GENSCAN 1.0 Date run: 7-Nov-116 Time: 19:24:04 Sequence gi568815596r:127381047_127623795 : 242749 bp : 45.99% 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 + 1939 1965 27 0 0 90 81 46 0.144 1.74 1.02 Intr + 7168 7298 131 0 2 71 31 98 0.062 1.89 1.03 Intr + 16630 16783 154 1 1 69 53 77 0.043 2.37 1.04 Intr + 16901 17046 146 1 2 36 93 52 0.081 -0.42 1.05 Intr + 19648 19709 62 1 2 40 113 56 0.104 1.68 1.06 Intr + 21328 21504 177 2 0 88 86 18 0.063 1.49 1.07 Term + 24865 24998 134 2 2 42 43 103 0.154 -0.55 1.08 PlyA + 25681 25686 6 1.05 2.00 Prom + 26451 26490 40 -5.76 2.01 Init + 27207 27362 156 2 0 75 70 172 0.451 12.02 2.02 Intr + 34854 34939 86 2 2 78 42 72 0.076 0.22 2.03 Intr + 34989 35089 101 0 2 70 61 44 0.036 -0.35 2.04 Intr + 40237 40475 239 2 2 49 75 291 0.210 21.23 2.05 Intr + 41871 41895 25 2 1 122 109 25 0.998 5.60 2.06 Intr + 41988 42125 138 1 0 105 77 244 0.999 25.44 2.07 Intr + 42228 42362 135 1 0 97 94 156 0.996 17.64 2.08 Intr + 45039 45181 143 1 2 82 75 90 0.984 7.17 2.09 Intr + 46059 46176 118 2 1 98 52 123 0.992 9.74 2.10 Term + 47311 47900 590 2 2 120 44 1053 0.999 98.78 2.11 PlyA + 48176 48181 6 1.05 3.00 Prom + 69336 69375 40 -5.16 3.01 Init + 81538 81632 95 0 2 70 32 79 0.318 0.35 3.02 Intr + 83855 83984 130 2 1 -2 86 107 0.333 2.20 3.03 Intr + 89588 89675 88 1 1 86 70 45 0.620 2.04 3.04 Term + 90396 90475 80 1 2 68 43 91 0.629 0.53 3.05 PlyA + 90580 90585 6 1.05 4.16 PlyA - 90718 90713 6 1.05 4.15 Term - 104987 104859 129 2 0 35 47 149 0.775 3.68 4.14 Intr - 105618 105507 112 2 1 104 98 72 0.905 10.18 4.13 Intr - 108189 108133 57 2 0 83 72 57 0.639 1.60 4.12 Intr - 108897 108786 112 1 1 95 80 35 0.845 2.84 4.11 Intr - 111042 110925 118 0 1 81 36 55 0.946 -0.36 4.10 Intr - 112360 112235 126 1 0 -8 50 159 0.823 3.38 4.09 Intr - 115102 114952 151 0 1 52 83 190 0.962 15.06 4.08 Intr - 117191 117094 98 2 2 12 98 129 0.967 5.11 4.07 Intr - 121826 121769 58 1 1 80 98 97 0.998 8.79 4.06 Intr - 122530 122341 190 2 1 93 89 218 0.953 21.04 4.05 Intr - 124706 123638 1069 2 1 100 75 1021 0.997 91.83 4.04 Intr - 125673 125646 28 2 1 105 67 9 0.803 -1.38 4.03 Intr - 133718 133343 376 0 1 17 94 252 0.685 12.77 4.02 Intr - 142745 142695 51 0 0 53 89 55 0.275 0.98 4.01 Init - 145162 145129 34 1 1 85 75 45 0.507 2.93 4.00 Prom - 146216 146177 40 -10.05 5.00 Prom + 146394 146433 40 -2.46 5.01 Init + 146650 146934 