GENSCAN 1.0	Date run:  5-Nov-116	Time: 07:06:42

Sequence gi568815588f:68856226_69082809 : 226584 bp : 43.20% 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 +   1551   1639   89  2  2  103   94    46 0.260   5.02
 1.02 Intr +  10509  10584   76  0  1   61   60    30 0.036  -2.98
 1.03 Intr +  25999  26053   55  0  1  102   30    57 0.106  -0.15
 1.04 Intr +  28035  30393 2359  1  1   59   90   935 0.223  78.15
 1.05 Intr +  36691  36712   22  1  1   81   74     3 0.026  -4.25
 1.06 Intr +  45115  45246  132  0  0  112   91    76 0.089  11.14
 1.07 Intr +  50486  50782  297  1  0  103   64   212 0.994  17.37
 1.08 Intr +  54082  54157   76  0  1   62   91    40 0.693   0.79
 1.09 Intr +  54876  55021  146  1  2   41   84    45 0.326  -0.60
 1.10 Intr +  56937  57054  118  2  1   55   87    55 0.878   2.14
 1.11 Intr +  57166  57351  186  2  0   67   36   222 0.503  14.56
 1.12 Intr +  57834  57979  146  1  2   47  100    10 0.449  -1.90
 1.13 Intr +  63607  63756  150  0  0   65  111    48 0.490   5.16
 1.14 Intr +  77974  78135  162  0  0  101   91    99 0.993  11.67
 1.15 Intr +  79781  79854   74  1  2  110   85    43 0.966   4.40
 1.16 Intr +  90127  90429  303  1  0   78   39   187 0.091   8.51
 1.17 Intr +  99769 100087  319  1  1   90   52   126 0.727   5.16
 1.18 Intr + 103581 104024  444  2  0   50   88   441 0.863  33.90
 1.19 Intr + 109152 109269  118  2  1   85   82    58 0.887   4.94
 1.20 Intr + 110793 110978  186  1  0   56   84   253 0.982  21.36
 1.21 Intr + 112751 112896  146  0  2   91   84    40 0.999   3.90
 1.22 Intr + 113976 114125  150  2  0   13   77   122 0.774   3.96
 1.23 Intr + 115666 115827  162  0  0   61   95    36 0.766   1.77
 1.24 Intr + 118445 118518   74  1  2   81   91    33 0.993   1.10
 1.25 Intr + 121304 121463  160  2  1   23   79   159 0.770   8.49
 1.26 Intr + 122617 122751  135  0  0   69   95    70 0.930   6.56
 1.27 Intr + 126364 126528  165  0  0   76   26   230 0.263  15.76
 1.28 Intr + 132328 132526  199  0  1   78   97    98 0.270   8.62
 1.29 Intr + 132630 133033  404  1  2   34   94   692 0.268  58.55
 1.30 Intr + 144199 144297   99  0  0  114   87    -4 0.315   2.41
 1.31 Intr + 148821 148900   80  2  2   70  113    64 0.998   5.45
 1.32 Intr + 149507 149690  184  2  1   97  121   102 0.998  14.19
