GENSCAN 1.0	Date run:  5-Nov-116	Time: 07:58:19

Sequence gi568815596r:162070982_162342994 : 272013 bp : 37.62% C+G : Isochore 1 ( 0 - 43 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 +   2434   2602  169  1  1   66   75    80 0.272   3.53
 1.02 Intr +   2711   3019  309  1  0   55   55   241 0.677  13.08
 1.03 Term +   3409   3558  150  0  0   79   48    84 0.808   0.43
 1.04 PlyA +   3824   3829    6                               1.05

 2.02 PlyA -   4039   4034    6                               1.05
 2.01 Sngl -   6684   6430  255  0  0   87   42   210 0.776   9.19
 2.00 Prom -   6956   6917   40                              -7.75

 3.00 Prom +   7081   7120   40                              -5.85
 3.01 Init +  22337  22471  135  1  0   73   89   121 0.714  10.89
 3.02 Term +  33194  33469  276  1  0  107   41   119 0.044   3.58
 3.03 PlyA +  34775  34780    6                               1.05

 4.00 Prom +  39326  39365   40                              -3.25
 4.01 Init +  47567  47756  190  1  1   60   66   136 0.459   7.82
 4.02 Intr +  49252  49298   47  2  2  102   94     8 0.082   0.01
 4.03 Intr +  54937  55028   92  0  2   49   90    56 0.039  -0.23
 4.04 Intr +  55872  56010  139  0  1   70   80    77 0.510   4.65
 4.05 Term +  69960  70115  156  2  0   14   47   113 0.002  -3.25
 4.06 PlyA +  71642  71647    6                               1.05

 5.50 PlyA -  71919  71914    6                               1.05
 5.49 Term -  73189  73042  148  0  1   29   42   164 0.292   2.29
 5.48 Intr -  74696  74559  138  1  0   88   89   169 0.994  15.66
 5.47 Intr -  76533  76372  162  2  0   64  110   106 0.985   8.57
 5.46 Intr -  78206  78106  101  2  2   99   67    58 0.472   2.79
 5.45 Intr -  98740  98573  168  1  0   63   63   106 0.457   4.82
 5.44 Intr - 101903 101830   74  0  2  121   43    61 0.899   3.11
 5.43 Intr - 102240 102168   73  0  1  112   77    55 0.969   4.86
 5.42 Intr - 113633 113603   31  1  1   84  102    20 0.059   0.21
 5.41 Intr - 117382 117188  195  0  0   90   99   189 0.387  17.81
 5.40 Intr - 118191 118122   70  1  1   67   31    34 0.155  -7.08
 5.39 Intr - 118773 118675   99  1  0   42   46   121 0.140   2.46
 5.38 Intr - 123199 123037  163  1  1   96    9    93 0.127   0.83
 5.37 Intr - 123767 123720   48  2  0  116   73    34 0.732   2.66
 5.36 Intr - 127342 127198  145  0  1   50   97    74 0.521   3.86
 5.35 Intr - 127900 127772  129  0  0   92   65   125 0.538   9.49
 5.34 Intr - 129638 129585   54  1  0   74   91    58 0.386   1.88
 5.33 Intr - 131961 131891   71  0  2   72   93     3 0.335  -3.74
 5.32 Intr - 143092 142957  136  0  1   93   97    51 0.843   6.15
 5.31 Intr - 145020 144917  104  0  2   84   63    85 0.957   3.65
 5.30 Intr - 147159 147005  155  1  2   48   95   134 0.078   8.97
 5.29 Intr - 148202 148082  121  2  1   44  121    -8 0.050  -2.75
 5.28 Intr - 153559 153485   75  1  0   57   64   102 0.076   3.49
 5.27 Intr - 159835 159767   69  1  0   54   89    55 0.050   0.66
 5.26 Intr - 164395 164202  194  2  2   21   46   152 0.046   2.59
 5.25 Intr - 175055 175003   53  1  2   97   72    38 0.190   0.73
 5.24 Intr - 182699 182485  215  2  2   39   54   174 0.106   5.69
 5.23 Intr - 196588 196498   91  0  1   90  109    70 0.991   8.38
 5.22 Intr - 197296 197106  191  1  2   91   89    57 0.993   3.56
 5.21 Intr - 201406 201245  162  1  0   88   67   221 0.994  19.25
 5.20 Intr - 202963 202814  150  1  0   55   88   197 0.975  15.84
 5.19 Intr - 205965 205706  260  1  2   46   75   137 0.976   4.46
 5.18 Intr - 206712 206434  279  1  0   70   91   333 0.989  28.33
 5.17 Intr - 207347 207224  124  2  1   41   86    56 0.857  -0.06
 5.16 Intr - 209131 209015  117  1  0   72   19   123 0.792   3.54
 5.15 Intr - 210564 210347  218  1  2   52  106   147 0.997  10.20
 5.14 Intr - 211595 211385  211  2  1   75   82   164 0.992  12.06
 5.13 Intr - 217374 217154  221  1  2   99   61   199 0.998  15.40
 5.12 Intr - 222687 222583  105  1  0   85   84   106 0.983   9.17
 5.11 Intr - 228960 228841  120  1  0   12   58   122 0.051   1.15
 5.10 Intr - 235874 235728  147  0  0   51   80   130 0.144   7.79
 5.09 Intr - 239952 239784  169  0  1   78   68   159 0.939  11.50
 5.08 Intr - 247205 246874  332  0  2   94   77   421 0.080  36.02
 5.07 Intr - 247450 247246  205  1  1   52   49   179 0.566   8.25
 5.06 Intr - 254703 254592  112  2  1    3   69   124 0.662   1.46
 5.05 Intr - 256354 256177  178  2  1   63   61   150 0.799   7.86
 5.04 Intr - 257181 256983  199  0  1   59   40   178 0.642   8.10
 5.03 Intr - 257872 257752  121  0  1   48   75    77 0.117   1.98
 5.02 Intr - 263221 263014  208  2  1   61   15   103 0.034  -2.49
 5.01 Intr - 263522 263415  108  0  0   70   80    57 0.385   2.44