285 0 0 32 100 141 0.368 6.78 5.02 Intr + 164569 164747 179 0 2 110 100 18 0.023 3.92 5.03 Intr + 178654 178694 41 1 2 113 99 49 0.941 6.37 5.04 Intr + 180043 180201 159 2 0 10 87 106 0.843 2.66 5.05 Intr + 182227 182282 56 2 2 73 72 22 0.963 -2.20 5.06 Intr + 183107 183220 114 1 0 113 86 187 0.999 21.64 5.07 Intr + 184187 184339 153 1 0 60 73 276 0.971 23.57 5.08 Intr + 185597 185781 185 1 2 78 94 429 0.975 41.09 5.09 Intr + 188743 188864 122 1 2 72 98 202 0.971 19.74 5.10 Intr + 192874 193016 143 2 2 59 94 295 0.033 27.27 5.11 Intr + 195549 195662 114 2 0 89 89 183 0.999 19.14 5.12 Intr + 197087 197240 154 1 1 78 30 283 0.896 21.15 5.13 Intr + 199700 199776 77 0 2 107 75 118 0.928 11.63 5.14 Intr + 200845 200964 120 0 0 80 87 202 0.931 19.99 5.15 Intr + 201258 201400 143 2 2 100 52 264 0.941 23.15 5.16 Intr + 203076 203286 211 0 1 70 89 542 0.999 51.42 5.17 Intr + 203732 203867 136 1 1 65 98 249 0.999 23.74 5.18 Intr + 207346 207509 164 2 2 83 86 198 0.992 18.79 5.19 Intr + 209046 209183 138 2 0 86 55 200 0.996 17.16 5.20 Intr + 211748 211900 153 1 0 82 76 430 0.995 41.47 5.21 Intr + 212500 212598 99 0 0 83 76 120 0.996 10.61 5.22 Intr + 215416 215510 95 0 2 102 55 73 0.601 4.16 5.23 Intr + 224798 224924 127 2 1 92 60 63 0.538 4.58 5.24 Intr + 226160 226378 219 1 0 155 51 343 0.994 35.80 5.25 Intr + 227662 227832 171 0 0 45 77 248 0.976 19.54 5.26 Intr + 228460 228669 210 0 0 84 9 332 0.999 24.01 5.27 Intr + 228803 229015 213 1 0 109 51 171 0.988 14.41 5.28 Intr + 231204 231281 78 2 0 87 99 114 0.999 12.15 5.29 Intr + 231430 231557 128 0 2 54 82 273 0.999 22.78 5.30 Intr + 239294 239420 127 2 1 102 100 87 0.999 11.98 5.31 Intr + 240936 241055 120 2 0 65 91 131 0.959 11.79 5.32 Intr + 242156 242329 174 1 0 58 76 230 0.996 18.94 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Init + 192849 193016 168 2 0 95 94 334 0.887 34.23 S.002 Init + 239093 239229 137 1 2 70 80 8 0.991 -2.19 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815596r:127381047_127623795|GENSCAN_predicted_peptide_1|276_aa MVLAPAWPLPVLFRVRGAYAPGLSRACGSGQIPDIRVDPVKRSPTWAVDRAQGCPSASKI SLAILDTTGFLHPSPLSPSLGGLEDAKPSQCTIQGVHVAEMSEEASLAEAQLHRVCPEKQ NATVPWALQTAKAAQFQRAGSLWPHTPAASWARATVQTAGPARKQAGKAFCSEGLQASTP SSPKTLLALPGWHEPSFSNSGRALCQEVLRACYNSRRQVPPPFMGKETEAQEESGPGTDL PADEMAPHHLQARFGAVDNVGGDSLQDSQRLSKILI >gi568815596r:127381047_127623795|GENSCAN_predicted_CDS_1|831_bp