GENSCAN 1.0	Date run:  3-Nov-116	Time: 10:52:46

Sequence gi568815587r:129802316_130047406 : 245091 bp : 44.12% 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 +  13773  13936  164  2  2   73   93   102 0.336   7.02
 1.02 Intr +  26050  26201  152  1  2   69   69    71 0.036   3.11
 1.03 Intr +  50160  50345  186  1  0   92   99   155 0.909  16.66
 1.04 Intr +  52295  52501  207  0  0  117   86    56 0.972   7.35
 1.05 Intr +  53393  53577  185  0  2   65   60   157 0.998  10.11
 1.06 Intr +  54998  55143  146  1  2   68   84   192 0.939  15.88
 1.07 Term +  56259  56370  112  0  1   59   52   107 0.916   2.23
 1.08 PlyA +  61473  61478    6                               1.05

 2.49 PlyA -  61486  61481    6                               1.05
 2.48 Term -  62535  62410  126  0  0  116   38    20 0.713  -1.92
 2.47 Intr -  62786  62651  136  1  1  107  110   144 0.974  19.07
 2.46 Intr -  63668  63562  107  2  2  109  108   105 0.998  13.61
 2.45 Intr -  67946  67179  768  2  0  101   68   689 0.971  59.87
 2.44 Intr -  70781  70569  213  2  0   62   96   187 0.976  15.81
 2.43 Intr -  71700  71430  271  2  1   78   97    34 0.311   0.84
 2.42 Intr -  72018  71798  221  0  2   99   98    42 0.722   3.40
 2.41 Intr -  72265  72186   80  2  2  104  103    60 0.993   8.37
 2.40 Intr -  72601  72478  124  1  1  100   62   195 0.997  18.26
 2.39 Intr -  73148  73042  107  0  2   59   91    92 0.821   6.53
 2.38 Intr -  74580  74406  175  0  1   84   74   246 0.999  22.31
 2.37 Intr -  75070  75010   61  0  1   73  110    26 0.554   2.04
 2.36 Intr -  76040  75994   47  2  2   88   59    45 0.547  -1.19
 2.35 Intr -  76228  76149   80  2  2  102   95    24 0.970   3.77
 2.34 Intr -  79193  79128   66  0  0   80  111     0 0.553   0.38
 2.33 Intr -  79538  79412  127  2  1   98   94   128 0.998  14.65
 2.32 Intr -  79879  79771  109  0  1   82  103     9 0.909   2.09
 2.31 Intr -  80316  80136  181  1  1   91   89   158 0.999  15.13
 2.30 Intr -  80891  80807   85  2  1   55   99    88 0.999   5.99
 2.29 Intr -  81631  81485  147  1  0   47   50   125 0.891   5.03
 2.28 Intr -  81828  81755   74  1  2   69   63   111 0.916   5.83
 2.27 Intr -  82567  82358  210  2  0    4   90   141 0.505   4.78
 2.26 Intr -  83294  83120  175  2  1   80   96   155 0.818  15.01
 2.25 Intr -  84129  84002  128  1  2   68   84   232 0.999  21.20
 2.24 Intr -  86480  86279  202  2  1   79   68   153 0.931  11.26
 2.23 Intr -  90573  90400  174  0  0   43   76   127 0.256   7.14
 2.22 Intr -  93547  93452   96  1  0    7   94    74 0.031   0.11
 2.21 Intr - 100201 100019  183  1  0  107  -19   196 0.014  10.78
 2.20 Intr - 103426 103323  104  2  2   79  111    60 0.952   7.29
 2.19 Intr - 108341 108161  181  2  1  132   87   116 0.949  15.34
 2.18 Intr - 109910 109770  141  2  0  117   80   106 0.903  13.25
 2.17 Intr - 112703 112389  315  2  0  102    9   255 0.840  15.26
 2.16 Intr - 113545 113345  201  1  0   60   97   229 0.989  20.48
 2.15 Intr - 114922 114812  111  1  0  135   93    55 0.998  11.28
 2.14 Intr - 116403 116224  180  0  0   34   65   307 0.933  23.06
 2.13 Intr - 121088 120933  156  2  0   89   86   199 0.993  20.01
 2.12 Intr - 122914 122567  348  1  0  100  109   267 0.958  25.55
 2.11 Intr - 128943 128701  243  0  0   58   91   276 0.569  22.59
 2.10 Intr - 129916 129787  130  0  1  105   96    86 0.999  11.80
 2.09 Intr - 132903 132786  118  1  1   65   91   125 0.993  10.02
 2.08 Intr - 135355 135283   73  1  1  105   32    85 0.662   3.58
 2.07 Intr - 140314 140111  204  1  0   92   87   182 0.998  17.90
 2.06 Intr - 142697 142456  242  0  2  109   86   177 0.996  16.87
 2.05 Intr - 145118 144830  289  2  1   61   75   419 0.604  34.72
 2.04 Intr - 153256 153197   60  1  0   84   97    42 0.849   3.63
 2.03 Intr - 155595 155446  150  0  0   86    1   232 0.894  14.66
 2.02 Intr - 158684 158581  104  0  2  102   72   117 0.941  11.39
 2.01 Init - 169633 169309  325  1  1   97   44   160 0.271   8.40
 2.00 Prom - 176803 176764   40                              -2.06

