GENSCAN 1.0	Date run:  5-Nov-116	Time: 22:21:56

Sequence gi568815588r:103932238_104180673 : 248436 bp : 40.31% 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..
----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------

 1.00 Prom +   3207   3246   40                              -1.55
 1.01 Init +  32496  32571   76  2  1   98  109    -5 0.835   2.00
 1.02 Intr +  33560  33694  135  0  0   52  100    63 0.820   3.52
 1.03 Intr +  35118  35230  113  1  2   61   55   148 0.873   7.98
 1.04 Intr +  35473  35658  186  0  0   33  116   187 0.329  14.96
 1.05 Intr +  58438  58602  165  0  0   98  106   139 0.985  15.94
 1.06 Intr +  60361  60409   49  0  1   82   27    52 0.665  -4.17
 1.07 Intr +  60747  60896  150  1  0   84  106    66 0.797   7.21
 1.08 Intr +  66662  66734   73  0  1   38   76    25 0.429  -6.15
 1.09 Intr +  66882  67076  195  0  0   97   53   154 0.638  10.41
 1.10 Intr +  67630  67711   82  1  1   15  110    34 0.720  -2.98
 1.11 Intr +  69207  69335  129  2  0   35   65   263 0.635  18.67
 1.12 Intr +  69935  71290 1356  1  0   39  108  1395 0.999 124.36
 1.13 Intr +  73324  73454  131  0  2   13   95   100 0.997   1.77
 1.14 Intr +  73675  73798  124  1  1   42   58   174 0.997   9.47
 1.15 Intr +  75940  76119  180  0  0   61  107   294 0.999  27.74
 1.16 Intr +  78579  78671   93  2  0   58   92   135 0.954  10.14
 1.17 Intr +  81395  81466   72  1  0   56  105    39 0.646   1.08
 1.18 Intr +  85923  86052  130  2  1   74   76   147 0.999  11.45
 1.19 Intr +  86547  86671  125  1  2   45   33   178 0.999   7.38
 1.20 Intr +  87497  87685  189  1  0   38   99   187 0.990  13.66
 1.21 Intr +  88251  88376  126  2  0   78   71   145 0.998  11.76
 1.22 Intr +  89383  89496  114  0  0   75   86    82 0.981   6.42
 1.23 Term +  93337  93483  147  0  0   73   42   105 0.831   1.32
 1.24 PlyA +  93827  93832    6                               1.05

 2.60 PlyA -  94360  94355    6                               1.05
 2.59 Term -  96144  95877  268  2  1   67   36   208 0.335   7.48
 2.58 Intr - 100053 100002   52  1  1  117   52    23 0.263  -1.35
 2.57 Intr - 100517 100437   81  0  0  117  115    77 0.271  11.99
 2.56 Intr - 100731 100669   63  1  0   93  115    50 0.308   5.97
 2.55 Intr - 101138 101001  138  0  0   95   78   120 0.997  11.21
 2.54 Intr - 102044 101708  337  2  1   64   94   391 0.467  31.47
 2.53 Intr - 102530 102328  203  0  2  100   95   155 0.196  15.48
 2.52 Intr - 103136 103026  111  0  0  102   14    94 0.855   2.83
 2.51 Intr - 103326 103237   90  1  0  118   94    62 0.993   8.85
 2.50 Intr - 104395 104255  141  2  0   92   91   128 0.879  12.90
 2.49 Intr - 104876 104429  448  2  1   77   55   169 0.016   4.50
 2.48 Intr - 104974 104903   72  1  0   80   91    45 0.031   2.68
 2.47 Intr - 105536 105415  122  0  2  109   36    64 0.044   2.59
 2.46 Intr - 106291 106169  123  2  0   68   70    78 0.094   3.64
 2.45 Intr - 106933 106834  100  1  1   56  116    70 0.530   5.36
 2.44 Intr - 107282 107208   75  2  0   95   86    91 0.585   8.39
 2.43 Intr - 107403 107371   33  0  0  105  110    -5 0.566   0.90
 2.42 Intr - 107762 107736   27  2  0  122   87    32 0.840   3.89
 2.41 Intr - 108173 108114   60  2  0  110  100     3 0.527   1.71
 2.40 Intr - 108881 108828   54  2  0   89   95    41 0.781   3.16
 2.39 Intr - 109107 109066   42  0  0  128   94    31 0.569   5.22
 2.38 Intr - 109301 109222   80  0  2  111   81   -29 0.513  -2.95
 2.37 Intr - 110218 110084  135  2  0   88   93    46 0.596   4.72
 2.36 Intr - 111344 111264   81  0  0   82   82    28 0.451   0.29
 2.35 Intr - 113556 113521   36  1  0   80  115    21 0.657   1.32
 2.34 Intr - 114536 114510   27  0  0  110   96    18 0.439   1.97
 2.33 Intr - 115573 115502   72  2  0  111   92   100 0.652  11.16
 2.32 Intr - 116044 115722  323  0  2  -12    2   226 0.150  -1.42
 2.31 Intr - 117887 117770  118  0  1   94   63    76 0.458   4.30
 2.30 Intr - 118419 118384   36  1  0   89   91    63 0.935   4.02
 2.29 Intr - 118664 118611   54  0  0   91  121    73 0.981   8.93
 2.28 Intr - 119279 119244   36  0  0  139   82     7 0.781   2.52
 2.27 Intr - 119980 119918   63  2  0  109  115    75 0.483  10.07
 2.26 Intr - 120898 120794  105  2  0   52   94    96 0.963   5.87
 2.25 Intr - 121745 121683   63  0  0   89   86    52 0.864   2.87
 2.24 Intr - 121881 121855   27  1  0  131   91    -4 0.715   1.37
 2.23 Intr - 122770 122744   27  2  0  107   86    13 0.528   0.17
 2.22 Intr - 123766 123398  369  2  0  103   92   275 0.905  23.55
 2.21 Intr - 124935 124738  198  1  0  124   79   134 0.976  14.50
 2.20 Intr - 125953 125909   45  2  0   91   94    43 0.852   2.66
 2.19 Intr - 127469 127401   69  0  0   53   95   105 0.867   5.94
 2.18 Intr - 128043 127882  162  1  0  114   51   168 0.999  14.73
 2.17 Intr - 129236 129168   69  0  0  101  117    49 0.974   7.34
 2.16 Intr - 130092 130021   72  1  0  110   82    25 0.792   2.56
 2.15 Intr - 131581 131510   72  2  0  119   82    -9 0.464   0.06
 2.14 Intr - 132105 132016   90  1  0   86   78    35 0.564   1.35
 2.13 Intr - 132359 132201  159  0  0   88   82    94 0.952   7.84
 2.12 Intr - 132970 132899   72  2  0   91   48    70 0.263   1.76
 2.11 Intr - 135558 135397  162  1  0   71   44    91 0.316   2.03
 2.10 Intr - 138332 138189  144  0  0   72  114   223 0.405  22.63
 2.09 Intr - 139842 139795   48  1  0   95   95    39 0.708   3.03
 2.08 Intr - 141008 140973   36  0  0   89  105    29 0.648   2.02
 2.07 Intr - 141994 141947   48  2  0   92   76    87 0.797   5.63
 2.06 Intr - 145289 145185  105  0  0   93   89   118 0.963  11.67
 2.05 Intr - 146349 146305   45  1  0   94  108    38 0.935   3.86
 2.04 Intr - 148447 148385   63  2  0  124   63   102 0.927   9.07
 2.03 Intr - 155946 155849   98  2  2   81   88    13 0.054  -0.67
 2.02 Intr - 159107 159023   85  0  1   57   73    86 0.081   1.96
 2.01 Init - 171144 170973  172  0  1   45   66    79 0.232   1.05
 2.00 Prom - 174765 174726   40                              -7.25

