GENSCAN 1.0	Date run:  8-Nov-116	Time: 00:01:45

Sequence gi568815582r:81070743_81281213 : 210471 bp : 48.24% 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..
----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------

 1.07 PlyA -   1648   1643    6                               1.05
 1.06 Term -  12221  12124   98  0  2   66   48   129 0.910   4.83
 1.05 Intr -  13852  13721  132  2  0   88  103    96 0.990  11.72
 1.04 Intr -  16922  16859   64  2  1   47  113   -29 0.367  -6.21
 1.03 Intr -  19938  19859   80  1  2   83   72    94 0.663   6.57
 1.02 Intr -  20721  20680   42  1  0  100   89    12 0.607   0.71
 1.01 Init -  25536  25389  148  0  1  116  102   182 0.989  20.65
 1.00 Prom -  33111  33072   40                              -7.06

 2.49 PlyA -  34075  34070    6                               1.05
 2.48 Term -  34830  34776   55  2  1   93   50    66 0.906   0.33
 2.47 Intr -  37065  36896  170  0  2   71   38   132 0.941   5.24
 2.46 Intr -  37951  37820  132  1  0  112  109   109 0.999  16.24
 2.45 Intr -  38553  38452  102  0  0   60   82   101 0.992   7.07
 2.44 Intr -  41631  41421  211  2  1   80  115   202 0.999  21.02
 2.43 Intr -  41863  41669  195  0  0   37   15   159 0.536   2.03
 2.42 Intr -  46789  46629  161  1  2  105    9   241 0.011  16.69
 2.41 Intr -  51031  50844  188  2  2   38  110   231 0.822  19.71
 2.40 Intr -  53042  52909  134  1  2   96   43   261 0.998  22.69
 2.39 Intr -  56599  56410  190  2  1  -18    3    50 0.142 -15.46
 2.38 Intr -  57324  57019  306  1  0  100  116   275 0.838  27.92
 2.37 Intr -  59902  59717  186  2  0   67  111   217 0.998  21.56
 2.36 Intr -  62958  62821  138  1  0  110   57   222 0.979  21.74
 2.35 Intr -  66791  66695   97  2  1   60   95    78 0.608   5.28
 2.34 Intr -  68970  68766  205  2  1  115   77   235 0.981  24.30
 2.33 Intr -  70783  70555  229  2  1  107   89   164 0.737  15.33
 2.32 Intr -  76772  76556  217  2  1  102  121   106 0.954  13.38
 2.31 Intr -  77615  77368  248  0  2  145    5   176 0.778  12.18
 2.30 Intr -  79147  78927  221  0  2   96   55   193 0.538  14.75
 2.29 Intr -  81171  81025  147  2  0   93   80   187 0.999  17.75
 2.28 Intr -  83397  83219  179  0  2   71   89   142 0.999  11.32
 2.27 Intr -  83596  83495  102  1  0  110   77   145 0.999  15.97
 2.26 Intr -  86347  86117  231  1  0   89  100   353 0.901  34.57
 2.25 Intr -  89075  88882  194  0  2  113  110   157 0.999  19.61