 3.00 Prom + 179108 179147   40                              -4.96
 3.01 Init + 183059 183174  116  1  2   63   93    66 0.107   4.28
 3.02 Intr + 199822 199973  152  1  2   60   69    55 0.377   0.61
 3.03 Term + 201325 201440  116  2  2   78   37   109 0.908   3.53
 3.04 PlyA + 203141 203146    6                               1.05

 4.02 PlyA - 203202 203197    6                               1.05
 4.01 Sngl - 230986 230549  438  1  0   77   49   841 0.680  73.36
 4.00 Prom - 232447 232408   40                              -3.76

 5.06 PlyA - 232693 232688    6                               1.05
 5.05 Term - 238231 238037  195  1  0   87   33   113 0.802   3.11
 5.04 Intr - 238726 238388  339  1  0   43   78   119 0.456   2.07
 5.03 Intr - 239811 239724   88  2  1    8  115   105 0.530   5.17
 5.02 Intr - 240026 239887  140  2  2   94   60    14 0.461  -1.54
 5.01 Intr - 240374 240208  167  0  2   73   99   113 0.482  10.58

Suboptimal exons with probability > 0.800

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

S.001 Term - 100201  99998  204  1  0  107   38   211 0.986  15.37
S.002 Sngl + 181513 181713  201  0  0   90   43   130 0.802   3.88


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815587r:129802316_130047406|GENSCAN_predicted_peptide_1|383_aa
MEGPGVAEAQLGPPPGCGTGAHTTPTAPECLCPAGRGPGTNIAQSPASQVCRVARTSHTG
NNNDGSSCQILKTGIDSGPPQAPEPTVEQGRDLVEVQDCGHSHTTCVLMANFKGHALPGS
FFLIIGLCWSVKYPLKYFSHTRKNSPLHYYQRLEIVEAAIRTLFSVTGILAEQFVPDGPH
LHLYHENHWIKLMNWQHSTMYLFFAVSGIVDMLTYLVSHVPLGVDRLVMAVAVFMEGFLF
YYHVHNRPPLDQHIHSLLLYALFGGCVSISLEVIFRDHIVLELFRTSLIILQGTWFWQIG
FVLFPPFGTPEWDQKDDANLMFITMCFCWHYLAALSIVAVNYSLVYCLLTRMKRHGRGEI
IGIQKLNSDDTYQTALLSGSDEE

>gi568815587r:129802316_130047406|GENSCAN_predicted_CDS_1|1152_bp
atggagggccctggtgtcgcggaagcccagctggggccccctccgggctgcggaaccggt
gcgcacactactcccaccgcccccgagtgcctctgtccggctggccgcggccctggaacg
aatattgctcagtcccccgcgagtcaggtctgccgcgttgcccgaacctcccacacagga
aataacaatgatggcagtagctgtcaaattctaaagacggggatagactctggacctcct
caggcccctgagcccactgtagagcagggacgtgacttagttgaagttcaggactgcggc
cacagtcacaccacctgtgtcctgatggcaaatttcaagggccacgcgcttccagggagt
ttcttcctgatcattgggctgtgttggtcagtgaagtacccgctgaagtactttagccac
acgcggaagaacagcccactacattactatcagcgtctcgagatcgtcgaagccgcaatt
aggactttgttttccgtcactgggatcctggcagagcagtttgttccggatgggccccac
ctgcacctctaccatgagaaccactggataaagttaatgaattggcagcacagcaccatg
tacctattctttgcagtctcaggaattgttgacatgctcacctatctggtcagccacgtt
cccttgggggtggacagactggttatggctgtggcagtattcatggaaggtttcctcttc
tactaccacgtccacaaccggcctccgctggaccagcacatccactcactcctgctgtat
gctctgttcggagggtgtgttagtatctccctagaggtgatcttccgggaccacattgtg
ctggaacttttccgaaccagtctcatcattcttcagggaacctggttctggcagattggg
tttgtgctgttcccaccttttggaacacccgaatgggaccagaaggatgatgccaacctc
atgttcatcaccatgtgcttctgctggcactacctggctgccctcagcattgtggccgtc
aactattctcttgtttactgccttttgactcggatgaagagacacggaaggggagaaatc
attggaattcagaagctgaattcagatgacacttaccagaccgccctcttgagtggctca
gatgaggaatga