 1.33 Intr + 159316 160134  819  0  0  137   49   581 0.072  50.72
 1.34 Intr + 166745 167001  257  1  2   -1   41   458 0.010  28.44
 1.35 Term + 167204 167522  319  2  1  -20   48   414 0.956  20.95
 1.36 PlyA + 168665 168670    6                               1.05

 2.04 PlyA - 170189 170184    6                               1.05
 2.03 Term - 205766 205493  274  1  1   32   40   217 0.806   6.24
 2.02 Intr - 205950 205917   34  1  1   86   88    46 0.500   1.68
 2.01 Intr - 213460 213307  154  1  1   58   55    87 0.328   2.05

Suboptimal exons with probability > 0.800

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

S.001 Term + 159316 160191  876  0  0  137   36   563 0.928  48.58
S.002 Init + 166751 167001  251  1  2   72   41   453 0.873  35.94
S.003 Init + 199875 199916   42  2  0   77   98    47 0.855   5.02


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815588f:68856226_69082809|GENSCAN_predicted_peptide_1|2936_aa
MHWAARLEPEVVVGKGGGGLGMRVGEGSFRHTHSPGATQSTAALLAVAGDKHCIGNFISE
PCQKKSCINKFDKGIAIPSEDILYTTLGTLIKERKIYHTGEGYFIVTPQTYFITNTTTQE
NKRMLPSDESRLMPASMTYLVSMESCAESAQENAAPISHCQSCQCFRDMHTQDVQEAPVA
AEVTRKSHRGLGESVSWVQNGAVSVSAEHHICESTKPLPYTRDKEKGKKFGFSLLWRSLS
RKEKPKTEHSSFSAQFPPEEWPVRDEDDLDNIPRDVEHEIIKRINPILTVDNLIKHTVLM
QKYEEQKKYNSQGTSTDMLTIGHKYPSKEGVKKRQGLSAKPQGQGHSRRDRHKARNQGSE
FQPGSIRLEKHPKLPATQPIPRIKSPNEMVGQKPLGEITTVLGSHLIYKKRISNPFQGLS
HRGSTISKGHKIQKTSDLKPSQTGPKEKPFQKPRSLDSSRIFDGKAKEPYAEQPNDKMEA
ESIYINDPTVKPINDDFRGHLFSHPQQSMLQNDGKCCPFMESMLRYEVYGGENEVIPEVL
RKSHSHFDKLGETKQTPHSLPSRGASFSDRTPSACRLVDNTIHQFQNLGLLDYPVGVNPL
RQAARQDKDSEELLRKGFVQDAETTSLENEQLSNDDQALYQNEVEDDDGACSSLYLEEDD
ISENDDLRQMLPGHSQYSFTGGSQGNHLGKQKVIERSLTEYNSTMERVESQVLKRNECYK
PTGLHATPGESQEPNLSAESCGLNSGAQFGFNYEEEPSVAKCVQASAPADERIFDYYSAR
KASFEAEVIQDTIGDTGKKPASWSQSPQNQEMRKHFPQKFQLFNTSHMPVLAQDVQYEHS
HLEGTENHSMAGDSGIDSPRLFEAYFTVVVATVPGGRRRWPVMPGKLLWGDIMELEAPLE
ESESQKKERQKSDRRKSRHHYDSDEKSETRENGVTDDLDAPKAKKSKMKEKLNGDTEEGF
NRLSDEFSKSHKSRRKDLPNGDIDEYEKKSKRVSSLDTSTHKSSDNKLEETLTREQKEGA
FSNFPISEETIKLLKVKTFGPVYEGKDLIAQARTGTGKTFSFAIPLIERLQRNQETIKKS
RSPKVLVLAPTRELANQVAKDFKDITRKLSVACFYGGTSYQSQINHIRNGIDILVGTPGR
IKDHLQSGRLDLSKLRHVVLDEVDQMLDLGFAEQVEDIIHESYKTDSEDNPQTLLFSATC
PQWVYKVAKKYMKSRYEQVDLVGKMTQKAATTVEHLAIQCHWSQRPAVIGDVLQVYSGSE
GRAIIFCETKKNVTEMAMNPHIKQNAQCLHGDIAQSQREITLKGFREGSFKVLVATNVAA
