GENSCAN 1.0	Date run:  4-Nov-116	Time: 03:46:34

Sequence gi568815593r:150344289_150547733 : 203445 bp : 50.84% 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 Init +  13459  13566  108  0  0   72  115   150 0.998  14.33
 1.02 Intr +  13780  14148  369  0  0   78   89    62 0.509   0.60
 1.03 Intr +  16868  16923   56  1  2   96   98    21 0.930   1.68
 1.04 Intr +  19825  20016  192  1  0   48   42   243 0.481  14.31
 1.05 Intr +  20133  20245  113  0  2   54   60    79 0.553   1.72
 1.06 Intr +  23556  23629   74  1  2   76  113    35 0.876   3.93
 1.07 Intr +  24428  24614  187  1  1   93   99    92 0.997  10.06
 1.08 Intr +  25241  25314   74  0  2   73   76   105 0.998   6.93
 1.09 Intr +  27718  27948  231  0  0   98   94   147 0.991  14.27
 1.10 Intr +  29886  30098  213  2  0   74   94   152 0.841  13.31
 1.11 Intr +  30329  30523  195  1  0  118   94   150 0.999  18.21
 1.12 Intr +  30666  30875  210  2  0  120   94   147 0.999  17.61
 1.13 Intr +  31051  31266  216  0  0  130   94    70 0.940  10.50
 1.14 Intr +  31433  31621  189  1  0  110   94   231 0.999  25.68
 1.15 Intr +  31794  32042  249  2  0   85   94   146 0.989  12.53
 1.16 Intr +  32135  32332  198  1  0  103   94   111 0.939  12.75
 1.17 Intr +  34941  35120  180  2  0   73   94   129 0.927  12.06
 1.18 Intr +  35244  35444  201  2  0  156  110    72 0.999  15.68
 1.19 Intr +  38467  38617  151  0  1   61   71    43 0.677  -0.36
 1.20 Intr +  38724  38884  161  1  2   98   85    94 0.855   9.81
 1.21 Intr +  43614  43800  187  2  1   85   93   148 0.993  14.26
 1.22 Intr +  45599  45735  137  0  2  104   82   100 0.949  11.29
 1.23 Intr +  47256  47369  114  2  0   89   72    20 0.683   1.14
 1.24 Intr +  47669  47888  220  1  1   44   68   214 0.837  12.87
 1.25 Intr +  49097  49264  168  0  0   90  111    51 0.492   7.52
 1.26 Intr +  49378  49449   72  2  0   80   61    43 0.504   0.18
 1.27 Term +  51994  52562  569  2  2  126   47   524 0.954  46.68
 1.28 PlyA +  53486  53491    6                               1.05

 2.11 PlyA -  53642  53637    6                               1.05
 2.10 Term -  54352  54279   74  2  2   95   48    54 0.774   0.17
 2.09 Intr -  56472  56404   69  1  0   99   89    50 0.887   5.35
 2.08 Intr -  58337  58275   63  0  0   83  110    69 0.869   7.29
 2.07 Intr -  59024  58833  192  0  0   62   91   228 0.995  19.96
 2.06 Intr -  60479  60392   88  2  1   90   87    23 0.996   1.94
 2.05 Intr -  60892  60797   96  1  0   83   82   115 0.998  10.61
 2.04 Intr -  62033  61971   63  2  0  117  109    91 0.970  13.01
 2.03 Intr -  62672  62593   80  0  2  107   74   128 0.940  12.57
 2.02 Intr -  63036  62864  173  2  2  118   37   273 0.999  24.79
 2.01 Init -  68413  68337   77  1  2   82   87   116 0.540  11.47
 2.00 Prom -  71165  71126   40                              -2.36

 3.04 PlyA -  71178  71173    6                               1.05
 3.03 Term -  83977  83890   88  0  1  115   34    58 0.440   0.23
 3.02 Intr -  87930  87779  152  0  2   70  103    37 0.280   2.36
 3.01 Init -  89550  89524   27  0  0   60  109    13 0.290   0.21
 3.00 Prom -  98738  98699   40                              -2.46

 4.06 PlyA -  98888  98883    6                               1.05
 4.05 Term - 100065  99998   68  1  2  131   47    16 0.900  -0.10
 4.04 Intr - 101397 101321   77  2  2   89  111    55 0.988   7.06
 4.03 Intr - 102675 102514  162  2  0   69   68   154 0.993  10.59
 4.02 Intr - 103447 103297  151  2  1  101   89   102 0.995  10.82
 4.01 Init - 107169 107094   76  0  1   58   95    90 0.774   7.95
 4.00 Prom - 109653 109614   40                              -7.76

