GENSCAN 1.0 Date run: 5-Nov-116 Time: 11:59:28 Sequence gi568815589r:136264305_136472078 : 207774 bp : 58.83% C+G : Isochore 4 (57 - 100 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.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ 1.35 Intr - 864 740 125 1 2 56 68 78 0.390 4.08 1.34 Intr - 1520 1391 130 2 1 47 -1 118 0.519 0.24 1.33 Intr - 1739 1652 88 1 1 85 75 135 0.824 13.03 1.32 Intr - 3207 3080 128 0 2 14 84 247 0.489 17.55 1.31 Intr - 3821 3745 77 0 2 103 98 9 0.027 3.79 1.30 Intr - 10445 10354 92 1 2 65 66 71 0.819 3.40 1.29 Intr - 10703 10579 125 2 2 79 94 103 0.945 10.56 1.28 Intr - 11997 11890 108 0 0 78 54 141 0.570 11.35 1.27 Intr - 12423 12347 77 1 2 115 47 2 0.521 -0.81 1.26 Intr - 13722 13246 477 1 0 29 49 180 0.079 2.57 1.25 Intr - 15713 15603 111 0 0 56 27 101 0.179 2.32 1.24 Intr - 17359 17247 113 0 2 101 91 89 0.982 11.69 1.23 Intr - 18323 18236 88 0 1 68 53 49 0.717 -0.41 1.22 Intr - 20700 20635 66 1 0 107 55 28 0.667 1.42 1.21 Intr - 21060 20752 309 1 0 44 88 166 0.793 9.75 1.20 Intr - 22391 21781 611 1 2 114 80 532 0.138 48.48 1.19 Intr - 25749 25655 95 0 2 84 94 19 0.774 2.02 1.18 Intr - 27341 26182 1160 0 2 138 40 670 0.855 57.51 1.17 Intr - 27991 27857 135 2 0 77 50 70 0.579 3.82 1.16 Intr - 28737 28454 284 2 2 63 3 155 0.194 2.82 1.15 Intr - 30853 30718 136 2 1 50 38 72 0.070 -0.79 1.14 Intr - 31781 31718 64 2 1 82 76 40 0.090 1.64 1.13 Intr - 32087 32008 80 0 2 18 49 99 0.570 -0.58 1.12 Intr - 33517 33410 108 2 0 54 116 26 0.808 3.42 1.11 Intr - 36014 35916 99 0 0 116 93 54 0.564 9.94 1.10 Intr - 38989 38508 482 0 2 109 82 173 0.877 12.84 1.09 Intr - 39536 39384 153 1 0 116 69 97 0.847 10.98 1.08 Intr - 42631 42508 124 2 1 71 85 45 0.909 3.32 1.07 Intr - 44879 44742 138 0 0 27 85 147 0.435 9.92 1.06 Intr - 47593 47561 33 2 0 126 89 -14 0.339 1.82 1.05 Intr - 49243 49120 124 1 1 88 44 38 0.515 0.73 1.04 Intr - 49467 49384 84 0 0 45 99 40 0.715 1.97 1.03 Intr - 51089 50970 120 2 0 64 60 95 0.856 6.16 1.02 Intr - 53050 52966 85 0 1 78 72 33 0.883 1.68 1.01 Init - 54063 53954 110 0 2 113 54 97 0.914 6.65 1.00 Prom - 55980 55941 40 -0.86 2.00 Prom + 58261 58300 40 -4.85 2.01 Init + 67655 67866 212 1 2 95 64 306 0.677 25.32 2.02 Intr + 70143 70364 222 0 0 57 101 403 0.870 36.97 2.03 Intr + 71662 71797 136 1 1 123 81 245 0.999 29.05 2.04 Intr + 72617 72768 152 1 2 104 72 242 0.993 24.35 2.05 Intr + 73137 73260 124 0 1 21 83 154 0.961 9.96 2.06 Intr + 73542 73657 116 2 2 116 58 238 0.978 24.02 2.07 Intr + 74251 74406 156 1 0 88 96 335 0.999 34.62 2.08 Intr + 75403 75511 109 1 1 79 83 140 0.986 14.05 2.09 Intr + 76566 76689 124 2 1 81 96 219 0.989 23.33 2.10 Intr + 79117 79189 73 2 1 114 36 37 0.082 0.71 2.11 Intr + 79375 79496 122 1 2 87 64 30 0.074 1.81 2.12 Intr + 80860 80968 109 2 1 -21 4 194 0.094 0.61 2.13 Intr + 81717 81876 160 0 1 79 61 42 0.386 1.78 2.14 Intr + 82612 82750 139 0 1 117 86 13 0.949 5.22 2.15 Intr + 84393 84463 71 1 2 96 88 46 0.388 5.45 2.16 Intr + 85283 85459 177 1 0 92 78 105 0.897 11.22 2.17 Intr + 90566 90718 153 1 0 25 96 45 0.434 0.46 2.18 Intr + 91386 91542 157 2 1 77 109 239 0.822 25.67 2.19 Intr + 92038 92246 209 2 2 87 80 473 0.931 46.41 2.20 Intr + 93710 93905 196 1 1 55 58 286 0.891 22.50 2.21 Term + 95908 96116 209 2 2 104 49 105 0.389 6.68 2.22 PlyA + 96998 97003 6 1.05 3.04 PlyA - 97619 97614 6 1.05 3.03 Term - 97876 97708 169 0 1 103 41 159 0.668 11.01 3.02 Intr - 98824 98685 140 1 2 49 78 239 0.989 19.44 3.01 Init - 99410 99183 228 2 0 63 102 234 0.996 18.85 3.00 Prom - 99571 99532 40 -13.08 4.50 PlyA - 99675 99670 6 1.05 4.49 Term - 100097 99998 100 1 1 74 42 159 0.998 8.42 4.48 Intr - 100255 100179 77 1 2 81 96 150 0.999 14.56 4.47 Intr - 100727 100470 258 2 0 39 57 119 0.735 2.80 4.46 Intr - 100913 100837 77 0 2 54 75 73 0.890 2.99 4.45 Intr - 102526 102496 31 1 1 97 100 41 0.923 5.03 4.44 Intr - 102953 102912 42 2 0 84 105 0 0.645 0.87 4.43 Intr - 103524 103333 192 0 0 79 56 385 0.999 35.30 4.42 Intr - 105571 105446 126 1 0 83 80 298 0.997 30.55 4.41 Intr - 106133 105990 144 2 0 114 57 311 0.998 32.26 4.40 Intr - 106397 106218 180 2 0 31 75 353 0.974 29.57 4.39 Intr - 106841 106537 305 0 2 59 69 739 0.848 66.68 4.38 Intr - 107157 107020 138 1 0 107 109 354 0.922 41.02 4.37 Intr - 107790 107591 200 2 2 57 52 547 0.342 48.21 4.36 Intr - 111496 111413 84 0 0 98 70 65 0.054 5.79 4.35 Intr - 112177 112056 122 1 2 86 33 82 0.601 2.97 4.34 Intr - 114995 113239 1757 0 2 115 91 776 0.874 69.93 4.33 Intr - 115560 115533 28 0 1 140 93 17 0.914 6.22 4.32 Intr - 116209 116036 174 1 0 120 -5 74 0.384 2.64 4.31 Intr - 116546 116436 111 2 0 83 69 94 0.768 8.74 4.30 Intr - 117190 117018 173 2 2 66 115 76 0.492 8.96 4.29 Intr - 117726 117520 207 1 0 92 86 112 0.635 11.67 4.28 Intr - 118048 117949 100 1 1 74 94 55 0.719 5.55 4.27 Intr - 119068 118882 187 0 1 62 80 75 0.764 5.00 4.26 Intr - 119364 119153 212 0 2 78 26 246 0.844 16.33 4.25 Intr - 119728 119649 80 2 2 58 72 35 0.842 -0.68 4.24 Intr - 120603 120416 188 2 2 69 123 32 0.321 5.34 4.23 Intr - 123275 123181 95 2 2 100 109 103 0.775 13.52 4.22 Intr - 123544 123438 107 2 2 106 87 142 0.530 17.00 4.21 Intr - 124287 124140 148 0 1 3 53 323 0.569 21.29 4.20 Intr - 127802 127638 165 2 0 38 74 292 0.999 24.15 4.19 Intr - 128290 128218 73 0 1 49 111 66 0.993 5.56 4.18 Intr - 128473 128369 105 0 0 123 61 120 0.998 13.29 4.17 Intr - 130026 129945 82 1 1 100 100 64 0.963 8.65 4.16 Intr - 130574 130496 79 2 1 54 64 154 0.999 9.88 4.15 Intr - 131173 130994 180 1 0 128 89 140 0.919 19.37 4.14 Intr - 131466 131299 168 0 0 76 75 302 0.682 29.04 4.13 Intr - 132805 132673 133 0 1 64 18 116 0.408 4.03 4.12 Intr - 133211 133091 121 0 1 101 65 -38 0.641 -4.07 4.11 Intr - 134137 133995 143 0 2 -12 115 188 0.038 12.68 4.10 Intr - 135925 135830 96 0 0 