 2.24 Intr -  90163  89941  223  1  1   63   96   151 0.997  11.10
 2.23 Intr -  92989  92858  132  1  0   92   60    75 0.976   5.94
 2.22 Intr -  94028  93902  127  1  1   93   85    89 0.953   9.78
 2.21 Intr -  95221  95097  125  1  2   88   87   135 0.998  12.78
 2.20 Intr -  97359  97177  183  0  0   18   94   146 0.531   8.18
 2.19 Intr - 100332 100201  132  0  0   72  109   125 0.989  13.84
 2.18 Intr - 104172 103819  354  0  0   80   92   247 0.959  19.79
 2.17 Intr - 104966 104863  104  0  2   62  100   129 0.515  11.39
 2.16 Intr - 105757 105688   70  1  1   35  115    63 0.648   2.45
 2.15 Intr - 107033 106951   83  0  2   81   54    31 0.583  -1.64
 2.14 Intr - 107241 107065  177  1  0   86   86   141 0.994  13.59
 2.13 Intr - 109044 108903  142  0  1   91   80    23 0.724   1.73
 2.12 Intr - 110529 110409  121  2  1  124   99   105 0.917  15.70
 2.11 Intr - 114957 114750  208  1  1   86   75   115 0.994   8.14
 2.10 Intr - 118256 118139  118  2  1   91   66   155 0.994  13.64
 2.09 Intr - 120026 119923  104  0  2   75   65    52 0.886   1.49
 2.08 Intr - 124283 124134  150  0  0  108   53   136 0.984  12.23
 2.07 Intr - 128324 127920  405  0  0   62   83   241 0.965  15.32
 2.06 Intr - 131983 131763  221  0  2   46  105   168 0.255  12.25
 2.05 Intr - 136893 136746  148  1  1   60   94   129 0.756   9.99
 2.04 Intr - 137859 137749  111  1  0   60  113   112 0.992  11.25
 2.03 Intr - 144452 144267  186  0  0  118   91   226 0.996  25.56
 2.02 Intr - 145664 145503  162  0  0   91   75   187 0.999  17.65
 2.01 Init - 149628 149328  301  0  1   66   73   214 0.988  13.14
 2.00 Prom - 150092 150053   40                              -6.16

 3.00 Prom + 159234 159273   40                              -0.96
 3.01 Init + 168167 168230   64  1  1   67   99     2 0.563   0.51
 3.02 Intr + 171915 172037  123  1  0  109   -9    89 0.648   1.86
 3.03 Intr + 174733 174861  129  2  0   59   93    92 0.684   7.47
 3.04 Intr + 188934 189063  130  1  1  126   32    72 0.977   5.15
 3.05 Intr + 191394 191541  148  0  1  124   64   233 0.992  24.74
 3.06 Intr + 193898 194045  148  1  1   67   96    75 0.917   6.01
 3.07 Intr + 197166 197389  224  1  2   55  100   136 0.925   9.35
 3.08 Intr + 199417 199674  258  0  0  100   90   518 0.911  50.86
 3.09 Intr + 210115 210220  106  0  1   34   93   139 0.316   8.79

Suboptimal exons with probability > 0.800