 5.00 Prom + 109806 109845   40                              -6.66
 5.01 Init + 110785 110790    6  0  0   85   37     7 0.160  -4.18
 5.02 Intr + 113819 113966  148  1  1  124   78    93 0.946  11.71
 5.03 Intr + 115108 115254  147  2  0   93   93    49 0.982   6.11
 5.04 Intr + 116334 116570  237  1  0  -24   81   221 0.499   7.79
 5.05 Intr + 121888 122034  147  2  0   61   81    43 0.248   1.11
 5.06 Term + 137577 137653   77  1  2   85   53    90 0.106   3.20
 5.07 PlyA + 138250 138255    6                               1.05

 6.10 PlyA - 139146 139141    6                              -0.45
 6.09 Term - 141722 141609  114  2  0   59   53    45 0.033  -3.33
 6.08 Intr - 143489 143335  155  0  2   50   56    90 0.384   1.79
 6.07 Intr - 145630 145334  297  2  0  127   70   114 0.772  10.35
 6.06 Intr - 146111 145851  261  0  0  133   64    76 0.923   7.16
 6.05 Intr - 147661 147531  131  0  2  110    4    23 0.065  -3.56
 6.04 Intr - 154221 154058  164  0  2   70  107    64 0.521   5.27
 6.03 Intr - 167438 167308  131  0  2   85   66    73 0.551   5.21
 6.02 Intr - 171850 171725  126  2  0   73   63    62 0.435   2.85
 6.01 Init - 175845 175779   67  0  1   86   55    35 0.257   1.24
 6.00 Prom - 176304 176265   40                              -8.36

 7.00 Prom + 176729 176768   40                              -4.96
 7.01 Init + 176967 177479  513  2  0   86   81   968 0.470  88.80
 7.02 Intr + 183516 184010  495  2  0   87   86  1024 0.695  95.29
 7.03 Intr + 188657 188744   88  1  1  122  111    63 0.996  11.54
 7.04 Intr + 190579 190733  155  2  2   82   72   166 0.997  14.19
 7.05 Intr + 191412 191597  186  2  0  109  101   316 0.870  34.89
 7.06 Intr + 194940 195068  129  2  0   94   76   268 0.721  27.09
 7.07 Intr + 195794 195976  183  1  0   72   75   347 0.917  31.78
 7.08 Intr + 197282 197382  101  1  2   89   20   204 0.952  12.61
 7.09 Intr + 197674 197738   65  1  2  -35   46    74 0.562 -10.74
 7.10 Intr + 198560 198683  124  0  1   99  105   163 0.865  18.74
 7.11 Intr + 201024 201198  175  0  1   97  109   238 0.991  26.74

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):


