREMRFPTHPKESETEDQALVSSV EDILSTCLTPNLVEMESQEAPGPAVEDVGRILGSDTESWMSPLAWLEKGVNTSVMLENLR QSLSLPSMLRDAAIGTTPFSTCSVGTWFTPSAPQEKSTNTSQTGLVGTKHSTSETEQLLC GRPPDLTALSRHDLEDNLLSSLVILEVLSRQLRDWKSQLAVPHPETQDSSTQTDTSHSGI TNKLQHLKESHEMGQALQQARNVMQSWVLISKELISLLHLSLLHLEEDKTTVSQEAEIVL EAFCAHASQRISQLEQDLASMREFRGLLKDAQTQLVGLHAKQEELVQQTVSLTSTLQQDW RSMQLDYTTWTALLSRSRQLTEKLTVKSQQALQERDVAIEEKQEDTFVLDLRAQLQILAN MDSQLKELQSQHTHCAQDLAMKDELLCQLTQSNEEQAAQWQKEEMALKHMQAELQQQQAV LAKEVRDLKETLEFADQENQVAHLELGQVECQLKTTLEVLRERSLQCENLKDTVENLTAK LASTIADNQEQDLEKTRQYSQKLGLLTEQLQSLTLFLQTKLKEKVLGLEDEQGKMLLIWN AASLRNGKQLFMAAAAGRLDLYLGLSLSETPGMEESLAEMSIMTTELQSLCSLLQESKEE AIRTLQRKICELQARLQAQEEQHQEVQKAKEADIEKLNQALCLRYKNEKELQEVIQQQNE KILEQIDKSGELISLREEVTHLTRSLRRAETETKVLQEALAGQLDSNCQPMATNWIQEKV WLSQEVDKLRVMFLEMKNEKEKLMIKFQSHRNILEENLRRSDKELEKLDDIVQHIYKGAV TMPHSYPALSAEQKKELSDIALRIVAPGKGILAADESVGSMAKRLSQIGVENTEENRRLY RQVLFSADDRVKKCIGGVIFFHETLYQKDDNGVPFVRTIQDKGIVVGIKVDKGVVPLAGT DGETTTQGLDGLSERCAQYKKDGADFAKWRCVLKISERTPSALAILENANVLARYASICQ QNGIVPIVEPEILPDGDHDLKRCQYVTEKVLAAVYKALSDHHVYLEGTLLKPNMVTPGHA CPIKYTPEEIAMATVTALRRTVPPAVPGVTFLSGGQSEEEASFNLNAINRCPLPRPWALT FSYGRALQASALNAWRGQRDNAGAATEEFIKRAEVNGLAAQGKYEGSGEDGGAAAQSLYI ANHAY >gi568815581r:28454223_28671190|GENSCAN_predicted_CDS_7|4338_bp atgtggcgagtgaaaaaactgagcctcagcctgtcgccttcgccccagacgggaaaacca tctatgagaactcctctccgtgaacttaccctgcagcccggtgccctcaccaactctgga aaaagatcccccgcttgctcctcgctgaccccatcactgtgcaagctggggctgcaggaa ggcagcaacaactcatctccagtggattttgtaaataacaagaggacagacttatcttca gaacatttcagtcattcctcaaagtggctagaaacttgtcagcatgaatcagatgagcag cctctagatccaattccccaaattagctctactcctaaaacgtctgaggaagcagtagac ccactgggcaattatatggttaaaaccatcgtccttgtaccatctccactggggcagcaa caagacatgatatttgaggcccgtttagataccatggcagagacaaacagcatatcttta aatggacctttgagaacagacgatctggtgagagaggaggtggcaccctgcatgggagac aggttttcagaagttgctgctgtatctgagaaacctatctttcaggaatctccgtcccat ctcttagaggagtctccaccaaatccctgttctgaacaactacattgctccaaggaaagc ctgagcagtagaactgaggctgtgcgtgaggacttagtaccttctgaaagtaacgccttc ttgccttcctctgttctctggctttccccttcaactgccttggcagcagatttccgtgtc aatcatgtggacccagaggaggaaattgtagagcatggagctatggaggaaagagaaatg aggtttcccacacatcctaaggagtctgaaacagaagatcaagcacttgtctcaagtgtg gaagatattctgtccacatgcctgacaccaaatctagtagaaatggaatcccaagaagct ccaggcccagcagtagaagatgttggtaggattcttggctctgatacagagtcttggatg