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

S.001 Term -  30601  30381  221  2  2   65   43   143 0.839   4.70
S.002 Term -  49721  49470  252  2  0   91   42   107 0.934   2.04


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815582r:81070743_81281213|GENSCAN_predicted_peptide_1|187_aa
MALRVVRSVRALLCTLRAVPSPAAPCPPRPWQLGVGAVRTLRTGPALLSGFPESFDRIFR
EVLMRKFTEKHEWVTTENGIGTVGISNFAQEALGDVVYCSLPEVGTKLNKQDEFGALESV
KAASELYSPLSGEVTEINEALAENPGLVNKSCYEDGWLIKMTLSNPSELDELMSEEAYEK
YIKSIEE

>gi568815582r:81070743_81281213|GENSCAN_predicted_CDS_1|564_bp
atggcgctgcgagtggtgcggagcgtgcgggccctgctctgcaccctgcgcgcggtcccg
tcacccgccgcgccctgcccgccgaggccctggcagctgggggtgggcgccgtccgtacg
ctgcgcactggacccgctctgctctcgggattccctgaatcgtttgaccgtatctttaga
gaagtgctcatgcgtaaattcacagagaaacacgaatgggtaacaacagaaaatggcatt
ggaacagtgggaatcagcaattttgcacaggaagcgttgggagatgttgtttattgtagt
ctccctgaagttgggacaaaattgaacaaacaagatgagtttggtgctttggaaagtgtg
aaagctgctagtgaactctattctcctttatcaggagaagtaactgaaattaatgaagct
cttgcagaaaatccaggacttgtaaacaaatcttgttatgaagatggttggctgatcaag
atgacactgagtaacccttcagaactagatgaacttatgagtgaagaagcatatgagaaa
tacataaaatctattgaggagtga

>gi568815582r:81070743_81281213|GENSCAN_predicted_peptide_2|2774_aa
MSAVGLVLLVLALRLRATTVKPEEGSFCSNSQVAFRDACYEFVPLGRTFRDAQSWCEGQG
GHLVFIQDEGTQWFLQKHISQDREWWIGLTWNLARNGTTEGPGTWLDTSNVTYSNWHGGQ
AAAAPDTCGHIGRGPSSEWVTSDCAQTFAFMCEFRVGQSLACEGLNATVHCGLGQVIQVQ
DAVYGRQNPHFCTQDAGRPSDLEQGCSWANVKEEVAGQCQELQSCQVAADETYFGNLCPT
QGSYLWVQYQCREALQLMVSSESFIFDNVTISLTWLLSPYIGNLSCIISTGDSHTFDPYN
PPSNVTHQFTSPGEFTVFAECTTSEWHVTAQRQVTVRDKMETLSVTACSGLSQSGAGPLC
QAVFGDPLWIQVELDGGTGVTYTVLLGDITLAESTTQKGSLPYNLILDRETQKLMGPGRH
RLEIQATGNTTTSTISRNITVHLVELLSGLQASWASDHLELGQDLLITISLAQGTPEELT
FEVAGLNATFSHEQVSFGEPFGICRLAVPVEGTFLVTMLVRNAFSNLSLEIGNITITGKV
FLQGSIKPFTKSPEHCTCLGSTFYKVSNQSLIPVPTVFTAPSGLQEPSGMNAEGKSKDKG
DMEVYIQPGPYVDPFTTVTLGWPDNDKELRFQWSCGSCWALWSSCVERQLLRTDQRELVV
PASCLPPPDSAVTLRLAVLRGQELENRAEQCLYVSAPWELRPRVSCERNCRPVNASKDIL
LRVTMGEDSPVAMFSWYLDNTPTEQAEPLLDACRLRGFWPRSLTLLQSNTSTLLLNSSFL
QSRGEVIRIRATALTRHAYGEDTYVISTVPPREVPACTIAPEEGTVLTSFAIFCNASTAL
GPLEFCFCLESAPGLIFLQNRGLFSLGAAKNMFRVRERLMWKCITVKRAVNGAESERKKF
KQVYLPLGEENNDFVLTVVISATNRAGDTQQTQAMAKVALGDTCVEDVAFQAAVSEKIPT
ALQGEGGPEQLLQLAKAVSSMLNQEHESQGSGQSLSIDVRQKVPVGSWGAPFIPFLWGPR
VCVRPFGLWIKVHGSGEKPVVSPKRLTPPPSLVFWVREHVLGSLSAVTTGLEDVQRVQEL
AEVLREVTCRSKELTPSAQWEASLALQHASEALLTVSAKARPEDQRRQAATRDLFQAVGS
VLEASLSNRPEEPAEASSSQIATVLRLLRVMEHVQTTLLLGKLPGGLPAMLATPSISVYT
