GENSCAN 1.0	Date run:  5-Nov-116	Time: 02:32:59

Sequence gi568815586r:56538326_56745963 : 207638 bp : 46.02% 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 +  11193  11210   18  2  0   97   92    20 0.202   1.83
 1.02 Intr +  24092  24258  167  1  2   93   97   144 0.960  14.56
 1.03 Intr +  30650  30745   96  2  0  100  100    83 0.860   9.82
 1.04 Intr +  31551  31665  115  0  1   71  116   113 0.888  12.85
 1.05 Intr +  31699  31902  204  0  0   35  116    42 0.661   1.10
 1.06 Intr +  33373  33530  158  0  2   93  100   114 0.791  11.91
 1.07 Intr +  42859  42938   80  1  2   58   94    77 0.601   4.49
 1.08 Intr +  43074  43183  110  1  2  113   95    33 0.998   6.50
 1.09 Intr +  43508  43554   47  1  2  109   82    52 0.923   3.91
 1.10 Intr +  49969  50049   81  1  0  104   94    80 0.416   8.95
 1.11 Term +  55763  55871  109  2  1   76   54    73 0.380   0.68
 1.12 PlyA +  56025  56030    6                               1.05

 2.59 PlyA -  57631  57626    6                               1.05
 2.58 Term -  60458  60293  166  1  1   98   54   267 0.790  21.69
 2.57 Intr -  60686  60543  144  1  0   42  110   134 0.988  10.40
 2.56 Intr -  61030  60804  227  1  2   72   72   123 0.792   5.88
 2.55 Intr -  61523  61377  147  2  0   32  110    50 0.796   2.03
 2.54 Intr -  61771  61639  133  0  1   76   83   128 0.947  11.75
 2.53 Intr -  62165  61876  290  2  2   48   76   254 0.942  16.24
 2.52 Intr -  62507  62356  152  0  2  111   67    84 0.981   8.48
 2.51 Intr -  62773  62618  156  2  0   75   59   139 0.992   9.68
 2.50 Intr -  63077  62921  157  2  1   92  100    -6 0.575   0.58
 2.49 Intr -  63867  63221  647  1  2   96  100   189 0.974  12.60
 2.48 Intr -  64532  64388  145  2  1   70   82   111 0.806   8.56
 2.47 Intr -  65093  65034   60  2  0  120   67    64 0.989   6.43
 2.46 Intr -  65375  65195  181  1  1   69   69   138 0.998   9.87
 2.45 Intr -  65966  65892   75  1  0  108   75    83 0.995   7.63
 2.44 Intr -  66474  66260  215  0  2   94   52   231 0.999  17.61
 2.43 Intr -  67002  66748  255  0  0  104  109   135 0.971  14.84
 2.42 Intr -  67738  67505  234  1  0   55   72   233 0.837  16.29
 2.41 Intr -  67987  67922   66  1  0   53  100    89 0.530   5.70
 2.40 Intr -  68408  68308  101  0  2  120   94    83 0.996  11.93
 2.39 Intr -  71621  71411  211  2  1   97   87   186 0.992  17.89
 2.38 Intr -  71890  71789  102  1  0   71   46   111 0.962   5.57
 2.37 Intr -  72192  72084  109  2  1   69   90    90 0.997   7.59
 2.36 Intr -  73308  73248   61  1  1  104   34    43 0.992  -1.71
 2.35 Intr -  73540  73448   93  2  0   60   89    81 0.487   5.34
 2.34 Intr -  74908  74690  219  2  0   73  115   118 0.999  11.27
 2.33 Intr -  75813  75628  186  1  0   78   96   101 0.915   9.56
 2.32 Intr -  77282  76689  594  0  0  141   75   283 0.864  24.84
 2.31 Intr -  79123  79070   54  2  0  102   87    25 0.338   2.75
 2.30 Intr -  94906  94828   79  1  1   50   76    48 0.112  -1.08
 2.29 Intr -  96806  96620  187  1  1   86   94   118 0.391  11.89
 2.28 Intr - 100098 100002   97  1  1   94   50   111 0.425   6.97
 2.27 Intr - 100982 100781  202  2  1  110   94   221 0.967  23.76
 2.26 Intr - 101867 101655  213  2  0   50  109   206 0.999  17.81
 2.25 Intr - 104255 104133  123  2  0   97  110    95 0.999  13.38
 2.24 Intr - 104506 104348  159  1  0   63   94    77 0.983   5.98
 2.23 Intr - 105262 105078  185  2  2   93  121   225 0.999  25.81
 2.22 Intr - 105633 105512  122  2  2   77   76   112 0.974   9.04
 2.21 Intr - 106630 106456  175  2  1  108   98   138 0.999  15.80
 2.20 Intr - 107028 106846  183  1  0   62  106   177 0.988  16.66
 2.19 Intr - 107691 107512  180  1  0   47  119   128 0.483  11.64
 2.18 Intr - 126475 126451   25  1  1  106  106    35 0.870   4.70
 2.17 Intr - 127941 127879   63  0  0   47   95    94 0.550   4.91
 2.16 Intr - 132039 131950   90  0  0   43  107    72 0.556   4.79
 2.15 Intr - 134484 134415   70  2  1   50  101   -13 0.505  -4.62
 2.14 Intr - 134740 134627  114  0  0  113  111   106 0.805  14.96
 2.13 Intr - 149262 149172   91  1  1   41   84    53 0.003  -0.75
 2.12 Intr - 150057 149673  385  0  1   34   82   122 0.001   0.62
 2.11 Intr - 174583 174461  123  1  0  116  115   141 0.995  20.38
 2.10 Intr - 174865 174737  129  1  0   69   59    95 0.980   5.59
 2.09 Intr - 175358 175212  147  2  0  110  113   126 0.995  17.73
 2.08 Intr - 176114 176037   78  2  0   76  116   108 0.999  12.15
 2.07 Intr - 176362 176277   86  2  2   51   94    79 0.992   4.34
 2.06 Intr - 178370 177546  825  0  0   87   30   222 0.127   7.69
 2.05 Intr - 186198 186127   72  1  0   97   96    49 0.844   5.98
 2.04 Intr - 195920 195822   99  0  0   61   83    91 0.972   5.98
 2.03 Intr - 200200 200109   92  0  2   70   94   125 0.995  10.94
 2.02 Intr - 201038 200969   70  0  1  104   95    59 0.999   6.44
 2.01 Intr - 203251 203110  142  1  1   87   79   101 0.993   9.03

