GENSCAN 1.0	Date run:  8-Nov-116	Time: 00:43:49

Sequence gi568815579r:14699177_14900136 : 200960 bp : 43.91% 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 +   1976   2029   54  1  0   39  103    42 0.260   2.09
 1.02 Intr +   5878   5994  117  0  0   90  115    65 0.915  10.06
 1.03 Intr +   7510   7597   88  0  1  112  105    53 0.864   8.94
 1.04 Intr +  16206  16294   89  1  2  131   96    34 0.988   8.19
 1.05 Intr +  16936  17062  127  0  1   66   82   145 0.994  11.95
 1.06 Intr +  17818  17913   96  2  0   30   99    66 0.720   1.88
 1.07 Intr +  18481  18557   77  2  2   97   74    35 0.818   2.23
 1.08 Intr +  19052  19975  924  1  0   83   47   837 0.162  70.53
 1.09 Intr +  24764  24930  167  1  2   68   50   105 0.128   3.46
 1.10 Term +  36806  36911  106  2  1   42   42   107 0.065  -0.62
 1.11 PlyA +  37973  37978    6                               1.05

 2.04 PlyA -  37985  37980    6                               1.05
 2.03 Term -  38875  38867    9  1  0  101   44     0 0.205  -4.91
 2.02 Intr -  44354  44244  111  2  0  105  107    66 0.874  10.78
 2.01 Init -  44607  44440  168  0  0   66   81   291 0.959  23.73
 2.00 Prom -  48685  48646   40                              -1.36

 3.32 PlyA -  48721  48716    6                               1.05
 3.31 Term -  52495  52196  300  1  0   70   37   341 0.659  22.42
 3.30 Intr -  53350  53153  198  1  0   67   67   186 0.642  13.95
 3.29 Intr -  55951  55778  174  1  0   93   94   142 0.998  15.44
 3.28 Intr -  56668  56478  191  2  2   93   67   202 0.717  17.90
 3.27 Intr -  57169  57062  108  2  0   60   95    91 0.931   7.26
 3.26 Intr -  65434  65257  178  1  1   70   96   187 0.996  17.19
 3.25 Intr -  66221  66144   78  2  0  137  110   106 0.999  17.45
 3.24 Intr -  66394  66348   47  2  2  107  109    11 0.999   3.23
 3.23 Intr -  66628  66482  147  2  0  137   86   149 0.999  19.81
 3.22 Intr -  67205  67059  147  0  0   97   25   107 0.978   5.51
 3.21 Intr -  67933  67802  132  2  0  123   80   211 0.640  24.42
 3.20 Intr -  73321  73166  156  2  0  104  116   212 0.953  25.58
 3.19 Intr -  74878  74762  117  2  0  141   44    58 0.990   7.14
 3.18 Intr -  75130  75080   51  2  0  130   84    12 0.934   3.88
 3.17 Intr -  77751  77550  202  0  1   72  123    80 0.099   8.76
 3.16 Intr -  87314  87276   39  2  0   89   92    24 0.004   1.32
 3.15 Intr -  87572  87440  133  1  1   67   59    59 0.000   1.55
 3.14 Intr -  88262  88137  126  1  0   79   31    77 0.000   0.89
 3.13 Intr -  93234  93201   34  1  1   70   88     4 0.000  -4.12
 3.12 Intr - 100973 100045  929  1  2   99   11   396 0.009  23.87
 3.11 Intr - 127643 127553   91  0  1   95  103    38 0.387   5.05
 3.10 Intr - 129078 128441  638  2  2   91   15   409 0.415  25.64
 3.09 Intr - 136080 135898  183  2  0   99  105    27 0.892   4.40
 3.08 Intr - 142713 142337  377  0  2  104   30   292 0.031  18.81
 3.07 Intr - 150326 150158  169  1  1   25   40   291 0.013  17.95
 3.06 Intr - 153781 153404  378  0  0   71   22   367 0.048  22.48
 3.05 Intr - 155763 155676   88  1  1  101   96    62 0.983   7.33
 3.04 Intr - 165552 164885  668  2  2   64    6   384 0.019  19.18
 3.03 Intr - 168059 167979   81  1  0   75  115    31 0.453   3.25
 3.02 Intr - 174694 174615   80  1  2   60  109    -8 0.034  -3.15
 3.01 Init - 182179 181547  633  1  0   61   -8   366 0.074  19.65
 3.00 Prom - 182450 182411   40                              -3.26