 3.00 Prom + 176396 176435   40                              -5.75
 3.01 Init + 184846 185017  172  0  1   87   10   170 0.259   8.75
 3.02 Intr + 190728 190849  122  1  2   90   18   101 0.888   2.59
 3.03 Intr + 191477 191887  411  1  0   84  100   294 0.988  23.66
 3.04 Term + 193276 193467  192  0  0  104   31   129 0.912   5.24
 3.05 PlyA + 197683 197688    6                               1.05

 4.21 PlyA - 197720 197715    6                               1.05
 4.20 Term - 198068 197902  167  0  2   47   42   102 0.857  -1.40
 4.19 Intr - 199247 199094  154  2  1  -19   94   128 0.919   1.42
 4.18 Intr - 199959 199879   81  0  0   30  115    79 0.910   3.72
 4.17 Intr - 201547 201383  165  1  0   26   94   109 0.041   4.54
 4.16 Intr - 210156 210085   72  0  0   96   51    91 0.048   4.88
 4.15 Intr - 211402 211189  214  0  1   35   10   229 0.915   7.60
 4.14 Intr - 213327 213239   89  0  2   74   76    98 0.952   5.05
 4.13 Intr - 214112 214026   87  2  0   62   50   164 0.952   9.25
 4.12 Intr - 215761 215654  108  1  0   68   69    49 0.588   0.56
 4.11 Intr - 220489 220370  120  1  0  107   99   124 0.879  15.17
 4.10 Intr - 223080 222943  138  0  0   31   67   109 0.179   2.84
 4.09 Intr - 228925 228800  126  1  0   86   77   138 0.975  12.46
 4.08 Intr - 229930 229724  207  1  0  128   14   112 0.946   6.15
 4.07 Intr - 232063 231857  207  1  0   59   69   294 0.906  22.95
 4.06 Intr - 234481 234329  153  1  0   59   28   188 0.587   9.25
 4.05 Intr - 235500 235384  117  0  0   60   13   113 0.624   0.74
 4.04 Intr - 236611 236507  105  1  0   63   87   125 0.985   9.39
 4.03 Intr - 240298 240173  126  1  0   49   86   153 0.789  11.16
 4.02 Intr - 246869 246792   78  2  0  114   93    19 0.785   3.83
 4.01 Init - 247375 247352   24  1  0   69  115    15 0.343   1.88

Suboptimal exons with probability > 0.800

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

S.001 Init - 104597 104429  169  2  1   74   55   168 0.877  11.86
S.002 Intr + 105140 105401  262  2  1   69   94   245 0.812  19.77
S.003 Term + 105708 105824  117  2  0   94   48    90 0.800   3.16
S.004 Term - 210156 210040  117  0  0   96   28   139 0.949   6.26