RGLDIPEVDLVIQSSPPQGITFKRVGVPSTMDLVKSKSMDAIRQSGMIPTGYSQCQPNYL
KLKNIMMETHLLIPDRGVAGQVVDQAGQAGQVVDLAAGQVDRVDKEVAQEVDKMVEDEVG
IEIDQEVGATNGVLTEYLIVNLPVCLLDQGPQVVNSLNPTTVTGRCFEFTTRKAAFPVLP
ASPGSALLREVTRAGWTQGGELPLPLHAVEKTGRPGQPALKMPGKLRSDAGLESDTAMKK
GETLRKQTEEKEKKEKPKSDKTEEIAEEEETVFPKAKQVKKKAEPSEVDMNSPKSKKAKK
KEEPSQNDISPKTKSLRKKKEPIEKKVVSSKTKKVTKNEEPSEEEIDAPKPKKMKKEKEM
NGETREKSPKLKNGFPHPEPDCNPSEAASEESNSEIEQVLVLAPTRELANQVSKDFSDIT
KKLSVACFYGGTPYGGQFERMRNGIDILVGTPGRIKDHIQNGKLDLTKLKHVVLDEVDQM
LDMGFADQVEEILSVAYKKDSEDNPQTLLFSATCPHWVFNVAKKYMKSTYEQVDLIGKKT
QKTAITVEHLAIKCHWTQRAAVIGDVIRVYSGHQGRTIIFCETKKEAQELSQNSAIKQDA
QSLHGDIPQKQREITLKGFRNGSFGVLVATNVAARGLDIPEVDLVIQSSPPKGIKFKRIG
VPSATEIIKASSKDAIRLLDSVPPTAISHFKQSAEKLIEEKGAVEALAAALAHISGATSV
DQRSLINSNVGFVTMILQCSIEMPNISYAWKELKEQLGEEIDSKVKGMVFLKGKLSNQNW
KDHGKDMEASGDSGKAVEASGDSGTETEDSEDSGKAVEAREDSDQEVATKGQSGDKLTAA
GGGEGGGNTLIDNFISMRMVAVVIAASSHWSLPSVLRFSGRVILVPIPQRPQRVESQVCE
KFQAALALSRVELHKNPEKEPYKSKYSARALLEEVKALLGPAPEDEDERPEAEDGPGAGD
HALGLPAEVVEPEGPVAQRAVRLAVIEFHLGVNHIDTEELSAGEEHLVKCLRLLRRYRLS
HDCISLCIQAQNNLGILWSEREEIETAQAYLESSEALYNQYMKEVGSPPLDPTERFLPEE
EKLTEQERSKRFEKVYTHNLYYLAQVYQHLEMFEKAAHYCHSTLKRQLEHNAYHPIEWAI
NAATLSQFYINKDNIGELDLDKQSELRALRKKELDEEESIRKKAVQFGTGELCDAISAVE
EKVSYLRPLDFEEARELFLLGQHYVFEAKEFFQIDGYVTDHIEVVQDHSALFKVLAFFET
DMERRCKMHKRRIAMLEPLTVDLNPQYYLLVNRQIQFEIAHAYYDMMDLKVAIADRLRDP
DSHIVKKINNLNKSALKYYQLFLDSLRDPNKVFPEHIGEDVLRPAMLAKFRVARLYGKII
TADPKKELENLATSLEHYKFIVDYCEKHPEAAQEIEVELELSKEMHGMVIYWDDMEKIWH
HTFYNELHVAFEEYPVLLTKGPLNPKANHEKMAQIMLETFNTPPMHVAIQVVLYLYSSGH
TTGIVMDSGDRRWPHGSSWEKSYELSDGQVITSSNKRFHCPEALFQPSFLGMESCGIYKT
TFKSIVKCDVDIHKDLYANTVLSGSTTMYPGIALQDAEGDHCPGSQHEEDQDHCSF

>gi568815588f:68856226_69082809|GENSCAN_predicted_CDS_1|8811_bp
atgcactgggctgccaggctggagcctgaggtggtggtgggaaagggaggaggtggcctg
ggcatgagggttggtgaagggagcttcaggcacactcacagccctggtgcaacacagtct
actgcagcattactggctgtggcgggggacaagcattgtatagggaactttatatcagaa
ccctgccagaagaagtcctgcatcaacaaatttgataagggcattgcaattccatcggaa
gatattctttataccactctgggaacgctgattaaagaaaggaagatttatcacactgga
gaaggatacttcatagttactcctcagacttacttcattacaaatacaaccacccaggaa
aataagagaatgctgccatcagatgaaagtcgcctgatgccagcttccatgacatatctg
gtgagcatggagagctgtgcagagtcagcccaagagaatgctgcccccatatcccactgt
cagtcttgccagtgtttccgggacatgcacactcaggatgttcaggaagcaccagttgct
