GENSCAN 1.0	Date run:  7-Nov-116	Time: 16:50:27

Sequence gi568815588f:114087832_114328120 : 240289 bp : 43.29% 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..
----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------

 1.16 PlyA -   2707   2702    6                               1.05
 1.15 Term -  12983  12967   17  0  2  139   44     7 0.080  -0.20
 1.14 Intr -  13556  13448  109  2  1   93   49    45 0.066   0.96
 1.13 Intr -  16014  15864  151  2  1   77   30    84 0.021   1.66
 1.12 Intr -  39840  39630  211  1  1   91   53   127 0.659   7.47
 1.11 Intr -  42140  42060   81  0  0   94   98    79 0.997   9.11
 1.10 Intr -  43505  43316  190  2  1   48   70   110 0.989   4.36
 1.09 Intr -  44353  44098  256  0  1   64  111   147 0.996  12.05
 1.08 Intr -  47224  47082  143  1  2   48   82   141 0.995   8.65
 1.07 Intr -  48146  48060   87  2  0   41   86    61 0.718   1.37
 1.06 Intr -  48415  48317   99  1  0   90  105    50 0.993   7.21
 1.05 Intr -  49459  49355  105  1  0   95   85    29 0.928   3.71
 1.04 Intr -  57930  57718  213  0  0   26   70   176 0.917   8.51
 1.03 Intr -  63389  63261  129  2  0   70   68   113 0.961   8.39
 1.02 Intr -  69849  69723  127  2  1   73   98   103 0.998  10.48
 1.01 Init -  75437  74806  632  2  2   67  106   244 0.965  18.92
 1.00 Prom -  76612  76573   40                              -2.86

 2.00 Prom +  83205  83244   40                              -5.36
 2.01 Init +  86371  86454   84  0  0   96   18   133 0.588   5.92
 2.02 Intr +  99995 100325  331  1  1   80  109    55 0.012   2.00
 2.03 Intr + 103130 103188   59  0  2  102   87    29 0.799   2.80
 2.04 Intr + 111442 111486   45  0  0   84   99    79 0.919   7.21
 2.05 Intr + 115557 115736  180  2  0   57   91   154 0.988  12.66
 2.06 Intr + 116891 117062  172  1  1   60  110   137 0.997  12.62
 2.07 Intr + 118413 118499   87  1  0   50   87    43 0.525   0.34
 2.08 Intr + 122750 122917  168  0  0   58   97    73 0.955   5.12
 2.09 Intr + 123029 123136  108  0  0   68  110    30 0.913   3.46
 2.10 Intr + 125515 125757  243  2  0   49  103   185 0.948  13.57
 2.11 Intr + 126146 126283  138  0  0   60  115    29 0.897   3.24
 2.12 Intr + 129714 129824  111  1  0   90  111     2 0.892   3.05
 2.13 Intr + 132737 133012  276  0  0  103   87    17 0.542   0.59
 2.14 Intr + 133526 133645  120  0  0   84  110    15 0.896   3.77
 2.15 Intr + 134756 134872  117  0  0   44   80    94 0.936   4.64
 2.16 Intr + 138218 138385  168  0  0  112   69    16 0.603   2.02
 2.17 Intr + 156254 156351   98  0  2   41   67    60 0.001  -1.07
 2.18 Intr + 165843 165894   52  2  1  110   80    65 0.621   6.38
 2.19 Intr + 167084 167217  134  0  2  103   96   134 0.990  16.06
 2.20 Intr + 173355 173464  110  2  2  126   55    36 0.227   3.18
 2.21 Intr + 184909 185103  195  1  0   47  110   117 0.257   8.33
 2.22 Intr + 190083 190216  134  0  2   50  110   214 0.997  20.09
 2.23 Intr + 190399 190427   29  2  2   70   65    38 0.415  -2.47
 2.24 Intr + 197007 197139  133  2  1   43   66   133 0.446   6.82
 2.25 Intr + 198108 198680  573  1  0   82  110   629 0.500  57.21
 2.26 Intr + 201107 201658  552  0  0  106  105   613 0.994  57.63
 2.27 Intr + 202409 202574  166  0  1   55   27   150 0.255   4.62
 2.28 Term + 203387 203522  136  2  1  110   39   101 0.331   4.89
 2.29 PlyA + 206636 206641    6                               1.05

