GENSCAN 1.0 Date run: 3-Nov-116 Time: 09:52:57 Sequence gi568815584f:64627632_64843700 : 216069 bp : 49.00% 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 Term + 30786 30944 159 2 0 95 48 76 0.033 2.24 1.02 PlyA + 31298 31303 6 1.05 2.00 Prom + 43890 43929 40 -2.06 2.01 Init + 45802 45849 48 0 0 81 50 56 0.159 2.05 2.02 Intr + 71249 71372 124 1 1 90 41 73 0.004 2.96 2.03 Intr + 76249 76301 53 2 2 95 77 23 0.002 0.53 2.04 Intr + 77123 77194 72 1 0 81 60 46 0.026 0.70 2.05 Intr + 80182 80303 122 0 2 25 58 109 0.007 0.89 2.06 Intr + 88280 88461 182 2 2 26 78 96 0.032 1.91 2.07 Intr + 91680 91851 172 1 1 51 73 110 0.213 4.80 2.08 Intr + 94162 94264 103 1 1 49 86 7 0.189 -3.22 2.09 Intr + 99962 100351 390 1 0 115 92 438 0.735 41.82 2.10 Intr + 101365 101462 98 0 2 77 89 154 0.997 13.21 2.11 Intr + 102612 102681 70 0 1 47 90 108 0.970 6.08 2.12 Intr + 103011 103057 47 2 2 80 89 52 0.992 1.71 2.13 Intr + 103168 103318 151 1 1 98 68 346 0.996 33.76 2.14 Intr + 103407 103538 132 2 0 70 47 296 0.951 24.54 2.15 Intr + 103730 103912 183 1 0 59 48 283 0.998 21.38 2.16 Intr + 104083 104175 93 0 0 119 94 166 0.999 20.46 2.17 Intr + 104464 104550 87 0 0 90 113 93 0.999 12.17 2.18 Intr + 104796 104829 34 2 1 118 87 32 0.999 3.90 2.19 Intr + 105172 105270 99 2 0 63 99 164 0.998 15.08 2.20 Intr + 108654 108743 90 1 0 84 53 65 0.636 2.57 2.21 Intr + 109222 109260 39 2 0 119 113 60 0.665 9.80 2.22 Intr + 110175 110593 419 1 2 37 77 493 0.409 36.84 2.23 Intr + 111111 111239 129 2 0 99 75 86 0.879 9.29 2.24 Intr + 113405 114824 1420 1 1 111 86 1403 0.982 131.42 2.25 Term + 115351 116072 722 2 2 105 44 419 0.466 32.85 2.26 PlyA + 119262 119267 6 -0.45 3.38 PlyA - 119724 119719 6 1.05 3.37 Term - 121842 121675 168 0 0 117 43 270 0.999 23.28 3.36 Intr - 122065 122023 43 0 1 83 99 74 0.999 6.24 3.35 Intr - 122523 122350 174 2 0 110 78 273 0.999 27.55 3.34 Intr - 124684 124580 105 0 0 40 67 118 0.948 4.23 3.33 Intr - 126162 125906 257 0 2 27 109 314 0.939 23.64 3.32 Intr - 139170 139095 76 2 1 78 77 47 0.703 2.12 3.31 Intr - 139721 139672 50 2 2 130 92 53 0.992 7.38 3.30 Intr - 140228 140032 197 0 2 93 101 262 0.998 27.13 3.29 Intr - 141487 141403 85 1 1 128 56 110 0.673 11.19 3.28 Intr - 142097 141959 139 1 1 112 78 204 0.999 22.27 3.27 Intr - 143498 143254 245 2 2 63 94 411 0.997 35.50 3.26 Intr - 145323 144949 375 0 0 69 82 1033 0.999 96.01 3.25 Intr - 145793 145589 205 1 1 67 74 379 0.990 33.60 3.24 Intr - 146896 146766 131 1 2 82 57 233 0.996 19.09 3.23 Intr - 147772 147494 279 1 0 87 66 435 0.998 38.87 3.22 Intr - 151615 151526 90 1 0 114 109 105 0.999 15.39 3.21 Intr - 152300 152094 207 2 0 91 86 309 0.998 30.27 