tccccactggcctggctggaaaaaggtgtaaatacctccgtcatgctggaaaatctccgc caaagcttatcccttccctcgatgcttcgggatgctgcaattggcactacccctttctct acttgctcggtggggacttggtttactccttcagcaccacaggaaaagagtacaaacaca tcccagacaggcctggttggcaccaagcacagtacttctgagacagagcagctcctgtgt ggccggcctccagatctgactgccttgtctcgacatgacttggaagataacctgctgagc tctcttgtcattctggaggttctctcccgccagcttcgggactggaagagccagctggct gtccctcacccagaaacccaggacagtagcacacagactgacacatctcacagtgggata actaataaacttcagcatcttaaggagagccatgagatgggacaggccctacagcaggcc agaaatgtcatgcaatcatgggtgcttatctctaaagagctgatatccttgcttcaccta tccctgttgcatttagaagaagataagactactgtgagtcaggaggcagagatagtgttg gaggctttctgtgcacacgccagccagcgcatcagccagctggaacaggacctagcatcc atgcgggaattcagaggccttctgaaggatgcccagacccaactggtagggcttcatgcc aagcaagaagagctggttcagcagacagtgagtcttacttctaccttgcaacaagactgg aggtccatgcaactggattatacaacatggacagctttgctgagtcggtcccgacaactc acagagaaactcacagtcaagagccagcaagccctgcaggaacgtgatgtggcaattgag gaaaagcaggaggatacttttgttctagatctccgggctcagttgcagattctggccaac atggacagccagctaaaagagctacagagtcagcatacccattgtgcccaggacctggct atgaaggatgagttactctgccagcttacccagagcaatgaggagcaggctgctcaatgg caaaaggaagagatggcactaaaacacatgcaggcagaactgcagcagcaacaagctgtc ctggccaaagaggtgcgggacctgaaagagaccttggagtttgcagaccaggagaatcag gttgctcacctggagctgggtcaggttgagtgtcaattgaaaaccacactggaagtgctc cgggagcgcagcttgcagtgtgagaacctcaaggacactgtagagaacctaacggctaaa ctggccagcaccatagcagataaccaggagcaagatctggagaaaacacggcagtactct caaaagctagggctgctgactgagcaactacagagcctgactctctttctacagacaaaa ctaaaggagaaggtgctgggactagaggatgaacaaggcaagatgctgctcatatggaat gcagcaagtctgaggaatgggaagcagctcttcatggctgcagcggctggaaggctagac ctctatctgggactttctctttcagagaccccaggcatggaggagagcctggcagaaatg agtattatgactactgagcttcagagtctttgttccctgctacaagagtctaaagaagaa gccatcaggactctgcagcgaaaaatttgtgagctgcaagctaggctgcaggcccaggaa gaacagcatcaggaagtccagaaggcaaaagaagcagacatagagaagctgaaccaggcc ttgtgcttgcgctacaagaatgaaaaggagctccaggaagtgatacagcagcagaatgag aagatcctagaacagatagacaagagtggcgagctcataagccttagagaggaggtgacc caccttacccgctcacttcggcgtgcggagacagagaccaaagtgctccaggaggccctg gcaggccagctggactccaactgccagcctatggccaccaattggatccaggagaaagtg tggctctctcaggaggtggacaaactgagagtgatgttcctggagatgaaaaatgagaag gaaaaactcatgatcaagttccagagccatagaaatatcctagaggagaaccttcggcgc tctgacaaggagttagaaaaactagatgacattgttcagcatatttataagggagctgtc accatgcctcactcgtacccagccctttctgctgagcagaagaaggagttgtctgacatt