GENSCAN 1.0	Date run:  7-Nov-116	Time: 19:41:09

Sequence gi568815584r:31000933_31305936 : 305004 bp : 41.68% 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..
----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------

 1.01 Init +   4022   4082   61  1  1   73   86    17 0.191   1.46
 1.02 Term +  17554  17789  236  2  2  108   38   236 0.925  16.10
 1.03 PlyA +  17893  17898    6                               1.05

 2.02 PlyA -  19651  19646    6                               1.05
 2.01 Sngl -  25253  24363  891  2  0   79   50   292 0.445  20.35
 2.00 Prom -  42873  42834   40                              -4.15

 3.00 Prom +  57965  58004   40                              -7.25
 3.01 Init +  65283  65402  120  2  0   50  108   125 0.579  10.94
 3.02 Intr +  68911  68997   87  0  0   66   94   108 0.994   8.45
 3.03 Intr +  71973  72041   69  2  0   92  103    57 0.970   6.06
 3.04 Intr +  79641  79791  151  2  1  121   85    31 0.529   4.91
 3.05 Term +  82929  83047  119  1  2   78   42    51 0.223  -2.78
 3.06 PlyA +  84844  84849    6                               1.05

 4.03 PlyA -  86432  86427    6                               1.05
 4.02 Term -  90479  90047  433  1  1   52   44   302 0.931  15.98
 4.01 Init -  96064  96057    8  1  2   79   89    11 0.892   0.07
 4.00 Prom -  96319  96280   40                              -7.25

 5.48 PlyA -  97761  97756    6                               1.05
 5.47 Term - 100135  99998  138  1  0   93   49   101 0.974   3.68
 5.46 Intr - 100392 100248  145  2  1   97   82    40 0.971   3.66
 5.45 Intr - 102134 101984  151  0  1   21   91    96 0.947   1.50
 5.44 Intr - 104544 104451   94  0  1   69   76   117 0.966   7.22
 5.43 Intr - 104736 104658   79  2  1  103   83    58 0.911   5.43
 5.42 Intr - 106321 105714  608  1  2   24   98   218 0.655   6.72
 5.41 Intr - 106772 106635  138  2  0   78   76   134 0.996  10.94
 5.40 Intr - 108666 108465  202  2  1   76   74   259 0.999  21.67
 5.39 Intr - 111611 111484  128  2  2   78  116    25 0.813   2.86
 5.38 Intr - 112257 112172   86  1  2   57   75    26 0.450  -3.18
 5.37 Intr - 112552 112345  208  1  1   74   66    95 0.477   3.63
 5.36 Intr - 113127 112945  183  0  0   73   71   148 0.999  10.66
 5.35 Intr - 113408 113354   55  1  1   57  115    58 0.663   3.46
 5.34 Intr - 115526 115304  223  0  1   82   76   106 0.661   5.06
 5.33 Intr - 118934 118778  157  2  1   54   92   227 0.999  18.36
 5.32 Intr - 120573 120451  123  0  0   48   90   129 0.948   8.96
 5.31 Intr - 122115 121982  134  1  2   58   35   284 0.860  19.54
 5.30 Intr - 127074 126853  222  1  0   94  115   126 0.896  13.08
 5.29 Intr - 128516 127680  837  0  0  108  108   774 0.999  71.83
 5.28 Intr - 132482 132306  177  0  0   65  101   197 0.999  17.67
 5.27 Intr - 132743 132577  167  1  2   65   71   116 0.973   6.28
 5.26 Intr - 134263 133940  324  0  0   70   44   237 0.534  11.46
 5.25 Intr - 134683 134544  140  1  2   80  106   129 0.999  12.24
 5.24 Intr - 135733 135599  135  1  0   14  101   114 0.967   5.14
 5.23 Intr - 139065 138960  106  2  1   68   91   105 0.995   8.10
 5.22 Intr - 141020 140926   95  2  2   73   93    74 0.999   4.24
 5.21 Intr - 143325 143179  147  0  0   90  101    91 0.998  10.11
 5.20 Intr - 144009 143875  135  0  0   78   55    90 0.919   4.54
 5.19 Intr - 147865 147789   77  2  2   95   71    26 0.983  -0.08
 5.18 Intr - 148228 147965  264  2  0   52  106   218 0.994  16.56
 5.17 Intr - 149289 149067  223  0  1   38   90    82 0.546   0.18
 5.16 Intr - 156078 155908  171  0  0  125   87   160 0.978  18.82
 5.15 Intr - 156371 156233  139  1  1   75   65    52 0.957   1.15
 5.14 Intr - 167540 167366  175  0  1   43   63   127 0.855   3.78
 5.13 Intr - 168536 168422  115  2  1   69   94   155 0.999  13.30
 5.12 Intr - 171027 170929   99  0  0   95   98     7 0.774   1.79
 5.11 Intr - 171190 171114   77  2  2   53  103    44 0.997   0.72
 5.10 Intr - 172494 172224  271  0  1  122   55   273 0.999  23.59
 5.09 Intr - 172874 172641  234  2  0   28   87   247 0.612  15.56
 5.08 Intr - 174206 173979  228  2  0   78   99    78 0.944   5.04
 5.07 Intr - 177322 177088  235  0  1   89  115   194 0.351  18.97
 5.06 Intr - 204997 204865  133  2  1  -37  111   139 0.070   2.48
 5.05 Intr - 206733 206459  275  2  2   86   54   295 0.157  22.16
 5.04 Intr - 207065 206905  161  2  2    0   37   239 0.750   7.86
 5.03 Intr - 208123 208039   85  0  1  107  -21   104 0.729   0.30
 5.02 Intr - 210294 210156  139  1  1   54   11   139 0.249   1.40
 5.01 Init - 219237 219189   49  0  1   86   89    24 0.235   1.46
 5.00 Prom - 223757 223718   40                              -4.35