3.20 Intr - 154575 154556 20 1 2 81 76 -21 0.625 -7.67 3.19 Intr - 154922 154655 268 2 1 112 94 471 0.937 47.21 3.18 Intr - 156762 156616 147 0 0 48 115 205 0.979 19.63 3.17 Intr - 157996 157906 91 0 1 104 78 143 0.995 14.90 3.16 Intr - 158320 158118 203 1 2 66 78 240 0.700 18.88 3.15 Intr - 159529 158773 757 0 1 72 80 1093 0.999 98.37 3.14 Intr - 164225 164088 138 1 0 86 75 175 0.996 15.58 3.13 Intr - 166236 165366 871 1 1 106 71 1570 0.994 147.50 3.12 Intr - 166986 166836 151 0 1 103 100 257 0.999 28.14 3.11 Intr - 168008 167706 303 2 0 80 86 684 0.999 64.19 3.10 Intr - 169084 168926 159 1 0 66 95 257 0.997 24.38 3.09 Intr - 170215 170098 118 0 1 103 43 120 0.999 9.47 3.08 Intr - 172303 172116 188 1 2 -23 80 502 0.994 36.79 3.07 Intr - 173333 173125 209 0 2 48 82 285 0.520 22.70 3.06 Intr - 173769 173654 116 2 2 81 105 271 0.644 28.19 3.05 Intr - 174203 174123 81 1 0 59 111 49 0.680 3.05 3.04 Intr - 174686 174595 92 2 2 94 63 79 0.990 4.79 3.03 Intr - 176149 175976 174 1 0 66 94 343 0.987 32.84 3.02 Intr - 177459 177308 152 1 2 101 63 321 0.578 30.78 3.01 Init - 195463 195316 148 1 1 77 84 210 0.972 19.75 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term + 71249 71410 162 1 0 90 44 132 0.952 6.94 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815584f:64627632_64843700|GENSCAN_predicted_peptide_1|52_aa APVRPETRDSPTSAAPCSTTPSPIDHPRAEECRRTARLAGSSTCSPCAVSTG >gi568815584f:64627632_64843700|GENSCAN_predicted_CDS_1|159_bp gctcctgtgcgacctgagacccgagactctccgacgagcgccgccccctgctccaccacg cccagtcccatcgaccacccaagggctgaggagtgccggcgcacggcgcgactggcaggc agctccacctgtagcccctgtgcggtatccactgggtga >gi568815584f:64627632_64843700|GENSCAN_predicted_peptide_2|1692_aa MTTVIVKMGKQKHEEEVEMQIEKQPSIPKPAKKQHACVKINPQIIKGRRLRANSLVSASQ RSAFTTVKRHRDRVMAERRCRQSRWGPSPFAAPVPAPCGLTSPVDFDVVLNSFELCFLPN VELVIILTTCGIMAMYSEITTFIDEVLQEAAGALIPEAVGGSSLLTPSLLTARLPVLGTM RLPGPSPPSWCPDGSSPEESEQISDLSVIIITTTTILGGLTVCQMYGLLTCVISTLETTQ SGWQYYCAYFPHEELDAWRAPRVQGAVGTHRQELGLWGQFGSRVAQSGAELWNLPGVPSP GSNARMPVSTSLHQDGSQERPVSLTSTTSSSGSSCDSRSAMEEPSSSEAPAKNGAGSLRS RHLPNSNNNSSSWLNVKGPLSPFNSRAAAGPAHHKLSYLGRVVREIVETERMYVQDLRSI VEDYLLKIIDTPGLLKPEQVSALFGNIENIYALNSQLLRDLDSCNSDPVAVASCFVERSQ EFDIYTQYCNNYPNSVAALTECMRDKQQAKFFRDRQELLQHSLPLGSYLLKPVQRILKYH LLLQEIAKHFDEEEDGFEVVEDAIDTMTCVAWYINDMKRRHEHAVRLQEIQSLLINWKGP DLTTYGELVLEGTFRVHRVRNERTFFLFDKTLLITKKRGDHFVYKGNIPCSSLMLIESTR DSLCFTVTHYKHSKQQYSIQAKTVEEKRNWTHHIKRLILENHHATIPQKAKEAILEMDSY YPNRYRCSPERLKKAWSSQDEVSTNVRQGRRQSEPGHSPYSRATLPSGQRGFVMPSLKGR RKSEPTKHLLRQLNEKGGREVAQEAGHEGVLCSEQHAGSAGTLLDFGQPSRTRGLQPEAE GATQEEEEEEEEVVEEEEEEEEEEQAFQVSLEDLTGHEGNEKGAGPEPPGSEEEEEEQEE SLAVAEQVADFASSLLAALHCWHYRANALLFSRGAMGKGRRESESSRSSRRPSGRSPTST