Result of GENSCAN for pF1KB6378
GENSCAN 1.0	Date run:  4-Nov-116	Time: 22:50:10

Sequence gi568815588r:73531933_73740017 : 208085 bp : 43.83% 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..
----- ---- - ------ ------ ---- -- -- ---- ---- ----- ----- ------

 1.09 Intr -   2838   2668  171  1  0  114   91    93 0.924  12.11
 1.08 Intr -   4505   4337  169  2  1   67   99   180 0.999  16.52
 1.07 Intr -   7661   7512  150  2  0  132   75   118 0.998  15.26
 1.06 Intr -   9806   9701  106  1  1   33   81   148 0.891   8.82
 1.05 Intr -  10902  10871   32  0  2   75   97    -1 0.637  -3.57
 1.04 Intr -  11199  11086  114  0  0   86   66    49 0.878   3.14
 1.03 Intr -  13740  13606  135  0  0  102   78    83 0.989   9.46
 1.02 Intr -  39581  39489   93  2  0   87  115     6 0.586   3.36
 1.01 Init -  43726  43580  147  1  0   51  110    64 0.456   4.99
 1.00 Prom -  49716  49677   40                               0.34

 2.15 PlyA -  49788  49783    6                               1.05
 2.14 Term -  72882  72774  109  2  1   57   54   124 0.274   3.88
 2.13 Intr - 100229 100002  228  1  0   94   40   341 0.017  26.88
 2.12 Intr - 102133 101968  166  2  1   66   91    98 0.997   6.92
 2.11 Intr - 102801 102627  175  0  1  132   44    89 0.692   8.41
 2.10 Intr - 105990 105812  179  1  2   83  101   145 0.993  14.94
 2.09 Intr - 108103 108013   91  1  1   84   75    98 0.357   7.67
 2.08 Intr - 108641 108511  131  0  2   29   28    61 0.298  -5.39
 2.07 Intr - 109580 109479  102  0  0   80  131    57 0.719   9.35
 2.06 Intr - 111229 111023  207  2  0   45   68   111 0.791   3.85
 2.05 Intr - 116947 115394 1554  2  0  125   81   858 0.829  78.06
 2.04 Intr - 119095 118976  120  2  0   12   79   137 0.224   5.67
 2.03 Intr - 121721 121207  515  1  2  105   81   220 0.273  15.61
 2.02 Intr - 122368 122197  172  2  1   62   56   136 0.034   6.80
 2.01 Init - 133917 133794  124  0  1   84   93    73 0.060   5.73
 2.00 Prom - 138874 138835   40                              -7.36

 3.14 PlyA - 140554 140549    6                               1.05
 3.13 Term - 144142 142667 1476  1  0  103   35  1358 0.995 122.62
 3.12 Intr - 144838 144787   52  0  1   80  115    21 0.992   2.91
 3.11 Intr - 150862 150762  101  1  2  143   78    42 0.995   7.61
 3.10 Intr - 158645 158605   41  0  2   90   82     5 0.301  -1.96
 3.09 Intr - 165788 165601  188  1  2   61  116   156 0.140  15.03
 3.08 Intr - 187367 187228  140  2  2   86  110    41 0.948   5.36
 3.07 Intr - 188262 188069  194  1  2   84   42   142 0.978   8.41
 3.06 Intr - 188727 188606  122  2  2   65   66     0 0.924  -4.36
 3.05 Intr - 189572 189430  143  2  2   87   98    26 0.936   2.65
 3.04 Intr - 190645 190457  189  1  0   49   62    86 0.768   1.88
 3.03 Intr - 194108 194029   80  0  2   93  119    89 0.987  11.77
 3.02 Intr - 195491 195361  131  1  2   -9   91    81 0.713  -0.96
 3.01 Init - 196622 196447  176  2  2   96   91   133 0.995  13.22
 3.00 Prom - 197059 197020   40                              -7.86