 3.15 PlyA - 207016 207011    6                               1.05
 3.14 Term - 207736 207620  117  1  0   27   39   119 0.956  -0.56
 3.13 Intr - 209269 209147  123  1  0   99  121    78 0.996  12.98
 3.12 Intr - 209582 209389  194  0  2   94   77   314 0.736  30.11
 3.11 Intr - 211584 211429  156  1  0   67  110   192 0.999  19.28
 3.10 Intr - 212531 212363  169  2  1   63   80   187 0.731  14.92
 3.09 Intr - 212859 212614  246  0  0  108   92   173 0.999  17.36
 3.08 Intr - 213634 213523  112  0  1  107   91   232 0.999  25.78
 3.07 Intr - 214653 214508  146  0  2  110   70   154 0.578  14.88
 3.06 Intr - 217099 216888  212  2  2  128   71   343 0.587  35.23
 3.05 Intr - 220686 220602   85  0  1   86   44   107 0.921   5.49
 3.04 Intr - 222612 222523   90  0  0  116   80   129 0.999  15.09
 3.03 Intr - 226219 226040  180  1  0   95   72   298 0.998  28.96
 3.02 Intr - 227997 227729  269  1  2  103   65   450 0.574  41.45
 3.01 Intr - 235511 235340  172  2  1   83   43    81 0.117   2.62

Suboptimal exons with probability > 0.800

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

S.001 Term -  91296  91204   93  0  0   68   43   151 0.915   6.43


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815588f:114087832_114328120|GENSCAN_predicted_peptide_1|849_aa
MSETDHIASTSSDKNVGKTPELKEDSCNLFSGNESSKLENESKLLSLNTDKTLCQPNEHN
NRIEAQENYIPDHGGGEDSCAKTDTGSENSEQIANFPSGNFAKHISKTNETEQKVTQILV
ELRSSTFPESANEKTYSESPYDTDCTKKFISKIKSVSASEDLLEEIESELLSTEFAEHRV
PNGMNKGEHALVLFEKCVQDKYLQQEHIIKKLIKENKKHQELFVDICSEKDNLREELKKR
TETEKQHMNTIKQLESRIEELNKEVKASRDQLIAQDVTAKNAVQQLHKEMAQRMEQANKK
CEEARQEKEAMVMKYVRGEKESLDLRKEKETLEKKLRDANKELEKNTNKIKQLSQEKGRL
HQLYETKETKDKLKETTTKLTQAKEEADQIRKNCQDMIKTYQESEEIKSNELDAKLRVTK
GELEKQMQEKSDQLEMHHAKIKELEDLKRTFKEGMDELRTLRTKVKCLEDERLRTEDELS
KYKEIINRQKAEIQNLLDKVKTADQLQEQLQRGKQEIENLKEEVESLNSLINDLQKDIEG
SRKRESELLLFTERLTSKNAQLQSESNSLQSQFDKVSCSESQLQSQCEQMKQTNINLESR
LLKEEELRKEEVQTLQAELACRQTEVKALSTQVEELKDELVTQRRKHASSIKDLTKQLQQ
ARRKLDQVESGSYDKEVSSMGSRSSSSGSLNARSSAEDRSPENTGSSVAVDNFPQVDKAM
LIERIVRLQKAHARKNEKIEFMEDHIKQLVEEIRKKTNTEDGKEFSYMCTCSFGTVDDIS
MKKQAVTCHKRSGKAVSGHHPMYQNRFKAGSWALSLSGFLERVIGNGAVRESKDAERGGN
RACHGAFLA

