GENSCAN 1.0	Date run:  3-Nov-116	Time: 04:32:27

Sequence gi568815578r:25353454_25626587 : 273134 bp : 46.66% 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..
----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------

 1.02 Intr -    896    809   88  1  1  102   75    72 0.039   7.27
 1.01 Init -   7727   7639   89  2  2  112   52    32 0.227   2.17
 1.00 Prom -   9603   9564   40                              -2.86

 2.44 PlyA -   9690   9685    6                               1.05
 2.43 Term -  15088  14822  267  1  0  -33   38   330 0.305  11.39
 2.42 Intr -  15315  15097  219  0  0   10   -2   200 0.013   1.70
 2.41 Intr -  19196  19046  151  1  1   22   64    58 0.004  -3.04
 2.40 Intr -  37291  37060  232  2  1   29   94   376 0.473  29.13
 2.39 Intr -  37725  37536  190  0  1   72   10   108 0.294   0.56
 2.38 Intr -  47454  47343  112  2  1   38   93   100 0.900   5.88
 2.37 Intr -  49375  49201  175  2  1   66   96   150 0.848  12.60
 2.36 Intr -  54273  54122  152  2  2   80  100    23 0.069   2.51
 2.35 Intr -  57980  57847  134  2  2   72   86    48 0.063   2.44
 2.34 Intr - 100189 100034  156  1  0   83   25   313 0.610  24.71
 2.33 Intr - 102333 102220  114  0  0   89  109   161 0.999  18.94
 2.32 Intr - 105076 104930  147  1  0  112  114    94 0.981  14.83
 2.31 Intr - 108182 108069  114  2  0   40   94    77 0.907   4.14
 2.30 Intr - 109088 108930  159  2  0   58   94   148 0.929  12.58
 2.29 Intr - 114005 113936   70  1  1   65   66    65 0.283   1.18
 2.28 Intr - 116642 116538  105  1  0   74   94    18 0.222   0.33
 2.27 Intr - 123636 122590 1047  2  0   78   41   601 0.295  43.95
 2.26 Intr - 125753 125470  284  2  2   93   42   413 0.999  33.42
 2.25 Intr - 126814 126708  107  2  2   79  100    75 0.782   7.73
 2.24 Intr - 128647 128515  133  1  1   57   91   177 0.998  15.12
 2.23 Intr - 135871 135791   81  1  0  113   87   125 0.995  14.73
 2.22 Intr - 136033 135925  109  0  1   48   30    98 0.936   0.29
 2.21 Intr - 136532 136369  164  2  2  101   -8   204 0.721  10.87
 2.20 Intr - 138072 137898  175  2  1   77   97   176 0.992  17.34
 2.19 Intr - 138347 138257   91  0  1   20   48    67 0.757  -5.05
 2.18 Intr - 139906 139756  151  1  1   68  100    17 0.531   0.64
 2.17 Intr - 141124 141054   71  2  2   97   65    58 0.475   3.30
 2.16 Intr - 142029 141855  175  0  1  107   84    73 0.781   8.31
 2.15 Intr - 142906 142834   73  0  1   69   75    10 0.378  -2.79
 2.14 Intr - 143350 143210  141  0  0  103   39   205 0.423  16.57
 2.13 Intr - 144893 144757  137  2  2   87   55   312 0.688  27.17
 2.12 Intr - 145721 145530  192  2  0   80    9   108 0.708   1.79
 2.11 Intr - 147557 147387  171  2  0   28   36   165 0.430   5.44
 2.10 Intr - 150651 150499  153  0  0   32   98    53 0.589   0.97
 2.09 Intr - 151625 151435  191  0  2   90   78   227 0.701  21.20
 2.08 Intr - 156010 155936   75  2  0   33  100    67 0.351   1.89
 2.07 Intr - 157287 157221   67  0  1   89   98    84 0.987   7.98
 2.06 Intr - 158673 158560  114  0  0   90   89    -1 0.624   0.84
 2.05 Intr - 159553 159381  173  2  2  104   90   140 0.976  15.46
 2.04 Intr - 164396 164300   97  2  1   74  110   104 0.996  10.78
 2.03 Intr - 173323 172955  369  1  0   72   96   276 0.019  22.10
 2.02 Intr - 189242 189134  109  1  1  105   42    77 0.004   5.09
 2.01 Init - 195396 195347   50  0  2   45   92    77 0.157   2.44
 2.00 Prom - 203639 203600   40                              -4.06