 4.00 Prom + 197152 197191   40                              -8.16
 4.01 Init + 198404 198726  323  1  2   52   33   127 0.295   0.56
 4.02 Intr + 199985 200773  789  2  0   49   -4  1415 0.485 118.99
 4.03 Intr + 201003 201141  139  0  1   49   16   203 0.637   9.67
 4.04 Term + 201566 201709  144  1  0  -72   46   295 0.776   7.21
 4.05 PlyA + 203459 203464    6                               1.05


Suboptimal exons with probability > 0.800

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

S.001 Term - 100229  99998  232  1  1   94   51   355 0.983  28.35
S.002 Intr - 122348 122197  152  2  2   54   56   102 0.877   2.56
S.003 Init - 123990 123886  105  0  0   71  116    69 0.973   8.24


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815588r:73531933_73740017|GENSCAN_predicted_peptide_1|373_aa
MSWKRNYFSGGRGSVQGMFAPRSSTSIAPSKGLSNEPGQNSCFLNSALQVLWHLDIFRRS
FRQLTTHKCMGDSCIFCALKGIFNQFQCSSEKVLPSDTLRSALAKTFQDEQRFQLGIMDD
AAECFENLLMRIHFHIADETKEDICTAQHCISHQKFAMTLFEQMVHYISTTSLCNQAICM
LERREKPSPSMFGELLQNASTMGDLRNCPLFFRVTDDRAKQSELYLVGMICYYGKHYSTF
FFQTKIRKWMYFDDAHVKEIGPKWKDVVTKCIKGHYQPLLLLYADPQGTPVSTQDLPPQA
EFQSYSRTCYDSEDSGREPSISSDTRTDSSTESYPYKHSHHESVVSHFSSDSQGTVIYNV
ENDSMSQSSRDTX

>gi568815588r:73531933_73740017|GENSCAN_predicted_CDS_1|1119_bp
atgtcttggaagagaaattatttttcagggggtcgtggtagtgtacaagggatgtttgca
cctcgaagctcaacctccatagcccccagcaaaggcctcagcaatgagccagggcaaaac
agctgcttcctcaacagtgccctgcaggttttgtggcacttggatatcttccgacgtagc
tttaggcagcttacaactcacaagtgcatgggagattcctgcatcttttgcgctctcaag
ggaatctttaaccagtttcagtgtagtagtgaaaaagtgcttccatctgacactctccgc
agtgctctggcaaagactttccaggatgaacaacgtttccagctgggaattatggatgat
gctgcagagtgctttgaaaacctcctgatgagaattcacttccacattgctgatgaaacc
aaagaggatatatgtactgcccaacactgcatttcccatcagaaatttgcaatgacattg
tttgagcagatggtacattatatctccaccacttccctttgcaatcaggctatttgtatg
ctggaaagacgagagaaaccttcaccaagcatgtttggtgagctgctgcagaatgccagc
accatgggggatctgcggaactgtccactgtttttcagagtgacggatgaccgggccaag
caatctgaactgtacttagttggaatgatctgttactatggcaaacattattctacattc
ttttttcaaacaaagattcgcaaatggatgtattttgatgatgctcatgtcaaggagatt
gggcccaaatggaaggatgtggtgaccaaatgcatcaaggggcattatcagcccctgctg
ctgctttatgcagatccccagggtaccccagtttccacccaggacctgcctccccaagct
gagttccagtcatacagcaggacatgctacgacagtgaagattcagggagggagccctcc
atctcaagtgacactcgaacagattcctcaacggagagctatccctacaaacattcccac
catgagtctgtggtcagtcacttctcttctgattctcaggggacagtcatctataatgtg
gaaaatgattccatgtctcagagcagtcgggacacagnn