>gi568815588f:114087832_114328120|GENSCAN_predicted_CDS_1|2550_bp
atgtcagagacagaccacatagcctctacttcctctgataaaaatgttgggaaaacacct
gaattaaaggaagactcatgcaacttgttttctggcaatgaaagcagcaaattagaaaat
gagtccaaactattgtcattaaacactgataaaactttatgtcaacctaatgagcataat
aatcgaattgaagcccaggaaaattatattccagatcatggtggaggtgaggattcttgt
gccaaaacagacacaggctcagaaaattctgaacaaatagctaattttcctagtggaaat
tttgctaaacatatttcaaaaacaaatgaaacagaacagaaagtaacacaaatattggtg
gaattaaggtcatctacatttccagaatcagctaatgaaaagacttattcagaaagcccc
tatgatacagactgcaccaagaaatttatttcaaaaataaagagcgtttcagcatcagag
gatttgttggaagaaatagaatctgagctcttatctacggagtttgcagaacatcgagta
ccaaatggaatgaataagggagaacatgcattagttctgtttgaaaagtgtgtgcaagat
aaatatttgcagcaggaacatatcataaaaaagttaattaaagaaaataagaagcatcag
gagctcttcgtagacatttgttcagaaaaagacaatttaagagaagaactaaagaaaaga
acagaaactgagaagcagcatatgaacacaattaaacagttagaatcaagaatagaagaa
cttaataaagaagttaaagcttccagagatcaactaatagctcaagacgttacagctaaa
aatgcagttcagcagttacacaaagagatggcccaacggatggaacaggccaacaagaaa
tgtgaagaggcacgccaagaaaaagaagcaatggtaatgaaatatgtaagaggtgagaag
gaatctttagatcttcgaaaggaaaaagagacacttgagaaaaaacttagagatgcaaat
aaggaacttgagaaaaacactaacaaaattaagcagctttctcaggagaaaggacggttg
caccagctgtatgaaactaaggaaaccaaagataaactcaaagaaacaacaacaaaatta
acacaagcaaaggaagaagcagatcagatacgaaaaaactgtcaggatatgataaaaaca
tatcaggagtcagaagaaattaaatcaaatgagcttgatgcaaagcttagagtcacaaaa
ggagaacttgaaaaacaaatgcaagaaaaatctgaccagctagagatgcatcatgccaaa
ataaaggaactagaagatctgaagagaacatttaaggagggtatggatgagttaagaaca
ctgagaacaaaggtgaaatgtctagaagatgaacgattaagaacagaagatgaattatca
aaatataaggaaattattaatcgccaaaaagctgaaattcagaatttattggacaaggtg
aaaactgcagatcagctacaggagcagcttcaaagaggtaagcaagaaattgaaaatttg
aaagaagaagtggaaagtcttaattctttgattaatgacctacaaaaagacatcgaaggc
agtaggaaaagagaatctgagctgctgctgtttacagaaaggctcactagtaagaatgca
cagcttcagtctgaatccaattctttgcagtcacaatttgataaagtttcctgtagtgaa
agtcagttacaaagccagtgtgaacaaatgaaacagacaaatattaatttggaaagtagg
ttgttgaaagaggaagaactgcgaaaagaggaagtccaaactctgcaagctgaactcgct
tgtagacaaacagaagttaaagcattgagtacccaggtagaagaattaaaagatgagtta
gtaactcagagacgtaaacatgcctctagtatcaaggatctcaccaaacaacttcagcaa
gcacgaagaaaattagatcaggttgagagtggaagctatgacaaagaagtcagcagcatg
ggaagtcgttctagttcatcagggtccctgaatgctcgaagcagtgcagaagatcgatct
ccagaaaatactgggtcctcagtagctgtggataactttccacaagtagataaggccatg
ttgattgagagaatagttaggctgcaaaaagcacatgcccggaaaaatgaaaagatagaa
tttatggaggaccacatcaaacaactggtggaagaaattaggaaaaaaacaaacactgaa
gatggcaaggaattttcttacatgtgtacgtgtagttttggcactgtagatgacattagt
atgaagaaacaagctgtcacctgccacaaaagatcaggcaaagcagtttctggtcatcac
ccaatgtaccaaaacagattcaaagccgggagctgggcgctttctctctctggcttcctg
gaaagggttattggaaacggggccgtacgtgaatcaaaggatgcagagcgaggagggaac
cgagcctgccacggtgcgtttctggcttga

