Result of GENSCAN for pF1KA0522
GENSCAN 1.0	Date run:  5-Nov-116	Time: 01:24:33

Sequence gi568815575r:53134222_53421123 : 286902 bp : 46.56% 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..
----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------

 1.06 PlyA -   3150   3145    6                               1.05
 1.05 Term -   8959   8642  318  1  0  -14   43   533 0.708  33.48
 1.04 Intr -   9084   8965  120  0  0    6   71   318 0.731  22.59
 1.03 Intr -   9568   9386  183  1  0   20   10   371 0.692  22.48
 1.02 Intr -   9698   9585  114  2  0  120   60    90 0.810  10.04
 1.01 Init -  11249  11124  126  2  0   86   93    28 0.773   1.45
 1.00 Prom -  11631  11592   40                             -13.78

 2.00 Prom +  11800  11839   40                             -10.15
 2.01 Sngl +  11908  12270  363  0  0   71   48   336 0.067  23.98
 2.02 PlyA +  12667  12672    6                               1.05

 3.00 Prom +  13202  13241   40                              -4.96
 3.01 Sngl +  14378  14761  384  1  0   26   55   202 0.555   6.89
 3.02 PlyA +  14780  14785    6                               1.05

 4.00 Prom +  15546  15585   40                              -2.46
 4.01 Init +  15670  15802  133  0  1   78   47    59 0.324   1.10
 4.02 Term +  26376  26449   74  1  2   53   32   171 0.536   6.07
 4.03 PlyA +  26467  26472    6                               1.05

 5.31 PlyA -  26889  26884    6                               1.05
 5.30 Term -  29170  29096   75  1  0   24   38   163 0.692   2.74
 5.29 Intr -  30335  30220  116  0  2   50   36   111 0.273   2.27
 5.28 Intr -  56584  56465  120  2  0   75   80    27 0.054   1.07
 5.27 Intr -  59111  58919  193  2  1   72   60   202 0.090  14.87
 5.26 Intr -  59415  59216  200  1  2   87   78   281 0.997  26.07
 5.25 Intr -  59630  59561   70  2  1  140  110    74 0.874  13.55
 5.24 Intr -  60293  59918  376  1  1   74  105   241 0.470  19.42
 5.23 Intr -  60517  60321  197  1  2   61   66   115 0.572   4.81
 5.22 Intr -  60847  60710  138  1  0  100   79   127 0.940  13.66
 5.21 Intr -  61189  61010  180  1  0   68   78   184 0.997  15.46
 5.20 Intr -  61833  61695  139  2  1   90   61   176 0.999  15.57
 5.19 Intr -  62823  62465  359  0  2   74   96   317 0.968  25.15
 5.18 Intr -  63646  63550   97  0  1   45  100   116 0.520   8.51
 5.17 Intr -  64416  64269  148  1  1  122   51   121 0.718  11.09
 5.16 Intr -  64667  64543  125  1  2  113   73   185 0.999  19.73
 5.15 Intr -  64937  64756  182  2  2   37   89   254 0.999  19.07
 5.14 Intr -  67523  67329  195  2  0   65   81   363 0.974  32.91
 5.13 Intr -  67752  67633  120  0  0  107   92   180 0.916  20.99
 5.12 Intr -  76355  76193  163  1  1   81   81   136 0.995  12.18
 5.11 Intr -  76636  76455  182  1  2   44  105   170 0.997  12.97
 5.10 Intr -  77434  77276  159  1  0  104  105   182 0.997  21.68
 5.09 Intr -  77685  77566  120  0  0   99   53   227 0.996  20.99
 5.08 Intr -  80626  80468  159  1  0   62   91   186 0.994  16.48
 5.07 Intr -  81755  81574  182  0  2   79   50   190 0.995  13.89
 5.06 Intr -  81976  81853  124  1  1   98  116   199 0.980  23.86
 5.05 Intr -  83056  82922  135  1  0   96   76   101 0.883  10.46
 5.04 Intr -  83745  83575  171  0  0   84   79   244 0.702  23.24
 5.03 Intr -  84177  84055  123  0  0   98   69   146 0.840  14.48
 5.02 Intr -  86695  86618   78  1  0  108   78   101 0.987  10.85
 5.01 Init -  90668  90519  150  2  0  113  103   170 0.977  21.04
 5.00 Prom -  92050  92011   40                              -7.06

 6.15 PlyA -  92697  92692    6                               1.05
 6.14 Term -  93130  93052   79  0  1   75   48    83 0.022   0.24
 6.13 Intr - 100963 100656  308  1  2  126  -32   166 0.094   3.65
 6.12 Intr - 101611 101562   50  2  2   72  100    30 0.937   1.00
 6.11 Intr - 102274 102101  174  2  0   73  115   149 0.996  16.01
 6.10 Intr - 104085 103924  162  1  0   93   65   305 0.995  28.65
 6.09 Intr - 105073 104974  100  1  1   52   84   101 0.665   5.78
 6.08 Intr - 107688 107563  126  0  0  115   48    72 0.960   6.78
 6.07 Intr - 109250 109111  140  0  2   98  100   255 0.999  27.88
 6.06 Intr - 112914 112748  167  2  2   92   47   318 0.996  27.70
 6.05 Intr - 114015 113893  123  2  0   96   69   248 0.997  23.40
 6.04 Intr - 114661 114500  162  0  0  118   36   157 0.999  12.59
 6.03 Intr - 116953 116058  896  1  2  116   51   861 0.999  75.31
 6.02 Intr - 120710 120309  402  2  0   94   71   644 0.999  57.92
 6.01 Init - 121737 121579  159  0  0   72   51   262 0.846  18.73
 6.00 Prom - 123525 123486   40                              -6.06

 7.00 Prom + 123627 123666   40                              -9.06
 7.01 Init + 125976 126073   98  2  2   82   60    31 0.361  -0.52
 7.02 Intr + 129390 129527  138  0  0   95   56    46 0.397   1.68
 7.03 Intr + 129657 129761  105  0  0   86   75    70 0.587   4.83
 7.04 Intr + 136132 136244  113  1  2   84   71    65 0.403   4.42
 7.05 Intr + 147955 148107  153  2  0  113   71    19 0.397   2.74
 7.06 Intr + 149531 149581   51  0  0   59   74    60 0.208   0.58
 7.07 Intr + 153717 153820  104  1  2   70   92   109 0.604   9.39
 7.08 Intr + 154189 154316  128  0  2  122   81    23 0.608   4.48
 7.09 Term + 158736 158826   91  0  1  108   40    24 0.129  -3.21
 7.10 PlyA + 160988 160993    6                               1.05