 4.03 PlyA - 182489 182484    6                               1.05
 4.02 Term - 192867 192659  209  1  2   90   35   116 0.641   4.00
 4.01 Init - 193628 193010  619  2  1   60   31   335 0.458  20.51
 4.00 Prom - 197403 197364   40                              -3.16


Suboptimal exons with probability > 0.800

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

S.001 Term +  92496  92660  165  2  0   95   38   115 0.824   5.12
S.002 Init - 137326 137319    8  1  2  114   91     0 0.908   3.40
S.003 Term - 153781 153331  451  0  1   71   36   429 0.943  30.66
S.004 Init - 158954 158939   16  2  1  110   87    10 0.906   3.54


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815579r:14699177_14900136|GENSCAN_predicted_peptide_1|614_aa
MSYQGCWIAGSSSDVVVAGPGLFLRMQLVPSIEERETPLTREDRPALQEPPWSLGCTGLK
AAMQIQRVVIPVPTLGHRNPWVARDSAVPARDPAWLQEDKVEEEAMAPGLPTACSQEPVT
FADVAVVFTPEEWVFLDSTQRSLYRDVMLENYRNLASVADQLCKPNALSYLEERGEQWTT
DRGVLSDTCAEPQCQPQEAIPSQDTFTEILSIDVKGEQPQPGEKLYKYNELEKPFNSIEP
LFQYQRIHAGEASCECQEIRNSFFQSAHLIVPEKIRSGDKSYACNKCEKSFRYSSDLIRH
EKTHTAEKCFDCQECGQAFKYSSNLRRHMRTHTGEKPFECSQCGKTFTRNFNLILHQRNH
TGEKPYECKDCGKAFNQPSSLRSHVRTHTGEKPFECSQCGKAFREHSSLKTHLRTHTREK
PYECNQCGKPFRTSTHLNVHKRIHTGEKLYECATCGQVLSRLSTLKSHMRTHTGEKPYVC
QECGRAFSEPSSLRKHARTHSGKKPYACQECGRAFGQSSHLIVHDADIQGDRSAVHLGLH
LVFGHSAGGPSCYALAYLFTIINTLQGVSIFWCTAFSVNRVTKIWATAGRPYAESLMSTL
QGMEDFRFLQELNA

>gi568815579r:14699177_14900136|GENSCAN_predicted_CDS_1|1845_bp
atgtcttatcagggctgctggattgcaggttcctcatccgatgtggtggttgcggggccg
gggctgttcctgaggatgcagctggtgccctccatagaagagagggagacaccattgact
cgagaggaccggccagctctccaggagccgccttggtctctgggatgcacgggactgaag
gccgctatgcagattcagagggtggtgataccagtgcctactctgggccaccgcaaccca
tgggtggccagggattctgctgtgcctgcacgtgaccctgcctggcttcaggaggacaaa
gtggaggaagaagctatggctcctgggctgccaaccgcctgttcacaggaaccagtcacc
tttgcagatgtggctgtggtgttcaccccagaagaatgggtgtttctggactctactcag
aggagcctgtatagagatgtgatgctggagaactacaggaacctggcctctgtggctgat
caactgtgcaaacccaatgcgttgtcttatttggaagaaagaggagagcagtggaccact
gacaggggcgtcctctcagacacctgtgcagaacctcagtgtcaaccccaagaggcaatt
cctagccaagatacttttacagagatcctgtccattgatgtgaaaggggagcaacctcag
cctggagaaaaactctataaatataatgaacttgagaaaccttttaacagcattgaacca
cttttccagtaccagagaattcatgctggagaggcatcctgtgaatgtcaagagattaga
aattccttcttccagagtgcccacctaattgtgcccgagaaaatccgtagtggggataaa
tcctatgcatgtaacaaatgtgaaaaatccttcagatacagctctgaccttatcaggcat
gagaagactcatactgcagagaagtgctttgactgtcaagaatgtgggcaagccttcaaa
tattcctcgaatctccggcgacacatgagaacccataccggagagaagccatttgaatgt
agtcagtgtgggaaaaccttcacgaggaactttaacctgattttgcaccagagaaaccac
acaggagagaagccctacgagtgtaaagattgtgggaaagccttcaatcagccatcatcc
ctcaggagccacgtgagaactcacactggagagaagccctttgaatgcagccagtgtggg
aaagccttcagggaacactcttcactgaagacacatctgcgaacccataccagagagaaa
ccatatgaatgcaaccagtgtggcaagcccttccggacgagcactcatctgaacgtgcac
aagaggatacacacaggggagaaactgtatgagtgcgcgacttgcggtcaggtcttgagt
cgtctttcaaccctgaagagtcacatgcgaactcacactggagagaagccctatgtgtgc
caggaatgtgggcgagccttcagtgagccctcatccctcaggaaacatgcaaggactcac
agtggcaagaagccctatgcatgccaggaatgcgggcgagcctttggtcagtcttcacat
cttattgtacatgatgctgacattcaaggtgacagatcagctgttcatcttgggctgcac
ctggtgtttgggcattctgcaggtgggcccagttgctatgctcttgcctatctcttcacc
atcatcaacaccctgcagggtgtctccatcttttggtgtactgccttttcagtcaacaga
gtgaccaagatatgggccacagctggccgtccatatgctgagagtttgatgagcacattg
cagggcatggaagatttccggtttctgcaggaattgaatgcctag