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815588r:103932238_104180673|GENSCAN_predicted_peptide_1|1379_aa
MAHCSLILLGPSDPPASASPVAETTDTAIHSFIHQICLPIICQECCRVLGYLDEQQTTGL
KELPSGGGGEEWPPPLETRRDTGLSRRRGSPDRSDPSDQAGWERACGQSLSARNSVLGGK
MSFFNFRKIFKLGSEKKKKQYEHVKRDLNPEDFWEIIGELGDGAFGKVYKAQNKETSVLA
AAKVIDTKSEEELEDYMVEIDILASCDHPNIVKLLDAFYYENNLWILIEFCAGGAVDAVM
LELERPLTESQIQVVCKQTLDALNYLHDNKIIHRDLKAGNILFTLDGDIKLADFGVSAKN
TRTIQRRDSFIGTPYWMAPEVVMCETSKDRPYDYKADVWSLGITLIEMAEIEPPHHELNP
MRVLLKIAKSEPPTLAQPSRWSSNFKDFLKKCLEKNVDARWTTSQLLQHPFVTVDSNKPI
RELIAEAKAEVTEEVEDGKEEDEEEETENSLPIPASKRASSDLSIASSEEDKLSQNACIL
ESVSEKTERSNSEDKLNSKILNEKPTTDEPEKAVEDINEHITDAQLEAMTELHDRTAVIK
ENEREKRPKLENLPDTEDQETVDINSVSEGKENNIMITLETNIEHNLKSEEEKDQEKQQM
FENKLIKSEEIKDTILQTVDLVSQETGEKEANIQAVDSEVGLTKEDTQEKLGEDDKTQKD
VISNTSDVIGTCEAADVAQKVDEDSAEDTQSNDGKEVVEVGQKLINKPMVGPEAGGTKEV
PIKEIVEMNEIEEGKNKEQAINSSENIMDINEEPGTTEGEEITESSSTEEMEVRSVVADT
DQKALGSEVQDASKVTTQIDKEKKEIPVSIKKEPEVTVVSQPTEPQPVLIPSININSDSG
ENKEEIGSLSKTETILPPESENPKENDNDSGTGSTADTSSIDLNLSISSFLSKTKDSGSI
SLQETRRQKKTLKKTRKFIVDGVEVSVTTSKIVTDSDSKTEELRFLRRQELRELRFLQKE
EQRAQQQLNSKLQQQREQIFRRFEQEMMSKKRQYDQEIENLEKQQKQTIERLEQEHTNRL
RDEAKRIKGEQEKELSKFQNMLKNRKKEVINEVEKAPKELRKELMKRRKEELAQSQHAQG
VAQIMIQSFQLSSCAVFNAQMQDEQEFVQKQQQELDGSLKKIIQQQKAELANIERECLNN
KQQLMRAREAAIWELEERHLQEKHQLLKQQLKDQYFMQRHQLLKRHEKETEQMQRYNQRL
IEELKNRQTQERARLPKIQRSEAKTRMAMFKKSLRINSTATPDQDRDKIKQFAAQEEKRQ
KNERMAQHQKHENQMRDLQLQCEANVRELHQLQNEKCHLLVEHETQKLKELDEEHSQELK
EWREKLRPRKKTLEEEFARKLQEQEVFFKMTGESECLNPSTQSRISKFYPIPSLHSTGS

