GENSCAN 1.0	Date run:  7-Nov-116	Time: 20:28:51

Sequence gi568815587r:17292994_17576776 : 283783 bp : 47.59% 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 Intr +   2331   2474  144  2  0   87  100    21 0.799   3.68
 1.02 Intr +   3057   3218  162  2  0    4   94   143 0.785   6.67
 1.03 Intr +   8751   8877  127  2  1   70  115   -20 0.719  -0.85
 1.04 Intr +  16579  16682  104  2  2   92   81    58 0.793   5.39
 1.05 Intr +  17832  18017  186  2  0   82   72   158 0.989  13.49
 1.06 Intr +  19035  19127   93  2  0   80   87    56 0.875   4.86
 1.07 Intr +  37134  37304  171  2  0   92   38   203 0.966  15.84
 1.08 Term +  40604  40630   27  1  0  132   53    17 0.824   0.67
 1.09 PlyA +  44295  44300    6                               1.05

 2.00 Prom +  47896  47935   40                              -4.66
 2.01 Init +  58977  59046   70  2  1   98   97   191 0.996  20.21
 2.02 Intr +  63658  64008  351  2  0  111   92   239 0.599  21.89
 2.03 Intr +  74016  74354  339  1  0  105   95   170 0.940  14.85
 2.04 Intr +  80060  80323  264  0  0   78   81    69 0.554   2.68
 2.05 Term +  81673  81689   17  2  2  111   55    12 0.461  -1.40
 2.06 PlyA +  82838  82843    6                               1.05

 3.02 PlyA -  83412  83407    6                               1.05
 3.01 Sngl -  95098  93926 1173  1  0   90   52  2216 0.999 214.25
 3.00 Prom -  97375  97336   40                              -5.36

 4.73 PlyA -  99916  99911    6                               1.05
 4.72 Term - 100135  99998  138  1  0   83   43   263 0.997  19.26
 4.71 Intr - 100766 100704   63  2  0   60   91   110 0.985   7.41
 4.70 Intr - 101452 101273  180  1  0   73   24   186 0.646  10.76
 4.69 Intr - 102282 102129  154  2  1   77   67   104 0.733   7.27
 4.68 Intr - 102725 102617  109  0  1   38  105   244 0.811  20.44
 4.67 Intr - 102937 102859   79  1  1   98  113   121 0.999  14.72
 4.66 Intr - 104053 103923  131  2  2   13   77   333 0.835  25.11
 4.65 Intr - 104320 104200  121  1  1   89   72   200 0.976  18.57
 4.64 Intr - 104804 104691  114  2  0   91   89   137 0.994  14.74
 4.63 Intr - 107158 106965  194  2  2  106   47    78 0.622   4.71
 4.62 Intr - 109760 109645  116  1  2  133   97   165 0.999  21.99
 4.61 Intr - 111676 111519  158  1  2  119   64   243 0.997  23.81
 4.60 Intr - 112570 112501   70  0  1   91   92    73 0.995   7.18
 4.59 Intr - 113795 113629  167  2  2   20   65   185 0.895   8.16
 4.58 Intr - 114136 113895  242  2  2   19   64   418 0.945  29.77
 4.57 Intr - 114460 114361  100  1  1   52   87    74 0.834   3.38
 4.56 Intr - 115524 115399  126  0  0  104   98   218 0.987  25.28
 4.55 Intr - 117660 117523  138  0  0  119   68   168 0.988  18.56
 4.54 Intr - 119753 119673   81  2  0   89   97   147 0.999  15.53
 4.53 Intr - 120485 120401   85  1  1   76   48   149 0.997   9.52
 4.52 Intr - 121617 121519   99  2  0  101   50   131 0.996   9.83
 4.51 Intr - 122346 122311   36  2  0   92   84    42 0.734   1.58
 4.50 Intr - 134161 134056  106  2  1  134   90    80 0.251  12.07
 4.49 Intr - 134949 134874   76  0  1  -57   64   109 0.567  -6.91
 4.48 Intr - 135478 135296  183  1  0   99  109    71 0.492  10.28
 4.47 Intr - 135677 135572  106  1  1   32   89    95 0.798   4.22
 4.46 Intr - 137966 137821  146  2  2  108   78   237 0.961  23.78
 4.45 Intr - 139251 139211   41  1  2  108   92    64 0.992   6.74
 4.44 Intr - 144532 144447   86  0  2  102   72   -10 0.586  -1.74
 4.43 Intr - 149889 149657  233  0  2   58   94   373 0.790  31.47
 4.42 Intr - 150319 150185  135  1  0   63  105   128 0.990  12.76
 4.41 Intr - 155678 155523  156  2  0   98   79    95 0.833   9.81
 4.40 Intr - 160290 160126  165  0  0  108   80    55 0.908   6.86
 4.39 Intr - 167683 167495  189  1  0   80  102   241 0.935  24.48
 4.38 Intr - 168832 168590  243  1  0   81   49   564 0.697  49.49
 4.37 Intr - 170611 170445  167  2  2   89   98   347 0.760  35.48
 4.36 Intr - 177229 177108  122  0  2  108   74   128 0.809  13.54
 4.35 Intr - 182034 181893  142  1  1  130   92   103 0.981  14.31
 4.34 Intr - 183957 183636  322  0  1  106   97   309 0.034  29.03
 4.33 Intr - 184086 184014   73  2  1  120   86    32 0.034   5.61
 4.32 Intr - 199901 199588  314  2  2   90  110   141 0.444  11.48
 4.31 Intr - 201595 201546   50  2  2  125   70   -33 0.268  -3.00
 4.30 Intr - 202525 202473   53  0  2   89   48    59 0.352   0.55
 4.29 Intr - 203820 203765   56  0  2   80   87   121 0.916   8.98
 4.28 Intr - 205278 205169  110  1  2   96   78   172 0.996  17.00
 4.27 Intr - 208157 208058  100  2  1   72  101   144 0.846  13.78
 4.26 Intr - 208542 208489   54  0  0  100   77    73 0.836   6.58
 4.25 Intr - 208987 208946   42  1  0  110   95    88 0.926  10.14
 4.24 Intr - 212956 212837  120  1  0   45  107    90 0.890   7.29
 4.23 Intr - 216584 216363  222  2  0   50   90    90 0.543   3.72
 4.22 Intr - 217528 217412  117  1  0   79   77    50 0.670   3.66
 4.21 Intr - 219061 218909  153  1  0   27   87   230 0.947  17.07
 4.20 Intr - 223297 223248   50  2  2   94   97    90 0.643   8.90
 4.19 Intr - 223489 223462   28  1  1   39  115    -7 0.332  -5.21
 4.18 Intr - 224481 224408   74  1  2   91   57   117 0.645   8.03
 4.17 Intr - 228001 227877  125  0  2   48   84    67 0.959   2.53
 4.16 Intr - 228418 228353   66  0  0   64   79   104 0.955   5.12
 4.15 Intr - 230101 229791  311  1  2   -6   73   312 0.609  15.41
 4.14 Intr - 230274 230218   57  0  0  129   87    38 0.991   6.88
 4.13 Intr - 230485 230426   60  1  0   87   78   101 0.987   7.93
 4.12 Intr - 231542 231458   85  1  1   84  105    41 0.878   5.22
 4.11 Intr - 233448 233354   95  0  2  123   94    76 0.958  10.46
 4.10 Intr - 233817 233760   58  2  1   74   74    65 0.984   2.59
 4.09 Intr - 234047 234023   25  0  1  132  100    36 0.999   6.28
 4.08 Intr - 234338 234230  109  2  1   72   86   177 0.994  15.76
 4.07 Intr - 238299 238161  139  2  1   87   99   148 0.998  16.27
 4.06 Intr - 238549 238406  144  0  0   79   61   275 0.994  23.30
 4.05 Intr - 240329 240262   68  2  2   92  100   115 0.996  10.80
 4.04 Intr - 240829 240726  104  2  2   15  110    74 0.486   2.19
 4.03 Intr - 250933 250876   58  1  1   88   78     7 0.532  -1.84
 4.02 Intr - 251421 251279  143  1  2   58   77   162 0.322  12.17
 4.01 Init - 255112 255025   88  1  1   38   31   128 0.117   0.94
 4.00 Prom - 256547 256508   40                              -7.26