>gi568815588f:114087832_114328120|GENSCAN_predicted_peptide_2|1572_aa
MAATLKPARLQLRGRGLPGGTNQRSAGGASMSVKSPFNVMSRNNLEAPPCKMTEPFNFEK
NENKLPPHESLRSPGTLPNHPNFRLKSSENGNKKNNFLLCEQTKQYLASQEDNSVSSNPN
GINGEVVGSKGDRKKLPAGNSVSPPSAESNSPPKEVNIDLLFGPQLAIAVAYLGTVTEFK
HPGDFYVQLYSSEVLEYMNQLSASLKETYANVHEKDYIPVKGEVCIAKYTVDQAIKCFVA
NVIPAEGNWSSDCIKATKPLLMEQYCSIKIVDILEEEVVTFAVEVELPNSGKLLDHVLIE
MGYGLKPSGQDSKKENADQSDPEDVGKMTTENNIVVDKSDLIPKVLTLNVGDEFCGVVAH
IQTPEDFFCQQLQSGRKLAELQASLSKYCDQLPPRSDFYPAIGDICCAQFSGVKPSLGIW
TPEAICLMKKLVQNKIITVKVVDKLENSSLVELIDKSETPHVSVSKVLLDAGFAVGEQSM
VTDKPSDVKETSVPLGVEGKVNPLEWTWVELGVDQTVDVVVCVIYSPGEFYCHVLKEDAL
KKLNDLNKSLAEHCQQKLPNGFKAEIGQPCCAFFADIQSRNKHWSEEAITRFQMCVAGIK
LQARVVEVTENGIGVELTDLSTCYPRIISDVLIDEHLVLKSASPHKDLPNDRLVNKHELQ
VHVQGLQATSSAEQWKTIELPVDKTIQANVLEIISPNLFYALPKGMPENQEKLCMLTAEL
LEYCNAPKSRPPYRPRIGDACCAKYTSDDFWYRAVVLGTSDTDVEVLYADYGNIETLPLC
RVQPITSSHLALPFQIIRCSLEAPGLQITPNYFVGSQRALVNLILCRMECESCWQEVHVS
KETIGKISAASKMMWCSAAVDIMFLLDGSNSVGKGSFERSKHFAITVCDGLDISPERVRV
GAFQFSSTPHLEFPLDSFSTQQEVKARIKRMVFKGGRTETELALKYLLHRGLPGGRNASV
PQILIIVTDGKSQGDVALPSKQLKERGVTVFAVGVRFPRWEELHALASEPRGQHVLLAEQ
VEDATNGLFSTLSSSAICSSATPAGSPELVFMERLMGISLIGPCDSQPCQNGGTCVPEGL
DGYQCLCPLAFGGEANCALKLSLECRVDLLFLLDSSAGTTLDGFLRAKVFVKRFVRAVLS
EDSRARVGVATYSRELLVAVPVGEYQDVPDLVWSLDGIPFRGGPTLTGSALRQAAERGFG
SATRTGQDRPRRVVVLLTESHSEDEVAGPARHARARELLLLGVGSEAVRAELEEITGSPK
HVMVYSDPQDLFNQIPELQGKLCSRQRPGCRTQALDLVFMLDTSASVGPENFAQMQSFVR
SCALQFEVNPDVTQVGLVVYGSQVQTAFGLDTKPTRAAMLRAISQAPYLGGVGSAGTALL
HIYDKVMTVQRGARPGVPKAVVVLTGGRGAEDAAVPAQKLRNNGISVLVVGVGPVLSEGL
RRLAGPRDSLIHVAAYADLRYHQDVLIEWLCGEAKQPVNLCKPSPCMNEGSCVLQNGSYR
CKCRDGWEGPHCENREWSSCSVCVSQGWILETPLRHMAPVQEGSSRTPPSNYREGLGTEM
VPTFWNVCAPGP