>gi568815588r:103932238_104180673|GENSCAN_predicted_CDS_1|4140_bp
atggctcactgcagcctcatcctcttgggcccaagtgatcctcctgcctcagcctcccca
gtagctgagaccacagataccgccattcattcattcattcaccagatctgccttcctatt
atatgccaggaatgttgccgggtacttggatatcttgatgaacaacaaaccactggcctg
aaagagctcccgtctggtggaggaggggaagagtggccgccgcccctggagactcgccgt
gacacgggcctaagccgccgccgcgggagtcctgaccgctcggacccgtcggatcaggcc
gggtgggagcgagcttgcgggcagtccttaagtgcaaggaactctgtgttgggaggaaaa
atgtccttcttcaatttccgtaagatcttcaagttggggagcgagaagaagaagaagcag
tacgaacacgtgaagagggacctgaaccccgaagacttttgggagattataggagaactg
ggcgacggagcctttgggaaagtgtacaaggcccagaataaagagaccagtgttttagct
gctgcaaaagtgattgacactaaatctgaagaagaacttgaagattacatggtagagatt
gacatattagcatcttgtgatcacccaaatatagtcaagcttctagatgccttctattat
gagaacaatctttggatcctcattgaattttgtgcaggtggagcagtagatgctgtgatg
cttgaacttgagagaccattaactgagtcccaaatacaagtagtttgcaagcagacttta
gatgcattgaactacttacatgataataagatcatccacagagatctgaaggctggcaac
attctctttaccttagatggagatatcaaattggcggattttggagtatcagctaaaaac
acgaggacaattcaaagaagagattcctttattggtacaccatattggatggctcctgaa
gtagtcatgtgtgaaacatctaaggacagaccctatgactacaaagctgatgtttggtcc
ctgggtatcactttaatagaaatggctgagatagaaccacctcatcatgaattaaatcca
atgcgagtgctgctaaaaatagcaaaatctgagccacctacattagcacagccatccaga
tggtcttcaaattttaaggactttctaaagaaatgcttagaaaagaatgtggatgccagg
tggactacatctcagctgctgcagcatccctttgttactgttgattccaacaaacccatc
cgagaattgattgcagaggcgaaggctgaagtaacagaagaagttgaagatggcaaagag
gaagatgaagaggaggaaacagaaaattctctgccaatacctgcaagtaagcgtgcatct
tctgaccttagtatcgccagctctgaagaagataaactttcacaaaatgcttgtattttg
gagtctgtctcagaaaaaacagaacgtagtaactctgaagataaactcaacagcaaaatt
cttaatgaaaaacccaccactgatgaacctgaaaaggctgtggaggatattaatgaacat
attaccgatgctcagttagaagcaatgactgaactccatgacagaacagcagtaatcaag
gagaatgaaagagagaagaggcccaagcttgaaaatctgcctgacacagaagaccaagaa
actgtggacattaattcagtcagtgaaggaaaagagaataatataatgataaccttagaa
acaaatattgaacataatctaaaatctgaggaagaaaaggatcaggaaaagcaacagatg
tttgaaaataagcttataaaatctgaagaaattaaagatactattttgcaaacagtagat
ttagtttctcaagagactggagaaaaagaggcaaatattcaggcagttgatagtgaagtt
gggcttacaaaggaagacacccaagagaaattgggggaagacgacaaaactcaaaaagat
gtgatcagcaatacaagtgatgtgataggaacatgtgaggcagcagatgtggctcagaaa
gtggatgaagacagtgctgaggatacgcagagtaatgatgggaaagaagtggtcgaagta
ggccagaaattaattaataagcccatggtgggtcctgaggctggtggtactaaggaagtt
cctattaaagaaatagttgaaatgaatgaaatagaagaaggtaaaaataaggaacaagca
ataaacagttcagagaacataatggacatcaatgaggaaccaggaacaactgaaggtgaa
gaaatcactgagtcaagtagcactgaagaaatggaggtcagaagtgtggtggctgatact
gaccaaaaggctttaggaagtgaagttcaggatgcttctaaagtcactactcagatagat
aaagagaaaaaagaaattccagtgtcaattaaaaaagagcctgaagttactgtagtttca
cagcccactgaacctcagcctgttctaatacccagtattaatatcaactctgacagtgga
gaaaataaagaagaaataggttctttatcaaaaactgaaactattctgccaccagaatct
gagaatccaaaggaaaatgataatgattcaggcactggttccactgctgatactagcagt
attgacttgaatttatccatctctagctttctaagtaaaactaaagacagtggatcgata
tctttacaagaaacaagaagacaaaagaaaacattgaagaaaacacgcaaatttattgtt
gatggtgtagaagtgagtgtaacaacatcaaagatagttacagatagtgattccaaaact
gaagaattgcggtttcttagacgtcaggaacttcgggaattaagatttcttcagaaagaa
gagcaaagagcccaacaacagctcaatagcaaactacagcaacaacgagaacaaattttc
cggcgctttgagcaggaaatgatgagtaaaaagcgacaatatgaccaggaaattgagaat
ctagaaaaacagcagaaacagactatcgaacgcctggaacaagagcacacaaatcgcttg
cgagatgaagccaaacgcatcaaaggagaacaagagaaagagttgtccaaatttcagaat
atgctgaagaaccgaaagaaggaggttataaatgaagtggagaaagcacccaaagagctg
agaaaagagctcatgaaacgcaggaaagaggagcttgcacaaagccagcatgctcagggt
gttgctcagatcatgattcagtcttttcagttgtcatcttgtgcagtcttcaacgcccaa
atgcaggacgaacaagagtttgttcagaaacaacagcaagaattagatggctctctgaaa
aagatcatccagcagcagaaggcagagttagctaatattgagagagagtgcctgaataac
aagcaacagctcatgagagctcgagaagctgcaatttgggagctcgaagaacgacactta
caagaaaaacaccagctgctcaaacagcagcttaaagatcagtatttcatgcaaagacat
cagctacttaagcgccacgagaaggaaacagagcaaatgcagcgttacaatcaaagactt
attgaggaattgaaaaacagacagactcaagaaagagcaagactgcccaagattcagcgc
agtgaagccaagactcgaatggccatgtttaagaagagtttgagaattaactcaacagcc
acaccagatcaggaccgtgataaaattaaacagtttgctgcacaagaagaaaagaggcag
aaaaatgagagaatggctcagcatcagaaacatgagaatcaaatgcgagatcttcagttg
cagtgtgaagccaatgtccgcgaactgcatcagctgcagaatgaaaaatgccacttgttg
gttgagcatgagactcagaaactgaaggagttagatgaggaacatagccaagaattaaag
gagtggagagagaaattgagacctaggaaaaagacactggaagaagagtttgccaggaaa
ctacaggaacaggaagtattctttaaaatgactggggagtctgaatgccttaacccatca
acacagagccggatttccaaattttatcctattcccagcttgcattccaccggatcataa

