Result of GENSCAN for pF1KF0006
GENSCAN 1.0	Date run:  4-Nov-116	Time: 20:02:59

Sequence gi568815576f:40301591_40509756 : 208166 bp : 45.50% 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 +   1075   1171   97  0  1   70   72    71 0.764   4.17
 1.02 Intr +   6922   7059  138  2  0   99   95    77 0.974   9.94
 1.03 Intr +   9227   9403  177  0  0   99   72   133 0.982  12.69
 1.04 Intr +  10915  11061  147  2  0   85   80   113 0.886  10.41
 1.05 Intr +  11312  11407   96  0  0   61   80    55 0.768   1.98
 1.06 Intr +  13693  14054  362  2  2   90   77    55 0.151  -0.46
 1.07 Intr +  19500  19639  140  2  2   63   84    70 0.183   3.36
 1.08 Intr +  21264  21448  185  0  2  112   60   164 0.822  15.43
 1.09 Intr +  33040  33151  112  2  1   41   48    94 0.006   0.14
 1.10 Intr +  44962  45121  160  1  1   39   97   220 0.041  17.99
 1.11 Intr +  48242  48445  204  1  0   90   17   219 0.661  14.40
 1.12 Intr +  52658  52737   80  1  2   71  100    -1 0.806  -2.25
 1.13 Intr +  57274  57445  172  1  1   86   61   185 0.846  15.55
 1.14 Intr +  57670  57716   47  0  2   72   92    38 0.999  -0.19
 1.15 Intr +  58812  58902   91  0  1   93  113    83 0.999  11.30
 1.16 Intr +  59683  59752   70  0  1   98   97   125 0.948  13.15
 1.17 Intr +  59898  60045  148  1  1   61   77   182 0.991  13.69
 1.18 Intr +  61391  61481   91  2  1   70   69    34 0.755  -0.30
 1.19 Intr +  62686  62775   90  0  0   89   72   188 0.999  17.49
 1.20 Intr +  63290  63466  177  1  0   78  115   107 0.982  12.52
 1.21 Intr +  69018  69098   81  2  0   37  109    64 0.819   3.23
 1.22 Intr +  69155  69331  177  1  0   43   66    91 0.641   2.52
 1.23 Intr +  69529  69585   57  0  0   92   82    25 0.472   1.38
 1.24 Term +  71756  71767   12  1  0  119   48    -3 0.276  -3.00
 1.25 PlyA +  72991  72996    6                               1.05

 2.00 Prom +  85925  85964   40                              -2.36
 2.01 Init +  89470  89552   83  0  2   87   82    89 0.986   8.64
 2.02 Intr +  96097  96190   94  1  1   99   68    36 0.634   2.67
 2.03 Intr + 100549 100615   67  0  1   73   92   111 0.992   8.48
 2.04 Intr + 102657 102865  209  1  2   79  110   140 0.998  14.10
 2.05 Intr + 102967 103074  108  0  0   85   94   245 0.997  25.28
 2.06 Intr + 103551 103694  144  2  0   16   89   241 0.998  17.48
 2.07 Intr + 103990 104254  265  0  1   69   87   390 0.821  34.09