>gi568815587r:129802316_130047406|GENSCAN_predicted_peptide_2|2715_aa
MPEPPTPSVGSCAAQASPTSAAPCSTAPSPIDHPRAEECERTARDWQAAPPAAPVRDPLG
EASWAPESGGDVESLYVYLRDCKHTNQHPMSSSGFVSAPNRHSVSSCSGVPDVELSSWEK
MDSKDESSHVWPTSAEHEQNAAQVHFVPDTGTVAQIVYTDDQVRPPQQVVYTADGASYTS
VDGPEHTLVYIHPTLFTDPGQVAYVQQDATAQQAPANQKQVSMSAYSVPSTFAQASLPVH
NQVLPSIESVDGSDPLATLQTPLGRLEAKEEEDEDEDEDTEEDEEEDGEDTDLDDWEPDP
PRPFDPHDLWCEECNNAHASVCPKHGPLHPIPNRPVLTRARASLPLVLYIDRFLGGVFSK
RRIPKRTQFGPVEGPLVRGSELKDCYIHLKVSLDKGDRKERDLHEDLWFELSDETLCNWM
MFVRPAQNHLEQNLVAYQYGHHVYYTTIKNVEPKQELKVWYAASYAEFVNQKIHDISEEE
RKVLREQEKNWPCYECNRRFISSEQLQQHLNSHDEKLDVFSRTRGRGRGRGKRRFGPGRR
PGRPPKFIRLEITSENGEKSDDGTQDLLHFPTKEQFDEAEPATLNGLDQPEQTTIPIPQL
PQETQSSLEHEPETHTLHLQPQHEESVVPTQSTLTADDMRRAKRIRNAALQHLFIRKSFR
PFKCLQCGKAFREKDKLDQHLRFHGREGNCPLTCDLCNKGFISSTSLESHMKLHSDQKTY
SCIFCPESFDRLDLLKDHVAIHINDGYFTCPTCKKRFPDFIQVKKHVRSFHSEKIYQCTE
CDKAFCRPDKLRLHMLRHSDRKDFLCSTCGKQFKRKDKLREHMQRMHNPEREAKKADRIS
RSKTFKPRITSTDYDSFTFKCRLCMMGFRRRGMLVNHLSKRHPDMKIEEVPELTLPIIKP
NRDYFCQYCDKVYKSASKRKAHILKNHPGAELPPSIRKLRPAGPGEPDPMLSTHTQLTGT
IATPPVCCPHCSKQYSSKTKMVQHIRKKHPEFAQLSNTIHTPLTTAVISATPAVLTTDSA
TGETVVTTDLLTQAMTELSQTLTTDYRTPQGDYQRIQYIPVSQSASGLQQPQHIQLQVVQ
VASATSPHQSQQSTVDVGQLHDPQPYPQHAIQVQHIQVSEPTASAPSSAQVSGQPLSPSA
QQAQQGLSPSHIQGSSSTQGQALQQQQQQQQNSSVQHTYLPSAWNSFRGYSSEIQMMTLP
PGQFVITDSGVATPVTTGQVKAVTSGHYVLSESQSELEEKQTSALSGGVQVEPPAHSDSL
DPQTNSQQQTTQYIITTTTNGNGSSELIDVPSLTGYGTLIRGQAKTGTVWGLWKLLNQMH
VFVQSTCGEETMDSLDHMLTDPLELGPCGDGHGTRIMEDCLLGGTRVSLPEDLLEDPEIF
FDVVSLSTWQEVLSDSQREHLQQFLPQFPEDSAEQQNELILALFSGENFRFGNPLHIAQK
LFRDGHFNPEVVKYRQLCFKSQYKRYLNSQQQYFHRLLKQILASRSDLLEMARRSGPALP
FRQKRPSPSRTPEEREWRTQQRYLKVLREVKEECGDTALSSDEEATLDLQEQFSFEDLSS
WLPSSPARSPSPAVPLRVVPTLSTTDMKTAGENQAAAVTILGHCGGDLKTPLEGDKVELG
DSDLKIMLKKHHEKRKHQPEQLARLASINDVRHGGFDFAGPAECSVCLNRYSDTVEYRNR
LHLSSAQEDHPDLLTGDLTLNDIMTRVNAGRKGSLAALYDLAVLKKKVKEKEEKKKKKIK
TIKSEAEDLAEPLSSTEGVAPLSQAPSPLAIPAIKEEPLEDLKPCLGINEISSSFFSLLL
EILLLESQASLPMLEERVLDWQSSPASSLNSWFSAAPNWAELVLPALQYLAGESRAVPSS
FSPFVEFKEKTQQWKLLGQSQDNEKELAALFQLWLETKDQAFCKQENEDSSDATTPVPRV
RTDYVVRPSTGEEKRVFQEQERYRYSQPHKAFTFRMHGFESVVGPVKGVFDKETSLNKAR
EHSLLRSDRPAYVTILSLVRDAAARLPNGEGTRAEICELLKDSQFLAPDVTSTQVNTVVS
GALDRLHYEKDPCVKYDIGRKLWIYLHRDRSEEEFERIHQAQAAAAKARKALQQKPKPPS
KVKSSSKESSIKVLSSGPSEQSQMSLSDSSMPPTPVTPVTPTTPALPAIPISPPPVSAVN
KSGPSTVSEPAKSSSGVLLVSSPTMPHLGTMLSPASSQTAPSSQAAARVVSHSGSAGLSQ
VRVVAQPSLPAVPQQSGGPAQTLPQMPAGPQIRVPATATQTKVVPQTVMATVPVKAQTTA
ATVQRPGPGQTGLTVTSLPATASPVSKPATSSPGTSAPSASTAAVIQNVTGQNIIKQVAI
TGQLGVKPQTGNSIPLTATNFRIQGKDVLRLPPSSITTDAKGQTVLRITPDMMATLAKSQ
VTTVKLTQDLFGTGGNTTGKGISATLHVTSNPVHAADSPAKASSASAPSSTPTGTTVVKV
TPDLKPTEASSSAFRLMPALGVSVADQKGKSTVASSEAKPAATIRIVQGLGVMPPKAGQT
ITVATHAKQGASVASGSGTVHTSAVSLPSMNAAVSKTVAVASGAASTPISISTGAPTVRQ
VPVSTTVVSTSQAGKLPTRITVPLSVISQPMKGKSVVTAPIIKGNLGANLSGLGRNIILT
TMPAGTKLIAGNKPVSFLTAQQLQQLQQQGQATQVRIQTVPASHLQQGTASGSSKAVSTV
VVTTAPSPKQAPEQQ