>gi568815588r:103932238_104180673|GENSCAN_predicted_peptide_2|2101_aa
MPQVSGPSEGSARRDLLLLTEGVSSQTLAIYILVKLFIPIGKALPRIPEAVVYRLIAPQL
NLRQLPLTLRMTLTCRRLALQTFSEGLECTGAIIAYCNLELLGSCNPPFSTTRVTGTAGG
YGMDVTKKNKRDGTEVTERIVTETVTTRLTSLPPKGGTSNGYAKTASLGGGSRLEKQSLT
HGSSGYINSRSSSGNSSPEYPRKEFASSSTRGRSQTRESEIRVRLQSASPSTRWTELDDV
KRLLKGSRSASVSPTRNSSNTLPIPKKGTVETKIVTASSQSVSSSFSGRQRTRHVNSLLT
LALSHCPPLSRLFASALQLLPPPHLQLHSRLPCLQDKYAELAPNMKKQENPLLGAQCLAV
SGTYDATILDANLPSHVWSSTLPAGSSMGTYHNNMTTQSSSLLNTNAYSAGSGPPGEAFC
GQTSQEIPPGTSVQFNLEGIASVFGVPNNMASCSPTLHPGLSTSSSVFGMQNNLAPSLTT
LSHGTTTTSTAYGVKKNMPQSPAAVNTGVSTSAACTTSVQSDDLLHKDCKFLILEKDNTP
AKKEMELLIMTKDSGKVFTASPASIAAKDTLKKEKQAAYNADSGLKAEANGDLKTVSTKG
KTTTADIHSYGSSGGGGSGGGGGVGGAGGGPWGPAPAWCPCGSCCSWWKWLLGLLLTWLL
LLGLLFGLIALAEEVRKLKARVDELERIRRSILPYGDSMDRIEKDRLQGMAPAAGADLDK
IGLHSDSQEELWMFVRKKLMMEQENGESIAGHRASSPESLSSLHLCGMCACAVSTIIRPT
LGLSPPLILSIALRGDMGSPGPKGDRGFPGTPGIPGPLGHPGPQGPKGQKGSVGDPGMEG
PMGQRGREGPMGPRGEAGPPGSGEKGERGAAGEPGPHGPPGVPGSVGPKGSSGSPGPQGP
PGPVGLQGLRGEVGLPGVKGDKGPMGPPGPKGDQGEKGPRGLTGQSVMGIYFNLSTTFVN
PSVTRLEKIQKRRGSGSTVSRECDRQGCPVADGCVGSWDTMCFKATGTVEGGIAEITPGA
TERPCFYFTRSCWPRRTPRPKRLVTHLLPPASLPSQPLFQHAALSPLNHSAEEHIACGSE
QGLTGMPGIRGPPGPSGDPGKPGLTGPQGPQGLPGTPGRPGIKEGSSMLTVPGPPGPPGA
MGPPGPPGAPGPAGPAGLPGHQGMSHPARMQSDGPSREDFPLRVDMGLSVLDDVKEVLNL
QGPPGPPGPRGPPGEYLGDLWKGLPFQAHQDPEAHQGRVCQAHQAHQDRSCPTQKPSSPA
PQAHLAPQVPRETKVPQAPEDTKASKASQVSQPQGPVLSDSTFRDHQAHLAPRDPKVTKG
RLPGGGEANFSFWIPGDPGVPGALGIPSGPSEGGSSSTMYVSGPPGPPGPPGPPGSISSS
GQEIQQYISEYMQSDSIRSYLSGVQGPPGPPGPPGPVTTITGETFDYSELASHVTNSSVT
GPFRFWNSEGVASVPAKQLRGTVSACSRPPSLLKTFWLCCSVSHLWGDRGWDYLCFLLAS
LVMQTLSSSEPWKGCKREAESFGQRATYCSDLLAESANRLERGQEMSSQAPMPDKLAGVP
LGTWQLAGVPPEHRGPADPELTNVTQEPVCAGEPRLWLDHGCDPHGLGDDVRQYLRQYLM
GPRGPPGPPGASGDGSLLSLDYAELSSRILSYMSSSGISIGLPGPPGPPGLPGTSYEELL
SLLRGSEFRGIVGPPGPPGPPGIPGNVWSSISVEDLSSYLHTAGLSFIPGPPGPPGPPGP
RGPPGVSGALATYAAENSDSFRSELISYLTSRCPDGDAPPGTPQALLFPGPPGDSRLLST
DASHSRGSSSSSHSSSVRRGSSYSSSMSTGGGGAGSLGAGGAFGEAAGDRGPYGTDIGPG
GGYGAAAEGGMYAGNGGLLGADFAGDLDYNELAVRVSESMQRQGLLQGMAYTVQGPPGQP
GPQGPPGISKVFSAYSNVTADLMDFFQTYGAIQGPPGQKGEMGTPGPKGDRGPAGPPGHP
GPPGPRGHKGEKGDKGDQVYAGRRRRRSIAVKPTRKGSLVPQAVGAGSAEVCRSAVFTAL
RERGEEVADEGARSEKSVCVSWHILPQQQNNQISSRFDCTLRFQRSLRPSPTRHLHFMQE
R