 2.08 Intr + 104488 104633  146  2  2   88   42   277 0.906  23.10
 2.09 Intr + 104848 105072  225  0  0   31   37   433 0.957  30.68
 2.10 Intr + 105427 105978  552  0  0  109   41   689 0.759  59.35
 2.11 Intr + 106199 106253   55  1  1  105   59    87 0.955   6.05
 2.12 Intr + 106481 106530   50  0  2   99   78    97 0.726   8.20
 2.13 Intr + 106687 106839  153  0  0   53  107   144 0.996  13.07
 2.14 Intr + 107037 107107   71  2  2  119   93    26 0.999   4.18
 2.15 Intr + 107204 107252   49  2  1   75   90   103 0.996   7.88
 2.16 Intr + 107343 107428   86  2  2   79   89   113 0.998   9.12
 2.17 Intr + 107660 107782  123  2  0   87   93   133 0.972  13.40
 2.18 Intr + 107875 107935   61  1  1   91   90    28 0.813   2.04
 2.19 Term + 108092 108169   78  1  0   63   46   134 0.970   4.46
 2.20 PlyA + 108493 108498    6                               1.05

 3.14 PlyA - 108717 108712    6                               1.05
 3.13 Term - 110317 109800  518  2  2   53   36   475 0.889  33.28
 3.12 Intr - 115456 115396   61  1  1  130   76    95 0.967  10.81
 3.11 Intr - 115858 115751  108  1  0   73   94   114 0.441  10.98
 3.10 Intr - 117794 116784 1011  2  0  121   82  1100 0.998 103.60
 3.09 Intr - 118986 118815  172  2  1  116   83   152 0.999  17.45
 3.08 Intr - 119510 119257  254  2  2   92   30   534 0.999  44.23
 3.07 Intr - 122095 121946  150  1  0  129   83     8 0.959   4.76
 3.06 Intr - 122791 122616  176  2  2    2  109   171 0.611  10.26
 3.05 Intr - 128177 128016  162  0  0   66   73   198 0.804  16.05
 3.04 Intr - 129890 129815   76  2  1   69   70    57 0.415   1.09
 3.03 Intr - 133964 133909   56  0  2   67   86    29 0.014  -0.70
 3.02 Intr - 161696 161631   66  0  0  125   96    57 0.594   9.08
 3.01 Init - 190529 190397  133  2  1   76   58    72 0.036   3.32

Suboptimal exons with probability > 0.800

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

S.001 Init +  44969  45121  153  1  0   71   97   221 0.930  21.28


Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815576f:40301591_40509756|GENSCAN_predicted_peptide_1|1036_aa
MKLLVLGDSVTLDKWQRLTVRQPRDPPTARAGGFSSGGMDYGMVGGKEAGTESRFKQWTS
MMEGLPSVATQEANMHKNGAIVAPGKTRGGSPYNQFDIIPGDTLGGHTGPAGDSWLPAKS
PPTNKIGSKSSNASWPPEFQPGVPWKGIQNIDPESDPYVTPGSVLGGTATSPIVDTDHQL
LRDNTTGSNSSLNTSLPSPGAWPYSASDNSFTNVHSTSAKFPDYKSTWSPDPIGHNPTHL