>gi568815588f:114087832_114328120|GENSCAN_predicted_CDS_2|4719_bp
atggcggcgacactgaagccggcccggttacagctgagggggcgggggctccctggagga
accaatcagcgcagcgcgggcggggcctcgatgagtgttaaatcgccatttaatgtgatg
tcaagaaataatttggaagcacctccttgtaagatgacagagccatttaattttgagaaa
aatgaaaacaagcttccaccacatgagtctttaagaagtcctggaacacttcctaaccac
cctaatttcaggctgaaaagctcagagaatggaaataaaaagaacaattttttgctttgt
gagcaaaccaaacaatatttggctagtcaggaagacaattcagtttcttcaaacccgaat
ggcatcaacggagaagtagttggctccaaaggagacaggaaaaaattgccagcaggaaac
tcagtgtcaccaccaagtgctgaaagtaattcaccacccaaagaagtgaatattgacctc
ctcttcggtccacaacttgccatcgctgtggcctatttgggtacggttaccgaattcaaa
cacccaggggacttctacgtgcagttatattcttcagaagttttagaatacatgaaccaa
ctctctgccagcttaaaagaaacatatgcaaatgtgcatgaaaaagactatattcctgtt
aagggggaagtttgtattgccaagtacactgttgatcaggccataaagtgctttgtagcc
aatgttatcccagcagaagggaattggagcagtgattgtatcaaagctactaaaccactg
ttaatggagcagtactgctccataaagattgtcgacatcttggaagaggaagtggttacc
tttgctgtagaagttgagctgccaaattcaggaaaacttttagaccatgtgcttatagaa
atgggatatggcttgaaacccagtggacaagattctaagaaggaaaatgcagatcaaagt
gatcctgaagatgttggaaaaatgacaactgaaaacaacattgtcgtagacaaaagtgac
ctaatcccaaaagtgttaactttgaatgtaggtgatgagttttgtggtgtggttgcccac
attcaaacaccagaagacttcttttgtcaacaactgcaaagtggccgaaagcttgctgaa
cttcaggcatcccttagcaagtactgtgatcagttgcctccacgctctgatttttatcca
gccattggtgatatatgttgtgctcagttctcaggagtaaagccatcattaggaatttgg
actccagaagctatttgtctcatgaaaaaacttgtacagaacaaaataatcacagtgaaa
gtggtggacaagttggaaaacagttccctggtggagcttattgataaatccgagacgcct
catgtcagtgttagcaaagttctcctagatgcaggctttgctgtgggagaacagagtatg
gtgacagataaacccagtgacgtgaaagaaaccagtgttcccttgggtgtggaaggaaaa
gtaaatccattggagtggacatgggttgaacttggtgttgaccaaacagtagatgttgtg
gtctgtgtgatatatagtcctggagaattttattgccatgtgcttaaagaggatgcttta
aagaaactcaatgatttgaacaagtcattagcagaacactgccagcagaagttacctaat
ggtttcaaggcagagataggacaaccttgttgtgctttttttgcagatatacagtctaga
aacaaacattggtctgaagaagccataacaagattccagatgtgtgttgctgggataaaa
ttgcaagccagagtggttgaagtcactgaaaatgggataggagttgaactcaccgatctc
tccacttgttatcccagaataattagtgatgttctgattgatgaacatctggttttaaaa
tctgcttcaccacataaagacttaccaaatgacagacttgttaataaacatgagcttcaa
gttcatgtacagggacttcaagctacctcttcagctgagcaatggaagacgatagaattg
ccagtggataaaactatacaagcaaatgtattagaaatcataagcccaaacttgttttat
gctctaccaaaagggatgccagaaaatcaggaaaagctgtgcatgttgacagctgaatta
ttagaatactgcaatgctccgaaaagtcgaccaccctatagaccaagaattggagacgca
tgctgtgccaaatacacaagtgatgatttttggtatcgtgcagttgttctggggacatca
gacactgatgtggaagtgctctatgcagactatggaaacattgaaaccctgcctctttgc
agagtgcaaccaatcacctctagccacctggcgcttcctttccaaattattagatgttca
cttgaagcccctggcttgcagatcactcccaactactttgtaggaagccagagggccctg
gtaaatctcatcttgtgccggatggagtgtgagagctgctggcaggaagtccatgtaagc
aaagaaaccatcgggaagatttcagctgccagcaaaatgatgtggtgctcggctgcagtg
gacatcatgtttctgttagatgggtctaacagcgtcgggaaagggagctttgaaaggtcc
aagcactttgccatcacagtctgtgacggtctggacatcagccccgagagggtcagagtg
ggagcattccagttcagttccactcctcatctggaattccccttggattcattttcaacc
caacaggaagtgaaggcaagaatcaagaggatggttttcaaaggagggcgcacggagacg
gaacttgctctgaaataccttctgcacagagggttgcctggaggcagaaatgcttctgtg
ccccagatcctcatcatcgtcactgatgggaagtcccagggggatgtggcactgccatcc
aagcagctgaaggaaaggggtgtcactgtgtttgctgtgggggtcaggtttcccaggtgg
gaggagctgcatgcactggccagcgagcctagagggcagcacgtgctgttggctgagcag
gtggaggatgccaccaacggcctcttcagcaccctcagcagctcggccatctgctccagc
gccacgccagctgggagccccgagcttgtcttcatggagcggttaatgggcatctctctg
ataggcccctgtgactcgcagccctgccagaatggaggcacatgtgttccagaaggactg
gacggctaccagtgcctctgcccgctggcctttggaggggaggctaactgtgccctgaag
ctgagcctggaatgcagggtcgacctcctcttcctgctggacagctctgcgggcaccact
ctggacggcttcctgcgggccaaagtcttcgtgaagcggtttgtgcgggccgtgctgagc
gaggactctcgggcccgagtgggtgtggccacatacagcagggagctgctggtggcggtg
cctgtgggggagtaccaggatgtgcctgacctggtctggagcctcgatggcattcccttc
cgtggtggccccaccctgacgggcagtgccttgcggcaggcggcagagcgtggcttcggg
agcgccaccaggacaggccaggaccggccacgtagagtggtggttttgctcactgagtca
cactccgaggatgaggttgcgggcccagcgcgtcacgcaagggcgcgagagctgctcctg
ctgggtgtaggcagtgaggccgtgcgggcagagctggaggagatcacaggcagcccaaag
catgtgatggtctactcggatcctcaggatctgttcaaccaaatccctgagctgcagggg
aagctgtgcagccggcagcggccagggtgccggacacaagccctggacctcgtcttcatg
ttggacacctctgcctcagtagggcccgagaattttgctcagatgcagagctttgtgaga
agctgtgccctccagtttgaggtgaaccctgacgtgacacaggtcggcctggtggtgtat
ggcagccaggtgcagactgccttcgggctggacaccaaacccacccgggctgcgatgctg
cgggccattagccaggccccctacctaggtggggtgggctcagccggcaccgccctgctg
cacatctatgacaaagtgatgaccgtccagaggggtgcccggcctggtgtccccaaagct
gtggtggtgctcacaggcgggagaggcgcagaggatgcagccgttcctgcccagaagctg
aggaacaatggcatctctgtcttggtcgtgggcgtggggcctgtcctaagtgagggtctg
cggaggcttgcaggtccccgggattccctgatccacgtggcagcttacgccgacctgcgg
taccaccaggacgtgctcattgagtggctgtgtggagaagccaagcagccagtcaacctc
tgcaaacccagcccgtgcatgaatgagggcagctgcgtcctgcagaatgggagctaccgc
tgcaagtgtcgggatggctgggagggcccccactgcgagaaccgtgagtggagctcttgc
tctgtatgtgtgagccagggatggattcttgagacgcccctgaggcacatggctcccgtg
caggagggcagcagccgtacccctcccagcaactacagagaaggcctgggcactgaaatg
gtgcctaccttctggaatgtctgtgccccaggtccttag

