Result of GENSCAN for
pF1KA0611
GENSCAN 1.0 Date run: 2-Nov-116 Time: 19:27:15 Sequence gi568815578r:51501214_51829979 : 328766 bp : 47.02% 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 Intr + 1786 1955 170 1 2 44 52 108 0.122 2.39 1.02 Term + 8312 8370 59 0 2 131 39 91 0.803 6.35 1.03 PlyA + 8504 8509 6 -0.45 2.38 PlyA - 9408 9403 6 1.05 2.37 Term - 10217 10146 72 2 0 37 42 79 0.059 -3.89 2.36 Intr - 15742 15571 172 0 1 68 80 141 0.389 11.25 2.35 Intr - 22897 21868 1030 2 1 107 99 898 0.522 82.43 2.34 Intr - 41305 41157 149 0 2 81 71 261 0.983 23.58 2.33 Intr - 41766 41671 96 2 0 27 62 102 0.477 0.62 2.32 Intr - 57873 57701 173 0 2 94 92 1 0.154 -0.16 2.31 Intr - 61869 61692 178 2 1 89 51 184 0.770 14.72 2.30 Intr - 69768 69627 142 1 1 43 50 113 0.054 2.41 2.29 Intr - 90760 90646 115 1 1 63 105 21 0.080 1.32 2.28 Intr - 100134 100079 56 1 2 153 53 80 0.029 9.70 2.27 Intr - 103807 103604 204 2 0 86 103 474 0.998 47.87 2.26 Intr - 106371 106314 58 0 1 111 116 -5 0.989 3.06 2.25 Intr - 107413 107305 109 0 1 107 18 158 0.968 10.99 2.24 Intr - 108952 108888 65 1 2 84 82 9 0.505 -2.58 2.23 Intr - 112619 112464 156 2 0 50 109 131 0.934 11.61 2.22 Intr - 116341 116277 65 2 2 78 100 60 0.971 4.64 2.21 Intr - 117593 117449 145 2 1 105 68 255 0.969 25.06 2.20 Intr - 117830 117741 90 2 0 127 83 114 0.979 14.99 2.19 Intr - 120959 120861 99 2 0 53 63 113 0.958 5.61 2.18 Intr - 124149 123979 171 0 0 87 97 376 0.999 38.54 2.17 Intr - 126470 126387 84 2 0 74 100 125 0.989 12.32 2.16 Intr - 127859 127767 93 2 0 112 107 135 0.735 17.96 2.15 Intr - 138291 138130 162 0 0 90 100 205 0.976 22.07 2.14 Intr - 155937 155725 213 0 0 90 82 377 0.906 36.21 2.13 Intr - 168896 168784 113 0 2 98 103 83 0.990 10.90 2.12 Intr - 170044 169902 143 0 2 53 99 171 0.994 14.70 2.11 Intr - 173100 172940 161 0 2 103 87 249 0.998 25.09 2.10 Intr - 174995 174919 77 0 2 116 93 -9 0.345 1.63 2.09 Intr - 187926 187851 76 0 1 100 94 150 0.817 15.89 2.08 Intr - 189606 189526 81 0 0 95 91 127 0.983 13.53 2.07 Intr - 192889 192795 95 2 2 97 78 122 0.999 11.78 2.06 Intr - 194931 194880 52 0 1 68 49 58 0.903 -1.62 2.05 Intr - 196269 196211 59 1 2 85 105 90 0.926 9.00 2.04 Intr - 211861 211663 199 1 1 97 64 291 0.842 26.52 2.03 Intr - 224719 224606 114 1 0 126 119 20 0.970 9.54 2.02 Intr - 228765 228621 145 2 1 117 71 72 0.868 8.68 2.01 Init - 233024 233020 5 2 2 68 64 0 0.220 -4.93 2.00 Prom - 233090 233051 