Suboptimal exons with probability > 0.800

Exnum Type S .Begin ...End .Len Fr Ph B/Ac Do/T CodRg P.... Tscr..
----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------

S.001 Init -  90387  90165  223  0  1   71   75   121 0.888   7.86
S.002 Init - 147154 147005  150  1  0   52   95   139 0.907  11.09
S.003 Init - 228925 228841   85  1  1   91   58   114 0.889   9.73


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815596r:162070982_162342994|GENSCAN_predicted_peptide_1|209_aa
XTTGTVMMVTSAAAPSSPRRTFHGVCKPSRSSPIRGKRVAPVSVGGSGLLQRQQDLQSTL
ALVSLPLPGFGRAFCEWLSGTFKARRQGPSRSQGPKAKRELWDVPSPVRGWPWGFRLRGV
PGPVSPAFGPFGEFGEEVPTARPGDVRGAALTFIVGVSSELKMTSAFSSSNLTWTGEGTE
TQRGQGTLANSHSPPQATGTETQDSVSCQ

>gi568815596r:162070982_162342994|GENSCAN_predicted_CDS_1|630_bp
nnaaccacgggcacggtgatgatggtgacaagcgcagcagcacccagcagtcccagaaga
accttccacggtgtctgcaagccgagcagatcaagtccaattagagggaagcgtgtggcc
ccagtttccgtaggagggtcggggctgctccagaggcagcaggatttgcagagcacatta
gcgttggtttctctacccctgcccgggttcgggcgtgcgttctgtgagtggctctccggg
acattcaaagctcgacgccagggtcctagcagaagccagggtccgaaagctaagcgagag
ctctgggacgtcccttcacctgtcagagggtggccttggggcttccgcctaaggggagtc
cctggtccggtttcgccagcttttgggccatttggggagtttggcgaagaggtccccaca
gctcgccccggggacgtacgtggcgcggcactcaccttcatcgtcggcgtctcctcggaa
ctaaaaatgacgtcggcgttcagctcctccaacctcacgtggacaggcgagggaaccgag
acccagagagggcaggggactttggcaaactcacacagcccaccgcaggcaactggaact
gaaacccaggactccgtctcttgccagtga