NRIQPWSWQGSSLRPDAADSATFMLPAASSLSSLEGGQEPVDIKIMSFPKSPFPARSHFD
VSGTVGGLRVTSPSGQLIPVKNLSENIEILLPRHSQRHSQPTVLNLTSPEALWVNVTSGE
ATLGIQLHWRPDIALTLSLGYGYHPNKSSYDAQTHLVPMVAPDELPTWILSPQDLRFGEG
VYYLTVVPESDLEPAPGRDLTVGITTFLSHCVFWDEVQETWDDSGCQVGPRTSPYQTHCL
CNHLTFFGSTFLVMSNAINIHQTAELFATFEDNPVVVTTVGCLCVVYVLVVIWARRKDAQ
DQAKVKVTVLEDNDPFAQYHYLVTVYTGHRRGAATSSKVTVTLYGLDGEREPHHLADPDT
PVFERGAVDAFLLSTLFPLGELRSLRLWHDNSGDRPSWYVSRVLVYDLVMDRKWYFLCNS
WLSINVGDCVLDKVFPVATEQDRKQFSHLFFMKTSAGFQDGHIWYSIFSRCARSSFTRVQ
RVSCCFSLLLCTMLTSIMFWGVPKDPAEQKMDLGNSQCHGGKIEFTWQEVMIGLESSILM
FPINLLIVQIFQNTRPRVAKEQNTGKWDRGSPNLTPSPQPMEDGLLTPEAVTKAGPQPQL
AWGDVSRIVSSLFKALKVPSPALGWDSVNLMDINSLLALVEDVIYPQNTSGQVFWEEAKK
REDPVTLTLGSSEMKEKSQCPKPKAARSGPWKDSAYRQCLYLQLEHVEQELRLVGPRGFS
QPHSHAQALRQLQTLKGGLGVQPGTWAPAHASALQVSKPPQGLPWWCILVGWLLVAATSG
VAAFFTMLYGLHYGRASSLRWLISMAVSFVESMFVTQPLKVLGFAAFFALVLKRVDDEED
TVAPLPGHLLGPDPYALFRARRNSSRDVYQPPLTAAIEKMKTTHLKEQKAFALIREILAY
LGFLWMLLLVAYGQRDPSAYHLNRHLQHSFTRGFSGVLGFREFFKWANTTLVSNLYGHPP
GFITDGNSKLVGSAQIRQVRVQESSCPLAQQPQAYLNGCRAPYSLDAEDMADYGEGWNAT
TLSNGSTRARTNVKGIPSGANSLCTGEEATWSPWGLIAKARQETKDFVTAKVIAEHYTGL
SQLPTKGRERCLHVPAIQSLGAFDAFTAAERSLLFVQRKASPHPTRILRYLFDNTWLDAL
TRAVFVESTVYNANVNLFCIVTLTLETSALEAMALSNQVAQSEQNALCSPGTFFTHAALQ
SLRLYPFTDGWHPFVVAAELIYFLFLLYYMVVQGKRMSKETWGYFCSKWNLLELAIILAS
WSALAVFVKRAVLAERDLQRCRNHREDILLLLLPLIIIIIITTYLGELGWLSFPDLFLDL
MAYEMMIELIPHPEMPINPVLHPDEFWLNCSRGISFSETAAADAALGYIIAFLVLLSTVK
LWHLLRLNPKMNMITAALRRAWGDISGFMIVILTMLLAYSIASNLIFGWKLRSYKTLFDA
AETMVSLQLGIFNYEEVLDYSPVLGSFLIGSCIVFMTFVVLNLFISVILVAFSEEQKYYQ
VNEQPRLKTHTTLQNLNPRRHGSEGNKLGTRDRPPTHGRVSVLGCLQEEGYEHTDCRDLT
IRGFSGDLPHPEAI

>gi568815582r:81070743_81281213|GENSCAN_predicted_CDS_2|8325_bp
atgagtgcagtgggcttggtactcctggtgcttgctctgaggcttagggccaccactgtt
aagccagaggaaggcagcttttgctctaacagccaggtggccttcagagatgcttgctat
gaatttgtgccactcggacgcaccttccgtgatgcccagagctggtgcgaggggcaagga
ggccatttggtcttcattcaggacgaaggcacccagtggtttctgcagaagcacatctcc
caggacagggaatggtggattggactcacgtggaacttggcacggaatggaaccacggag
gggccggggacttggttggacacctccaatgtgacctacagcaactggcatggagggcag
gccgccgctgcccctgacacctgcggccacatcgggagaggcccttcctctgagtgggtg
acctcggactgcgcccagaccttcgccttcatgtgcgagttccgggttggccagagcctg
gcctgcgagggactcaatgccaccgtgcactgtggcttggggcaggtcatccaggtccag
gatgccgtctacgggcgccagaatccccatttctgcacccaggatgccgggcgtccttca
gatctggagcagggatgcagctgggccaacgtcaaggaggaggtggcaggccagtgccag
gagctacagtcatgccaggtggcagcagatgagacctactttggaaacctgtgtccgact