 8.06 PlyA - 163089 163084    6                               1.05
 8.05 Term - 165279 165037  243  0  0  112   44    95 0.555   3.40
 8.04 Intr - 179596 179447  150  1  0   77   25    88 0.254   1.76
 8.03 Intr - 180867 180757  111  0  0   92   80    60 0.535   6.18
 8.02 Intr - 183129 183093   37  2  1   79   37    43 0.384  -3.44
 8.01 Init - 186902 186196  707  2  2   99   78  1139 0.617 108.42
 8.00 Prom - 188056 188017   40                             -14.70

 9.00 Prom + 188494 188533   40                              -6.26
 9.01 Init + 189306 189473  168  2  0   55   49   139 0.320   6.23
 9.02 Intr + 192371 192534  164  1  2   77   33    74 0.542  -0.43
 9.03 Intr + 199304 199457  154  2  1  122   66    78 0.701   9.07
 9.04 Term + 207221 207298   78  1  0   79   47   108 0.430   3.56
 9.05 PlyA + 207956 207961    6                               1.05

10.03 PlyA - 208004 207999    6                               1.05
10.02 Term - 222335 222208  128  0  2  110   44   101 0.555   6.34
10.01 Init - 240624 240567   58  0  1   23   71    49 0.034  -1.83
10.00 Prom - 243528 243489   40                              -4.56

11.27 PlyA - 243566 243561    6                               1.05
11.26 Term - 245965 245882   84  1  0  106   43   190 0.999  13.95
11.25 Intr - 246509 246399  111  2  0  111   75   222 0.999  23.78
11.24 Intr - 246866 246797   70  1  1   96   98   139 0.797  14.88
11.23 Intr - 248162 248011  152  2  2   86  110   251 0.999  26.06
11.22 Intr - 248439 248285  155  1  2   90   96   285 0.525  29.29
11.21 Intr - 249032 248876  157  2  1   55   95   197 0.415  16.68
11.20 Intr - 260667 260557  111  0  0  120  100    84 0.919  13.38
11.19 Intr - 262159 262006  154  0  1   74  105   131 0.995  13.47
11.18 Intr - 262396 262251  146  1  2   24   89   203 0.980  13.08
11.17 Intr - 265580 265368  213  2  0   90  116   111 0.615  13.01
11.16 Intr - 267895 267832   64  0  1   70   71    61 0.601   1.32
11.15 Intr - 269451 269345  107  0  2  100   78   245 0.991  23.71
11.14 Intr - 269672 269556  117  2  0   69   77   123 0.922   9.96
11.13 Intr - 270928 270791  138  1  0  119   75   158 0.999  18.26
11.12 Intr - 271170 271024  147  0  0   94   80   148 0.995  15.03
11.11 Intr - 271451 271272  180  2  0   96   70   331 0.999  32.16
11.10 Intr - 271735 271550  186  1  0   63   78   245 0.945  20.89
11.09 Intr - 275048 274841  208  1  1   80   83   369 0.999  34.68
11.08 Intr - 275282 275200   83  2  2   88   55   157 0.999  10.84
11.07 Intr - 277680 277540  141  0  0  102   64   196 0.943  19.15
11.06 Intr - 278032 277774  259  0  1   28  115   413 0.997  35.47
11.05 Intr - 278917 278679  239  1  2   79   71   523 0.999  46.11
11.04 Intr - 279214 279011  204  1  0   14   92   331 0.989  25.50
11.03 Intr - 279371 279273   99  2  0   84   82    31 0.837   2.41
11.02 Intr - 280649 280537  113  0  2   79   80   154 0.999  13.80
11.01 Intr - 280948 280760  189  2  0  129   80   317 0.999  34.56

Suboptimal exons with probability > 0.800

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

S.001 Sngl +  11821  12270  450  0  0   88   48   364 0.918  28.62
S.002 Term +  46969  47042   74  2  2  106   38    47 0.867  -0.43
S.003 Term -  59111  58746  366  2  0   72   48   284 0.909  17.40
S.004 Init +  93322  93405   84  0  0   65   62   134 0.845   9.51
S.005 Term +  95917  95982   66  0  0  121   46    36 0.805   0.64


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815575r:53134222_53421123|GENSCAN_predicted_peptide_1|286_aa
MAGAPPPASLPPCSLSSDCCASNERESVGVGPSEPGAGYNLLVAMEIEIAALIIDNGSGM
CKAGFAGDGWPLSCVPLHHQGVMVGMGQKDSYMGHEAQSKHDILTLKYPIEHGIITIWDD
MEKIWHHTFYNELCMTPEKHPEIVRDINEKVCYIALDFEQEMATATSSSSLEKSYELPDG
QVITIGNKWFWCLQVLFQPSFLGMESCGIHKTTFNSIMKCDVDIRKDLYANTVLSSSTTM
CPGITTLASSTMKIKFIMPPEHKYSVWIGGSILASLSTFQQMWISN

>gi568815575r:53134222_53421123|GENSCAN_predicted_CDS_1|861_bp
atggcgggtgcccctcccccagcctcgctgccaccttgcagtttgagctcagactgctgt
gctagcaatgagcgagaatctgtgggcgtaggaccctccgagccaggggcgggatataat
ctcctggttgcaatggaaatagagatcgccgcgctcatcattgacaatggctctggcatg
tgcaaagctggctttgctggggatggatggcccctgagctgtgttcccctccatcatcag
ggtgtgatggtgggcatgggccagaaggactcctacatgggccatgaggcccagagcaag
cacgacatcctgaccctgaagtaccctatcgagcatggcatcatcaccatctgggatgac
atggagaagatctggcaccacaccttctacaacgagctgtgcatgaccccagagaagcac
ccggagattgtgcgcgacatcaacgagaaggtgtgctacatcgccctggacttcgagcag
gagatggccactgccacatcctcctcctccctggagaagagctatgagctgcctgatggc
caggtcatcaccatcggcaacaagtggttctggtgtctgcaggtgctgttccagccttcc
ttcttgggcatggaatcctgcggcatccacaagaccaccttcaactccatcatgaagtgt
gacgtggacatccgcaaagacctgtacgccaacacagtgctgtccagcagcaccaccatg
tgccctggcatcaccacgctggcatccagcaccatgaagatcaagttcatcatgccccca
gagcacaagtactcggtgtggattggtggttccatcctggcctcactgtccaccttccag
cagatgtggattagcaattag

>gi568815575r:53134222_53421123|GENSCAN_predicted_peptide_2|120_aa
MEQSWMENDELREEGFRQSNYSKLKEEVRTNGKEVKNLEKRLDKSLTRITNAEKSLKDLM
ELKTTAQELSDECTSLSSRFDQLEERVSVMEDQMNEMKREEKFREKRIKRNKASKKYGTM

