GENSCAN 1.0	Date run: 24-Oct-119	Time: 21:48:04

Sequence gi568815581f:76285106_76487583 : 202478 bp : 50.60% 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..
----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------

 1.07 Intr -   2396   2087  310  1  1   97   94   168 0.916  14.62
 1.06 Intr -   2792   2695   98  2  2   98   98    26 0.997   3.41
 1.05 Intr -   4972   4887   86  2  2   70   78   114 0.999   8.14
 1.04 Intr -   8916   5910 3007  0  1  111   55   629 0.964  49.27
 1.03 Intr -  19420  19277  144  1  0   63   31    84 0.400   0.68
 1.02 Intr -  19836  19681  156  0  0  111   20    81 0.627   3.81
 1.01 Init -  22893  22360  534  0  0  108   84   968 0.971  93.26
 1.00 Prom -  24562  24523   40                              -8.36

 2.11 PlyA -  24792  24787    6                               1.05
 2.10 Term -  26595  26437  159  0  0   47   33   129 0.904   1.24
 2.09 Intr -  27911  27765  147  2  0  111   55   231 0.999  22.53
 2.08 Intr -  28786  28716   71  2  2   59   44    92 0.066   0.80
 2.07 Intr -  43757  43612  146  1  2  140   66   195 0.976  22.43
 2.06 Intr -  44993  44938   56  2  2   71  107    19 0.693  -0.12
 2.05 Intr -  45561  45446  116  1  2   69   53    70 0.685   1.77
 2.04 Intr -  47330  47158  173  1  2   47  109   170 0.434  14.59
 2.03 Intr -  59632  59566   67  2  1   82  110    25 0.376   2.06
 2.02 Intr -  63476  63424   53  1  2   92  107    33 0.745   4.15
 2.01 Init -  68598  68429  170  0  2   80   61   338 0.809  27.31
 2.00 Prom -  79755  79716   40                              -3.96

 3.00 Prom +  80234  80273   40                              -7.16
 3.01 Init +  91702  91707    6  0  0   75   97     0 0.393   0.57
 3.02 Intr +  97360  97555  196  0  1   66   80    41 0.572   0.09
 3.03 Intr +  97897  98214  318  2  0  109  -50   185 0.788   2.73
 3.04 Intr + 100346 100549  204  0  0  133   72   172 0.995  19.27
 3.05 Intr + 100880 101032  153  0  0   76  105   208 0.997  21.34
 3.06 Intr + 101116 101210   95  2  2  109   78   114 0.997  12.18
 3.07 Intr + 101288 101403  116  1  2   69   72   149 0.999  10.65
 3.08 Term + 101701 102481  781  1  1  141   46   920 0.991  85.93
 3.09 PlyA + 102733 102738    6                               1.05

 4.22 PlyA - 103541 103536    6                              -0.45
 4.21 Term - 106508 105838  671  0  2   70   37   917 0.999  78.75
 4.20 Intr - 106708 106651   58  1  1   76   87    16 0.995  -1.24
 4.19 Intr - 107008 106805  204  1  0  111  113   251 0.548  29.30
 4.18 Intr - 110756 110644  113  0  2  120    8   150 0.248  10.30
 4.17 Intr - 111716 111023  694  2  1  101   76  1350 0.981 126.18
 4.16 Intr - 112783 112694   90  1  0   85   94   168 0.714  17.29
 4.15 Intr - 113278 113150  129  1  0   97   85   289 0.883  30.39
 4.14 Intr - 113479 113367  113  2  2   84   85   110 0.988  10.40
 4.13 Intr - 113886 113732  155  2  2   77   57   282 0.850  23.72
 4.12 Intr - 114816 114344  473  0  2  143   97   593 0.997  57.58
 4.11 Intr - 115192 115042  151  0  1  104   95   100 0.993  12.46
 4.10 Intr - 115445 115336  110  2  2  115  115    41 0.990   8.58
 4.09 Intr - 116049 115906  144  0  0   87   90   271 0.960  27.68
 4.08 Intr - 117022 116959   64  0  1  100   -3   182 0.502   9.02
 4.07 Intr - 117594 117497   98  0  2  110   80   220 0.999  22.21
 4.06 Intr - 120211 120101  111  1  0  101   80   369 0.999  37.98
 4.05 Intr - 120467 120408   60  2  0  111   84    71 0.994   7.93
 4.04 Intr - 125462 125367   96  2  0   38   73    75 0.684   1.21
 4.03 Intr - 125829 125636  194  1  2   38  105    83 0.930   4.21
 4.02 Intr - 129562 129440  123  2  0  101   60    61 0.428   5.16
 4.01 Init - 130394 130343   52  2  1   90   48    40 0.634   1.52
 4.00 Prom - 131064 131025   40                              -2.46

 5.00 Prom + 131155 131194   40                              -2.06
 5.01 Init + 137938 138062  125  0  2   58   92    92 0.312   6.24
 5.02 Term + 143270 143372  103  2  1  127   34    46 0.690   0.85
 5.03 PlyA + 144143 144148    6                               1.05

 6.02 PlyA - 145274 145269    6                               1.05
 6.01 Sngl - 146019 145813  207  0  0  110   48   203 0.731  13.69
 6.00 Prom - 154631 154592   40                              -4.66

 7.04 PlyA - 155650 155645    6                               1.05
 7.03 Term - 157726 157689   38  2  2   79   43    67 0.116  -1.20
 7.02 Intr - 163085 163010   76  2  1  104   61    26 0.369   0.59
 7.01 Init - 168036 167620  417  0  0   79   86   702 0.999  63.53
 7.00 Prom - 174890 174851   40                              -5.46

 8.00 Prom + 175500 175539   40                              -8.96
 8.01 Init + 177186 177375  190  2  1   31   90   129 0.212   5.01
 8.02 Intr + 182516 182622  107  0  2   31   96    68 0.271   1.83
 8.03 Intr + 183567 183804  238  2  1  110  113   116 0.327  13.49
 8.04 Intr + 184068 184222  155  1  2   57   94   222 0.982  19.49
 8.05 Term + 184560 184865  306  2  0   90   43   533 0.999  44.12
 8.06 PlyA + 184977 184982    6                               1.05