>gi568815587r:129802316_130047406|GENSCAN_predicted_CDS_2|8148_bp
atgcctgagcctcccaccccctccgtgggttcctgtgcagcccaagcctccccgacgagc
gccgccccctgctctacggcacccagtcccatcgaccacccaagggctgaggaatgcgag
cgcacggcacgggactggcaggcagctccacctgcagccccggtgcgggatccactgggt
gaagccagctgggctcctgagtctggtggggacgtggagagtctttatgtctacctcagg
gattgtaaacacaccaatcagcaccctatgtctagctcagggtttgtgagtgcacccaat
cgacactctgtatctagctgctctggtgtgccagacgtggagctgtccagttgggagaag
atggattccaaagatgaaagctcgcatgtgtggccgacatctgcagagcatgaacagaat
gccgcacaggtgcactttgttccggacacaggaacagtggctcagattgtctataccgat
gaccaggttcgccccccacagcaggtggtgtacacggcagatggtgcctcctacacatca
gtggatggtccagagcacacgctggtgtacatccacccgactctgtttacagaccccggc
caggtagcttatgtccaacaggatgctacagctcagcaggcaccagcgaaccaaaagcag
gtgtccatgtctgcttactctgtgccttcaacttttgcccaggcctcattgccagttcat
aaccaggtgctgccttccatcgagagtgtagatgggtccgaccctttggcaactctgcag
acccctctaggcagactggaggccaaagaggaagaggatgaggatgaggacgaggacact
gaggaagatgaggaagaagacggtgaggacacggatctggatgactgggagccagacccg
ccccggcccttcgacccacacgacttgtggtgtgaggagtgcaataacgcgcatgcttca
gtgtgtccgaagcacggccccttgcacccgatccccaaccggccggtgctcacccgggcc
agggcgagcctccccctggtgctctacatagacaggtttctgggcggggtgttctccaag
cggcgcatccccaagcgcacccagtttggccccgtggaggggcctctcgtcaggggctcg
gagctgaaagactgttacattcacctcaaggtttctcttgataaaggggacaggaaagaa
agggatttacatgaagacctatggtttgagttgtctgatgagacgctttgtaactggatg
atgtttgtacggccagcccagaatcacctggagcagaacctggtggcttaccagtatggc
caccatgtgtattatacaaccataaaaaatgtggagcccaagcaggaactgaaggtgtgg
tatgccgcatcctatgctgagttcgtgaaccagaaaattcatgacatttctgaggaagaa
aggaaagttcttcgagagcaagagaagaattggccctgctatgaatgtaaccgccgattt
ataagctcggagcagttgcaacagcatctcaattctcatgatgagaaactagatgtgttt
agcagaacaagaggcagaggaaggggacgaggcaagaggcgattcggtccaggtcgacgg
ccggggcgtcctccaaaatttatccgcctggaaatcaccagcgaaaatggggaaaagagt
gacgatgggacacaggacttgctacattttcccacaaaggagcaatttgatgaggctgaa
ccagccactctgaatgggctggatcaaccagaacagaccactatcccaatccctcagctg
ccacaggaaacccagtcttccctggaacatgaaccagaaactcacaccctgcacctgcag
ccgcagcatgaagagagcgtggtgcccacccagagcacgctgacagccgacgacatgcgc
agagccaagcgcatccgaaatgcagctcttcagcatctgtttattcggaagtccttccgg
ccttttaaatgcttgcagtgtgggaaggccttccgggaaaaggacaaactggaccagcac
ttacgcttccatgggcgggaggggaactgcccactgacctgtgatctctgtaacaagggc
ttcatcagcagcacatccttggagagccacatgaagctccactcagaccagaagacttac
tcttgcattttttgcccagaatcctttgaccgccttgatttgttgaaagatcatgtggcc
attcatatcaatgatggctacttcacctgcccaacttgtaagaaacggttcccagatttt
atccaggtgaaaaaacacgtgcgcagcttccactcagaaaagatctaccagtgcacagag
tgtgacaaggccttctgtcgccccgataaactgcgactccacatgctccggcattcggac
cgcaaagacttcctgtgttccacctgtgggaagcaatttaagcgaaaagacaaactacgg
gaacacatgcagaggatgcataatcctgagagggaggccaagaaagccgaccgcatcagc
cgctccaagacgttcaagccccgcatcacgtccacagactacgacagcttcacgttcaag
tgccgcctgtgcatgatgggcttccggcggcgcggcatgctggtaaatcacttatcgaag
agacacccagacatgaagatagaagaggtgccagagttaactctacccatcataaaaccc