>gi568815575r:53134222_53421123|GENSCAN_predicted_CDS_2|363_bp
atggaacaaagctggatggagaatgacgagttgagagaagaaggcttcagacaatcaaac
tactccaagctaaaggaggaagttcgaaccaatggcaaagaagttaaaaaccttgaaaaa
agattagacaaatcactaactagaataaccaatgcagagaagtccttaaaggacctgatg
gagctgaaaaccacagcacaagaactatctgatgaatgcacaagcctcagtagccgattc
gatcaactggaagaaagggtatcagtgatggaagatcaaatgaatgaaatgaagcgagaa
gagaagtttagagaaaaaagaataaaaagaaacaaagcctccaagaaatatgggactatg
tga

>gi568815575r:53134222_53421123|GENSCAN_predicted_peptide_3|127_aa
MEEHSMLMDRKSQYRENAILPKVIYRFNAIPIKLPMTFFTELEKTSLKFIWNQKRACMAK
SILSQKNKAGGITLPDFKLYYKAIVTKTAWYWYQNRDIDQWNRTEPSEIMPRIYNHLIFD
KPEKNKQ

>gi568815575r:53134222_53421123|GENSCAN_predicted_CDS_3|384_bp
atggaagaacattccatgctcatggataggaagagtcaatatcgtgaaaatgccatactg
cccaaggtaatttatagattcaatgccatccccatcaagctaccaatgactttcttcaca
gaattggaaaaaacttctttaaagttcatatggaaccaaaaaagagcctgcatggccaag
tcaatcctaagccaaaagaacaaagctggaggcatcacgctacctgacttcaaactatac
tacaaggctatagtaaccaaaacagcatggtactggtaccaaaacagagatatagaccaa
tggaacagaacagagccctcagaaataatgccacgtatctacaaccatctgatctttgac
aaacctgagaaaaacaagcaatga

>gi568815575r:53134222_53421123|GENSCAN_predicted_peptide_4|68_aa
MEYYAAIKNDEFMSFVGTWMKLETIILSKLSQGQKTKHRMFSLIEIVAQEVVYESEYEKH
EKELYERK

>gi568815575r:53134222_53421123|GENSCAN_predicted_CDS_4|207_bp
atggaatattatgcagccataaaaaatgatgagttcatgtcctttgtagggacatggatg
aagctggaaaccatcattctcagcaaactatcacaaggacaaaaaaccaaacaccgcatg
ttctcactcatagagatagtggcccaggaagttgtgtatgagagcgaatatgagaaacat
gaaaaggagctgtatgagcgcaaataa

>gi568815575r:53134222_53421123|GENSCAN_predicted_peptide_5|1591_aa
MEPGSDDFLPPPECPVFEPSWAEFRDPLGYIAKIRPIAEKSGICKIRPPADWQPPFAVEV
DNFRFTPRIQRLNELEAQTRVKLNYLDQIAKFWEIQGSSLKIPNVERRILDLYSLSKIVV
EEGGYEAICKDRRWARVAQRLNYPPGKNIGSLLRSHYERIVYPYEMYQSGANLVQCNTRP
FDNEEKDKEYKPHSIPLRQSVQPSKFNSYGRRAKRLQPDPEPTEEDIEKNPELKKLQIYG
AGPKMMGLGLMAKDKTLRKKDKEGPECPPTVVVKEELGGDVKVESTSPKTFLESKEELSH
SPEPCTKMTMRLRRNHSNAQFIESYVCRMCSRGDEDDKLLLCDGCDDNYHIFCLLPPLPE
IPKGVWRCPKCVMAECKRPPEAFGFEQATREYTLQSFGEMADSFKADYFNMPVHMVPTEL
VEKEFWRLVNSIEEDVTVEYGADIHSKEFGSGFPVSDSKRHLTPEEEEYATSGWNLNVMP
VLEQSVLCHINADISGMKVPWLYVGMVFSAFCWHIEDHWSYSINYLHWGEPKTWYGVPSL
AAEHLEEVMKKLTPELFDSQPDLLHQLVTLMNPNTLMSHGVPVVRTNQCAGEFVITFPRA
YHSGFNQGYNFAEAVNFCTADWLPAGRQCIEHYRRLRRYCVFSHEELICKMAACPEKLDL
NLAAAVHKEMFIMVQEERRLRKALLEKGITEAEREAFELLPDDERQCIKCKTTCFLSALA
CYDCPDGLVCLSHINDLCKCSSSRQYLRYRYTLDELPAMLHKLKVRAESFDTWANKVRVA
LEVEDGRKRSLEELRALESEARERRFPNSELLQQLKNCLSEAEACVSRALGLVSGQEAGV
AGLQMTLTELRAFLDQMNNLPCAMHQIGDVKGVLEQVEAYQAEAREALASLPSSPGLLQS
LLERGRQLGVEVPEAQQLQRQVEQARWLDEVKRTLAPSARRGTLAVMRGLLVAGASVAPS
PAVDKAQAELQELLTIAERWEEKAHLCLEARQKHPPATLEAIIREAENIPVHLPNIQALK
EALAKARAWIADVDEIQNGDHYPCLDDLEGLVAVGRDLPVGLEELRQLELQVLTAHSWRE
KASKTFLKKNSCYTLLEVLCPCADAGSDSTKRSRWMEKELGLYKSDTELLGLSAQDLRDP
GSVIVAFKEGEQKEKEGILQLRRTNSAKPSPLASSSTASSTTSICVCGQVLAGAGALQCD
LCQDWFHGRSPRPNPTSSPLLAWWEWDTKFLCPLCMRSRRPRLETILALLVALQRLPVRL
PEGEALQCLTERAISWQGRARQALASEDVTALLGRLAELRQRLQAEPRPEEPPNYPAAPA
SDPLREGSGKDMPKVQGLLENGDSVTSPEKVAPEEGSDLELLSSLLPQLTGPVLELPEAT
RAPLEELMMEGDLLEVTLDENHSIWQLLQAGQPPDLERIRTLLELEKAERHGSRARGRAL
ERRRRRKVDRGGEGDDPAREELEPKRVRSSGPEAEEVQEEEELEEETGADRNLVVNKKAR
PLLAALIGGKVWLSPASSSLPVGTLGYTTMFSTRTKNAGEELTFDYQMKGSGDVSSDSID
HSPAKKRVSGIVAPQNRDFEDVNEGLLEQRN