cagggcagttacctgtgggtgcagtaccagtgccgggaagccctgcagctgatggtgtcc
agtgagagtttcatctttgacaatgtcaccatctccctgacgtggctcctctcaccctac
ataggaaacctgtcctgtataattagtacaggagacagccacacttttgatccctacaac
ccgccgagcaatgtgacccaccagttcacatctcctggggaattcaccgtgtttgctgaa
tgcacaaccagtgagtggcatgtgacagctcagaggcaggtgaccgtgcgagacaagatg
gagacgctcagtgtgactgcatgctccggcctgtcccagtcaggagccggccctctctgc
caggctgtctttggggatcctctgtggattcaggtggagcttgatggaggaacaggagtg
acttacactgtgcttttgggtgacataaccctggccgagtccaccacccaaaagggctcg
ctaccgtacaatctgatcctggacagagaaacccagaaactgatgggccctgggaggcac
cgcctggagatccaagccaccggcaacaccaccacctctacaatctccagaaacattaca
gtccacttggtggagctgctgtcagggctgcaggcctcctgggcttctgaccatttggag
cttggacaggacctattgatcaccatctcattggctcagggcaccccggaagagctgacc
tttgaggtggctggactcaatgcaaccttctcccacgagcaagtgagctttggagagcca
tttgggatttgccgcctggctgttccggttgaaggcacctttctggtcaccatgctggtg
aggaatgccttctccaacctgagtttggaaatcgggaacatcactatcacaggcaaggtg
tttctgcaagggagcataaaaccttttaccaagagtccagagcattgcacctgcttgggc
tccaccttttataaggtttccaaccaaagcttgatacccgttcccactgtgttcacagcc
ccttccggtctccaagaaccatctgggatgaatgctgaaggaaagagtaaagataaaggc
gatatggaggtgtacatccaacctggtccatatgtggatcctttcacgacagtgaccctg
ggctggccagacaatgacaaggagttacgcttccaatggtcatgtgggtcttgctgggct
ctgtggagcagctgtgttgagaggcagctgcttcgcacagaccagagggagctggtggtt
ccagcatcctgcctgccgccgcctgactctgctgtcaccctgcgcctggctgttctgaga
ggccaagagctggagaacagggcagagcagtgcctctacgtgtctgcgccctgggaactc
aggcctcgagtcagctgtgagaggaactgcaggccagttaatgccagcaaagacattctg
ctcagggtcaccatgggggaggactctccagtggctatgttcagctggtatttggacaac
accccaacagagcaggctgagcccctcctggatgcctgcagactcagaggattttggcca
aggtccttaaccctcctccagagcaacacctccacgttgctgttgaacagctcgtttctg
cagtcccggggagaggtcatccgaatcagagccacagcactgaccaggcatgcctatggg
gaggacacctatgtgatcagcactgtgcctccccgtgaggtgcctgcctgcactattgcc
ccagaggagggcaccgttctgacgagctttgccatcttctgcaacgcctccacagccctg
ggacccctggagttctgcttctgtctggaatcagctcctgggctcatcttcttgcagaac
aggggcctgttctctctgggagctgcaaagaatatgttccgtgtgcgagagaggttgatg
tggaaatgcatcaccgttaagagggctgtgaatggggctgagtctgaaaggaaaaagttc
aagcaagtgtatctgccacttggagaggagaacaatgactttgtgctgacagtagttatt
tctgccaccaatcgtgcaggggacacgcagcagacccaggccatggctaaggtggcactc
ggagacacatgtgttgaggatgtagcattccaggctgccgtgtcagagaaaatccccaca
gctctgcaaggcgagggtggccccgagcagctcctccagctggccaaggctgtgtcctcc
atgctgaaccaagagcatgaaagccagggctcaggacagtcactgagcatagacgtcaga
cagaaggtacccgtgggaagctggggggctcctttcattcccttcctctggggccccagg
gtctgcgtgcggccatttgggctgtggatcaaggttcatggatcaggggagaaacctgtg