40 -2.16 3.00 Prom + 233428 233467 40 -11.72 3.01 Init + 233520 233736 217 2 1 79 -21 309 0.560 17.95 3.02 Term + 235791 235891 101 1 2 30 43 107 0.475 -1.31 3.03 PlyA + 236418 236423 6 1.05 4.04 PlyA - 238855 238850 6 1.05 4.03 Term - 250947 250878 70 2 1 116 48 58 0.176 2.01 4.02 Intr - 267421 267089 333 0 0 65 100 265 0.925 20.09 4.01 Init - 268128 268013 116 0 2 48 96 73 0.923 3.78 4.00 Prom - 271047 271008 40 -5.46 5.05 PlyA - 271726 271721 6 1.05 5.04 Term - 283471 283052 420 1 0 104 49 363 0.988 29.29 5.03 Intr - 287928 287648 281 1 2 87 98 220 0.978 20.10 5.02 Intr - 291139 288809 2331 2 0 100 54 2199 0.992 205.05 5.01 Init - 301195 301066 130 1 1 91 92 210 0.999 22.01 Suboptimal exons with probability > 0.800 Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr.. ----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------ S.001 Term - 100134 99998 137 1 2 153 47 122 0.924 12.78 Predicted peptide sequence(s): Predicted coding sequence(s): >gi568815578r:51501214_51829979|GENSCAN_predicted_peptide_1|76_aa XKVKCAEQYAKSFIHYNSDNDGNKDHEYNLKHKHRLSLAGCPENQWHWGLGRRGGHLGGP MEPSVDANTAALIKTN >gi568815578r:51501214_51829979|GENSCAN_predicted_CDS_1|231_bp nngaaggtaaaatgtgctgagcagtatgccaaatccttcatacattataattctgataat gacggcaacaaagaccacgaatacaacctcaagcacaaacacagactatctctggcggga tgtccagagaaccaatggcactggggcttaggaagacgaggtggccacctaggaggtcca atggaaccttctgtagatgccaacacagcagccctgatcaagacaaattag >gi568815578r:51501214_51829979|GENSCAN_predicted_peptide_2|1738_aa MRCCEWLRCCGGGEARPRTVWLGHPEKRDQRYPRNVINNQKYNFFTFLPGVLFNQFKYFF NLYFLLLACSQFVPEMRLGALYTYWVPLGFVLAVTVIREAVEEIRCYVRDKEVNSQVYSR LTARGQPSGSWATGLQLNHGPLTVRGEEFKARAAGTVKVKSSNIQVGDLIIVEKNQRVPA DMIFLRTSEKNGSCFLRTDQLDGETDWKLRLPVACTQRLPTAADLLQIRSYVYAEEPNID IHNFVGTFTREDSDPPISESLSIENTLWAGTVVASGTVVGVVLYTGRELRSVMNTSNPRS KIGLFDLEVNCLTKILFGALVVVSLVMVALQHFAGRWYLQIIRFLLLFSNIIPISLRVNL DMGKIVYSWVIRRDSKIPGTVVRSSTIPEQLGRISYLLTDKTGTLTQNEMIFKRLHLGTV AYGLDSMDEVQSHIFSIYTQQSQDPPAQKGPTLTTKVRRTMSSRVHEAVKAIALCHNVTP VYESNGVTDQAEAEKQYEDSCRVYQASSPDEVALVQWTESVGLTLVGRDQSSMQLRTPGD QILNFTILQIFPFTYESKRMGIIVRDESTGEITFYMKGADVVMAGIVQYNDWLEEECGNM AREGLRVLVVAKKSLAEEQYQDFEARYVQAKLSVHDRSLKVATVIESLEMEMELLCLTGV EDQLQADVRPTLETLRNAGIKVWMLTGDKLETATCTAKNAHLVTRNQDIHVFRLVTNRGE AHLELNAFRRKHDCALVISGDSLEVCLKYYEYEFMELACQCPAVVCCRCAPTQKAQIVRL LQERTGKLTCAVGDGGNDVSMIQESDCGVGVEGKEGKQASLAADFSITQFKHLGRLLMVH GRNSYKRSAALSQFVIHRSLCISTMQAVFSSVFYFASVPLYQGFLIIGYSTIYTMFPVFS