EKRMSFESISSLPEVSDQQVEPDPEAGSEQEVFSAVEGPSAEETPSDTESPEVLETQLDA HQGLLGMDPPGDMVDFVAAESTEDLKALSSEEEEEMGGAAQEPESLLPPSVLDQASVIAE RFVSSFSRRSSVAQEDSKSSGFGSPRLVSRSSSVLSLEGSEKGLARHGSATDSLSCQLSP EVDISVGVATEDSPSVNGMEPPSPGCPVEPDRSSCKKKESALSTRDRLLLDKIKSYYENA EHHDAGFSVRRRESLSYIPKGLVRNSISRFNSLPRPDPEPVPPVGSKRQVGSRPTSWALF ELPGPSQAVKGDPPPISDAEFRPSSEIVKIWEGMESSGGSPGKGPGQGQANGFDLHEPLF ILEEHELGAITEESATASPESSSPTEGRSPAHLARELKELVKELSSSTQGELVAPLHPRI VQLSHVMDSHVSERVKNKVYQLARQYSLRIKSNKPVMARPPLQWEKVAPERDGKSPTVPC LQEEAGEPLGGKGKRKPVLSLFDYEQLMAQEHSPPKPSSAGEMSPQRFFFNPSAVSQRTT SPGGRPSARSPLSPTETFSWPDVRELCSKYASRDEARRAGGGRPRGPPVNRSHSVPENMV EPPLSGRVGRCRSLSTKRGRGGGEAAQSPGPLPQSKPDGGETLYVTADLTLEDNRRVIVM EKGPLPSPTAGLEESSGQGPSSPVALLGQVQDFQQSAECQPKEEGSRDPADPSQQGRVRN LREKFQALNSVG >gi568815584f:64627632_64843700|GENSCAN_predicted_CDS_2|5079_bp atgacgactgtcattgtaaagatggggaaacagaagcacgaggaggaggtggagatgcaa atagaaaagcagcccagcatcccgaagccagcgaagaaacagcacgcctgtgtaaaaatt aacccccagatcatcaaaggcaggcgtctgcgtgccaactccctagtctcagcttctcag aggtctgcatttaccactgtaaagcgtcacagggaccgagttatggctgagcggcggtgc cggcagtcacgctggggccccagtcccttcgcggcccccgtgccagccccctgcgggctc actagccctgtggactttgatgtggtgctaaattcctttgagctgtgtttcttacccaac gtggagttagtcatcatacttaccacatgcggcatcatggcaatgtacagtgagataaca acatttattgacgaagttttgcaggaggcggcgggcgctttaattcccgaggctgttggt ggcagctcgctgctcaccccaagcctgttaactgctaggttgccggtgctggggacaatg cggctgcccggcccctcgccaccctcgtggtgcccggatgggagctctcctgaggaaagc gaacaaataagtgatttatccgttatcatcatcaccaccaccaccattctcggtgggctt actgtgtgtcagatgtacgggttacttacttgtgtcatctcaaccttggagacaacccag tcaggttggcagtattactgtgcctattttcctcatgaggaacttgatgcttggagagcc cctagggtgcagggagcagtgggaacacacaggcaagagctgggcctctggggacagttt gggagccgggtggcccagagtggtgccgagctgtggaatctccctggggtgccctcccca ggcagcaatgccaggatgcctgtgtccacctccctccaccaggatggcagccaggagcgg ccggtgagcctgacctctaccacctcctcgtcgggctcctcctgtgacagtcgcagtgcc atggaggagcccagcagctccgaggctcccgccaagaatggggcaggctccctgagaagc cggcatctgcccaacagcaacaacaactccagcagctggttgaacgtgaaggggcccctc tccccgttcaacagccgggcagcggcagggcctgcacaccacaagctcagctacctgggc cgagtggtgcgggagatcgtggagacagagcgcatgtacgtacaggacctgcgcagcatc gtggaggactacctcttgaagatcattgacacacccgggctgctgaagccagaacaggtc agcgccctctttgggaacatagaaaatatctacgcgctgaacagccagctcctcagagac ctggacagctgcaatagtgaccccgtggctgtggccagctgctttgtggaaaggagccaa gagtttgatatctacactcagtattgcaacaattaccccaactccgtggccgccctgacg gaatgcatgcgggacaagcagcaggccaagttctttcgggaccggcaggagctgctacag cactcgctgcccttgggctcctacctgctgaagccagtccagcgcatcctcaagtaccac ctgctgctccaggaaattgccaagcattttgatgaagaagaggatggctttgaggtggtg gaggatgccattgacaccatgacctgtgtggcctggtacatcaacgacatgaagaggagg catgagcacgcggtccggctccaggagattcagtcactcctcatcaactggaaggggccc