 3.06 PlyA - 204754 204749    6                               1.05
 3.05 Term - 207307 207299    9  1  0  131   39     0 0.160  -2.41
 3.04 Intr - 216100 215963  138  1  0  113   99   105 0.836  14.76
 3.03 Intr - 220558 220474   85  0  1  103   69    -5 0.068  -1.08
 3.02 Intr - 240816 240537  280  1  1   61   66   133 0.235   4.94
 3.01 Init - 251380 251269  112  1  1   83   68   105 0.363   6.45
 3.00 Prom - 253569 253530   40                              -5.26

 4.03 PlyA - 255667 255662    6                               1.05
 4.02 Term - 263128 262472  657  1  0   62   42   207 0.670   7.45
 4.01 Intr - 270971 270406  566  0  2   52   82   227 0.426  11.02

Suboptimal exons with probability > 0.800

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

S.001 Sngl + 185612 185914  303  1  0   81   54   183 0.814   8.11


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815578r:25353454_25626587|GENSCAN_predicted_peptide_1|59_aa
MGILWLQTASFSVDQGLEVQQPLSVGLQGRPSCLPVSCLQDSVHPVSVFCRYTCELAPQ

>gi568815578r:25353454_25626587|GENSCAN_predicted_CDS_1|177_bp
atggggattctgtggttgcagacggcaagcttcagtgtggaccagggactggaggttcag
cagccgcttagcgtgggattgcaggggcgaccttcctgcctgcctgtttcctgcctccag
gacagtgtgcaccctgtgtccgtcttctgccgctacacctgtgaactggcaccacag