 5.00 Prom + 257043 257082   40                              -7.56
 5.01 Init + 258747 258786   40  2  1   96  100    22 0.253   4.63
 5.02 Intr + 260126 260218   93  0  0   85   55    93 0.980   5.64
 5.03 Intr + 260372 260526  155  0  2   51   94   140 0.858  10.69
 5.04 Intr + 262786 262904  119  0  2   63   78   108 0.995   6.56
 5.05 Intr + 264125 264330  206  2  2   83   81   238 0.880  21.44
 5.06 Intr + 265192 265322  131  2  2   69   41    56 0.939  -0.59
 5.07 Intr + 265545 265651  107  2  2   93   81   154 0.999  14.21
 5.08 Intr + 266059 266168  110  1  2   97   42    48 0.989   1.03
 5.09 Intr + 266541 266669  129  1  0   42   68   142 0.959   8.27
 5.10 Intr + 267716 267850  135  0  0   84   37   101 0.693   5.14
 5.11 Intr + 268669 268814  146  2  2   87   99   194 0.994  20.40
 5.12 Intr + 276163 276295  133  0  1  111   64   113 0.994  11.42
 5.13 Intr + 277220 277397  178  0  1   89   57   331 0.889  29.08
 5.14 Intr + 279087 279211  125  0  2   28  117    84 0.977   5.53
 5.15 Intr + 280085 280297  213  0  0  129   89   244 0.996  27.29
 5.16 Intr + 281727 281919  193  1  1   56  117   198 0.999  18.05
 5.17 Intr + 283563 283637   75  0  0  112   93    77 0.976   9.23

Suboptimal exons with probability > 0.800

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

S.001 Init +  35356  35416   61  0  1  110   57    46 0.822   4.11
S.002 Sngl -  48110  47751  360  2  0   60   41   153 0.820   3.87
S.003 Intr - 127279 127225   55  2  1   87   86    32 0.864   0.94
S.004 Init - 183783 183636  148  0  1  111   97   367 0.945  40.15


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815587r:17292994_17576776|GENSCAN_predicted_peptide_1|337_aa
MRWRTILLQYCFLLITCLLTALEAVPIDIDKTKVQNIHPVESAKIEPPIQTRKNLQKHYC
WFLNLKDTGLYYDEYLKQVIDVLETDKHFREKLQKADIEEIKSGRLSKELDLVSHHVRTK
LDELKRQEVGRLRMLIKAKLDSLQDIGMDHQALLKQFDHLNHLNPDKFESTDLDMLIKAA
TSDLEHYDKTRHEEFKKYEMMKEHERREYLKTLNEEKRKEEESKFEEMKKKHENHPKVNH
PLEKVYDPKNEEDDMVEMEEERLRMREHVMNETLDQQQFFTEEELKEYENIIALQENELK
KKADELQKQKEELQRQHDQLEAQKLEYHQEWYLLEIL