gcagaagtgactaggaagagtcacagaggtcttggggaatccgtatcttgggtacagaat
ggggcagtttcagtgtctgcggagcaccacatttgtgagagcaccaaacctttaccatac
acaagagataaagaaaaaggcaagaagtttggttttagtctcttatggcgcagcttatct
agaaaggagaagcccaaaacagaacacagcagtttctctgctcagttcccacctgaagaa
tggcccgtccgagatgaagatgacttggacaatatccctcgagatgttgaacatgagata
atcaaacgaattaaccccattttgactgttgacaatttaatcaaacacactgtcctaatg
caaaaatacgaagaacagaaaaaatataatagccagggcacttccactgacatgctgaca
atcgggcataagtatccttcaaaagagggggttaagaaaaggcagggtctgtctgcaaaa
cctcaagggcagggccattctcgaagggatagacacaaagccaggaatcagggaagtgag
tttcagccaggaagcattagactggagaaacaccccaagctccctgctacacagcccatc
cccagaattaaaagcccaaatgaaatggtaggtcagaaaccacttggtgagattacaaca
gtgctaggttcccatttgatttacaaaaagcgaatcagtaatcctttccagggtttgtct
caccgaggaagcacaatatccaaagggcacaaaattcagaagacgagtgatctgaaaccc
agccagactggaccaaaggaaaagcctttccaaaagcctaggtccttggattcctcaaga
atctttgatggtaaagccaaagagccatatgctgaacaacctaatgataaaatggaagca
gaatccatttacataaatgaccctactgtcaaacccatcaatgatgacttcagaggtcac
ctcttcagtcaccctcaacagagcatgttgcaaaatgatggtaaatgctgtccctttatg
gaaagcatgttgagatatgaagtgtatggtggagaaaatgaggtaattcctgaagtcttg
aggaaaagtcattcccactttgacaaattaggggagaccaaacagactccgcatagtctg
ccatcacgaggtgcctccttttcagaccgaacaccctctgcttgtagattagtggataac
acaatacaccagtttcaaaatcttggccttttggattacccagttggcgtgaacccttta
agacaagctgcaagacaagacaaagactcagaagaattattgagaaaaggatttgtccag
gatgcagagactacaagcctagaaaatgaacagctttctaacgatgaccaggccttgtat
cagaatgaagtggaagatgatgatggtgcctgtagttcattatatctagaggaggatgac
atttctgagaatgacgacttacgtcaaatgctgcctggccacagtcagtattccttcaca
ggtggaagccagggaaatcatttaggaaaacaaaaagtgattgagagatctctgaccgag
tacaacagcacaatggagagggttgagtctcaggtgcttaaaagaaatgaatgctacaaa
cccactgggctgcatgctaccccaggtgaaagccaagaacctaacctctctgctgaaagt
tgtggcctaaattcaggggcccagtttggttttaactacgaagaagaacccagtgttgct
aaatgtgtacaggcctcagcacctgctgatgaaagaatctttgattactatagcgcaaga
aaagccagttttgaagctgaagtcatacaagacactattggtgacacaggaaagaagcca
gctagctggagtcagagtcctcagaatcaggaaatgagaaaacatttcccacaaaagttc
caacttttcaacacttcacatatgccagtgttggctcaggatgtccaatatgaacacagt
cacttggaagggacagaaaatcacagcatggcaggagatagtggaatagattctccacgg
ctttttgaagcttattttactgtggttgtggccactgtgcccggagggaggcggcggtgg
ccagtaatgcctgggaaactcctctggggggacattatggagctggaagcacccttggag
gagtccgagagccagaagaaggagaggcaaaagagtgacagaaggaagtcaaggcaccat
tatgactcggatgagaaatcagaaacaagagaaaatggtgttacagatgacctggatgct