 9.17 PlyA - 185813 185808    6                              -1.95
 9.16 Term - 186947 186528  420  2  0  107   47   964 0.988  89.49
 9.15 Intr - 187734 187581  154  2  1   86   94   246 0.626  25.07
 9.14 Intr - 188000 187900  101  2  2   68   86    58 0.980   2.51
 9.13 Intr - 188222 188147   76  1  1   87   94    67 0.998   6.72
 9.12 Intr - 188637 188543   95  0  2   95   99   131 0.996  13.66
 9.11 Intr - 188797 188734   64  0  1   65  117    90 0.930   8.32
 9.10 Intr - 189037 188928  110  1  2  122   91   110 0.999  13.78
 9.09 Intr - 189429 189268  162  0  0  140   48   274 0.975  28.77
 9.08 Intr - 189699 189625   75  0  0   91   85   143 0.998  14.01
 9.07 Intr - 190036 189925  112  0  1   74  105   224 0.990  23.08
 9.06 Intr - 191995 191725  271  2  1   15   93   468 0.834  36.60
 9.05 Intr - 192680 192557  124  2  1   85   55   191 0.860  15.66
 9.04 Intr - 193904 193701  204  2  0  127   86   211 0.996  24.20
 9.03 Intr - 194172 193977  196  2  1  124   81   222 0.996  24.52
 9.02 Intr - 194749 194628  122  1  2   82   63    97 0.999   5.89
 9.01 Init - 196419 196270  150  0  0   99   94   197 0.387  21.44

Suboptimal exons with probability > 0.800

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



Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815581f:76285106_76487583|GENSCAN_predicted_peptide_1|1445_aa
MPPATTVSLRELADLSIGTPEVGAVNFTALHTLIVAMLKNLDLQNTRIDFQPSSPEPSRS
LQSVRSSFSIPHLPAPKEVPKGAPREKRRGVGQAPSSALESQVKDLGGQVEDLSKQLKRV
DGQVQGIATHVQHFSQASGLDLAALEWPEEQEVGVRAFDRVRTGSIMKDAAEELSFARVL
LQRVDELEKLFKDREQFLVIPASSMGKGSPGGWPSLSVALSPGLVHPGQAELVSRKLSLV
PGAEEVTMVTWEELEQAITDGWRASQAVNQWGPGPWSWGSETLMGFSKHGGFTSLTSPEG
TLSGDSTKQPSIEQALDSASGLGPDRTASGSGGTAHPSDGVSSREQSKVPSGTGRQQQPR
ARDEAGVPRLHQSSTFQFKSDSDRHRSREKLTSTQPRRNARPGPVQQDLPLARDQPSSVP
ASQSQVHLRPDRRGLEPTGMNQPGLVPASTYPHGVVPLSMGQLGVPPPEMDDRELIPFVV
DEQRMLPPSVPGRDQQGLELPSTDQHGLVSVSAYQHGMTFPGTDQRSMEPLGMDQRGCVI
SGMGQQGLVPPGIDQQGLTLPVVDQHGLVLPFTDQHGLVSPGLMPISADQQGFVQPSLEA
TGFIQPGTEQHDLIQSGRFQRALVQRGAYQPGLVQPGADQRGLVRPGMDQSGLAQPGADQ
RGLVWPGMDQSGLAQPGRDQHGLIQPGTGQHDLVQSGTGQGVLVQPGVDQPGMVQPGRFQ
RALVQPGAYQPGLVQPGADQIDVVQPGADQHGLVQSGADQSDLAQPGAVQHGLVQPGVDQ
RGLAQPRADHQRGLVPPGADQRGLVQPGADQHGLVQPGVDQHGLAQPGEVQRSLVQPGIV
QRGLVQPGAVQRGLVQPGAVQRGLVQPGVDQRGLVQPGAVQRGLVQPGAVQHGLVQPGAD
QRGLVQPGVDQRGLVQPGVDQRGLVQPGMDQRGLIQPGADQPGLVQPGAGQLGMVQPGIG
QQGMVQPQADPHGLVQPGAYPLGLVQPGAYLHDLSQSGTYPRGLVQPGMDQYGLRQPGAY
QPGLIAPGTKLRGSSTFQADSTGFISVRPYQHGMVPPGREQYGQVSPLLASQGLASPGID
RRSLVPPETYQQGLMHPGTDQHSPIPLSTGLGSTHPDQQHVASPGPGEHDQVYPDAAQHG
HAFSLFDSHDSMYPGYRGPGYLSADQHGQEGLDPNRTRASDRHGIPAQKAPGQDVTLFRS
PDSVDRVLSEGSEVSSEVLSERRNSLRRMSSSFPTAVETFHLMGELSSLYVGLKESMKDL
DEEQAGQTDLEKIQFLLAQMVKRTIPPELQEQLKTVKTLAKEVWQEKAKVERLQRILEGE
GNQEAGKELKAGELRLQLGVLSAQSYRPEASQDRGIARDSLDKIHWRGVEGERPPAVSAS
PCVPDGPGSAWVWPECGVWQSLIVHHRVTVADIEKELAELRESQDRGKAAMENSVSEASL
YLQDQ