LVLDKDVKSEVAMLYPELYKDLLKGRPLSYKTFLIWVLISIYQGSTIMYGALLLFESEFV HIVAISFTSLILTELLMVALTIQTWHWLMTVAELLSLACYIASLVFLHEFIDVYFIATLS FLWKVSVITLIFKKAIGVANDIQNPVDSSGAGGGGLNWPKQLIRPKERGKSSPSLRAGAF LGLPLATVTSQFSSWEQRGSPVDGQAVTGNLLSAALLFSRTIRDLCWRPKEPRSWLAAEE ATSWIPECEVCRKALSFGDGRDPVVSMALDKQEETEGKPLQLASLSSQTPERITLSPDTP MTNFIKNFLWLDYKPPEARDRVSYFCESPLGPRPWFAQRVSHSPVEGGRQRPPQRPAVAR DSVVSLPALRAMNAPERQPQPDGGDAPGHEPGGSPQDELDFSILFDYEYLNPNEEEPNAH KVASPPSGPAYPDDVLDYGLKPYSPLASLSGEPPGRFGEPDRVGPQKFLSAAKPAGASGL SPRIEITPSHELIQAVGPLRMRDAGLLVEQPPLAGVAASPRFTLPVPGFEGYREPLCLSP ASSGSSASFISDTFSPYTSPCVSPNNGGPDDLCPQFQNIPAHYSPRTSPIMSPRTSLAED SCLGRHSPVPRPASRSSSPGAKRRHSCAEALVALPPGASPQRSRSPSPQPSSHVAPQDHG SPAGYPPVAGSAVIMDALNSLATDSPCGIPPKMWKTSPDPSPVSAAPSKAGLPRHIYPAV EFLGPCEQGERRNSAPESILLVPPTWPKPLVPAIPICSIPVTASLPPLEWPLSSQSGSYE LRIEVQPKPHHRAHYETEGSRGAVKAPTGGHPVVQACGMPRGHTLHHQRPQQAPTCKD >gi568815578r:51501214_51829979|GENSCAN_predicted_CDS_2|5217_bp atgaggtgctgcgagtggctgagatgctgcggtggaggggaggccaggccccgcactgtc tggctggggcaccccgagaagagagaccagaggtatcctcggaatgtcatcaacaatcag aagtacaatttcttcacctttcttcctggggtgctgttcaaccagttcaaatactttttc aacctctatttcttacttcttgcctgctctcagtttgttcccgaaatgagacttggtgca ctctatacctactgggttcccctgggcttcgtgctggccgtcactgtcatccgtgaggcg gtggaggagatccgatgctacgtgcgggacaaggaagtcaactcccaggtctacagccgg ctcacagcacgaggtcagccttctggctcctgggccacagggttgcagctcaatcacggg ccgctgacagtcaggggagaagagttcaaggcccgggccgcaggcacagtgaaggtgaag agttctaacatccaagttggagaccttatcatcgttgaaaagaaccagcgggtccctgcc gacatgatcttcctgaggacatcagaaaaaaacgggtcatgcttcttgcggacggatcag ctggatggggagacggactggaagctgcggcttcccgtggcctgcacgcagaggctcccc acggccgccgaccttcttcagattcgatcgtatgtgtacgcagaagagccaaatattgac attcacaacttcgtgggaacttttacccgagaagacagcgaccccccgatcagcgagagc ctgagcatagagaacacgctgtgggctggcactgtggtcgcatcaggtactgttgtgggt gttgttctttacactggcagagaactccggagtgtcatgaatacctcaaatccccgaagt aagatcggcctgttcgacttggaagtgaactgcctcaccaagatcctctttggtgccctg gtggtggtctcgctggtcatggttgcccttcagcactttgcaggccgttggtacctgcag atcatccgcttcctcctcttgttttccaacatcatccccattagtttgcgtgtgaacctg gacatgggcaagatcgtgtacagctgggtgattcgaagggactcgaaaatccccgggacc gtggttcgctccagcacgattcctgagcagctgggcaggatttcgtacttactcacagac aagacaggcactcttacccagaacgagatgattttcaaacggctccatctcggaacagta gcctacggcctcgactcaatggacgaagtacaaagccacattttcagcatttacacccag caatcccaggacccaccggctcagaagggcccaacgctcaccactaaggtccggcggacc atgagcagccgcgtgcacgaagccgtgaaggccatcgcgctctgccacaacgtgactccc gtgtatgagtccaacggtgtgactgatcaggctgaggccgagaagcagtacgaagactcc