gacctgaccacctacggggagcttgtcctggagggcacattccgcgtgcatcgcgtgcgc aatgaaaggacctttttcctctttgacaaaacactgcttatcaccaagaagcggggcgat cactttgtctacaagggcaacatcccgtgctcctccctgatgctgatcgaaagcaccaga gactccctgtgcttcactgtcacccactacaagcacagcaagcagcagtacagcatccag gccaagacagtggaggagaaacggaactggactcaccacatcaagaggctcatcctagag aaccaccatgccaccattccccagaaggccaaggaagccatcttggaaatggattcctat tatcccaatcggtaccgctgcagcccagagcggctgaagaaggcttggtcctcccaggat gaggtgtccaccaatgtgcgccaggggcgccggcaatctgagcctggtcactctccgtac agccgggcaactctccccagcggtcagcgaggcttcgtgatgcccagccttaagggccgt agaaagtcggagccaaccaaacacctgctcaggcaactcaacgagaaaggaggacgggag gttgcccaagaggctggtcacgagggggtcttgtgctctgaacagcatgcaggcagtgct ggaaccctcctggactttgggcagccctcccgtactcggggcctgcagccagaggctgaa ggggctacccaggaggaggaagaggaagaggaggaggtggtggaggaggaggaggaggag gaggaggaagagcaggcctttcaggtctctctggaggacctgacagggcatgaaggcaac gagaagggggctgggccggagcccccaggctcagaggaggaggaggaggagcaggaggag agcctggcggtggcggagcaggtagccgactttgccagctccctgctggccgccctccac tgctggcactatcgggccaacgctttacttttctcccggggcgctatgggaaaggggcgc agggagtctgaaagctccaggagcagcagaaggcccagtggccggtctccaaccagtact gagaagcgcatgagcttcgagtccatttcttccctgccagaggtgagcgaccagcaggtt gagccggaccctgaggctgggagtgagcaagaggtattttctgctgtggaagggcccagt gccgaggagacgccttcagacacagaatctccagaagtcctggagacacagcttgatgcc caccagggccttctggggatggaccccccaggtgacatggtggacttcgtggcagctgag agcactgaggaccttaaggccctgagcagcgaggaggaagaagaaatgggaggtgccgcc caggagcctgagagccttctgccaccctctgtgctggaccaggccagcgtcattgcggag cgatttgtcagcagcttctctcggcggagcagcgtggcacaggaggacagcaagtccagt ggctttgggagcccgcggctggtcagccggagcagcagcgtgctcagcctggagggcagc gagaagggcctggcccggcatggcagtgccacagactccctcagctgtcagctctcccca gaagtggacatcagtgtgggggtggccacagaggacagcccttctgtcaatgggatggag cccccaagcccaggctgcccagtggagcctgaccggtcttcctgcaagaagaaggaatca gcactctccacccgagaccggctgttgctagacaagattaagagctattatgaaaatgca gaacaccatgatgcaggcttcagcgtccgtcgccgggagagcctctcctacatccccaaa ggactggtaagaaactccatctccaggttcaacagccttccccggccagacccagagcca gtacctccagtggggagcaagagacaggtgggctcccggccgacttcgtgggccctgttt gagctcccaggaccaagccaggcagtcaaaggggacccacctcccatctcagatgctgag ttccgcccatcttcagaaattgtgaagatctgggagggaatggagtcttccggagggagc cctgggaaggggccaggccagggccaggccaatggctttgacctgcatgagccactcttc atcctggaggagcatgagctgggagccatcacagaggagtcggccactgcctccccggaa agctcctctcccactgaggggcgcagcccggcccacctggcccgggagctgaaagagctg gtgaaggagctgagcagcagtacccagggggagctggtggccccactgcacccccgcatc gtgcagctctcccacgtaatggacagccacgtgagcgagcgcgtcaagaacaaggtctac cagctggcccgccagtacagcctccggatcaagagcaacaagccagtgatggccaggcca ccactgcagtgggaaaaggtggcccctgagagggatgggaagagccccactgtgccctgt ctacaggaagaggctggagagccattaggtggcaaaggtaagaggaagccggtgctgtct