>gi568815593r:150344289_150547733|GENSCAN_predicted_peptide_1|1677_aa
MAEARKRRELLPLIYHHLLRAGYVRAAREVKEQSGQWVGPESVLAGAELCNSRFPYLHAL
PGSGYFKFPKSPATWLGSARPPLGQGGCCESRGWIATSPSGERLEKGPYSLLVELELRPL
AIVCTETVSFGTRTRGTVISYLINSTVNPVLRVLPGVRMKCFLAQPVTLLDIYTHWQQTS
ELGRKRKAEEDAALQAKKTRVSDPISTSESSEEEEEAEAETAKASKSLAALGTGYGILIV
LGHYISMLWGCKAEPKQPDGPFQSHLVYGAQELPYYRLPAPRLASTNSSVLGADLPSSMK
EKAKAETEKAGKTGNSMPHPATGKTVANLLSGKSPRKSAEPSANTTLVSETEEEGSVPAF
GAAAKPGMVSAGQADSSSEDTSSSSDETDVEGKPSVKPAQVKASSVSTKESPARKAAPAP
GKVGDVTPQVKGGALPPAKRAKKPEEESESSEEGSESEEEAPAGTRSQVKASEKILQVRA
ASAPAKGTPGKGATPAPPGKAGAVASQTKAGKPEEDSESSSEESSDSEEETPAAKALLQA
KASGKTSQVGAASAPAKESPRKGAAPAPPGKTGPAVAKAQAGKREEDSQSSSEESDSEEE
APAQAKPSGKAPQVRAASAPAKESPRKGAAPAPPRKTGPAAAQVQVGKQEEDSRSSSEES
DSDREALAAMNAAQVKPLGKSPQVKPASTMGMGPLGKGAGPVPPGKVGPATPSAQVGKWE
EDSESSSEESSDSSDGEVPTAVAPAQEKSLGNILQAKPTSSPAKGPPQKAGPVAVQVKAE
KPMDNSESSEESSDSADSEEAPAAMTAAQAKPALKIPQTKACPKKTNTTASAKVAPVRVG
TQAPRKAGTATSPAGSSPAVAGGTQRPAEDSSSSEESDSEEEKTGLAVTVGQAKSVGKGL
QVKAASVPVKGSLGQGTAPVLPGKTGPTVTQVKAEKQEDSESSEEESDSEEAAASPAQVK
PPVRNPQNSTVLARGPASVPSVGKAVATAAQAQTGPEEDSGSSEEESDSEEEAETLAQVK
PSGKTHQIRAALAPAKESPRKGAAPTPPGKTGPSAAQAGKQDDSGSSSEESDSDGEAPAA
VTSAQAAVTSCRDIGPTALQPSGFSCIGVINPFHVRSQLWKELAGWKHVSSGCGAANAPL
PDHVLIQVLSPQKDSNSKPARSKTLAPAPPERNTEGSSESSEEELPLTQVIKPPLIFVDP
NRSPAGPAATPAQAQAASTPRKARASESTARSSSSESEDEDVIPATQCLTPGIRTNVVTM
PTAHPRIAPKASMAGASSSKESSRISDGKKQEGPATQVSKKNPASLPLTQAALKVLAQKA
SEAQPPVARTQPSSGVDSAVGTLPATSPQSTSVQAKGTNKLRKPKLPEVQQATKAPESSD
DSEDSSDSSSGSEEDGEGPQGAKSAHTLGYMTPGLTPANSQASKATPKLDSSPSVSSTLA
AKDDPDGKQEAKPQQAAGMLSPKTEPLQVRPCGLALDLKMLIKVQVGPGGKEAASGTTPQ
KSRKPKKGAGNPQASTLALQSNITQCLLGQPWPLNEAQVQASVVKVLTELLEQERKKVVD
TTKESSRKGWESRKRKLSGDQPAARTPRSKKKKKLGAGEGGEASVSPEKTSTTSKGKAKR
DKASGDVKEKKGKGSLGSQGAKDEPEEELQKGMGTVEGGDQSNPKSKKEKKKSDKSE