>gi568815596r:162070982_162342994|GENSCAN_predicted_peptide_2|84_aa
MVVLGWIPPALPLRRVWVQWTRSCSIFIEVETQKQRFQQLVHQMTELCWEKCMDKPGPKL
DSRAEACFVNCIERFIDTSQFILN

>gi568815596r:162070982_162342994|GENSCAN_predicted_CDS_2|255_bp
atggttgtcctgggatggattcctcctgctcttcctctgcggcgggtttgggtgcagtgg
acccgcagttgcagcattttcattgaggtagagactcaaaagcagcgcttccagcagctg
gtgcaccagatgactgaactttgttgggagaagtgcatggacaagcctgggccaaagttg
gacagtcgggctgaggcctgttttgtgaactgcattgagcgcttcattgatacaagccag
ttcatcttgaattga

>gi568815596r:162070982_162342994|GENSCAN_predicted_peptide_3|136_aa
MTQVLKNMIHATKNTLQLSLKRKRLGVNIPVAQMAVHEWALVRRMVLTPALWTHFPDKLP
TCKPLFQGLLSEIQSTLKSMELLVGIHIIGAQGTVLQLKASSQGKERAPGKLGWGSCDLK
APVSVFTCIAYLSVSG

>gi568815596r:162070982_162342994|GENSCAN_predicted_CDS_3|411_bp
atgactcaagtgttgaaaaatatgatccacgcaactaaaaatacattgcaactgagtttg
aagaggaaaagactgggtgtcaacattccagtggcccaaatggctgtgcatgaatgggct
ttggttcgaaggatggtcctaacccctgcactctggactcatttcccagataaactaccc
acatgcaagcctttatttcagggtcttctttctgagatccagagtacgctaaagtccatg
gagctgctggtgggaattcatattataggtgcccaaggaacagtgctccaactcaaggcc
agcagtcaggggaaagagagggcaccaggaaagctaggctggggctcctgtgaccttaag
gccccagtctctgtgttcacctgtattgcatatctgtctgtttctggctga

>gi568815596r:162070982_162342994|GENSCAN_predicted_peptide_4|207_aa
MPVKVPMKERLICKHLPGLESPKPVQEGHFLALYHVSLLALALAQKLAGKLRGGHQKGGG
KALAVTQRKPKTATYSGSQSEMHMNRYKDYLHFVDMGGPDTHKEINKCLRLSNAPPPQRC
PCPGPQDCEYVTLPGKRDFADMSKDLEMGRVSRIIQVRAEDGAATLQSGVTMGGKPFVSD
GRTERKRPRAIPDMFTFDILSSGLLIL

>gi568815596r:162070982_162342994|GENSCAN_predicted_CDS_4|624_bp
atgcccgtgaaagtgcccatgaaagaaagactcatctgcaaacatttgccaggcctggaa
agcccgaagccagtacaagaaggacatttcctggccctttaccatgtctctcttctagct
ctggccttagcccagaaactggctggcaagctgcggggagggcatcagaagggaggaggg
aaagcactagctgtcacacagaggaaacccaagacagcaacatattctggaagccagagc
gaaatgcacatgaatcgatataaagattatctgcattttgtggacatgggtggtccagac
acccacaaggagataaataaatgtttgagactgagtaatgctcccccaccccaaagatgt
ccgtgtcctggtccccaggactgtgaatatgttaccttgcctggcaaaagggactttgca
gatatgagtaaggaccttgagatggggagagtatccagaattattcaggtaagagctgaa
gatggagcagccacacttcaatctggagttaccatgggaggaaagccatttgttagtgat
ggcagaacagaaagaaaaagaccacgagctatccctgacatgtttacctttgatattctt
tcctctggacttctgattttgtga