>gi568815581f:76285106_76487583|GENSCAN_predicted_CDS_1|4335_bp
atgccgcccgcgaccacggtctccctccgggagctggcggacctctccatcggcacgcca
gaggtgggcgccgtcaacttcacggccctgcacacgctcatcgtggccatgctcaagaac
ctcgacctccaaaatacccggatcgacttccagccctcgtcgcccgagcccagccgctcg
ctgcagtccgtccggagctcgttcagcatcccgcacctgcccgcgcccaaggaggtgccc
aagggggcgccccgggagaagcgcaggggcgtgggccaggcgccttcgtcagcgctggag
agccaagtgaaggacctgggcggccaggtggaggacctgagcaagcagctcaagcgtgtg
gacggccaggtgcagggcatcgccacgcacgtgcagcacttctcccaggccagcgggctt
gacctggccgcgctagagtggccggaggagcaggaggtgggcgtgcgggcgttcgatagg
gtgcggactgggagtatcatgaaggacgccgccgaggagctcagctttgccagggtactt
ttacagcgggttgatgaactagagaagctattcaaagatcgggagcaattcctggtaata
ccagccagttccatgggaaagggctctccagggggctggccgtctctcagtgtggccctc
tctccagggcttgtccatccagggcaggcagaactagtcagccggaagctgagtttggtt
cctggtgcagaagaagtcaccatggtcacctgggaagagctggagcaggcgattacggac
ggctggagagcctcacaagcggtgaaccagtgggggcctgggccgtggtcttggggctca
gaaacacttatgggattttctaagcacggagggttcacttccttaacatcacctgaaggg
actctaagcggagactctaccaagcaaccaagtattgagcaggctctggattctgccagt
ggtcttggcccggatcggactgcatcaggatctggtggcacagcacacccctctgatggg
gtttccagtagggaacaaagcaaggtcccctctggtactgggagacagcagcagccgagg
gcccgtgatgaagctggcgtgccacgactccatcagtcttctacattccaattcaaatca
gactcagatcgtcacaggagtagagagaagcttacctcgacacaaccaagaagaaatgca
cgtcctggtccagttcaacaggacttacccttggccagagaccagcccagtagtgtgccc
gctagccagagtcaggtccatctaaggccagatcgtcgtgggttagaaccaactggcatg
aatcagcctggattagtgcctgctagcacttacccacatggtgtggtacccctcagcatg
ggtcagcttggtgtgccaccacctgaaatggatgatcgggaattgataccatttgtcgtg
gatgagcaacgtatgttgccaccatcagtacctggcagagaccagcaaggattggaacta
cctagcacagaccaacatggtctggtttcagtcagtgcatatcagcatggtatgacattt
cctggcacagaccaacgcagtatggaaccacttggcatggatcagcgtggatgtgtaata
tcaggcatgggtcagcaaggactagtaccccctggtatagaccagcaaggattgacattg
cctgtcgtcgatcaacatggcctggttctaccttttacagaccagcatggtttggtatca
cctggtttgatgccaattagtgcagatcagcaaggttttgtgcagcccagtttggaagca
actggcttcatacaacctggcacagagcagcatgatttgatccagtctggcagatttcag
cgtgctttggtgcagcgtggtgcatatcagcctggcttggtccaacctggtgcagatcag
cgtggtttggtccggcctggaatggatcagtctggtttggcccaacctggtgcagatcag
cgtggtttggtctggcctggaatggatcagtctggtttggcccaacctggtagagatcag
catggtttgatccagcctggcacaggtcagcatgatttggtccaatctggcacaggtcag
ggtgtcttggtacagcctggtgtagatcagcctggcatggtccaacctggcagatttcag
cgtgctttggtgcagcctggtgcatatcagcctggcttggtccaacctggtgcagatcag
attgatgtggtgcaacctggtgcagatcagcatggtttggtacaatctggtgcagatcag
agtgatttggctcaacctggtgcagttcagcatggtttggtccaacctggagtagatcag
cgtggtttggcacaacctcgtgcagatcatcagcgtggtttggtcccacctggtgcagat
cagcgtggtttggtccaacctggtgcagatcagcatggtttggtccaacctggagtggat
cagcatggtttggcacaacctggtgaagttcagcgtagtttggtgcaacctggtatagtt
cagcgtggtttggtgcaacctggtgcagttcagcgtggtttggtgcaacctggtgcagtt
cagcgtggtttggtccaacctggagtggatcagcgtggtttggttcaacctggtgcagtt
cagcgtggtttggtccaacctggtgcagttcagcatggtttggtccaacctggtgcagat
cagcgtggtttggtccaacctggagtggatcagcgtggtttggtgcaacctggagtggat
cagcgtggtttggtccaacctggaatggaccagcgtggtttgatccaacctggtgcagat
cagcctggtttggtccagcctggtgcaggtcagctgggtatggtgcagcctggaataggt
cagcaaggtatggtgcaacctcaggcagatccacatggcctggtacaacctggtgcctat
cctcttggtttggtacaacctggtgcatatttgcatgatttatctcaatctgggacatat
ccacgtggtctggtgcagccaggaatggatcagtatggtttgagacaacctggtgcatat
cagccaggcttgatagcaccaggcacaaagcttcgtggctcttcaacattccaggcagat
tctacaggttttatatcagtacgtccatatcaacatggtatggtacctcctggcagagaa
caatacggccaggtgtcaccactcctagccagtcaaggtttggcatcacctggtatagat
cgaaggagtttggtaccaccagaaacttatcagcaaggtttgatgcatcctggcacagac
cagcacagcccaataccactgagtacaggtttgggatctacacacccagatcaacagcat
gtggcatcacctggcccaggtgagcatgaccaggtatacccagatgcagctcagcatggc
catgctttctctctctttgacagtcatgattcaatgtatcctggttatcgtggcccaggg
tatctaagtgctgatcagcatggccaggaaggtttggatccaaatagaacacgagcctcg
gaccgacatggaattcctgcccagaaggccccaggccaagatgtcactcttttcaggagt
ccagactccgtcgaccgagtcttatcagaagggagcgaagtctcgagtgaagtcctgagt
gagcgacgcaattcactgcgtagaatgagttctagtttccccacggcagtggagacattt
catctgatgggagagctcagtagcctctatgtggggctaaaggagagtatgaaggatctg
gatgaggagcaggccggccaaaccgacttggagaagatccagttcctgctggcacagatg
gtcaaaaggaccatacctcctgaactgcaggagcagctgaagaccgtaaagacgctagcc
aaagaagtttggcaggagaaagcaaaagtggaaaggctgcagaggatcctggaaggggaa
gggaatcaagaagcagggaaggaactgaaagctggagagctgagattgcagctgggtgtc
ctcagtgcccagtcctaccgcccagaagcctcccaggacagaggcatagcccgggactcc
ctagacaaaatccattggaggggggtggagggtgagagacctccagctgtgtctgcatcc
ccctgcgtccctgatggcccaggctctgcatgggtctggcctgagtgtggagtctggcag
tctctcatcgtgcaccacagagtcaccgtggctgacatagaaaaggagctggccgagttg
agggagagccaagacaggggcaaggctgccatggaaaattctgtctctgaagcctccctt
tacctgcaggaccag