>gi568815587r:17292994_17576776|GENSCAN_predicted_CDS_1|1014_bp
atgaggtggaggaccatcctgctacagtattgctttctcttgattacatgtttacttact
gctcttgaagctgtgcctattgacatagacaagacaaaagtacaaaatattcaccctgtg
gaaagtgcgaagatagaaccaccaattcaaacaaggaaaaacctgcagaagcattactgt
tggtttcttaatttgaaggatactggactttattatgatgaatatctcaagcaagtgatt
gatgtgctggaaacagataaacacttcagagaaaagctccagaaagcagacatagaggaa
ataaagagtgggaggctaagcaaagaactggatttagtaagtcaccatgtgaggacaaaa
cttgatgaactgaaaaggcaagaagtaggaaggttaagaatgttaattaaagctaagttg
gattcccttcaagatataggcatggaccaccaagctcttctaaaacaatttgatcaccta
aaccacctgaatcctgacaagtttgaatccacagatttagatatgctaatcaaagcggca
acaagtgatctggaacactatgacaagactcgtcatgaagaatttaaaaaatatgaaatg
atgaaggaacatgaaaggagagaatatttaaaaacattgaatgaagaaaagagaaaagaa
gaagagtctaaatttgaagaaatgaagaaaaagcatgaaaatcaccctaaagttaatcac
ccattggagaaagtatatgaccctaaaaatgaagaggatgatatggtagaaatggaagaa
gaaaggcttagaatgagggaacatgtaatgaatgagacattagatcagcaacagttcttc
acagaggaagaactaaaagaatatgaaaatattattgctttacaagaaaatgaacttaag
aagaaggcagatgagcttcagaaacaaaaagaagagctacaacgtcagcatgatcaactg
gaggctcagaagctggaatatcatcaggaatggtacctccttgagatcctttga

>gi568815587r:17292994_17576776|GENSCAN_predicted_peptide_2|346_aa
MTWRAAASTCAALLILLWALTTEGDLKVEMMAGGTQITPLNDNVTIFCNIFYSQPLNITS
MGITWFWKSLTFDKEVKVFEFFGDHQEAFRPGAIVSPWRLKSGDASLRLPGIQLEEAGEY
RCEVVVTPLKAQGTVQLEVVASPASRLLLDQVGMKENEDKYMCESSGFYPEAINITWEKQ
TQKFPHPIEISEDVITGPTIKNMDGTFNVTSCLKLNSSQEDPGTVYQCVVRHASLHTPLR
SNFTLTAARHSLSGMFIPHINNSIEGQLILKDKFITQTAPDIRRKLEKQAMGLDSTLQNL
LKVATSVFYNRDQEEAQGKERKHKKKAETLVATLYKTQYPQEPSSS

>gi568815587r:17292994_17576776|GENSCAN_predicted_CDS_2|1041_bp
atgacgtggagggctgccgcctccacgtgcgcggcgctcctgattctgctgtgggcgctg
acgaccgaaggtgatctgaaagtagagatgatggcaggggggactcagatcacacccctg
aatgacaatgtcaccatattctgcaatatcttttattcccaacccctcaacatcacgtct
atgggtatcacctggttttggaagagtctgacgtttgacaaagaagtcaaagtctttgaa
ttttttggagatcaccaagaggcattccgacctggagccattgtgtctccatggaggctg
aagagtggggacgcctcactgcggctgcctggaatccagctggaggaagcaggagagtac
cgatgtgaggtggtggtcacccctctgaaggcacagggaacagtccagcttgaagttgtg
gcttccccagccagcagattgttgctggatcaagtgggcatgaaagagaatgaagacaaa
tatatgtgtgagtcaagtgggttctacccagaggctattaatataacatgggagaagcag
acccagaagtttccccatcccatagagatttctgaggatgtcatcactggtcccaccatc
aagaatatggatggcacatttaatgtcactagctgcttgaagctgaactcctctcaggaa
gaccctgggactgtctaccagtgtgtggtacggcatgcgtccttgcatacccccttgagg
agcaactttaccctgactgctgctcggcacagtctttctggtatgtttatacctcacata
aataattcaattgagggacagctaattttgaaagacaagtttattactcagacagcccct
gatatcagaaggaagctagagaaacaggccatgggattagatagcaccttacaaaacctc
ctgaaggtagccacctcggtcttttataatagggaccaggaggaggcccaggggaaggag
aggaaacacaagaaaaaggcagagactctggtggccactttgtataaaacccagtatccc
caagaaccctcaagcagctga

>gi568815587r:17292994_17576776|GENSCAN_predicted_peptide_3|390_aa
MLSRKGIIPEEYVLTRLAEDPAKPRYRARQRRARFVSKKGNCNVAHKNIREQGRFLQDVF
TTLVDLKWPHTLLIFTMSFLCSWLLFAMAWWLIAFAHGDLAPSEGTAEPCVTSIHSFSSA
FLFSIEVQVTIGFGGRMVTEECPLAILILIVQNIVGLMINAIMLGCIFMKTAQAHRRAET
LIFSKHAVIALRHGRLCFMLRVGDLRKSMIISATIHMQVVRKTTSPEGEVVPLHQVDIPM
ENGVGGNSIFLVAPLIIYHVIDANSPLYDLAPSDLHHHQDLEIIVILEGVVETTGITTQA
RTSYLADEILWGQRFVPIVAEEDGRYSVDYSKFGNTVKVPTPLCTARQLDEDHSLLEALT
LASARGPLRKRSVPMAKAKPKFSISPDSLS