36 110 61 0.398 3.39 4.09 Intr - 137991 137815 177 2 0 64 66 92 0.349 4.84 4.08 Intr - 139890 139751 140 0 2 66 89 233 0.897 21.64 4.07 Intr - 140898 140754 145 2 1 35 31 266 0.774 17.07 4.06 Intr - 141674 141601 74 2 2 112 48 56 0.978 3.35 4.05 Intr - 143257 142841 417 1 0 121 92 303 0.990 29.54 4.04 Intr - 143634 143522 113 1 2 73 94 29 0.957 3.27 4.03 Intr - 144763 144695 69 2 0 79 65 32 0.507 0.30 4.02 Intr - 145935 145786 150 1 0 69 94 93 0.871 9.32 4.01 Init - 146093 146024 70 2 1 84 101 155 0.933 15.71 4.00 Prom - 146288 146249 40 -13.08 5.00 Prom + 146304 146343 40 -13.08 5.01 Init + 146365 146435 71 0 2 100 83 163 0.999 15.62 5.02 Intr + 147693 147895 203 0 2 108 100 125 0.985 15.84 5.03 Intr + 148186 148265 80 2 2 81 69 5 0.788 -1.68 5.04 Intr + 148506 148588 83 2 2 31 81 103 0.811 3.49 5.05 Intr + 150249 150343 95 0 2 86 64 98 0.737 7.97 5.06 Intr + 151987 152151 165 2 0 106 28 181 0.663 15.03 5.07 Intr + 152696 152910 215 0 2 85 67 328 0.848 30.05 5.08 Intr + 153713 153805 93 1 0 88 105 93 0.977 12.32 5.09 Intr + 154251 154369 119 2 2 116 94 129 0.999 16.74 5.10 Intr + 154524 154614 91 0 1 110 94 110 0.999 14.96 5.11 Intr + 154740 154802 63 2 0 116 127 47 0.997 11.46 5.12 Intr + 157528 157766 239 0 2 79 68 300 0.432 24.75 5.13 Term + 158735 158960 226 2 1 58 42 331 0.875 22.74 5.14 PlyA + 159434 159439 6 1.05 6.16 PlyA - 161839 161834 6 1.05 6.15 Term - 165503 165477 27 2 0 120 44 22 0.619 -0.04 6.14 Intr - 166109 165993 117 2 0 70 59 93 0.735 6.43 6.13 Intr - 166406 166178 229 1 1 91 83 39 0.869 2.80 6.12 Intr - 166669 166506 164 1 2 30 80 72 0.873 0.57 6.11 Intr - 166813 166698 116 2 2 54 89 200 0.998 18.04 6.10 Intr - 167681 167520 162 0 0 72 100 384 0.978 39.14 6.09 Intr - 168282 168175 108 1 0 80 94 194 0.768 20.62 6.08 Intr - 168771 168652 120 1 0 55 95 153 0.926 14.34 6.07 Intr - 168975 168851 125 2 2 122 80 218 0.992 25.80 6.06 Intr - 169830 169733 98 0 2 82 91 145 0.997 14.17 6.05 Intr - 170559 170436 124 2 1 95 113 207 0.999 25.66 6.04 Intr - 174957 174304 654 2 0 55 91 640 0.259 53.43 6.03 Intr - 175350 175174 177 2 0 70 -31 239 0.256 10.44 6.02 Intr - 177670 177544 127 2 1 68 30 101 0.216 3.21 6.01 Init - 178562 178511 52 2 1 63 35 89 0.214 0.52 6.00 Prom - 179316 179277 40 -6.25 7.29 PlyA - 179407 179402 6 -0.45 7.28 Term - 179596 179429 168 1 0 98 36 139 0.818 8.54 7.27 Intr - 181365 181341 25 2 1 105 94 -19 0.355 -0.45 7.26 Intr - 182645 182522 124 0 1 109 75 42 0.361 5.82 7.25 Intr - 183060 182923 138 1 0 115 96 53 0.971 10.42 7.24 Intr - 183376 183265 112 1 1 85 110 35 0.951 6.52 7.23 Intr - 183605 183549 57 2 0 71 84 39 0.745 2.02 7.22 Intr - 183857 183780 78 2 0 57 109 44 0.903 4.30 7.21 Intr - 189206 189124 83 0 2 87 40 30 0.313 -1.39 7.20 Intr - 190023 189805 219 1 0 83 75 68 0.344 4.50 7.19 Intr - 191489 191297 193 2 1 71 99 157 0.809 15.38 7.18 Intr - 191862 191749 114 0 0 85 87 168 0.986 18.21 7.17 Intr - 193280 193140 141 2 0 72 53 242 0.796 20.83 7.16 Intr - 194935 194830 106 0 1 55 115 69 0.987 7.68 7.15 Intr - 195251 195140 112 0 1 112 103 99 0.910 14.41 7.14 Intr - 195570 195276 295 0 1 67 25 191 0.725 8.54 7.13 Intr - 195819 195738 82 2 1 79 113 81 0.861 10.49 7.12 Intr - 196970 196873 98 2 2 67 92 7 0.629 -1.03 7.11 Intr - 198828 198583 246 0 0 72 91 270 0.678 24.59 7.10 Intr - 199297 199159 139 0 1 112 63 29 0.998 4.45 7.09 Intr - 199436 199375 62 2 2 111 55 77 0.997 5.38 7.08 Intr - 200258 200116 143 0 2 30 80 60 0.357 0.66 7.07 Intr - 201832 201658 175 1 1 45 93 273 0.997 24.21 7.06 Intr - 202158 201960 199 2 1 108 101 264 0.999 30.27 7.05 Intr - 202779 202653 127 1 1 99 77 104 0.977 11.31 7.04 Intr - 204208 204111 98 0 2 89 87 91 0.676 9.92 7.03 Intr - 205505 205468 38 2 2 49 53 58 0.206 -3.41 7.02 Intr - 206396 206311 86 0 2 86 46 36 0.194 -0.10 7.01 Init - 207767 207671 97 2 1 64 80 116 0.334 7.18 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init - 3840 3745 96 0 0 111 98 66 0.817 8.39 S.002 Sngl - 88159 87710 450 1 0 64 54 349 0.959 25.27 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815589r:136264305_136472078|GENSCAN_predicted_peptide_1|2113_aa MATLWVNYWPAGVADARRAGRCRVHGFSVSRQMLSGGTPAPSDQSLALGPPVTFVTSLLR LPTQRPLAFRGVPIDLIGGAGVLLTSASHAALMSCKWSILEHKSLALVGNTVNPHEANTP DRPQGLLPLVREQVSGSVHSPGPGEHPPASLTLMDKVRLSPKAHPGRHKPEPIRAPQGLA GWSAPAPPAKTAAVVRHMPQAGEPTGFHGGSRLRLPWEVPPAGYTCTELGREGKTRVQRV ERLARHHRPQRQPHVWASHGSWPLGPTVAGKGSPAAMPTLVVGTPPTCLGDTPQPCHKNS QRQGPFSHGAPGRAADWKAVAKPRLCAPAAEDDVAALRWPGPSQQPDPPWAAPHVVGSDD LKEPGPWGKACSLPMWSTGPEARDGDSSVSSGRLSCSSGGHDVCVSWKERPPQVLGPQQR PRKSDARLEQLRDKIRAQAWQQGSCASLGTSAPSSASRLHKASTLMLRRKGQEAKNPPPA PECSGFSILSAAERRVEAKASHGQGRELSRVSQHQVPVLREKPKRVKSSSCKREKTPKLP SPRRAAKDKHKDEACRGHPPGVDSGATEPQRFGDTSKSPQAEQQLPAESKRLCAHTQRGH AAVTSWVTLASTPAFDTTLSQWNPDPLPGLTPAMIVTALSFLWPYGRALAAGPTGLVGLV LASVAVSWAVKCHLDERHSLHDAICVRRLVCTRDVGPFAAAMPGTPCPASRGAFTAAHPC DCWLCWLKSRLISCGSAHVASDSELVGVYAWRKGQALVRSLLGPPPVLRRHHSKDPSRDP ALTVDLGDSEKVIAAKCSPVCAQLPDATSAYSDQQVSGNTPSLASFDQPATIQTAMAILQ DLRQQIQAGLELAQARKGGQELGPSKRRLQDVAGRGCCRDPNAQSSFSKSPWAMTERKHS SLERARSVHTWEPWSSSTARESCPQRAWGAQGQDRSFQRPESPHERLGHFSQRPWSALAG QACSPQRAWGAQRQGPSSQRPGSPPEKRSPFPQQPWSAVATQPCPRRAWTACETWEDPGP RLRNPLERPSPPAQRPWSSSGVQRAGPQGKGRGIGSPVSAAKHALPRPTGSFPQNPLGKE KDTLRPCPRSRGLLGPSHSSESLREFMRQKAQARRRQALEEKASALRTRELRSRRLQEVY RQQREAVLGRAVPVVSRTTPGIVTFVPSSAQSGGLEASGSLESPVLEWSKVTSGMVLGGQ EAPGSFCLCLNRAWNHAETLDPPGMGGPQDGRDAPVLLSASPSLGSLELQDLTTRYLPRG MCIYLDPKEAEHLGTSSSLHLRHKQAQLQALETTAKVLKQRVDSLTAKLQGAEALDTVRD PAVGLLRSCPHSLPAAPTLATPTLATPACPGALGPNWGRGAPGEWVSMQPQPLLPPTYFL DGETLSWGPSWEQQQSVSPRAHCESKPREAAARDPEQVVLARTLAGAGKPRVRHSPHECP LNWLRASGTPLVQLPLACCSRLSAGTVTRVVLAIRARRPHLSSQGCLSMEPHTPGSHPQH GLQPPLGPCHTGPSQPNSLPLGEHLPYPSACSPSVGSIFSHSSGFWVTVYQEAQMGALIR NANSYAGPATLHPIWGSLGLEETPSVGGADSVAPCTPRSCVLESGKSKNKMPVSGKGLLA