>gi568815588r:73531933_73740017|GENSCAN_predicted_peptide_2|1290_aa
MWRGWGEGQLSPEAVVGLALGWAVGQGPAVWLSSDNRLSESVSPSTSQIRRRSQAGRAGL
RERDQLLAINGVSCTNLSHASAMSLIDASGNQLVLTVQRLADEGPVQSPSPHELQVLSPL
SPLSPEPPGAPVPQPLQPGSLRSPPDSEAYYGETDSDADGPATQEKPRRPRRRGPTRPTP
PGAPPDEVYLSDSPAEPAPTIPGPPSQGDSRVSSPSWEDGAALQPPPAEALLLPHGPLRP
GPHLIPMVGPVPHPVAEDLTTTYTQKAKQATNTAFLSMETFEPISQEPLSQASYDKAPDP
VPELQDSFYAELQRAESLQEKSIKEAKTKCRTIASLLTAAPNPHSKGVLMFKKRRQRAKK
YTLVSFGAAAGTGAEEEDGVPPTSESELDEEAFSDARSLTNQSDWDSPYLDMELARAGSR
ASEGQGSGLGGQLSEVSGRGVQLFEQQRQRADSSTQELARVEPAAMLNGEGLQSPPRAQS
APPEAAVLPPSPLPAPVASPRPFQPGGGAPTPAPSIFNRSARPFTPGLQGQRPTTTSVIF
RPLAPKRANDSLGGLSPAPPPFLSSQGPTPLPSFTSGVPSHAPVSGSPSTPRSSGPVTAT
SSLYIPAPSRPVTPGGAPEPPAPPSAAAMTSTASIFLSAPLRPSARPEAPAPGPGAPEPP
SAREQRISVPAARTGILQEARRRGTRKQMFRPGKEETKNSPNPELLSLVQNLDEKPRAGG
AESGPEEDALSLGAEACNFMQPVGARSYKTLPHVTPKTPPPMAPKTPPPMTPKTPPPVAP
KPPSRGLLDGLVNGAASSAGIPEPPRLQGRGGELFAKRQSRADRYVVEGSSNRVVVAAAE
VLQQLVPESKQKVEEDHAATEEGPGEMIGFPQRGFQACGPAQRLRWNSTNGTVQILCVLP
PRLPSSCSPVTAAQSSKAAGPQGELTTARAAAHNRLVDNRGWCASILPVLYPKKREALKR
KFSPFGEIHASLKIWAESTSTMPLSGTPAPNKKRKSSKLIMELTGGGQESSGLNLGKKIS
VPRDVMLEELSLLTNRGSKMFKLRQMRVEKFIYENHPDVFSDSSMDHFQKFLPTVGGQLG
TAGQGFSYSKSNGRGGSQAGGSGSAGQYGSDQQHHLGSGSGAGGDQAGGEGKHITVFKTY
ISPWERAMGVDPQQKMELGIDLLAYGAKAELPKYKSFNRTAMPYGGYEKASKRMTFQMPK
FDLGPLLSEPLVLYNQNLSNRPSFNRTPIPWLSSGEPVDYNVDIGIPLDGETEELAVTLI
VKICGFVLEVSETKNPLEGTNSGHTSCLGG