>gi568815579r:14699177_14900136|GENSCAN_predicted_peptide_2|95_aa
MLAFKATAQLFILGCTWCLGILQVGPAARVMAYLFTIINSLQGVFIFLVYCLLSQQVREQ
YGKWSKGIRKLKTESEMHTLSSSAKADTSKPSTLV

>gi568815579r:14699177_14900136|GENSCAN_predicted_CDS_2|288_bp
atgctggcatttaaagcgacagctcagctgttcatcctgggctgcacgtggtgtctgggc
atcttgcaggtgggtccggctgcccgggtcatggcctacctcttcaccatcatcaacagc
ctgcagggtgtcttcatcttcctggtgtactgcctcctcagccagcaggtccgggagcaa
tatgggaaatggtccaaagggatcaggaaattgaaaactgagtctgagatgcacacactc
tccagcagtgctaaggctgacacctccaaacccagcacgctagtttga

>gi568815579r:14699177_14900136|GENSCAN_predicted_peptide_3|2290_aa
MEPENDTGISEFVLLGLSEEPELQPFLFGLFLSMYLVTVLGNLLIILATISDSHLHTPMY
FFLSNLSFADICFISTTIPKMLINIQTQSRVITYAGCITQMCFFVLFGGLDSLLLAVMAY
DRFVAICHPLHYTVIMNPRLCGLLVLASWMIAALNSLSQSLMVLWLSFCTDLEIPHFFCE
LNQVIHLACSDTFLNDMGMYFAAGLLAGGPLSFILHYQHPGRSSDFHMETFLSETPYRAS
ISTNNHSGRNSHFHMEAFLSENQSRNINQVKAGNETQISEFLLLGFSEKQELQPFLFGLF
LSMYLVTVLGNLLIILAAISDSCLHTPMYFFLSNLSFVDICFASTMVPKMLVNIQTQSKV
ITYAGCITQMCFFVLFIVLDSLLLTVMAYDQFVAICHPLHYTVIMSPQLCGLLVLVSWIM
SVLNSMLQSLVTLQLSFCTDLEIPHFFCELNEMIHLACSDTFVNNMVMHFAAVLLDGGPL
VGILYSYYRASVSIINHPGRNSYIHMDDTFLPENPSGHINKMKPGNDTRISEFLLLGLSA
EPELQPFFFGLFLSMYLVTVLGNLLIILATISDSHLHTPMYFFLSNLSFADISFVSTTVP
KMLVNIQTQSRVITYAGCITQMCFFLLFAVLDSLLLAVMAYDRLATEQDSVSKKKKEKKK
EEEEEEEEEEEEEEEEEEEEEEEEEEEEEKKRKKRKMPKSHHKMKSWNNTIILEFLLLGI
SEEPELQAFLFGLFLSMYLVTVLGNLLIILATISDSHLHTPMYFFLSNLSFVDICFVSTT
VPKMLVNIQTHNKVITYAGCITQMCFFLLFVGLDNFLLTVMAYDRHPWVEWNIIVSFEVL
SLAQRQMLDSFLLPSLLSRASVSTINHPVRNLHLHKELFLGEIPSCHFNQMEPGNDTQIS
EFLLLGFSQEPGLQPFLFGLFLSMYLVTVLGNLLIILATISDSHLHTPMYFFLSNLSFAD
ICVTSTTIPKMLMNIQTQNKVITYIACLMQMYFFILFAGFENFLLSVMAYDRFVAICHPL
HYMVIMNPHLCGLLVLASWTMSALYSLLQILMVVRLSFCTALEIPHFFCELNQVIQLACS
DSFLNHMVIYFTVALLGGAGHEIVLSSLGHHVFVSAMSTVSAILPGIVRYFIPMETGNQT
HAQEFLLLGFSATSEIQFILFGLFLSMYLVTFTGNLLIILAICSDSHLHTPMYFFLSNLS
FADLCFTSTTVPKMLLNILTQNKFITYAGCLSQIFFFTSFGCLDNLLLTVMAYDRFVAVC
HPLHYTVIMNPQLCGLLVLGSWCISVMGSLLETLTVLRLSFCTEMEIPHFFCDLLEVLKL
ACSDTFINNVVIYFATGVLGVISFTGIFFSYYKIVFSILRISSAGRKHKAFSTCGSHLSV
VTLFYGTGFGVYLSSAATPSSRTSLVASVMYTMVTPMLNPFIYSLRNTDMKRALGRLLRG
WVPRIEYKHRPPHWDLNFAPCKCVVSDFRYRKQGFPVPTLLLTKTSRFRFLRHGAAELVL
GMGKSEHAWTEGGPQSGPPPLFSDSPHLTKKPVYQERVEPAPSVGRQGELHRQFRGGPWA
SGCPPPLLYKVLASGQPAQLPSLRRRDSPVPLTLSPAAPAGSSAGTMGGRVFLVFLAFCV
WLTLPGAETQDSRGCARWCPQDSSCVNATACRCNPGFSSFSEIITTPMETCDDINECATL
SKVSCGKFSDCWNTEGSYDCVCSPGYEPVSGAKTFKNESENTCQDVDECQQNPRLCKSYG
TCVNTLGSYTCQCLPGFKLKPEDPKLCTDVNECTSGQNPCHSSTHCLNNVGSYQCRCRPG
WQPIPGSPNGPNNTVCEDVDECSSGQHQCDSSTVCFNTVGSYSCRCRPGWKPRHGIPNNQ
KDTVCEDMTFSTWTPPPGVHSQTLSRFFDKVQDLGRDYKPGLANNTIQSILQALDELLEA
PGDLETLPRLQQHCVASHLLDGLEDVLRGLSKNLSNGLLNFSYPAGTELSLEVQKQVDRS
VTLRQNQAVMQLDWNQAQKSGDPGMGKLLAEAPLVLEPEKQMLLHETHQGLLQDGSPILL
SDVISAFLSNNDTQNLSSPVTFTFSHRSVIPRQKVLCVFWEHGQNGCGHWATTGCSTIGT
RDTSTICRCTHLSSFAVLMAHYDVQEEDPVLTVITYMGLSVSLLCLLLAALTFLLCKAIQ
NTSTSLHLQLSLCLFLAHLLFLVAIDQTGHKVLCSIIAGTLHYLYLATLTWMLLEALYLF
LTARNLTVVNYSSINRFMKKLMFPVGYGVPAVTVAISAASRPHLYGTPSRLVQILTILIF
SGITMAIART