ASTQRGRQEGEKERGRRGGQAPLLLTLSRCFGVSSAAVETPRNRLSCGSWLSCSVPGRRA VHWRSCRFWDSRSGDPGLGSIHTPANSDQGAHPQAITRAPPSADPIACSTSWWQPLWGQE LQQHSESELGLGATKEKGKPPPLLLGTSLSKEEAEVFIPKLWTNPRNSKESPGLVPGQQE DPCVRCLPNTQQKTSSFLDSLKLDQQKQALALLRQRAELEARETQQTLDGLLFRRRLEQL MERHSTQARPEEALKLEQPPMCKDREPTTASQSTGMATPRSHPPLDTDAATSSQGPEDRP ENVVAKPASAEVEGPDGALSQLPLAKFFPPDNPTHQMLERSLREEELRAQHQAALLRLRE MALQEKTLAELAWLEHRRGCLDSKRDRAVLAALVEKQQQALSRLEKEQGHTGPRSIEGVS TAQEGITARVERGPVHKECLRPSGGLVARVEGHRLKGSSQVAAAVPASSLQCPHAVGQRL ALTPLVQIKEPGW >gi568815589r:136264305_136472078|GENSCAN_predicted_CDS_1|6339_bp atggccactttgtgggtgaactactggccagcgggggtggctgatgcccggcgggccgga cggtgccgtgtgcatggcttctcagtgtctcggcagatgctctctggagggacaccagcc ccatctgatcagagtctggccttgggacctcctgtcaccttcgtcacttccttactccga ctgcccacgcagaggcccctggccttcaggggagtccccattgacctcattggaggtgct ggtgtccttctgaccagcgccagccatgcggccttgatgagttgtaagtggtctatcctg gagcacaagtctttggctcttgttggtaacactgtgaaccctcatgaagccaacacccca gacaggcctcaggggctgctccctctcgtcagagaacaggtctcaggctctgtgcacagc cctgggccaggtgaacatccccctgcttctctgacattgatggacaaagtcaggctgtct ccaaaagcccacccaggacggcacaaacctgagcccatccgcgcccctcagggcctagca gggtggagcgccccagccccgccagccaagaccgcagcagtagtgcggcatatgccacag gctggagagccaacaggcttccacggcggcagccggctgcgcttgccgtgggaggtgcca cctgcaggctacacctgtacggagctgggcagagaggggaagacccgtgtccagcgggtt gaacgactggcccgccatcaccggcctcagagacagccgcatgtctgggccagtcacggc tcttggcctctgggccccaccgttgctgggaaggggagccccgcggccatgccgaccctg gtcgtgggcacgccgcccacctgcctgggggacacacctcagccctgccacaagaacagc cagaggcagggccccttctcccatggggccccagggagagcagccgactggaaggctgtt gccaagcccaggctctgcgcacctgcagctgaggatgacgtggcagccctgaggtggccc gggccctcccagcagccagacccaccctgggcagctccccacgtggtcgggtctgacgac ctcaaggaaccaggaccctgggggaaggcgtgcagcctgcccatgtggtccacaggcccg gaggctagggatggggacagctcggtgtcatcgggccgcctctcgtgctcttcggggggc cacgacgtgtgtgtgtcttggaaggagaggccaccccaggtgttggggccccagcagagg cccagaaagagtgacgcgcggctggagcagctgagagacaagatccgggcccaggcgtgg cagcaggggagctgtgcgtccctgggcacctcagccccctccagcgcctccagactccac aaagcctccacgctgatgcttaggaggaaaggccaagaggcaaaaaatccccctccagcc cctgaatgctcaggtttcagcatcttgagtgcagctgagcgcagagttgaagccaaggca tcccacggccaggggcgcgagctctccagggtctcccagcaccaggttcctgttctgagg gaaaaacccaaaagggtcaaaagcagttcttgcaaaagagagaagacccccaagttgccc tcccctagaagagcggccaaagacaaacacaaagacgaagcttgtcgaggccaccctcca ggcgtggattctggggccaccgaaccacagcgttttggagacaccagcaagagcccccag gcagagcagcagcttccagccgagagtaaacgcctctgtgcccatacccagagaggacac gcggctgtgaccagttgggtcacgctggcctcaactccggcctttgacaccaccctgagc cagtggaatcctgaccctcttccaggcctaactcctgcaatgatcgtgactgccctttca ttcttgtggccctatgggagggccctcgcagctgggcccacggggctggtggggctggtg ttggcatcggtggccgtgagctgggctgtgaagtgccacctggatgagcgccactcactg catgatgccatttgcgtgcgaaggctcgtttgtactcgggacgtggggccgtttgctgca gcgatgcccgggactccctgccctgccagccggggagccttcaccgctgcccacccgtgt gactgctggctctgctggcttaaaagcaggttaatctcctgtggctcggcacacgtggcc agcgattcggagctggttggtgtttacgcctggagaaagggacaagctctggtgaggtcg ctgcttgggccccctcccgtcctccgcaggcaccatagcaaggatccctcgagagacccg gctctcaccgtggacttaggagacagcgagaaagtcatagctgccaagtgctcaccggtt tgtgcccagttgcccgatgccacctccgcctacagtgaccagcaggtgtctgggaacaca cccagcctggcttccttcgaccagccagcgaccatacagacggccatggccatcctacaa gacctgcgccagcaaatccaggctgggctggagctggcccaggcccgcaagggagggcaa gagctcgggccatcaaagcggaggctgcaggacgtggcagggaggggctgctgcagggac cccaatgcccagagctccttctctaagagtccctgggccatgacagagaggaagcattcc tctttagagagggctaggagtgtccacacctgggagccctggagctcctccactgcacgg gagtcctgtccgcagagggcctggggggcccaaggacaggaccgctccttccagaggccg gagagtccccatgagaggttgggccacttctcccagaggccctggagtgcactggctggg caggcctgcagtccgcagagggcctggggggcccaaagacagggcccctcctcccagagg cctgggagcccccctgaaaagcggagccccttcccccagcagccctggagtgctgtagcc acacagccctgtccacggagggcctggactgcctgtgaaacctgggaggaccctggcccc agactgcggaaccctctggaaaggcccagtcctccagcccagcggccctggagcagctcc ggcgtgcagagggccggcccccagggcaagggcagaggcatcggctcccccgtctcggct gccaagcatgccctgccaaggcccaccgggagcttccctcagaacccacttgggaaggag aaggacacgctgcggccctgccccaggtcccgggggctcctgggaccctcgcacagctct gagtccttgcgggagttcatgcgccagaaggcgcaggcccggcggcggcaggccctggag gagaaggcctcggccctgcgcacacgggagctgaggagccggaggctgcaggaggtctac cggcagcagagggaggccgtcctcggcagggcggtccccgtggtctcccggaccacccct ggcatcgtgacctttgtccccagttctgcacagtccgggggcctggaagcctccgggagc ctggagtccccagtgctggaatggagcaaagtgacctctggcatggtgctggggggccag gaagccccaggcagcttctgcctgtgtttgaacagagcctggaaccatgctgagacccta gatcccccagggatggggggcccccaagatggccgggatgcccccgtgctgctgtcagct tcaccctctctgggatccctggagctccaggacctgaccacccgctacctaccccggggg atgtgcatctacctggacccaaaggaggctgagcacctgggcacttccagctccctgcac ctccggcataagcaggcgcagctgcaggcgctagagaccacagccaaagtcctcaagcag cgggtcgatagcctcaccgccaagctgcagggtgccgaagcgctggacaccgtcagggac ccagctgtgggcctgctgcgctcgtgcccccacagcctacctgccgcccccacgctcgcc acccccacgcttgccaccccagcctgccctggagccttggggcccaactggggcagaggg gcacctggggagtgggtgagcatgcagccccagccccttctgcccccgacctacttcctg gacggcgagacactgtcgtggggccccagctgggagcaacagcagagtgtgagcccgagg gcccactgcgagagcaagccccgagaggctgcggccagggacccggagcaggtggtgctg gctcggacgctggccggggcagggaagccccgcgtcagacactccccccacgaatgcccc ctgaactggctgcgggcctcggggacgccactggtgcagctccctcttgcctgctgctcc agactgagtgcagggacagtgactcgggtggtccttgccatccgggcccggcgaccccac ctgagctctcagggctgcctgtccatggagcctcacacacctggctcccatccccagcac gggctgcagcctcctctggggccatgtcacacaggcccctctcagcccaactccctcccc ctgggggagcatctgccctaccccagcgcctgcagccccagtgtgggcagcatcttcagc cactccagtgggttctgggtcactgtgtaccaggaagcacagatgggggccctgataaga aatgcgaactcatatgcgggcccagccacgctgcaccctatctggggctccctgggactg gaggagacgccgtcggtcggaggggcagattctgtggcgccctgcaccccccggagctgc gttctggagtctgggaagtccaagaacaagatgccggtgtctggcaagggccttcttgct gcatcaacacagagaggaaggcaggagggcgagaaggagagaggacgacggggtggccag gcgcccctgctgctcaccctgtctcggtgctttggggtgtcctctgctgctgtggaaacg cccaggaaccggcttagctgtggttcatggctgagctgctccgttccgggaaggcgagca gtccactggaggagctgccggttctgggacagtcggagtggggatcctggtcttggctcc