>gi568815593r:150344289_150547733|GENSCAN_predicted_CDS_1|5034_bp
atggccgaggccaggaagcggcgggagctacttcccctgatctaccaccatctgctgcgg
gctggctatgtgcgtgcggcgcgggaagtgaaggagcagagcggccagtgggttgggcca
gaaagtgtgctcgcaggggccgaactttgtaattcccgcttcccttacctccacgccctt
cctggtagcgggtattttaagtttcctaagtctcccgccacgtggctaggctctgcgcgg
ccccccctggggcaaggaggttgctgcgagtctcgggggtggattgcgaccagcccctcg
ggggagcgcctggaaaagggaccctacagcctcttagttgagctggaactcaggccttta
gcgattgtctgtactgagacggtcagctttggtactcgaactcgtggtacagtcatttct
tacttgattaattcaactgttaatccggtactcagggtgcttcctggtgttcgaatgaag
tgtttcctggctcagcccgtaacccttctggacatctatacacactggcaacaaacctca
gagcttggtcggaagcggaaggcagaggaagatgcggcactgcaagctaagaaaacccgt
gtgtcagaccccatcagcacctcggagagctcggaagaggaggaagaagcagaagccgaa
accgccaaagccagtaagagccttgcagctttgggaacaggctatggaatattgattgtt
ctagggcattatatctccatgctctgggggtgcaaggccgaaccaaaacaaccagatggg
cccttccagtctcatttggtgtatggggcccaggagctgccctattacaggctcccagcc
ccaagactagcatctaccaactcctcagtcctgggggcggacttgccatcaagcatgaaa
gaaaaagccaaggcagagacagagaaagctggcaagactgggaattccatgccacaccct
gccactgggaagacggtggccaaccttctttctgggaagtctcccaggaagtcagcagag
ccctcagcaaatactacgttggtctcagaaactgaggaggagggcagcgtcccggccttt
ggagctgctgccaagcctgggatggtgtcagcgggccaggccgacagctccagcgaggac
acctccagctccagtgatgagacagacgtggaggggaaaccctcagtaaaaccagcccag
gtcaaagcctcatcagtttctactaaggagtctccagcaagaaaggcggccccagcccct
gggaaggtgggggatgtgacaccccaggtcaaaggaggggccctgcccccagccaagagg
gccaagaagccagaagaggagtcagagagtagtgaggagggatctgaaagtgaggaggag
gcccctgcagggacacgaagccaggtaaaggcctctgaaaaaattctccaggtcagagct
gcctcagcccctgccaaggggacccctgggaaaggggctaccccagcaccccctgggaag
gcaggggctgtagcctcccagaccaaggcagggaagccagaggaggactcagagagcagc
agcgaggagtcatctgacagtgaggaggagacgccagctgccaaggccctgcttcaggcg
aaggcctcaggaaaaacctctcaggtcggagctgcctcagcccctgccaaggagtccccc
aggaaaggagctgccccagcgccccctgggaagacagggcctgcagttgccaaggcccag
gcggggaagcgggaggaggactcgcagagcagcagcgaggaatcggacagtgaggaggag
gcgcctgctcaggcgaagccttcagggaaggccccccaggtcagagccgcctcggcccct
gccaaggagtcccccaggaaaggggctgccccagcacctcctaggaaaacagggcctgca
gccgcccaggtccaggtggggaagcaggaggaggactcaagaagcagcagcgaggagtca
gacagtgacagagaggcactggcagccatgaatgcagctcaggtgaagcccttggggaaa
agcccccaggtgaaacctgcctctaccatgggcatggggcccttggggaaaggcgccggc
ccagtgccacccgggaaggtggggcctgcaaccccctcagcccaggtggggaagtgggag
gaggactcagagagcagtagtgaggagtcatcagacagcagtgatggagaggtgcccaca
gctgtggccccggctcaggaaaagtccttggggaacatcctccaggccaaacccacctcc
agtcctgccaaggggccccctcagaaggcagggcctgtagccgtccaggtcaaggctgaa
aagcccatggacaactcggagagcagcgaggagtcatcggacagtgcggacagtgaggag
gcaccagcagccatgactgcagctcaggcaaaaccagctctgaaaattcctcagaccaag
gcctgcccaaagaaaaccaataccactgcatctgccaaggtcgcccctgtgcgagtgggc
acccaagccccccggaaagcaggaactgcgacttctccagcaggctcatccccagctgtg
gctgggggcacccagagaccagcagaggattcttcaagcagtgaggaatcagatagtgag
gaagagaagacaggtcttgcagtaaccgtgggacaggcaaagtctgtggggaaaggcctc
caggtgaaagcagcctcagtgcctgtcaaggggtccttggggcaagggactgctccagta
ctccctgggaagacggggcctacagtcacccaggtgaaagctgaaaagcaggaagactct
gagagcagtgaggaggaatcagacagtgaggaagcagctgcatctccagcacaggtgaag
ccaccagtgagaaacccccagaacagtaccgtcttggcgaggggcccagcatctgtgcca
tctgtggggaaggccgtggctacagcagctcaggcccagacagggccagaggaggactca
gggagcagtgaggaggagtcagacagtgaggaggaggcggagacgctggctcaggtgaag
ccttcagggaagacccaccagatcagagctgccttggctcctgccaaggagtcccccagg
aaaggggctgccccaacacctcctgggaagacagggccttcggctgcccaggcagggaag
caggatgactcagggagcagcagcgaggaatcagacagtgatggggaggcaccggcagct
gtgacctctgcccaggctgctgtcacctcttgtcgagacattgggccaacagccctgcag
ccctcaggttttagctgcatcggagtcataaatccctttcatgttcggagtcagctctgg
aaggagctagcagggtggaagcatgtttccagtggctgtggggcagcaaatgccccactc
cccgaccacgtgcttatccaggtcttgtcccctcagaaggacagtaactccaaacctgcc
agaagcaagaccctggccccagcacccccagagaggaacacggaggggtcctcggagagc
agtgaggaagagctgccactgacccaggtgattaaaccccctctgatttttgtcgaccct
aatcgtagtccagctggcccagctgctacacccgcacaagcccaggctgcaagcaccccg
aggaaggcccgagcctcggagagcacagccaggagctcctcctccgagagcgaggatgag
gacgtgatccccgctacacagtgcttgactcctggcatcagaaccaatgtggtgaccatg
cccactgcccacccaagaatagcccccaaagccagcatggctggggccagcagcagcaag
gagtccagtcggatatcagatggcaagaaacaggagggaccagccactcaggtgtcaaag
aagaacccagcttccctcccactgacccaggctgccctgaaggtcctcgcccagaaagcc
agtgaggctcagcctcctgttgccaggacccagccttcaagtggggttgacagtgctgtg
ggaacactccctgcaacaagtccccagagcacctccgtccaggccaaagggaccaacaag
ctcagaaaacctaagcttcctgaggtccagcaggccaccaaagcccctgagagctcagat
gacagtgaggacagcagcgacagttcttcagggagtgaggaagatggtgaagggccccag
ggggccaagtcagcccacacgctgggttatatgacccctggactaaccccagccaattcc
caggcctcaaaagccactcccaagctagactccagcccctcagtttcctctactctggcc
gccaaagatgacccagatggcaagcaggaggcaaagccccaacaggcagcaggcatgttg
tcccctaaaacagagcctctccaagtgagaccttgtggccttgcattggacctgaagatg
ctcatcaaagtgcaggtggggccaggtggaaaagaggctgcttcaggcaccacacctcag
aagtcccggaagcccaagaaaggggctgggaacccccaagcctcaaccctggcgctgcaa
agcaacatcacccagtgcctcctgggccaaccctggcccctgaatgaggcccaggtgcag
gcctcagtggtgaaggtcctgactgagctgctggaacaggaaagaaagaaggtggtggac
accaccaaggagagcagcaggaagggctgggagagccgcaagcggaagctatcgggagac
cagccagctgccaggacccccaggagcaagaagaagaagaagctgggggccggggaaggt
ggggaggcctctgtttccccagaaaagacctccacgacttccaaggggaaagcaaagaga
gacaaagcaagtggtgatgtcaaggagaagaaagggaaggggtctcttggctcccaaggg
gccaaggacgagccagaagaggagcttcagaaggggatggggacggttgaaggtggagat
caaagcaacccaaagagcaagaaggagaagaagaaatccgacaagagtgagtga