atggtgctggcacctgcttggcctctgcctgtgctgttccgtgtgcgcggcgcatacgca cctgggttgtctcgagcctgcggtagtggccagatcccagacatccgagtagatcccgtg aaaaggtctcccacgtgggctgtggacagggcccaaggctgcccctctgcctccaagatc agccttgccatccttgacaccacaggcttccttcatccaagccctctgagcccctctctg ggcggtttggaggatgctaagccctctcagtgcaccatccagggggtccatgttgcagaa atgagtgaggaggctagcctggctgaagctcagctgcacagagtctgtcctgagaagcag aatgccactgtcccctgggccctccagactgccaaggctgctcagtttcagagagcaggc tccctgtggcctcacacgccggctgccagctgggccagggcaactgtgcagacagcaggc ccagccaggaagcaagctggcaaggcgttctgcagcgaaggcctgcaggcctccacgcca agctctcctaagacgctcctggccttaccaggctggcatgagccttccttctccaacagt ggcagagcactgtgccaggaggttctcagagcttgttacaactcaaggaggcaggtccca cccccttttatggggaaggaaactgaagctcaggaagaatcaggacctgggacagacctg cctgctgatgagatggccccacaccatctgcaggccagatttggtgctgtggacaatgtc ggaggggacagtctacaggacagccaacggctttcaaaaattctgatatga >gi568815596r:127381047_127623795|GENSCAN_predicted_peptide_2|576_aa MGGAGPAVVPPGSVHPAAGAPWRLLALRGAVTPALRGAVASQRLGMGGRPPRRARCPKSC SGFLGGPDRVRVHVGRLTPDKSGAARRPRLEPGVTAETLGSQERLAAGLSLPREDSVFSS SERAHQVLRIRKRANSFLEELRHSSLERECIEEICDFEEAKEIFQNVDDTVRPPWVQRMR LRGELVTSRGLEEQLAFWSKHVDGDQCLVLPLEHPCASLCCGHGTCIDGIGSFSCDCRSG WEGRFCQREVSFLNCSLDNGGCTHYCLEEVGWRRCSCAPGYKLGDDLLQCHPAVKFPCGR PWKRMEKKRSHLKRDTEDQEDQVDPRLIDGKMTRRGDSPWQVVLLDSKKKLACGAVLIHP SWVLTAAHCMDESKKLLVRLGEYDLRRWEKWELDLDIKEVFVHPNYSKSTTDNDIALLHL AQPATLSQTIVPICLPDSGLAERELNQAGQETLVTGWGYHSSREKEAKRNRTFVLNFIKI PVVPHNECSEVMSNMVSENMLCAGILGDRQDACEGDSGGPMVASFHGTWFLVGLVSWGEG CGLLHNYGVYTKVSRYLDWIHGHIRDKEAPQKSWAP >gi568815596r:127381047_127623795|GENSCAN_predicted_CDS_2|1731_bp atgggcggcgcgggccctgccgtggtaccgcctggcagcgtccaccccgccgctggggcg ccctggaggctcctggccctccgtggggccgtgacaccggcgctgcggggagcggtggcc tcgcagaggctgggcatgggaggacggccgccccggcgagctcgctgcccaaagtcctgc tccggcttcctgggtggacctgaccgcgttcgggtgcacgtggggcgactcacacctgac aagagcggtgcggcgcggcgcccccggctggaaccaggtgtaactgcagagaccctggga tcgcaggaacggctggcggcaggactgtccctacctcgagaagactcagtgttctccagc agcgagcgtgcccaccaggtgctgcggatccgcaaacgtgccaactccttcctggaggag ctccgtcacagcagcctggagcgggagtgcatagaggagatctgtgacttcgaggaggcc aaggaaattttccaaaatgtggatgacacagtaaggccaccatgggtccagaggatgagg ctcaggggcgagctggtaaccagcaggggcctcgaggagcagctggccttctggtccaag cacgtcgacggtgaccagtgcttggtcttgcccttggagcacccgtgcgccagcctgtgc tgcgggcacggcacgtgcatcgacggcatcggcagcttcagctgcgactgccgcagcggc tgggagggccgcttctgccagcgcgaggtgagcttcctcaattgctcgctggacaacggc