>gi568815575r:53134222_53421123|GENSCAN_predicted_CDS_5|4776_bp
atggagccggggtccgacgatttcctaccgccaccggagtgcccggtgttcgagcctagc
tgggccgagttccgagaccctcttggctacatcgcgaaaatcaggcccatcgcagagaaa
tcgggcatttgcaagatccgcccacccgcggactggcagccaccctttgctgtggaagtg
gacaacttcaggtttaccccccgaatccagaggctgaatgagctagaggcccagacgaga
gtgaaactgaactacttggaccagattgccaaattctgggaaatccagggctcctcctta
aagattcccaatgtagaacggcggatcttggacctctacagtctcagcaaaattgtggtg
gaggaaggtggttatgaagctatctgcaaggaccgtcggtgggctcgggtagcccagcgc
ctcaactatccaccaggcaaaaatattggctccttgctacgctcccactacgaacgcatt
gtttatccctatgaaatgtaccagtctggagccaaccttgtgcagtgtaacacacgtcca
tttgataatgaggagaaggacaaggaatacaaaccccacagcatccccctacgacagtct
gtgcagccttccaagttcaacagctatggccggcgggccaagagactgcagcctgatccg
gaacccacagaggaagacattgagaagaatccagagctgaaaaagctacagatctatggg
gcaggccccaagatgatgggcctgggcctcatggccaaagacaagactctgcggaagaaa
gataaggaggggcctgagtgtccccccacagtagtggtgaaggaggagttaggtggggat
gtgaaggtggagtcaacatcgcctaagaccttcctggagagcaaggaggagctgagtcac
agcccagaaccctgcaccaagatgaccatgaggctacggaggaaccacagcaatgcccag
tttattgagtcatatgtctgccggatgtgttctcgaggggatgaggatgacaagctcctg
ctgtgtgatggctgtgatgacaactaccacatcttctgcctgctgcctcctctgcctgag
atccccaagggtgtctggcggtgcccaaagtgtgtcatggcggagtgtaagcggccccca
gaagcctttggctttgagcaggctacccgggaatacactctgcagagctttggcgagatg
gccgactcctttaaagctgactacttcaacatgcccgtgcatatggtgcccacagaactt
gtggagaaggagttctggaggctggtaaatagcattgaggaagatgtgactgttgagtat
ggagctgacatccattccaaagaatttggcagcggtttccctgtcagtgacagtaaacgg
cacctaacccccgaagaggaggagtatgctaccagtggttggaacctaaatgtgatgccg
gtgttggaacagtctgtactgtgccacatcaatgcagatatctctggcatgaaggtgccc
tggctctacgtgggcatggtcttctcagccttttgctggcatattgaggatcactggagt
tactccattaactacctccactggggtgagccgaagacctggtatggggtgccctcactt
gcagcagaacatttggaagaagtgatgaagaagctgacacctgaactatttgatagccag
cctgacctcctgcaccaacttgtcaccctcatgaatcccaacaccctcatgtcccatggt
gtgccagttgtccgcacaaaccagtgtgcaggagagtttgtcatcaccttcccccgtgct
taccacagcggcttcaaccaaggctacaactttgccgaggctgtcaacttttgcactgct
gactggttgcctgctgggcgccagtgcattgagcactaccgccggctccggagatactgc
gtcttctcccatgaggagcttatctgcaagatggctgcctgcccagagaagctagacctg
aacctggcggcagctgtgcataaggagatgttcatcatggtgcaagaagagcggcgtcta
cgaaaggccctgctggagaagggtatcacagaggctgagcgagaggctttcgagctgctc
ccagatgatgagcgccagtgtatcaagtgcaagactacgtgtttcctgtcagccctggcc
tgctacgactgcccagacggccttgtctgcctttcccacatcaatgatctctgcaagtgc
tccagtagccggcagtacctgcggtatcggtataccttggatgagcttcctgccatgctg
cataagctgaaggttcgggctgagtcctttgacacctgggccaacaaagtgcgagtggcc
ctggaggtggaggatgggcggaagcgcagccttgaagaactgagggcactagagtctgaa
gcccgtgagcggaggtttcctaatagtgagctgctgcagcaactaaagaactgcctgagt
gaggcagaggcttgcgtgtcccgagctctgggactggtcagcggccaggaagctggggtg
gctggtctacagatgaccctgactgagctccgggcctttctggaccagatgaacaacctg
ccttgcgccatgcaccagattggggatgtcaagggtgttctggaacaggtggaggcctac
caggctgaggctcgtgaggccctggcctcactgccctccagtccagggctactgcagtcc
ctgttggagagggggcggcagctgggggtggaggtgcctgaggcccagcagctccagcgg
caggtggaacaggcgcgatggctggatgaggtgaaacgcacactggccccctcagcccga
aggggcaccttggctgtcatgcgaggactgttggtcgcgggtgccagtgtagcccctagc
cctgctgtggataaagcccaggccgagctgcaggaactgctgaccattgctgaacgctgg
gaggagaaagcccacctctgcctggaggccaggcagaagcatccaccagccacacttgag
gccataatccgtgaagcggaaaacatccctgttcacctgcccaacatccaggctctcaag
gaggctcttgctaaggcccgggcctggattgctgatgttgatgagatccaaaatggtgac
cactacccctgcctggatgacttggagggcctagtagctgtgggccgggacctacctgtg
gggctggaggagctgagacagctagagctacaggtactgacagcgcactcctggagggag
aaggcctccaagaccttcctcaagaaaaattcttgctacacgctgctggaggttctctgc
ccatgtgcagatgccggctcagacagcaccaagcgcagccggtggatggagaaggagctg
gggttgtacaaatctgacacagagctgctggggctgtctgcgcaggacctcagggaccca
ggctctgtgatcgtggccttcaaggagggggaacagaaggagaaggagggtatcctgcag
ctgcgtcgcaccaattcggccaagcccagtccactggcatcatcgagcacggcctcctct
acaacctctatctgtgtgtgtgggcaggtgctggctggggcgggagctctgcagtgtgac
ctgtgtcaggactggttccatgggcgctctccgaggcccaatcccacctcatccccactg
ctggcctggtgggaatgggacaccaaattcctgtgtccactgtgtatgcgctcaaggcgc
ccgcgcctggagaccatcctggcactgctggtagccctgcagagactgcctgtgcggctg
cccgagggcgaggccctgcagtgcctcacagagagggccatcagctggcaaggccgcgcc
aggcaggctctggcctctgaagatgtgactgctcttttgggacggctggctgagctccgc
caacggctacaggctgaacctagacctgaggagcctcctaactaccctgcagcccctgct
tctgaccccctcagagagggcagtggcaaggatatgcctaaggtccagggcttactggag
aatggagacagtgtgaccagtcctgagaaggtagccccggaggagggctcagatctggag
ctgctgtcctcgctgttgccacagttgactggccctgtgttggaactgcctgaggcaacc
cgggcccccttggaggagctcatgatggagggggacctgctcgaggtgaccctggatgag
aaccacagcatatggcagctgctgcaggctggacagcccccagacctggagaggatccgc
acacttctggagctggagaaggcagagcgtcacgggagtcgggctcggggccgggccctg
gagaggcggcggcggcggaaggtggatcggggtggggagggcgatgacccagcccgagag
gagctagagccaaagagggtacggagctcagggccagaggctgaggaggtccaggaggag
gaagagctggaggaggagactggggctgataggaacctagtggtaaataagaaagcccgc
cctcttctggcagctttgattggtgggaaggtctggctcagccctgcttcatctagtctt
ccagttgggaccctaggctatacaacaatgttttccacgagaaccaaaaatgctggagaa
gagctgacttttgattatcaaatgaaaggttctggagatgtatcttcagattctattgac
cacagcccagccaaaaagagggtcagcggcatagtggcgccccagaacagggacttcgag
gacgtgaacgaaggtctgctggagcagaggaactga