>gi568815581f:76285106_76487583|GENSCAN_predicted_peptide_2|385_aa
MPKKLLLLPPPSASSAFRVPRARPVPPPAMNAARTGYRVFSANSTAACTELAKRITERLG
AELGKSVVYQETNGETRVEIKESVRGQDIFIIQTIPRDVNTAVMELLIMAYALKTACARN
IIGVIPYFPYSKQSKMRKRGSIVCKLLASMLAKAGLTHIITMDLHQKEIQGFFSFPVDNL
RASPFLLQYIQEEIPNYRNAVIVAKSPDAAKRAQSYAERLRLGLAVIHGEAQCTELDMDD
GRHSPPMVKNATVHPGLELPLMMAKEKPPITVVGDVGGRIAIIVDDIIDDVESFVAAAEI
LKERGAYKIYVMATHGILSAEAPRLIEESSVDEVVVTNTVPHEVQKLQCPKIKTVDISLI
LSEAIRRIHNGESMAYLFRNITVDD

>gi568815581f:76285106_76487583|GENSCAN_predicted_CDS_2|1158_bp
atgcccaagaagctgctgctgttgcccccgccctccgcgtcctcggctttccgcgtcccg
cgcgcccgccccgttcccccgccggccatgaacgccgctcgcaccggctaccgagtcttc
tcggccaactccacggccgcctgcacggagctggccaagcgcatcacagagcgccttggt
gctgaattggggaagtctgttgtatatcaagagaccaatggagaaacaagagttgaaata
aaagaatctgttcgtggccaagatattttcattatacagacaatacccagagatgtgaat
acagctgtgatggagttgctcatcatggcttacgcactgaagactgcctgtgccaggaac
attattggggtcatcccctacttcccctacagcaagcagagcaagatgaggaagaggggt
tccattgtgtgcaagctgctagcatccatgctggcgaaagcaggtttaactcacattatc
actatggatcttcatcaaaaggaaatacaaggctttttcagctttcctgtggacaacctt
agagcctcacctttcctgcttcagtatatccaggaagaaattccaaattacagaaatgca
gtcattgtagctaagtctcctgatgctgcaaagagggcccagtcctatgcggagagactg
cgtctgggtttggccgtcattcacggggaagctcagtgcacggaactggacatggacgat
ggtcgtcactccccgcctatggtcaaaaatgctactgtgcacccaggcctggagttgcca
ttgatgatggccaaagagaagccaccgataactgtagttggagatgttggaggccgcatc
gcaatcatcgtggatgacattattgacgatgtggagagttttgttgctgccgcggagatc
ctgaaagagagaggcgcctataagatctatgttatggccacccacggcatcctgtctgca
gaggcccctcgcctgattgaggagtcctccgtagacgaggtggtggtgacgaatactgtc
cctcatgaggttcagaagctgcaatgtcccaagataaagactgtggatatcagtttgatt
ctttctgaagccattcggagaatccacaatggagagtccatggcctaccttttccgaaac
atcactgtggatgactag

>gi568815581f:76285106_76487583|GENSCAN_predicted_peptide_3|622_aa
MQSQEGSWGPEALDKEPVPRLPLPTQFAVNPAPARSADSRLVVVGLEAQDPTFLGPQEEK
KRGDPEPAHDRGTAAAGLSPPPAPDSWSKGVGGSEVQDPSFRHAPRRQESGMTPLLPPLV
PVSRSFSTPERVAESPSRNALGTLWTQRGLPGGRARRRRTRRYARGAAAPGTPRPAAAGN
DAGAPAATAPGGEGEPHSRPCDARLGSTDKELKAGAAATGSAPTAPGTPWQREPRVEVMD
PAGGPRGVLPRPCRVLVLLNPRGGKGKALQLFRSHVQPLLAEAEISFTLMLTERRNHARE
LVRSEELGRWDALVVMSGDGLMHEVVNGLMERPDWETAIQKPLCSLPAGSGNALAASLNH
YAGYEQVTNEDLLTNCTLLLCRRLLSPMNLLSLHTASGLRLFSVLSLAWGFIADVDLESE
KYRRLGEMRFTLGTFLRLAALRTYRGRLAYLPVGRVGSKTPASPVVVQQGPVDAHLVPLE
EPVPSHWTVVPDEDFVLVLALLHSHLGSEMFAAPMGRCAAGVMHLFYVRAGVSRAMLLRL
FLAMEKGRHMEYECPYLVYVPVVAFRLEPKDGKGVFAVDGELMVSEAVQGQVHPNYFWMV
SGCVEPPPSWKPQQMPPPEEPL