>gi568815588f:114087832_114328120|GENSCAN_predicted_peptide_3|756_aa
TSTRRVISKLLPVYHICKRLSYLFIPQIPERKQLAIPKTESPEGYYEEAEPYDTSLNAML
LQDCPLPHGALTELVFLAEDGEAVSSSYESYDEEDGSKGKSAPYQWPSPEAGIELMRDAR
ICAFLWRKKWLGQWAKQLCVIKDNRLLCYKSSKDHSPQLDVNLLGSSVIHKEKQVRKKEH
KLKITPMNADVIVLGLQSKDQAEQWLRVIQEVSGLPSEGASEGNQYTPDAQRFNCQKPDI
AEKYLSASEYGSSVDGHPEVPETKDGYLNVLVNSQWKSRWCSVRDNHLHFYQDRNRSKVA
QQPLSLVGCEVVPDPSPDHLYSFRILHKGEELAKLEAKSSEEMGHWLGLLLSESGSKTDP
EEFTYDYVDADRVSCIVSAAKNSLLLMQRKFSEPNTYIDGLPSQDRQEELYDDVDLSELT
AAVEPTEEATPVADDPNERESDRVYLDLTPVKSFLHGPSSAQAQASSPTLSCLDNATEAL
PADSGPGPTPDEPCIKCPENLGEQQLESLEPEDPSLRITTVKIQTEQQRISFPPSCPDAV
VATPPGASPPVKDRLRVTSAEIKLGKNRTEAEVKRYTEEKERLEKKKEEIRGHLAQLRKE
KRELKETLLKCTDKEVLASLEQKLKEIDEECRGEESRRVDLELSIMEVKDNLKKAEAGPV
TLGTTVDTTHLENVSPRPKAVTPASAPDCTPVNSATTLKNRPLSVVVTGKGTVLQKAKFS
PILPGPTQSSVILNSIDIICKTIICKTIYDMSFEKQ