>gi568815588r:73531933_73740017|GENSCAN_predicted_CDS_2|3873_bp
atgtggagggggtggggggaagggcagttgtccccagaggctgtggtgggcctggctctg
ggctgggcagtgggccagggtcctgctgtgtggctgagctctgacaacaggctgtctgag
tctgtgtctccttcaacatctcagattcgaagacggagccaggctggcagagcaggactc
cgagagagggaccagctcttggcaatcaatggggtctcttgcaccaacctctcccatgcc
agtgccatgagcctcatcgatgcctcaggaaatcagcttgtcctcactgtgcagcggtta
gcagacgagggtcctgtgcaatctccatctccccatgagcttcaggtgctgtcaccctta
tctccactaagtcctgagccccctggtgctccagttcctcagcctcttcagcctgggagc
cttcgttcacctcctgatagtgaggcttactacggagagactgacagtgatgctgatggc
cctgccacccaggagaagccccgtcgacctcgccgccgaggccccacaaggcccacccct
ccgggtgccccacctgatgaggtctacctgtctgacagccctgcagagccagcacctact
atccctggccctcccagccagggtgacagccgtgtgagctccccgtcttgggaggatggg
gcagcccttcagccacccccagctgaggctctgctgttaccccatggccccctccgacct
ggtcctcatctcatccctatggtggggcctgttccccacccagtggcagaagatcttact
accacctacacccagaaggccaagcaagccaccaacaccgcctttctcagcatggagacc
tttgagcccatcagccaagagcccctcagccaagccagctatgacaaagccccagaccca
gttcctgagctccaagactcgttctatgcagaactgcaacgtgcagagagcctccaagag
aagagcataaaagaggccaagaccaaatgcaggacaattgcatccctgctcactgcagcc
cccaacccccactccaaaggggtacttatgtttaagaaacggcggcagagagccaagaag
tacaccctggtgagcttcggggctgctgctgggacaggcgctgaggaggaggacggcgtt
ccccccacgagtgagtccgagctggacgaagaagccttctctgacgcccgcagcctcacc
aatcaatctgactgggacagtccctatctggacatggagcttgccagggcgggctcaaga
gcatcagagggccagggctctgggctgggagggcagctgagtgaggtctctgggcgaggg
gtgcagctctttgaacagcagcgccagcgcgcagactccagcacccaggaactggcacgg
gtcgaaccagcagccatgctcaacggggaaggcctgcagtcaccacctcgggcccagagt
gctcccccagaggcagctgtgctcccacccagccccttgccggcgcctgtagccagcccc
agacccttccaaccaggtggtggagccccgaccccagctccaagcatctttaaccggtca
gccaggccctttaccccgggcctacaagggcagcggccaactaccacctcggttattttc
cggcctttagcccccaaaagggcgaacgacagcctggggggcctcagccccgccccaccc
cccttcttgtcttcgcaggggcccacccctctgcccagcttcacttcaggggttcccagc
cacgcgccagtctctggttcccccagcaccccacgctcctcgggccctgtgacagccacc
agctccctgtacatcccagcccctagtcggcctgtcaccccaggtggagctccagagccc
cccgctcctcctagcgcagctgccatgacctccaccgcttctatcttcctatctgcgcct
ttgcgaccctctgcgcgcccagaggcgcctgccccaggcccaggggctcctgagcccccc
agcgctcgcgagcagcgcatctctgtgccagctgcccgcacgggtatcctgcaggaggcc
cggcgccgggggacccggaagcagatgttccggccgggaaaggaggagacgaagaactcg
cccaaccccgagctgctatcgctggtacagaacctggatgaaaagcctcgggccgggggt
gcagaatctggtcctgaagaagatgctctgagcctcggggctgaagcctgcaacttcatg
cagccagtaggggccaggagttacaagaccctgcctcacgtgacacctaagaccccccct
ccaatggctcccaagaccccgccccctatgactcctaagactccacccccagtggctcct
aagcccccatctcgagggctccttgatgggctcgtgaatggggcagcctcttcggctgga
atccctgagccaccaaggctgcagggcaggggtggggagctgtttgctaagcggcagagc
cgtgcggacaggtatgtggtggaaggtagcagcaacagggttgtggtggctgcagcagaa
gtgctgcagcaactggttccagaatctaagcagaaggtggaggaagatcatgcagctact
gaagaagggcctggggaaatgataggctttccccaaaggggctttcaagcctgtggccct
gcccagagactccgctggaacagtacaaatggcacagtccagatcctatgtgtgctgccc
ccacgcctgcccagctcgtgttctccggtcacagcagctcagtcctccaaagctgctgga
ccccagggagagctgaccactgcccgagcagccgctcacaacaggttggtagacaacagg
ggctggtgtgcatctatacttcctgtcctgtatcccaagaaaagagaagccctaaagcgc
aagttttcaccttttggggaaatacatgcttctttgaaaatctgggctgaatccacctcc
acaatgccgctctcaggaaccccggcccctaataagaagaggaaatccagcaagctgatc
atggaactcactggaggtggacaggagagctcaggcttgaacctgggcaaaaagatcagt
gtcccaagggatgtgatgttggaggaactgtcgctgcttaccaaccggggctccaagatg
ttcaaactgcggcagatgagggtggagaagtttatttatgagaaccaccctgatgttttc
tctgacagctcaatggatcacttccagaagttccttccaacagtggggggacagctgggc
acagctggtcagggattctcatacagcaagagcaacggcagaggcggcagccaggcaggg
ggcagtggctctgccggacagtatggctctgatcagcagcaccatctgggctctgggtct
ggagctgggggagaccaggcaggcggagaaggaaaacatatcactgtgttcaagacctat
atttccccatgggagcgagccatgggggttgacccccagcaaaaaatggaacttggcatt
gacctgctggcctatggggccaaagctgaacttcccaaatataagtccttcaacaggacg
gcaatgccctatggtggatatgagaaggcctccaaacgcatgaccttccagatgcccaag
tttgacctggggcccttgctgagtgaacccctggtcctctacaaccaaaacctctccaac
aggccttctttcaatcgaacccctattccctggctgagctctggggagcctgtagactac
aacgtggatattggcatccccttggatggagaaacagaggagctagctgtaacactcatc
gtgaagatctgcggcttcgttcttgaagtcagcgagaccaagaacccactggaaggaacc
aactctggacacaccagctgcttgggaggctga