gccctgcggattgtagccccgggcaaaggcattctggctgcggatgagtctgtaggcagc atggccaagcggctgagccaaattggggtggaaaacacagaggagaaccgccggctgtac cgccaggtcctgttcagtgctgatgaccgtgtgaaaaagtgcattggaggcgtcattttc ttccatgagaccctctaccagaaagatgataatggtgttcccttcgtccgaaccatccag gataagggcatcgtcgtgggcatcaaggttgacaagggtgtggtgcctctagctgggact gatggagaaaccaccactcaagggctggatgggctctcagaacgctgtgcccaatacaag aaggatggtgctgactttgccaagtggcgctgtgtgctgaaaatcagtgagcgtacaccc tctgcacttgccattctggagaacgccaacgtgctggcccgttatgccagtatctgccag cagaatggcattgtgcctattgtggaacctgaaatattgcctgatggagaccacgacctc aaacgttgtcagtatgttacagagaaggtcttggctgctgtgtacaaggccctgagtgac catcatgtatacctggaggggaccctgctcaagcccaacatggtgaccccgggccatgcc tgtcccatcaagtataccccagaggagattgccatggcaactgtcactgccctgcgtcgc actgtgcccccagctgtcccaggagtgaccttcctgtctgggggtcagagcgaagaagag gcatcattcaacctcaatgccatcaaccgctgcccccttccccgaccctgggcgcttacc ttctcctatgggcgtgccctgcaagcctctgcactcaatgcctggcgagggcaacgggac aatgctggggctgccactgaggagttcatcaagcgggctgaggtgaatgggcttgcagcc cagggcaagtatgaaggcagtggagaagatggtggagcagcagcacagtcactctacatt gccaaccatgcctactga >gi568815581r:28454223_28671190|GENSCAN_predicted_peptide_8|2554_aa MAVVPLLLLGGLWSAVGASSLGVVTCGSVVKLLNTRHNVRLHSHDVRYGSGSGQQSVTGV TSVDDSNSYWRIRGKSATVCERGTPIKCGQPIRLTHVNTGRNLHSHHFTSPLSGNQEVSA FGEEGEGDYLDDWTVLCNGPYWVRDGEVRFKHSSTEVLLSVTGEQYGRPISGQKEVHGMA QPSQNNYWKAMEGIFMKPKHSEDIPWGKAADDEEDDANTVLERWLVVRLATKWCQRKLQA ELKIGSFRFFWIQNVSLKFQQHQQTVLFSIHVDAINIMVLKVDTSESLWHIQISRSRFLL DSDGKRLICEVSLCKINSKVLKSGQLEDTCLVELSLALDLCLKVGISSRHLTAITVDVWT LHAELHEGLFQSQLLCQGPSLASKPVPCSEVTENLVEPTLPGLFLLQQLPDQVKVKMENT SVVLSMNSQKRHLTWTLKLLQFLYHRDEDQLPLRSFTANSDMAQMSTELLLEDGLLLSQS RQRIVCLNSLKASVQVTTIDLSASLVLNTCIIHYRHQEFSHWLHLLALETQGSSSPVLKQ RKKRTFPQILAPIIFSTSISNVNISIQLGDTPPFALGFNSISLDYQHLRPQSIHQRGVLT VDHLCWRVGSDSHIQRAPHPPNMHVWGEALVLDSFTLQGSYNQPLGLSSTQSDTLFLDCT IRGLQVEASDTCAQCLSRILSLMGPQSGKSAVSRHSSFGESVSLLWKVDLKVEDMNLFTL SALVGASEVRLDTLTILGSAETSTVGIQGLVLALVKSVTEKMQPCCKAPDIPTPVLSLSM LSITYHSSIRSLEVQCGAGLTLLWSPPDHMYLYQHVLATLQCRDLLRATVFPETVPSLAL ETSGTTSELEGRAPEPLPPKRLLNLTLEVSTAKLTAFVAEDKFITLAAESVSLSRHGGSL QAYCPELAAGFDGNSIFNFKEVEVQLLPELEEMILHRNPFPALQTLRNRVWLLSFGSVSV EFPYQYDFSRTLDEAVGVQKWLKGLHQGTRAWASPSPVPLPPDLLLKVEHFSWVFLDDVF EVKLHDNYELMKDESKESAKRLQLLDAKVAALRKQHGELLPARKIEELYASLERKNIEIY IQRSRRLYGNTPMRRALLTWSLAGLELVALADASFHGPEHVVEQVQELDPGSPFPPEGLD LVIQWCRMLKCNVKSFLVRIRDYPRYLFEIRDWRLMGRLVGTEQSGQPCSRRRQILHLGL