 6.00 Prom + 239970 240009   40                              -3.15
 6.01 Init + 247642 247759  118  0  1   72  109   152 0.950  16.11
 6.02 Intr + 248149 248336  188  2  2   62   64    83 0.453   1.79
 6.03 Term + 249475 249600  126  0  0  103   44    62 0.733   0.60
 6.04 PlyA + 253985 253990    6                               1.05

 7.08 PlyA - 255962 255957    6                               1.05
 7.07 Term - 262962 262791  172  2  1   91   54   106 0.867   3.82
 7.06 Intr - 272026 271749  278  1  2   92   77   103 0.664   4.99
 7.05 Intr - 282896 282781  116  0  2   99   68     6 0.072  -1.05
 7.04 Intr - 293172 292959  214  0  1   70   97   160 0.532  12.47
 7.03 Intr - 295146 294977  170  1  2   27  103   129 0.680   7.04
 7.02 Intr - 301587 301363  225  1  0   52   91   119 0.789   5.63
 7.01 Intr - 304245 303973  273  1  0   41   91   145 0.896   6.69

Suboptimal exons with probability > 0.800

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

S.001 Init - 205004 204865  140  2  2   81  111   162 0.855  17.46


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815584r:31000933_31305936|GENSCAN_predicted_peptide_1|98_aa
MMLRASVFKGKKWAKGEKRKEQSFSRELGCETTMVKDILAEEGLHFDELNKLWVLDSEVT
QQTTELKEECKNFADKTGQFQKTVGGLIELVDKLAKKA

>gi568815584r:31000933_31305936|GENSCAN_predicted_CDS_1|297_bp
atgatgctgagggcttcagtatttaaagggaaaaagtgggctaaaggtgaaaagaggaaa
gagcagagcttctctagggaacttggatgcgaaacaactatggtaaaggacatcctggct
gaagagggactgcactttgatgagttgaacaagctgtgggtgttggactcagaggttacc
cagcagaccacagagctcaaagaagagtgcaagaactttgcggacaaaactggccagttt
cagaaaacagttggtggtttaattgagcttgttgataaacttgcaaaaaaagcgtaa

>gi568815584r:31000933_31305936|GENSCAN_predicted_peptide_2|296_aa
MDELAGGGGGGPGMAAPPRQQQGPGGNLGLSPGGNGAAGGGGPPASEGAGPAAGPELSRP
QQYTIPGILHYIQHEWARFEMERAHWEVERAELQVPRWGRCAGAAAAGFPAGGWGWGLHS
AGAGALGGRAEPTCAAQVVMVLSTAFPGVPLPLSRISLLPNLHWLRGAGLLGAAILAFSM
ASAGAPPEAAFPGLRGLGPSTSLWESPVWGLSTLSLLLFVPLEMKSPKRGTRIGILPPFS
GPPPFPIWRIWPPPSDLVRACPLTATLLSWAARVHSDLGLTCEVLFPIVNFKYFLT

>gi568815584r:31000933_31305936|GENSCAN_predicted_CDS_2|891_bp
atggacgagcttgccggaggcggtggtggcggcccggggatggcggcccctccccggcag
cagcagggacctggggggaacctgggcctttcgcccggggggaacggagcggcgggcggc
gggggtcctccggcctccgagggagcgggtcccgcggcaggccccgagctgtcccggccg
cagcagtacactatcccggggatactgcactacatccagcacgagtgggctcggttcgag
atggagcgggcgcactgggaggtggaacgggccgaactgcaggtacctcgttggggtcgg
tgtgcgggagctgcggcggctgggttcccggccggggggtggggctggggactccactca
gccggagccggcgccttgggaggccgagcggaacctacctgtgctgctcaggttgtgatg
gtcctctcaacggcttttcctggagtccccctccctctttcccgcataagcttgctcccc
aaccttcactggctacgcggtgcgggcctcctcggggcagccattttggcttttagtatg
gcgtctgcgggggctcctccggaggcggccttcccgggcctccggggcttgggaccgagc
acctctctgtgggagagtccggtttggggcctctcaacactgagtttgctcttgtttgtt
cctcttgagatgaagagcccgaagagagggactaggataggcatcttaccccccttttcc
ggaccacccccctttccgatttggcgtatctggccccctccctcagacttggtacgcgct
tgccccttgacagccacgcttctttcctgggctgctagggtgcacagtgacttgggactg
acctgtgaagttttatttcccatcgtcaactttaagtactttctcacctga