>gi568815579r:14699177_14900136|GENSCAN_predicted_CDS_3|6873_bp
atggaaccagagaatgacacagggatttcagaatttgttcttctgggactttctgaggaa
ccagaattgcagcccttcctctttgggctgtttctgtccatgtacctggtcactgtgctc
gggaatctgctcatcatcctggccacaatctcagactcccacctccacacccccatgtac
ttcttcctctccaacctgtcctttgcagacatctgtttcatctccactacaatcccaaag
atgctcattaacatccagacacagagcagagtcatcacctatgcaggctgcatcacccag
atgtgcttttttgtactttttggagggttagacagcttactcctggctgtgatggcctat
gatcggtttgtggccatctgtcatcctctgcactacacagtcatcatgaaccctcggctc
tgtggactcctggttctggcatcctggatgattgctgccctgaattccttgtcacaaagc
ttaatggtattgtggctgtccttctgcacagacttggaaatcccccactttttctgtgaa
cttaatcaggtcatccaccttgcctgttctgacacctttcttaatgacatggggatgtat
tttgcagcagggctgctggctggtggtccccttagcttcattctccattatcagcatcca
gggaggagctcagacttccatatggagaccttcctctctgagaccccatacagagcttcc
atctccaccaacaaccattcagggaggaattcacacttccacatggaggcttttctttca
gaaaaccagtcaagaaacatcaaccaggtgaaagcagggaatgagacacaaatttcagaa
tttcttcttctaggattttcagagaaacaagaattgcagcccttcctctttgggctgttc
ctgtccatgtacctggtcactgtgctcgggaacctgctcatcatcctggccgcaatctca
gactcctgcctccacacccccatgtacttctttctctccaacctgtccttcgtagatatc
tgttttgcctccaccatggtcccaaagatgttggtgaacatccagacacagagcaaagtc
attacctatgcaggttgcatcacccagatgtgcttttttgtactctttatagtgttggac
agcttactcctgaccgtgatggcctatgaccagtttgtggccatctgtcaccccctgcac
tacacggtcatcatgagccctcagctctgtggactgctggttctggtgtcctggatcatg
agtgtcctaaactccatgttacaaagcttagtgacattgcagttgtccttctgcacagac
ttggaaatccctcactttttctgtgaacttaatgagatgatccaccttgcctgttctgac
acctttgtgaacaacatggtgatgcattttgcagctgtgctgctggacggtggtcctctc
gttgggatcctttattcttactacagagcttcagtttccatcatcaaccatccagggagg
aattcatacatccacatggacgacaccttccttccagaaaatccatcaggtcacatcaac
aagatgaaaccagggaatgatacacgaatttcagaatttcttcttctaggactttcagca
gaaccagaattgcagcccttcttctttgggctgttcctgtccatgtacctggtcaccgtg
ctcgggaacctgctcatcatcctggccacaatctcagactcccacctccacacccccatg
tacttcttcctctccaacctgtcctttgcagatatcagttttgtgtctaccactgtcccg
aagatgctggtgaatatccagacgcagagcagagtcatcacctatgcaggctgcatcacc
cagatgtgctttttcctactatttgcagtgttggacagccttctcctagctgtgatggcc
tatgatcgcctggcaacagagcaagactctgtctcaaaaaaaaaaaaagagaagaagaaa
gaagaagaagaagaagaagaagaagaagaagaagaagaagaagaagaagaagaagaagaa
gaagaagaagaagaagaagaagaagaaaagaagaggaagaaaagaaaaatgccaaagtca
catcacaagatgaaatcatggaacaatacaataattttagaatttcttctcctgggaatt
tcagaggaaccagaattgcaggccttcctctttgggctgttcctgtccatgtacctggtc