>gi568815578r:25353454_25626587|GENSCAN_predicted_peptide_2|2398_aa
MKLDVGGVAMGAGASLGESKFIREVKKQKNGYSIEHLRGLLVGCFQNSLFAFKGGAESSH
CVLGPARVPGAFPTCQLLRLLGPCSSVLTGSVGMGGEVGKCPDVFFFPCTLPACYGMDEE
ENHYVSQLREVYSSCDTTGTGFLDRQELTQLCLKLHLEQQLPVLLQTLLGNDHFARVNFE
EFKEGFVAVLSSNAGVRPSDEDSSSLESAASSAIPPKYVNGSKWYGRRSRPELCDAATEA
RRVPEQQTQASLKSHLWRSASLESVEVPGMQGSPKERGMGPGDGCQSLVGLHVKKYVHGA
GPQLSPKSDEEAESTKEAQNELFEAQAQAFTLLLQSFSKEQGCSAQGRIGEGQLQTWDSE
DFGSPQKSCSPSFDTPESQIRGVWEELGVGSSGHLSEQELAVVCQSVGLQGLEKEELEDL
FNKLDQDGDGKVSLEEFQLGLFSHEPALLLESSTRVKPSKAWSHYQVPEESGCHTTTTSS
LVSLCSSLRLFSSIDDGSGFAFPDQVLAMWTQEGIQNGREILQELLGSGQCGKSAPTSQE
TLGQARPGTCFSRPAMVPAAGLSRAFVATSGKQSQEYPRRKKQTRQNSLDFSVDEKVNLL
ELTWALDNELMTVDSAVQQAALACYHQELSYQQGQVEQLARERDKARQDLERAEKRNLEF
VKEMDDCHSTLEQLTEKKINCVPVMQEAGGYVARTGNGFLLAQQVGPPSALHNTDTALAA
MVLVVVAQLSVASKEELCAMEPRGVAPSRDAGGLLGVLRSPQGLAGDGCTQQVQIYMCLY
MVWGVSGSWCCLSGPEGLGSDLQRLRSPEHSLIPALGLAGPLDKSAPCETLVFKAGRSCA
PRCEGAAGGICHVTHQIPLSGVTSSSLHLEQGYRERLSLLRSEVEAERELFWEQAHRQRA
ALEWDVGRLQAEEAGLREKLTLALKENSRLQKEIVEVVEKLSDSERLALKLQKDLEFVLK
DKASPFADSLPPEGRACWAERGSKEKEGGWRLYLEMQRLVLAEAGQVLGAQGLEKQLEPQ
SAELLAQEERFAAVLKEYELKCRDLQDRNDELQAELEGLWARLPKNRHSPSWSPDGRRRQ
LPGLGPAGISFLGNSAPVSIETELMMEQVKEHYQDLRTQLETKVNYYEREIAALKRNFEK
ERKDMEQARRREVSVLEGQKADLEELHEKSQEVIWGLQEQLQDTARGPEPEQMGLAPCCT
QALCGLALRHHSHLQQIRREAEAELSGELSGLGALPARRDLTLELEEPPQGPLPRGSQRS
EQLELERALKLQPCASEKRAQMCVSLALEEEELELARGKRVDGPSLEAEMQALPKDGLVA
GSGQEGTRGLLPLRPGCGERPLAWLAPGDGRESEEAAGAGPRRRQAQDTEATQSPAPAPA
PASHGPSERWSRMQPCGVDGDIVPKEPEPFGASAAGLEQPGARELPLLGTERDASQTQPR
MWEPPLRPAASCRGQAERLQAIQEERARSWSRGTQEQASEQQARAEGALEPGCHKHSVEV
ARRGSLPSHLQLADPQGSWQEQLAAPEEGETKIALEREKDDMETKLLHLEDVVRALEKHV
DLRENDRLEFHRLSEENTLLKNDLGRVRQELEAAESTHDAQRKEIEVLKKDKEKACSEME
VLNRQNQNYKDQLSQLNVRVLQLGQEASTHQAQNEEHRVTIQMLTQSLEEVVRSGQQQSD
QIQKLRVELECLNQEHQSLQLPWSELTQTLEESQDQVQGAHLRLRQAQAQHLQEVRLVPQ
DRVAELHRLLSLQGEQARRRLDAQREEHEKQLKATEERVEEAEMILKNMEMLLQEKVDKL
KEQFEKNTKSDLLLKELYVENAHLVRALQATEEKQRGAEKQSRLLEEKVRALNKLGQNIC
VGKNAVAYTNGTIPKSTTQLCSKDVIPDGKCKHDFYLSPSPTAPGSRLGLRSALWRRTKL
ANRNAPTAPEKGHPPLSRIPRGAEWEGSFQGSCRLQVAPPISDRIRYSTKWRPNRDFKDM
KKKVCWSRGTEIDKVNGDPRVSLPVADIRLREAVKRQIPHTAAAEMLILTLAFENANTDY
KHALAPKHEEPSAAALPRWATPFGHDRERVLLTPSARASTAAACGWSPEPCPADDAPLQL
RPPSHKMAAGQRAPSAAGPVGRGMRKRTEPVALEHERCAAAGSSSSGSAAAALDADCRLK
QNLRLTGPAAAEPRCAADAGMKRALGSLHDCTERKSYPSKILDQVKITFYVVIPPTPNIF
KGKIVKFSDIKKLKEGQPWSTPLFFNIADEGKPLGRVSFNLFADKIPKTAENFHALSTGE
KGFGFKGFRFHRIIPGFMYQGGDFTPIMALSIYGEKFGDENFILKHTGPSILSMANAGPN
TNGSQFFICTAKTEWLDGKHVVCGKAKEGKNIVEAMERCGSRNGKTSKKITIADCEQL