>gi568815593r:150344289_150547733|GENSCAN_predicted_peptide_2|324_aa
MDDQRDLISNNEQLPMLGRRPGAPESKCSRGALYTGFSILVTLLLAGQATTAYFLYQQQG
RLDKLTVTSQNLQLENLRMKLPKPPKPVSKMRMATPLLMQALPMGALPQGPMQNATKYGN
MTEDHVMHLLQNADPLKVYPPLKGSFPENLRHLKNTMETIDWKVFESWMHHWLLFEMSRH
SLEQKPTDAPPKVLTKCQEEVSHIPAVHPGSFRPKCDENGNYLPLQCYGSIGYCWCVFPN
GTEVPNTRSRGHHNCSESLELEDPSSGLGVTKQDLGPVHTQDIILSFMFIHFLPSPPQNH
GHFYGFHVLREHALPASSLVCHNP

>gi568815593r:150344289_150547733|GENSCAN_predicted_CDS_2|975_bp
atggatgaccagcgcgaccttatctccaacaatgagcaactgcccatgctgggccggcgc
cctggggccccggagagcaagtgcagccgcggagccctgtacacaggcttttccatcctg
gtgactctgctcctcgctggccaggccaccaccgcctacttcctgtaccagcagcagggc
cggctggacaaactgacagtcacctcccagaacctgcagctggagaacctgcgcatgaag
cttcccaagcctcccaagcctgtgagcaagatgcgcatggccaccccgctgctgatgcag
gcgctgcccatgggagccctgccccaggggcccatgcagaatgccaccaagtatggcaac
atgacagaggaccatgtgatgcacctgctccagaatgctgaccccctgaaggtgtacccg
ccactgaaggggagcttcccggagaacctgagacaccttaagaacaccatggagaccata
gactggaaggtctttgagagctggatgcaccattggctcctgtttgaaatgagcaggcac
tccttggagcaaaagcccactgacgctccaccgaaagtactgaccaagtgccaggaagag
gtcagccacatccctgctgtccacccgggttcattcaggcccaagtgcgacgagaacggc
aactatctgccactccagtgctatgggagcatcggctactgctggtgtgtcttccccaac
ggcacggaggtccccaacaccagaagccgcgggcaccataactgcagtgagtcactggaa
ctggaggacccgtcttctgggctgggtgtgaccaagcaggatctgggcccagtccacacc
caagacatcatcctgtctttcatgttcatccacttcttgccctcaccaccacagaaccat
ggccacttctacggcttccatgtgctcagggaacatgccctgccagcctcttccctggtg
tgtcacaacccctga

>gi568815593r:150344289_150547733|GENSCAN_predicted_peptide_3|88_aa
MQNNRNNLQVRKLKHRMLVGSRTEIQPKQLKSIDSKLSCKAYCLEWVTHGDSELSVSGGI
RSTPAMLASLWFVNQAGHIPTMGPLLWL