PWGNVAVERNMPPLKFYHDFHSEIFQYTVVWGPCWDPAWTLIGQCVDLLTKPSADPSPPL PWWDKSRLLFHGDWHMDIEQANLHQLATEWLCHGNPHDHHSVTLRAPEFLPEVPLGQLHD SYRAFRSENLNLSIKMDLTRHSGTISQPRILLYSSTLRWMQNFWATWTSVTRPICRGKLF NNLKPSKKKLGQHYKQLSYTALFPQLQVHYWASFAQQRGIQIECSQGHVFTRGTQRLIPQ GTVMRRLISDWSVTQMVSDLSQVTVHLMASPTEENADHCLDPLVTKTHLLSLSSLTYQRH SNRTAEEELSARDGDPTFHTHQLHLVDLRISWTTTNRDIAFGLYDGYKKAAVLKRNLSTE ALKGLKIDPQMPAKKPKRGVPTSASAPPRVNTPSFSGQPDKGSSGGAYMLQKLIEETDRF VVFTEEESGMSDQLCGIAACQTDDIYNRNCLIELVNCQMVLRGAETEGCVIVSAAKAQLL QCQHHPAWYGDTLKQKTSWTCLLDGMQYFATTESSPTEQDGRQLWLEVKNIEEHRQRSLD SVQELMESGQAVGGMVTTTTDWNQPAEAQQAQQVQRIISRCNCRMYYISYSHDIDPELAT QIKPPEVLENQEKEDLLKKQEGAVDTFTLIHHELEISTNPAQYAMILDIVNNLLLHVEPK RKEHSEKKQRVRFQLEISSNPEEQRSSILHLQEAVRQHVAQIRQLEKQMYSIMKSLQDDS KNENLLDLNQKLQLQLNQEKANLQLESEELNILIRCFKDFQLQRANKMELRKQQEDVSVV RRTEFYFAQARWRLTEEDGQLGIAELELQRFLYSKVVLRPQSSCQSGRQLALRLFSKVRP PVGGISVKEHFEVNVVPLTIQLTHQFFHRMMGFFFPGRSVEDDEVGDEEDKSKLVTTGIP VVKPRQLIATDDAVPLGPGKGVAQGLTRSSGVRRSFRKSPEHPVDDIDKMKERAAMNNSF IYIKIPQVPLCVSYKSQHHYEAEGEKNSVDWGDLNLVLPCLEYHNNTWTWLDFAMAVKRD SRKALVAQVIKEKLRLKSATGSEVRGKLETKSDLNMQQQEEEEKARLLIGLSGGNIRGPW ARGWKSLWTGLGTIRSDLEELWELRGHHYLHQESLKPAPVLVEKPLPEWPVPQFINLFLP EFPIRPIRGQQQLKILGLVAKGSFGTVLKVLDCTQKAVFAVKVVPKVKVLQRDTVRQCKE EVSIQVCTESWKGLWEELGHSDRSTIPLYTAWGTAGRENGTFSLFPVAAERDHVAMLASV THSDSEIPASLNQGLSLLLHELLCQNPLHRLRYLHHFQVHPFFRGVAFDPELLQKQPVNF VTETQATQPSSAETMPFDDFDCDLESFLLYPIPA >gi568815581r:28454223_28671190|GENSCAN_predicted_CDS_8|7665_bp atggctgtagtacctctgctgttgttggggggtttgtggagcgctgtgggagcgtccagc ctgggtgtcgttacttgcggctccgtggtgaagctactcaatacgcgccacaacgtccga ctgcactcacacgacgtgcgctatgggtcaggtagtgggcagcagtcagtgacaggtgta acctctgtggatgacagcaacagttactggaggatacgggggaagagtgccacagtgtgt gagaggggaacccccatcaagtgtggccagcccatccggctgacacatgtcaacactggc cgaaacctccatagtcaccacttcacttcacctctttctggaaaccaggaagtgagtgct tttggtgaggaaggtgaaggtgattatctggatgactggacagtgctctgtaatggaccc tactgggtgagagatggtgaggtgcggttcaaacactcttccactgaggtactgctgtct gtcacaggagaacaatatggtcgacctatcagtgggcaaaaagaggtgcatggcatggcc cagccaagtcagaacaactactggaaagccatggaaggcatcttcatgaagcccaagcat tcggaggacataccctgggggaaggctgcagatgacgaggaagatgacgcaaatacagtg cttgagaggtggcttgtggtccggttggccaccaagtggtgtcagcggaagctgcaggcg gagctaaagattggctccttccgctttttttggatccagaatgtcagtcttaagtttcag caacaccagcaaacagtgctattctccattcatgtagatgctataaacatcatggttctc