>gi568815596r:162070982_162342994|GENSCAN_predicted_peptide_5|2339_aa
XIYTLFPDSVAEVSWALSSLILNDFFLKIGENISSRVKISQLKPHKVAAEETSSVSRSVE
KSQEGSKGRLSHLHLSEKGMDKTMSRIWPGLLCPCHLFKGDTISSSHLHSIKPCTHSPSP
DVIDSDFSSTPRQERKIQKALCPCNKVIHSPRPTKVLVCPDSLHTSLQAEGDSSGLGQPR
KGLPQCSDGLKGSSSAAKVGAQADEAPRASEGWKLTEERPLLADNCKFSKARLRYSKQIQ
IATNIPFWSQTRFKLQTEAPERKTGPKESKASVREGGKHYPTGREAVPMDDPKWDPSDDM
GNWKRKHFQAQSGRPCFSKWAADSGTHISPVPQTTAPSAWENPLPSLRKKDVEWVFHRRE
FPLSHLVLQGQGENVHPEVKEQIQRTVATSGNMQAVELLLSTLEKGVWHLGWTREFVEAL
RRTGSPLAARYMNPELTDLPSPSFENAHDEYLQLLNLLQPTLVDKLLVRDVLDKCMEEEL
LTIEDRNRIAAAENNGNESGVRELLKRIVQKENWFSAFLNVLRQTGNNELVQELTGSDCS
ESNAEIENLSQVDGPQVEEQLLSTTVQPNLEKEVWGMENNSSESSFADSSVVSEVAGNIS
GFRGIMSKSTSTRELKMCSEEQSDERGAFVEEGESDTSLAEGSVSCLDESLGHNSNMGSD
SGTMGSDSDEENVAARASPEPELQLRPYQMEVAQPALEGKNIIICLPTGSGKTRVAVYIA
KDHLDKKKKASEPGKVIVLVNKVLLVEQLFRKEFQPFLKKWYRVIGLSGDTQLKISFPEV
VKSCDIIISTAQILENSLLNLENGEDAGVQLSDFSLIIIDECHHTNKEAVYNNIMRHYLM
QKLKNNRLKKENKPVIPLPQILGLTASPGVGGATKQAKAEEHILKLCANLDAFTIKTVKE
NLDQLKNQIQEPCKKFAIADATREDPFKEKLLEIMTRIQTYCQMSPMSDFGTQPYEQWAI
QMEKKAAKEGNRKERVCAEHLRKYNEALQINDTIRMIDAYTHLETFYNEEKDKKFAVIED
DSDEGGDDEYCDGDEDEDDLKKPLKLDETDRFLMTLFFENNKMLKRLAENPEYENEKLTK
LRNTIMEQYTRTEESARGIIFTKTRQSAYALSQWITENEKFAEVGVKAHHLIGAGHSSEF
KPMTQNEQKEVISKFRTGKINLLIATTVAEEGLDIKECNIVIRYGLVTNEIAMVQARGRA
RADESTYVLVAHSGSGVIEHETVNDFREKMMYKAIHCVQNMKPEEYAHKILELQMQSIME
KKMKTKRNIAKHYKNNPSLITFLCKNCSVLACSGEDIHVIEKMHHVNMTPEFKELYIVRE
NKALQKKCADYQINGEIICKCGQDESGGGGSMKGRTCCIRVCANWRESAIPQQPDGPDGP
KGFAELRGPQTTPCLHQLSIATKIDVIPSHPPKACILIDPELLSEKSLSTNKGAQLASPS
GSRTGAAGGAARQSRAMRWHSSALGPSMGPGTVEQGEVLVGEAQAVQEPMAEGEGQEKNH
QGDWVKTKTTRTPPPRDLDSKSVNASNYGLSPDRQFVYLESDYSKAYVYQNNIYLKQRPG
DPPFQITFNGRENKIFNGIPDWVYEEEMLATKYALWWSPNGKFLAYAEFNDTDIPVIAYS
YYGDEQYPRTINIPYPKAGAKNPVVRIFIIDTTYPAYVGPQEVPVPAMIASSDYYFSWLT
WVTDERVCLQWLKRVQNVSVLSICDFREDWQTWDCPKENAIQITSGKWEAINIFRVTQDS
LFYSSNEFEEYPGRRNIYRISIGSYPPSKKCVTCHLRKERCQYYTASFSDYAKYYALVCY
GREISNSHIQGNEQRLGNPRCPRRRSIIPQTVVSMGIEDEPLSFLNLENIAQASPFPPFM
MDALIKLHHIVATYERPEIWRLFPFSTAIKTVLLYPVFVILVQNSSHLKDDQFCSQQSCP
KIKILEENKELENALKNIQLPKEEIKKLEVDEITLWYKMILPPQFDRSKKYPLLIQVYGG
PCSQSVRSVFAVNWISYLASKEGMVIALVDGRGTAFQGDKLLYAVYRKLGVYEVEDQITA
VRLLSVLQNQCRNSTVMARAEYFRNVDYLLIHGTADDNVHFQNSAQIAKALVNAQVDFQA
MLSETIAPNSGHIAPPHTSGRDVLWWSGILDNTFPDSGLATAPLFFLHAMAVALRTRTAE
MKSIYFVAGLFVMLVQGSWQRSLQDTEEKSRSFSASQADPLSDPDQMNEDKRHSQGTFTS
DYSKYLDSRRAQDFVQWLMNTKRNRNNIAKRHDEFERHAEGTFTSDVSSYLEGQAAKEFI
AWLVKGRGRRDFPEEVAIVEELGRRHADGSFSDEMNTILDNLAARDFINWLIQTKITDR