>gi568815575r:53134222_53421123|GENSCAN_predicted_peptide_6|1015_aa
MGGPPAGVGLPWAQRARLQPASVALRKQEEEEIKRSKALSDSYELSTDLQDKKVEMLERK
YGGSFLSRRAARTIQTAFRQYRMNKNFERLRSSASESRMSRRIILSNMRMQFSFEEYEKA
QNPAYFEGKPASLDEGAMAGARSHRLERGLPYGGSCGGGIDGGGSSVTTSGEFSNDITEL
EDSFSKQVKSLAESIDEALNCHPSGPMSEEPGSAQLEKRESKEQQEDSSATSFSDLPLYL
DDTVPQQSPERLPSTEPPPQGRPEFWAPAPLPPVPPPVPSGTREDGSREEGTRRGPGCLE
CRDFRLRAAHLPLLTIEPPSDSSVDLSDRSDRGSVHRQLVYEADGCSPHGTLKHKGPPGR
APIPHRHYPAPEGPAPAPPGPLPPAPNSGTGPSGVAGGRRLGKCEAAGENSDGGDNESLE
SSSNSNETINCSSGSSSRDSLREPPATGLCKQTYQRETRHSWDSPAFNNDVVQRRHYRIG
LNLFNKKPEKGIQYLIERGFLSDTPVGVAHFILERKGLSRQMIGEFLGNRQKQFNRDVLD
CVVDEMDFSSMDLDDALRKFQSHIRVQGEAQKVERLIEAFSQRYCVCNPALVRQFRNPDT
IFILAFAIILLNTDMYSPSVKAERKMKLDDFIKNLRGVDNGEDIPRDLLVGIYQRIQGRE
LRTNDDHVSQVQAVERMIVGKKPVLSLPHRRLVCCCQLYEVPDPNRPQRLGLHQREVFLF
NDLLVVTKIFQKKKILVTYSFRQSFPLVEMHMQLFQNSYYQFGIKLLSAVPGGERKVLII
FNAPSLQDRLRFTSDLRESIAEVQEMEKYRVESELEKQKGMMRPNASQPGGAKDSVNGTM
ARSSLEDTYGAGDGLKRGALSSSLRDLSDAGKRGRRNSVGSLDSTIEGSVISSPRPHQRM
PPPPPPPPPEEYKSQRPVSNSSSFLGSLFGSKRGKGPFQMPPPPTGQASASSSSASSTHH
HHHHHHHGHSHGGLGVLPDGQSKLQALHAQLGKFTYIFLKTVAKIKGNNWYELAM

>gi568815575r:53134222_53421123|GENSCAN_predicted_CDS_6|3048_bp
atggggggcccccctgctggagtgggccttccctgggctcagcgggcacgcctccagcca
gccagtgtcgccctgaggaagcaggaggaggaggagataaagcgctccaaggccctatcg
gacagctatgaactctccacagacctgcaggacaagaaggtggaaatgctggagaggaag
tatgggggctccttcctgagccgcagggctgccaggaccatccagacagccttccgccag
taccgcatgaacaagaactttgagcggctacgcagctcagcctcagagagccgcatgtcc
cgccgcatcatcctttccaacatgcggatgcagttctcctttgaggagtatgagaaggca
cagaaccccgcgtacttcgagggcaagcctgcctcgctggacgagggtgccatggctggt
gcccggagccaccggcttgaacgggggctcccatatggaggctcctgtggtgggggcatc
gatggtggtggaagctccgtcaccacatctggagagttttctaatgacatcacagaactt
gaggactccttctccaaacaggtaaagtctctggctgaatccatcgacgaagccctgaac
tgccacccgtcagggcccatgtctgaggagccagggtcagcccagctggagaagcgggag
tcaaaggaacagcaagaggacagctcagccacatccttcagtgatcttcccctctacctg
gatgacacagttccccaacaatcccctgagcgactgcccagcacagaacccccaccccag
ggccggcccgagttctgggcgccagcccctctcccgccagttcctccaccagtgccatca
ggaacccgggaagacggtagccgtgaggaaggcactcgcaggggtcccgggtgcttggag
tgccgggatttccggctgcgggctgcccaccttcccctgcttaccattgagcctcctagt
gacagctccgtggacctgagtgaccgctcagatcgcggctctgtccaccgccagctggtg
tatgaggctgatggctgcagcccccatgggaccctgaagcacaaggggccaccaggcagg
gccccgatcccacaccgccactacccagcccctgaaggcccagccccagccccaccaggg
cccctgccaccagcccccaacagtggcactgggcccagtggtgtggctgggggtcggagg
ttggggaagtgcgaggcagcaggcgagaactctgatggtggagataacgagagccttgag
agctccagcaattccaatgagaccatcaactgcagctccggctcctcttctcgggacagt
ctaagggagcctccggctaccggcctgtgcaagcagacttaccagcgggagacaaggcat
agctgggactcgccagctttcaacaatgatgtggtccagaggcggcactaccgaatcggc
ctcaacctcttcaacaagaagccagagaagggtatccagtatctgatcgagcggggcttc
ctgtcagacacaccggtgggagtggctcacttcatcctggagcggaaaggcctcagccgg
cagatgataggggaattcctagggaaccggcagaagcagttcaacagagacgtgttggac
tgtgtggtggatgagatggacttctcctccatggatctggatgatgcgctccggaagttc
cagtcccatatccgggttcagggtgaggcccagaaagtggagcgactcatcgaagccttc
agccagcggtactgtgtctgtaacccagccctcgtgcgccagttccggaacccagacacc
atcttcatccttgcttttgccatcatcctcctcaataccgacatgtacagtcccagcgtc
aaagctgaacgaaagatgaaactagatgacttcatcaagaacctgagaggggttgacaat
ggtgaagacatcccccgagacctcctggtgggcatctaccagcgcatccaggggcgtgaa
ctgcggaccaacgatgaccatgtgtcccaggtgcaggctgtggagcgcatgattgttgga
aagaaaccagtcctgtctctccctcaccgtcgactggtttgctgctgccagctctacgag
gtgccagatccaaaccgcccccagaggctagggttgcatcagcgggaggtcttcctcttc
aatgatctccttgtggtcaccaaaattttccagaagaagaagatcttggtgacgtacagt
ttccgtcagtctttccccctcgtggaaatgcacatgcagctcttccagaattcatattac
cagtttgggatcaagttgctgtctgcagtacctggtggggagcgaaaagtcctcatcatc
ttcaatgcccccagcctccaggaccggctgcgctttacatccgacctgcgcgagtccatt
gcggaggtgcaggagatggagaaataccgtgtggagtcggagctggagaagcagaaaggt
atgatgcggcctaacgcctcacagcctggaggggccaaggactcagtgaatgggacgatg
gcccgcagtagcctggaggacacttacggggcaggcgatgggctcaaacggggcgcactc
agcagttccctgcgagacctctctgatgcagggaagcgggggcggcgtaacagcgtggga
tcgctggacagcaccatcgaagggtctgttattagcagtccacgccctcaccagaggatg
ccacctccgcccccacccccgccgccagaggagtacaagagccagaggcccgtctccaac
tcctcatccttcctgggctccctatttggaagcaagcggggcaaggggcccttccagatg
ccaccaccgccaacaggccaggcctctgcctcctcttcatctgcttcttccacgcaccac
caccaccaccaccaccatcatggccatagccacggtggcctgggggtgctgcctgatggg
cagtccaagctccaggccctgcatgcccaactgggtaaattcacctacatctttctgaag
actgttgcaaagattaagggaaataattggtatgaactagccatgtag