>gi568815584r:31000933_31305936|GENSCAN_predicted_peptide_3|181_aa
MVNKQGQTRLSKYYEHVDINKRTLLETEVIKSCLSRSNEQCSFIEYKDFKLIYRQYAALF
IVVGVNDTENEMAIYEFIHNFVEVLDEYFSRVSELDVSFFNTVFHSTWQMHSGPYQVSTT
RQENYSAESRVFITNNYDKTARVLLNHHMFKEDLCRLVTQQKDEGILSKLSCSSCSICGG
A

>gi568815584r:31000933_31305936|GENSCAN_predicted_CDS_3|546_bp
atggtgaataaacaagggcagactcgactttctaagtactatgaacatgtggatattaat
aagcgtacacttctggaaacagaagtcataaagagctgtctctctcgatccaatgaacaa
tgctctttcattgaatataaggattttaagctgatatatcggcagtatgcagctctcttc
attgtggttggagttaatgacactgagaacgagatggctatttatgaattcattcataac
tttgtggaagttttagatgagtatttcagccgagtgagtgaattagatgtatcctttttc
aatactgttttccacagtacttggcaaatgcactctggtccttatcaggtaagtaccaca
aggcaggaaaactattcagcagagtccagagtgttcatcaccaacaactatgacaagaca
gccagagtccttttaaaccatcacatgttcaaggaggacctctgcagactagttacacag
cagaaagatgaggggatcttgtcgaagctcagctgcagttcctgctccatctgtggaggg
gcgtag

>gi568815584r:31000933_31305936|GENSCAN_predicted_peptide_4|146_aa
MARPRSQNLGETKWEWQPGIYRKAELRSTGGYVKNGLENLPVIFTKGNESLSAFENVAFS
KITFFEIQGNLILTHELVRGSSCSVDCPIFGKQMICCSDVPLSNCPIVLKFRSEFTAKSY
KPLTSPHYKEQGQGPPASQFPNILET

>gi568815584r:31000933_31305936|GENSCAN_predicted_CDS_4|441_bp
atggccagacccagaagccagaacttaggtgagacaaagtgggaatggcagccaggtata
tatagaaaggcagagctaagaagcacaggtggctacgtgaaaaatggcctggagaacctt
cctgttatattcactaagggcaatgaaagccttagtgcctttgaaaatgtcgccttctcc
aagataactttctttgagatacaaggaaatctaattttaacccatgaattagttcgggga
tcaagctgctctgtggactgccccatctttggcaagcagatgatctgctgttcagatgtc
cccttgagcaactgcccaattgttttgaaattcagatcagaatttactgctaaatcatat
aaaccactgacatccccacattacaaggaacaaggacaaggtcctccagcaagtcaattt
cccaacatcctggaaacatga