Suboptimal exons with probability > 0.800

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



Predicted peptide sequence(s):

Predicted coding sequence(s):


>gi568815586r:56538326_56745963|GENSCAN_predicted_peptide_1|394_aa
MKFLLQPYVSLAQQMAPPSPSNSTPNSSSGSNGNDQLSKTNLYIRGLQPGTTDQDLVKLC
QPYGKIVSTKAILDKTTNKCKGERTTVLGVGEHHDAVSSVPGYGFVDFDSPSAAQKAVTA
LKASGVQAQMAKGFVVSTKVPVLRFPEGLRTMKLSGQGLSVVLSRQSMSTPGCWRKMYSK
SMAGSSISSLPFTKLLAARKQQEQDPTNLYISNLPLSMDEQELEGMLKPFGQVISTRILR
DTSGTSRGVGFARMESTEKCEAIITHFNGKYIKTPPGVPAPSDPLLCKFADGGPKKRQNQ
GKFVQNGRAWPRNADMGVMALTYDPTTALQNGICRRLQLCKELTSPSTPLCLLPVFQSSA
SSAYSCHSNVNPLGVEACHSNVNPWAVTLRHMML

>gi568815586r:56538326_56745963|GENSCAN_predicted_CDS_1|1185_bp
atgaagtttctgctacagccatatgtgtcattggctcagcagatggcaccacctagccca
agcaacagtacacctaacagcagtagtggaagcaatggaaatgaccagctgagcaaaacc
aacctatacatccgaggattgcaaccaggcactactgaccaagatcttgtcaagctgtgt
cagccatatggcaagattgtttccactaaggccatactggacaagaccacaaacaaatgt
aaaggtgagagaacaactgtccttggtgttggagagcaccatgatgctgtttcctctgtt
ccaggctatggctttgtagattttgacagcccttcagcagcacagaaagctgtaacagca
ctgaaggccagcggtgtacaggcacagatggcaaaggggtttgtggttagcaccaaagtt
ccagttctaaggtttccagagggcttaagaaccatgaaattgagtgggcaagggctatcc
gtggtgctttctagacagtccatgagcacccctggctgctggaggaagatgtattcaaag
tctatggcaggtagctctatcagctctcttcctttcaccaagttattggcagcaagaaag
caacaggaacaggaccccacaaatttatacatctcaaacctcccactgtcaatggatgag
caggaactggaggggatgctgaagccctttggccaggttatctccacccgtatccttcga
gataccagtgggaccagcagaggtgttggctttgcaaggatggagtccacagagaagtgt
gaagccatcatcacccactttaatggaaaatatattaagacaccccctggagtaccagcc
ccatccgatcccttgctttgcaaatttgctgatggcgggccaaagaaacgacagaaccaa
ggaaaatttgtgcaaaatggacgggcttggccaaggaatgcagacatgggcgtcatggcc
ttgacctatgaccccaccacagctcttcagaatggtatatgccgacggctgcagctatgc
aaggagcttacatctcccagtacacccctgtgccttcttccagtgtttcagtcgagtgcc
tccagtgcctactcctgtcactccaatgtcaacccattgggagttgaggcctgtcactcc
aatgtcaacccgtgggctgttactttgcgtcatatgatgctgtga