actgtgctcgggaacctgctcatcatcctggccacaatctcagactcccacctccacacc
cccatgtacttcttcctctccaacctgtccttcgtagacatctgttttgtctctaccact
gtcccgaagatgctggtgaacatccagacacacaacaaagtcatcacctatgcaggctgc
atcacccagatgtgctttttcttactctttgtaggattggataacttccttctgaccgtg
atggcctatgaccggcacccctgggttgaatggaatatcattgtttcttttgaagtccta
agtctagctcagagacagatgcttgactctttcctgctgcctagtctgctgagcagagct
tcagtctccaccatcaatcatccagtgaggaatttgcacttacacaaggaactcttcctc
ggagagatcccctcctgtcacttcaatcaaatggaaccaggaaatgatacacaaatttca
gaatttcttcttctgggattttcacaagaacctggactgcaacccttcctctttgggctg
ttcctgtccatgtacctggtcactgtgctcgggaacctgctcatcatcctggccacaatc
tcagactcccacctccacacccccatgtacttcttcctctccaacctgtcctttgctgac
atttgtgttacttccaccaccattccaaaaatgctgatgaacatccagacacagaacaaa
gtcatcacctacatagcctgcctcatgcagatgtattttttcatactctttgctggattt
gaaaacttcctcctgtccgtgatggcctatgaccggtttgtggccatctgtcaccccctg
cactacatggtcattatgaaccctcacctctgtggactgctggttctagcatcctggacc
atgagtgctctgtattccttgctacaaatcttaatggtagtacggctgtccttctgcaca
gccttagaaatcccccactttttctgtgaacttaatcaggtcatccaacttgcttgttct
gatagctttcttaatcacatggtgatatattttacagttgcgctgctgggtggagctggt
catgagattgtgttgtcctcattaggacatcatgtctttgtcagtgccatgtccacagta
tctgccatactccctggcatagtacgttattttatccccatggaaacaggaaatcaaaca
catgcccaagaatttctcctcctgggattttcagcaacgtcagagattcagttcattctc
tttgggctgttcctctccatgtacctagtcactttcaccgggaacctgctcatcatcctg
gccatatgctcagactcccacctccacacccccatgtacttcttcctctccaacctgtct
tttgctgacctctgttttacctccacgactgtcccaaagatgttactgaatatactgaca
cagaacaaattcataacatatgcaggctgtctcagtcagattttttttttcacttcattt
ggatgcctggacaatttactcttgaccgtgatggcctatgaccgcttcgtggccgtctgt
caccccctgcactatacggtcatcatgaacccccagctctgtggactgctggttctgggg
tcctggtgcatcagtgtcatgggttccctgctcgagaccttgactgttttgaggctgtcc
ttctgcaccgaaatggaaattccacactttttttgtgatctacttgaagtcctgaagctc
gcctgttctgacaccttcattaataacgtggtgatatactttgcaactggcgtcctgggt
gtgatttccttcactggaatatttttctcttactataaaattgttttctctatactgagg
atttcctcagctgggagaaagcacaaagcgttttccacctgtggttcccacctctcagtg
gtcaccttgttctatggcacgggctttggggtctatctcagttctgcagccacaccatct
tctaggacaagtctggtggcctcagtgatgtacaccatggtcacccccatgctgaacccc
ttcatctacagcctgaggaacacggacatgaagagggccctggggagactcctcagaggc
tgggtgccaaggatcgaatataagcacaggcccccgcactgggacctcaatttcgctccc
tgcaaatgtgtggtctctgacttccggtatcggaagcaaggatttccggttcccacgctc
ctgttgacaaaaacttcccgttttcgttttttgaggcatggagctgctgaactagtttta
ggaatggggaaatcagagcatgcgtggacagagggaggaccacagagtggaccaccccca