>gi568815578r:25353454_25626587|GENSCAN_predicted_CDS_2|7197_bp
atgaagctggatgtgggaggtgtggccatgggtgctggggccagccttggtgaaagcaag
tttattagagaagtgaagaaacaaaagaatggctactccatagagcatcttcgagggctg
ctggttggctgctttcagaattctctatttgcctttaagggtggagctgagtcctcccac
tgtgtgcttggccctgcaagggtccctggtgccttccccacatgccagctcctgcgtctg
cttggaccatgtagctcggtgctcaccggcagtgtgggaatgggaggggaggtgggaaag
tgtcctgatgttttcttcttcccttgcacactgccagcctgctatgggatggatgaagaa
gagaaccactatgtctcgcagctcagggaagtctacagcagctgcgacaccacggggact
ggctttctggaccgccaggagctgacccagctctgccttaagcttcacctggagcagcag
ctgcccgtcctcctgcagacgcttctcggaaacgaccatttcgccagggttaactttgag
gaatttaaggaaggttttgtggctgtgttgtcttcaaatgctggtgttcgcccctcagat
gaagacagtagttctttggaatcagctgcctccagtgccatccctccaaagtatgtgaat
ggttctaagtggtatggccgtcggagccggcctgagctatgtgacgctgccacagaagcc
agacgcgtgccggagcagcaaacccaggccagcctgaaaagtcacctctggcgctcagcg
tctctggagagcgtggaggtgcctgggatgcagggatcacccaaggagagggggatgggc
ccaggagatggctgccagagtctcgtggggcttcacgttaagaaatatgtccatggggca
ggtccacagcttagtcccaagtcagatgaagaggccgagagcactaaagaagctcagaat
gaattatttgaagcacaagcacaagcttttacactgctgctgcagagcttctccaaggag
cagggctgcagtgctcaaggaaggattggagaaggacagctgcagacctgggattctgag
gactttgggagcccccagaagtcctgcagcccctcctttgacaccccagagagccagatc
cggggcgtgtgggaagagctgggggtgggcagcagcggacacctgagcgagcaggagctg
gctgtggtctgccagagcgtcgggctccagggactcgagaaagaggaactcgaagacctg
tttaacaaactggatcaagacggagacggcaaagtgagtcttgaggaattccagcttggc
ctcttcagtcatgagcccgcgctacttctagagtcttccactcgggttaaaccgagcaag
gcttggtctcattaccaggtcccagaggagagcggctgccacaccaccacaacctcatcc
ctcgtgtccctgtgctccagcctgcgcctcttctccagcattgacgatggttctggcttc
gcttttcctgatcaggtcctggccatgtggacccaggaggggattcagaatggcagggag
atcttgcaggagctgctgggaagtgggcagtgtggaaagtcagcccctacttcacaggag
actctgggccaggcacgtcctggcacctgcttcagccgccctgccatggtgcctgccgcc
ggcctgagcagggcgtttgtagccacaagtggaaagcagagccaggaatacccaaggcgg
aaaaagcaaacacgacagaacagcctggacttcagcgtggacgagaaggtgaaccttctg
gagctgacctgggcccttgacaacgagctcatgacagtggacagtgccgtccagcaggca
gccctggcctgctaccaccaggagctgagctaccagcaagggcaggtggagcagctggca
agggagcgtgacaaggcaaggcaggacctggagagggccgagaagaggaacctggagttt
gtgaaagagatggacgactgccactccaccctggagcagctcacggagaagaaaatcaac
tgcgtgcctgtgatgcaagaggcaggtggctatgttgcaaggactggcaatggtttcctt
ttggcccagcaggtcggcccaccctctgcattgcacaacacagacacagcactcgctgcc
atggtcctggtggtggtggctcagctgagcgtggctagcaaagaagagctatgcgcgatg
gagccacgtggtgtggcaccctccagggatgcgggcggtttgcttggggtgctgcggagt
ccccaggggctggctggggacggctgtacacagcaggtccagatctacatgtgcctctac
atggtgtggggagttagtggatcttggtgctgcctctcaggacctgaggggctgggttct
gacctccagcgacttcgttctcccgagcacagcctcatcccagccttggggttagcaggg
cccctagacaagagtgctccttgtgagacacttgtgttcaaagctggaaggagctgtgct
cctcgctgtgagggggcagctggtggcatttgccatgtgacccaccagatccccttgtct
ggggtcacctccagcagcctgcatctggagcaggggtaccgggaaaggctgagcctcctg
cggtctgaggtggaggcggagcgagagctgttctgggagcaggcccacaggcagagggcc
gcgctggagtgggacgtggggcgcctgcaggctgaggaggctggcctccgcgagaagctg
accctggccctgaaggaaaacagtcgcctacagaaggagattgtggaagtggtggaaaag
ctttcggattcggagaggctggccctgaagctgcagaaggacctggagtttgtgctgaag
gacaaggcgagtccctttgctgacagtctgcctccagaggggagggcctgctgggcagaa
cgggggagtaaggagaaggaggggggatggcggctatacctggagatgcagcgcctggtg
ttggcagaagctgggcaggttcttggagcccaggggctggagaagcagctggagccacag
agtgcagagctcctggcccaggaggagcggttcgcagcagtcctgaaggaatacgagctc
aagtgccgggacctgcaggaccgcaacgatgagctgcaagctgagctggaaggcctgtgg
gcgcggctgcccaagaaccggcacagcccctcatggagcccggatgggcgcagacggcag
ctccctggactcggcccagcaggcatttcattcctgggtaattctgctccagtgagtata
gaaacggagctgatgatggagcaggtaaaggagcattaccaagacctcaggacccagctg
gagaccaaggtaaattactacgaaagggaaattgcggcactgaaaaggaactttgagaag
gagaggaaggacatggagcaggctcgcaggcgcgaggtcagcgtgctggagggtcagaag
gccgacctggaggagctccacgagaagtctcaggaggtcatctggggcctgcaggagcag