aatcgtgattacttttgtcagtattgcgataaggtttataaaagtgccagcaagcgcaaa
gcccacattctgaagaaccacccaggagcagagctcccaccgagcattcggaagctccga
cccgctggtcctggagagccagaccccatgctgagcacacacacccagctgacgggcacc
atcgccacccctcccgtctgctgtccccactgctccaagcagtacagcagcaagaccaag
atggtccagcacattcgaaagaagcatccagagttcgcccagctctccaacaccatacac
acaccactgacgacagctgtgatcagtgccaccccagcggttttgactacagacagcgcc
actggagagactgtggtgacgacggacctgctcacccaagcaatgacagaactgtcccag
accttaacgacagactaccgaacgccacaaggggattaccagagaattcagtacatccct
gtgtcgcagtcggcgtctggcctccagcagcctcagcacatacagctgcaagtggttcaa
gtggcctcggccacttcccctcaccagtcacagcagtccactgtggatgttggccagctc
catgatcctcagccctacccccagcacgccatccaggtgcagcacatccaggtcagcgag
cctaccgcctcggccccgtcctccgcccaggtatctgggcagccgttgagtccctcagcc
cagcaggctcagcaggggctcagcccctcccacatccagggcagttcttccacacagggg
caggctctgcagcagcagcagcagcagcagcagaattcctctgtgcagcacacgtacctg
cccagtgcttggaattccttccgtggctattcatctgagattcaaatgatgacgcttcct
ccgggtcagtttgtgattacagacagtggtgtggcaactccagttactactggccaggtg
aaggcggttacttcgggtcattatgtgttatcagaaagtcaatcagaattggaagaaaag
caaacttctgccctctctggtggagtccaggtcgagccacctgcacacagtgactccctg
gacccccagaccaacagccaacagcagaccacacagtacatcatcaccaccaccaccaac
gggaacggaagcagcgaactaatagacgtgccttcgctcacgggctatggaactttgatt
cgcggtcaggcaaagacaggcactgtctggggcctctggaagctcctaaatcagatgcat
gtctttgtccagagtacctgtggagaagaaacaatggattccttagaccatatgctgaca
gatcctctggaacttggtccgtgtggagatggccatggcacgcgcatcatggaggattgc
ctcctgggaggcaccagagttagtctgcccgaggaccttctggaggatcctgagatcttc
tttgatgttgtcagcctctcaacatggcaggaagtgttaagtgattctcaacgtgaacac
ctccagcagtttctgccccagtttcctgaagacagtgctgagcagcagaatgaactcatc
ttagccttgttcagtggggagaacttccgctttggaaaccctctgcacattgcccagaag
cttttccgagacggacactttaaccccgaggtggtcaagtaccggcagttatgcttcaag
tcacagtacaagcgctacctcaactcccagcagcagtatttccatcggctgctgaagcaa
attcttgcttcccggagtgatctgctggagatggcccggcggagtggccccgcccttccc
ttccggcagaaacgcccttcaccatcccgcacacctgaggagcgggagtggcggacccag
cagcgctacttgaaggtcttaagggaagtgaaagaggagtgtggtgacacagccctgtca
tctgatgaagaggccacgttggatttacaagaacaattttcttttgaagatctcagctca
tggcttccgagctctccagcacgttctcctagtcctgcggtgcccctgcgggtggtgccc
acactttcaaccacggatatgaaaactgcaggtgagaaccaagctgccgctgtcaccatt
ctgggacattgcggtggagacctgaaaactcctttagagggagataaagtagaactgggg
gacagtgacctgaagataatgttaaagaagcaccacgagaagcggaaacatcagccagag
cagctggcgaggctagctagcatcaacgatgtgaggcacggtggctttgacttcgcaggg
cctgctgaatgtagtgtctgccttaatcgttacagtgacactgtcgagtataggaatcgt
ctccacctcagcagtgctcaagaggatcacccggaccttttgacaggggacctgactctc
aatgacatcatgactcgagtaaatgctggcaggaagggctctctggcagccttatatgac
ttggctgtccttaaaaaaaaggttaaggaaaaagaggaaaagaagaagaagaaaataaaa
acgatcaaatcagaggcagaggacctggccgagccgctaagcagtactgaaggggtcgca
cctctctcacaggccccctctccgctggcaattcctgctatcaaggaagagccccttgaa
gacctcaagccttgccttggaatcaatgaaatatcttccagcttcttctctcttctatta