>gi568815586r:56538326_56745963|GENSCAN_predicted_peptide_2|3261_aa
NNIKNDKYGPWLEWEIMLQYCFPRLDINVSKGINHLLKSPFSVHPKTGRISVPIDLQKVD
QFDPFTVPTISFICRELDAISTNEEEKEENEAESDVKHRTRDYKKTSLAPYVKVFEHFLE
NLDKSRKGELLKKSEMPGEATETVPATEQELPQPQAETEAPTPPAVTPPSPEKGPATPAP
KGTPTSPPVTPSSLKDSPTSPASVTCKMGATVPQASKGLPAKKGPTALKEVLVAPAPEST
PIITAPTRKGPQTKKSSATSPPICPDPSAKNGSKGPLSTVAPAPLLPVQKDSSKTAKGKD
ASHSPKGPLAPPESKASTPLTAAAFEKVLPKPESASVSAAPSPPVSLPLAPSPVPTLPPK
QQFLPSSPGLVLESPSKPLAPADEDELLPLIPPEPISGGVPFQSVLVNMPTPKSAGIPVP
TPSAKQPVTKNNKGSGTESDSDESVPELEEQDSTQATTQQAQLAAAAEIDEEPVSKAKQS
RSEKKARKAMSKLGLRQVTGVTRVTIRKSKNILFVITKPDVYKSPASDTYIVFGEAKIED
LSQQAQLAAAEKFKVQGEAVSNIQENTQTPTVQEESEEEEVDETGVEVKDIELVMSQANV
SRAKAVRALKNNSNDIVNAIMISLESRAGAQKQGLRTRGGKARAFCCVTSRRPASPPLVC
THARSFSVLAPLFLHFPLLPDRRSRSFRAVHSGARGRARRCRRRLREARRGRDRREKAES
PPERSRLPSSSRRQRGPPTSSPVPLPRSQCPESSAPVVGAARCLAELLGEPHADLAVSCR
QPASAKWYDRRDYVFIEFCVEDSKDVNVNFEKSKLTFSCLGGSDNFKHLNEIDLFHCIDP
NLNWLSVDFNNWKDWEDDSDEDMSNFDRFSEMMNNMGGDEDVDLPEVDGADDDSQDSDDE
REQAAAVAAAFSLHPDYAMLGFVGRVAAAPASGALRRLTPSASLPPAQLLLRAAPTAVHP
VRDYAAQTSPSPKAGAATGRIVAVIGAVVDVQFDEGLPPILNALEVQGRETRLVLEVAQH
LGESTVRTIAMDGTEGLVRGQKVLDSGAPIKIPVGPETLGRIMNVIGEPIDERGPIKTKQ
FAPIHAEAPEFMEMSVEQEILVTGIKVVDLLAPYAKGGKIGLFGGAGVGKTVLIMELINN
VAKAHGGYSVFAGVGERTREGNDLYHEMIESGVINLKDATSKVALVYGQMNEPPGARARV
ALTGLTVAEYFRDQEGQDVLLFIDNIFRFTQAGSEVSALLGRIPSAVGYQPTLATDMGTM
QERITTTKKGSITSVQAIYVPADDLTDPAPATTFAHLDATTVLSRAIAELGIYPAVDPLD
STSRIMDPNIVGSEHYDVARGVQKILQDYKSLQDIIAILGMDELSEEDKLTVSRARKIQR
FLSQPFQVAEVFTGHMGKLVPLKETIKGFQQILAGEYDHLPEQAFYMVGPIEEAVAKADK
LAEEHSSGSFATALLSGCPHLGSSCPFKHHLLPSAAAGPGLGEEAQPPPGSATCASAAAA
AACGPALLQPSGYRVEPGTVAADPRVREVLQEHREGEGLYTNGSPMNFPQQGKSLNGDVN
VNGLSTVSHTTTSGILNSAPHSSSTSHLHHPSVAYDCLWNYSQYPSANPGSNLKDPPLLS
QFSGGQYPLNGILGGSRQPSSPSHNTNLRAGSQEFWANGTQSPMGLNFDSQELYDSFPDQ
NFEVMPNGPPSFFTSPQTSPMLGSSIQTFAPSQEVGSGIHPDEAAEKEMTSVVAENGTGL
VGSLELEEEQPELKMCGYNGSVPSVESLHQEVSVLVPDPTVSCLDDPSHLPDQLEDTPIL