>gi568815588r:73531933_73740017|GENSCAN_predicted_peptide_3|1010_aa
METKDQKKQRKKNSGPKAAKKKKRHLQDLQLGDEEDAWKRNPKAFAFQSAVWMARSFHRA
PTNSGSGDGASKVGKSTLIQCLIRNFTRQKLTEIRGPVMIVSGKKLRLTIIECGCDINMM
IDLAEVADLVLMLIDASFGFEMETFEFLNICQVHGFPKIMGVLTHLDFFKHNKQLKKTKK
RLKHRFWTEVYLVAKLFCLSGMVHGEYQNQEMHNLGHFITVMKFRPLTWQTSHPYILADR
VEDLTNPEDIQTNIRCDQQMLLYGYLRGAHLKNKSQIHMPGVEDFAMSDISFFPDPCALT
EQQKKCCLNKKEQLVYAPVFGVGGVLYDKDAVYVDLGGSHGFQASDEVGPTHELVQSLIS
THSTIDAKMASSRVMLFSDSKPLGSEAIDNQGVSLEFDQQQGSVCPSESEIYEAGAGDRM
AGAPMAAAVQPAEVTVEVGEDLHMHHIRDQEMPEEGDLAGSQDNSGGKVSTERFSQQYSS
CSTIFLDDSTASQHYLTMTIISDADRSLSIPDEQLHSFAVSTVHITKNRNGGGSLNNYSS
SIPSTPSTSQEDPQFSVPPTANTPTPVCKRSMRWSNLFTSEKGSHPDKERKAPENHADTI
GSGRAIPIKQGMLLKRSGKWLKTWKKKYVTLCSNGVLTYYSSLGDYMKNIHKKEIDLRTS
TIKVPGKWPSLATSACAPISSSKSNGLSKDMDTGLGDSICFSPSISSTTSPKLNPPPSPH
ANKKKHLKKKSTNNFMIVSATGQTWHFEATTYEERDAWVQAIQSQILASLQSCESSKSKS
QLTSQSEAMALQSIQNMRGNAHCVDYETQNPKWASLNLGVLMCIECSGIHRSLGTRLSRV
RSLELDDWPVELRKVMSSIGNDLANSIWEGSSQGQTKPSVKSTREEKERWIRSKYEEKLF
LAPLPCTELSLGQHLLRATADEDLQTAILLLAHGSREEVNETCGEGDGCTALHLACRKGN
VVLAQLLIWYGVDVMARDAHGNTALTYARQASSQECINVLLQYGCPDECV