>gi568815587r:17292994_17576776|GENSCAN_predicted_CDS_3|1173_bp
atgctgtcccgcaagggcatcatccccgaggaatacgtgctgacacgcctggcagaggac
cctgccaagcccaggtaccgtgcccgccagcggagggcccgctttgtgtccaagaaaggc
aactgcaacgtggcccacaagaacatccgggagcagggccgcttcctgcaggacgtgttc
accacgctggtggacctcaagtggccacacacattgctcatcttcaccatgtccttcctg
tgcagctggctgctcttcgccatggcctggtggctcatcgccttcgcccacggtgacctg
gcccccagcgagggcactgctgagccctgtgtcaccagcatccactccttctcgtctgcc
ttccttttctccattgaggtccaagtgactattggctttggggggcgcatggtgactgag
gagtgcccactggccatcctgatcctcatcgtgcagaacatcgtggggctcatgatcaac
gccatcatgcttggctgcatcttcatgaagactgcccaagcccaccgcagggctgagacc
ctcatcttcagcaagcatgcggtgatcgccctgcgccacggccgcctctgcttcatgcta
cgtgtgggtgacctccgcaagagcatgatcatcagcgccaccatccacatgcaggtggta
cgcaagaccaccagccccgagggcgaggtggtgcccctccaccaggtggacatccccatg
gagaacggcgtgggtggcaacagcatcttcctggtggccccgctgatcatctaccatgtc
attgatgccaacagcccactctacgacctggcacccagcgacctgcaccaccaccaggac
ctcgagatcatcgtcatcctggaaggcgtggtggaaaccacgggcatcaccacccaggcc
cgcacctcctacctggccgatgagatcctgtggggccagcgctttgtgcccattgtagct
gaggaggacggacgttactctgtggactactccaagtttggcaacaccgtcaaagtgccc
acaccactctgcacggcccgccagcttgatgaggaccacagcctactggaagctctgacc
ctcgcctcagcccgcgggcccctgcgcaagcgcagcgtgcccatggccaaggccaagccc
aagttcagcatctctccagattccctgtcctga

>gi568815587r:17292994_17576776|GENSCAN_predicted_peptide_4|2889_aa
MPPRSPLAYPTLSAKALGSLMPEIRMGAVAPRAAGPVAVAALSSSWQPGTRRNGSCNDAA
GPGPAMDRKVAREFRHKCPQLRAVEACGDSLGQYLREEFGGKGLLESGMCYLSEWPKSFL
KAFIRHYSHHQVDFLIENDAEKDYLYDVLRMYHQTMDVAVLVGDLKLVINEPSRLPLFDA
IRPLIPLKHQVEYDQLTPRRSRKLKEVRLDRLHPEGLGLSVRGGLEFGCGLFISHLIKGG
QADSVGLQVGDEIVRINGYSISSCTHEEVINLIRTKKTVSIKVRHIGLIPVKSSPDEPLT
WQYVDQFVSESGGVRGSLGSPGNRENKEKKVFISLVGSRGLGCSISSGPIQKPGIFISHV
KPGSLSAEVGLEIGDQIVEVNGVDFSNLDHKEAVNVLKSSRSLTISIVAAASRARGLLPS
KKFGSGIAGAAVPDGAEKTTCISAPRGVSGDPQVPRGLSKGPLFSHEGRELFMTDRERLA
EARQRELQRQELLMQKRLAMESNKILQEQQEMERQRRKEIAQKAAEENERYRKEMEQIVE
EEEKFKKQWEEDWGSKEQLLLPKTITAEVHPVPLRKPKYDQGVEPELEPADDLDGGTEEQ
GEQACSATKARPAFGWFYRYDGKFPTIRKKGKDKKKAKYGSLQDLRKNKKELEFEQKLYK
EKEEMLEKEKQLKINRLAQEVSETEREDLEESEKIQYWVERLCQTRLEQISSADNEISER
TPPPIPIPPPPSVPTQDLTPTRPLPSALEEALSNHPFRTGDTGNPVEDWEAKNHSGKPTN
SPVPEQSFPPTPKTFCPSPQPPRGPGVSTISKPVMVHQEPNFIYRPAVKSEVLDFRKYEE
GFDPYSMFTPEQIMGKDVRLLRIKKEGSLDLALEGGVDSPIGKVVVSAVYERGAAERHGG
IVKGDEIMAINGKIVTDYTLAEAEAALQKAWNQGGDWIDLVVAVCPPKEYDDELGHLLPT
LSAGSLDWRLEGVPPAFSLASCVLWLWLWMQTKLDPENLVIKQTGSQHLPESWQGRGAQT
KMQRLPCGTERNQWVGTERGSRETAKLSDVLDEDKATVTFKLLALRDSSHTDELPVFSCQ
APNLVLEKIPKPSARVHQGTHEATPATSGSTRLHIWKVVEQGGVREGEASGAGRGPGGGG
LTAGPGGGAARDRGAAGARSQRSQLSPSPARARAAMPLAFCGSENHSAAYRVDQGVLNNG
CFVDALNVVPHVFLLFITFPILFIGWGSQSSKVHIHHSTWLHFPGHNLRWILTFMLLFVL
VCEIAEGILSDGVTESHHLHLYMPAGMAFMAAVTSVVYYHNIETSNFPKLLIALLVYWTL
AFITKTIKFVKFLDHAIGFSQLRFCLTGLLVILYGMLLLVEVNVIRVRRYIFFKTPREVK
PPEDLQDLGVRFLQPFVNLLSKGTYWWMNAFIKTAHKKPIDLRAIGKLPIAMRALTNYQR
LCEAFDAQVRKDIQGTQGARAIWQALSHAFGRRLVLSSTFRILADLLGFAGPLCIFGIVD
HLGKENDVFQPKTQFLGVYFVSSQEFLANAYVLAVLLFLALLLQRTFLQASYYVAIETGI
NLRGAIQTKIYNKIMHLSTSNLSMGEMTAGQICNLVAIDTNQLMWFFFLCPNLWAMPVQI
IVGVILLYYILGVSALIGAAVIILLAPVQYFVATKLSQAQRSTLEYSNERLKQTNEMLRG
IKLLKLYAWENIFRTRVETTRRKEMTSLRAFAIYTSISSEFTPHSQPWVLLRTCKERVSE
LGCILQLGPNCEPACSSPGPAQATKLKLIRVFMNTAIPIAAVLITFVGHVSFFKEADFSP
SVAFASLSLFHILVTPLFLLSSVVRSTVKALVSVQKLSEFLSSAEIREEQCAPHEPTPQG
PASKYQAVEEGLPSLHSSQPSGSSPPNHPQPLRVVNRKRPAREDCRGLTGPLQSLVPSAD
GDADNCCVQIMGGYFTWTPDGIPTLSNITIRIPRGQLTMIVGQVGCGKSSLLLAALGEMQ
KVSGAVFWSSPERETATDLDIRKRGPVAYASQKPWLLNATVEENIIFESPFNKQRYKMVI
EACSLQPDIDILPHGDQTQIGERGINLSGGQRQRISVARALYQHANVVFLDDPFSALDIH
LSDHLMQAGILELLRDDKRTVVLVTHKLQYLPHADWIIAMKDGTIQREGTLKDFQRSECQ
LFEHWKTLMNRQDQELEKETVTERKATEPPQGLSRAMSSRDGLLQDEEEEEEEAAESEED
DNLSSMLHQRAEIPWRACAKYLSSAGILLLSLLVFSQLLKHMVLVAIDYWLAKWTDSALT
LTPAARNCSLSQECTLDQTVYAMVFTVLCSLGIVLCLVTSVTVEWTGLKVAKRLHRSLLN
RIILAPMRFFETTPLGSILNRFSSDCNTIDQHIPSTLECLSRSTLLCVSALAVISYVTPV
FLVALLPLAIVCYFIQKYFRVASRDLQQLDDTTQLPLLSHFAETVEGLTTIRAFRYESTF
PQETIKAELTPSRVKSKCPVRYVLGASVSPEFGPIKPAMMRQLFFRSFLHHQTSAPASPL
GRAYVSKEYIGACVVLIAAVTSISNSLHRELSAGLVGLGLTYALMVSNYLNWMVRNLADM
ELQLGAVKRIHGLLKTEAESYEGLLAPSLIPKNWPDQGKIQIQNLSVRYDSSLKPVLKHV
NALIAPGQKIGICGRTGSGKSSFSLAFFRMVDTFEGHIIIDGIDIAKLPLHTLRSRLSII
LQDPVLFSGTIRFNLDPERKCSDSTLWEALEIAQLKLVVKALPGGLGNYSWLCSWVGWAL
KDPHKINSVLLHLPGLFSDAIITEGGENFSQGQRQLFCLARAFVRKTSIFIMDEATASID
MATENILQKVVMTAFADRTVVTIAHRVHTILSADLVIVLKRGAILEFDKPEKLLSRKDSV
FASFVRADK