>gi568815575r:53134222_53421123|GENSCAN_predicted_peptide_7|326_aa
MAYKQSAEGSERKLHGKGRAVQREGTASAKARRMSSVSPSPPDLLDLGELIFILQYPGQV
GPSGKSMLTHSCRSRNMTGAAARCDSPLRTYGTHASTKHTAVTQQPPWVLEDHSLFPITL
VSLLLPKQTKHTLASGPLHLRFLLSGTSSLRDWLREMLPEEKRENQKKCQEAVLPSKLPS
LTLWMGKLRPGEEKGLTKVHAADTVAQALSPVLDTAVTTDFCPHKLAVYTIITLPFGLAR
AGSSVSAATPDCEAQQATSSCFHPCVPSNPSLVPRANKFRLTLTAAVPLGLGPLIFWPPT
LTHAAKETEMNTAQALSSAERAKTWL

>gi568815575r:53134222_53421123|GENSCAN_predicted_CDS_7|981_bp
atggcatataagcagagtgctgagggaagtgagaggaagttgcatggcaaaggcagagca
gtccagagagagggtacagccagcgcaaaggcccggagaatgtcttctgtctccccttca
ccccccgacttgcttgatctgggtgagctcatcttcatcttgcagtaccctgggcaggtt
ggtccttctgggaagtcaatgctgactcactcctgccgctcacggaacatgacaggggca
gcggcccggtgtgattcacctttgcggacctatggcactcatgccagtactaagcacaca
gcagttactcagcagccaccctgggtcctcgaagaccacagccttttccccatcacactg
gtctccctgctgctccccaaacagaccaaacacactcttgcctcggggcctttacacctg
cggttccttctatctggaacatcgtccctgagagactggctgagagaaatgcttcctgaa
gagaagagggaaaatcaaaagaaatgccaagaggctgttcttccaagtaaactgcccagc
ctgactttatggatgggcaaattgaggcctggagaggaaaagggtcttactaaagttcat
gcagcagatactgtggcccaggcactgtccccggtgctggatacagcagtgactacagac
ttctgtcctcacaaactggctgtctacaccatcatcacgctcccatttgggctggcccga
gctggctcatctgtgtctgcagcaaccccagactgtgaagcacaacaggccacctcctcc
tgctttcatccttgcgtgcctagcaaccccagcctggtccccagggccaacaagttcagg
ctgaccctcactgcagcagtgcctctaggcctgggccccctcatcttctggcctcccacc
ctcactcatgctgcgaaggagacagagatgaacacagcacaggctctgtcctcagctgag
agagccaagacgtggctttag

>gi568815575r:53134222_53421123|GENSCAN_predicted_peptide_8|415_aa
MEAGSGPPGGPGSESPNRAVEYLLELNNIIESQQQLLETQRRRIEELEGQLDQLTQENRD
LREESQLHRGELHRDPHGARDSPGRESQYQNLRETQFHHRELRESQFHQAARDVGYPNRE
GAYQNREAVYRDKERDASYPLQDTTGYTARERDVAQCHLHHENPALGRERGGREAGPAHP
GREKEAGYSAAVGVGPRPPRERGQLSRGASRSSSPGAGGGHSTSTSTSPATTLQRKFQDA
SIPSAVLRTRKQGSERYSDLPEVIQADGAQNCLASKPMVHRCLPQAVVLTLDAKSSVLKG
AKRPAQDLCAVHSAQWEVAYLSIKPFLSSDPELDMDTKVRYTDEIKGLFSGETERPQKKR
PPKADIWKSSNKRTAFQPSNLIVKPTTWQAPPAHRVSKQLGSVMGTNLGTPAKNP