ctcttctcagattcccctcatttgaccaaaaagcccgtctaccaggagcgcgtggagcca
gcgccatctgtgggccgccaaggggagctgcaccgccagttccggggagggccctgggcc
agcggctgtccgccccccctcctttataaagtcctggcctcgggacagcccgcacagctg
cccagcctgcggagacgggacagccctgtcccactcactctttcccctgctgctcctgcc
ggcagctcagctggaaccatgggaggccgcgtctttctcgtctttctcgcattctgtgtc
tggctgactctgccgggagctgaaacccaggactccaggggctgtgcccggtggtgccct
caggactcctcgtgtgtcaatgccaccgcctgtcgctgcaatccagggttcagctctttt
tctgagatcatcaccacccccatggagacttgtgacgacatcaacgagtgtgcaacactg
tcgaaagtgtcatgcggaaaattctcggactgctggaacacagaggggagctacgactgc
gtgtgcagcccaggatatgagcctgtttctggggcaaaaacattcaagaatgagagcgag
aacacgtgtcaagatgtggacgaatgtcagcagaacccaaggctctgtaaaagctacggc
acctgcgtcaacaccctcggcagctacacgtgccagtgcctgcctggcttcaagctcaaa
cctgaggacccgaagctctgcacagatgtgaatgaatgcacctccggacaaaacccatgc
cacagctccacccactgcctcaacaacgtgggcagctatcagtgccgctgccgcccgggc
tggcaaccgattccggggtcccccaatggcccaaacaataccgtctgtgaagatgtggac
gagtgcagctccgggcagcatcagtgtgacagctccaccgtctgcttcaacaccgtgggt
tcatacagctgccgctgccgcccaggctggaagcccagacacggaatcccgaataaccaa
aaggacactgtctgtgaagatatgactttctccacctggaccccgccccctggagtccac
agccagacgctttcccgattcttcgacaaagtccaggacctgggcagagactacaagcca
ggcttggccaataacaccatccagagcatcttacaggcgctggatgagctgctggaggcc
cctggggacctggagaccctgccccgcttacagcagcactgtgtggccagtcacctgctg
gatggcctagaggatgtcctcagaggcctgagcaagaacctttccaatgggctgttgaac
ttcagttatcctgcaggcacagaattgtccctggaggtgcagaagcaagtagacaggagt
gtcaccttgagacagaatcaggcagtgatgcagctcgactggaatcaggcacagaaatct
ggtgacccagggatgggcaagttgctggctgaggcccctctggtcctggaacctgagaag
cagatgcttctgcatgagacacaccagggcttgctgcaggacggctcccccatcctgctc
tcagatgtgatctctgcctttctgagcaacaacgacacccaaaacctcagctccccagtt
accttcaccttctcccaccgttcagtgatcccgagacagaaggtgctctgtgtcttctgg
gagcatggccagaatggatgtggtcactgggccaccacaggctgcagcacaataggcacc
agagacaccagcaccatctgccgttgcacccacctgagcagctttgccgtcctcatggcc
cactacgatgtgcaggaggaggatcccgtgctgactgtcatcacctacatggggctgagc
gtctctctgctgtgcctcctcctggcggccctcacttttctcctgtgtaaagccatccag
aacaccagcacctcactgcatctgcagctctcgctctgcctcttcctggcccacctcctc
ttcctcgtggcaattgatcaaaccggacacaaggtgctgtgctccatcatcgccggtacc
ttgcactatctctacctggccaccttgacctggatgctgctggaggccctgtacctcttc
ctcactgcacggaacctgacggtggtcaactactcaagcatcaacagattcatgaagaag
ctcatgttccctgtgggctacggagtcccagctgtgacagtggccatttctgcagcctcc
aggcctcacctttatggaacaccttcccggttagtgcaaattctcacaatccttatcttc
tccggcataaccatggccattgctagaacctag