atccatacaccagccaacagtgaccaaggcgctcatccacaagccatcacgagggcccca ccatctgcagaccccattgcatgcagcacctcctggtggcagcctctgtggggccaggag ctccaacagcattcagagtcagagctgggacttggggccaccaaggagaaagggaagccc cctccgctgctgctggggacttcactatccaaggaagaggctgaggttttcatacccaag ctctggaccaatcccagaaattccaaggagagccctggacttgtgccaggtcagcaggag gacccatgtgtgagatgccttcccaacacccaacagaagacctccagctttctggattct ctgaagctggaccagcagaagcaggcgttggccctcctgcggcagcgggcagagctggag gcccgggagacacagcagaccctggatgggctgctcttcaggaggcggctggagcagctg atggagagacactcgacccaggccaggccagaggaggcgttgaagctggagcagcctccg atgtgcaaggaccgagagccgaccacagcctctcagagcacagggatggccacacccagg tcacacccgcctctggacacagatgctgccacgtcctcccagggtcccgaggacaggcca gagaatgtggtggccaagccagcctctgcagaggtggagggccctgacggagccctctcc cagcttcccctggccaagttcttccctccggacaaccccacccaccagatgctggagcgg agcctgcgggaggaggagctgcgagcacagcaccaggccgcgctgctgcgcctgcgagag atggcgctccaggagaaaacgctcgcggagctggcctggctggagcatcgacgagggtgc ctggacagcaagagggacagagctgtgctggccgcgctggttgagaagcagcagcaagcc ctcagcagattggagaaggagcagggccatacaggaccccgaagtatagaaggagtgtcc acggcccaagagggcatcacggccagggtggagcgtggtcctgtacacaaggagtgtctg cggccttctgggggcctcgtggccagagtggagggtcacaggctcaagggctcctcacag gtcgcggccgctgtgcctgcatcctcacttcagtgcccccatgctgtggggcagaggctg gcgctaacacccttggtacagataaaagaacctggctgg >gi568815589r:136264305_136472078|GENSCAN_predicted_peptide_2|1041_aa MVGRGLAWGRRAWGLAMPSPAGEGPPLALSLAEKAVCKVVYGAPRPRPLLLPVGLELWLY VQKMRNLQRKRMEASCLELALEGERLCKAGDFKTGVAFFEAAVQVGTEDLKTLSAIYSQL GNAYFYLKEHGRALEYHKHDLLLARTIGDRMGEAKASGNLGNTLKVLGRFDEAAVCCQRH LSIAQEQGDKVGEARALYNIGNVYHAKGKQLSWNAANATQDPGHLPPDVRETLCKASEFY ERNLSLVKELGDRAAQGRAYGNLGNTHYLLGNFTEATTFHKERLAIAKEFGDKAAERRAY SNLGNAHVFLGRFDVAAEYYKKTLQLSRQLRDQAVEAQACYSLGNTYTLLQDYERAAEYH LRHLLIAQELADRVGEGRACWSLGNAYVSMGRPAQALTFAKKHLQISQEIGDRHGELTAR MNVAQLQLVLGRLTSPAASEKPDLAGYEAQGCATALGPADRTSQPSTVWALLRAFVPIWG TGPSVVLGTELGRGERPASLRARKPVAFGPWVDEAGTGGTKMLDGLELAIAHKRLELGED RNDDDSVTVSVGVAMGALPRAFVLGVGGAVDGPRSQCPAQAPDGPHVCLWPHRFPSQAPG EQELRGPEPRANGGVRVHLRPRHPAWPFMLLTLTSAPTLVAVLPDAVGPGQGARPKRTQR LSAETWDLLRLPLEREQNGDSHHSGDWRGPSRDSLPLPVRSRKYQEGPDAERRPREGSHS PLDSADVRVHVPRTGQEAREASRDVWEVFQAKAGEAGPGQVTDRGLDWGSTHERGEVRGS RRVPRSIPRAPSSDEECFFDLLTKFQSSRMDDQRCPLDDGQAGAAEATAAPTLEDRIAQP SMTASPQTEEFFDLIASSQSRRLDDQRASVGSLPGLRITHSNAGHLRGHGEPQEPGDDFF NMLIKYQSSRIDDQRCPPPDVLPRGPTMPDEDFFSLIQRVQAKRMDEQRVDLAGGPEQGA GGPPEPQQQCQPEGALGTRINVYSRSRVPASLRVVVHAHRVQVTVQGPGPRTAREAQQCR PRYWLGQPLKVRPRNLLGETL >gi568815589r:136264305_136472078|GENSCAN_predicted_CDS_2|3126_bp atggtggggcgagggctggcttgggggaggagggcctggggcctggcgatgccatcccct gctggggagggcccgcctctggccctgagcttggcggagaaggccgtgtgcaaggtggtg tatggcgccccccgcccccgcccgctgctgctgcccgtgggcctggagctgtggctctac gtgcagaagatgcgaaacctgcagaggaagaggatggaggcgtcctgcctagagctggcg ctggagggcgagcgtctgtgcaaggcgggcgacttcaagacaggcgtggccttctttgag gctgctgtgcaggtgggcaccgaggacctgaagacactgagtgccatctacagccagctg ggcaacgcctacttctacctgaaggagcacggccgggcgctggaataccacaagcatgac ctcctgctggcgcggaccatcggtgaccgcatgggggaggccaaggccagtggaaacctg ggaaacacactcaaggtcctggggcgcttcgacgaggctgccgtctgctgccagcggcat ctgagcatcgcccaagagcagggagacaaggttggggaggcgagggccctctacaacatc gggaacgtgtaccacgccaaaggcaagcaactgtcctggaacgccgcaaacgccacgcag gaccccgggcacctgccgcccgatgtccgagagaccctgtgcaaggcctccgagttctac gagaggaacctgtccctggtgaaggagctgggcgaccgtgcggcgcagggcagggcctac ggcaacctgggcaacacccactatttgttggggaacttcacagaggccacgaccttccac aaggagcgcctggccattgctaaggagtttggagacaaggcagccgagaggagggcctac agcaacctggggaacgcccacgtcttcctggggcgctttgacgtggccgccgagtactac aagaagacgctgcaactgtctcggcagctcagggaccaggcagtggaggcgcaggcctgc tacagtctgggcaacacctacacgctgctgcaggactacgagcgcgcggccgagtaccac ctgcggcacctgctcattgcccaggagctggccgacagagtgggcgagggccgggcgtgc tggagcctgggaaatgcctacgtgtccatggggcgcccagcgcaggccctgaccttcgcc aagaagcacctgcagatctcccaggagatcggggaccgccatggggagctcacggcccgc atgaacgtggcgcagctgcagctggtgctcggccgcctgaccagcccggcagcctcagag aagcctgacctggccggctatgaggcccagggatgtgcgactgccctcggccctgctgac cgtacttctcagccctccaccgtctgggccctgctcagggcgtttgtccccatctgggga acgggcccatcagtagtgctgggaacagagcttggcaggggtgagaggccagcgagcctg agggcccgtaagcctgttgcgttcgggccctgggtggacgaggcaggcacagggggcacc aagatgctcgatgggcttgagttggccattgcacataaacgtctggagctgggtgaggac agaaatgatgatgacagtgtgacggtcagcgtcggggtggcgatgggagccctgccccgg gcgtttgtgttgggagtgggaggagcagtggacggccccaggtcccagtgtcctgctcag gcccctgatgggccccacgtgtgcctctggccgcacaggtttccatcccaggcccctgga gagcaggagcttaggggcccagaacccagggctaacggtggggtccgggtgcacctgagg ccccggcaccctgcctggccattcatgctgctaactttgacgagtgccccaaccctggtg gctgtgctccctgatgcagtggggcctggacagggggccagacccaagaggacgcagagg ctgagcgcggagacctgggacctgctgagactccccctggagcgggagcagaatggagac agccaccattcaggggactggcgggggcccagcagggactcgctacccctccccgtgagg agcaggaagtaccaggaaggcccggacgctgagaggaggccccgggagggcagccactcc ccgctggacagcgccgacgtccgggtgcacgtgccacgcacgggacaggaggcacgggag gcttcccgggatgtctgggaagtgttccaggccaaggctggggaggctggcccagggcag gtgacggacagaggcctggactggggtagcacccatgagaggggagaagtccggggcagt cggcgggtgccgaggagcatcccgagggccccgtcttcggacgaggagtgcttctttgac ctgttgaccaagttccagagcagccgcatggacgaccagcgttgtcccctggacgatggc caggccggggctgccgaggccacggccgcccccaccctggaggacaggatcgcccagccc tcgatgacggcctcgccccagaccgaggaattcttcgacctcatcgccagctcccagagc cgccggctggacgaccagcgggccagcgtgggcagcctgccggggctgcgaatcacccac agcaatgcagggcacctccgaggccacggcgagccccaggagccgggggacgacttcttc aacatgctcatcaagtaccagtcctccaggatcgatgaccagcgctgcccgccacctgac gtactgccccggggccctaccatgccggacgaggacttcttcagcctcattcagagggtg caggctaagcgcatggacgagcagcgggtggacctcgccgggggcccggagcagggggca ggcggcccgcccgagccccagcagcagtgccagcctgaaggggccttgggaaccagaatc aacgtgtactccaggtccagggtcccagccagcttgcgtgtggtggtacacgcacacagg gtccaagtaaccgtgcagggcccaggaccgcgcacagccagggaagcgcagcagtgccgc ccacgctactggctgggacagcctctgaaggtgcggccgaggaacctgcttggagagacg ctgtga >gi568815589r:136264305_136472078|GENSCAN_predicted_peptide_3|178_aa MLRTALRGAPRLLSRVQPRAPCLRRLWGRGARPEVAGRRRAWAWGWRRSSSEQGPGPAAA