tgccgcgtataccaggcatccagccccgatgaggtggccctggtacagtggacggaaagt gtgggcttaaccctggtgggccgagaccagtcttccatgcagctgaggacccctggcgac cagatcctgaacttcaccatcctacagatcttccctttcacctatgaaagcaaacgtatg ggcatcatcgtgcgggatgaatcaactggagaaattacgttttacatgaagggagcagat gtggtcatggctggcattgtgcagtacaatgactggttggaggaagagtgtggcaacatg gcccgagaagggctgcgggtgctcgtggtggcaaagaagtctcttgcagaggagcagtat caggactttgaagcccgctacgtccaggccaagctgagtgtgcacgaccgctccctcaaa gtggccacggtgatcgagagcctggagatggagatggaactgctgtgcctgacgggcgtg gaggaccagctgcaggcagatgtgcggcccacgctggagaccctgaggaatgctggcatc aaggtttggatgctgacaggggacaagctggagacagctacgtgcacagcgaagaatgca catctggtgaccagaaaccaagacatccacgtttttcggctggtgaccaaccgcggggag gctcacctcgagctgaacgccttccgcaggaagcatgattgtgccctggtcatctcggga gactccctggaggtttgcctcaagtactatgagtacgagttcatggagctggcctgccag tgcccggccgtagtctgctgccgatgtgcccccacccagaaggcccagatcgtgcgcctg cttcaggagcgcacgggcaagctcacctgtgcagtaggggacggaggcaatgacgtcagc atgattcaggaatctgactgcggcgtgggagtggaaggaaaggaaggaaaacaggcttcg ttggctgcagacttctccatcactcaatttaagcatcttggccggttgcttatggtgcat ggccggaacagctacaagcggtcagccgccctcagccagttcgtgattcacaggagcctc tgtatcagcaccatgcaggctgtcttttcctccgtgttttactttgcctccgtccctctc tatcaaggattcctcatcattgggtactccacaatttacaccatgtttcctgtgttttct ctggtcctggacaaagatgtcaaatcggaagttgccatgctgtatcctgagctctacaag gatcttctcaagggacggccgttgtcctacaagacattcttaatatgggttttgattagc atctatcaagggagcaccatcatgtacggggcgctgctgctgtttgagtcggagttcgtg cacatcgtggccatctccttcacctcgctgatcctcaccgagctgctcatggtggcgctg accatccagacctggcactggctcatgacagtggcggagctgctcagcctggcctgctac atcgcctccctggtgttcttacacgagttcatcgatgtgtacttcatcgccaccttgtca ttcttgtggaaagtctccgtcatcactctgatttttaaaaaggcaattggagtagctaat gacatccagaaccccgttgattcgagtggggctgggggtgggggcttaaattggcccaaa cagctaatcaggccgaaagaaagaggaaaatcttctccatctctgagggccggggcgttc ctagggctgccgctggccactgtcacatctcagttcagcagctgggagcagcgagggagc cccgtggatgggcaggctgtcaccggaaacttgctgtcagcagccctacttttctcccga acaatcagggacttgtgctggcggccgaaggagccacggagctggctggccgcggaggag gcgacgtcatggattcctgagtgtgaagtttgcaggaaagcccttagttttggagatgga cgggatccagtggtttccatggcgctggataaacaggaggaaacagaagggaagcccctc cagcttgcaagcctctcttctcagactccagagagaatcacactttcaccagacactccc atgactaactttattaagaactttctttggctagattacaagccccctgaggccagggat cgggtctcctatttctgtgagtctccactgggtcccagaccctggttcgcgcagcgcgtg tcgcactcacccgtggagggtgggagacagcggccgccccagcgcccagcggtggcccgg gacagtgtggtcagccttcccgccctgcgcgccatgaacgcccccgagcggcagccccaa