gtgtctcccaagcggctgacaccacctccctctctggtcttttgggtcagagagcatgtg
ctgggatcactgtctgcagtcaccaccggcttggaggacgtgcagagggtgcaggagctg
gccgaggtgctgagagaggtgacctgccggagtaaggaactcacaccctcggcccagtgg
gaggccagcttggctctacagcatgccagtgaggccctgttgacagtgagtgccaaggcc
cgccctgaggaccagaggcgccaggcagccaccagggacctgtttcaggctgtgggcagt
gtgctggaagcttccctgagcaacagaccagaagagcctgcggaggccagcagcagccag
attgccacagtgctgcggctgcttcgagtcatggagcatgtgcagaccaccctcctgctg
ggaaaactgccagggggccttccagccatgctggccaccccctccatctctgtgtacaca
aacagaatacaaccctggagttggcaaggctcctccctgcgccctgatgccgcagactct
gcaaccttcatgctgcccgctgcctcctccctcagctctctggagggcggccaggagccc
gtggatataaagatcatgagtttcccaaagagcccctttccagcccgaagccactttgat
gtcagcgggactgtcggtggcctccgtgtgaccagccctagtggtcaactcatacctgtg
aagaatctgtcggagaatatcgagatcctgctgccccggcattcacaaagacacagccag
ccgaccgtgttgaacctgaccagtcctgaagctttgtgggtgaacgtgacttcaggggag
gcaaccttggggatccagctgcactggagaccagacattgcactcacgcttagcctgggc
tatggctaccaccccaacaagagcagctacgatgcccaaactcacctcgtaccaatggtg
gctccagatgagctgcccacgtggatcctgagcccacaggacctgcgttttggagaaggg
gtctactatttgactgtggtccctgagtctgacctggagccagcccccggcagggacctc
acggttggcatcaccaccttcctgtctcactgtgtgttctgggatgaggtccaggagact
tgggacgactcaggatgccaggtggggcctcggaccagcccctaccagacacactgcctc
tgcaaccacctcactttcttcggaagcacgttcctggtgatgtccaatgccatcaacatc
caccagactgctgagctctttgccacctttgaggacaaccctgtggtcgtgaccaccgtg
ggctgcctgtgtgtggtctacgtgctggtggtgatctgggcgaggaggaaggacgctcag
gatcaggccaaggtgaaggtcacagtgctggaagacaatgatccctttgctcagtaccac
tacctggtgacagtctacacaggacaccgacgaggggcagccacgtcctcaaaggtgact
gtcaccctgtatggcctggatggagagagagagccccaccacctggctgatcccgacact
ccggtttttgagcgaggagcagtggatgccttcctcctctccaccctgttccccctggga
gaactgcggagcctccggctgtggcatgacaactcaggggaccggccatcgtggtatgtg
agccgggtgctggtctatgacctggtgatggaccggaagtggtatttcctgtgcaactcc
tggctatccatcaatgttggagattgcgtcctcgataaggtgtttcctgtggccacggag
caggacagaaaacaattcagccacctgtttttcatgaagacttccgcgggcttccaggat
ggacacatctggtattcgatcttcagccgctgcgctcgcagcagcttcacccgcgtccag
agggtgtcctgctgcttctccctgctgctgtgcaccatgctgaccagcatcatgttctgg
ggggtccccaaggacccagctgagcaaaagatggacttgggtaattcccagtgtcatgga
ggtaaaattgaattcacctggcaggaggtgatgattggcctggagagctccatcctcatg
ttccccatcaacctcctgattgttcagatctttcagaacacccgtccccgggtcgcgaag
gagcagaacactggaaaatgggaccgggggtcccccaacctgactccctccccacagccc
atggaggacggccttctgacacctgaggcagtgaccaaggcaggtcctcaacctcagcta
gcctggggggatgtgtcaagaatcgtcagctccctcttcaaagctctcaaggtgccatcc