>gi568815584r:31000933_31305936|GENSCAN_predicted_peptide_5|2828_aa
MGFHHVGQAGLELLTSAVTHYLRFNSHFIPEAFQDAISYLLNVPSMYLTISPNKRYDRGD
SEEIPKRTITCDNGTCADSYLKYKFVISKILGSEKGARAHHRKAAAETYDTARGGGGESS
GAGTATRRTRFGAPARRSAVPQRPSTARASELQGLRSRVLGTGRPLAAAARENLSLPCHQ
VLAEEGEGRGAAFPVPPARFDLRGLRLLGNSRAAAGPGSAGGLLGAGSERFGTTSPNVDP
DTLLEWLQMGQGDERDMQLIALEQLCMLLLMSDNVDRCFETCPPRTFLPALCKIFLDESA
PDNVLEVTARAITYYLDVSAECTRRIVGVDGAIKALCNRLVVVELNNRTSRDLAEQCVKV
LELICTRESGAVFEAGGLNCVLTFIRDSGHLVHKDTLHSAMAVVSRLCGKMEPQDSSLEI
CVESLSSLLKHEDHQVSDGALRCFASLADRFTRRGVDPAPLAKHGLTEELLSRMAAAGGT
VSGPSSACKPGRSTTGAPSTTADSKLSNQVSTIDLLRSELPDSIESALQGDERCVLDTMR
LVDLLLVLLFEGRKALPKSSAGSTGRIPGLRRLDSSGERSHRQLIDCIRSKDTDALIDAI
DTGAFEVNFMDDVGQTLLNWASAFGTQEMVEFLCERGADVNRGQRSSSLHYAACFGRPQV
AKTLLRHGANPDLRDEDGKTPLDKARERGHSEVVAILQSPGDWMCPVNKGDDKKKKDTNK
DEEECNEPKGDPEMAPIYLKRLLPVFAQTFQQTMLPSIRKASLALIRKMIHFCSEALLKE
VCDSDVGHNLPTILVEITATVLDQEDDDDGHLLALQIIRDLVDKGGDIFLDQLARLGVIS
KVSTLAGPSSDDENEEESKPEKEDEPQEDAKELQQGKPYHWRDWSIIRGRDCLYIWSDAA
ALELSNGSNGWFRFILDGKLATMYSSGSPEGGSDSSESRSEFLEKLQRARGQVKPSTSSQ
PILSAPGPTKLTVGNWSLTCLKEGEIAIHNSDGQQATILKEDLPGFVFESNRGTKHSFTA
ETSLGSEFVTGWTGKRGRKLKSKLEKTKQKVRTMARDLYDDHFKAVESMPRGVVVTLRNI
ATQLESSWELHTNRQCIESENTWRDLMKTALENLIVLLKDENTISPYEMCSSGLVQALLT
VLNNSMDLDMKQDCSQLVERINVFKTAFSENEDDESRPAVALIRKLIAVLESIERLPLHL
YDTPGSTYNLQILTRRLRFRLERAPGETALIDRTGRMLKMEPLATVESLEQYLLKMVAKQ
WYDFDRSSFVFVRKLREGQNFIFRHQHDFDENGIIYWIGTNAKTAYEWVNPAAYGLVVVT
SSEGRNLPYGRLEDILSRDNSALNCHSNDDKNAWFAIDLGLWVIPSAYTLRHARGYGRSA
LRNWVFQVSKDGQNWTSLYTHVDDCSLNEPGSTATWPLDPPKDEKQGWRHVRIKQMGKNA
SGQTHYLSLSGFELYGTVNGVCEDQLGKAAKEAEANLRRQRRLVRSQVLKYMVPGARVIR
GLDWKWRDQDGSPQGEGTVTGELHNGWIDVTWDAGGSNSYRMGAEGKFDLKLAPGYDPDT
VASPKPVSSTVSGTTQSWSSLVKNNCPDKTSAAAGSSSRKGSSSSVCSVASSSDISLGST
KTERRSEIVMEHSIVSGADVHEPIVVLSSAENVPQTEVGSSSSASTSTLTAETGSENAER
KLGPDSSVRTPGESSAISMGIVSVSSPDVSSVSELTNKEAASQRPLSSSASNRLSVSSLL
AAGAPMSSSASVPNLSSRETSSLESFVRRVANIARTNATNNMNLSRSSSDNNTNTLGRNV
MSTATSPLMGAQSFPNLTTPGTTSTVTMSTSSVTSSSNVATATTVLSVGQSLSNTLTTSL
TSTSSESDTGQEAEYSLYDFLDSCRASTLLAELDDDEDLPEPDEEDDENEDDNQEDQEYE
EVMILRRPSLQRRAGSRSDVTHHAVTSQLPQVPAGAGSRPIGEQEEEEYETKGGRRRTWD
DDYVLKRQFSALVPAFDPRPGRTNVQQTTDLEIPPPGTPHSELLEEVECTPSPRLALTLK
VTGLGTTREVELPLTNFRSTIFYYVQKLLQLSCNGNVKSDKLRRIWEPTYTIMYREMKDS
DKEKENGKMGCWSIEHVEQYLGTDELPKNDLITYLQKNADAAFLRHWKLTGTNKSIRKNR
NCSQLIAAYKDFCEHGTKSGLNQGAISTLQSSDILNLTKEQPQAKAGNGQNSCGVEDVLQ
LLRILYIVASDPYSRISQEDGDEQPQFTFPPDEFTSKKITTKILQQIEEPLALASGALPD
WCEQLTSKCPFLIPFETRQLYFTCTAFGASRAIVWLQNRREATVERTRTTSSVRRDDPGE
FRVGRLKHERVKVPRGESLMEWAENVMQIHADRKSVLEVEFLGEEGTGLGPTLEFYALVA
AEFQRTDLGAWLCDDNFPDDESRHVDLGGGLKPPGYYVQRSCGLFTAPFPQDSDELERIT
KLFHFLGIFLAKCIQDNRLVDLPISKPFFKLMCMGDIKSNMSKLIYESRGDRDLHCTESQ
SEASTEEGHDSLSVGSFEEDSKSEFILDPPKPKPPAWFNGILTWEDFELVNPHRARFLKE
IKDLAIKRRQILSNKGLSEDEKNTKLQELVLKNPSGSGPPLSIEDLGLNFQFCPSSRIYG
FTAVDLKPSGEDEMITMDNAEEYVDLMFDFCMHTGIQKQMEAFRDGFNKVFPMEKLSSFS
HEEVQMILCGNQSPSWAAEDIINYTEPKLGYTRDSPGFLRFVRVLCGMSSDERKAFLQFT
TGCSTLPPGGLANLHPRLTVVRKVDATDASYPSVNTCVHYLKLPEYSSEEIMRERLLAAT
MEKGFHLN