>gi568815581f:76285106_76487583|GENSCAN_predicted_CDS_3|1869_bp
atgcagagccaggaggggagctggggcccggaggcgttggataaagagcccgtgccccgc
ctccccttgccaactcagtttgcagtcaaccccgcccccgcccgctccgcggactcaagg
ctggtggtagtgggcctggaggcgcaggatccgacctttctggggccccaggaggaaaaa
aaaaggggggaccctgaaccagcgcatgaccgcggcactgcggctgcagggctctctccc
ccgcccgcgccggattcctggagcaagggggtggggggctcggaggtgcaggacccatca
ttccgacacgcgccgcgacgccaggagtcggggatgacgcccctgctccctcccctcgtt
cctgtttctcggagtttttcgacccctgagcgcgtcgctgagtcaccttcccggaacgcg
ctcgggacgctctggacccagcggggactgcccgggggccgcgcaaggcgaaggcgcacc
cgccgatacgcgcgcggagctgcggccccagggaccccgcgtccagccgccgcagggaat
gacgccggtgctcctgcagccacggctccgggcggggaaggcgagccccacagccggccc
tgcgacgcccgcctgggcagcaccgataaggagctgaaggcaggagccgccgccacgggc
agcgcccccacagcgccagggaccccctggcagcgggagccgcgggtcgaggttatggat
ccagcgggcggcccccggggcgtgctcccgcggccctgccgcgtgctggtgctgctgaac
ccgcgcggcggcaagggcaaggccttgcagctcttccggagtcacgtgcagccccttttg
gctgaggctgaaatctccttcacgctgatgctcactgagcggcggaaccacgcgcgggag
ctggtgcggtcggaggagctgggccgctgggacgctctggtggtcatgtctggagacggg
ctgatgcacgaggtggtgaacgggctcatggagcggcctgactgggagaccgccatccag
aagcccctgtgtagcctcccagcaggctctggcaacgcgctggcagcttccttgaaccat
tatgctggctatgagcaggtcaccaatgaagacctcctgaccaactgcacgctattgctg
tgccgccggctgctgtcacccatgaacctgctgtctctgcacacggcttcggggctgcgc
ctcttctctgtgctcagcctggcctggggcttcattgctgatgtggacctagagagtgag
aagtatcggcgtctgggggagatgcgcttcactctgggcaccttcctgcgtctggcagcc
ctgcgcacctaccgcggccgactggcctacctccctgtaggaagagtgggttccaagaca
cctgcctcccccgttgtggtccagcagggcccggtagatgcacaccttgtgccactggag
gagccagtgccctctcactggacagtggtgcccgacgaggactttgtgctagtcctggca
ctgctgcactcgcacctgggcagtgagatgtttgctgcacccatgggccgctgtgcagct
ggcgtcatgcatctgttctacgtgcgggcgggagtgtctcgtgccatgctgctgcgcctc
ttcctggccatggagaagggcaggcatatggagtatgaatgcccctacttggtatatgtg
cccgtggtcgccttccgcttggagcccaaggatgggaaaggtgtgtttgcagtggatggg
gaattgatggttagcgaggccgtgcagggccaggtgcacccaaactacttctggatggtc
agcggttgcgtggagcccccgcccagctggaagccccagcagatgccaccgccagaagag
cccttatga

>gi568815581f:76285106_76487583|GENSCAN_predicted_peptide_4|1300_aa
MVPIGPGVARAMLGDQTGCASRPFQQAGELQPSFQAVMQQHCIAQPESLRCEIREGVRVN
LDSTWSVKVSVMNESLDQELQDELVAFAVLLGVSLKTAAQRSSMCLGSQAAVEGECSWQE
RPPRLVRRPTFSAIVRVSAPASPEHLQGFSAVALRLKLEDRSVVPRDVVRHMRSTDSQCG
TVIDVNIDCAVKLIGTNCIIYPVNSKDLQHIWPFMYGDYIAYDCWLGKVYDLKNQIILKL
SNGARCSMNTEDGAKLYDVCPHVSDSGLFFDDSYGFYPGQVLIGPAKIFSSVQWLSGVKP
VLSTKSKFRVVVEEVQVVELKVTWITKSFCPGGTDSVSPPPSVITQENLGRVKRLGCFDH
AQRQLGERCLYVFPAKVEPAKIAWECPEKNCAQGEGSMAKKVKRLLKKQVVRIMSCSPDT
QCSRDHSMEDPDKKGESKTKSEAESASPEETPDGSASPVEMQDEGAEEPHEAGEQLPPFL
LKEGRDDRLHSAEQDADDEAADDTDDTSSVTSSASSTTSSQSGSGTSRKKSIPLSIKNLK
RKHKRKKNKITRDFKPGDRVAVEVVTTMTSADVMWQDGSVECNIRSNDLFPVHHLDNNEF
CPGDFVVDKRVQSCPDPAVYGVVQSGDHIGRTCMVKWFKLRPSGDDVELIGEEEDVSVYD
IADHPDFRFRTTDIVIRIGNTEDGAPHKEDEPSVGQVARVDVSSKVEVVWADNSKTIILP
QHLYNIESEIEESDYDSVEGSTSGASSDEWEDDSDSWETDNGLVEDEHPKIEEPPIPPLE
QPVAPEDKGVVISEEAATAAVQGAVAMAAPMAGLMEKAGKDGPPKSFRELKEAIKILESL
KNMTVEQLLTGSPTSPTVEPEKPTREKKFLDDIKKLQENLKKTLDNVAIVEEEKMEAVPD
VERKEDKPEGQSPVKAEWPSETPVLCQQCGGKPGVTFTSAKGEVFSVLEFAPSNHSFKKI
EFQPPEAKKFFSTVRKEMALLATSLPEGIMDLFSALIKGPTRTPYEDGLYLFDIQLPNIY
PAVPPHFCYLSQCSGRLNPNLYDNGKVCVSLLGTWIGKGTERWTSKSSLLQVLISIQGLI
LVNEPYYNEAGFDSDRGLQEGYENSRCYNEMALIRVVQSMTQLVRRPPEVFEQEIRQHFS
TGGWRLVNRIESWLETHALLEKAQALPNGVPKASSSPEPPAVAELSDSGQQEPEDGGPAP
GEASQGSDSEGGAQGLASASRDHTDQTSETAPDASVPPSVKPKKRRKSYRSFLPEKSGYP
DIGFPLFPLSKGFIKSIRGVLTQFRAALLEAGMPECTEDK