ctatttgactatgagcagctgatggcccaggagcacagccctcccaagccctcctcggct ggggagatgtcaccacagcgtttcttcttcaacccgtctgctgtcagccagaggaccacc tcgcctgggggccggccctccgcccggagccccctcagccccacagagaccttcagctgg cccgacgtccgtgagctctgctccaagtatgcctcccgcgatgaggcacgccgagcaggg ggcggccggccccgcggcccacccgtcaacaggagccactcggtgccggagaacatggta gagccacctctgtcgggcagggtgggccgctgccgcagcctgagcaccaagaggggccgg ggaggcggagaggctgcccaatcccctgggcctctgccccagagcaagccggatggaggc gagaccctgtatgtcactgcagacctcaccctggaggacaaccggcgggtgattgtcatg gagaagggaccccttcccagccccactgcagggctggaggagagcagtggccagggacca agctcaccggtggccctgctggggcaggttcaggacttccagcagtctgcagagtgccag ccgaaggaagagggttccagggacccggcagacccgagccagcagggcagagtgagaaac cttagagagaagttccaggccttgaactctgtcggttga >gi568815584f:64627632_64843700|GENSCAN_predicted_peptide_3|2403_aa MTSATEFENVGNQPPYSRINARWDAPDDELDNDNSSARLFERSRIKALADEREVVQKKTF TKWVNSHLARVSCRITDLYKDLRDGRMLIKLLEVLSGEMLPKPTKGKMRIHCLENVDKAL QFLKEQRVHLENMGSHDIVDGNHRLVLGLIWTIILRFQIQDIVVQTQEGRETRSAKDALL LWCQMKTAGYPHVNVTNFTSSWKDGLAFNALIHKHRPDLIDFDKLKDSNARHNLEHAFNV AERQLGIIPLLDPEVELDAGGMGNKPSEPDFPDFQFGPESTPFSLTDVFTENPDEKSIIT YVVAFYHYFSKMKVLAVEGKRVGKVIDHAIETEKMIEKYSGLASDLLTWIEQTITVLNSR KFANSLTGVQQQLQAFSTYRTVEKPPKFQEKGNLEVLLFTIQSRMRANNQKVYTPHDGKL VSDINRAWESLEEAEYRRELALRNELIRQEKLEQLARRFDRKAAMRETWLSENQRLVAQD NFGYDLAAVEAAKKKHEAIETDTAAYEERVRALEDLAQELEKENYHDQKRITARKDNILR LWSYLQELLQSRRQRLETTLALQKLFQDMLHSIDWMDEIKAHLLSAEFGKHLLEVEDLLQ KHKLMEADIAIQGDKVKAITAATLKFTEGKGYQPCDPQVIQDRISHLEQCFEELSNMAAG RKAQLEQSKRLWKFFWEMDEAESWIKEKEQIYSSLDYGKDLTSVLILQRKHKAFEDELRG LDAHLEQIFQEAHGMVARKQFGHPQIEARIKEVSAQWDQLKDLAAFCKKNLQDAENFFQF QGDADDLKAWLQDAHRLLSGEDVGQDEGATRALGKKHKDFLEELEESRGVMEHLEQQAQG FPEEFRDSPDVTHRLQALRELYQQVVAQADLRQQRLQEALDLYTVFGETDACELWMGEKE KWLAEMEMPDTLEDLEVVQHRFDILDQEMKTLMTQIDGVNLAANSLVESGHPRSREVKQY QDHLNTRWQAFQTLVSERREAVDSALRVHNYCVDCEETSKWITDKTKVVESTKDLGRDLA GIIAIQRKLSGLERDVAAIQARVDALERESQQLMDSHPEQKEDIGQRQKHLEELWQGLQQ SLQGQEDLLGEVSQLQAFLQDLDDFQAWLSITQKAVASEDMPESLPEAEQLLQQHAGIKD EIDGHQDSYQRVKESGEKVIQGQTDPEYLLLGQRLEGLDTGWNALGRMWESRSHTLAQCL GFQEFQKDAKQAEAILSNQEYTLAHLEPPDSLEAAEAGIRKFEDFLGSMENNRDKVLSPV DSGNKLVAEGNLYSDKIKEKVQLIEDRHRKNNEKAQEASVLLRDNLELQNFLQNCQELTL WINDKLLTSQDVSYDEARNLHNKWLKHQAFVAELASHEGWLENIDAEGKQLMDEKPQFTA LVSQKLEALHRLWDELQATTKEKTQHLSAARSSDLRLQTHADLNKWISAMEDQLRSDDPG KDLTSVNRMLAKLKARLGVHVKRVEDQVNVRKEELGELFAQVPSMGEEGGDADLSIEKRF LDLLEPLGRRKKQLESSRAKLQISRDLEDETLWVEERLPLAQSADYGTNLQTVQLFMKKN QTLQNEILGHTPRVEDVLQRGQQLVEAAEIDCQDLEERLGHLQSSWDRLREAAAGRLQRL RDANEAQQYYLDADEAEAWIGEQELYVISDEIPKDEEGAIVMLKRHLRQQRAVEDYGRNI KQLASRAQGLLSAGHPEGEQIIRLQGQVDKHYAGLKDVAEERKRKLENMYHLFQLKRETD DLEQWISEKELVASSPEMGQDFDHVTLLRDKFRDFARETGAIGQERVDNVNAFIERLIDA GHSEAATIAEWKDGLNEMWADLLELIDTRMQLLAASYDLHRYFYTGAEILGLIDEKHREL