ggctgcacgcattactgcctagaggaggtgggctggcggcgctgtagctgtgcgcctggc tacaagctgggggacgacctcctgcagtgtcaccccgcagtgaagttcccttgtgggagg ccctggaagcggatggagaagaagcgcagtcacctgaaacgagacacagaagaccaagaa gaccaagtagatccgcggctcattgatgggaagatgaccaggcggggagacagcccctgg caggtggtcctgctggactcaaagaagaagctggcctgcggggcagtgctcatccacccc tcctgggtgctgacagcggcccactgcatggatgagtccaagaagctccttgtcaggctt ggagagtatgacctgcggcgctgggagaagtgggagctggacctggacatcaaggaggtc ttcgtccaccccaactacagcaagagcaccaccgacaatgacatcgcactgctgcacctg gcccagcccgccaccctctcgcagaccatagtgcccatctgcctcccggacagcggcctt gcagagcgcgagctcaatcaggccggccaggagaccctcgtgacgggctggggctaccac agcagccgagagaaggaggccaagagaaaccgcaccttcgtcctcaacttcatcaagatt cccgtggtcccgcacaatgagtgcagcgaggtcatgagcaacatggtgtctgagaacatg ctgtgtgcgggcatcctcggggaccggcaggatgcctgcgagggcgacagtggggggccc atggtcgcctccttccacggcacctggttcctggtgggcctggtgagctggggtgagggc tgtgggctccttcacaactacggcgtttacaccaaagtcagccgctacctcgactggatc catgggcacatcagagacaaggaagccccccagaagagctgggcaccttag >gi568815596r:127381047_127623795|GENSCAN_predicted_peptide_3|130_aa MGILKRLPVDICWWKCKTVQLLWKMVWQFIKRAEKCLLRRLQARAPAAQLLPTLLEASSG CIFMSYKKHITLTPKKGNDDHLLENLRVILVKVIVRPNNLGPTPVEASLELLLMTTLIDF QESLRNTSAH >gi568815596r:127381047_127623795|GENSCAN_predicted_CDS_3|393_bp atgggaatcctcaaacgtttgccggtggacatttgctggtggaaatgtaaaacagtgcag ctgctttggaaaatggtttggcagttcatcaaaagagccgagaagtgcctgctccggagg ctgcaagctcgggctcccgcagcacagctgctgcccactctgctggaggcctcttctggg tgcatcttcatgagttacaagaagcacattactttgaccccaaagaaaggtaatgatgac cacttgttggaaaacttgagggtaatacttgtaaaggtcatagtaagacccaacaacttg ggcccaacacctgtagaggccagcttggaattgctgctcatgactacattgattgacttc caggagagccttcgaaacaccagtgctcactga >gi568815596r:127381047_127623795|GENSCAN_predicted_peptide_4|902_aa MDSEYYSGDQSDDGGATPVQDERDSGSDAHSQAGQLLQRAGSSRHRHRRWLRVRLQLDTV CRSNFHRRHRCPDEGDVVVPENSEMPGTAEPQGCHSSVPTAKGLVSRGILQPCFGESRGL GSQEALQLLFVPAAHGVGERWYAMPSDFFSPIAGVTRHRTVTTNETSDREDGLPKGHHVT DSENDEPLNLNASDSESEELHRQKDSDSESEERAEPPASDSENEDVNQHGSDSESEETRK LPGSDSENEELLNGHASDSENEDVGKHPASDSEIEELQKSPASDSETEDALKPQISDSES EEPPRHQASDSENEEPPKPRMSDSESEELPKPQVSDSESEEPPRHQASDSENEELPKPRI SDSESEDPPRHQASDSENEELPKPRISDSESEDPPRNQASDSENEELPKPRVSDSESEGP QKGPASDSETEDASRHKQKPESDDDSDRENKGEDTEMQNDSFHSDSHMDRKKFHSSDSEE EEHKKQKMDSDEDEKEGEEEKVAKRKAAVLSDSEDEEKASAKKSRVVSDADDSDSDAVSD KSGKREKTIASDSEEEAGKELSDKKNEEKDLFGSDSESGNEEENLIADIFGESGDEEEEE FTGFNQEDLEEEKGETQVKEAEDSDSDDNIKRGKHMDFLSDFEMMLQRKKSMSGKRRRNR