>gi568815581f:76285106_76487583|GENSCAN_predicted_CDS_4|3903_bp
atggttccaattggtccaggtgtagcaagggccatgcttggagaccagacaggctgtgcc
tccaggccattccagcaagctggcgagctgcagccgagtttccaggcggtgatgcagcag
cactgtattgcccagcctgagagtctgcgttgtgagatcagagagggtgtcagggtgaat
ttggattccacctggtcagtcaaggtcagtgttatgaatgagagtctggaccaggagctg
caggacgagctagttgcttttgctgtgttattgggggtcagcctcaagactgcagctcag
agaagcagcatgtgccttgggagtcaggcagccgtggagggagagtgctcctggcaggag
aggcccccgaggctggtccgcagacccaccttctctgccattgttcgggtctcagcacct
gcgtctccagagcaccttcagggcttctcagctgtggcactgcggctgaaactagaggac
cgttctgtggtgccccgagatgtggtccggcacatgcgatccaccgacagtcagtgtggc
acggtgatcgacgtcaacatcgactgtgccgtcaagctcatcggcaccaactgcatcatc
tatcccgtcaacagcaaggacctgcagcacatctggcccttcatgtatggggactacatt
gcctatgactgctggctggggaaggtctacgacttgaagaaccagatcatcctgaagcta
tccaacggcgccaggtgctccatgaacacggaagatggcgccaagctctacgacgtctgc
ccgcacgtcagcgactcgggtctcttcttcgatgattcctatggcttctacccaggccag
gtgctcattggccctgccaagatcttctccagcgtccagtggctgtcaggtgtcaagccc
gtgctcagcaccaagagcaagttccgagtggtggtggaagaggtgcaggttgtagagttg
aaagttacatggattaccaagagtttctgtccagggggcacggacagcgtcagcccccca
ccctctgtcatcacccaggaaaacctaggcagggtgaagcgtctcggatgctttgaccat
gctcagcggcagcttggggagcgctgtctgtatgtcttcccagccaaggtagagccagcc
aagattgcctgggaatgtccagaaaaaaactgcgcccagggggagggctctatggccaag
aaggtgaagcgcctgttgaagaagcaggttgtgcggatcatgtcatgctccccagacacc
cagtgttcccgggaccattccatggaagacccagacaagaagggggaatccaaaaccaag
agcgaagcggagtctgccagccctgaggagacgcccgatggctctgccagtccagtggag
atgcaggacgagggtgcagaggagccccacgaggcaggagagcagctgcccccattcctg
ctaaaagaaggcagagatgacaggctgcactcggcagagcaggacgcagatgatgaggct
gctgatgacacggacgacaccagttcggtgacctcctctgccagctccaccacttcctcc
cagagcggcagcggcacgagtcgcaaaaagagcatccccttgtccatcaagaacttaaag
cgcaaacacaagaggaagaagaataaaatcactcgagacttcaagccaggggacagggtg
gcagtggaggtggtgaccacgatgacctcagccgacgtgatgtggcaggatggctccgtg
gaatgcaacatccgctccaacgacctcttccctgtgcaccacctggacaacaacgagttc
tgccctggagacttcgtggtagataagcgagtccagagctgtccagaccctgctgtctac
ggtgtggtacagtctggggaccacatcggccgtacctgcatggtgaagtggttcaagctg
aggccgagtggggacgacgtggagctgattggagaagaggaagatgtgagtgtttacgac
attgctgaccaccctgactttaggttccgtacaactgacatcgtcatccgcatcggcaat
actgaggatggggctcctcacaaggaggatgagccatcggtgggccaggtggcccgtgtg
gacgtcagcagcaaggtggaggtggtgtgggctgacaactcaaagaccatcatcctgccc
cagcacttgtacaacatagagtctgagattgaggagtcagactacgattcggtagaaggc
agcaccagcggggcatcctcggatgaatgggaagatgatagtgacagctgggagacggac
aatgggctggtggaggacgagcaccccaagatagaggagccccccatcccacccctggag
cagccggtggcccctgaggacaagggagtggtgatcagtgaagaggcagccacagctgcc
gtccagggggctgtggccatggctgcccccatggccgggctgatggagaaggctggcaag
gacgggccacccaagagcttccgggagttgaaagaggccatcaagatcctggagagcctc
aagaacatgactgtggagcagctgctgacgggctcgcccacctctccgactgtggagcct
gagaagccaactcgggagaagaagtttctggatgacatcaagaagctacaggaaaacctc
aagaagaccctggacaatgtggccattgtagaggaggagaagatggaagcagtgcccgac
gtagagcgcaaggaggacaagcccgaggggcagtcacctgtgaaggctgagtggcccagc
gaaaccccggtgctgtgccagcagtgtggcggcaagcctggcgtcaccttcaccagcgcc
aagggcgaggtcttctccgtactggagtttgcaccctcaaatcattcttttaagaaaatt
gagttccagcctccagaagccaagaagttcttcagcacagtgcggaaggagatggcgctg
ctggctacctcactgcctgagggcatcatggacctcttctcagctctcatcaagggcccc
actcgaaccccctacgaggatggcctctacttgtttgacatccagctccccaacatctac
ccagccgtgcccccccacttctgctacctctcccaatgcagtggccgcctgaaccccaac
ctgtatgacaatgggaaggtgtgtgtcagcctcctgggcacctggattggaaaggggaca
gagaggtggacaagcaagtccagccttctccaggtgctcatctccatccaaggtctgatc
ctggtaaatgaaccatactacaacgaagccggcttcgacagtgaccgaggcctgcaggaa
ggctatgaaaacagtcgctgttacaatgagatggcgctgatccgcgtggtgcagtccatg
acccagctggtgcggcggccccccgaggtctttgagcaggagatcaggcaacactttagc
actggtggctggcggctggtgaaccgtatcgagtcctggctggaaacccatgccctgctg
gagaaggcccaggcactgcccaacggggtgcccaaggccagcagctcgccagagccccca
gctgtagccgagctgtcagactccggccaacaagaacctgaggatggagggccagcccca
ggagaggcctcccagggctcagactcagagggcggtgcccagggcctggcctcagctagc
agggaccacacagaccagacttcggagaccgcaccagacgcatcggtgccacccagtgtg
aaaccaaagaagcggagaaagagctaccggagcttcttacctgagaagagtggctaccct
gacatcggcttccccctcttcccactttccaagggtttcatcaagagcatccggggtgtc
ctgacgcagttccgggctgccctgctagaggcaggcatgccggagtgcacagaggacaag
tag