>gi568815584r:31000933_31305936|GENSCAN_predicted_CDS_5|8487_bp
atggggtttcaccatgttggtcaggctggtctcgaactcctgacctcagctgtgactcat
tatctgagatttaattcacacttcattcctgaagctttccaagatgccatctcctacctc
cttaatgttcccagcatgtacctgacaatatcacctaataagcggtatgatagaggagac
tcagaggagatacctaaacggaccattacctgcgacaacgggacatgcgcggatagctat
ctgaagtacaaatttgtcatttccaaaatactgggaagcgaaaagggggccagggcgcac
catagaaaagccgcggcagaaacgtacgacacagcccgaggcggcgggggcgagagctcc
ggggcagggacggcgacgcggcgtacccggtttggcgcccctgcgcggcggtcggccgtc
ccgcagcgccccagcaccgcgcgggcctctgagttgcagggcctgaggagccgcgtgctg
gggactggacgtccgctggctgctgccgcacgcgagaacctctcgcttccctgtcaccag
gtcctcgcggaggaaggggagggacgaggcgcggcttttcctgtgccgcctgcccggttc
gacctgcgcggcctgcggcttcttgggaactctagggccgcggccgggcctggctctgcc
ggcggcctgttgggagctggatcggagcggtttggaacgacaagcccgaatgtggaccca
gatacattgctggaatggctacagatgggacagggagatgaaagggacatgcaactaata
gcccttgaacagctatgcatgctgcttttgatgtctgacaacgtggatcgttgttttgaa
acatgtcctcctcgcactttcttaccagccctttgcaaaatttttcttgatgaaagtgct
ccagacaatgtattagaggtgacagcccgtgccataacatactacctggatgtatctgcg
gaatgtacccgaaggattgttggggtagatggagctataaaagcactttgtaatcgtttg
gttgtagttgaacttaacaacaggactagcagagacttagccgaacagtgtgtaaaggta
ttagaactgatatgtactcgtgagtcaggagcagtctttgaggctggtggtttgaattgt
gtgcttaccttcattcgtgacagtggacatctagttcataaagacaccttgcactctgct
atggctgtggtatcaagactctgtggcaaaatggagcctcaagattcttctttagaaatt
tgtgtagaatctctgtctagtttattaaagcatgaagatcatcaggtttcagatggagct
ctgcgatgctttgcatcactggctgaccgatttacccgtcgtggtgttgacccagctcca
ttagccaagcatggattaactgaggagctgttatctcgaatggctgctgctggtggtact
gtttcaggaccatcatcagcatgcaaaccaggtcgcagcaccacaggagctccatccacc
actgcagattccaaattgagtaatcaggtgtcaacaattgatcttctgaggtcggagctt
ccagattcaattgaaagtgcattgcagggtgatgaaagatgtgtgcttgatactatgcgt
ttggttgaccttctcttggtgctattatttgaaggacgaaaagctttgccaaagtctagt
gctggatctacaggcagaatcccaggactccggagattagatagttctggggagcgctca
catcggcagcttatagattgtattcgaagtaaagataccgatgcacttatagatgcaatt
gacacaggagcctttgaagtaaattttatggatgatgtaggtcagactctattaaactgg
gcctctgcttttggaactcaggaaatggtagaatttctttgtgagagaggtgcagatgtt
aatagaggtcaaaggtcatcatcattacattatgctgcatgttttggaagacctcaagta
gcaaagactctgttacggcatggtgcaaatccagatctgagagatgaagatgggaaaact
ccattagataaagctcgagaaaggggccatagtgaagtggtagctattcttcagtctcca
ggtgattggatgtgtccagttaataaaggagatgataagaaaaagaaagatacaaacaaa
gatgaagaagaatgtaatgagcccaaaggagatccggaaatggcacccatatacttgaaa
aggttattgccagtgtttgcacaaacatttcagcaaactatgctgccttcaataaggaaa
gcaagtcttgctctaattcgaaaaatgattcatttttgctctgaagcactgttaaaagaa
gtttgtgattctgatgttggtcacaatttgcctacaatactagtggaaatcactgcaact
gtcctggatcaagaggatgatgatgatggccacttgctggctttgcagatcataagggat
ttagtagataaaggtggtgatatatttttggatcagctagccagacttggtgtaattagc
aaagtgtcaacgttggcaggtccttcctctgatgatgagaatgaagaggaatcaaaacca
gaaaaagaagatgaaccacaggaagatgctaaagaattgcaacaaggtaaaccatatcat
tggagagactggtcaatcattaggggaagggactgcttatatatttggagtgatgcagca
gccttggaattatctaatggcagtaatggatggttcagatttatcttggatggaaaactt