>gi568815575r:53134222_53421123|GENSCAN_predicted_CDS_8|1248_bp
atggaggcggggtcggggcccccgggcggcccgggatccgagagcccaaatcgggccgtg
gagtacctgctggagctgaacaacatcatcgagagccagcagcagctgctggaaacccag
cggcggcgcatcgaggagctggagggccagctggaccagctcacccaggagaaccgcgac
ctgcgagaggagagccagctgcaccgcggggagctgcaccgggacccccacggcgcgcgg
gatagcccgggccgcgagagccagtaccagaacctgcgcgagacccagttccaccaccgc
gagctgcgggagagccagttccaccaggcggcccgggacgtgggctacccgaaccgggaa
ggcgcctaccagaatcgggaggctgtgtatcgggacaaggagcgggacgcctcctacccg
ctccaggacactaccggttacacagcccgcgagcgtgacgtggcccagtgccacctgcac
cacgagaacccagccctgggtcgcgagcgtggcgggcgggaggccgggccggcgcacccg
ggccgcgagaaggaagcgggctattcggcggcggtgggcgtggggccgcggccaccgcgg
gagcggggccagctgagccgtggcgcatccaggagctccagtcccggcgccggcggaggc
cacagcaccagtaccagcaccagcccggccacgaccctccagagaaagttccaggatgcc
agtatcccttctgctgtgctcaggacaaggaaacaaggatcagagaggtacagtgacctg
cccgaggttattcaggcagatggagcccagaactgtctggcttccaaacctatggtacac
cgctgcctcccgcaggctgtggtcctgaccctcgatgccaagtcttctgttctgaaagga
gcaaagaggcctgcacaggacctgtgtgcagttcactcagcccagtgggaagttgcttat
ttatccatcaaacctttcttgagctcagaccctgagctggacatggacaccaaagtcagg
tacacagatgagatcaaaggattgttctctggggaaactgaaaggccccagaaaaaaagg
cctccaaaagccgacatttggaagtcttctaacaaaagaacagcctttcagcccagtaat
ttgatagtgaagcccaccacctggcaagccccacctgcacacagagtttccaagcagctt
ggtagtgtcatgggaactaatctaggaacaccagccaagaacccttaa

>gi568815575r:53134222_53421123|GENSCAN_predicted_peptide_9|187_aa
MPDLYFCRDPEKIENEEQAAGEKAVTKEELQGEWTAPAPESTAIQPEGTDWSEGMQSHFP
EASVPGTSFAKQRGARAEKSLKNHISPLPGSSQQEPVRILRTMKHLPQIQRISSSILTKR
DDNEHPCAVTYVKGEDVNVSSLDMVFTGGFGGFWRIVFTLYQFRVTYINGLTLGWDTYLS
YLKYQFL

>gi568815575r:53134222_53421123|GENSCAN_predicted_CDS_9|564_bp
atgcctgatctctatttctgcagagatcctgaaaagattgaaaacgaagagcaggctgct
ggagaaaaggctgtgaccaaggaggaacttcagggtgaatggactgcgccagctcctgag
tctactgctattcaacctgagggtacagactggtctgaaggcatgcagagtcatttccca
gaagcctcagtccctgggaccagctttgccaagcaacgtggagctagagcagaaaagagc
cttaaaaaccacatctcaccactgccaggatctagtcaacaagaacccgtcagaatactg
agaaccatgaagcatttgcctcagatccaaaggatctccagttcaattctgaccaaaagg
gatgataatgagcatccttgtgctgttacttatgttaaaggggaagatgtcaatgtttca
tcattagacatggtcttcactggaggattcggaggattttggaggatagtctttactctt
tatcagttccgagtcacctacatcaatggcctgacattgggctgggacacatatctgtcc
tacctgaagtaccagttcctctga

>gi568815575r:53134222_53421123|GENSCAN_predicted_peptide_10|61_aa
MRGGQKLNSKSKEKAAETINRKLPEGRNSVFSKAQHLDGPKRKGRRICIEGIQEHEWLDD
E

>gi568815575r:53134222_53421123|GENSCAN_predicted_CDS_10|186_bp
atgaggggtggccagaaactaaacagcaaaagcaaagagaaagctgcagaaaccataaat
aggaagctccctgagggcaggaattctgtcttcagcaaagcccagcacctggatggtccc
aaaaggaaggggcggcgaatatgcattgaaggaatccaggagcatgaatggttggatgac
gaatga

>gi568815575r:53134222_53421123|GENSCAN_predicted_peptide_11|1275_aa
XKSNLMDAISFVLGEKTSNLRVKTLRDLIHGAPVGKPAANRAFVSMVYSEEGAEDRTFAR
VIVGGSSEYKINNKVVQLHEYSEELEKLGILIKARNFLVFQRARNLSSKPSVKCGSRGMG
EKVGNFFWVKEWKWGAVESIAMKNPKERTALFEEISRSGELAQEYDKRKKEMVKAEEDTQ
FNYHRKKNIAAERKEAKQEKEEADRYQRLKDEVVRAQVQLQLFKLYHNEVEIEKLNKELA
SKNKEIEKDKKRMDKVEDELKEKKKELGKMMREQQQIEKEIKEKDSELNQKRPQYIKAKE
NTSHKIKKLEAAKKSLQNAQKHYKKRKGDMDELEKEMLSVEKARQEFEERMEEESQSQGR
DLTLEENQVKKYHRLKEEASKRAATLAQELEKFNRDQKADQDRLDLEERKKVETEAKIKQ
KLREIEENQKRIEKLEEYITTSKQSLEEQKKLEGELTEEVEMAKRRIDEINKELNQVMEQ
LGDARIDRQESSRQQRKAEIMESIKRLYPGSVYGRLIDLCQPTQKKYQIAVTKVLGKNMD
AIIVDSEKTGRDCIQYIKEQRGEPETFLPLDYLEVKPTDEKLRELKGAKLVIDVIRYEPP
HIKKALQYACGNALVCDNVEDARRIAFGGHQRHKTVALDGTLFQKSGVISGGASDLKAKA
RRWDEKAVDKLKEKKERLTEELKEQMKAKRKEAELRQVQSQAHGLQMRLKYSQSDLEQTK
TRHLALNLQEKSKLESELANFGPRINDIKRIIQSREREMKDLKEKMNQVEDEVFEEFCRE
IGVRNIREFEEEKVKRQNEIAKKRKHIEYWGKHQFEDSVINGVIKLDFVHWLSLADEIMS
DSPPTFIHSLEFENQKTRLGIQLDFEKNQLKEDQDKVHMWEQTVKKDENEIEKLKKEEQR
HMKIIDETMAQLQDLKNQHLAKKSEVNDKNHEMEEIRKKLGGANKEMTHLQKEVTAIETK
LEQKRSDRHNLLQACKMQDIKLPLSKGTMDDISQEEGSSQGEDSVSGSQRISSIYAREAL
IEIDYGDLCEDLKDAQAEEEIKQEMNTLQQKLNEQQSVLQRIAAPNMKAMEKLESVRDKF
QETSDEFEAARKRAKKAKQAFEQIKKERFDRFNACFESVATNIDEIYKALSRNSSAQAFL
GPENPEEPYLDGINYNCVAPGKRFRPMDNLSGGEKTVAALALLFAIHSYKPAPFFVLDEI
DAALDNTNIGKVANYIKEQSTCNFQAIVISLKEEFYTKAESLIGVYPEQGDCVISKVLTF
DLTKYPDANPNPNEQ