cccgacggcggggacgccccaggccacgagcctgggggcagcccccaagacgagcttgac ttctccatcctcttcgactatgagtatttgaatccgaacgaagaagagccgaatgcacat aaggtcgccagcccaccctccggacccgcataccccgatgatgtcctggactatggcctc aagccatacagcccccttgctagtctctctggcgagccccccggccgattcggagagccg gatagggtagggccgcagaagtttctgagcgcggccaagccagcaggggcctcgggcctg agccctcggatcgagatcactccgtcccacgaactgatccaggcagtggggcccctccgc atgagagacgcgggcctcctggtggagcagccgcccctggccggggtggccgccagcccg aggttcaccctgcccgtgcccggcttcgagggctaccgcgagccgctttgcttgagcccc gctagcagcggctcctctgccagcttcatttctgacaccttctccccctacacctcgccc tgcgtctcgcccaataacggcgggcccgacgacctgtgtccgcagtttcaaaacatccct gctcattattcccccagaacctcgccaataatgtcacctcgaaccagcctcgccgaggac agctgcctgggccgccactcgcccgtgccccgtccggcctcccgctcctcatcgcctggt gccaagcggaggcattcgtgcgccgaggccttggttgccctgccgcccggagcctcaccc cagcgctcccggagcccctcgccgcagccctcatctcacgtggcaccccaggaccacggc tccccggctgggtacccccctgtggctggctctgccgtgatcatggatgccctgaacagc ctcgccacggactcgccttgtgggatcccccccaagatgtggaagaccagccctgacccc tcgccggtgtctgccgccccatccaaggccggcctgcctcgccacatctacccggccgtg gagttcctggggccctgcgagcagggcgagaggagaaactcggctccagaatccatcctg ctggttccgcccacttggcccaagccgctggtgcctgccattcccatctgcagcatccca gtgactgcatccctccctccacttgagtggccgctgtccagtcagtcaggctcttacgag ctgcggatcgaggtgcagcccaagccacatcaccgggcccactatgagacagaaggcagc cgaggggctgtcaaagctccaactggaggccaccctgtggttcaggcctgtgggatgcct cggggccacacgctgcatcaccagaggccccagcaagcacccacttgcaaggactga >gi568815578r:51501214_51829979|GENSCAN_predicted_peptide_3|105_aa MHFAKKYKKKCMKKMQANTTKALSAHAEAIKTLVKSKEVKPKISKGVGSKIHRLAYIAHS KLGTHAHARTAKGTSTIPIVTVDKVSPRGLSDLPKIICYIRSLSY >gi568815578r:51501214_51829979|GENSCAN_predicted_CDS_3|318_bp atgcactttgccaagaagtacaagaagaagtgcatgaagaagatgcaggccaacaccacc aaggccctgagtgcacacgccgaggctatcaagacccttgtaaagtccaaagaggttaag cccaagatctcaaagggtgtcggcagcaaaattcatcgacttgcctacattgcccactcc aaacttgggacgcatgctcatgcccgcactgctaagggtactagcaccattcccattgtt acagtggataaagtgagccccagaggactcagtgacctgcccaaaatcatctgctacatc cgctctctctcctactaa >gi568815578r:51501214_51829979|GENSCAN_predicted_peptide_4|172_aa MQGDCLRPESGAHVQAQESGWCENEGVQTIEGCLDERGRRGAARSERAQRGARAHGAPVS VGRAARALRAWPGARELAPSLRARPARCRRLLPRGGAAPAGGGAEAGPGGGPGGAGGAAA KAGGAADMTDNIPLQPVRQKKRMDSRPRAGSQLSCVFGTSFQTIHSVGATYR >gi568815578r:51501214_51829979|GENSCAN_predicted_CDS_4|519_bp atgcagggtgactgtctgaggcctgagagtggggcccatgtgcaagcccaagaaagtggc tggtgtgagaatgagggtgttcagactattgaagggtgtttggatgaaagaggcaggcgc