PEDVGLDASTAESFHRVHTAFERELHLLGVQVQQFQDVATRLQTAYAGEKAEAIQNKEQE VSAAWQALLDACAGRRTQLVDTADKFRFFSMARDLLSWMESIIRQIETQERPRDVSSVEL LMKYHQGINAEIETRSKNFSACLELGESLLQRQHQASEEIREKLQQVMSRRKEMNEKWEA RWERLRMLLEVCQFSRDASVAEAWLIAQEPYLASGDFGHTVDSVEKLIKRHEAFEKSTAS WAERFAALEKPTTLELKERQIAERPAEETGPQEEEGETAGEAPVSHHAATERTSPGEEEG TWPQNLQQPPPPGQHKDGQKSTGDERPTTEPLFKVLDTPLSEGDEPATLPAPRDHGQSVQ MEGYLGRKHDLEGPNKKASNSKGEEGEERRETEEEDEEEEETESVAVEMQQHASHVSWNN LYCVLRNSELTFYKDAKNLALGMPYHGEEPLALRHAICEIAANYKKKKHVFKLRLSNGSE WLFHGKDEEEMLSWLQGVSTAINESQSIRVKAQSLPLPSLSGPDASLGKKDKEKRFSFFP KKK >gi568815584f:64627632_64843700|GENSCAN_predicted_CDS_3|7212_bp atgacatcggccacagagtttgaaaatgtgggcaaccagccaccttacagcaggatcaat gcccgctgggacgccccagacgacgagctggataatgacaacagctcagccaggctcttt gagaggtcccggataaaggccttggcagatgagcgggaagttgttcagaaaaagaccttc acgaaatgggtgaactcgcacctggctcgagtgtcctgccgcatcaccgatctctacaag gacctgcgggatgggcgcatgctcatcaagctgctggaggtgctctctggagagatgctg ccaaagcccaccaaggggaagatgcgcatccactgcctggagaatgtggacaaggctctc cagttcctcaaggagcagcgtgtacacctggagaacatgggctcccacgacattgtagat ggcaaccaccgcctggtcctgggcctcatctggaccatcatcctccgcttccagattcag gacattgtggtccaaactcaggaaggtcgtgaaacacgctcagccaaggatgcgttgctg ttgtggtgtcagatgaagacggcaggctaccctcatgttaatgtcaccaactttacctcc agctggaaggatggcttggcctttaatgccctgatacacaagcaccggcccgacctgatc gactttgataagctgaaggactccaatgcccggcacaacctggagcacgcattcaatgtg gctgagcgccagctgggcatcatcccgctcctcgaccccgaagttgaacttgatgctgga ggaatggggaataaaccctctgagcctgactttcccgacttccagtttggtcctgagagt acacccttttccctaacagatgtctttacggaaaaccctgatgagaaatccatcatcacc tatgtggtggccttttaccactacttctccaagatgaaggtgctggcagtggagggcaag cgtgtcggcaaggttattgaccatgccattgagactgagaagatgattgaaaagtacagc gggctagcctcggacctgctcacctggatcgagcagaccatcactgtcctgaacagccgc aagtttgccaactcgctgacgggcgtccagcagcagctgcaggccttcagcacctaccgc accgtggagaagccgcccaagtttcaagagaaggggaatctggaagttctactttttacc atccagtcccggatgagagccaacaatcagaaagtgtacacaccccacgatgggaaacta gtgtctgacatcaacagggcctgggaaagcctggaggaagctgagtatcggcgggagctg gccctgagaaatgagctcattcggcaggagaagctagagcaactggcccggcgctttgac cggaaggccgcaatgagagagacctggctcagtgaaaaccagcgcctcgtggcccaggat aactttgggtatgacctggcagctgtggaggccgccaagaagaagcatgaggccatcgag accgacacggctgcctacgaggagcgggtgagagccctggaggacctggctcaggagctg gagaaagagaactaccatgaccagaagcgcatcacggcccgcaaggacaatatactgcgc ctatggagctacctgcaggagctgctgcagtcccggcgccagaggctcgagaccaccctg gcactgcagaagctcttccaggacatgctgcacagcatcgactggatggatgagatcaag gctcacctcttgtctgccgagtttgggaagcacttgttggaggttgaagacctgctacag aagcacaagttgatggaagctgacatcgccatccaaggggacaaagtgaaggccatcacc gcagccaccctgaagttcaccgaggggaaagggtaccagccttgtgacccccaggtcatc caggaccgcatcagccacttggagcagtgctttgaggagctgagcaacatggcagctggg