>gi568815587r:17292994_17576776|GENSCAN_predicted_CDS_4|8670_bp
atgcctccccgcagtcccctggcctatcccaccctaagtgctaaagccctggggtcgctg
atgccagaaatacggatgggagctgtggctccgagggcggctggcccggtcgcggtcgcg
gctctttccagctcctggcagccgggcacccgaaggaacgggtcgtgcaacgacgcagct
ggacctggcccagccatggaccgaaaagtggcccgagaattccggcataagtgcccccag
ctcagggctgttgaggcatgtggagacagtctggggcagtatctgagagaagaattcggt
ggtaaggggcttctggagagtggcatgtgctatctaagcgagtggcccaaatccttcctg
aaagcatttatccggcactacagccaccatcaggtggattttctgattgaaaatgatgca
gagaaggactatctctatgatgtgctgcgaatgtaccaccagaccatggacgtggccgtg
ctcgtgggagacctgaagctggtcatcaatgaacccagccgtctgcctctgtttgatgcc
attcggccgctgatcccactgaagcaccaggtggaatatgatcagctgaccccccggcgc
tccaggaagctgaaggaggtgcgtctggaccgtctgcaccccgaaggcctcggcctgagt
gtgcgtggtggcctggagtttggctgtgggctcttcatctcccacctcatcaaaggcggt
caggcagacagcgtcgggctccaggtaggggacgagatcgtccggatcaatggatattcc
atctcctcctgtacccatgaggaggtcatcaacctcattcgaaccaagaaaactgtgtcc
atcaaagtgagacacatcggcctgatccccgtgaaaagctctcctgatgagcccctcact
tggcagtatgtggatcagtttgtgtcggaatctgggggcgtgcgaggcagcctgggctcc
cctggaaatcgggaaaacaaggagaagaaggtcttcatcagcctggtaggctcccgaggc
cttggctgcagcatttccagcggccccatccagaagcctggcatctttatcagccatgtg
aaacctggctccctgtctgctgaggtgggattggagataggggaccagattgtcgaagtc
aatggcgtcgacttctctaacctggatcacaaggaggctgtaaatgtgctgaagagtagc
cgcagcctgaccatctccattgtagctgcagctagcagagcgagaggacttctgcccagc
aagaagtttgggtcagggattgcgggagccgcagtgcctgatggtgctgagaagaccacc
tgcatctcggcccccaggggtgtgtcaggggatccccaggttccccgggggctgagcaag
gggcctcttttctcccatgagggccgggagctgttcatgacagaccgggagcggctggca
gaggcgcggcagcgtgagctgcagcggcaggagcttctcatgcagaagcggctggcgatg
gagtccaacaagatcctccaggagcagcaggagatggagcggcaaaggagaaaagaaatt
gcccagaaggcagcagaggaaaatgagagataccggaaggagatggaacagattgtagag
gaggaagagaagtttaagaagcaatgggaagaagactggggctcaaaggaacagctactc
ttgcctaaaaccatcactgctgaggtacacccagtaccccttcgcaagccaaagtatgat
cagggagtggaacctgagctcgagcccgcagatgacctggatggaggcacggaggagcag
ggagagcaggcctgttctgcaaccaaggcaaggccagcttttggatggttttatcgttac
gatggcaaattcccaaccatccggaagaaaggaaaagataagaagaaagccaagtatggc
agcctgcaggacttgagaaagaataagaaagaactggagtttgagcaaaagctttacaaa
gagaaagaggaaatgctggagaaggaaaagcagctaaagatcaaccggctggcccaggag
gtgtctgagacagagcgggaagaccttgaagaatcggaaaagattcaatattgggtggag
aggctctgtcaaacgcgcctcgagcagatttcctctgctgataatgagatttcagagcgc
actccaccccccattcccatccctcccccgccatccgttcccacccaagacctcactccc
acccgcccactgccctcggcgctggaagaagcactgagcaaccatcccttccgcactggg
gacacaggcaatccagtggaggactgggaggcaaagaaccacagtgggaagcccactaac
tcccctgtccctgaacagagcttcccacccaccccaaagacattttgcccaagcccacag
cctccacgaggccctggcgtgtccaccatctccaaacctgtcatggtccaccaggagccc
aatttcatctacaggccagctgtgaaatctgaagttctggatttccggaaatatgaggaa
ggctttgacccctactctatgttcaccccagagcagatcatggggaaggatgtccggctc
ctacgcatcaagaaggagggatccttagacctggccctggaaggcggtgtggactccccc
attgggaaggtggtcgtttctgctgtgtatgagcggggagctgctgagcggcatggtggc
attgtgaaaggggacgagatcatggcaatcaacggcaagattgtgacagactacaccctg
gctgaggctgaggctgccctgcagaaggcctggaatcagggcggggactggatcgacctt
gtggttgccgtctgccccccaaaggagtatgacgatgagcttggccatctgctgcccacg
ctgtcagcaggttctttggactggcgtctggagggtgtccctcccgctttctccctggcc
tcctgtgtgctgtggctgtggctgtggatgcagactaagctggatcccgagaacttggta
ataaaacagacaggctctcaacacctcccagaatcatggcaggggagaggggctcagacc
aaaatgcagcgactaccatgtgggactgaaagaaatcaatgggtggggacagagagaggg
agcagagaaactgccaaactttctgatgtcctcgatgaagacaaagccacagtgaccttc
aaattactggcgctcagagacagcagccacacagacgagctccctgtgttttcctgtcag
gcacctaacctggttctggagaaaattccaaaacccagcgcacgcgtgcatcagggcact
cacgaagccaccccggcaacatctgggagcacgcgcctccacatctggaaggtggtggag
cagggcggggtgagggagggggaggccagcggggctgggcggggcccggggggcgggggc
ctgacggccgggccgggcggcggagctgcaagggacagaggcgcggcaggcgcgcggagc
cagcggagccagctgagcccgagcccagcccgcgcccgcgccgccatgcccctggccttc
tgcggcagcgagaaccactcggccgcctaccgggtggaccagggggtcctcaacaacggc
tgctttgtggacgcgctcaacgtggtgccgcacgtcttcctactcttcatcaccttcccc
atcctcttcattggatggggaagtcagagctccaaggtgcacatccaccacagcacatgg
cttcatttccctgggcacaacctgcggtggatcctgaccttcatgctgctcttcgtcctg
gtgtgtgagattgcagagggcatcctgtctgatggggtgaccgaatcccaccatctgcac
ctgtacatgccagccgggatggcgttcatggctgctgtcacctccgtggtctactatcac
aacatcgagacttccaacttccccaagctgctaattgccctgctggtgtattggaccctg
gccttcatcaccaagaccatcaagtttgtcaagttcttggaccacgccatcggcttctcg
cagctacgcttctgcctcacagggctgctggtgatcctctatgggatgctgctcctcgtg
gaggtcaatgtcatcagggtgaggagatacatcttcttcaagacaccgagggaggtgaag
cctcccgaggacctgcaagacctgggggtacgcttcctgcagcccttcgtgaatctgctg
tccaaaggcacctactggtggatgaacgccttcatcaagactgcccacaagaagcccatc
gacttgcgagccatcgggaagctgcccatcgccatgagggccctcaccaactaccaacgg