aaggtggatacctctgagtccttatggcatattcagatcagtagaagcagatttcttttg gatagtgatgggaaaaggctaatctgtgaggtgagcttatgtaagatcaacagcaaagtt ctaaagagtggtcagctggaggacacctgcctagtggagctttcactggccctggacctg tgtctaaaggtgggcattagcagtcggcatctcactgctatcactgtggatgtgtggaca ctccatgctgaactgcatgagggcctcttccagagccaactgctgtgccagggcccaagc ctagcatctaagcctgttccctgttcagaggtgacagaaaacttagttgagccaactctg cctggcctattccttctccagcagctgccagaccaggtcaaggttaagatggagaacaca agcgtggtattgtccatgaatagtcaaaagaggcacctgacttggactctgaagctgctg cagttcctgtaccaccgtgatgaggatcagctgccccttcgaagcttcacagcaaactct gatatggcacagatgagcactgaactgctgctggaagatgggttgttgttgtcccagagt cgccaacgcattgtctgcctcaactccctcaaggctagtgtgcaggtgaccaccattgac ctctcagcctccctagttctgaacacttgcatcattcactaccggcaccaggaattctct cactggctgcacctgctagcactggaaacccaagggtctagttcacctgttctaaagcaa aggaaaaaaagaaccttcccccaaatcctggctcccatcatctttagcacctccatctcc aatgtcaacatttccattcaacttggagatacaccaccttttgccttgggattcaattct atctctctggattaccagcacctcaggccacaaagcatccatcagcggggcgtcctaact gtggaccacctctgctggcgtgtgggcagtgactcccacattcagcgggcgccacaccca cccaatatgcatgtttggggtgaggcacttgttctggactccttcacactacagggtagc tataaccagcctctgggcctgtccagcacccagtcagataccctttttcttgattgtacc attcgaggacttcaggtggaagcatcagatacctgtgcccaatgtctgtctcgtatctta tccctgatgggtccacaatctgggaagtcagctgtctctaggcactcttcatttggggaa tctgtgtcattactgtggaaggtggacttgaaggtcgaagacatgaacttgtttaccctt tctgccttggttggtgcttcagaggtacgactggacaccctaactatcctgggcagtgca gagacgtccactgtggggattcaaggacttgtgttagcgctggtgaaatcagtcacggag aagatgcaaccctgttgcaaggcccctgacatccctaccccagtgctcagcctttccatg ctctccatcacctatcacagcagcatccgctctctggaggttcagtgtggtgcagggctg accttactttggagccccccagatcacatgtacctgtaccagcatgtcctggccactcta cagtgccgagacctactaagagccactgtgtttcctgagactgtaccatcccttgcacta gagacttcaggaactacttctgagctagaaggccgtgcccctgagccattacccccaaag cggctgctaaacctaaccctggaggtgagcacagccaagctcacagcttttgtagctgag gacaagttcattaccctggctgcagagagtgtgtcactgagccggcatggaggttccctg caggcatactgtccagagctggctgctggctttgatggcaatagtatcttcaacttcaag gaggtggaggtgcagctgctacctgagctggaagagatgatcctccaccggaaccccttc cctgcgctgcagaccctccggaaccgtgtttggctcctctctttcggctcagtctcggtg gagtttccttatcagtatgacttttctcgaactctagatgaggctgtgggagttcagaag tggctgaagggactacatcaagggactcgtgcttgggcctctccaagccctgtcccactc ccacctgatctactcttaaaggttgagcacttctcatgggttttcttggatgatgttttt gaggtgaaacttcatgataactacgagctgatgaaggatgaaagtaaggagagtgccaaa