>gi568815581f:76285106_76487583|GENSCAN_predicted_peptide_5|75_aa
MGGVGRIPNGGAWRTSGNAGNRNHSMELIQELRLKSRKRRKRLPRCQTFLICFLGAFVNF
KEKVMVLISENSFLF

>gi568815581f:76285106_76487583|GENSCAN_predicted_CDS_5|228_bp
atgggtggcgtgggcagaatccccaatggcggggcctggagaacatctggcaatgcagga
aacaggaatcacagcatggagctcattcaggaactacggctgaagagcaggaaaaggagg
aagagacttcctagatgtcagacgtttttaatctgtttcctgggagccttcgtcaacttc
aaagaaaaagtaatggttttaatttccgagaactctttcttgttctga

>gi568815581f:76285106_76487583|GENSCAN_predicted_peptide_6|68_aa
MEGVEEKQQLPVVPETLGKKQRNFTELKIKHLNKKFAQKMLQKAGRKLMHEEVKHYHKES
RQMYRTEI

>gi568815581f:76285106_76487583|GENSCAN_predicted_CDS_6|207_bp
atggagggtgtcgaagagaagcagcagcttcctgttgtgccagaaacccttgggaaaaag
caaaggaatttcacagaactaaagatcaagcacctgaataagaagtttgcccaaaagatg
cttcaaaaggcagggaggaaacttatgcacgaagaagtgaagcactaccacaaggaatct
aggcagatgtacagaactgaaatttga

>gi568815581f:76285106_76487583|GENSCAN_predicted_peptide_7|176_aa
MADPAAPTPAAPAPAQAPAPAPEAVPAPAAAPVPAPAPASDSASGPSSDSGPEAGSQRLL
FSHDLVSGRYRGSVHFGLVRLIHGEDSDSEGEEEGRGSSGCSEAGGAGHEEGRASPLRRG
YVRVQWYPEGVKQHVKETKPSGLSALMVLLSGCCLTQGYFPQMKVLLQPVNSAAAN

>gi568815581f:76285106_76487583|GENSCAN_predicted_CDS_7|531_bp
atggcggatcccgcagcccccacgcccgcagctcccgctccagcccaggccccggctcca
gccccggaggcagtcccggccccagccgcagcccccgtcccggcgccggcgcccgcctcg
gactcggcctccgggccgtcctcggactccggcccagaagccggctcgcagcgcctgctg
ttttctcacgacctggtgtcgggccgttaccgtggctccgtgcacttcgggctggtgcgc
ctcatccacggcgaggactcggactcggagggcgaggaggagggccgcgggagctcgggg
tgctccgaggccgggggcgcgggccacgaggagggccgggccagccccctgcgccgcggc
tacgtgcgcgtccagtggtacccggagggcgtcaagcagcatgtgaaggagaccaagccc
tcgggcctcagtgccctgatggtgcttctgtctggctgctgcctgactcaagggtacttt
ccccagatgaaggtcctccttcaaccagtgaacagcgctgccgccaactga

>gi568815581f:76285106_76487583|GENSCAN_predicted_peptide_8|331_aa
MGALFPVTEFITLARTLVLGSLEKVIQGSYPQWAGLLTAPSWIFLQLPSMKQAVPPKVDA
GQRALQPGVPDFTGSRACGQAPRASGFVEGTLGILSTVQVLGGPPWLRRTLPKLGRPKEA
PVARMSTQSTHPLKPEAPRLPPGIPESPSCQRRHTLPASEFRCLTPEDAVSAFEIEREAF
ISVLGVCPLYLDEIRHFLTLCPELSLGWFEEGCLVAFIIGSLWDKERLMQESLTLHRSGG
HIAHLHVLAVHRAFRQQGRGPILLWRYLHHLGSQPAVRRAALMCEDALVPFYERFSFHAV
GPCAITVGSLTFMELHCSLRGHPFLRRNSGC

>gi568815581f:76285106_76487583|GENSCAN_predicted_CDS_8|996_bp
atgggagctcttttccctgttacagaatttatcaccctggcaaggaccctggtacttgga
agcttggagaaagtgattcagggctcttacccgcagtgggcaggactgctgacggctccc
agctggattttcctgcaactgccctcaatgaagcaagctgttccacccaaggttgatgca
ggacaaagagccttgcagcccggagtcccggattttactggttcccgtgcctgcggacag
gcccccagggctagcggctttgtggagggaacactgggtatcctctccacagtccaggtg
ctgggaggccctccttggcttaggaggacacttccaaagctggggcgccccaaggaggca
ccagtggccagaatgtccacgcagagcacccaccccctgaaacctgaggccccacgtctg
ccacctgggatccccgagtccccgagctgtcagcggcgccacacactccctgccagtgag
tttcgctgcctcaccccggaggacgctgtcagcgcctttgagatcgagcgtgaagccttc
atctccgtcttgggcgtctgccccctgtacctggatgagatccggcacttcctgacccta
tgtccagagctgtccctgggctggttcgaggagggctgccttgtggccttcatcatcggc
tcgctctgggacaaggagagactcatgcaggagtcactgacgctgcacaggtctgggggc
cacatagcccacctgcatgtgctggccgtgcaccgcgccttccggcagcagggcaggggc
cccatcctgctgtggcgctacctgcaccacctgggcagccagccggccgtgcgccgggcc
gcgctcatgtgcgaggacgcgctggtacccttctatgagaggttcagcttccacgccgtg
ggcccctgcgccatcaccgtgggctccctcaccttcatggagctccactgctccctgcgg
ggccaccccttcctgcgcaggaacagcggctgctga