cccgccttgggctgggactcagtgaacttgatggacatcaacagtctcctcgccttggtg
gaagatgtcatttatccacagaacacatcagggcaggtgttctgggaggaagccaaaaag
agagaggaccctgtaacactcactttggggtcatcagaaatgaaagagaaatcacagtgt
cccaagcccaaggcggcacggagtggcccctggaaggacagcgcctacaggcagtgtctg
taccttcagctggaacacgtggagcaagagctgcggctggtggggccccgaggcttctcc
cagccccacagccatgcccaggccctcaggcagctgcagaccctgaagggcggcctgggg
gtacagccgggcacctgggcccctgcacatgccagcgctcttcaggtgagcaaaccccct
caaggcctgccctggtggtgcatcctggtgggctggctcctggtagcggccaccagtggc
gtggcggccttcttcaccatgctctacggcctgcactacgggagggccagctccctcagg
tggctcatctccatggctgtctccttcgtggagagcatgttcgtcacccagcccctgaag
gtgctgggattcgctgctttctttgcactggtcttgaagagagtggacgatgaggaggat
actgtggccccgctgccaggacatctgttgggcccagacccctatgccttgttccgagca
cgaagaaacagcagcagggatgtctaccagccacctctcaccgctgccattgagaagatg
aaaaccacccacctcaaggaacagaaagcatttgccctcatcagagaaatcctggcatac
ttgggcttcctgtggatgctactgctcgtggcctacgggcagagggaccccagcgcctac
cacctcaacagacacctccagcacagcttcaccaggggcttttcaggtgtgctcggcttc
cgagagttcttcaagtgggccaacaccaccctcgtgagtaacctgtatggtcacccccca
ggctttatcactgatgggaactccaagctggttggcagtgcccagattcgtcaagtgagg
gtccaggaaagctcttgccctcttgcccagcagccgcaggcatatctcaacggatgccgt
gcaccatattccctggatgctgaagacatggcagactatggggaaggctggaatgccacc
accctcagtaatggcagtaccagagccaggaccaacgtcaagggtatcccatctggggca
aactcactgtgtaccggggaggaggctacgtggtccccttggggactgatcgccaaagca
cgtcaagagacaaaggattttgttacagcaaaagtcatagcagaacattacactggtctg
agtcagttgcccacaaagggccgtgaaagatgcctgcatgtgcctgcaatacagagcctg
ggggcatttgatgcttttacagcagcagaaagaagcctactctttgtccaaaggaaggca
tcacctcatcccacaagaattctccgctatctctttgacaacacctggctggacgccctg
accagagctgtgtttgtggagtccactgtctacaacgccaacgtcaacctgttctgcatt
gtcacgctgacgctagagaccagcgctctggaagccatggctctgagcaaccaggtggcc
cagagtgagcagaacgcactttgctccccaggcaccttttttacgcacgcggccctgcag
agcctccgcctgtaccccttcaccgacggctggcaccccttcgtggtagcggcagagctc
atctacttcctcttcctcctctactacatggtggtgcagggcaagcgcatgagtaaagag
acgtggggctatttctgcagcaagtggaaccttctggagctggccatcatcctggccagc
tggagcgccctggcggtgtttgtgaagagggctgtcctggccgaaagggacctccagcgc
tgccggaaccacagggaggacatcctcctcctcctcctccccctcatcatcatcatcatc
atcaccacctacctgggggaactgggatggctctctttcccagacctgtttctggacctg
atggcctatgagatgatgatagaactaatcccacatcccgaaatgccgataaatccagtc
ttgcatccagatgagttctggctgaactgctcaagaggcatcagcttcagtgagacagca
gcagccgatgccgcccttggctacatcattgccttcctggtactcctgtccacagtgaag
ctttggcatctgctcaggttgaatcccaaaatgaacatgatcacggcagccctacgccgt
gcctggggcgacatttcaggctttatgattgtcatccttaccatgctcctggcttactcc