agactacagctactggatgctaaagtggccgcccttcggaagcagcatggggagttgttg cctgcccgcaaaattgaggagctctatgcctctttggaacgcaaaaacattgaaatctac atccagcgttcccgtcgtctctatggcaacacacccatgcgccgggcactgcttacttgg agcttagcagggctagaactggtagctctggcagatgcctccttccatggtcctgagcat gtggtagaacaggttcaagagcttgatccaggcagcccttttccccctgagggattagat cttgtcattcagtggtgtcgaatgctcaagtgcaatgtcaagagctttctggttcggatc agggactatccacggtacctgtttgagatccgtgactggcggctaatgggtcgacttgtg ggcaccgagcagagtggtcagccttgctcccgtcggcgtcagatcttgcacttggggctt ccgtggggtaacgtggcagtggagaggaacatgcccccactcaaattctaccatgacttt cactcggaaatattccagtacacagtggtgtggggcccatgctgggatccagcctggaca ctaattggccagtgtgtggacctcttgaccaagccctcagctgaccccagcccacctttg ccctggtgggacaagagccgtcttctgttccatggagactggcacatggacattgaacag gcgaacctgcaccagctggccactgagtggctgtgccatgggaacccccatgatcaccat agtgtcactctgcgggccccagagttcctgcctgaggtgcccttgggccagcttcatgac tcctaccgggcctttcgctcggagaacctcaatctctccatcaagatggatctgactcgg cacagtggaacaatatcccagccccgaattctgctatatagtagtaccctgcgctggatg caaaacttctgggcaacttggacaagtgtcacaaggcctatctgcaggggaaagctcttc aataacctgaaacccagcaagaagaaacttggtcagcactacaagcaactttcctataca gccctctttccccagctgcaggtacattattgggcctcatttgcccagcaacggggcatc cagattgagtgcagtcagggccatgtcttcactcgggggactcagcggcttatacctcaa ggcacagtgatgcggcgccttatctctgattggagtgttacccagatggtgagtgaccta agtcaggtgaccgttcacctgatggcctcacccactgaagagaatgctgatcactgtctt gatcccttggtaacaaagacccacctgctgagcttgtcctccctcacctaccaacggcat agcaatcgcacagctgaggaggagctctctgctcgtgatggggatcctacctttcataca catcagctgcacttagtagatttacggatttcctggacaactaccaatcgagacattgcc tttgggttatatgatgggtacaaaaaggcagctgtactcaaacgtaatctttctactgag gccctgaaggggttaaagattgatccacagatgccagccaaaaagccaaagcggggtgtc ccaactagtgcctcagccccacctcgtgttaacactcccagcttcagtggacaacctgat aaggggtcatcaggaggtgcttacatgttgcagaagctaattgaagagacagataggttt gtagtgttcacagaagaggaatcaggcatgagtgaccagttgtgtggcattgctgcctgc cagacggatgacatatacaaccgaaactgccttattgaattggtcaactgtcagatggtt cttcgtggagcagagacagaaggctgtgtcattgtgtcagctgccaaagcccaactgctg cagtgccagcaccatccagcctggtatggtgatacattgaagcaaaagacatcctggact tgcctcttggatggcatgcagtactttgccaccactgaaagcagccccacagagcaggat ggccgacagctctggttagaggtgaagaatatcgaggagcaccggcagcgtagtctggac tctgtgcaggagctgatggagagtgggcaggcagtgggcggcatggttaccacaaccaca gattggaaccagccagctgaggcacagcaagcccagcaagtccagcggatcatttcgcgt tgcaactgccgaatgtactatattagttacagccatgacattgatcctgaactagcaact