>gi568815593r:150344289_150547733|GENSCAN_predicted_CDS_3|267_bp
atgcagaacaataggaataacctgcaggtgaggaaactgaagcacaggatgctagtaggc
agcagaactgagattcagccaaagcaacttaagagcatagactctaagctgtcatgcaaa
gcctactgcctagaatgggttactcatggagatagtgagctttctgtctctggcggcatt
cgctccaccccagcaatgctggcctccttgtggttcgtcaaccaggccggacacattccc
accatgggacctctgctctggctgtga

>gi568815593r:150344289_150547733|GENSCAN_predicted_peptide_4|177_aa
MQMVKTIRKEMSDVTHHRRNAMQREEMAPRKGKEKKEEQVISLGPQVAEGENVFGVCHIF
ASFNDTFVHVTDLSGKETICRVTGGMKVKADRDESSPYAAMLAAQDVAQRCKELGITALH
IKLRATGGNRTKTPGPGAQSALRALARSGMKIGRIEDVTPIPSDSTRRKGGRRGRRL

>gi568815593r:150344289_150547733|GENSCAN_predicted_CDS_4|534_bp
atgcaaatggttaaaacaatccgtaaagagatgtctgacgtcactcatcatcgaagaaat
gcaatgcaacgagaagaaatggcacctcgaaaggggaaggaaaagaaggaagaacaggtc
atcagcctcggacctcaggtggctgaaggagagaatgtatttggtgtctgccatatcttt
gcatccttcaatgacacttttgtccatgtcactgatctttctggcaaggaaaccatctgc
cgtgtgactggtgggatgaaggtaaaggcagaccgagatgaatcctcaccatatgctgct
atgttggctgcccaggatgtggcccagaggtgcaaggagctgggtatcaccgccctacac
atcaaactccgggccacaggaggaaataggaccaagacccctggacctggggcccagtcg
gccctcagagcccttgcccgctcgggtatgaagatcgggcggattgaggatgtcaccccc
atcccctctgacagcactcgcaggaaggggggtcgccgtggtcgccgtctgtga

>gi568815593r:150344289_150547733|GENSCAN_predicted_peptide_5|253_aa
MTDSHAVCEQLMGAPVCPRTCHLSTRHTVTVSRPAAKGLCLAGNMGKKQGQSQLAEGLRS
VHPKGRAVPGQPNGWQCQGMDPESFIHSAGLLSTYCVPGTELAEGEQEREQEEVETVTLV
RGDGGSDRDGSCEDGEQWSDLRDTLEAESVEFSDELDGGVRMIVGSRLEQRVDDGAINQV
LLTMRNNLGAFLRGETQPGSIPWKMWLSVTSDVCLFGCRGSGCLGVQQGSPGDNELEGFG
PSSVKSNSEDLRR

>gi568815593r:150344289_150547733|GENSCAN_predicted_CDS_5|762_bp
atgacggactcacacgcggtctgcgagcaactgatgggagcccctgtgtgccccaggacc
tgtcatctcagcactcgccacacagtgaccgtgtcacggcctgctgccaaggggctttgt
ctagcagggaatatgggcaagaaacaaggacaaagccagctcgcagagggcctgcgctca
gtccatccaaagggaagggcagtgccagggcagcccaatggctggcagtgccagggcatg
gatcccgagtcgtttattcattcagcgggtttattgagcacctactgtgtgccaggcact
gaattggctgaaggtgagcaagagagggagcaggaggaggtggagacggtcacgctggtg
agaggtgacgggggctcagaccgcgatggcagctgtgaagatggagaacaatggtcagat
ctgagagatactttggaagcagaatctgtagaattttcagatgaattggatggaggggtg
aggatgattgtaggttctaggcttgagcaacgggtggatgatggggctattaaccaagtt
ctcctaaccatgcggaacaaccttggggccttcctccgaggggaaacccagcctggaagc
atcccgtggaaaatgtggctgtcagtgacctctgatgtttgtctcttcggctgccgaggg
tctgggtgcctgggagtgcagcaaggttctccgggtgacaatgagttggaaggatttggg
cccagctcagtgaagagcaactcggaagacctgagaagatga