>gi568815588f:114087832_114328120|GENSCAN_predicted_CDS_3|2271_bp
acttccacccgaagagttatttccaagttgctcccagtgtaccatatctgcaaacgtttg
tcttatttgttcataccacagattccagaacggaaacagcttgccatcccaaagacggag
tctccagagggctactatgaagaggctgagccatatgacacatccctcaatgcgatgctg
cttcaggactgtcccctgccccatggggccctgaccgagctggtcttccttgcagaggac
ggagaggctgtgagcagctcctacgagtcctacgatgaagaggacggcagcaagggcaag
tcggccccttaccagtggccctcgccggaggccggcatcgagctgatgcgtgacgcccgc
atctgcgccttcctgtggcgcaagaagtggctgggacagtgggccaagcagctctgtgtc
atcaaggacaacaggcttctgtgctacaaatcctccaaggaccacagccctcagctggac
gtgaacctactgggcagcagcgtcattcacaaggagaagcaagtgcggaagaaggagcac
aagctgaagatcacgccgatgaatgccgatgtgattgtgctgggcctgcagagcaaggac
caggctgagcagtggctcagggtcatccaggaagtgagcggcctgccttccgaaggagca
tctgaaggaaaccagtacaccccggatgcccagcgctttaactgccagaaaccagatata
gctgagaagtacctgtcggcttcagagtatgggagctccgtggatggccaccctgaggtc
ccagaaaccaaagacggttacctgaacgtgctggtgaacagccagtggaagtctcgctgg
tgctctgtcagggacaatcacctgcacttctaccaggaccggaaccggagcaaggtggcc
cagcaacccctcagcctggtgggctgcgaggtggtcccagaccccagccccgaccacctc
tactccttccgcatcctccacaagggcgaggagctggccaagcttgaggccaagtcttcc
gaggaaatgggccactggctgggtctcctgctctctgagtcaggctccaagacagaccca
gaagagttcacctacgactatgtggatgccgatagggtctcctgtattgtgagtgcggcc
aaaaactctctcttactgatgcagagaaagttctcagagcccaacacttacatcgatggc
ctgcctagccaggaccgccaggaggagctgtatgacgacgtggacctgtcagagctcaca
gctgcggtggagcctaccgaggaagccacccctgttgcagatgacccaaatgagagagaa
tctgaccgagtgtacctggacctcacacctgtcaagtcctttctgcatggccccagcagt
gcacaggcccaggcctcctccccgacgttgtcctgcctggacaatgcaactgaggccctc
ccggcagactcaggcccaggtcccaccccagatgagccctgcataaagtgtccagagaac
ctgggagaacagcagctggagagtttggagccagaggatccttccctgagaatcaccacc
gtcaaaatccagacggaacagcagagaatctccttcccaccgagctgcccggatgccgtg
gtggccaccccacctggtgccagcccacctgtgaaggacaggttgcgcgtgaccagtgca
gagatcaagcttggcaagaatcggacagaagctgaggtgaagcggtacacagaggagaag
gagaggcttgaaaagaagaaggaagaaatccgggggcacctggctcagctccggaaagag
aaacgggagctaaaggaaaccctactgaaatgcacagacaaggaagtcctggcgagcctg
gagcagaagctgaaggaaattgacgaggagtgccggggcgaggagagcaggcgcgtggac
ctggagctcagcatcatggaggtgaaggacaacctgaagaaggctgaggcagggcctgtg
acgttaggcaccaccgtggacaccacccacctggagaatgtgagcccccgccccaaagct
gtcacacctgcctctgccccagactgtaccccagtcaactctgcaaccacactcaagaac
aggcctctctcggtcgtggtcacaggcaaaggcactgtactccagaaagccaagttctct
ccaatattaccaggcccaactcagtcttcagtgattttaaacagcattgacatcatctgt
aaaaccatcatctgtaaaaccatctatgacatgagttttgagaaacaataa