ctctgcgaggcctttgacgcccaggtgcggaaggacattcagggcactcaaggtgcccgg
gccatctggcaggcactcagccatgccttcgggaggcgcctggtcctcagcagcactttc
cgcatcttggccgacctgctgggcttcgccgggccactgtgcatctttgggatcgtggac
caccttgggaaggagaacgacgtcttccagcccaagacacaatttctcggggtttacttt
gtctcatcccaagagttccttgccaatgcctacgtcttagctgtgcttctgttccttgcc
ctcctactgcaaaggacatttctgcaagcatcctactatgtggccattgaaactggaatt
aacttgagaggagcaatacagaccaagatttacaataaaattatgcacctgtccacctcc
aacctgtccatgggagaaatgactgctggacagatctgtaatctggttgccatcgacacc
aatcagctcatgtggtttttcttcttgtgcccaaacctctgggctatgccagtacagatc
attgtgggtgtgattctcctctactacatactcggagtcagtgccttaattggagcagct
gtcatcattctactggctcctgtccagtacttcgtggccaccaagctgtctcaggcccag
cggagcacactggagtattccaatgagcggctgaagcagaccaacgagatgctccgcggc
atcaagctgctgaagctgtacgcctgggagaacatcttccgcacgcgggtggagacgacc
cgcaggaaggagatgaccagcctcagggcctttgccatctatacctccatctccagtgag
ttcaccccacacagccagccctgggtgctgctgcgtacatgcaaggagagggtgtcagag
ctcggatgcatcttgcaattaggcccaaactgtgagcctgcatgctcctcccctggccct
gcacaggcaacaaagctgaagttaatcagagttttcatgaacacggccatccccattgca
gctgtcctcataactttcgtgggccacgtcagcttcttcaaagaggccgacttctcgccc
tccgtggcctttgcctccctctccctcttccatatcttggtcacaccgctgttcctgctg
tccagtgtggtccgatctaccgtcaaagctctagtgagcgtgcaaaagctaagcgagttc
ctgtccagtgcagagatccgtgaggagcagtgtgccccccatgagcccacacctcagggc
ccagccagcaagtaccaggcggtggaagaggggctcccttccctacacagctcccagccc
agtgggtcctcacctccaaaccacccccagcccctcagggttgtgaaccgcaagcgtcca
gcccgggaggattgtcggggcctcaccggcccactgcagagcctggtccccagtgcagat
ggcgatgctgacaactgctgtgtccagatcatgggaggctacttcacgtggaccccagat
ggaatccccacactgtccaacatcaccattcgtatcccccgaggccagctgactatgatc
gtggggcaggtgggctgcggcaagtcctcgctccttctagccgcactgggggagatgcag
aaggtctcaggggctgtcttctggagcagcccagagcgggagacagcgaccgacttggat
atcaggaagagaggccccgtggcctatgcttcgcagaaaccatggctgctaaatgccact
gtggaggagaacatcatctttgagagtcccttcaacaaacaacggtacaagatggtcatt
gaagcctgctctctgcagccagacatcgacatcctgccccatggagaccagacccagatt
ggggaacggggcatcaacctgtctggtggtcaacgccagcgaatcagtgtggcccgagcc
ctctaccagcacgccaacgttgtcttcttggatgaccccttctcagctctggatatccat
ctgagtgaccacttaatgcaggccggcatccttgagctgctccgggacgacaagaggaca
gtggtcttagtgacccacaagctacagtacctgccccatgcagactggatcattgccatg
aaggatggcaccatccagagggagggtaccctcaaggacttccagaggtctgaatgccag
ctctttgagcactggaagaccctcatgaaccgacaggaccaagagctggagaaggagact
gtcacagagagaaaagccacagagccaccccagggcctatctcgtgccatgtcctcgagg
gatggccttctgcaggatgaggaagaggaggaagaggaggcagctgagagcgaggaggat
gacaacctgtcgtccatgctgcaccagcgtgctgagatcccatggcgagcctgcgccaag
tacctgtcctccgccggcatcctgctcctgtcgttgctggtcttctcacagctgctcaag
cacatggtcctggtggccatcgactactggctggccaagtggaccgacagcgccctgacc
ctgacccctgcagccaggaactgctccctcagccaggagtgcaccctcgaccagactgtc
tatgccatggtgttcacggtgctctgcagcctgggcattgtgctgtgcctcgtcacgtct
gtcactgtggagtggacagggctgaaggtggccaagagactgcaccgcagcctgctaaac
cggatcatcctagcccccatgaggttttttgagaccacgccccttgggagcatcctgaac
agattttcatctgactgtaacaccatcgaccagcacatcccatccacgctggagtgcctg
agccgctccaccctgctctgtgtctcagccctggccgtcatctcctatgtcacacctgtg
ttcctcgtggccctcttgcccctggccatcgtgtgctacttcatccagaagtacttccgg
gtggcgtccagggacctgcagcagctggatgacaccacccagcttccacttctctcacac
tttgccgaaaccgtagaaggactcaccaccatccgggccttcaggtacgagtccacattc
ccccaagagacaatcaaagctgaactaacaccttccagggtgaaaagcaaatgcccagta
aggtacgtcttgggtgcctccgtgtcccctgagtttggtcctatcaaaccagcgatgatg
aggcagcttttctttcgttccttcctccatcatcaaacaagtgctcctgcatctcctctg
ggccgggcctacgtcagcaaggagtacatcggtgcatgtgtggtgctcatcgcagcggtg
acctccatctccaactccctgcacagggagctctctgctggcctggtgggcctgggcctt
acctacgccctaatggtctccaactacctcaactggatggtgaggaacctggcagacatg
gagctccagctgggggctgtgaagcgcatccatgggctcctgaaaaccgaggcagagagc
tacgaggggctcctggcaccatcgctgatcccaaagaactggccagaccaagggaagatc
cagatccagaacctgagcgtgcgctacgacagctccctgaagccggtgctgaagcacgtc
aatgccctcatcgcccctggacagaagatcgggatctgcggccgcaccggcagtgggaag
tcctccttctctcttgccttcttccgcatggtggacacgttcgaagggcacatcatcatt
gatggcattgacatcgccaaactgccgctgcacaccctgcgctcacgcctctccatcatc
ctgcaggaccccgtcctcttcagcggcaccatccgatttaacctggaccctgagaggaag
tgctcagatagcacactgtgggaggccctggaaatcgcccagctgaagctggtggtgaag
gcactgccaggaggcctcggtaactactcctggctatgcagctgggttggttgggcactc
aaggaccctcacaagattaactcagtcctacttcatctccccgggctgttttcagatgcc
atcatcacagaaggcggggagaatttcagccagggacagaggcagctgttctgcctggcc
cgggccttcgtgaggaagaccagcatcttcatcatggacgaggccacggcttccattgac
atggccacggaaaacatcctccaaaaggtggtgatgacagccttcgcagaccgcactgtg
gtcaccatcgcgcatcgagtgcacaccatcctgagtgcagacctggtgatcgtcctgaag
cggggtgccatccttgagttcgataagccagagaagctgctcagccggaaggacagcgtc
ttcgcctccttcgtccgtgcagacaagtga