SNKMWKNHISSRNTTPLPRPPPGLTNPKPSSPWSSTAPRSVRGWGTQDSRLASGEEDLPK
GTPLFIHKGLMLTQMVKTQRGLPKRGSHGCLLFLLVEEKIDGSTLRTICMQHGPLLTFHL
NLTQGTALIRYSTKQEAAKAQTALHMCVLGNTTILAEFATDDEVSRFLAQAQPPTPAATP
SAPAAGWQSLETGQNQSDPVGPALNLFGGYVYIVKYILPNQETVNNGSHFTETQEDLGGV
AEEDRVGMAAGGDHGSPDSYRSPLASRYASPEMCFVFSDRYKFRTWRQLWLWLAEAEQTL
GLPITDEQIQEMKSNLENIDFKMAAEEEKRLRHDVMAHVHTFGHCCPKAAGIIHLGATSC
YVGDNTLARVISRLADFAKERASLPTLGFTHFQPAQLTTVGKRCCLWIQDLCMDLQNLKR
VRDDLRFRGVKGTTGTQASFLQLFEGDDHKVEQLDKMVTEKAGFKRAFIITGQTYTRKVD
IEVLSVLASLGASVHKICTDIRLLANLKEMEEPFEKQQIGSSAMPYKRNPMRSERCCSLA
RHLMTLVMDPLQTASVQWFERTLDDSANRRICLAEAFLTADTILNTLQNISEGLVVYPKV
IERRIRQELPFMATENIIMAMVKAGGSRQDCHEKIRVLSQQAASVVKQEGGDNDLIERIQ
VDAYFSPIHSQLDHLLDPSSFTGRASQQAPLSADWVRVGKLLTRPGLALRWPVGQAGAAG
RLWSDCPTEGRMGRRRPREKHRLGPESRRADLARVAVGMGAGDAAGRGGRLRPPIQIQVQ
NPGSDPGPRLGTPTCP

>gi568815576f:40301591_40509756|GENSCAN_predicted_CDS_1|3111_bp
atgaaattgctggttctaggtgacagtgtgaccctggacaaatggcagcggctgactgtg
cgccaaccccgtgatcctcctactgcacgtgcagggggcttcagctctggcggcatggac
tatggcatggttggtgggaaggaggctggaaccgagtctcgctttaaacagtggacctcc
atgatggaggggctgccctctgtagccacacaggaagccaatatgcacaaaaatggcgct
atagtggcccctggtaaaacccggggagggtcaccgtacaaccagtttgatatcatccct
ggtgacacactgggtggccatacgggtcctgctggtgatagctggttacctgccaaatct
ccaccaacaaataaaatcggaagtaaatccagcaatgccagttggcctccagaattccaa
ccaggagtgccatggaaaggtatccaaaacattgaccctgaatctgacccctatgtcacc
ccaggaagtgtgctggggggtacagccacatctcccattgtagatactgaccaccaactg
ctgcgggataacaccacagggtctaattcttccctcaacacctcgctgccttcacctggt
gcctggccctacagtgcctctgacaactcctttaccaacgttcatagcacttcagcaaag
ttccctgattacaaatcaacatggtccccagatcccataggacacaaccccactcatctc
tccaacaagatgtggaaaaaccatatttcctccaggaacactacaccgctgccccgccca
cctcctggtctgaccaaccccaaaccatcatctccctggagcagcacagcaccccgatca
gtcagggggtgggggacacaggactcacggctcgcctcgggtgaggaggatctgcctaaa
ggaacaccattgttcatccacaaggggcttatgttaacacagatggtgaagacacaaaga
ggtcttcccaagagaggaagtcatggttgtctgctttttcttctggtagaggaaaagatt
gatgggtcaaccttgagaacgatctgcatgcagcatggcccactgctgacattccatctg
aatctaacccagggcactgccctgatccgatacagcaccaaacaggaggcggccaaggcc
caaactgcactgcacatgtgtgtgttgggaaacactaccatccttgctgagtttgccact
gatgatgaagtcagccgctttctggcacaagctcagccccctacacctgcagcaacccca
agtgcgccagctgcggggtggcagtcgctggagaccggccagaaccagtcagatcccgtg
ggacctgctctgaatctttttgggggctatgtttacatagtaaaatacatcctaccaaat
caggaaacagtgaataatgggagtcacttcacagagacgcaggaggacctggggggcgta
gcagaggaggatagggttgggatggcggctggaggcgatcatggttcgcccgacagctac