>gi568815588r:103932238_104180673|GENSCAN_predicted_CDS_2|6306_bp
atgcctcaagtctctgggccatctgagggttcagcaagaagagacctcctgttgctgact
gagggagttagttcacaaactcttgccatttacattttagtaaaactcttcataccaata
ggaaaggctctcccaaggataccagaagctgtggtgtatagattgatagcaccccagctg
aaccttcggcaactccccctcaccctcagaatgacactgacatgccgcagactggcactt
cagactttctctgaagggctagagtgcactggcgccattatagcttactgtaaccttgaa
ctgctaggctcatgcaatcctcctttctcaaccacccgagtaactgggactgcaggtggc
tatggtatggatgtaaccaagaaaaacaaacgagatggaactgaagtcactgagagaatt
gtcactgaaacagtaaccacaagacttacatccttaccaccaaaaggcgggaccagcaat
ggctatgctaaaacagcctctcttggtggagggagccggctggagaaacaaagcctgact
catggcagcagcggctacataaactcaaggagctccagtggcaactcttctccggagtac
cctcggaaggaatttgcatcttcttcaaccagaggacggagtcaaacacgagagagtgaa
attcgagttcgactgcagagtgcgtccccatccacccgatggacagaattggatgatgtt
aagcgtttgctcaaggggagtcgatcggcaagtgtgagccccacccggaattcctccaac
acactccccatccccaagaaaggcactgtggagaccaaaattgtgacagcgagctcccag
tcggtttcttcttctttctctgggcgccagcgcactcgccatgttaacagcttacttaca
ttagctctctcacactgtccacctttatctcggctgtttgcttcggctctgcagctcctg
ccgcccccacacctgcagctgcacagccggctcccttgccttcaggacaaatatgcagaa
ctggccccaaatatgaagaagcaggaaaatcctctcttgggggcacagtgtctggctgtg
tcaggcacctacgatgcaacgatcctggatgccaaccttccctcccatgtgtggtcctcc
accctgcccgcggggtcctccatggggacctatcacaacaacatgacaacccagagctca
tccctcctcaacaccaatgcctactctgcgggatcagggcctcctggagaggctttctgt
ggccaaacatcccaggagattccccctggaacttcagttcaattcaatctagaaggtatt
gcttctgtcttcggagttccaaacaacatggcgtcctgctcacccactttgcaccctgga
ctcagcacatcctcctcagtgtttggcatgcagaacaatctggcccccagcttgaccacc
ctgtcccatggcaccaccaccacttccacagcatatggggtgaagaaaaacatgccccag
agtcctgcggctgtgaacactggcgtttccacctccgccgcctgcaccacaagtgtgcag
agcgatgaccttttgcacaaggactgcaagttcctgatcctagagaaagacaacacacct
gccaagaaggagatggagctgctcatcatgaccaaggacagcgggaaggtctttacagcc
tcccctgccagcatcgctgcaaaagacaccctaaaaaaagaaaagcaagctgcctacaat
gctgactcaggcctaaaagccgaagctaatggagacctgaagactgtgtccacaaagggc
aagaccaccactgcagatatccacagctacggcagcagtggtggtggtggcagtggagga
ggtggcggtgttggtggcgctggcggcggcccttggggaccagcgccagcctggtgcccc
tgcggctcctgctgcagctggtggaagtggctgctgggcctgctgctcacctggctgcta
ctcctggggctgctcttcggcctcattgctctggcggaggaggtgaggaagctgaaggcg
cgtgtggatgagctggagaggatcaggaggagcatactgccctatggggacagcatggat
agaatagaaaaggaccgcctccagggcatggcacccgcggcgggagcagacctggacaaa
attgggctgcacagtgacagccaggaggagctctggatgttcgtgaggaagaagctaatg
atggaacaggaaaatggtgagagcatcgccgggcacagggccagctcccctgagtccctt
tcttctttgcatctatgtggtatgtgtgcatgtgctgtgagcaccatcatccggcccact
ctcggcctctctcctcccctgatcctctcaatagcgctgagaggtgacatgggaagtcca
ggccctaaaggagatcgagggttccctgggactccaggtatccctgggcccttgggccac
ccaggtccacaaggaccaaagggtcaaaaaggcagcgtgggagatcctggcatggaaggc
cccatgggccagagagggcgagaaggccccatgggacctcgtggtgaggcagggcctcct
ggatctggagagaaaggggaaagaggggctgctggtgaaccaggtcctcatggcccacct
ggtgtcccaggttctgtgggtcccaaaggttccagcggctctcctggcccacagggccct
ccaggtcctgtaggtctccaagggctccgaggtgaagtaggacttcctggtgtcaaaggt
gacaaaggaccaatgggaccaccaggacccaaaggtgaccagggtgagaaaggacctcga
ggcctcacaggtcagtctgtcatgggaatctactttaatctatccacgacttttgtaaat
ccatcagtcactaggttggaaaaaatccagaagagaaggggcagtgggagtaccgtatcc
agagagtgtgacagacagggctgtcccgtggctgatggctgcgtgggctcctgggacaca
atgtgcttcaaggccactgggacagtagagggaggaatcgcagaaatcactccaggagca
actgagagaccttgcttctactttaccaggtcctgctggcccagacggacaccaaggccc
aagaggttggtcactcatctgctgcccccagcctcactcccgtcacagcccctgttccag
catgcagccctcagtccccttaaccatagtgcagaggagcatatagcatgtggaagtgaa
caaggtcttactgggatgcctggaatccgtggcccaccaggaccttctggagacccagga
aagccaggtctcacaggaccccagggacctcagggacttcccggtacccctggccgacca
ggaataaaagaggggtcatcgatgctcactgtcccaggccccccaggacctcctggagcc
atgggacccccaggacctccaggtgccccaggccctgccggcccagctggtctcccagga
catcaaggtatgtcacaccctgcaagaatgcaaagcgatgggcccagtcgggaggacttt
cctctcagggtggacatgggcctctctgttctagatgacgtgaaagaagttcttaattta
caaggtcccccaggcccacccggcccacgcgggccaccaggtgagtatcttggagacctt
tggaagggccttccattccaggcccaccaggaccccgaggcccaccaggggagggtttgc
caggcccaccaggcccaccaggatcgttcctgtccaactcagaaaccttcctctccggcc
ccccaggcccacctggccccccaggtcccaagggagaccaaggtcccccaggccccagag
gacaccaaggcgagcaaggcctcccaggtttctcaacctcagggtccagttctttcggac
tcaaccttcagggaccaccaggcccacctggcccccagggacccaaaggtgacaaaggga
aggcttcctggaggaggtgaggcaaacttctcattttggattccaggtgatccaggtgtt
ccaggggctcttggcattcctagtggtccttctgaagggggatcatcaagtaccatgtac
gtgtcaggcccgccagggccccctgggccccctgggcctccgggctctatcagcagctct
ggccaggagattcagcagtacatctctgagtacatgcagagtgacagtattagatcttac
ctatccggagttcagggtcccccaggcccacctggtcccccaggacctgtcaccaccatc
acaggcgagactttcgactactcagagctggcaagccacgttacaaacagctcggtgacc
gggcctttcagattctggaatagtgagggtgttgcttcagtacctgctaagcagcttcgg
ggtacggtgtcagcttgttctcgtcctccatctcttctgaagacattctggctgtgctgc
agcgtgagtcacctgtggggggatcgagggtgggactatctttgctttctcctggcctca
ctcgtcatgcaaaccttgtcctcgtctgagccttggaagggctgcaagagggaggcagag
tcctttggacaaagagccacttactgctctgatctgcttgctgagtcagcaaaccggctg
gaaagggggcaggaaatgtcctcccaagcccccatgccagacaagctggcaggtgtccct
ttgggaacctggcagcttgctggtgtcccccctgaacaccgtggtcctgcggacccagaa
ctcacaaatgtcacgcaggagccagtttgtgcaggggagcccaggctgtggctggatcat
ggctgcgacccccatggcctgggggatgacgtgcgtcagtacctacgtcagtacttgatg
ggccctcggggtccgccagggccaccaggagccagtggagatgggtccctcctgtctttg
gactatgcagagctgagtagtcgcattctcagctacatgtcgagttctgggatcagcatt
gggcttcctggtcccccggggccccctggcttgccgggaacctcctatgaggagctcctc
tccttgctgcgagggtctgaattcagaggcatcgttggacccccaggtcccccgggtcca
ccagggatcccaggcaatgtgtggtccagcatcagcgtggaggacctctcgtcttactta
catactgccggcttgtcattcatcccaggccctccaggacctcctggtcccccagggcct
cgagggcccccgggtgtctcaggagccctggcaacctatgcagctgaaaacagcgacagc
ttccggagcgagctgatcagctacctcacaagtaggtgccccgacggtgatgccccacca
ggcaccccgcaggccttgcttttccctggaccccctggggacagccgcctcctgtccacg
gatgcctcccacagtcggggtagcagctcctcctcacacagctcatctgtcaggcggggc
agctcctacagctcttccatgagcacaggaggaggtggtgcaggctccctgggtgcaggc
ggtgcctttggtgaagctgcaggagacaggggtccctatggcactgacatcggcccaggc
ggaggctatggggcagcagcagaaggcggcatgtatgctggcaatggcggactattggga
gctgactttgctggagatctggattacaatgagctggctgtgagggtgtcagagagcatg
cagcgtcagggcctactgcaagggatggcctacactgtccagggcccaccaggccagcct
gggccacaggggccacccggcatcagcaaggtcttctctgcctacagcaacgtgactgcg
gacctcatggacttcttccaaacttatggagccattcaaggaccccctgggcaaaaagga
gagatgggcactccaggacccaaaggtgacaggggccctgctgggccaccaggtcatcct
gggccacctggccctcgaggacacaagggagaaaaaggagacaaaggtgaccaagtctat
gctgggcggagaaggagaagaagtattgctgtcaagccgactaggaaaggcagcctagtg
ccccaagctgtaggagctggatctgcagaagtgtgcaggtctgctgtgttcacagcactc
agggaaagaggggaggaggtggctgatgagggtgcacgttcggagaagtctgtatgtgtt
tcatggcatattctgccacagcaacaaaacaaccaaatcagcagtagatttgactgtacc
cttcgatttcaaagaagtctgcgcccctcgcccactcgccacctacacttcatgcaggaa
agatag