ctgcaggacacagcccgcggccccgagcctgagcagatgggcctggcaccctgctgcacc
caggcactgtgtggcctggccctgcggcatcacagccacctgcagcagatcaggagagag
gctgaggcggagctgagtggagagctgtcggggctgggagccctgcccgctcgcagagac
ctgaccttggagctggaggagccgccgcagggacccctgccacgcgggagccagaggtcg
gagcagctggagctggagagggcactgaagctgcagccctgtgcgagcgagaagcgcgcc
cagatgtgcgtatcgttggccctcgaggaggaggagttggagcttgcccgcgggaagcga
gtggacgggccctccctggaagcagagatgcaggccctgccgaaagatgggctggtggca
ggaagtggccaggagggcacacgtggcctcctaccactgcgtccgggctgtggggagcgg
ccactggcctggctggccccaggtgatggcagagagtctgaggaggcggcaggagccggg
cctcgccgcaggcaagcccaggacacagaagctacgcagagcccggcccccgcccctgcc
ccggcatcccacggcccctcagagaggtggtcacgcatgcagccctgtggagtggatggg
gatattgtcccaaaggagccagagcctttcggcgcgagcgcagcggggctggagcagcct
ggagcccgggagctgcctctgctgggaacagagagagacgcctcgcaaacccagccacgg
atgtgggagccacccctgaggccggccgcttcgtgcaggggacaggctgagaggctacag
gccattcaggaagagcgagcacgaagctggagcaggggcacccaggagcaggcctcggag
cagcaggcccgggccgagggcgccctggagcctgggtgtcacaagcacagtgtggaggtt
gccaggagagggtccttgccatcccacctccagctcgcagacccgcagggttcctggcag
gagcagcttgctgccccagaagagggggagaccaaaatagcgctggagagagagaaggat
gacatggaaaccaaacttctacatctggaagacgtcgtccgggctctggagaaacatgta
gatttgagagagaacgacagactggagttccatagactttctgaagaaaacactttgttg
aaaaacgatctgggaagggttcggcaagagcttgaagctgcagaaagtactcacgatgca
cagaggaaggaaattgaggttttaaagaaagacaaggaaaaggcctgctctgagatggag
gtgctcaacagacagaatcagaactacaaggatcaattatcccagctcaatgtcagggtt
cttcaactgggacaggaggcttctacccaccaggcccaaaacgaggagcatcgtgtgacc
attcagatgttaacacagagcctggaggaggtggttcgcagtgggcagcagcagagtgac
caaatccaaaaacttagagttgaacttgaatgcctgaatcaggaacatcagagcctgcag
ctgccatggtcagagctgacccagacccttgaggaaagtcaagaccaggtgcagggagct
cacctgaggctgaggcaggcccaggcccagcacttgcaggaggtccggctggtgccccag
gaccgtgtggccgagctgcatcgcctgctcagccttcagggagagcaggccaggaggcgc
ctggatgcacagcgggaagaacatgagaaacagctgaaagccacagaagagcgggtggaa
gaggcggagatgattctgaagaatatggaaatgctcctccaagagaaagtggataagctg
aaggagcagtttgaaaagaacacgaagtccgacctgctgctgaaggagctgtacgtggag
aacgcccacctggtgagagcacttcaggccaccgaggagaagcagcgaggcgccgagaaa
caaagccgcctcttggaagaaaaagttcgcgctctcaacaaactcggccaaaatatatgt
gttggcaaaaatgctgtggcatatacaaatggcacaattccaaaatcaactactcaactc
tgctcaaaagatgtaattcctgatggaaaatgcaagcatgacttctacctgagcccaagt
cctacagcgccaggctctcgcctcggcctccgctccgcgctttggcgccgaacaaagcta
gccaataggaacgcgcctacggcgcccgaaaagggacatccaccgctcagccgcattcca
agaggggcggagtgggaggggtctttccaaggttcatgcaggttacaggtggcacccccg
atcagcgacagaatcaggtactctacaaagtggcgcccaaacagggacttcaaggacatg
aagaagaaggtctgctggagcagaggaactgaaattgacaaggtgaacggggatcccagg
gtgagtctgccggtagcggatataagactgcgagaagcagtgaagcgccaaattcctcat
accgcagctgcagaaatgctaatcttaactctagcttttgagaacgcaaacacggattat
aaacatgcactggcaccgaagcacgaggagcccagcgctgcggctctgcctcgctgggcc
acccctttcgggcacgaccgggagcgggtgctcctcacaccgagcgcccgggcgagcaca
gctgcagcctgcggatggagcccagagccctgccctgcagatgacgcgccgctgcagctt
cgcccaccctcccacaaaatggctgcgggccagcgggcgccgtcggcggctggccctgtc
ggccgcgggatgaggaagcggaccgagcccgtcgccttggagcatgagcgctgcgccgcc
gcgggctcgtcctcctccggctcggccgccgcggcgctggacgccgactgccgcctgaag
cagaacctacgcctgacgggcccggcggcggctgagccgcgctgcgcagccgacgcggga
atgaagcgggcgctgggcagtttgcatgactgtactgaaagaaaaagctatccgtccaaa
attcttgaccaggtgaaaataactttttatgttgtcattcctcccaccccaaatatcttc
aaaggcaaaatagtgaagttttcagatataaaaaagctgaaagagggccagccatggtca
accccactgttcttcaacattgctgacgaaggcaagcccttgggccgcgtctccttcaac
ctgtttgcagacaagattccaaagacagcagaaaactttcatgctctgagcactggcgag
aaaggatttggttttaagggtttccgctttcacagaattattccagggtttatgtatcag
ggtggtgacttcacacccataatggcactgtccatttacggggagaaatttggtgatgaa
aacttcatcctaaagcatacaggtcctagcatcttgtccatggcaaatgctggacccaac
acaaacggttcccagtttttcatctgcactgccaagactgagtggttggatggcaagcat
gtggtctgtggcaaggcgaaagaaggcaagaatattgtggaggccatggagcgctgtggt
tccaggaatggcaagaccagcaagaagatcaccattgctgactgtgaacaactctaa