cgctcacctcttgcctcccgctatgccagcccggagatgtgcttcgtgtttagcgacagg
tataaattccggacatggcggcagctgtggctgtggctggcggaggccgagcagacattg
ggtttgcctatcacagatgaacaaatccaggagatgaaatcaaacctggagaacatcgac
ttcaagatggcagctgaggaagagaaacgtttacgacatgatgtgatggctcacgtgcac
acatttggccactgctgtccaaaagctgcaggcattattcaccttggtgctacttcttgc
tatgttggagacaatactcttgccagagtgatctctcggcttgccgactttgctaaggaa
cgagccagtctacccacattaggtttcacacatttccagcctgcacagctgaccacagtt
gggaaacgttgctgtctttggattcaggatctttgcatggatctccagaacttgaagcgt
gtccgagatgacctgcgcttccggggagtaaagggtaccactggcactcaggccagtttc
ctgcagctctttgagggagatgaccataaggtagagcagcttgacaagatggtgacagaa
aaggcaggatttaagagagctttcatcatcacagggcagacatatacacgaaaagtggat
attgaagtactgtctgtgctggctagcttgggggcatcagtgcacaagatttgcaccgac
atacgcctcctggcaaacctcaaggagatggaggaaccctttgaaaaacagcagattggc
tcaagtgcgatgccatataagcggaatcccatgcgttcagaacgttgctgcagtcttgcc
cgccacctgatgacccttgtcatggacccgctacagacagcatctgtccagtggtttgaa
cgcacactggatgatagtgccaaccgacggatctgtttggccgaggcatttcttaccgca
gatactatattgaatacgctgcagaacatttctgaaggattggtcgtgtaccccaaagta
attgaacggcgcattcggcaagagctgcctttcatggccacagagaacatcatcatggcc
atggtcaaagctggaggtagccgccaggattgccatgagaaaatcagagtgctttctcag
caggcagcttctgtggttaagcaggaagggggtgacaatgacctcatagagcgtatccag
gttgatgcctacttcagtcccattcactcccagttggatcatttactggatccttcttct
ttcactggtcgtgcctcccagcaggcgccgctgagcgctgactgggtgcgagtggggaag
ctgctaacccgacccggattggcgctgaggtggcccgtggggcaggcgggggctgcgggg
cggctgtggtcggactgtccgaccgagggtcgtatgggccgaaggcgcccacgagagaag
caccgcctcgggccggagagccgccgggccgaccttgctcgcgtcgccgttggaatgggg
gccggggacgcggcggggcggggaggtcggctgcgtcctccgattcagatccaggtgcag
aacccgggctcggatccaggcccgagactcggaacaccgacttgtccttaa

>gi568815576f:40301591_40509756|GENSCAN_predicted_peptide_2|872_aa
MEVGKKGLLEEATSELEFERIMVKEEFSPSSLLAALQLFQHAQCAPNLGLLLPGSPFPQK
EESAEQPEFYYDEFGFRVYKEEGDEPGSSLLANSPLMEDAPQRLRWQAHLEFTHNHDVGD
LTWDKIAVSLPRSEKLRSLVLAGIPHGMRPQLWMRLSGALQKKRNSELSYREIVKNSSND
ETIAAKQIEKDLLRTMPSNACFASMGSIGVPRLRRVLRALAWLYPEIGYCQGTGMGRGTF
SNLHKDLGRRPLSLCPGQVAACLLLFLEEEDAFWMMSAIIEDLLPASYFSTTLLGVQTDQ
RVLRHLIVQYLPRLDKLLQEHDIELSLITLHWFLTAFASVVDIKLLLRIWDLFFYEGSRV
LFQLTLGMLHLKEEELIQSENSASIFNTLSDIPSQMEDAELLLGVAMRLAGSLTDVAVET
QRRKHLAYLIADQGQLLGAGTLTNLSQVVRRRTQRRKSTITALLFGESSASARQCGHAGV
CPHAHVDVELPPRGPGVGCGHHGSLGLLGEDDLEALKAKNIKQTELVADLREAILRVARH
FQCTDPKNCSVVSRQLPGLLPNTALTPPTPLVGLCSLWQELTPDYSMESHQRDHENYVAC
SRSHRRRAKALLDFERHDDDELGFRKNDIITIVSQKDEHCWVGELNGLRGWFPAKFVEVL