LGRVEAAHYQLVYTCKVCGTRSSKRISKLAYHQGVVIVTCPGCQNHHIIADNLGWFSDLN GKRNIEEILTARGEQVHRVAGEGALELVLEAAGAPTSTAAPEAGEDEGPPSPGKTEPS >gi568815589r:136264305_136472078|GENSCAN_predicted_CDS_3|537_bp atgctgcggactgcgctgcgcggcgcgccgaggttgctgagtcgcgtgcagccccgggcg ccctgcctgaggcggctgtggggccgcggggcccgtccagaggtcgcggggaggcggcgg gcctgggcctggggctggcggcgctcaagctccgagcaggggccggggcccgcggcggct ctggggcgcgtggaggcggcgcactaccagctcgtctacacctgcaaggtctgcgggact aggtcctccaagcgcatctccaagctggcctatcaccaaggcgtggtcattgtgacctgc cccggctgccagaaccaccatatcatcgctgacaacctgggctggttctcggacctgaat gggaagagaaatatcgaagagatcctgacggccagaggcgagcaggtgcaccgtgtggcg ggcgagggggccctggaactggttctggaggctgcaggggcccccacatccactgcagct ccggaagcgggtgaggatgagggtccccccagccctggcaagacggagccgagctga >gi568815589r:136264305_136472078|GENSCAN_predicted_peptide_4|2780_aa MSGYQRRPGATPLSRARSLAIPDAPAFYERRSCLPQLNCERPHGRDLDSPFFGIRPAFMC YVPSPVLASVGDTDFGYGKGKCSKQSPSGAHGTHFGDDRFEDLEEANPFSFREFLKTKNL GLSKEDPASRIYAKEASRHSLGLDHNSPPSQTGGYGLEYQQPFFEDPTGAGDLLDEEEDE DTGWSGAYLPSAIEQTHPERVPAGTSPCSTYLSFFSTPSELAGPESLPSWALSDTDSRVS PASPAGSPSADFAVHGESLGDRHLRTLQISYDALKDENSKLRRKLNEVQSFSEAQTEMVR TLERKLEAKMIKEESDYHDLESVVQQVEQNLELMTVWVSSLNRTSWAQVSNFQRENEALR CGQGASLTVVKQNADVALQNLRVVMNSAQASINGWSLQSWPECAGATAWLLLSSSGTHGD QGHTFRAVKLSRCASLAGGSGGRFKWHFVQCRRRDFRRAALLFCSRRKRRVCSRPGDGGV RAARQAGVMDVDAEREKITQEIKELERILDPGSSGSHVEISESSLESDSEAASEPTPTPP AAALTGDPPSLASHLSQTQGLPLRQPAIFLLWSAQEAVVSCAPTLPKTLVTNTVLLVFLT DSLPSEDLDPADPPISEEERWGEASNDEDDPKDKTLPEDPETCLQLNMVYQEVIQEKLAE ANLLLAQNREQQGESLLLVHRGVPALCLSQEELMRDLAGSKGTKVKDGKSLPPSTYMGHF MKPYFKDKVTGVGPPANEDTREKAAQGIKAFEELLVTKWKNWEKALLRKSVVSDRLQRLL QPKLLKLEYLHQKQSKVSSELERQALEKQGREAEKEIQDINQLPEEALLGNRLDSHDWEK ISNINFEGSRSAEEIRKFWQNSEHPSINKQEWSREEEERLQAIAAAHGHLEWQKIAEELG TSRSAFQCLQKFQQHNKALKRKEWTEEEDRMLTQLVQEMRVGSHIPYRRIVYYMEGRDSM QLIYRWTKSLDPGLKKGYWAPEEDAKLLQAVAKYGEQDWFKIREEVPGRSDAQCRDRVIS KKPLKKLGAAAGGVSASKTFFAFHVTFRYLRRLHFSLKKGRWNLKEEEQLIELIEKYGVG HWAKIASELPHRSGSQCLSKWKIMMGKKQGLRRRRRRARHSVRWSSTSSSGSSSGSSGGS SSSSSSSSEEDEPEQAQAGEGDRALLSPQYMVPDMDLPPKGSSASQGGSKEASTTAAAPG EETSPVQVPARAHGPVPRSAQASHSADTRPAGAEKQALEAAFSSGWEASADSACGDRAEG AQGQHGCSELHTGVSSGDSVARSHVQWLRHRATQSGQRRWRHALHRRLLNRRLLLAVTPW VGDVVVPCTQASQRPAVVQTQEPPRKARGSWGCFPPIPLCPWELGLLSTYPPVPAADGLR EQLQQARLASTPVFTLFTQLFHIDTAGCLEVVRERKALPPRLPQAGARDPPVHLLQPRWA VMDMGAVCRGCLVLAFLLQKPNSQKFSEASSPLSPVTWGWGDKAVSLIGGAGTAASSSAQ STPGHLFPNVPAQEASKSASHKGSRRLASSRVERTLPQASLLASTGPRPKPKTVSELLQE KRLQEARAREATRGPVVLPSQLLVSSSVILQPPLPHTPHGRPAPGPTVLNVPLSGPGAPA AAKPGTSGSWQEAGTSAKDKRLSTMQALPLAPVFSEAEGTAPAASQAPALGPGQISVSCP ESGLGQSQAPAASRKQGLPEAPPFLPAAPSPTPLPVQPLSLTHIGGPHVATSVPLPVTWV LTAQGLLPVPVPAVVSLPRPAGTPGPAGLLATLLPPLTETRAAQGPRAPALSSSWQPPAN MNREPEPSCRTDTPAPPTHALSQSPAEADGSVAFVPGEAQVAREIPEPRTSSHADPPEAE PPWSGRLPAFGGVIPATEPRGTPGSPSGTQEPRGPLGLEKLPLRQPGPEKGALDLEKPPL PQPGPEKGALDLGLLSQEGEAATQQWLGGQRGVRVPLLGSRLPYQPPALCSLRALSGLLL HKKALEHKATSLVVGGEAERPAGALQASLGLVRGQLQDNPAYLLLRARFLAAFTLPALLA TLAPQGVRTTLSVPSRVGSESEDEDLLSELELADRDGQPGCTTATCPIQGAPDSGKCSAS SCLDTSNDPDDLDVLRTRHARHTRKRRRLVTSTFSEARGPADERQPTPSLQERQPEASLP AEAMSDYENDDECWSVLEGFRVTLTSVIDPSRITPYLRQCKVLNPDDEEQVLSDPNLVIR KRKVGVLLDILQRTGHKGYVAFLESLELYYPQLYKKVTGKEPARVFSMIIDASGESGLTQ LLMTEVMKLQKKVQDLTALLSSKDDFIKELRVKDSLLRKHQERVQRLKEECEAGSRELKR CKEENYDLAMRLAHQSEEKGAALMRNRDLQLEIDQLKHSLMKAEDDCKVERKHTLKLRHA MEQRPSQELLWELQQEKALLQARVQELEASVQEGKLDRSSPYIQVLEEDWRQALRDHQEQ ANTIFSLRKDLRQGEARRLRCMEEKEMFELQCLALRKDSKMYKDRIEAILLQMEEVAIER DQAIATREELHAQHARGLQEKDALRKQVRELGEKADELQLQVFQCEAQLLAVEGRLRRQQ LETLVLSSDLEDGSPRRSQEDLEDTQLSDKGCLAGGGSPKQPFAALHQEQVLRNPHLRSD HKVSAHSARGAVSGLRSGSPFLGHCSSLGGFLDVDVPGPGFPRAFTVDEEVNTGVLRAST TSGFVVETMARTPGWSRGLASWDAGLSSGEPPEKERRRLKESFENYRRKRALRKMQKGWR QGEEDRENTTGSDNTDTEGS >gi568815589r:136264305_136472078|GENSCAN_predicted_CDS_4|8343_bp atgtcgggctaccagcgccgcccgggcgccaccccgctgtcccgagcccggagcctcgcc attcccgacgctccagcgttctatgagcgccggtcttgtctcccccagctaaattgtgag cgcccccatggcagggacctggactcccccttcttcggcattcggccggcctttatgtgc tatgtgcccagcccggtgctggcttccgtgggagacacagattttggctatggaaagggg aaatgttctaagcagagcccgtcaggagcccacgggacacattttggagatgacagattt gaagatctggaagaggcaaatccattctcttttagagagtttctgaagaccaagaacctc ggcctctcgaaagaggatccggccagcagaatttatgcaaaggaagcctcgaggcattcc ctgggacttgaccacaactccccaccctcccaaaccggcgggtatggcctggagtatcag cagccatttttcgaggatccgacaggggctggtgacctcctggatgaggaggaggatgag gacaccggatggagtggggcctacctgccgtccgccatcgagcagactcaccccgagagg gtccctgccggcacgtcgccctgcagcacatacctttcctttttctccaccccgtcggag ctggcagggcctgagtctctgccctcgtgggcgttgagtgacactgattctcgcgtgtct ccggcctctccggcagggagtcctagcgcagactttgcggttcatggagagtctctggga gacaggcacctgcggacgctgcagataagttacgacgcactgaaagatgaaaattctaag ctgagaagaaagctgaatgaggttcagagcttctctgaagctcaaacagaaatggtgagg acgcttgagcggaagttagaagcaaaaatgatcaaggaggaaagcgactaccacgacctg gagtcggtggttcagcaggtggagcagaacctggagctgatgaccgtatgggtttcttct ctgaatcggacgagctgggcgcaggtctccaacttccagcgagagaatgaagccctgcgg tgcggccagggtgccagcctgaccgtggtgaagcagaacgccgacgtggccctgcagaac ctccgggtggtcatgaacagtgcacaggcttccatcaatgggtggtccctgcagtcatgg cctgagtgcgcaggggccaccgcgtggctgctgctgtcctcctccgggacccacggggac caaggtcacacgttccgtgctgtgaagctgtccagatgtgcctctttggctgggggttct ggtggacgtttcaagtggcattttgtacaatgcaggaggcgggacttccggcgcgcggcg ctcttgttctgcagccgccggaagcgtcgagtctgcagtcgcccgggcgacggcggggtc cgcgcggccaggcaggcgggagtcatggatgtagatgctgaaagagagaagataacacag gagatcaaggagctggaaaggattttggatcccggctcctcgggctcccacgtggagatc tcagaatcaagtctcgagtcagattctgaagcagcttctgagcctaccccaaccccacca gctgctgccctgacaggagacccccccagccttgcttcccacctctcccagacccagggc ctgcctctgaggcaacctgctatctttctcctgtggtctgcccaagaagcagtggtgagc tgcgcccccaccctgcccaagacgctggttaccaacacggtgttgcttgtgtttctgaca gattcactgccttctgaggacttggatcctgccgatcccccgatctcggaagaagaaagg tggggcgaagccagcaatgacgaggacgatcccaaggataaaaccctccctgaagaccca gaaacctgcctgcagctgaacatggtctaccaggaggtcatccaggagaagctggctgag gccaacctgctgctggcccagaaccgggagcagcagggagagtcattgctgctggtccat