gccaccatgtattcaagtggtagtccggaaggtggatctgacagttcagaaagccgaagt
gaattcttagagaagttacaaagagctcgaggccaagtaaagccatctacttcaagtcaa
cctatactgtcagcaccaggacccactaaacttactgtaggaaattggtcactgacatgt
ttgaaagaaggagaaattgctattcataattcagatggtcagcaagctacaatattgaaa
gaagatttacctggttttgtatttgaatctaatagaggaaccaaacattcatttactgca
gaaacttccctgggttcagaatttgtgactggctggactggcaaaagaggcagaaaactg
aaatctaagttagaaaaaacaaagcaaaaggtacgaactatggctcgagatttatacgat
gaccattttaaagctgttgaaagcatgcctcgtggagtagtggtaacactcagaaacata
gcaactcagttagagtcatcttgggaacttcatacaaatagacaatgtattgagagtgag
aacacttggagagatttaatgaagacagctttagaaaacctaattgtacttttgaaggat
gaaaacacaatttcaccatatgaaatgtgtagcagtggcttggtacaagcacttcttact
gtgttaaacaatagcatggatttggatatgaaacaagattgtagtcaactggtagaaaga
ataaatgtttttaaaactgcctttagtgaaaatgaagatgatgaaagtcgaccagcagtt
gcgttaattcgaaagttaatagctgtactagaatctattgaacgtctacctctccatttg
tatgatacaccaggatccacatataacctccagatacttacaaggagattacgatttcgg
ttggaacgtgcacctggtgaaactgcattgattgacaggactggcagaatgttgaagatg
gaacctttggctacagttgaatctctggaacagtaccttttgaaaatggtagcaaaacag
tggtatgattttgaccgatcttcatttgtttttgttcgaaaattaagagaaggacaaaat
tttatatttcggcaccagcatgattttgatgaaaatggaatcatttactggattggaaca
aatgcaaaaactgcttatgaatgggtaaatccagctgcctatggacttgtagtagtaacg
tcatcagaaggaagaaatctaccttatggccgcttagaagacatactaagtcgtgataat
tcagctttaaattgtcatagcaatgatgataagaatgcctggtttgccatagatctgggt
ctctgggtgataccatcagcatatacacttcgtcatgctcgtggttatggaaggtctgca
ctgagaaattgggttttccaggtatccaaagatggacagaactggacttctttgtatacc
catgttgatgactgcagtctcaatgaaccagggtcaactgcaacttggcctcttgatcca
ccaaaggatgagaaacaagggtggagacatgtgagaattaaacagatggggaaaaatgcc
agtggacaaacacactacctctcattatctggattcgaactttatggcactgtaaatgga
gtatgtgaagatcagctagggaaagcagctaaagaagcagaagctaatcttagacggcag
agacgtctagtacgttcccaggttctgaaatacatggttccaggagctcgtgttatcaga
ggcctggattggaaatggcgagatcaggatggcagcccacagggagaaggcactgtcaca
ggagaactacacaatggctggattgatgtcacctgggatgctggtggctcaaactcttac
cgtatgggcgcagaaggaaaatttgacctcaagcttgcaccagggtacgaccctgataca
gtggcatcacccaaacctgtttcatccactgtttcaggcacaacgcaatcatggagcagc
ttggtgaaaaacaactgtccagacaagacatctgctgctgcaggctcctcaagtagaaaa
ggaagcagcagttctgtgtgtagcgtggccagtagcagcgacatcagcttgggttcgacc
aaaacggaacggagatcagaaattgtaatggaacacagtatagtttcaggagctgatgtc
catgaaccaattgttgttctttcatctgctgaaaacgtccctcaaacagaagtagggtca
tcttccagtgcaagcaccagcaccttaacagcggaaacgggaagtgaaaatgctgaaagg
aagttaggccctgatagttctgttcgtactcctggggagtctagtgcaatatccatggga
attgtcagtgttagttctcctgatgttagttcagtatctgaattaactaataaagaagca
gcttcacaacgacctcttagctcttcagcaagtaacagactgtcagtgagttctttgttg
gctgctggggcccctatgagctctagtgcaagtgtacctaacctgtcctcaagagaaaca
tctagcttggagagttttgtaaggagagtggcaaacatagcacggactaatgccacgaac
aacatgaatctaagccgaagcagcagtgataacaacactaatactttggggaggaatgtg
atgagcacagcaacttctcctcttatgggtgctcagagtttccctaatttgaccacacct
ggtactacatcaacagtgactatgtcaacatccagtgttactagcagcagcaatgtagct
acagcaacaacagttttatcagttggtcaatctttaagtaacactttaaccaccagcctc
acatcaacttccagtgagagtgacacaggtcaggaagcagaatattccttatatgatttc