DERSKEYSIAGDDSVTEGVTDLVRGTLCPALKALFEHGLKKPSLLGGACHPWLFIEEAAG
REVERDFASVYSRLVLCKTFRLDEDGKVLTPEELLYRAVQSVNVTHDAVHAQMDVKLRSL
ICVGLNEQVLHLWLEVLCSSLPTVEKWYQPWSFLRSPGWVQIKCELRVLCCFAFSLSQDW
ELPAKREAQQPLKEGVRDMLVKHHLFSWDVDG

>gi568815576f:40301591_40509756|GENSCAN_predicted_CDS_2|2619_bp
atggaagttggaaagaaaggcttgttagaggaggccacatctgagctagaatttgaaaga
ataatggtcaaagaggaattcagcccctccagcctgctggctgccttgcagctgtttcag
catgcccagtgtgctcccaacttggggctgcttctccctggatctcctttccctcagaag
gaagagtcagcagagcaaccagagttctactacgatgagtttggtttccgtgtgtacaag
gaagaaggtgatgagcctggctccagtctgctggcgaactcccctctgatggaggatgct
ccacagaggctgcggtggcaggcccacctggagttcacccataaccacgatgtgggggat
ctcacctgggacaagattgccgtctccctaccccgctctgagaagctccgctccctggtg
ctggccggcatcccacatggcatgaggccacagctgtggatgcggctctctggggccctg
cagaagaagaggaactctgagctgtcctaccgcgagattgtgaagaacagctccaacgat
gagaccatcgctgccaagcagatcgagaaggacctgctccgcaccatgcccagcaacgcc
tgcttcgccagcatgggtagcatcggggtgccccgcctgcgcagggtgctccgggccctg
gcctggctctacccagagatcggctactgccagggcaccggcatgggtaggggcaccttt
tctaatctgcacaaagacctgggtagaaggcccttgtccctgtgccctggccaggtggcc
gcctgcctcctgctgttcctggaggaggaggacgccttctggatgatgtctgccatcatc
gaggacctgctccccgcctcctacttcagcaccaccctgctgggtgtccagactgaccag
cgggtcctgcgccacctcattgtccagtacctgcctcgcctggacaagctgctccaggag
catgacattgagctgtccctgatcacactgcactggttcctcacggccttcgccagcgtg
gtggacatcaagctgctcctgcgcatctgggacctgtttttctacgagggctcccgggtg
ctgttccagctcacgctgggcatgctgcacctcaaggaggaagagctgatccagtcagag
aactcggcctccatcttcaacacgctatcggatatcccgtcgcagatggaggacgcggag
ctgcttctgggggtggccatgcggctggccggctccctcaccgatgtggccgtggagact
cagcgccgcaagcacctggcctatctcattgcagaccagggccagctcctgggggccggc
accctcaccaacctctctcaggttgttcgccgcaggacccagcggaggaagtccaccatc
actgctctgctcttcggtgagagctctgcgagtgccaggcagtgtgggcatgcgggagtc
tgtcctcacgctcatgtggacgtggagcttcctcctcgggggcctggagtgggctgtggt
caccatggttctctgggcctcctaggggaggatgacctggaggcactcaaggccaagaac
atcaagcagacggaactggtggctgacctccgggaagccatcctgcgcgtggcacgccac
ttccagtgcacagaccccaaaaactgcagcgtggtgagtcgccagctccctgggctgcta
ccaaacacggccctaactcctccaacccccttggtgggcctgtgttcactgtggcaggag
ctgactccagactatagcatggagagccaccagcgggaccacgagaactacgtggcgtgc
tcacgcagccaccggcgccgagccaaggccctgctggactttgagcggcacgacgacgac
gagctgggcttccgcaagaacgacatcatcacaatcgtgtctcagaaggacgagcactgc
tgggtgggggagctcaacggcctgcgaggctggtttccagccaagttcgtggaagtcctg
gatgagcgcagcaaagagtactccatcgcgggggatgactcggtgacggagggggtcaca