>gi568815575r:53134222_53421123|GENSCAN_predicted_CDS_11|3828_bp
ngtaagtcaaatctcatggatgccatcagctttgtgctaggtgaaaaaaccagcaacctg
cgggtaaagaccctgcgggacctgatccatggagctcctgtgggcaagccagctgccaac
cgggcctttgtcagcatggtctactctgaggagggtgctgaggaccgtacctttgcccgt
gtcattgtaggaggttcttctgagtacaagatcaacaacaaagtggtccaactacatgag
tacagtgaggaattagagaagttgggcattctcatcaaagctcgtaacttcctcgttttc
cagagggcaaggaatttgtcctcaaagcccagtgtgaaatgtggcagcaggggcatggga
gagaaagttggtaactttttctgggtgaaggagtggaaatggggtgctgtggaatctatt
gccatgaagaaccccaaagagaggacagctctatttgaagagattagtcgttctggggag
ctggcgcaggagtatgacaagcgaaagaaggaaatggtgaaggctgaagaggacacacag
tttaattaccatcgcaagaaaaatattgcggctgaacgcaaggaagcaaagcaggagaaa
gaagaggctgaccggtaccagcgcctgaaggatgaggtagtacgggctcaggtacagctg
cagctctttaagctttaccataatgaagtggaaattgagaagctcaacaaggaactggcc
tcaaagaacaaggagatcgagaaggacaagaagcgtatggacaaggtggaggatgaactg
aaggagaagaagaaggagctgggcaaaatgatgcgggagcagcagcagattgagaaggag
atcaaggagaaggactcagaattgaaccagaagcggcctcagtacatcaaagccaaggag
aacacctcccacaaaatcaagaagctggaagcagccaagaagtctctgcagaatgctcag
aagcactacaagaagcgtaaaggtgacatggatgagctggagaaggagatgctgtcagtg
gagaaggctcggcaggagtttgaagaacggatggaagaagagagtcagagtcagggcaga
gatttgacgttggaggagaatcaggtgaagaaataccaccggttgaaagaagaagccagc
aagagagcagctaccctggcccaggagctggagaaattcaatcgagaccagaaagctgac
caggaccgtctggatctggaagaacggaagaaagtagagacagaggccaagatcaagcaa
aagctgcgggaaattgaagagaatcagaagcggattgagaaactggaggaatacatcacc
actagcaagcagtccctagaagagcagaagaagctagagggggagctgacagaggaggtg
gagatggccaagcggcgtattgatgaaatcaataaggagctgaaccaggtgatggagcag
ctaggggatgcccgcatcgaccgccaggagagcagccgccagcagcgaaaggcagagata
atggaaagcatcaagcgcctttaccctggctctgtgtacggccgcctcattgacctatgc
cagcccacacaaaagaagtatcagattgctgtaaccaaggttttgggcaagaacatggat
gccattattgtggactcggagaagacaggccgggactgtattcagtatatcaaggagcag
cgtggggagcctgagaccttcttgcctcttgactacctggaggtgaagcctacagatgag
aaactccgggagctgaagggggccaagctagtgattgatgtgattcgctatgagccacct
catatcaaaaaggccctgcagtatgcttgtggcaatgcccttgtctgtgacaacgtggaa
gatgcccgccgcattgcctttggaggccaccagcgccacaagacagtggcactggatgga
accctattccagaagtcaggagtgatctctggtggggccagtgacctgaaggccaaggca
cggcgctgggatgagaaagcagtagacaagttgaaagagaagaaggagcgcttgacagag
gagctgaaagagcagatgaaggcaaaacggaaagaggcagagctgcgtcaggtgcagtct
caggcccatggactgcagatgcggctcaagtactcccagagtgacctagaacagaccaag
acacgacatctagccctgaatctgcaggaaaaatccaagctggagagtgagctagccaac
tttgggcctcgcattaatgatatcaagaggatcattcagagccgagagagggaaatgaaa
gacttgaaggagaagatgaaccaggtagaggatgaggtgtttgaagagttttgtcgggag
attggtgtgcgcaacatccgggagtttgaggaagaaaaggtgaaacggcagaatgaaatc
gccaagaagcggaaacatatagagtactgggggaaacatcaatttgaggacagtgtgatc
aatggtgtaattaagttggattttgtacattggttatctctggctgatgagattatgagt
gattctccccccacctttatacacagtttggagtttgagaatcagaagactcgcttgggc
attcagttggattttgaaaagaaccaactgaaggaggaccaagataaagtacacatgtgg
gagcagacagtgaaaaaagatgaaaatgagatagaaaagctcaaaaaggaggaacaaaga
cacatgaagatcatagatgagaccatggctcagctacaagacctgaagaatcagcatctg
gccaagaagtcggaagtgaatgacaagaatcatgagatggaggagattcgtaagaaactc
gggggcgccaacaaggaaatgacccatttacagaaggaggtgacagccattgagaccaag
cttgaacagaagcgcagtgaccgtcacaacttgctacaggcctgtaagatgcaggacatt
aagttgccactgtcaaaaggcaccatggatgatattagtcaggaagagggtagctcccag
ggggaggactcagtgagtggttcacagagaatttccagtatctatgcacgagaggccctc
attgagattgactacggtgatctgtgtgaggatctgaaggatgcccaggctgaggaagag
atcaagcaagagatgaacacactgcagcagaagctgaatgagcagcagagtgtgcttcag
cgtattgccgcccccaacatgaaggccatggaaaagctggaaagtgtccgagacaagttc
caggagacctcagatgagtttgaagcagcccgaaagcgagcaaagaaggccaagcaggca
ttcgaacagatcaagaaggagcgctttgaccgcttcaatgcttgttttgaatctgtggct
accaacattgatgagatctataaggccctgtcccgcaatagcagtgcccaggcattcctg
ggccctgagaaccctgaagagccctacttggatggcatcaactacaactgtgtggctcct
gggaaacgcttccggcctatggacaacttgtcaggcggggagaagacagtggcagctctg
gccctgctctttgccatccacagctacaagccagcccccttcttcgtcctggatgagatt
gatgctgccttggataacaccaacattggcaaggtggcaaattacatcaaggagcagtcg
acttgcaacttccaggccatcgtcatctctctcaaggaggagttctacaccaaggccgag
agcctcattggagtctatcctgagcaaggggactgtgtgatcagcaaagtcctgaccttc
gacctcaccaagtacccagatgccaaccccaaccccaatgagcagtag
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