agaggggtccctgccttgtgtctgtcacaggaggaactcatgagggatctggctgggtcc aaaggcaccaaggtgaaagatggcaaaagcctgcccccaagcacatacatggggcacttc atgaagccgtatttcaaggacaaggtcacgggcgtggggccacctgccaacgaggacaca cgagagaaggctgcccaggggatcaaggctttcgaggagctccttgtgaccaaatggaaa aactgggaaaaggccttgctccgaaagtcagtggtgagtgaccgcctgcagcgattgctt cagcccaagttactgaagctcgagtacttgcaccagaagcagagcaaagtctccagtgag ctggagaggcaagccctggagaagcagggcagggaagccgagaaggagatccaggacatc aaccagcttccagaagaggccttgctgggaaacaggctggacagccacgactgggagaag atttccaatattaactttgaaggcagccgcagtgcagaggagatccggaagttctggcag aactcggagcaccccagcatcaacaagcaggagtggagcagggaggaggaggagcggctg caggcgatcgcggctgcacacggccacctggagtggcagaagattgcagaggagctgggg accagccgcagcgccttccagtgcctgcagaaattccagcagcacaacaaagctctgaaa cgcaaggagtggacagaggaggaggaccgcatgctcacgcagctggtgcaggagatgcgc gtcggcagccacatcccctaccgcagaattgtctactatatggaagggagagactccatg cagctgatctaccgatggaccaagagcttggatcctggtctgaagaagggttactgggcc ccggaggaagatgctaagttgcttcaagctgttgccaaatacggggagcaggattggttt aaaatccgggaagaggtgccaggtaggagcgatgcccagtgccgagatcgtgtcatatcc aagaaaccattaaagaagcttggggcagcagcgggcggcgtctcggcatctaaaacgttc tttgcttttcatgtcacgttcaggtatctcaggagattacatttcagcttgaaaaagggt cggtggaatttaaaagaagaggaacagttaattgaattaatagaaaaatatggtgtcggt cactgggcaaaaatagcttctgagctgccccatcggtctggctcccagtgtctgagcaag tggaagatcatgatggggaagaagcagggtctccggaggcggcggcggagggcccgtcac agcgtccggtggagctctaccagcagcagcggcagcagcagtggcagcagtggagggagc agcagcagcagcagcagcagcagcgaggaggacgagccagagcaggcgcaggccggggag ggtgacagagcgctgctgtccccacagtacatggtcccggacatggacctccctcccaag gggtccagtgccagccagggcggcagcaaggaagcttccaccacagccgcggctcctgga gaggagacgagtccggtgcaggtccctgccagggcccacggccctgtcccgaggtctgcc caggcctcccactcagcagacactcgcccggcgggcgcagagaagcaggccctggaggca gctttctcatcagggtgggaggcgtctgctgacagtgcctgtggagaccgtgctgagggt gctcagggccaacacggctgctcggagctgcacacaggggtcagctctggtgacagcgtg gcccgatcccatgtgcagtggctacggcacagagccacccagagtgggcagcggcgctgg agacacgctctgcaccggaggctcctgaaccgcaggctgctgctggctgtgaccccttgg gtaggggacgttgtcgtgccctgcacacaggcttcccagagacccgccgtagtgcagact caagagccgcctcgaaaggcacgtgggagctggggctgctttccacccatccccctgtgc ccatgggagctggggctgctttccacttatccccctgtgcccgcagcggatggcctcagg gagcagctgcagcaggcccgcctggccagcacccctgtgtttaccctgtttacccagctg ttccacatcgatactgccggctgcttggaggtcgtccgagagaggaaggccctgccaccc aggctgccccaggctggtgctcgggacccaccagttcatcttctgcagccccgctgggcg gtcatggacatgggcgctgtctgccggggatgcctggttcttgcctttctgctccagaaa ccaaactcacagaagttcagcgaggcctcctcacccttgagccccgtcacctgggggtgg ggtgacaaagcagtgtcactcattggaggagcaggaacagcagcatcctcaagtgcccag agcaccccaggccacctcttcccaaacgtgccggctcaagaagcctcaaagagtgccagc cacaaagggagccgaagactggcgtccagccgggtggagcgcaccctaccccaggcgtcc ctgctggcttcaaccggcccccggcccaagcccaagactgtgtcggagctgcttcaggag aagcggcttcaggaggcccgtgccagggaggccacccggggcccggtggtgctcccgtcc cagctgctggtctcctcgtctgtgatcctccagccccctctaccacacaccccacacggc cgcccagccccgggtcccaccgtcttaaatgtaccgctctctgggcctggggcccccgcg gcagccaaacctggcacttctggctcctggcaggaggctgggacttcagccaaggacaag agactctccaccatgcaagccctgcccctcgctcctgtcttctcagaggccgagggcaca gcccctgctgcttcccaagcccctgccctgggccccggccagatctctgtgagctgcccc gagagtggtctcggacagtctcaggcccccgctgcatcccggaagcagggcctgcctgag gcgccaccctttctccccgcagcccccagccccaccccactgcccgtccagcccctcagc ctgacgcacataggagggccacatgtggcgaccagtgtccccctgcctgtcacctgggtg ctcacagcccaggggcttctccctgttcctgtaccagctgtggtgagccttcccaggcca gcagggacccctggccccgcagggctgctggccactctgctgcctcccctgactgagact cgggcggcccagggccccagggccccagcgttgagcagctcttggcagcccccagccaat atgaacagggaaccggagccttcctgcaggacagacaccccagctcctcccacacacgcc ctctcccaaagtcctgcagaagcggatggcagtgtggcctttgtccctggagaggcccag gtggccagggagatacctgagcccaggacgtcctcccacgctgaccctcctgaagcagaa cccccttggtccgggaggctgccagccttcggtggtgtcatcccagcaactgagccaagg gggacgccggggtccccctcagggacacaggagcccagggggcctctgggcctggagaag ctgcccctgcgccagcctgggcctgagaagggggccctggacctggagaagccgccccta ccccagcctgggcctgagaagggggccctggacctgggcctgctgtcccaggagggcgag gcggccacacagcagtggctggggggccagcggggggtgcgtgtgcctcttctgggcagc agactgccctatcagcccccagccctgtgcagcctgcgagctctgtccggtctcctactc cacaagaaggccctggagcacaaggccacctccctggtggtggggggcgaggctgagcgg ccggccggagcactgcaagcctcactggggctggtgcgggggcagctccaggacaacccg gcctacctcctgttgcgggcgcggttcctggcagccttcaccctccctgcgctcctggcc accctggccccccaaggcgtccgcaccaccctctcagtaccttcgagggtgggctctgag agtgaggatgaagacctcctgagtgagctggaacttgcagacagggacgggcagccgggc tgcacgacagccacatgccccattcagggagccccagactctggtaaatgctctgcttcc tcctgcctggatacttctaatgaccctgacgacctggacgtgctcagaacccggcatgcc aggcacacccggaagcggaggcggctggtgacaagcactttctcagaagcccgtggccct gctgacgagagacagcccacccccagcctgcaagagaggcagccagaggccagcctgcct gctgaggccatgtcggactacgagaacgatgacgagtgctggagcgtcctggagggcttc cgggtgacgctcacctcggtcatcgacccctcacgcatcacaccttacctgcggcagtgc aaggtcctgaaccccgatgatgaggagcaggtgctcagcgaccccaacctggtcatccgc aaacggaaagtgggtgtgctcctggacatcctgcagcggaccggccacaagggctacgtg gccttcctcgagagcctggagctctactacccgcagctgtacaagaaggtcacaggcaag gagccggcccgcgtcttctccatgatcatcgacgcgtccggggagtcaggcctgactcag ctgctgatgactgaggtcatgaagctgcagaagaaggtgcaggacctgaccgcgctgctg agctccaaagatgacttcatcaaggagctgcgggtgaaggacagcctgctgcgcaagcac caggagcgtgtgcagaggctcaaggaggagtgcgaggccggcagccgcgagctcaagcgc tgcaaggaggagaactacgacctggccatgcgcctggcgcaccagagtgaggagaagggc gccgcgctcatgcggaaccgtgacctgcagctggagattgaccagctcaagcacagcctc atgaaggccgaggacgactgcaaggtggagcgcaagcacacgctgaagctcaggcacgcc atggagcagcggcccagccaggagctgctgtgggagctgcagcaggagaaggccctgctc caggcccgggtgcaggagctggaggcctccgtccaggaggggaagctggacaggagcagc ccctacatccaggtactggaggaggactggcggcaggcgctgcgggaccaccaggagcag gccaacaccatcttctccctgcgcaaggacctccgccagggcgaggcccgacgcctccgg tgcatggaggagaaggagatgttcgagctgcagtgcctggcactacgtaaggactccaag atgtacaaggaccgcatcgaggccatcctgctgcagatggaggaggtcgccattgagcgg gaccaggccatagccacgcgggaggagctgcacgcacagcacgcccggggcctgcaggag aaggacgcgctgcgcaagcaggtgcgggagctgggcgagaaggcggatgagctgcagctg