>gi568815588r:103932238_104180673|GENSCAN_predicted_peptide_3|298_aa
MSTRHNLAGGRERIHEEVSLLKPPCPSLIMPLHLVLTGASEVLVRGSAFSRFDAAPKEKN
QDFTFKMESPSDSAVVLPSTPQASANPSSPYTNSSRKQPMSATLRERLRKTRFSFNSSYN
VVKRLKVESEENDQTFSEKPASSTEENCLEFQESFKHIDSEFEENTNLKNTLKNLNVCES
QSLDSGSCSALQNEFVSEKLPKQRLNAEKAKLVKQVQEKEDLLRRLKLVKMYRSKNDLSQ
LQLLIKKWRSCSQLLLYELQSAVSEENKKLSLTQLIDHYGLDDKLLHYNRSEEEFIDV

>gi568815588r:103932238_104180673|GENSCAN_predicted_CDS_3|897_bp
atgagcactcgacacaatcttgcaggtggaagggagaggatccatgaagaggtgtctttg
ctcaagccaccttgcccgtctttgatcatgcctctccacctggtcctcacgggggcttca
gaagttctggtcaggggctctgcattcagcaggtttgacgctgctcctaaagagaaaaac
caagatttcactttcaagatggaaagtccgtcagactcagctgtggttttacctagcact
cctcaggcctctgcgaatccatcatctccctatacaaatagttcccgaaaacaacctatg
agtgcaacacttagagaaagattaaggaaaacaagattttcatttaattcctcttacaat
gtggtgaaacgtcttaaagtagagagtgaagaaaatgatcagaccttttcagagaaacca
gcatcttccacagaggaaaactgtttggaatttcaagaaagttttaaacatatagacagt
gaatttgaagaaaatacaaatttgaaaaatactttgaagaatctcaatgtctgtgaatct
cagtcacttgattctggatcatgcagtgctctccaaaatgagtttgtgagtgagaagctt
cctaaacaaagattaaacgctgaaaaagccaaattggtgaagcaggttcaggagaaagaa
gaccttcttcggaggctaaaactagtcaaaatgtatagatcaaagaatgatctgtctcag
ttacagttgttaataaagaagtggagaagctgtagccagctcttgctttatgagttgcag
tcagctgtgtctgaagagaacaagaaactaagccttactcaattgatagaccactatggg
ttagatgataaattactacactataacagaagtgaagaagaatttatagatgtttaa