>gi568815588r:73531933_73740017|GENSCAN_predicted_CDS_3|3033_bp
atggagactaaggaccagaagaaacaaagaaagaaaaatagtggacccaaagctgcaaag
aaaaagaagcggcatctgcaggatctccagctaggagacgaagaagatgcctggaagaga
aatcccaaagcttttgcatttcagtctgctgtgtggatggctcgatcctttcacagagcc
cccaccaatagtggtagtggtgatggggcctccaaagttggaaagagcactttgatacaa
tgcctcattcggaacttcacccggcagaagttgaccgagatcagaggccctgtgatgatc
gtgtcaggtaaaaagctccgactcaccattattgaatgtgggtgtgacattaacatgatg
attgatctggctgaagtagcagatctggtactgatgcttatagatgccagctttgggttt
gaaatggaaacgtttgagtttctaaacatctgtcaagtacatggctttcctaaaattatg
ggagttctcacccacctcgacttcttcaaacacaataagcaactgaagaagacaaagaag
cgattaaaacacaggttctggacagaagtttacctggttgccaagctgttctgcctttct
ggaatggtgcatggagaatatcaaaaccaagaaatgcacaatctgggccattttattaca
gttatgaagtttaggcctctcacatggcagacttctcatccttatatcctggcagacagg
gtggaagatttgacaaacccagaggatatccaaacaaacatcagatgtgaccagcagatg
ttactttacggttatttaagaggagcgcacttgaaaaataaaagccaaattcacatgcca
ggggtagaagattttgccatgagtgacatcagtttcttcccagacccttgtgctcttact
gaacaacaaaagaagtgctgtttaaataagaaggagcagctggtttatgcgcctgttttt
ggagttgggggtgtgctgtatgacaaagacgctgtctatgttgaccttggtggcagccac
ggttttcaggcatcagacgaggtggggcccacccatgagctggtccagagtctcatctcc
acccactccaccattgatgccaagatggcttcaagtcgagtgatgttgttttctgattcc
aagccacttgggtcagaggctatagataatcaaggcgtcagcctcgagtttgaccagcaa
caggggtcggtgtgtccctctgaatctgagatctatgaggcaggagctggggacaggatg
gcaggagcgcccatggctgctgctgtgcagcctgctgaggtgaccgttgaagttggtgag
gacctccacatgcaccacattcgtgaccaggagatgcctgaagagggggatttggcaggg
tcacaggacaatagtggagggaaggtatctactgagcgtttcagtcaacaatacagctcg
tgttcgacaatattccttgatgacagcacagccagccagcattatcttacaatgacaata
atatcagatgcagatagatctttgagcatacctgatgaacagttacactcatttgcggtt
tccaccgtgcacattacgaagaacagaaatggaggtgggagtttaaataactattcctcc
tccattccatcgactcccagcaccagccaggaggaccctcagttcagtgttcctcccact
gccaacacacccacccccgtttgcaagcggtccatgcgctggtccaacctgtttacatct
gagaaagggagtcacccagacaaagagaggaaagccccggagaatcatgctgacaccatc
gggagcggcagagccatccccattaaacagggcatgctcttaaagcgaagtgggaaatgg
ctgaagacatggaaaaagaaatacgtcaccctgtgttccaatggcgtgctcacctattat
tcaagcttaggtgattatatgaagaatattcataaaaaagagattgaccttcggacatct
accatcaaagtcccaggaaagtggccatccctagccacatcggcctgtgcacccatctcc
agctctaaaagcaatggcctatccaaggacatggacaccgggctgggtgactccatatgc
ttcagccccagtatctccagcaccaccagccccaagctcaacccgcccccctctcctcat
gccaataaaaagaaacacctaaagaagaaaagcaccaacaactttatgattgtgtctgcc
actggccaaacatggcactttgaagccacgacgtatgaggagcgggatgcctgggtccaa
gccatccagagccagatcctggccagcctgcagtcatgcgagagcagtaaaagcaagtcc
cagctgaccagccagagcgaggccatggccctgcagtcgatccaaaacatgcgtgggaac
gcccactgtgtggactatgagacccagaatcctaagtgggccagtttgaacttgggagtc
ctcatgtgtattgaatgctcaggaatccaccgcagtcttggcacccgcctttcccgtgtg
cgatctctggagctggatgactggccagttgagctcaggaaggttatgtcatctattggc
aatgacctagccaacagcatctgggaagggagcagccaggggcagacaaaaccctcagta
aagtccacgagggaagagaaggaacggtggatccgttccaaatatgaggagaagctcttt
ctggccccactaccctgcactgagctgtccctgggccagcacctgctgcgggccaccgct
gatgaggacctgcagacagccatcctgctgctggcacatggctcccgtgaggaggtgaac
gagacctgtggggagggagacggctgcacggcgctccatctggcctgccgcaaggggaat
gtggtcctggcacagctcctgatctggtacggggtggacgtcatggcccgagatgcccac
gggaacacagcgctgacctacgcccggcaggcctccagccaggagtgcatcaacgtgctt
ctgcagtacggctgccccgacgagtgcgtgtag