gacctcgtgcgagggaccctctgcccggcccttaaggccctgttcgaacatggactgaag
aagccatccctgcttgggggcgcctgccacccctggctgtttatcgaggaggctgcaggc
cgggaggtcgagagagactttgcctccgtgtattcccgtctggtgctctgtaagaccttc
aggttggatgaagatggcaaagtcctgaccccggaggagctgctctaccgggctgtgcag
tctgtgaacgtgacccacgatgcagtgcatgcacaaatggatgtgaagctccgctcactg
atctgcgtggggctcaatgagcaggtgctgcacctgtggctggaggtgctctgctccagc
ctgcccaccgtggagaagtggtaccagccctggtccttcctgcgcagcccgggctgggtc
cagatcaagtgtgagctccgagtcctctgctgctttgccttcagcctctcccaggactgg
gagctccctgcgaagagagaggcgcagcagcccctgaaggagggcgtccgggacatgctg
gtgaagcaccacctcttcagctgggatgtggacgggtga

>gi568815576f:40301591_40509756|GENSCAN_predicted_peptide_3|980_aa
MLEEKAKIHQSTCRILPLSWIVLKPRKDSYYSAVCLTHYHSLREVLQLKLQQRRTREELV
SQGIMPPLKSPAAFHEQRRSLERARTEDYLKRKIRSRPERSELVRMHILEETSAEPSLQA
KQLKLKRARLADDLNEKIAQRPGPMELVEKNILPVESSLKEAIIVGQVNYPKVADSSSFD
EDSSDALSPEQPASHESQGSVPSPLEARVSEPLLSATSASPTQVVSQLPMGRDSREMLFL
AEQPPLPPPPLLPPSLTNGTTIPTAKSTPTLIKQSQPKSASEKSQRSKKAKELKPKVKKL
KYHQYIPPDQKQDRGAPPMDSSYAKILQQQQLFLQLQILNQQQQQHHNYQAILPAPPKSA
GEALGSSGTPPVRSLSTTNSSSSSGAPGPCGLARQNSTSLTGKPGALPANLDDMKVAELK
QELKLRSLPVSGTKTELIERLRAYQDQISPVPGAPKAPAATSILHKAGEVVVAFPAARLS
TGPALVAAGLAPAEVVVATVASSGVVKFGSTGSTPPVSPTPSERSLLSTGDENSTPGDTF
GEMVTSPLTQLTLQASPLQILVKEEGPRAGSCCLSPGGRAELEGRDKDQMLQEKDKQIEA
LTRMLRQKQQLVERLKLQLEQEKRAQQPAPAPAPLGTPVKQENSFSSCQLSQQPLGPAHP
FNPSLAAPATNHIDPCAVAPGPPSVVVKQEALQPEPEPVPAPQLLLGPQGPSLIKGVAPP
TLITDSTGTHLVLTVTNKNADSPGLSSGSPQQMDLEHPLQPLFGTPTSLLKKEPPGYEEA
MSQQPKQQENGSSSQQMDDLFDILIQSGEISADFKEPPSLPGKEKPSPKTVCGSPLAAQP
SPSAELPQAAPPPPGSPSLPGRLEDFLESSTGLPLLTSGHDGPEPLSLIDDLHSQMLSST
AILDHPPSPMDTSELHFVPEPSSTMGLDLADGHLDSMDWLELSSGGPVLSLAPLSTTAPS
LFSTDFLDGHDLQLHWDSCL

>gi568815576f:40301591_40509756|GENSCAN_predicted_CDS_3|2943_bp
atgctggaggagaaggccaagattcatcagtccacctgcaggattctgccactctcgtgg
attgtcctgaagccgagaaaggacagctattactcagcagtgtgcctgacccattatcac
agtttgcgggaagtgctacagttgaaactccagcagcgccggacccgggaagaactggtg
agccaagggatcatgccgcctttgaaaagtccagccgcatttcatgagcagagaaggagc
ttggagcgggccaggacagaggactatctcaaacggaagattcgttcccggccggagaga
tcggagctggtcaggatgcacattttggaagagacctcggctgagccatccctccaggcc
aagcagctgaagctgaagagagccagactagccgatgacctcaatgagaagattgcacag
aggcctggccccatggagctggtggagaagaacatccttcctgttgagtccagcctgaag
gaagccatcattgtgggccaggtgaactatcccaaagtagcagacagctcttccttcgat
gaggacagcagcgatgccttatcccccgagcagcctgccagccatgagtcccagggttct
gtgccgtcacccctggaggcccgagtcagcgaaccactgctcagtgccacctctgcatcc