ggcgcggcgcggagcgagcgggcgcagcgcggagctcgggcccatggtgcgcccgtgtcc gtcggtcgggccgcgcgggcgctccgcgcgtggcccggcgctcgcgagctcgccccctcg ctgcgggcccggcccgcccgctgccgccgcctcctcccccggggcggcgcggcgccggcg ggcggcggcgcggaggccggaccgggcggcggcccaggcggcgcggggggcgcggcggcc aaggcgggcggcgccgccgacatgacggacaacatcccgctgcagccggtgcgccagaag aagcggatggacagcaggccccgcgccgggtctcagctcagctgtgtctttgggacatct ttccagaccattcactctgtaggagccacctaccgctga >gi568815578r:51501214_51829979|GENSCAN_predicted_peptide_5|1053_aa MSRRKQAKPQHINSEEDQGEQQPQQQTPEFADAAPAAPAAGELGAPVNHPGNDEVASEDE ATVKRLRREETHVCEKCCAEFFSISEFLEHKKNCTKNPPVLIMNDSEGPVPSEDFSGAVL SHQPTSPGSKDCHRENGGSSEDMKEKPDAESVVYLKTETALPPTPQDISYLAKGKVANTN VTLQALRGTKVAVNQRSADALPAPVPGANSIPWVLEQILCLQQQQLQQIQLTEQIRIQVN MWASHALHSSGAGADTLKTLGSHMSQQVSAAVALLSQKAGSQGLSLDALKQAKLPHANIP SATSSLSPGLAPFTLKPDGTRVLPNVMSRLPSALLPQAPGSVLFQSPFSTVALDTSKKGK GKPPNISAVDVKPKDEAALYKHKCKYCSKVFGTDSSLQIHLRSHTGERPFVCSVCGHRFT TKGNLKVHFHRHPQVKANPQLFAEFQDKVAAGNGIPYALSVPDPIDEPSLSLDSKPVLVT TSVGLPQNLSSGTNPKDLTGGSLPGDLQPGPSPESEGGPTLPGVGPNYNSPRAGGFQGSG TPEPGSETLKLQQLVENIDKATTDPNECLICHRVLSCQSSLKMHYRTHTGERPFQCKICG RAFSTKGNLKTHLGVHRTNTSIKTQHSCPICQKKFTNAVMLQQHIRMHMGGQIPNTPLPE NPCDFTGSEPMTVGENGSTGAICHDDVIESIDVEEVSSQEAPSSSSKVPTPLPSIHSASP TLGFAMMASLDAPGKVGPAPFNLQRQGSRENGSVESDGLTNDSSSLMGDQEYQSRSPDIL ETTSFQALSPANSQAESIKSKSPDAGSKAESSENSRTEMEGRSSLPSTFIRAPPTYVKVE VPGTFVGPSTLSPGMTPLLAAQPRRQAKQHGCTRCGKNFSSASALQIHERTHTGEKPFVC NICGRAFTTKGNLKVHYMTHGANNNSARRGRKLAIENTMALLGTDGKRVSEIFPKEILAP SVNVDPVVWNQYTSMLNGGLAVKTNEISVIQSGGVPTLPVSLGATSVVNNATVSKMDGSQ SGISADVEKPSATDGVPKHQFPHFLEENKIAVS >gi568815578r:51501214_51829979|GENSCAN_predicted_CDS_5|3162_bp atgtcgaggcgcaagcaggcgaaaccccagcacatcaactcggaggaggaccagggcgag cagcagccgcagcagcagaccccggagtttgcagatgcggccccagcggcgcccgcggcg ggggagctgggtgctccagtgaaccacccagggaatgacgaggtggcgagtgaggatgaa gccacagtaaagcggcttcgtcgggaggagacgcacgtctgtgagaaatgctgtgcggag ttcttcagcatctctgagttcctggaacataagaaaaattgcactaaaaatccacctgtc ctcatcatgaatgacagcgaggggcctgtgccttcagaagacttctccggagctgtactg agccaccagcccaccagtcccggcagtaaggactgtcacagggagaatggcggcagctca gaggacatgaaggagaagccggatgcggagtctgtggtgtacctaaagacagagacagcc ctgccacccaccccccaggacataagctatttagccaaaggcaaagtggccaacactaat gtgaccttgcaggcactacggggcaccaaggtggcggtgaatcagcggagcgcggatgca ctccctgcccccgtgcctggtgccaacagcatcccgtgggtcctcgagcagatcttgtgt ctgcagcagcagcagctacagcagatccagctcaccgagcagatccgcatccaggtgaac atgtgggcctcccacgccctccactcaagcggggcaggggccgacactctgaagaccttg