>gi568815587r:17292994_17576776|GENSCAN_predicted_peptide_5|763_aa
MGLMVCRRDATWEDLFSCFNGGECVHPAFCDCRRFNATGPRCQMVYNAGPERDSICRAWG
QHHVETFDGLYYYLSGKGSYTLVGRHEPEGQSFSIQVHNDPQCGSSPYTCSRAVSLFFVG
EQEIHLAKEVTHGGMRVQLPHVMGSARLQQLAGYVIVRHQSAFTLAWDGASAVYIKMSPE
LLGWTHGLCGNNNADPKDDLVTSSGKLTDDVVEFVHSWQEQAPNQPPGPTTSSLPRPPCL
QQNPGTMQGVYEQCEALLRPPFDACHAYVSPLPFTASCTSDLCQSMGDVATWCRALAEYA
RACAQAGRPLQGWRTQLRQCTVHCKEKAFTYNECIACCPASCHPRASCVDSEIACVDGCY
CPNGLIFEDGGCVAPAECPCEFHGTLYPPGSVVKEDCNTWSVSAAGKQAECSVTGDIHFT
TFDGRRYTFPATCQYILAKSRSSGTFTVTLQNAPCGLNQDGACVQSVSVILHQDPRRQVT
LTQAGDVLLFDQYKIIPPYTDDAFEIRRLSSVFLRVRTNVGVRVLYDREGLRLYLQVDQR
WVEDTVGLCGTFNGNTQDDFLSPVGVPESTPQLFGNSWKTLSACSPLVSGSPLDPCDVHL
QAASYSVQACSVLTGEMFAPCSAFLSPVPYFEQCRRDACRCGQPCLCATLAHYAHLCRRH
GLPVDFRARLPACALSCEASKEYSPCVAPCGRTCQDLASPEACGVDGGDDLSRDECVEGC
ACPPDTYLDTQADLCVPRNQCSCHFQGVDYPPGDSDIPSLGHX