>gi568815579r:14699177_14900136|GENSCAN_predicted_peptide_4|275_aa
MKPGNETQISQFLLLGLSEEPELQPFLFGLFLSMYLVTVLGNLLIILATISDSHLHTPMY
FFLSNLSFADICFVSTTVPKMLVNIQTQSRVITYADCITQMCFFILFVVLDSLLLTVMAY
DRFVAICHPLHYTVIMNSWLCGLLVLVSWIVSILYSLLQSIMALQLSFCTELKIPHFFCE
LNQVIHLACSDTFINDMMMNFTSVLLGVGVYLSSAATHNSLSNAAASVMYTVVTSMLNPF
IYSLRNKDINRALNRFFREQKQEGHFPEVLEISEL

>gi568815579r:14699177_14900136|GENSCAN_predicted_CDS_4|828_bp
atgaaaccagggaatgagacacaaatttcacaattccttctcctgggactttcagaggaa
ccagaattgcagcccttcctctttgggctatttctgtccatgtacctggtcaccgtgctc
gggaacctgctcatcatcctggccacaatctcagactcccacctccacacccccatgtac
ttcttcctctccaacctgtcctttgcagacatctgttttgtgtctaccactgtcccaaag
atgctggtgaacatccagacacagagcagagtcatcacctatgcagactgcatcacccag
atgtgcttttttatactctttgtagtgttggacagcttactcctgactgtgatggcctat
gaccggtttgtggccatctgtcaccccctgcactacacagtcattatgaactcctggctc
tgtggactgctggttctggtgtcctggatcgtgagcatcctatattctctgttacaaagc
ataatggcattgcagctgtccttctgtacagaattgaaaatccctcattttttctgtgaa
cttaatcaggtcatccaccttgcctgttccgacacttttattaatgacatgatgatgaat
tttacaagtgtgctgctgggcgtaggtgtgtaccttagttctgctgcaacccataactca
ctctcaaatgctgcagcctcggtgatgtacactgtggtcacctccatgctgaaccccttc
atctacagcctgaggaataaagacataaacagagctctgaatcgattcttcagagagcag
aaacaggagggccattttccagaagttcttgagatttcagagctctaa