gagatcttgctgctggagagtcaggctagccttcctatgctagaggagcgagttttggat
tggcagtcatcgccagccagctccctcaacagctggttctctgcggcccccaactgggct
gagttggtactaccagccctgcagtatcttgctggagaaagtcgagctgttccttccagt
ttctctccatttgttgaattcaaagagaaaacccagcagtggaagttgcttggccaatcc
caagataatgaaaaggaattagctgccctcttccagctatggctagagaccaaagatcag
gccttctgtaagcaagaaaatgaagacagctcagatgccacaacacctgtccctcgggta
agaactgactatgtggtgcgtcccagcacgggggaggagaaacgggtttttcaggagcag
gagcgttacaggtatagccaaccccataaggcgttcacctttcgcatgcacggctttgag
tctgtggtggggccagtgaagggcgtgtttgacaaggagacctcgctcaacaaggctcgg
gagcactccctgctgcgctccgaccggcctgcctacgtcaccattctgtctcttgttcgg
gacgctgcggctcgactgcctaatggagaaggcacacgggcagagatctgtgaactgctt
aaggactcccagtttcttgcaccagatgtcaccagcactcaggtaaatacagtagtgagt
ggtgcactggatcggctacattacgaaaaagatccctgtgtgaaatacgacattggacga
aagctgtggatctacctgcatcgtgaccggagtgaagaagagtttgagcggattcaccaa
gcacaagcagctgcagctaaagccagaaaagctcttcagcaaaaacccaagcccccatcc
aaggtgaagtccagtagcaaggagagctccataaaggtccttagcagtggcccttctgag
cagagccagatgagcctcagtgactccagtatgccacccaccccagtcacacctgtaacc
cccaccacaccagcattgcccgccattcccatctcccctccacctgtatcggcagtgaac
aaaagcggcccttccacagtctcagaaccagctaagtctagctcgggtgttcttctggtg
tcttcaccaacaatgccacatctgggaacaatgctttccccagcttccagccagactgca
cccagttctcaggctgccgcccgggtcgtgagccactctggctctgctggactgtctcag
gtgcgagtggtggcccagcctagccttcctgctgttccccagcagtcgggagggccggca
cagacattgccacagatgccagcaggaccgcagatccgggttccagccactgccacacag
accaaagtagtgccccagacagtaatggccactgtgcccgtcaaagcgcagactacggca
gccactgtgcagcggcctggacccgggcagacagggctcacggtgacaagtctccctgcc
acagccagccctgtgagtaagccagccacgagttctcctgggacctctgctcccagtgcc
tccacggctgccgtcattcaaaatgtcacaggacagaacatcatcaagcaggtggcaatc
actgggcagcttggtgtgaagccccaaacaggcaacagcattccactcacagccactaac
ttccgcatccagggtaaggatgtattgcgtctgccgccctcttccatcaccacagatgcc
aagggccagacggttctgcgaatcactccggacatgatggccacattggccaagtcccag
gttaccacagtcaaattgacccaggacctcttcgggacaggaggcaacactacaggcaaa
ggcatctctgccaccttacacgtcacttccaatccagtacatgcagctgatagccctgcc
aaggccagttcagccagtgccccttcatccactccaacaggtaccactgtggtcaaagtg
actcctgacctcaagccaacagaagcctcaagttcggcttttcgcttgatgccagctctt
ggcgtgagtgtggctgaccagaagggaaaaagcacagtggcctcttcagaagcaaaacca
gctgccacgatccgcatcgtgcagggactgggagtgatgcctcccaaagcaggccagacc
atcaccgttgcaacccacgccaagcaaggggcctcggtggccagtgggtctggaactgtc
catacttcagcggtgtccttacccagtatgaatgctgctgtgtccaagactgtagctgtg
gcttctggggctgcaagcacccccatcagcatcagcacaggagcccccaccgtgcggcag
gtccctgtcagcaccacggttgtgtccacgtcccaggctgggaagttgcctacacggatc
acagttcccctctctgtgatcagccagccaatgaagggcaagagcgtggtcacagccccc
atcatcaaaggcaaccttggagccaacctcagtgggttgggccgcaacatcatcctcaca
actatgccagcaggcactaagctcattgctggcaataagcctgttagtttcctcactgct
cagcagttgcagcagcttcagcagcaaggtcaggccacacaggtgcgcatccagactgtc
cctgcatcccatctccaacagggaacagcttctggctcctccaaagcagtctccactgtt
gttgtgactacagctccgtctcctaaacaggcacctgagcaacaatga