>gi568815588r:103932238_104180673|GENSCAN_predicted_peptide_4|845_aa
MQPNNGVQAIKKEVNLFSKKRKEIKQGIKSLSKTILNMMEENDKLENIAKLDQQEFGLDL
EELERLHDESQEEVAKMIKDVEMHNLAKSYLAELIKEECWNSMAVKGRALKCFHIPCVVE
NFPMKARTVEELKELERVLQQKKIEAECLKLRKEIVEAQSGVKLIKQRHEEDDEEEEEED
KTVKYSNLPNYLLGSLSTDFGDIIYKVKTVFNNEFDAAYKQKEFEIARVKERNVRIREII
LDLELEEAVWQPEFEDCEKPERTLVVQDEEALPTFPNPKCSHSNVGWEAASGATWNVRSL
SQYSSLILALSQDASTRLRALMDMMGGVLEVKKEDILRMVIPQPAFMAKPDAVWTEEERK
QFKDYEKKVKELNEERDKYRKRLLHLRPSLECCCPWMIKGASMSRDIAKFTPLPSPRAAS
DRLMEPKSLEAELKKLQNSIQESTQAFDEHLKRLFERRVKAEMVTNQEELKISNLAFSLL
LDEELSSREKFLNNYLTRKQHEKSQTSEAVRKSREDLDVCKEHYDNLLAEDKVMDRSFKK
EFSEIPGHQVDILYKLFKRRPRISKQKTHSETTSVVPFGELPGSGKLNKDAFAQLMKAMD
ELDNISNMPEGLDPLVWNHFCMTRRAKVENEQKVKQKAADLLEMATFLQKRVEEEEKTQG
QKKVASMMESKDVHKRILQIEWEHKKMEMEREDLNQKAWDIQMLFFSRDRQKYLNEPNYE
ALISIQIGIMEQTIAVLDKMHKKNVENCKKLLKKLGKFSNQKDIANYALSCNLREELVAV
SERKDICNAMGSKLTCEKIVKERYENMMQQQKLTNISKQQAEQISILQTEVERLRMKTFP
ALVQM

>gi568815588r:103932238_104180673|GENSCAN_predicted_CDS_4|2538_bp
atgcaacccaacaatggtgtccaggccatcaaaaaggaggttaatctgttttccaagaaa
aggaaagagataaaacaaggaatcaaatcactttccaaaactattctgaatatgatggaa
gaaaatgacaaactagaaaatattgcaaaattagaccaacaggaatttggtctggatctt
gaggaactagaaaggcttcatgatgaaagtcaggaagaagtggcaaagatgataaaggat
gtagagatgcataacttagccaagagctatttggctgaacttatcaaagaagaatgttgg
aattcgatggctgtgaaaggtcgagctcttaagtgttttcatatcccctgtgtggttgaa
aacttcccgatgaaagcgcgcacggttgaagagctgaaagaattggaaagagttttacag
caaaagaagattgaagcagagtgtcttaaactacggaaggaaattgtagaggctcagtct
ggagttaagttgattaaacagcgtcatgaagaggatgatgaagaagaggaagaggaagac
aagacagtaaaatatagcaatttgcccaattacctgcttggtagtctgagtactgatttt
ggggatatcatttacaaggtaaaaactgttttcaataatgagtttgacgctgcatataaa
caaaaagagtttgaaattgcacgcgtgaaggaaagaaatgttcgaattcgagaaattatt
ttagatctggaattggaagaagcagtctggcaaccagaatttgaagactgtgagaagcca
gagagaacgcttgttgtgcaagatgaggaggcactacctaccttccccaatcccaaatgc
agtcattctaatgttgggtgggaagctgcctctggagccacctggaatgtcaggtctctg
tctcagtattcctctctgattctggctctttcccaggatgccagtacaagactccgagct
ctgatggacatgatgggaggagttctggaagtcaagaaggaagatattttgagaatggtg
attcctcaacctgctttcatggcaaaacctgatgctgtgtggactgaagaagaaagaaaa
caattcaaagattatgagaaaaaagtaaaggagttaaatgaagaaagagataagtataga
aagaggcttttacacctgagaccttctctggaatgttgttgcccttggatgatcaaggga
gcctccatgtccagagacatcgccaagtttacaccactaccctcacccagggcagccagt
gaccggctgatggagcccaagtcattagaagcagaactgaagaaacttcaaaactctatt
caagaaagcacacaggcctttgatgaacatttgaaaagactttttgaaaggagagtgaag
gcagagatggttaccaaccaggaggaactgaaaataagtaaccttgcattttctttattg
ttggatgaagaattaagctctagagaaaaattcctgaacaactaccttacaaggaaacag
cacgagaaaagccagacttcagaagctgttcggaaatctagagaagacctggatgtgtgc
aaggagcactatgacaacttactggcagaagacaaagttatggatcgcagctttaaaaag
gaattttctgaaattcctggtcatcaagtggatatactctacaaactttttaaacgccga
ccaaggatttccaaacagaaaacgcactcagaaacaaccagcgttgtccctttcggagaa
ctaccaggatctggcaagttgaataaggatgcctttgcccagttaatgaaagctatggat
gagttggacaatattagtaacatgccagaaggcttggaccctttggtctggaatcatttc
tgcatgacaagacgagcaaaagtggaaaatgaacagaaagtaaagcagaaagcagctgac
ttattggaaatggcaactttcctccagaagagagttgaggaggaagagaagactcaagga
caaaagaaagttgctagcatgatggaaagtaaagatgtacacaaaagaatacttcagatt
gagtgggaacataagaaaatggagatggaaagggaagatctaaatcagaaggcttgggat
attcagatgctatttttttcaagagatcgtcaaaagtacctaaatgaaccaaactatgag
gctctgattagtattcagattggaataatggaacaaaccattgctgttttagataagatg
cacaaaaagaatgtggaaaactgcaagaaactactcaaaaaacttggaaagttcagcaat
caaaaagatatagcaaattatgccctaagctgcaatctacgagaagagttggtagctgtc
tcagagagaaaagacatctgtaatgcaatggggtctaaactgacttgtgaaaagattgtc
aaagaacggtatgaaaacatgatgcaacagcagaagttaacaaatatttcaaaacaacaa
gctgaacagatttcaatactacagactgaagttgaaagattaagaatgaaaacatttcct
gctcttgttcaaatgtaa