cagattaagccacctgaagttcttgagaaccaggaaaaggaagatctcctaaagaagcag gaaggggctgtggataccttcacccttatccaccatgagctggaaatttccaccaaccca gctcagtatgccatgatcctggacattgtcaacaacctgctgctccatgtagaacctaag cggaaggaacatagtgagaagaagcaacgggtcaggttccagcttgagatctctagcaat ccagaggagcaacgcagcagcatactgcatttgcaggaggctgtgcggcagcatgtggcc caaatacgacagctggagaagcagatgtattctatcatgaagtctttgcaggatgacagc aagaatgagaatctgcttgacctgaaccagaagcttcagttgcagctaaaccaggagaag gccaacctgcagctggaaagtgaagaactgaatatcctcatcaggtgttttaaggatttc caactgcagcgggctaacaagatggagctgcgaaagcagcaagaagatgtgagtgtggtc cgtcgcactgagttttactttgctcaggcacggtggcgcctgacagaggaagatggacag ctgggaattgctgaattagaactgcagaggttcctctacagcaaggtagtactgcggccc cagagctcctgccagtctgggcgacagctagctctccgcctcttcagcaaagttcggccc cctgttgggggtatctctgttaaggagcattttgaggtaaatgtggtgcctctcaccatc cagctgacacaccagttcttccacagaatgatgggctttttctttcctggccgaagtgtg gaagatgatgaagttggtgatgaagaggataagtccaaactggtgactactggaatacca gtggtgaagcctcggcagctgattgcaacagatgatgcagtaccactgggccctgggaag ggtgtggcacagggtttgactcggagttctggggtcagaaggtcatttcgcaaatcgcca gagcaccctgtggatgacattgacaagatgaaagagcgagctgccatgaacaactccttc atctacataaagattccacaggttccactgtgtgtcagctacaagagtcagcatcattac gaggctgagggtgagaagaacagtgtggactggggtgaccttaacctggtgctgccctgt ctggagtaccacaacaacacatggacatggctagactttgccatggctgtcaaaagggac agccgcaaagccctggttgcccaggtaatcaaagagaagctaaggctgaagtctgcaaca ggctctgaggtccggggaaagctagaaactaaatcggacctgaacatgcaacagcaggaa gaggaggagaaagcccggctcctcattggtttaagtggtggcaacatccggggtccctgg gcccgaggctggaagagcctctggacaggtttgggaaccatcaggtcagatctggaagaa ctctgggaactacgggggcaccactatctgcaccaggaatccctaaagccagccccagta ctggtagagaagcctctgccagagtggccagtgcctcagttcatcaacctctttctacca gagtttcccattaggcccattagggggcagcagcagctgaagattttaggcctcgtggct aaaggctcctttggaactgtcctcaaggtgctagattgcacccagaaagctgtatttgca gtgaaggtggtgcccaaggtaaaggtcctacagagggataccgtgaggcagtgcaaagag gaggttagcatccaggtatgcacagagtcctggaaaggattgtgggaagagctaggccac agcgacagatcaaccatccctttgtacacagcttgggggacagctggcagggaaaacggc accttttcattatttccagtggctgcagagagagatcatgtggccatgttggcaagtgtg acccacagtgactctgagatcccagcttctcttaaccagggcctctcactcctgctccat gagctcttatgccagaaccccctccatcgtctacgttatctgcatcacttccaggtccac cctttctttcggggtgtggccttcgacccagagctcctacagaagcagccagtgaacttt gtcacggagacacaagctacccagcccagttcagcggagaccatgccctttgacgacttt gactgtgatctggagtccttcttgctctaccctatccctgcttga