cccacccaggttgtgtctcaacttccgatgggccgggattccagagaaatgcttttcctg
gcagagcagcctcctctgcctcccccacctctgctgcctcccagcctcaccaatggaacc
actatccccactgccaagtccacccccacactcattaagcaaagccaacccaagtctgcc
agtgagaagtcacagcgcagcaagaaggccaaggagctgaagccaaaggtgaagaagctc
aagtaccaccagtacatccccccggaccagaagcaggacaggggggcaccccccatggac
tcatcctacgccaagatcctgcagcagcagcagctcttcctccagctgcagatcctcaac
cagcagcagcagcagcaccacaactaccaggccatcctgcctgccccgccaaagtcagca
ggcgaggccctgggaagcagcgggacccccccagtacgcagcctctccactaccaatagc
agctccagctcgggcgcccctgggccctgtgggctggcacgtcagaacagcacctcactg
actggcaagccgggagccctgccggccaacctggacgacatgaaggtggcagagctgaag
caggagctgaagttgcgatcactgcctgtctcgggcaccaaaactgagctgattgagcgc
cttcgagcctatcaagaccaaatcagccctgtgccaggagcccccaaggcccctgccgcc
acctctatcctgcacaaggctggcgaggtggtggtagccttcccagcggcccggctgagc
acggggccagccctggtggcagcaggcctggctccagctgaggtggtggtggccacggtg
gccagcagtggggtggtgaagtttggcagcacgggctccacgccccccgtgtctcccacc
ccctcggagcgctcactgctcagcacgggcgatgaaaactccacccccggggacaccttt
ggtgagatggtgacatcacctctgacgcagctgaccctgcaggcctcgccactgcagatc
ctcgtgaaggaggagggcccccgggccgggtcctgttgcctgagccctggggggcgggcg
gagctagaggggcgcgacaaggaccagatgctgcaggagaaagacaagcagatcgaggcg
ctgacgcgcatgctccggcagaagcagcagctggtggagcggctcaagctgcagctggag
caggagaagcgagcccagcagcccgcccccgcccccgcccccctcggcacccccgtgaag
caggagaacagcttctccagctgccagctgagccagcagcccctgggccccgctcaccca
ttcaaccccagcctggcggccccagccaccaaccacatagacccttgtgctgtggccccg
gggcccccgtccgtggtggtgaagcaggaagccttgcagcctgagcccgagccggtcccc
gccccccagttgcttctggggcctcagggccccagcctcatcaagggggttgcacctccc
accctcatcaccgactccacagggacccaccttgtcctcaccgtgaccaataagaatgca
gacagccctggcctgtccagtgggagcccccagcagatggacctggagcacccactgcag
cccctctttgggacccccacttctctgctgaagaaggaaccacctggctatgaggaagcc
atgagccagcagcccaaacagcaggaaaatggttcctcaagccagcagatggacgacctg
tttgacattctcattcagagcggagaaatttcagcagatttcaaggagccgccatccctg
ccagggaaggagaagccatccccgaagacagtctgtgggtcccccctggcagcacagcca
tcaccttctgctgagctcccccaggctgccccacctcctccaggctcaccctccctccct
ggacgcctggaggacttcctggagagcagcacggggctgcccctgctgaccagtgggcat
gacgggccagagcccctttccctcattgacgacctccatagccagatgctgagcagcact
gccatcctggaccaccccccgtcacccatggacacctcggaattgcactttgttcctgag
cccagcagcaccatgggcctggacctggctgatggccacctggacagcatggactggctg
gagctgtcgtcaggtggtcccgtgctgagcctagcccccctcagcaccacagcccccagc
ctcttctccacagacttcctcgatggccatgatttgcagctgcactgggattcctgcttg
tag
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