DGGTFISDADDVVSAMIVKMNEAAEDLKETFIDSGVMSAIKEWLSPLPDRSLPALKIREE LLKILQELPSVSQETLKHSGIGRAVMYLYKHPKESRSNKDMAGKLINEWSRPIFGLTSNY KGMTREEREQRDLEQMPQRRRMNSTGGQTPRRDLEKVLTGEEKALRPGDPGFCARARVPM PSNKDYVVRPKWNVEMESSRPGILKKGLSRLEKHKRRFAEQKRLSKVHRAVKFSIEGNRM PL >gi568815596r:127381047_127623795|GENSCAN_predicted_CDS_4|2709_bp atggactcggaatattacagcggcgaccagtcagatgatggtggtgctaccccagtacag gatgaacgggattcagggtcagacgcacacagccaggcgggtcagctgctgcagcgggcg ggcagctccaggcaccgacacaggcgctggctccgtgtgaggctgcagctggacacagtg tgccgcagcaatttccatagaaggcaccggtgtccagacgagggggatgtggtggtgcct gaaaactcggagatgccaggaactgcagagccccaaggatgtcacagctcagttcccact gccaagggcttggtgagcaggggcatattacaaccctgttttggagagtctcgaggtctg ggctctcaagaagcactacagctcttatttgttcctgctgcccacggcgttggtgaacgg tggtatgccatgcccagcgactttttctcccccattgctggggttactagacacaggacc gtgactactaatgaaactagtgatcgagaagatggcctccccaaaggacatcatgtgaca gactctgagaacgatgagcccttaaatcttaatgctagtgactctgaaagtgaggagctt cacaggcaaaaggacagcgactctgaatctgaggaacgtgcagagcctcctgcaagcgat tctgaaaatgaggatgtcaatcagcatgggagcgactctgagagtgaagagaccaggaaa ttacctggtagtgactctgaaaatgaggaacttcttaatgggcatgcaagtgactcagaa aacgaagatgttgggaagcatcccgccagtgattctgagattgaggagctccagaagagt cctgctagtgactctgaaacagaagatgctctaaaacctcaaatcagtgactctgagagt gaggaacccccaaggcaccaagccagtgactccgaaaatgaggagcctcccaaacctcga atgagtgattctgaaagtgaggagcttcctaaacctcaggtcagtgattcagaaagtgag gaacccccaaggcaccaggccagtgactctgaaaatgaggagcttcccaaacctcgtatc agtgactcagaaagtgaggaccctccgaggcaccaggccagtgactcagaaaatgaagag cttcccaaaccccgaatcagtgattcggaaagtgaggatcccccaaggaaccaggccagt gattcggaaaatgaggagctacccaaaccccgagtcagtgactctgagagtgaggggcct cagaaggggcctgccagtgactcagaaactgaggatgcgtccagacacaaacagaagcca gagtcagatgatgacagcgacagggagaataagggagaggatacagaaatgcagaatgac tccttccattcagacagccatatggacagaaaaaagtttcacagttctgatagtgaggag gaagaacacaaaaagcaaaaaatggacagtgatgaagatgaaaaagagggtgaggaggag aaagtagcgaagagaaaagctgctgtgctttctgatagtgaagatgaagagaaagcatca gcaaagaagagtcgtgttgtctctgatgcagatgactctgacagtgatgctgtatcagac aagtcaggcaaaagagagaagaccatagcatctgacagtgaggaagaagctgggaaagaa ttgtctgataagaaaaatgaagagaaggatctgtttgggagtgacagtgagtcaggcaat gaagaagaaaatcttattgcagacatatttggagaatctggtgatgaagaggaagaagaa tttacaggttttaaccaagaagatctggaagaagaaaaaggtgaaacacaggtaaaagaa gcagaagattcagattctgatgataacataaagagaggaaaacatatggactttctgtca gattttgagatgatgttgcagcgaaaaaagagcatgagtggcaagcgcagacggaaccgc