>gi568815596r:162070982_162342994|GENSCAN_predicted_CDS_5|7020_bp
natatttatacccttttccctgattctgtagcagaagtatcttgggccctgagcagctta
attttaaatgatttttttctgaagattggagagaacattagcagtagagttaagatctca
cagttaaagccccacaaggtggcggcagaggaaacatcatctgtgagtcgcagtgtggag
aagtctcaggaaggaagcaagggaaggctttcccacttacacctttctgagaaaggcatg
gataagacgatgtctaggatttggcctgggctgctttgtccctgccacctcttcaaagga
gacaccatatcatcaagccacctccactcaataaaaccttgcactcattctccaagccca
gatgtgattgattccgatttttccagtacaccaaggcaagaacgcaagatacagaaagcc
ctctgtccttgcaacaaggtgatccactcacctcggcctaccaaagtactggtgtgtccg
gactccctccacacctccttgcaagctgagggagacagctccggccttggccagcccaga
aaggggctcccacagtgcagcgacgggctaaagggctcctcaagtgccgccaaagtggga
gcccaggcagacgaggcgccaagagccagcgagggctggaagttaacagaggagcgaccc
ctgctggctgataactgcaaattcagcaaggcacgtttgagatactctaaacagatacaa
atagccactaacatacctttttggtcccaaactcgatttaagcttcagactgaggcccca
gaaagaaaaactgggcctaaggaatccaaagccagtgtcagggaagggggcaaacattat
ccaaccggaagagaagcagtaccaatggatgaccctaaatgggatcccagtgatgacatg
ggaaactggaagaggaaacactttcaggcacagagcggtagaccctgcttctctaagtgg
gcagcggacagcggcacgcacatttcacctgtcccgcagacaacagcaccatctgcttgg
gagaaccctctcccttctctgagaaagaaagatgtcgaatgggtattccacagacgagaa
tttccgctatctcatctcgtgcttcagggccagggtgaaaatgtacatccagaggtgaag
gagcagattcagaggacagtcgccacctccgggaacatgcaggcagttgaactgctgctg
agcaccttggagaagggagtctggcaccttggttggactcgggaattcgtggaggccctc
cggagaaccggcagccctctggccgcccgctacatgaaccctgagctcacggacttgccc
tctccatcgtttgagaacgctcatgatgaatatctccaactgctgaacctccttcagccc
actctggtggacaagcttctagttagagacgtcttggataagtgcatggaggaggaactg
ttgacaattgaagacagaaaccggattgctgctgcagaaaacaatggaaatgaatcaggt
gtaagagagctactaaaaaggattgtgcagaaagaaaactggttctctgcatttctgaat
gttcttcgtcaaacaggaaacaatgaacttgtccaagagttaacaggctctgattgctca
gaaagcaatgcagagattgagaatttatcacaagttgatggtcctcaagtggaagagcaa
cttctttcaaccacagttcagccaaatctggagaaggaggtctggggcatggagaataac
tcatcagaatcatcttttgcagattcttctgtagtttcagaagtggcaggcaacatttca
ggtttcagaggcatcatgagcaaaagcacaagcacaagagagctcaaaatgtgttcagag
gaacagtctgatgagagaggagcatttgtggaggagggcgaatcagacacaagtttggca
gaaggaagtgtcagctgcttagatgaaagtcttggacataacagcaacatgggcagtgat
tcaggcaccatgggaagtgattcagatgaagagaatgtggcagcaagagcatccccggag
ccagaactccagctcaggccttaccaaatggaagttgcccagccagccttggaagggaag
aatatcatcatctgcctccctacagggagtggaaaaaccagagtggctgtttacattgcc
aaggatcacttagacaagaagaaaaaagcatctgagcctggaaaagttatagttcttgtc
aataaggtactgctagttgaacagctcttccgcaaggagttccaaccatttttgaagaaa