>gi568815587r:17292994_17576776|GENSCAN_predicted_CDS_5|2289_bp
atgggcctcatggtctgccgcagagatgccacttgggaagacttgttctcctgcttcaat
ggaggcgagtgtgtgcacccagccttctgtgactgcagacgcttcaatgccactggaccg
cgctgccagatggtgtacaatgccggccctgagagggacagcatttgccgggcgtggggg
cagcaccacgtggagacatttgatgggctctactactacctctccggaaagggcagctac
accctggtgggtcgccatgagcccgagggacagagcttctccatccaggtacacaatgac
ccgcagtgtggctcttcaccctacacctgctccagggctgtcagcctcttctttgtgggt
gagcaggagatccatctggccaaggaggtcacccatggaggcatgagggtccaactgcca
catgtcatggggagcgcgcgtctgcagcagcttgccggctatgtcatcgtgcggcatcag
tcagccttcacactggcctgggatggtgcctcggctgtctacatcaagatgagtccagag
cttctgggctggacccatgggctgtgtgggaacaacaatgctgaccccaaggatgatctg
gtgaccagctctgggaagctgactgacgacgtggttgagtttgtgcacagctggcaggag
caggcccctaaccagcctccagggcccacaacttcctccctgcctcgcccaccgtgccta
cagcagaacccaggaaccatgcagggcgtgtacgagcagtgtgaggctctactgcggccc
ccctttgacgcctgccacgcctacgtcagccctctgcccttcacagccagttgtaccagt
gatctctgccaatcaatgggtgatgtagccacctggtgccgggcactggcggagtatgcc
cgggcgtgtgcccaggcagggcggcccttgcaaggctggaggacccagctccggcaatgc
actgtgcactgcaaggagaaggcctttacctacaatgagtgcatcgcctgctgccctgcc
tcctgccatccccgggcatcctgtgtggacagtgagatcgcctgtgtggacggctgctat
tgccccaatgggctcatcttcgaggatgggggctgcgtggcaccagctgagtgtccctgt
gagtttcacgggactctgtacccacctggctctgtggtgaaggaagactgcaatacttgg
tctgtgtctgctgccgggaagcaggctgagtgctcagtgactggtgacattcacttcaca
acctttgatggccgccggtacacgttccccgccacatgtcagtacatcctggccaagagc
cgctcttcgggcaccttcaccgtgacattgcagaatgccccatgtggcctgaaccaagat
ggagcctgtgtccagtcagtgtcagtgattctgcaccaggaccctcggaggcaggtgacc
ctgacccaggcaggggatgtccttctgtttgaccagtacaagatcatcccgccatacaca
gatgatgcctttgagatccgtaggctgtcctccgtgttcctgcgggtgaggacgaacgtg
ggcgtgcgggtgctctacgaccgtgaagggctccgactgtacctgcaagtggaccagcga
tgggtggaggataccgtgggcctctgcggcaccttcaatggcaacacgcaggatgacttc
ctgtctccagtgggtgtacctgagagcaccccacaactttttggcaattcctggaaaaca
ctttctgcttgctccccgctggtctctggctcccctctggacccctgcgatgtgcacctg
caagccgcctcctactcagtgcaggcctgcagcgtgctcacgggggagatgtttgcgccc
tgctctgcgttcctgagccccgtgccctactttgagcagtgccgcagggatgcctgccgc
tgcgggcagccctgcctgtgcgccacactggcccactacgcccacctgtgccggcgccat
gggctccccgttgatttccgcgcccgcctgccagcctgtgcactgtcctgtgaggcctcc
aaggagtatagcccctgcgtggccccgtgtggacgtacctgccaggacctggccagccct
gaggcctgtggggttgatggtggcgatgacctgagcagagacgagtgtgtggagggctgt
gcctgcccaccggacacctatctggacacccaggctgacctctgtgtcccccggaaccag
tgctcctgccacttccagggagtggactatccccccggagacagtgacatcccatccctg
ggccactgn