gatggtggcacctttattagtgatgcagacgacgtcgtgagtgccatgatcgtcaagatg aatgaagctgctgaggaccttaaagaaacattcattgacagtggtgtgatgtctgccatc aaagaatggctctcacctctaccagataggagtttgcctgcactcaagatccgggaggag ctgctgaagatcctgcaagagctgcctagtgtgagccaggagaccctgaagcatagtggg attggacgagcagtgatgtatctctataaacaccccaaggagtcaaggtctaacaaggac atggcagggaaattaatcaatgagtggtctaggcctatatttggtcttacctcaaactac aaaggaatgacaagagaagaaagggagcagagagatctagaacagatgcctcaacgacga agaatgaacagcactggtggtcagacacccagaagagacctggaaaaggtgctgacagga gaggagaaggctcttagacctggagatcctggattctgtgcccgtgcaagggtcccaatg ccttcaaacaaggactatgttgtcaggcccaaatggaatgtggaaatggagtcatccagg cctggtattcttaaaaagggcctaagccgattggaaaagcataagaggcgatttgcagaa cagaaacgactcagcaaagtgcatcgtgctgtcaagttcagcattgaaggcaacaggatg cccctatag >gi568815596r:127381047_127623795|GENSCAN_predicted_peptide_5|1536_aa MLAEPNYRLLKRTWEEKKGEKWFLSGNSHFPAREFMDIPFRSGGNSIESKFLLFSCGNDI FSGSLENQKNKELAMPETESLDRRYQGSKPSSKEKGLVWPGGWVHRLCHSPVTTNAKAQF FQIWMSMGNNHMCLTGLLCNGRGIVCGAVGPVNAQLVELLTQDVGVQADKAKHFTKEYAT GCINAKCPSGNATNCKQSLEKHLLGPYYSQLQLQACSVFRDLPPNTELCWFLLDYFSSDG GDHVWLEPPSTHKTGVAIGGIIKEAKPGKVLVEDDEGKEHWIRAEDFGVLSPMHPNSVQG VDDMIRLGDLNEAGMVHNLLIRYQQHKIYTYTGSILVAVNPFQVLPLYTLEQVQLYYSRH MGELPPHVFAIANNCYFSMKRNKRDQCCIISGESGAGKTETTKLILQFLATISGQHSWIE QQVLEANPILEAFGNAKTIRNDNSSRFGKYIDIYFNPSGVIEGARIEQFLLEKSRVCRQA PEERNYHIFYCMLMGVSAEDKQLLSLGTPSEYHYLTMGNCTSCEGLNDAKDYAHIRSAMK ILQFSDSESWDVIKLLAAILHLGNVGFMASVFENLDASDVMETPAFPTVMKLLEVQHQEL RDCLIKHTILIRGEFVTRSLNIAQAADRRDAFVKGIYGHLFLWIVKKINAAIFTPPAQDP KNVRRAIGLLDIFGFENFENNSFEQLCINFANEHLQQFFVQHVFTMEQEEYRSENISWDY IHYTDNRPTLDLLALKPMSIISLLDEESRFPQGTDLTMLQKLNSVHANNKAFLQPKNIHD ARFGIAHFAGEVYYQAEGFLEKNRDVLSTDILTLVYSSKNKFLREIFNLELAETKLGHGT IRQAKAGNHLFKSADSNKRPSTLGSQFKQSLDQLMKILTNCQPYFIRCIKPNEYKKPLLF DRELCLRQLRYSGMMETVHIRKSGFPIRYTFEEFSQRFGVLLPNAMRMQLQGKLRQMTLG ITDVWLRTDKDWKAGKTKIFLRDHQDTLLEVQRSQVLDRAALSIQKVLRGYRYRKEFLRQ RRAAVTLQAWWRGYCNRRNFKLVRELSGAAGPRDQRILVGFERLQAIARSQPLARQYQAM RQRTVQLQALCRGYLVRQQVQAKRRAVVVIQAHARGMAARRNFQQRKANAPLVIPAEGQK SQGALPAKKRRSIYDTVTDTEMVEKVFGFLPAMIGGQEGQASPHFEDLESKTQKLLEVDL DTVPMAEEPEEDVDGLAEYTFPKFAVTYFQKSASHTHIRRPLRYPLLYHEDDTDCLAALV IWNVILRFMGDLPEPVLYARSSQQGSSVMRQIHDTLGREHGAQVPQHSRSAQASGGQQRA EEGDTYQRSGCKDKGTKDISSMKLKRSSRITGQVASQLNIGEEALEPDGLGADRPMSNLE KVHFIVGYAILRPSLRDEIYCQICKQLSENFKTSSLARGWILLSLCLGCFPPSERFMKYL LNFIGQGPATYGPFCAERLRRTYANGVRAEPPTWLELQAVKSKKHIPIQVILATGESLTV PVDSASTSREMCMHIAHKQGLSDHLGFSLQVAVYDK >gi568815596r:127381047_127623795|GENSCAN_predicted_CDS_5|4608_bp atgctggcagagcccaattataggctcctgaagaggacgtgggaagagaagaaaggggag aagtggtttctctctggaaattcccattttcctgcaagagagttcatggatattcctttc cgaagtggtggaaacagcattgaatccaaattccttcttttcagctgtgggaatgacatc ttctcaggcagtcttgagaatcaaaagaacaaagaattagcaatgcccgaaaccgaatca cttgatagaagatatcaaggctctaagccctcttctaaagagaagggccttgtctggcct ggtggatgggtgcacaggctctgccacagccctgtcaccactaatgccaaggctcagttt ttccaaatatggatgagtatgggaaataatcatatgtgcctcacgggcttattgtgcaat ggaaggggcattgtatgtggagctgttggcccggtgaacgcccagcttgtggaactgctg actcaggatgtcggggttcaggctgacaaagccaaacatttcacaaaggaatatgccacg ggatgcatcaacgccaaatgtccctctgggaatgcgactaactgcaagcagagtttagaa aaacacctcttggggccctattactcacaattacaattgcaggcctgctctgtcttcaga gatttacctccgaacacagaactgtgctggttccttttggattacttctcttcagatggg ggtgaccacgtgtggctggagcctccctccacccacaagaccggcgtggccatcgggggc atcatcaaagaggcaaagccaggcaaagtcttggttgaagatgacgagggcaaggaacac tggatccgagcagaggactttggtgtcctcagtcccatgcaccccaactcagtccagggt gtggacgacatgatccgcctgggggacctgaacgaggcaggcatggtgcacaacctcctg atccgctaccagcagcacaagatctatacatacacaggctccatcctggtggccgtcaac ccgttccaggtgctgccgctctacaccctggagcaggtacagctctactacagccgccat atgggcgagctgcccccgcatgtctttgccatcgccaacaactgctacttcagcatgaag aggaacaagagggaccagtgctgcatcatcagcggcgagtctggggctggcaagacggag accaccaagctcatcctgcagttcctggccaccatcagtggccagcattcgtggattgag cagcaggtcctggaagccaaccccatcctggaggcctttggaaatgccaagacaatccgc aacgacaactcaagccgctttgggaagtacattgacatctactttaaccccagcggggtg atcgagggcgcgcgcatcgagcaatttctcctggagaagtcccgggtctgccggcaggct cccgaggagcggaactaccatatcttctactgcatgctcatgggggtgagtgctgaggac aagcagctgctgagcctgggcacgccctccgagtaccactacctgaccatggggaactgc acttcctgtgaggggctcaacgacgccaaggactacgcccacatccgctcggccatgaag atcctccagttctccgactccgagagctgggacgtcatcaagctgctggctgccattctc cacctggggaatgtggggttcatggcttcggtcttcgagaacctggacgcctcagacgtg atggagacgcccgcctttcccaccgtgatgaagttactggaggtgcagcaccaggagctc cgggactgtctgatcaagcacaccatcctcatccgaggggaatttgtcaccaggtccctg aacattgcccaggctgctgaccggagggacgcctttgtcaagggcatctatgggcacctc ttcctgtggattgtcaagaagatcaatgccgccatcttcacaccaccagcccaggacccc aaaaatgtgcggagggccatcggcctcctggacatatttggctttgaaaatttcgagaac aatagcttcgagcagctctgcatcaacttcgccaacgagcacctgcagcagttctttgtg cagcacgtgttcaccatggagcaagaggagtaccgctcggagaacatctcctgggactat atccactacaccgacaatcggcccaccctggacctgctggccctcaagcccatgagcatc atctccctcctggacgaagaaagccgcttcccgcaggggacagatctcaccatgctgcaa