>gi568815578r:25353454_25626587|GENSCAN_predicted_peptide_3|207_aa
MVDQRCRPCRPCSLLVCQMLCLPLPMGTPQAALDTVAGVVGDVKTKISSFLTVAIYNLVG
TQTSRTYRWNLSVIVLNRPGHQNEWSKAEQDSLFNGWGGGLQLLWRSSQKKTDLSTALMN
GQIRVDGKEAWFLSLIGSCFWVIFTLDACREFIPDHQEQALRHGPLAAVEELQACSGFCT
SIPPYCCSNPALWRSLGKHYHRRSQGS

>gi568815578r:25353454_25626587|GENSCAN_predicted_CDS_3|624_bp
atggtggatcagcgctgccggccctgccggccctgctccctcctggtctgccaaatgcta
tgcttgcccctgcccatgggaactccccaggcagcattagatactgtggcaggtgttgtc
ggggatgtaaagacaaaaatctcatcattcttgactgtggcaatttacaatcttgttggg
actcaaacaagtaggacctaccggtggaaccttagtgtcatagtacttaacagaccagga
caccagaatgaatggtccaaggcagagcaggactccttattcaacggatggggtggagga
ctgcagttgctctggaggtcttctcagaaaaagacagatttgagcacagccctgatgaat
ggacagattcgagttgatggaaaggaggcatggtttctttcccttattggttcctgtttc
tgggtgatttttacactggatgcttgcagggaattcattcctgaccaccaggaacaggct
ctgagacatgggccgctggctgctgtggaagagctgcaggcatgcagtggcttctgcacc
agcatcccaccctactgctgctccaacccagcactgtggcgctcccttgggaagcattat
cacagacgctcccagggctcttag