cggaaggcccaactggagcagtccaaacgactctggaagttcttctgggagatggatgag gctgagagctggatcaaggagaaggagcagatctattcttccctggactatggcaaagac ctgaccagtgtgctcatcttacagcgcaagcacaaggcctttgaggatgagctccgtggg ctggatgctcacctggagcagatcttccaggaggctcatggcatggttgcgcgcaagcag tttgggcacccgcagatcgaggcccgcataaaggaggtgtcggcacagtgggaccagctg aaggacctggctgccttctgcaagaagaacctccaggatgctgagaactttttccagttc cagggcgatgcggatgacctgaaggcttggctgcaagacgcccaccggctgctctctggt gaagatgtggggcaggacgaaggggccacgcgggccctggggaaaaagcacaaggacttc ctggaggagctggaggagagccgtggggtgatggagcacctggagcagcaggcccaggga ttccccgaagagtttcgggattccccagatgtgacccatcggctgcaggccctgcgggag ctctaccaacaggtggtggcccaggcggacctgcgtcagcagaggctgcaggaagccctg gacctgtacacggtgttcggggagacagacgcctgtgagctgtggatgggagagaaggag aagtggctggccgagatggaaatgccagacaccctggaggacctggaggtcgtgcagcac aggttcgacatcctggaccaggagatgaagaccttgatgactcagattgatggtgtgaac ctcgctgccaacagcttggtagagagtggccacccacgcagcagggaggtgaagcagtac caggaccatctgaacaccaggtggcaggcatttcagaccctggtgtcggagcggcgggag gctgtggactcagccctccgagtgcacaactactgcgtagattgcgaggagaccagcaag tggatcacggacaagacaaaggtagtggagtccacaaaagacctggggcgggacctggca ggtatcatcgccatccagaggaagttgtcagggctggagcgtgacgtggccgccatccag gcccgtgtggatgccctggagcgtgagtcccagcagctgatggactcgcaccctgagcag aaggaggatattggtcagcggcaaaaacacttggaggagctgtggcagggcctgcagcaa tccctgcagggccaggaggacttgctgggggaagtcagccagctgcaggccttcctgcag gatctggatgacttccaggcctggctctccatcacccagaaggctgtggcctctgaggac atgcccgaatccctcccagaggctgagcagctcctgcagcagcatgcaggtatcaaggat gagattgacgggcaccaagacagctaccagcgtgttaaggagtctggggagaaagtgatc caaggccagacggacccagagtatctgcttctgggccagcggctggagggcctggatact ggctggaatgccctgggcaggatgtgggagagccgcagccacaccctcgctcagtgcctt ggcttccaggagttccagaaagatgccaagcaggctgaagccatcctcagcaaccaggaa tacactctggctcacttggagcccccagactccctggaagctgcagaggctgggatccgg aagtttgaggatttcttggggtctatggagaacaaccgggataaggtcttgagtcctgtg gactctggaaacaagctggtagctgagggaaacctatactcagacaagatcaaggagaag gtgcagctgattgaggacaggcacaggaagaacaacgagaaggcccaggaggcctctgtc ctactgagagacaacctggagctacagaacttcctccagaactgccaggagctcactctc tggatcaacgacaagctgctgacatctcaggatgtctcctatgatgaagcacgaaacctt cacaataaatggctaaagcaccaggcgtttgtggcagagctggcttcccatgaagggtgg ctagagaacatcgatgcggaaggaaagcagctgatggatgagaagccccagtttacagcc ctggtgtcccaaaagctggaagccctgcaccggctctgggacgagctgcaggccaccaca aaggagaagacccagcacctctcggctgccaggagctccgacctgcgcttgcagacccat gctgacctcaacaagtggatcagcgccatggaggaccagctgcggtcagacgacccgggc aaggacctgaccagtgtcaatcggatgttggctaagctgaaggcacgtttgggggtacat gtgaagcgagtggaggaccaagtgaatgtgcgaaaagaggagctgggggagctgtttgcc caggtgccttcaatgggagaggagggaggagatgcagacttgagcatcgagaagcggttc ctggacctcctggaacccctaggaaggaggaagaagcagctggaatcatccagagccaag ctgcagatcagccgggacttagaggatgagacgctttgggtggaggagaggctgcctctg