cccaaggccaaaaaatctaaaatgaaagagaagctaaatggagacactgaagaaggattt
aatagactttcagatgaattctccaaatctcataagtcaagaagaaaagatctaccaaat
ggagatatagatgaatatgaaaaaaaatcaaagcgagtatcatctttagatacttctact
cataaatcaagtgataataaactagaggagaccttaacacgtgaacagaaagaaggagcc
ttctccaattttcctatttctgaagagactataaagcttctgaaagttaagacctttggt
cctgtatatgaaggaaaagatttaatagctcaagcacggacaggaacaggaaagacattc
tcttttgccatccccttaattgaaagactccaaagaaatcaagaaacaattaaaaaaagc
cgctcaccaaaggtacttgttttggctccaacaagggaactggcaaaccaagtagccaaa
gacttcaaagatataactaggaaactcagcgtggcgtgtttttatggtggaacatcatat
caaagccaaattaatcatattcgaaatggtattgacatcttggttggaacacctggtcgt
atcaaagaccatctgcagagtggccgattggatctttctaaactgcgacatgttgtgctt
gatgaagtggatcagatgttagatttaggtttcgctgaacaagttgaagatattattcat
gaatcctacaaaactgattctgaagacaatcctcagactttacttttttctgcaacttgc
ccacagtgggtatacaaagttgcaaaaaaatacatgaaatccagatatgaacaggttgac
cttgttggaaaaatgactcaaaaggctgcaactactgtggaacatttggccatccagtgt
cattggtctcagaggccagcagttattggagatgtccttcaagtctacagtgggtctgaa
gggagggctattattttctgtgagaccaagaagaatgtaactgaaatggccatgaatcca
cacataaaacagaatgcccagtgtttacatggggacattgcacagtcacaaagagaaatt
acactaaaaggcttcagagaaggtagttttaaagttttggtggcaaccaatgtggctgcc
cgtggtttggacattcctgaagttgacctggtgattcaaagttctcctcctcagggaatt
acttttaaacgtgtaggtgttccttctacaatggatttagttaaatctaaaagcatggat
gccatcaggcagagtggcatgattccgactggatactctcagtgccagccaaattacctg
aaattgaagaatattatgatggaaacacatcttctaattccagacagaggagtggctggt
caagtggtcgatcaggccggtcaggccggtcaggtggtcgatctggcggccggtcaggta
gacagagtcgacaaggaagtcgctcaggaagtcgacaagatggtagaagacgaagtggga
atagaaatcgatcaagaagtgggggccacaaacggagttttgactgagtatttgatagtt
aatctaccagtgtgccttctagaccaagggccgcaagtggtcaattcactaaatccaacc
acagtcacaggccgctgctttgaatttaccacgcggaaagcagcttttcctgtgcttcct
gcttcccccggaagtgccttgctacgggaagtgacgagagccgggtggacccagggtggg
gaactacctcttcctctccacgcggttgagaagaccggtcggcctgggcaacctgcgctg
aagatgccgggaaaactccgtagtgacgctggtttggaatcagacaccgcaatgaaaaaa
ggggagacactgcgaaagcaaaccgaggagaaagagaaaaaagagaagccaaaatctgat
aagactgaagagatagcagaagaggaagaaactgttttccccaaagctaaacaagttaaa
aagaaagcagagccttctgaagttgacatgaattctcctaaatccaaaaaggcaaaaaag
aaagaggagccatctcaaaatgacatttctcctaaaaccaaaagtttgagaaagaaaaag
gagcccattgaaaagaaagtggtttcttctaaaaccaaaaaagtgacaaaaaatgaggag
ccttctgaggaagaaatagatgctcctaagcccaagaagatgaagaaagaaaaggaaatg