>gi568815588r:73531933_73740017|GENSCAN_predicted_peptide_4|464_aa
MLLLRRKDDPEDRGRTFPLAIFPVPQSQGPHCRLPQPAAPNLLTTVTPQVGLDTTGNGNS
PSRRLSGGKQKGRKKRPAPGRLSGESWKKDCQQLSAGAGAVYAVRSTGRSFLEYNSWHVL
SSVNICCSKLVKCRLQKGKVTIAEFIWLATRSQMEATEPQDMVVYDQSTRDASVLAADRF
LSILLSKLDSCFDSVAILTGGFATFSSCFPSLCQGKPAALLPMSLSQPCLPVPSVSLTLI
LPHLYLGSQKDVLNKDLTTQNGISYVLNASNSCPKPDFICESRFMRVPINDNYCEKLLPW
LDKSMEFICKGKLSSCQVIVHCLVGISHSATIAIAYIMKTMGISSDDTYRFMKDRRQSIS
PNFNFLGQLLDRAARPVLSSDRLQDTNRLKRSFSLYIKSANTPGRRPNGPGSPDPGETET
QIKRCSCQMEFEEGILEGRTRGEELAAMGKQASFSGSVEVIEMS

>gi568815588r:73531933_73740017|GENSCAN_predicted_CDS_4|1395_bp
atgctgctcctcaggaggaaagatgacccggaggaccgcgggaggaccttcccactcgcg
atcttcccagtgccccaaagccagggaccccactgccgcctaccccagcccgcggcaccg
aacttgctcacaactgtgactcctcaggtcggattggacaccaccggaaacggaaattca
ccgtcgcgccgactctccggagggaaacaaaaaggcagaaaaaagagaccggcgcctgga
cgactttcaggggagagctggaagaaagactgtcaacagctgagtgcgggcgccggcgcc
gtctacgcagtgcgttccaccggccgctccttcctggagtacaacagctggcatgtgctc
agctccgtcaacatctgctgctccaagctggtgaagtgccggctgcagaagggcaaggtg
accattgcagagttcatctggctggccacacgcagccaaatggaggccactgagccacag
gatatggtggtctatgaccagagcacacgggacgccagtgtgctggccgcagaccgcttc
ctctccatcctgctgagcaagctggacagctgcttcgacagcgtggccatcctcacgggg
ggcttcgccaccttctcctcctgcttccccagcctctgccagggcaagcctgctgccctg
ctacccatgagcctctcccagccctgcctgcccgtgcctagcgtgagcctgaccctcatc
ctgcctcacctctacctgggctcgcagaaagacgttctgaacaaggatctgacgacacag
aatggaataagctacgtcctcaatgccagcaactcctgccccaagcctgacttcatctgc
gagagccgcttcatgcgggtccccatcaacgacaactactgtgaaaagctgctgccctgg
ctggacaagtctatggagttcatctgtaaaggcaagctgtccagctgccaagtcatcgtc
cactgtctggtcggtatctcccactctgccaccatcgccatcgcctacatcatgaagacc
atgggcatatcctccgacgacacctacaggttcatgaaggataggcgccagtccatctcg
cccaacttcaacttcctgggccagctgctggacagggctgcgcggcctgtactctcctct
gaccgcctgcaggacaccaaccgcctcaagcgctccttctcgctgtacatcaaatcagcg
aacacccccggccggcggcccaacggccccgggtcacccgaccccggcgagacggagacg
cagatcaagcgctgcagctgccagatggagttcgaggagggcatcctggaggggcgcact
cgcggcgaggagctggccgccatgggcaagcaggcgagcttctcgggcagcgtggaggtc
atcgagatgtcctga
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