cttgatagctgccgtgccagtactctattggctgagctcgatgatgatgaggacttacct
gagccagatgaagaagatgatgagaatgaagatgacaatcaggaggaccaagaatacgag
gaggttatgattctgagacgcccatccctgcaacgtcgagctggctcccgctctgatgta
acgcatcatgctgttacctcgcagctaccacaggtacctgctggagcagggagccgacct
attggggagcaggaagaagaagagtacgaaactaaaggaggacgccggagaacatgggat
gatgattatgtgctaaagagacagttttctgcattggttcctgcttttgatcctagacct
ggtcgtactaatgtccagcagacaactgatctagaaataccacccccagggacccctcat
tcagagctcttggaagaagtcgaatgtactccgtcacctcgattagctctcactttgaaa
gtaacaggtcttggaacgactcgtgaagttgaattaccactcaccaatttcagatcaacc
atcttttactatgtacaaaaattgcttcaattgtcctgtaatggcaatgtgaaatcagat
aaacttaggcgtatttgggagcccacatacacaatcatgtacagagaaatgaaggattct
gataaagaaaaggaaaatggaaaaatgggttgctggtctatagagcatgtggagcagtac
cttggcactgatgaattaccaaagaatgacttgataacctacctgcagaagaatgcagac
gctgctttcctgcgccactggaaattaactggcactaataaaagtattaggaaaaacaga
aattgttctcagctcatagctgcatataaggatttttgtgagcatggaacaaagtctggg
ttaaaccagggggccatttctactcttcaaagtagtgatattcttaatttaacaaaagaa
caacctcaggccaaagcaggcaatggacagaactcttgtggagtagaagatgtccttcag
cttctgcgtattctatatatagttgcaagtgacccttattcaagaatatcccaggaagat
ggtgatgaacagcctcagtttacttttccaccagatgaattcactagcaaaaaaattaca
acaaaaatattacagcagattgaggaaccattggcactggcaagtggggctctgccagac
tggtgtgaacaattaaccagcaaatgtccttttctaataccatttgaaactagacagctt
tatttcacatgtacagcatttggcgcctcaagagcaatagtatggttacagaaccgacgt
gaagccactgtggagcgaacgagaaccacaagcagtgttaggcgagatgaccctggagag
tttcgagttggtcgtctcaagcatgaaagagtaaaagttccacgtggcgagtcactgatg
gaatgggctgagaatgtcatgcaaatacatgcagatcggaaatcagttcttgaggttgaa
tttttaggagaagaaggaactggcttgggacccacattagagttttatgctctggtggca
gcagaattccagagaactgacttgggagcttggctttgtgatgataattttccagatgat
gaatctcgtcacgttgatcttggaggtggattgaaacctcctggatattatgtgcagagg
tcatgtggactgttcacagcaccatttccacaggatagtgatgagcttgaaaggatcacg
aaactgtttcatttccttggaattttcttggccaaatgcattcaagacaatagacttgtg
gacttacctatttctaaacctttttttaaacttatgtgtatgggtgacattaaaagcaat
atgagtaaactgatttatgagtcacgaggtgatagagacttacactgtactgaaagtcag
tctgaagcttctacagaagaaggtcatgattcactctcggtaggaagctttgaagaggat
tcaaaatcagaatttattcttgatccccctaaaccaaaacccccagcttggtttaatgga
attttgacttgggaagactttgaattagtaaacccacacagagccagatttttaaaagaa
attaaagaccttgctatcaagaggcgccaaattttaagcaacaaaggtctttctgaagat
gagaagaacacaaaattacaggaactagtgctgaagaatccatcaggttctgggcctcca
cttagcatagaggatttaggtttaaatttccagttttgcccttcctcaagaatatatggt
tttacagctgtggatctcaagccaagtggtgaagatgagatgataacaatggataatgca
gaagaatatgtggatttgatgtttgacttttgtatgcatacgggtattcagaaacaaatg
gaagcctttagagatgggtttaataaagtttttccaatggagaaattaagttccttcagc
catgaagaagtccaaatgattctttgtggaaaccagtcaccatcctgggcagcagaggat
attatcaattacactgaacctaagctgggttatacacgtgacagccctggtttcctgagg
tttgtgagggttttatgtggcatgtcttctgatgaaaggaaagcattcttgcagtttacc
actggttgttcaactctacccccaggtggactggctaacctgcatcccaggctcacggtt
gtacgcaaggttgatgctactgatgcaagctatccatcagtcaatacatgtgtgcattac
cttaagttgcctgaatattcttccgaggagatcatgagagagcgcctgctagctgctaca
atggagaaaggctttcatctcaattga