caggtgttccagtgtgaggcgcagctactggccgtggagggcaggctcaggcggcagcag ctggagacgctcgtcctgagctccgacctggaagatggctcacccaggaggtcccaggag gacctggaggacacccagctctcagacaaaggctgccttgccggcggggggagcccgaaa cagccctttgcagctctgcaccaggagcaggttttgcggaacccccatctgaggagtgac cacaaggtctctgcccacagtgctcggggtgcggtgtctgggctgcgaagtggatccccc tttcttgggcactgcagcagcttggggggctttttggacgtggatgtgcctggtcctggt tttccgagggcctttacagtggatgaggaggtgaacacaggagtcctgagagcaagcacc acctcgggctttgttgtagaaacaatggcccggaccccaggctggagccgtggcttggcc tcctgggacgcaggcctgagcagcggggagccgcccgagaaggagcggcggcgcctcaaa gagagttttgagaactaccgcaggaagcgcgccctcaggaagatgcagaaaggatggcgg cagggggaggaggaccgggagaacaccacgggcagcgacaacaccgacactgagggctcc tag >gi568815589r:136264305_136472078|GENSCAN_predicted_peptide_5|580_aa MAAVVLAATRLLRGSGSWGCSRLRFGPPAYRRFSSGGAYPNIPLSSPLPGVPKPVFATVD GQEKFETKVTTLDNGLRVASQNKFGQFCTVGILINSGSRYEAKYLSGIAHFLEKLAFSST ARFDSKDEILLTLEKHGGICDCQTSRDTTMYAVSADSKGLDTVVALLADVVLQPRLTDEE VEMTRMAVQFELEDLNLRPDPEPLLTEMIHEVKCQTRECPRISNSGPRDTRGENVAKINR EVLHSYLRNYYTPDRMVLAGVGVEHEHLVDCARKYLLGVQPAWGSAEAVDIDRSVAQYTG GIAKLERDMSNVSLGPTPIPELTHIMVGLESCSFLEEDFIPFAVLNMMMGGGGSFSAGGP GKGMFSRLYLNVLNRHHWMYNATSYHHSYEDTGLLCIHASADPRQVREMVEIITKEFILM GGTVDTVELERAKTQLTSMLMMNLESRPVIFEDVGRQVLATRSRKLPHELCTLIREYRRG SEGLPQASARLRGGRLALPQAVVGLCLSVGAVARSCDTRLPSALGNVKPEDVKRVASKML RGKPAVAALGDLTDLPTYEHIQTALSSKDGRLPRTYRLFR >gi568815589r:136264305_136472078|GENSCAN_predicted_CDS_5|1743_bp atggcggctgtggtgctggcggcgacgcggttgctgcggggctcgggttcttggggctgt tcgcggctgaggtttggacctcctgcgtacagacggtttagtagtggtggtgcctatccc aacatccccctctcttctcccttacctggagtacccaagcctgtttttgctacagttgat ggacaggaaaagtttgaaaccaaagtaaccacattggataatgggcttcgcgtggcatct cagaataagtttggacagttttgtacagtaggaattcttatcaattcaggatcgagatat gaagcgaaataccttagtggaattgctcactttttggaaaaattggcattttcgtctact gctcgatttgacagcaaagatgaaattctgcttacgttggaaaagcatgggggtatctgt gactgccagacatcaagagacaccaccatgtatgctgtgtctgctgatagcaaaggcttg gacacggtggttgccttactggctgatgtggttctgcagccccggctaacagatgaagaa gtcgagatgacgcggatggcggtccagtttgagctggaggacctgaacctgcggcctgac ccagagccacttctcaccgagatgattcatgaagtaaaatgtcaaactcgagaatgcccc cgcatctcgaacagtggtcctcgggacaccaggggtgaaaacgtagcaaagatcaaccga gaggtgctgcattcctacctgaggaactactacactcccgaccgcatggtgctggccggc gtgggcgtggagcacgagcatctggtggactgtgcccggaagtacctcctgggggtccag ccggcctgggggagcgcagaggccgtggatattgacagatctgtggcccagtacactggg gggattgccaagctagaaagagacatgtccaatgtcagcctgggcccgacccccatcccc gagctcacgcacatcatggttggactggagagctgctccttcctggaggaggacttcatc ccctttgcagtgttgaacatgatgatgggcggaggtggctccttctcggctggtgggccc ggcaagggcatgttctccaggctctacctcaacgtgctcaacaggcaccactggatgtat aacgcgacctcctaccaccacagctacgaggacactggcctcctttgcatccatgccagc gccgacccaagacaggttcgagaaatggtagaaatcatcacaaaggagtttattttaatg ggcggaaccgtggacacggtggagctggaacgagccaagacgcagctgacatcaatgctc atgatgaacctggaatccaggcctgtgatcttcgaggatgtggggaggcaggtgctggcc actcgctccagaaagctgccgcacgagctgtgcacgctcatccgtgagtaccgcaggggt agtgaggggctgccgcaggcctcggccaggctcagaggaggccgtctcgccctcccgcag gccgtggtgggcctgtgcctcagcgtgggggccgtggcgcgctcgtgtgacacgcgtttg ccctctgcactaggcaacgtgaagccggaagatgtgaagagagtcgcttctaagatgctc cgagggaagccggcagtggccgccctgggtgacctgactgacctgcccacgtatgagcac atccagaccgccctgtcgagtaaggacgggcgcctgcccaggacgtaccggctcttccgg tag >gi568815589r:136264305_136472078|GENSCAN_predicted_peptide_6|799_aa MPFTSGAAFLLRPIWLAEAFGNKNEAFSLSAPMARVVHYVDQPLPRCSRALLTLGAGMQR PCLRTALGTASGSPEGLAGLGARAMRQPPPPLRDHPRPKREPQRRFCSSLRRRPRTRHPT PATPSGEDPPARAAPIAPRPPARPRLERALSLDDKGWRRRRFRGSQEDLEARNGTSPSRG SVQSEGPGAPAHSCSPPCLSTSLQEIPKSRGVLSSERGSPSSGGNPLSGVASSSPNLPHR DAAVAGSSPRLPSLLPPRPPPALSLDIASDSLRTANKVDSDLADYKLRAQPLLVRAHSSL GPGRPRSPLACDDCSLRSAKSSFSLLAPIRSKDVRSRSYLEGSLLASGALLGADELARYF PDRNVALFVATWNMQGQKELPPSLDEFLLPAEADYAQDLYVIGVQEGCSDRREWETRLQE TLGPHYVLLSSAAHGVLYMSLFIRRDLIWFCSEVECSTVTTRIVSQIKTKGALGISFTFF GTSFLFITSHFTSGDGKVAERLLDYTRTVQALVLPRNVPDTNPYRSSAADVTTRFDEVFW FGDFNFRLSGGRTVVDALLCQGLVVDVPALLQHDQLIREMRKGSIFKGFQEPDIHFLPSY KFDIGKDTYDSTSKQRTPSYTSASRAGISHSREPMPGVRGLSLDGLDLKLSSAPWPCGKS PLVENGALSMGVFKAGPMAASLGMSRYLDICWKPQEATEAGQGRSSRCPQGLSSGEGQAL AQLATDARQQNGHECQGSQKASLWGALENSREDRVLYRSRHKGDICPVSYSSCPGIKTSD HRPVYGLFRVKHSVGSWQI >gi568815589r:136264305_136472078|GENSCAN_predicted_CDS_6|2400_bp atgcctttcacgtctggagctgcctttctcctccggcctatctggctggctgaggctttt ggaaacaaaaacgaagccttcagcttgtcagcgccaatggcccgtgtggttcattatgtg gaccagcccctgccacgctgcagccgagcactgctcaccctgggggcaggcatgcagagg ccttgcctgcggaccgccctgggaacggcgtctgggagccccgaggggctggcgggactc ggggcccgggccatgcggcagccgcccccgcccctccgcgaccatccccggcccaagcgg gagccgcagcggcgtttctgctcctcgctgcgccggcgaccccggacccggcaccccact ccggccacgcccagcggcgaggacccgccagcccgagcagcacccatcgccccgcggccc cccgccaggcctcgactggagcgagccctgtccctggacgacaagggctggaggaggagg cgttttcgaggcagccaggaggacctggaagcccggaatgggaccagtccctccaggggc tcagtgcagagcgagggccccggggcccccgcccacagctgctccccgccctgcctgagc acctccttgcaggaaatccccaagtcccgcggggtcctgagcagtgagagagggagcccg tcctcggggggtaaccctctctctggggtggccagcagctccccgaacctcccgcacaga gacgccgccgtggcggggagctcgcccaggctgcccagcctgctgcccccgcgcccaccg cctgccctgagcctggacatcgcctccgactccctgaggacagcaaacaaggtcgactcg gatcttgcagactacaagctccgcgcgcagccgctcctggtgcgggcccacagcagcctg ggccccggccggccgcggagccccctggcctgcgacgactgttcccttcgctcggccaaa tcctccttcagcctcctggcgcccatccgcagcaaggacgtccgcagcaggagttacctg gagggcagcctcctggccagcggggccctgttgggggcggatgagctggcccgctacttc ccagaccggaacgtggcactcttcgtggccacctggaacatgcagggccagaaggagctc ccgcccagcctggacgagttcctgctcccagccgaggccgactatgcccaggacctgtat gtcatcggggtccaggagggctgttctgacaggcgggagtgggagactcgtctgcaggag acgctgggcccgcactatgtgctgctgtcctcggcggcccacggcgtgctctacatgtcg ctcttcatccgcagggacctcatctggttctgctcagaggtggagtgctccacggtgacc acacgcatcgtgtctcagatcaagaccaagggggccttgggcatcagcttcacctttttt ggcacttccttcctcttcatcacgtcccacttcacctcaggtgacgggaaggtggcggag cggctgctggactacaccaggactgtacaagccctggtcctgcccagaaatgtgcccgac accaacccctatcgctccagcgcagcggacgtcaccacccgcttcgatgaggtgttctgg