aatggagaaactagagagaaaagccccaaactgaagaatggatttcctcatcctgaaccg
gactgtaaccccagtgaagctgccagtgaagaaagtaacagtgagatagagcaggtactg
gttcttgcacctacaagagagttggcaaatcaagtaagcaaagacttcagtgacatcaca
aaaaagctgtcagtggcttgtttttatggtggaactccctatggaggtcaatttgaacgc
atgaggaatgggattgatatcctggttggaacaccaggtcgtatcaaagaccacatacag
aatggcaaactagatctcaccaaacttaagcatgttgtcctggatgaagtggaccagatg
ttggatatgggatttgctgatcaagtggaagagattttaagtgtggcatacaagaaagat
tctgaagacaatccccaaacattgcttttttctgcaacttgccctcattgggtatttaat
gttgccaagaaatacatgaaatctacatatgaacaggtggacctgattggtaaaaagact
cagaaaacggcaataactgtggagcatctggctattaagtgccactggactcagagggca
gcagttattggggatgtcatccgagtatatagtggtcatcaaggacgcactatcatcttt
tgtgaaaccaagaaagaagcccaggagctgtcccagaattcagctataaagcaggatgct
cagtccttgcatggagacattccacagaagcaaagggaaatcaccctgaaaggttttaga
aatggtagttttggagttttggtggcaaccaatgttgctgcacgtgggttagacatccct
gaggttgatttggttatacaaagctctccaccaaagggaattaagttcaaacgaataggt
gttccttctgcaacagaaataataaaagcttccagcaaagatgccatcaggcttttggat
tccgtgcctcccactgccattagtcacttcaaacaatcagctgagaagctgatagaggag
aagggagctgtggaagctctggcagcagcactggcccatatttcaggtgccacgtccgta
gaccagcgctccttgatcaactcaaatgtgggttttgtgaccatgatcttgcagtgctca
attgaaatgccaaatattagttatgcttggaaagaacttaaagagcagctgggcgaggag
attgattccaaagtgaagggaatggtttttctcaaaggaaagctgagcaaccagaactgg
aaggaccacgggaaggatatggaggcttcaggggacagcgggaaggcagtcgaggcttca
ggggacagcgggacggaaacagaagattcagaggacagcgggaaggcagtagaggcccga
gaggacagcgatcaggaggtggcaacaaaaggtcaatctggagataaactcaccgctgca
gggggcggggaaggaggtgggaacacgctcattgacaacttcatttccatgagaatggtt
gctgtggtgattgctgcgtcttcccattggtcattgccgagcgtattgcggttctccggg
agggttatattggttcccattccacagcggccgcaacgtgtcgagagccaggtctgcgag
aaattccaggcggcgctcgctctgtcgcgggtggaactgcataaaaatccggagaaggaa
ccatacaagtccaaatacagcgcccgggcgctactggaagaggtcaaggcgctgctcggc
cctgcgcctgaggacgaggatgagcggcctgaggccgaggacggcccgggtgccggtgac
cacgccctggggctgccggctgaggtggtggagcccgaggggcccgtcgcccagcgagcg
gtgaggctggcagtcatcgagttccacctcggggtgaaccacatcgacacggaggagctg
tcggcgggggaggagcacctggtgaaatgcctgcggctgctgcgcaggtaccggctctcg
cacgactgcatctctctctgcatccaggcgcagaataacctgggtatcttgtggtctgaa
agagaagaaattgaaactgcacaggcttacctagagtcatcagaagcactatataatcag
tatatgaaagaggttgggagtcctcctcttgatcctactgagcgttttcttcctgaagaa
gagaaacttactgaacaagagagatcaaaaagatttgaaaaggtttatactcataaccta
tattacctagctcaagtctaccagcatctggaaatgtttgagaaggctgctcactattgc