>gi568815587r:129802316_130047406|GENSCAN_predicted_peptide_3|127_aa
MQLIDDMISYNTTVKGHGTQLLPSHTKSKPVFVNAKNALPAPGPQPPVLGSRPAETCPPR
PERPRNRRRRSAQAAQPPSRPNQRGQGRRGFHILLSLKIAFTKGSQEPSFGEIPSSNYPL
AGNTQGS

>gi568815587r:129802316_130047406|GENSCAN_predicted_CDS_3|384_bp
atgcaattgatagatgacatgatctcgtacaatacaactgtcaagggacatggaactcag
ctgctcccaagccacacaaaatcaaaaccagtctttgtgaatgcaaagaacgcactcccg
gcgcccggcccccagcccccggtgctcggctcccggccggcggagacctgcccgccgcgc
ccggagcgcccgcgcaaccgccgccgccggagcgcgcaggccgcccaaccgccgtcccgg
cccaaccaacgcgggcaggggaggagaggcttccacatcctgctgtcccttaaaattgcc
ttcacaaagggcagccaagagcccagctttggagagatacccagctccaactacccactg
gcaggcaatacgcagggcagctag

>gi568815587r:129802316_130047406|GENSCAN_predicted_peptide_4|145_aa
MPGGARAAGNGAERGRAGAARGEAATAMDVFLVIRRHKTTIFTDAKESSTVFELKRVVEG
ILKRPPDEQRLYKDYQLLDDGKTLGECGFTSQTARPQAPATVGLAFRAHDAFEALCIEPF
SSPPELLDVMKPQESGSSANEQAVQ