>gi568815593r:150344289_150547733|GENSCAN_predicted_peptide_6|481_aa
MAAVIFAHNATRYLSSSGYVPTACLKSSPIFGGCGPYWELAGCLDRSQEAEDKAMAKPRA
EGEQVLPGQEPSCRLSVTPESRTTTTGKETVGGLAQSRRATESTVYPALVLQLLESPAQS
AEPGVETKTPGSDTYKITQQIHSRARTTNSKLLPNDYFVPSTRQSETGWEASKSSSPCSL
GYGSLVTRTATGPPAQRDLLSQPNLSGEEKETDPISQMRNGSRGFKSSVKVQSLAQLWPL
LQTSPRGPLTVSWAECIPNGKDSPSGALQARPYGTPQDVQEGQLQSYEKTEGGGTLKDKT
MPPTCRGPFRDLKAVILPLKGYSPNLKTTCDDPKCQDSYKVLQLPPPSLSVRCLSQPVVS
FLQDHDERNLWPGLNSASLAPIFGQKTPEKQHNTAASNSTWTITEFQAQSPTDLPPAPAA
HANKSQGTRPHLEQVPGRREHYLPRLPPRIAAAGSGVRSRDAAWVPAREELRRPGRPAGV
R

>gi568815593r:150344289_150547733|GENSCAN_predicted_CDS_6|1446_bp
atggcagctgtcatatttgcccataatgcaaccaggtatctctcatcctcggggtacgta
cccacagcatgtctgaaaagtagccctatctttggaggctgtggcccttactgggagctg
gctggctgcctggatagaagccaagaagctgaagataaggccatggcaaaacccagggca
gagggagagcaagtgctgcctggccaggagccaagctgccgcctgtcagtcaccccagag
tccaggaccaccaccaccgggaaagagactgttggaggtctggctcagagtcgcagggcc
acagagagcacagtctaccctgcactggtcctgcagctcctagaaagcccagcacagagt
gcggagccaggggtggagactaagaccccaggatcagacacttacaagatcactcagcaa
attcatagcagagctagaactaccaacagcaaacttttaccaaatgattactttgtacca
agcacgaggcaaagtgagactgggtgggaggcctccaaaagctccagcccatgcagtctg
gggtacgggtccctggttacgaggacagccacagggccgccagcccagcgggaccttctc
agccagcccaatttatctggtgaggaaaaagagactgaccccatttcacagatgagaaat
ggaagcagagggttcaaatcctctgtgaaagtacagtccttagcccagctctggccactg
ctccagacatccccaaggggccccttgacagtcagctgggctgagtgtattccaaacggc
aaggactctcccagtggagctctgcaggccaggccatatggaactccccaggacgtgcag
gaagggcagctccaaagctatgagaaaacagagggtggaggaaccctgaaggacaagact
atgccccctacctgtagagggcctttcagggatttgaaagcagtaatattgccccttaag
ggttattccccaaaccttaaaaccacctgtgacgaccccaaatgccaagacagctacaaa
gtcctgcagcttccccctccttccctgtcagtccgctgcctgagtcagcctgtggtcagc
tttctgcaggaccatgatgagcgcaatctctggcctggtcttaactctgccagtcttgct
cccatctttggtcaaaagacccctgagaagcaacacaacacagcagccagcaacagcact
tggaccattacggagttccaggcccagtctccaactgacctccctcctgctccagctgcc
catgctaacaagagccagggcacaagacctcacttggaacaagtaccaggcagaagagag
cattacctgccgcgcctacctccccgaatcgcggccgctgggagcggggttcgatcccgt
gatgccgcgtgggtgccggccagagaagagctccggaggccggggcggccggcgggcgtg
cggtga

>gi568815593r:150344289_150547733|GENSCAN_predicted_peptide_7|738_aa
MPALACLRRLCRHVSPQAVLFLLFIFCLFSVFISAYYLYGWKRGLEPSADAPEPDCGDPP
PVAPSRLLPLKPVQAATPSRTDPLVLVFVESLYSQLGQEVVAILESSRFKYRTEIAPGKG
DMPTLTDKGRGRFALIIYENILKYVNLDAWNRELLDKYCVAYGVGIIGFFKANENSLLSA
QLKGFPLFLHSNLGLKDCSINPKSPLLYVTRPSEVEKGVLPGEDWTVFQSNHSTYEPVLL
AKTRSSESIPHLGADAGLHAALHATVVQDLGLHDGIQRVLFGNNLNFWLHKLVFVDAVAF
LTGKRLSLPLDRYILVDIDDIFVGKEGTRMKVEDVKALFDTQNELRAHIPNFTFNLGYSG
KFFHTGTNAEDAGDDLLLSYVKEFWWFPHMWSHMQPHLFHNQSVLAEQMALNKKFAVEHG
IPTDMGYAVAPHHSGVYPVHVQLYEAWKQVWSIRVTSTEEYPHLKPARYRRGFIHNGIMV
LPRQTCGLFTHTIFYNEYPGGSSELDKIINGGELFLTVLLNPISIFMTHLSNYGNDRLGL
YTFKHLVRFLHSWTNLRLQTLPPVQLAQKYFQIFSEEKDPLWQDPCEDKRHKDIWSKEKT
CDRFPKLLIIGPQKTGSLSNAKQNWYKEDCDQLAMSARGTTALYLFLGMHPDLSSNYPSS
ETFEEIQFFNGHNYHKGIDWYMEFFPIPSNTTSDFYFEKSANYFDSEVAPRRAAALLPKA
KVLTILINPADRAYSWYQ