catagtacactaaaacgccagcttgagcacaatgcctaccatcctatagagtgggctatc
aatgctgctaccttgtcacagttttacatcaataaggacaacataggagagcttgatctt
gataaacagtctgaacttagagctttaaggaaaaaagaactagatgaggaggaaagcatt
cggaaaaaagctgtgcagtttggaaccggtgaactgtgtgatgccatctctgcagtagaa
gagaaagtgagctacttgagacctttagattttgaagaagccagagaacttttcttattg
ggtcagcactatgtctttgaggcaaaagagttctttcagattgatggttatgtcactgac
catattgaagttgtccaagaccacagtgctctgtttaaggtgcttgcattctttgaaact
gacatggagagacggtgcaagatgcataaacgcagaatagccatgctagagcccctaact
gtagacctgaatccacagtattatctgttggtcaacagacagatccagtttgaaattgca
catgcttactatgatatgatggatttgaaggttgccattgctgacaggctaagggatcct
gattcacacattgtaaaaaaaataaataatcttaataagtcagcactgaagtactaccag
ctcttcttagactccctgagagacccaaataaagtattccctgagcatataggggaagat
gttcttcgccctgccatgttagctaagtttcgagttgcccgtctctatggcaaaatcatt
actgcagatcccaagaaagagctggaaaatttggcaacatcattggaacattacaaattt
attgttgattactgtgaaaagcatcctgaggccgcccaggaaatagaagttgagctagaa
cttagtaaagagatgcacggcatggtcatctactgggatgacatggagaagatctggcac
cacaccttctacaatgagctgcatgtggctttcgaggagtaccctgtgctgctgaccaaa
ggccccctgaatcccaaggccaaccatgagaagatggcccagattatgttggagaccttc
aacaccccacccatgcacgtggccatccaggtcgtgctgtacctgtactcctctggccat
accactggcatcgtgatggactctggcgacaggagatggccccacgggtcctcctgggag
aagagctatgagctgtcagatggccaggtcatcaccagcagcaacaagcggttccactgc
cccgaggcgctcttccagccttctttcctgggcatggaatcctgtggcatctacaaaact
accttcaaatccatcgtgaagtgtgacgtggacatccacaaagacctgtacgccaacaca
gtgctatctggcagcaccaccatgtaccctggcatcgctctgcaggatgcagagggggat
cactgccctggctcccagcatgaggaggatcaagatcattgctccttctga

>gi568815588f:68856226_69082809|GENSCAN_predicted_peptide_2|153_aa
AGETGIKATHCLGPMSPGCPNPFATLGHLRPVLVRGCQHVTSSRPGLSDLQVLKVFGKKN
KWRRSSRPSDLVGISSDLQKLLVWWAPDTWCFCCLGAAEDPEPCLSSTLTEAAKYRKYTR
SKGKHALQRRPLITIVYVGSNGTEFAARVFFLS

>gi568815588f:68856226_69082809|GENSCAN_predicted_CDS_2|462_bp
gcaggggagacaggaatcaaggccactcactgcctgggcccaatgtcccctggatgtccc
aacccttttgctaccctgggccatctacgaccagttctggtgcgaggatgccagcatgta
acctccagtaggccagggctgtcggatctccaggtgctaaaagtttttggcaagaaaaac
aagtggaggaggagcagccgcccgtcagacctggtggggatcagcagtgacctgcagaag
ttgctggtgtggtgggcaccggatacctggtgtttctgctgcctcggtgctgctgaggac
ccagagccctgcctgagcagcacgctcacagaggcagcgaagtacaggaagtacacaagg
tcaaaaggaaaacacgctctccagagacgtcctctgatcactatcgtgtacgttgggtcg
aatggaacagaatttgctgctagagtgtttttcctctcctaa