atcgcgtcaaacttgatatttggttggaaactccgttcctacaaaaccctctttgatgcg
gcggagacgatggtcagccttcagctgggaatcttcaactacgaggaggtcctggactat
agcccagtgcttggctccttcctcattggatcctgcattgtttttatgacatttgtggtg
ctgaacctgtttatctctgtcatcctggtggccttcagtgaggagcaaaaatactatcag
gttaatgaacagccaaggttgaaaacacatactacactccaaaacctcaacccacgtcgt
catggctcggagggcaacaagctgggcactcgtgatcgacctcccacccatggaagagtc
agcgtgctgggctgcctgcaggaagagggatatgagcacacagactgcagagacttgacc
atccgaggattttctggtgacctgcctcatcctgaagctatctag

>gi568815582r:81070743_81281213|GENSCAN_predicted_peptide_3|444_aa
MDIIFGRNRKEQLEPVRAKVTGNFPVHNPHHGWRQPSKLQVPIPFITGVPDPRAVDQYQS
VACKIPAWLQGTLLRNGPGMHTVGESRYNHWFDGLALLHSFTIRDGEVYYRSKYLRSDTY
NTNIEANRIVVSEFGTMAYPDPCKNIFSKAFSYLSHTIPDFTDNCLINIMKCGEDFYATS
ETNYIRKINPQTLETLEKVDYRKYVAVNLATSHPHYDEAGNVLNMGTSIVEKGKTKYVIF
KIPATVPEGKKQGKSPWKHTEVFCSIPSRSLLSPSYYHSFGVTENYVIFLEQPFRLDILK
MATAYIRRMSWASCLAFHREEKTYIHIIDQRTRQPVQTKFYTDAMVVFHHVNAYEEDGCI
VFDVIAYEDNSLYQLFYLANLNQDFKENSRLTSVPTLRRFAVPLHVDKNAEVGTNLIKVA
STTATALKEEDGQVYCQPEFLYEX

>gi568815582r:81070743_81281213|GENSCAN_predicted_CDS_3|1332_bp
atggatataatatttggcaggaataggaaagaacagctggagcctgtgagggccaaagtg
acagggaatttcccagtccacaatccacaccatgggtggagacaaccttcgaagctccaa
gttcctattccatttataacaggggtccccgaccctcgagccgtggaccagtaccagtct
gtagcctgcaagattccagcatggctgcagggaaccctgctccgcaatgggcctgggatg
cacacagttggggagtccagatacaaccattggttcgacggccttgccctgctccacagc
ttcaccatcagagacggtgaagtctattacaggagcaaatacctgagaagcgatacctac
aacaccaatattgaggcaaacaggattgtggtgtctgagtttggaacaatggcctatccg
gacccctgcaaaaacatattttccaaagctttctcctacttgtctcacaccatccccgat
ttcaccgacaactgcctgatcaacatcatgaagtgcggagaagacttctacgcgacctca
gagaccaattacatcaggaaaatcaacccacagactctggaaaccctggagaaggttgat
tatcgtaaatacgtggcggtaaatctggcaacgtcacatccccattatgatgaggctgga
aatgttctaaacatgggcacatccattgtggaaaaggggaagacaaagtatgtgattttt
aagatccctgccacagtaccagagggcaagaagcaggggaagagcccctggaagcacaca
gaggtgttctgctccatcccatcccgctccctgctctccccaagctactaccacagcttt
ggagtcaccgagaactatgtcatcttccttgagcagcctttcaggttggatattctcaag
atggcaaccgcatacatccggagaatgagctgggcctcctgcctggctttccacagggag
gagaagacttatatccacatcatcgaccaaaggaccaggcagcctgtgcagaccaagttt
tacacagacgccatggtggtcttccatcacgtcaacgcctacgaagaggacggctgcatc
gtgtttgacgtcattgcctacgaggacaacagcctctaccagctcttctacctggccaac
ctgaaccaggacttcaaggagaactccaggctcacctcggtccccaccctcaggaggttt
gccgtgcccctccacgtggacaagaatgcagaagtgggcacaaatttaatcaaagtggca
tctacaacagccacggccctgaaggaagaagatggccaagtctactgccagccggaattt
ctttatgaagnn