tggtatcgtgttattggattaagtggtgatacccaactgaaaatatcatttccagaagtt
gtcaagtcctgtgatattattatcagtacagctcaaatccttgaaaactccctcttaaac
ttggaaaatggagaagatgctggtgttcaattgtcagacttttccctcattatcattgat
gaatgtcatcacaccaacaaagaagcagtgtataataacatcatgaggcattatttgatg
cagaagttgaaaaacaatagactcaagaaagaaaacaaaccagtgattccccttcctcag
atactgggactaacagcttcacctggtgttggaggggccacgaagcaagccaaagctgaa
gaacacattttaaaactatgtgccaatcttgatgcatttactattaaaactgttaaagaa
aaccttgatcaactgaaaaaccaaatacaggagccatgcaagaagtttgccattgcagat
gcaaccagagaagatccatttaaagagaaacttctagaaataatgacaaggattcaaact
tattgtcaaatgagtccaatgtcagattttggaactcaaccctatgaacaatgggccatt
caaatggaaaaaaaagctgcaaaagaaggaaatcgcaaagaacgtgtttgtgcagaacat
ttgaggaagtacaatgaggccctacaaattaatgacacaattcgaatgatagatgcgtat
actcatcttgaaactttctataatgaagagaaagataagaagtttgcagtcatagaagat
gatagtgatgagggtggtgatgatgagtattgtgatggtgatgaagatgaggatgattta
aagaaacctttgaaactggatgaaacagatagatttctcatgactttattttttgaaaac
aataaaatgttgaaaaggctggctgaaaacccagaatatgaaaatgaaaagctgaccaaa
ttaagaaataccataatggagcaatatactaggactgaggaatcagcacgaggaataatc
tttacaaaaacacgacagagtgcatatgcgctttcccagtggattactgaaaatgaaaaa
tttgctgaagtaggagtcaaagcccaccatctgattggagctggacacagcagtgagttc
aaacccatgacacagaatgaacaaaaagaagtcattagtaaatttcgcactggaaaaata
aatctgcttatcgctaccacagtggcagaagaaggtctggatattaaagaatgtaacatt
gttatccgttatggtctcgtcaccaatgaaatagccatggtccaggcccgtggtcgagcc
agagctgatgagagcacctacgtcctggttgctcacagtggttcaggagttatcgaacat
gagacagttaatgatttccgagagaagatgatgtataaagctatacattgtgttcaaaat
atgaaaccagaggagtatgctcataagattttggaattacagatgcaaagtataatggaa
aagaaaatgaaaaccaagagaaatattgccaagcattacaagaataacccatcactaata
actttcctttgcaaaaactgcagtgtgctagcctgttctggggaagatatccatgtaatt
gagaaaatgcatcacgtcaatatgaccccagaattcaaggaactttacattgtaagagaa
aacaaagcactgcaaaagaagtgtgccgactatcaaataaatggtgaaatcatctgcaaa
tgtggccaggatgagtctggaggaggaggcagcatgaaagggagaacttgctgcatcaga
gtttgtgccaattggagggaaagcgcaatccctcagcagcctgatggtccagatggcccc
aaaggctttgcagagctcagaggcccccagacaactccttgtctacatcagcttagcatt
gccactaaaattgatgttataccaagtcatcccccaaaagcatgcattttaatagaccca
gagttgctttctgagaaaagtctcagtactaacaaaggagcccagctggcctcacccagt
ggatctcgcaccggagccgcaggtggagctgcccgccagtcccgcgccatgcgctggcac
tcctcagcccttgggccatccatgggaccgggcactgtggagcagggggaagtgcttgtt
ggggaggctcaggccgtgcaggagcccatggcggagggggaggggcaggagaagaatcat
caaggagactgggtaaaaactaaaactaccaggaccccaccccccagagatttggattca
aaaagtgtgaatgcttcaaattacggcttatcacctgatcggcaatttgtatatctagaa
agtgattattcaaaggcatatgtctatcaaaacaatatctatttgaaacaaagaccagga