>gi568815581f:76285106_76487583|GENSCAN_predicted_peptide_9|811_aa
MASADKNGGSVSSVSSSRLQSRKPPNLSITIPPPEKETQAPGEQDSMLPERKNPAYLKSV
SLQEPRSRWQESSEKRPGFRRQASLSQSIRKGAAQWFGVSGDWEGQRQQWQRRSLHHCSM
RYGRLKASCQRDLELPSQEAPSFQGTESPKPCKMPKIVDPLARGRAFRHPEEMDRPHAPH
PPLTPGVLSLTSFTSVRSGYSHLPRRKRMSVAHMSLQAAAALLKGRSVLDATGQRCRVVK
RSFAFPSFLEEDVVDGADTFDSSFFTPSEHPGGVWEYFGGGFRLKATIPTRKEYGRAPVP
GPRRGKRIASKVKHFAFDRKKRHYGLGVVGNWLNRSYRRSISSTVQRQLESFDSHRPYFT
YWLTFVHVIITLLVICTYGIAPVGFAQHVTTQLVLRNKGVYESVKYIQQENFWVGPSSID
LIHLGAKFSPCIRKDGQIEQLVLRERDLERDSGCCVQNDHSGCIQTQRKDCSETLATFVK
WQDDTGPPMDKSDLGQKRTSGAVCHQDPRTCEEPASSGAHIWPDDITKWPICTEQARSNH
TGFLHMDCEIKGRPCCIGTKGSCEITTREYCEFMHGYFHEEATLCSQVHCLDKVCGLLPF
LNPEVPDQFYRLWLSLFLHAGVVHCLVSVVFQMTILRDLEKLAGWHRIAIIFILSGITGN
LASAIFLPYRAEVGPAGSQFGLLACLFVELFQSWPLLERPWKAFLNLSAIVLFLFICGLL
PWIDNIAHIFGFLSGLLLAFAFLPYITFGTSDKYRKRALILVSLLAFAGLFAALVLWLYI
YPINWPWIEHLTCFPFTSRFCEKYELDQVLH

>gi568815581f:76285106_76487583|GENSCAN_predicted_CDS_9|2436_bp
atggcctctgctgacaagaatggcgggagcgtgtcctctgtgtccagcagccgcctgcag
agccggaagccacccaacctctccatcaccatcccgccacccgagaaagagacccaggcc
cctggcgagcaggacagcatgctgcctgagaggaagaacccagcctacttgaagagcgtc
agcctccaggagccacgcagccgatggcaggagagttcagagaagcgccctggcttccgc
cgccaggcctcactgtcccagagcatccgcaagggcgcagcccagtggtttggagtcagc
ggcgactgggaggggcagcggcagcagtggcagcgccgcagcctgcaccactgcagcatg
cgctacggccgcctgaaggcctcgtgccagcgtgacctggagctccccagccaggaggca
ccgtccttccagggcactgagtccccaaagccctgcaagatgcccaagattgtggatccg
ctggcccggggccgggccttccgccacccggaggagatggacaggccccacgccccgcac
ccaccgctgacccccggagtcctgtccctcacctccttcaccagtgtccgttctggctac
tcccacctgccacgccgcaagagaatgtctgtggcccacatgagcttgcaagctgccgct
gccctcctcaaggggcgctcggtgctggatgccaccggacagcggtgccgggtggtcaag
cgcagctttgccttcccgagcttcctggaggaggatgtggtcgatggggcagacacgttt
gactcctccttttttaccccttctgagcaccctggtggggtctgggagtattttggtggg
ggattcaggctgaaagccaccatccccaccaggaaggagtatggccgagccccagtcccc
gggccccggcgcggcaagcgcatcgcctccaaggtgaagcactttgcctttgatcggaag
aagcggcactacggcctcggcgtggtgggcaactggctgaaccgcagctaccgccgcagc
atcagcagcactgtgcagcggcagctggagagcttcgacagccaccggccctacttcacc
tactggctgaccttcgtccatgtcatcatcacgctgctggtgatttgcacgtatggcatc
gcacccgtgggctttgcccagcacgtcaccacccagctggtgctgcggaacaaaggtgtg
tacgagagcgtgaagtacatccagcaggagaacttctgggttggccccagctcgattgac
ctgatccacctgggggccaagttctcaccctgcatccggaaggacgggcagatcgagcag
ctggtgctgcgcgagcgagacctggagcgggactcaggctgctgtgtccagaatgaccac
tccggatgcatccagacccagcggaaggactgctcggagactttggccacttttgtcaag
tggcaggatgacactgggccccccatggacaagtctgatctgggccagaagcggacttcg
ggggctgtctgccaccaggaccccaggacctgcgaggagccagcctccagcggtgcccac
atctggcccgatgacatcactaagtggccgatctgcacagagcaggccaggagcaaccac
acaggcttcctgcacatggactgcgagatcaagggccgcccctgctgcatcggcaccaag
ggcagctgtgagatcaccacccgggaatactgtgagttcatgcacggctatttccatgag
gaagcaacactctgctcccaggtgcactgcttggacaaggtgtgtgggctgctgcccttc
ctcaaccctgaggtcccagatcagttctacaggctctggctgtctctcttcctacatgct
ggcgtggtgcactgcctcgtgtctgtggtctttcaaatgaccatcctgagggacctggag
aagctggccggctggcaccgtatcgccatcatcttcatcctcagtggcatcacaggcaac
ctcgccagtgccatctttctcccataccgggcagaggtgggcccggccggctcacagttc
ggcctcctcgcctgcctcttcgtggagctcttccagagctggccgctgctggagaggccc
tggaaggccttcctcaacctctcggccatcgtgctcttcctgttcatctgtggcctcctg
ccctggatcgacaacatcgcccacatcttcggcttcctcagtggcctgctgctggccttc
gccttcctgccctacatcaccttcggcaccagcgacaagtaccgcaagcgggcactcatc
ctggtgtcactgctggcctttgccggcctcttcgccgccctcgtgctgtggctgtacatc
taccccattaactggccctggatcgagcacctcacctgcttccccttcaccagccgcttc
tgcgagaagtatgagctggaccaggtgctgcactga