gcccagtcagccgactatggcactaatctgcaaactgtgcaactgttcatgaagaagaac cagacactgcagaatgagattctgggccatacgccgcgggttgaggatgtgctgcagaga gggcagcagctggtggaggcggcggagatcgactgccaggaccttgaggagcgcctgggg cacctgcagagctcctgggacaggctgcgggaggcagcggccgggaggctgcagcgactg agggacgccaacgaggcacagcagtactacctggatgcagacgaggctgaggcctggatt ggcgagcaggagctctacgtcatctccgatgagatccccaaggatgaagagggcgccatt gtgatgctgaagcgacatttgcggcagcagcgtgcggtggaggactacggccggaacatc aagcagctggccagccgggcccagggcctgctgtctgcaggccaccctgagggggaacag atcatcagacttcaggggcaagtggacaagcactacgcagggctgaaggacgtggcggaa gagcgcaagcgcaagctggagaacatgtaccacctgttccagctcaagcgggagaccgac gacctggagcagtggatttcagaaaaggagctagtggcctcttccccggaaatggggcaa gactttgaccacgtgactcttctgcgggacaagttccgggactttgcccgggagaccggg gcgattgggcaggagcgggtggacaatgtgaatgccttcatcgagcgactcatcgacgcg ggccacagcgaggcggccaccatcgccgagtggaaggacgggctgaacgagatgtgggca gacctcctggagctcattgacacgcgcatgcagctgctggccgcctcctatgacctgcac cgctacttctacacgggtgccgagatcctgggcctcatcgacgagaagcaccgcgagctg cccgaggacgtggggctggacgccagcacggccgagtccttccaccgggtgcacacagcc ttcgagcgggagctccacctgctgggtgtccaggtgcagcagttccaggacgtggccacc cgtctgcagacagcatatgctggggagaaggcagaggccatccagaacaaggagcaggag gtgtctgccgcgtggcaggcgctgctcgatgcctgtgccgggcgccggacccagctagtg gacacggcggataaattccgcttcttcagcatggcccgtgacctcctctcctggatggag agcatcatccggcagatcgagacccaggagaggcccagggatgtctcctctgtggaactg ctcatgaagtatcaccagggcatcaatgcagagattgaaacccggagcaagaacttcagt gcctgcctggagcttggcgagtccctgctgcagcggcagcaccaggcctcagaggagatc cgcgagaaactgcagcaggtgatgtccaggaggaaagagatgaatgagaagtgggaagcc cgctgggagcggctccgcatgttgctggaggtgtgccagttctcgagggatgcctctgtg gctgaggcgtggctgattgcccaggagccctacctggccagcggggactttggacacaca gtggacagtgtggagaagctcatcaagaggcatgaggcttttgagaagtccacggccagc tgggcagagcgctttgctgccctggagaagcccaccacgcttgagctgaaagaacgccag attgcagagagacccgcagaggagactgggcctcaagaggaggaaggcgagacagcaggg gaggctccagtttcccaccatgcggccaccgagagaacgtccccgggggaagaagaggga acgtggcctcagaacctgcagcagccaccaccgccgggtcagcacaaggatgggcagaaa tccactggggatgagaggcccaccacggagcccctctttaaggtcctagatacgcctctg agcgagggtgatgagcccgcaacgctgccggccccgcgggaccatgggcagagtgtgcag atggaaggctacctgggccgcaagcatgacctggaggggcccaacaagaaggcttccaac agtaagggagaagagggagaggagaggagggagacagaagaggaggatgaagaggaggag gaaacagagtctgttgctgtagaaatgcagcaacatgcttcccacgtgtcctggaacaac ctgtactgtgtgctcaggaacagtgagctaaccttctacaaggatgccaagaacctggcc ctggggatgccctaccatggggaggaacccctggccctgagacatgccatctgtgagatt gctgccaactacaagaagaagaagcacgtctttaagctgaggctgagtaatggcagcgag tggctcttccatggcaaggatgaggaggagatgctgtcctggctgcagggcgtgagcacc gccatcaacgagtcccagagcatccgcgtcaaggcgcagagcctgcccctgccttccctc tccggccccgacgccagcctcggcaagaaagacaaggagaagagattcagcttcttcccc aaaaagaagtag