>gi568815587r:129802316_130047406|GENSCAN_predicted_CDS_4|438_bp
atgccgggcggcgcgcgggctgcagggaacggggcggagcgcggccgcgccggcgcagcg
aggggagaggcagcaaccgctatggacgtgttcctcgtgatccggcgccacaagaccacc
atcttcactgacgccaaggagtccagcacggtgttcgagctgaagcgcgtcgtggaggga
atcctcaagcggccgcccgacgagcagcggctgtacaaggactaccaactcttggatgat
ggcaagacactgggcgagtgtggcttcaccagccaaacggcacggccgcaggccccagcc
acagtggggctggccttccgggcacacgacgcctttgaggccctgtgcatcgagccgttc
tccagcccgcccgagctgctcgacgtgatgaagccccaggagtcgggaagcagtgccaat
gaacaagctgtgcagtga

>gi568815587r:129802316_130047406|GENSCAN_predicted_peptide_5|309_aa
XCEPRLSDYPILSNSPRPLTEPPRHATCHPTPTPIPSISSSASTDSDWMMMKPQEQRESK
PSLGNSIHPQTKTIWPSSCLFSLYTVQSCVAEQQDMSGKRIIRLYDTAYGSQATFLRVYR
TVLNTAGNCNTMGAASGDVSDPTAIWDEPLLSHMSSNSSESKVAKPSLRHLGLLAPGTCP
WPCTVMCSVFRGLVRTDLTTRPLRTWPRPRGLSTGTCRPVWSLQPQRRTRPCIEDDADGV
GKPWEVKDTRVGLGDTPQPPAEPRLGVQIRSCSSSNTGGAARGNAEVSRGAERKDPSIIL
RDHHRIRGL

>gi568815587r:129802316_130047406|GENSCAN_predicted_CDS_5|930_bp
ngctgcgagccgcgcctttcggactatcccattctcagcaattctcccaggcccctcact
gaacctccacgtcatgctacctgccacccgaccccaacccctatccccagcatctccagc
tccgcttccacggactctgactggatgatgatgaagccgcaggagcagagagagagcaag
ccttctttaggcaacagcatccatccacaaactaagaccatttggccttcctcgtgctta
ttttcactgtacactgtacagtcatgcgttgctgaacaacaggatatgtctgggaaacgc
atcatcaggctgtatgatacagcctatggttcccaggctaccttcctgcgtgtataccgc
acagtgctgaatactgcaggcaattgtaacacaatgggcgccgcgagtggggatgtatcg
gaccctacagccatctgggatgagccgcttctcagccacatgtcttcaaattcatccgaa
tcgaaggtggcaaagcccagtctccgacacctgggtcttctggcgccgggaacctgtcct
tggccctgcacagtcatgtgctccgtgttccgcggtttggtgcggacggacttgacaacc
cggcccctgcgaacctggccccggccgcgggggctttccacaggcacctgcaggcctgtc
tggagcctgcagccccagcgcaggacgagaccttgtattgaggatgacgcggacggggtg
gggaagccctgggaggtcaaagatacacgtgttggcctcggggacactccccagccccca
gcggaaccgaggcttggggtgcaaattcgttcttgcagttccagcaacaccgggggcgca
gcccgtggcaacgccgaggtctcccggggcgcagaaaggaaagacccctctataatctta
cgtgaccaccatcgcatacgcggcctgtag