tttggagacttcaacttccgcctgagtggcgggcgcacagtcgtggacgccctcctgtgc cagggcctggtggtggacgtgccggcgctgctgcagcacgaccagctcatccgggagatg cggaaagggtccatcttcaagggcttccaggagccggacatccacttcctcccatcatac aagtttgacatcgggaaggacacgtacgacagcacctccaagcagaggacgccctcatac acgagtgcttccagggcaggcatctcccacagccgggaaccgatgcctggcgtcaggggt ctgagcctggacggcctggacttgaaactcagctctgcaccttggccttgtggcaagtcc cctttggtggagaacggcgccctctccatgggtgttttcaaggctgggcccatggctgca tctctgggcatgtcccgatatctggatatctgctggaagcctcaagaagccactgaggca gggcagggtaggagcagccgctgtccacagggtctctccagcggcgagggacaggccctg gcccagctggccacagacgccaggcaacaaaatgggcatgagtgtcaggggtcccagaag gcttccttgtggggggcgcttgagaacagcagggaggaccgcgtcttgtacagaagccgc cacaagggtgacatctgtcctgtgagctactcttcctgccccgggatcaagacgtccgac caccgccctgtgtatggcctcttccgggtgaaacattccgttggcagctggcaaatttga >gi568815589r:136264305_136472078|GENSCAN_predicted_peptide_7|1184_aa MVLRLLTPRTTAIPSPSGPAPEPATPRNGHLPAGPGVLGSKGMHWAVCSWMLEVLCEAGG TRCCANRAANLSGGQGYPEGYYSSKSGWSSQSDYYASYYSSQYDYGDPGHWDRYHYSARV RDPRTYDRRYWCDAEYDAYRREHSAFGDRPEKRDNNWRYDPRFTGSFDDDPDPHRDPYGE EVDRRSVHSEHSARSLHSAHSLASRRSSLSSHSHQSQIYRSHNVAAGSYEAPLPPGSFHG DFAYGTYRSNFSSGPGFPEYGYPADTVWPAMEQVSSRPTSPEKFSVPHVCARFGPGGQLI KVIPNLPSEGQPALVEVHSMEALLQHTSEQEEMRAFPGPLAKDDTHKVDVINFAQNKAMK CLQNENLIDKESASLLWNFIVLLCRQNGTVVGTDIAELLLRDHRTVWLPGKSPNEANLID FTNEAVEQVEEEESGEAQLSFLTGGPAAAASSLERETERFRELLLYGRKKDALESAMKNG LWGHALLLASKMDSRTHARVMTRFANSLPINDPLQTVYQLMSGRMPAASTCCGDEKWGDW RPHLAMVLSNLNNNMDVESRTMATMGDTLGRSGVEMGIGCRGWSAEGPVVCGVGRNHQNP AFSVRLASLVPSVRVLDFCKRSRSLSPRPSRGLLDAAHFCYLMAQAGFGVYTKKTTKLVL IGSNHSLPFLKFATNEAIQRTEAYEYAQSLGAETCPLPSFQVFKFIYSCRLAEMGLATQA FHYCEAIAKSILTQPHLYSPVLISQLVQMASQLRLFDPQLKEKPEEESLAAPTWLVHLQQ VERQIKEGAGVWHQDGALPQQCPGTPSSEMEQLDRPGLSQPGALGIANPLLAVPAPSPEH SSPSVRLLPSAPQTLPDGPLASPARVPMFPVPLPPGPLEPGPGCVTPGPALGFLEPSGPG LPPGVPPLQERRHLLQEARSPDPGIVPQEAPVGNSLSELSEENFDGKFANLGESWFFRWL PGKKKTEAYLPDDKNKSIVWDEKKNQWVNLNEPEEEKKAPPPPPTSMPKTVQAAPPALPG PPGAPVNMYSRRAAGTRARYVDVLNPSGTQRSEPALAPADFVAPLAPLPIPSNLFVPTPD AEEPQLPDGTGREGPAAARGLANPEPAPEPKVSGYGGKGERPEGSQGGEAPGDLPAAGGP PSGAMPFYNPAQLAQVSDSYLSLRDPNTPTDDLTLLLSDGSFLP >gi568815589r:136264305_136472078|GENSCAN_predicted_CDS_7|3555_bp atggtgctgcgtctgcttacgcccagaactaccgctatcccgagcccgagcggcccagct cccgagccagccactcctcggaacggccacctcccagctggccctggtgtactcggctcc aagggcatgcactgggcggtgtgcagctggatgttggaggtgctttgtgaagcaggcggc actaggtgctgcgccaaccgagcagccaacctcagcggcgggcaaggatatcctgaagga tactatagttccaaaagtggatggagcagtcagagcgattactatgcaagctattactcc agccagtacgattatggagatccaggtcactgggatcgttaccactacagtgctagagtc agggacccccgcacctatgaccggaggtattggtgtgatgcagagtatgacgcatacagg agagagcactctgccttcggggacaggcccgagaaacgtgacaacaactggaggtacgat cctcgcttcacggggagttttgacgatgaccccgatccgcacagagacccttatggggaa gaggtggaccggcgcagcgtccacagcgagcactcggcacggagcctgcacagcgcacac agcctggccagccgccgcagcagcctcagctcccactcgcaccagagtcagatttacaga agccacaatgtggctgccggttcctacgaggccccgcttcctccaggctcctttcacggc gattttgcctacggcacctaccgcagcaatttcagcagtggccccggcttcccagagtat ggctaccctgccgacaccgtctggcctgccatggagcaagtttcatcaagaccaacttct cctgaaaaattttcagtgcctcatgtctgtgccaggtttggccctggcggtcagcttatc aaagtgattcccaatctgccttcagaaggacagccggccttggtggaggtccacagcatg gaggccttgctgcagcacacgtctgagcaggaggagatgcgggcgttcccgggacccctg gccaaagacgacacccataaggtggatgtcattaattttgcacagaacaaagctatgaaa tgtttgcagaatgaaaacttaattgacaaagagtctgcaagtcttctttggaattttatt gttctcttatgcagacaaaatgggaccgtggtagggaccgacattgcggagcttctgtta cgagaccacagaacagtgtggcttcctgggaagtcgcccaatgaagcaaacctgattgat ttcacgaatgaggcagtggagcaggtggaagaggaggagtctggtgaggcccagctctct ttcctcactggtggtccggcggctgccgccagctcgctcgagagagagaccgagaggttc agggagctgttgctgtatggccgtaagaaggatgctttggagtctgcaatgaagaatggc ctgtggggtcacgctctgctacttgcaagtaagatggacagccggacacacgcccgagtc atgaccaggtttgctaacagcctcccaatcaacgaccctctgcagacagtctaccagctc atgtccggacggatgcctgccgcgtccacgtgctgtggagacgagaaatggggagattgg aggccgcacctcgccatggtcttgtccaacttgaacaacaacatggacgtcgagtccagg acgatggctaccatgggcgacactctgggtaggtcaggggtggagatgggcattgggtgt cgcggatggagcgccgaaggcccggttgtctgtggcgttggcagaaatcaccagaacccg gccttctcggtccggctggcgtctctggtgccttctgtgcgcgtccttgacttctgcaag cgctcccggtcgctgagcccccgcccttcaaggggcctcttggatgcggcccacttctgc tacctcatggcccaggcgggatttggtgtttacacgaagaaaactacaaagcttgtctta atcggatccaatcacagtttgccattcttaaagttcgcaaccaacgaagcaatccagagg acggaagcctatgagtacgcccagtccctgggtgccgagacctgccccctgcctagtttc caggtgtttaagttcatctactcctgccgcctggcggaaatggggctggccacgcaagcc ttccactactgtgaggccatcgcgaagagcatcctgacgcagccgcacctgtattccccg gtgttgatcagccagcttgtgcagatggcttcccagttacgactcttcgatccccagctg aaagagaagccagaagaggagtccttggccgcacccacgtggctggttcacctgcagcag gtggagcggcagattaaggagggggctggagtatggcatcaggatggagccctcccgcag cagtgtcctggcactccgagttccgagatggagcagttggacaggccaggactcagtcag ccaggagccctggggatcgccaaccctctgctggcggtgcctgcaccgagccctgagcac tcgagcccgagcgtgcggctgctgccctcagctccgcagacgctccctgacggcccattg gccagtcctgccagagtgccgatgttcccagtgccactgcccccggggcccctggagccg ggtcctggctgtgtgaccccagggcctgcacttggcttcctggagccctccgggcctggc ctcccacctggtgtgccacctctgcaggaaaggagacacttgctccaggaagccaggagc ccagacccagggatagtgccgcaggaggcgcctgttggaaactcactttccgagctaagc gaagaaaattttgatggaaaatttgctaatctgggtgaatcctggttctttcgttggcta cctggaaagaaaaagacagaagcttatttgccagatgacaagaacaaatcgattgtttgg gatgaaaagaaaaaccagtgggtgaatttaaatgagccagaagaggagaagaaagccccg cccccacctccaacctcgatgcccaagactgtgcaagctgccccgcctgccctcccaggg cctcctggagcccccgtgaacatgtactctagaagagcagcaggaaccagagctcgctac gttgacgtcctgaacccaagcgggacccagcggagcgagccggctctcgctcctgcggac tttgtcgctccactcgcgccactcccaattccttctaacttgttcgtgccaaccccagat gcagaagaaccacagcttccagacgggactggcagggaagggcctgcagcagctaggggc ctggccaatccagagcctgccccagagcccaaggtgagcgggtacggtgggaaaggggaa aggcctgagggttcccagggaggagaggctcctggcgacctccctgctgcagggggccct cccagcggggccatgcccttctacaaccctgctcagctggcacaggtgagtgactcctac ctttccctacgagaccctaacacgcccactgacgacctgaccctgctgctcagtgatggc agctttctgccctag