aagctgaacagcgtccatgccaacaacaaggccttcctacagcccaagaacatccacgat gccagatttggcattgcccattttgccggcgaggtgtactaccaagcagaaggcttcctg gagaagaaccgagacgtgctgagcacagatatcctcaccctggtttactcctccaaaaac aagtttctgagggagatattcaacttggagttagcagagaccaagctgggccatgggacc atccgccaggcaaaggcaggaaaccatctcttcaagtctgcagactcaaataaacggccc tccaccttaggaagccagttcaaacagtctctggaccagctgatgaaaatcctgaccaac tgccagccttacttcatccgctgcatcaaacctaatgagtacaagaagccgctgctgttc gaccgggagctgtgcctgcggcagctgcgatactcgggcatgatggagaccgtgcacatc cgcaagtcgggcttccccatccgctacacgttcgaggagttctcgcagaggttcggcgtg ttgctgcccaacgccatgcggatgcagctgcaaggcaagctccgccagatgaccctgggc atcactgacgtgtggctgcggacagacaaagactggaaagcggggaagacaaaaattttc ctgagggatcatcaggacactctgctggaggtacagagaagccaggtgctagacagagcg gcgctcagcatccagaaagtccttcggggctacagatacaggaaggagttcctgaggcag aggcgggcagctgtgaccctgcaggcctggtggagaggctactgcaacaggaggaatttc aagctggtgagagagctctctggggcggctgggccgcgggaccagcggatcctcgtgggc tttgagcgcctgcaggctattgcccggagccagccgctggcgaggcagtaccaggccatg cggcagaggacagtccagctgcaggccctgtgcaggggatacctggtgcgccagcaagtc caggccaagaggagggcagtggtggtcattcaggcccatgccaggggcatggctgcccgg cgcaacttccagcaaaggaaggccaatgcgccgctggtcatcccggccgaggggcagaaa agccaaggcgctctccctgccaagaagcgcagatccatctacgacaccgtcactgacacg gagatggtggagaaggtgttcggcttcctccctgccatgattgggggccaggagggccag gcctcgccgcactttgaggatctggaatcgaagacccagaagctgcttgaggttgacctg gacacagtccccatggcggaggagcctgaggaggatgtggatggcctggccgagtacacc ttccccaagtttgctgtgacttacttccagaaatcagccagccacacacacatccggcgg cccctccgatacccgttgctttaccacgaagatgacactgactgcttggccgccctggtc atatggaacgtcatcctgaggttcatgggtgatctcccagagccagtgctgtatgccagg agcagccagcagggcagctcagtgatgcggcagatccatgacacgctgggcagggagcac ggtgcccaggttccacagcacagtagatctgcacaggcaagtggggggcagcagcgggca gaggagggcgacacctaccagagatctggctgcaaggacaaggggaccaaggatatctcc tccatgaagctgaagcggtcctcccggatcacaggccaggtggccagccagctgaacatt ggagaggaggcattggagcctgatggccttggtgcagaccggcccatgtccaacctggag aaggtgcacttcatcgtgggctacgccatcctgcggcccagcctcagggatgagatttac tgccagatctgcaagcagctctcggagaacttcaaaacaagcagcctggcccggggctgg atcctgctcagcctctgcctcggctgcttcccaccctcagagaggttcatgaagtatcta ctgaacttcatcggccaagggccggcgacctacggccccttctgtgccgagcgcctgaga cgcacctatgccaatggggtgcgtgcggagccccccacctggctggagctgcaggctgtc aagtccaagaagcacatccccatccaagtcatcttggccactggagagagcctaaccgtc cccgtggactcagcctccacatctcgggaaatgtgcatgcacatcgctcacaagcagggc ctcagcgaccacctgggcttctccctccaggtcgccgtgtacgacaag