ggcagccacatgtctcagcaggtttctgcagctgtggctttgctcagccagaaagctgga agccaaggtctgtctctggatgccttgaaacaagccaagctacctcacgccaacatccct tctgccaccagctccctgtccccagggctggcacccttcactctgaagccggatgggacc cgggtgctcccgaacgtcatgtcccgcctcccgagcgctttgcttcctcaggccccgggc tcggtgctcttccagagccctttctccactgtggcgctagacacatccaagaaagggaag gggaagccaccgaacatctccgcggtggatgtcaaacccaaagacgaggcggccctctac aagcacaagtgtaagtactgtagcaaggtttttgggactgatagctccttgcagatccac ctccgctcccacactggagagagacccttcgtgtgctctgtctgtggtcatcgcttcacc accaagggcaacctcaaggtgcactttcaccgacatccccaggtgaaggcaaacccccag ctgtttgccgagttccaggacaaagtggcggccggcaatggcatcccctatgcactctct gtacctgaccccatagatgaaccgagtctttctttagacagcaaacctgtccttgtaacc acctctgtagggctacctcagaatctttcttcggggactaatcccaaggacctcacgggt ggctccttgcccggtgacctgcagcctgggccttctccagaaagtgagggtggacccaca ctccctggggtgggaccaaactataattccccaagggctggtggcttccaagggagtggg acccctgagccagggtcagagaccctgaaattgcagcagttggtggagaacattgacaag gccaccactgatcccaacgaatgtctcatttgccaccgagtcttaagctgtcagagctcc ctcaagatgcattatcgcacccacaccggggagagaccgttccagtgtaagatctgtggc cgagccttttctaccaaaggtaacctgaagacacaccttggggttcaccgaaccaacaca tccattaagacgcagcattcgtgccccatctgccagaagaagttcactaatgccgtgatg ctgcagcaacatattcggatgcacatgggcggtcagattcccaacacgcccctgccagag aatccctgtgactttacgggttctgagccaatgaccgtgggtgagaacggcagcaccggc gctatctgccatgatgatgtcatcgaaagcatcgatgtagaggaagtcagctcccaggag gctcccagcagctcctccaaggtccccacgcctcttcccagcatccactcggcatcaccc acgctagggtttgccatgatggcttccttagatgccccagggaaagtgggtcctgcccct tttaacctgcagcgccagggcagcagagaaaacggttccgtggagagcgatggcttgacc aacgactcatcctcgctgatgggagaccaggagtatcagagccgaagcccagatatcctg gaaaccacatccttccaggcactctccccggccaatagtcaagccgaaagcatcaagtca aagtctcccgatgctgggagcaaagcagagagctccgagaacagccgcactgagatggaa ggtcggagcagtctcccttccacgtttatccgagccccgccgacctatgtcaaggttgaa gttcctggcacatttgtgggaccctcgacattgtccccagggatgacccctttgttagca gcccagccacgccgacaggccaagcaacatggctgcacacggtgtgggaagaacttctcg tctgctagcgctcttcagatccacgagcggactcacactggagagaagccttttgtgtgc aacatttgtgggcgagcttttaccaccaaaggcaacttaaaggttcactacatgacacac ggggcgaacaataactcagcccgccgtggaaggaagttggccatcgagaacaccatggct ctgttaggtacggacggaaaaagagtctcagaaatctttcccaaggaaatcctggcccct tcagtgaatgtggaccctgttgtgtggaaccagtacaccagcatgctcaatggcggtctg gccgtgaagaccaatgagatctctgtgatccagagtgggggggttcctaccctcccggtt tccttgggggccacctccgttgtgaataacgccactgtctccaagatggatggctcccag tcgggtatcagtgcagatgtggaaaaaccaagtgctactgacggcgttcccaaacaccag tttcctcacttcctggaagaaaacaagattgcggtcagctaa