gatccaccttttcaaataacatttaatggaagagaaaataaaatatttaatggaatccca
gactgggtttatgaagaggaaatgcttgctacaaaatatgctctctggtggtctcctaat
ggaaaatttttggcatatgcggaatttaatgatacggatataccagttattgcctattcc
tattatggcgatgaacaatatcctagaacaataaatattccatacccaaaggctggagct
aagaatcccgttgttcggatatttattatcgataccacttaccctgcgtatgtaggtccc
caggaagtgcctgttccagcaatgatagcctcaagtgattattatttcagttggctcacg
tgggttactgatgaacgagtatgtttgcagtggctaaaaagagtccagaatgtttcggtc
ctgtctatatgtgacttcagggaagactggcagacatgggattgtccaaaggaaaatgct
attcaaattacaagtggcaagtgggaggccataaatatattcagagtaacacaggattca
ctgttttattctagcaatgaatttgaagaataccctggaagaagaaacatctacagaatt
agcattggaagctatcctccaagcaagaagtgtgttacttgccatctaaggaaagaaagg
tgccaatattacacagcaagtttcagcgactacgccaagtactatgcacttgtctgctac
ggtagagaaatatcaaactctcacatccaggggaatgaacaacggcttggaaacccgaga
tgcccacgtcggaggtcaatcattcctcaaactgtagtttcaatggggatagaagatgaa
cctttgtcctttctaaatttggaaaacatcgcccaggcatccccatttccacccttcatg
atggacgcactgatcaagctacatcacattgttgccacgtatgaacgccctgaaatttgg
aggctctttccattttcaactgctatcaagacagtcctcctctatcctgtatttgtgata
ttggttcaaaatagttcacatctcaaagacgaccagttttgctcgcagcagagttgtcca
aaaattaaaatcctggaagaaaacaaggaattggaaaatgctttgaaaaatatccagctg
cctaaagaggaaattaagaaacttgaagtagatgaaattactttatggtacaagatgatt
cttcctcctcaatttgacagatcaaagaagtatcccttgctaattcaagtgtatggtggt
ccctgcagtcagagtgtaaggtctgtatttgctgttaattggatatcttatcttgcaagt
aaggaagggatggtcattgccttggtggatggtcgaggaacagctttccaaggtgacaaa
ctcctctatgcagtgtatcgaaagctgggtgtttatgaagttgaagaccagattacagct
gtcagactcctcagtgtccttcagaatcagtgtcggaattcaactgtgatggcaagagca
gaatatttcagaaatgtagactatcttctcatccacggaacagcagatgataatgtgcac
tttcaaaactcagcacagattgctaaagctctggttaatgcacaagtggatttccaggca
atgctttctgaaaccattgcccctaactcaggccacatagctccacctcacacatcagga
agggatgttctgtggtggtcaggaattctggacaacaccttcccagattcaggactggcc
acagcccctcttttcttcctccatgcaatggctgttgccctgaggaccagaacagcagaa
atgaaaagcatttactttgtggctggattatttgtaatgctggtacaaggcagctggcaa
cgttcccttcaagacacagaggagaaatccagatcattctcagcttcccaggcagaccca
ctcagtgatcctgatcagatgaacgaggacaagcgccattcacagggcacattcaccagt
gactacagcaagtatctggactccaggcgtgcccaagattttgtgcagtggttgatgaat
accaagaggaacaggaataacattgccaaacgtcacgatgaatttgagagacatgctgaa
gggacctttaccagtgatgtaagttcttatttggaaggccaagctgccaaggaattcatt
gcttggctggtgaaaggccgaggaaggcgagatttcccagaagaggtcgccattgttgaa
gaacttggccgcagacatgctgatggttctttctctgatgagatgaacaccattcttgat
aatcttgccgccagggactttataaactggttgattcagaccaaaatcactgacaggtga