>gi568815584r:31000933_31305936|GENSCAN_predicted_peptide_6|143_aa
MVYGASEAIGQHQSSAAKPRRSQSESLGPEFQGLWEWLPGSRAVKHLRVIFDEKEPKRYL
IWDKEKGALTLTMPLAPATFLRVNCWAGGGGLVTERNCKPDQKMKGIEIKRRERLKCGSK
IERRKRLRDSEGGWRRVEAAYRI

>gi568815584r:31000933_31305936|GENSCAN_predicted_CDS_6|432_bp
atggtctacggggcttccgaggcgatcgggcagcatcagtcttcagccgctaagccgaga
aggagtcagtcagagagccttgggccagagttccagggactctgggagtggctgccaggg
tctagggctgtgaagcatctcagggttatatttgatgaaaaagagcctaaacgctatctg
atttgggataaagaaaaaggagcattaaccttgactatgcctttggctccagccaccttt
ttaagagtaaattgctgggcaggtgggggagggctagtcacggaacgaaactgtaagccc
gaccagaaaatgaaaggaattgaaattaagagaagggagagattgaagtgtggctccaag
attgaaaggagaaagaggttgagggatagtgagggaggttggagaagagtagaggccgct
taccggatttga

>gi568815584r:31000933_31305936|GENSCAN_predicted_peptide_7|482_aa
XDDGAAEKETLPEFGEGKDTGGLVPGKSLVFATLELCVCILVRQLPELNPKLTGSPGVKA
TKPQILLEDGSRLVSAALVILSELPAVCSPEGSISILPTILYLTIGVLRETAVKLPGGQL
SSTVAASLQALKGILSSPMARAEKSRTAWTDLLRSALTTILDCWDPEHFSLVDETHQELD
EVSLLTAITVFILSTSPEVTTIPCLQKRCIDKFKATLEIKDPVVQIKTYQLLHSIFQYPN
PAVSYPYIYSLASCIMEKLQEIDKRKPENTAELEIFQEGIKVLETLVTVAEEHHLVSSTR
NTSSRSLFKHKSSLKIDFLNYGNAFVSVVNRSILSSAISHARVKSSHSTRSSLVTCKAKE
VSSCNTGKQSFRPKKNLPRTLETPQGKQNTPKGMSDDFVLNSLKGFKLLEAFSRFSDTTG
GKEGRRFYSRHAVYALGECGLSHREGVEWLYAKKLEASCLLTCDSHGMLQDLIPNISQEE
IS

>gi568815584r:31000933_31305936|GENSCAN_predicted_CDS_7|1449_bp
nttgatgatggggctgctgaaaaggaaactctgccagagtttggagagggaaaggacacc
ggaggacttgtgcctggaaagtctttggtctttgcaacactggaattgtgtgtatgcatt
ctagttagacagctcccagaattaaaccctaaattgacaggtagcccaggagtaaaagct
acgaagccacagatactattagaagatggaagtagattggtttcagctgcattggttatc
ctttccgaacttcctgcagtgtgctctcctgaaggaagcatctcaattctccctactata
ttgtacctcacaatcggggtcctcagagagactgctgtgaagttacctgggggccagtta
tcttcgacagttgcagcttccctacaggctctaaaaggaatattatcttctcccatggcc
cgggcagaaaagagccgtactgcttggactgaccttctccgaagtgccttaacaacaatt
cttgactgttgggatccagagcatttctctttagttgatgaaacacaccaagaacttgat
gaagtcagtctacttactgctatcacagtgtttattttgtctaccagtccagaagtaact
accatcccatgccttcagaagcgctgtattgataaatttaaagctactcttgagataaaa
gatcctgtggtacaaatcaagacctaccagctcctacattccatctttcagtatccaaat
ccagctgtttcctacccatacatttactctttagcatcctgtatcatggaaaaactgcag
gaaatagacaagagaaaacctgaaaacactgctgagcttgagatcttccaagaaggcata
aaggtcttagaaacactggttactgttgctgaagaacaccatctggtgtcaagtactaga
aacacatcatctagatctttgtttaaacacaaaagctccttaaaaatagattttctaaat
tatggaaatgcttttgtttcagtggtcaacagatcaattctctcatctgccatttcacat
gccagggtcaaatcctctcacagtacaaggtcatctctggttacctgcaaagccaaagag
gtcagctcatgtaatacaggaaaacagagctttagacctaagaagaatctgcccaggact
cttgaaacaccacaaggaaaacagaacaccccaaaagggatgagtgatgactttgttctg
aattctttaaaggggttcaagttattagaagccttctctagattttctgatactacaggt
ggcaaagagggaaggaggttctactcaaggcatgctgtgtatgctctcggagagtgtgga
ctgagtcacagggagggagtggagtggctgtatgcaaagaagctggaggcatcctgcctc
ctgacctgtgactcacatgggatgctgcaggacctcattcctaacatctcacaggaagag
atcagctga