>gi568815593r:150344289_150547733|GENSCAN_predicted_CDS_7|2214_bp
atgcctgccctggcatgcctccggaggctgtgtcggcacgtgtccccgcaggctgtcctt
ttcctgctgttcatcttctgcctgttcagcgttttcatctcggcctactacctatatggc
tggaagcgaggcctggagccctcggcggatgcccccgagcctgactgcggggacccgccg
cctgtggcccccagtcgcctgctgccactcaagcctgtgcaggcagccaccccttcccgc
acagacccgttggtgctggtctttgtggagagcctctactcgcaactgggccaggaggtg
gtggccatcctggagtccagccgcttcaaataccgcacagagattgcgccgggcaagggt
gacatgcccacgctcactgacaagggccgtggccgcttcgccctcatcatctatgagaac
atcctcaagtatgtcaacctggacgcctggaaccgggagctgctggacaagtactgtgtg
gcctacggcgtgggcatcattggcttcttcaaggccaatgagaacagcctgctgagtgcg
cagctcaagggcttccccctgttcctgcactcaaacctgggcctgaaggactgcagcatc
aaccccaagtccccgctgctctacgtgacgcgacctagcgaggtggagaaaggtgtgctc
cccggcgaggactggacggttttccagtcaaatcactccacctatgagccagtgctgctg
gccaagacgcgctcgtctgagtccatcccacacctgggcgcagacgccggcctgcatgct
gcactgcacgccactgtggtccaggacctgggcctgcacgacggcatccagcgcgtgctg
tttggcaacaacctgaacttctggctgcacaagcttgtcttcgtggatgccgtggccttc
ctcacggggaagcgcctctccctgccattggaccgctacatcctggtggacattgatgac
atcttcgtgggcaaggagggcacacgcatgaaggtggaggacgtgaaggccctgtttgac
acacagaacgaactacgcgcacacatcccaaacttcaccttcaacctgggctactcaggg
aaattcttccacacaggtaccaatgctgaggacgctggggatgatctgctgctgtcgtat
gtgaaggagttctggtggttcccccacatgtggagccacatgcagccccaccttttccac
aaccagtccgtgttggccgagcagatggccttgaacaagaagttcgctgtcgagcatggc
attcccacagacatggggtatgcagtggcgccccaccactcgggcgtgtaccccgtgcac
gtgcagctgtacgaggcttggaagcaggtgtggagcatccgcgtgaccagcacggaggag
tacccccacctgaagccagcccgctaccgccgtggcttcatccacaatggcatcatggtt
ctcccacggcagacctgcggcctcttcacacacaccatcttctacaacgagtaccctggc
ggctccagtgagctggacaagatcatcaacgggggcgagctcttcctcaccgtgctcctc
aatcctatcagcatcttcatgacgcacctgtccaactatgggaatgaccgcctgggcctg
tacaccttcaagcacctggtgcgcttcctgcactcctggacgaacctccggctgcagaca
ctgccccctgtgcagttggcgcagaagtacttccagatcttctccgaggagaaggacccg
ctctggcaggacccctgcgaggacaaacgtcacaaagacatctggtccaaggagaagacg
tgtgaccgcttcccaaagctcctcatcatcggcccccagaaaacaggcagtttgagtaat
gccaagcaaaactggtacaaagaggactgtgatcaattagctatgtctgccagaggcacc
actgccctctacctgttcctgggcatgcaccctgacctaagcagcaactaccccagctct
gagacctttgaggagatccagttttttaatggccacaactatcacaaaggcatcgactgg
tacatggagttcttccccatcccttccaacaccacctccgacttctactttgagaaaagc
gccaactactttgattcagaagtggcgccccggcgggcagcagccctcttgcccaaagcc
aaggtcctgaccatcctcatcaaccccgcggaccgggcctattcctggtaccag