>gi568815578r:25353454_25626587|GENSCAN_predicted_peptide_4|407_aa
XRLGPRALKADIRPADVSAPPARPPGEPAAQRLAARTTSLGEVMTVPRAGGPREERDKQK
DTREEHHASDQRQPQPLRSRRIRRRRHTFPGLLRDHTLGVSRDLTFLGGAGNETDRGNST
RAGRWSGDFAAPPTSLWAVRLAHAQAAVARLRFAPAAGAMGLSRVRAVFFDLDNTLIDTA
GASRRGMLEVIKLLQSKYHYKEEAEIICDKVQVKLSKECFHPYNTCITDLRTSHWEEAIQ
ETKGGAANRKLAEECYFLWKSTRLQHMTLAEDVKAMLTELRKEVRLLLLTNGDRQTQREK
IEACACQSYFDAVVVGGEQREEKPAPSIFYYCCNLLGVQPGDCVMVGDTLETDIQGGLNA
GLKATVWINKNGIVPLKSSPVPHYMVSSVLELPALLQSIDCKVSMST

>gi568815578r:25353454_25626587|GENSCAN_predicted_CDS_4|1224_bp
ngcaggctaggaccgcgggcgctcaaggcagacatcaggcccgccgacgtctccgcgccg
cccgcccggccacccggagagcctgctgcccagcgcctggcagcgcggacaacctctctc
ggggaggtgatgacggtccctcgcgccggagggcccagggaggaaagagataagcagaaa
gacaccagggaagaacaccacgcttcggaccaacgccagccacagccactgagaagtcgc
cgcatccggcggcgccgacacacgtttccagggctcttgagagaccataccctgggagtc
tcgcgggatctcacttttctcggcggcgcagggaatgagacagatcgcgggaattccacc
cgcgccgggagatggtctggtgacttcgcggctcctcccacgtctctctgggcagtccgc
cttgcgcatgcgcaggcggcggtggcaaggctacggttcgcgccagcggccggcgctatg
gggctgagccgcgtgcgggcggttttctttgacttggacaacactctcatcgacacggcc
ggggcgagcaggagaggcatgttggaggtgataaaactcttacaatcaaaataccattat
aaagaagaggctgaaatcatctgtgataaagttcaagttaaactcagcaaggaatgtttt
catccttacaatacatgcattactgatttaaggacttcacattgggaagaagcaatccag
gaaacaaaaggtggtgcagccaatagaaaattggctgaagaatgttatttcctttggaaa
tctacacgtttacagcatatgacactagcagaagacgtcaaagccatgcttactgaactt
cgaaaggaggtccgcctacttctattaacgaatggggacagacagacccagagggagaag
attgaggcttgtgcctgtcagtcctattttgacgctgttgttgtaggtggagagcagaga
gaggagaaaccagcaccgtccatattttattactgctgcaatcttctcggagtacaacct
ggggactgtgtgatggtcggtgacacattagaaaccgacatccaaggaggcctcaatgca
ggattgaaagcaacagtctggatcaataaaaatggaatagtgccactgaagtcctcccca
gttccgcattacatggtttcttctgtgctagagttacctgctctcttacaaagtatagac
tgcaaagtcagtatgtccacttaa