SEDSLEPFNSLAPEPVSGGLYGIDDTELMGAEDKLPLEDSPVISALDCPSLNNATAFSLL
ADDSQTSTSIFASPTSPPVLGESVLQASPANKDVSSFLETTADVEEITGEGLTASGSGDV
MRRRIATPEEVRLPLQHGWRREVRIKKGSHRWQGETWYYGPCGKRMKQFPEVIKYLSRNV
VHSVRREHFSFSPRMPVGDFFEERDTPEGLQWVQLSAEEIPSRIQAITGKRGRPRNTEKA
KTKEVPKVKRGRGRPPKVKITELLNKTDNRPLKKLEAQETLNEEDKAKIAKSKKKMRQKV
QRGECQTTIQGQARNKRKQETKSLKQKEAKKKSKAEKEKGKTKQEKLKEKVKREKKEKVK
MKEKEEVTKAKPACKADKTLATQRRLEERQRQQMILEEMKKPTEDMCLTDHQPLPDFSRV
PGLTLPSGAFSDCLTIVEFLHSFGKVLGFDPAKDVPSLGVLQEGLLCQGDSLGEVQDLLV
RLLKAALHDPGFPSYCQSLKILGEKVSEIPLTRDNVSEILRCFLMAYGVEPALCDRLRTQ
PFQAQPPQQKAAVLAFLVHELNGSTLIINEIDKTLESMSSYRKNKWIVEGRLRRLKTVLA
KRTGRSEVEMEGPEECLGRRRSSRIMEETSGMEEEEEEESIAAVPGRRGRRDGEVDATAS
SIPELERQIEKLSKRQLFFRKKLLHSSQMLRAVSLGQDRYRRRYWVLPYLAGIFVEGTEG
NLVPEEVIKKETDSLKVAAHASLNPALFSMKMELAGSNTTASSPARARGRPRKTKPGSMQ
PRHLKSPVRGQDSEQPQAQLQPEAQLHAPAQPQPQLQLQLQSHKGFLEQEGSPLSLGQSQ
HDLSQSAFLSWLSQTQSHSSLLSSSVLTPDSSPGKLDPAPSQPPEEPEPDEAESSPDPQA
LWFNISAQMPCNAAPTPPPAVSEDQPTPSPQQLASSKPMNRPSAANPCSPVQFSSTPLAG
LAPKRRAGDPGEMPQSPTGLGQPKRRGRPPKMCSGWWWIRDPEMLDAMLKALHPRGIREK
ALHKHLNKHRDFLQEVCLRPSADPIFEPRQLPAFQEGIMSWSPKEKTYETDLAVLQWVEE
LEQRVIMSDLQIRGWTCPSPDSTREDLAYCEHLSDSQEDITWRGRGREGLAPQRKTTNPL
DLAVMRLAALEQNVERRYLREPLWPTHEVVLEKALLSTPNGAPEGTTTEISYEITPRIRV
WRQTLERCRSAAQVCLCLGQLERSIAWEKSVNKVTCLVCRKGDNDEFLLLCDGCDRGCHI
YCHRPKMEAVPEGDWFCTVCLAQVEGEFTQKPGFPKRGQKRKSGYSLNFSEGDGRRRRVL
LRGRESPAAGPRYSEEGLSPSKRRRLSMRNHHSDLTFCEIILMEMESHDAAWPFLEPVNP
RLVSGYRRIIKNPMDFSTMRERLLRGGYTSSEEFAADALLVFDNCQTFNEDDSEVGKAGH
IMRRFFESRWEEFYQGKQANL

>gi568815586r:56538326_56745963|GENSCAN_predicted_CDS_2|9786_bp
aataacatcaaaaatgacaaatatggaccctggctggagtgggagattatgctccagtac
tgttttccacggctggatatcaatgtcagcaaaggaatcaatcatctactgaagagccct
tttagtgttcatcctaaaacaggtcgcatatctgtgcctattgatttgcagaaagtggac
cagtttgatccatttactgttccgaccataagcttcatctgccgtgaattggatgccatt
tccactaatgaagaggaaaaagaggagaatgaagctgaatctgatgtcaaacatagaacc
agagattataagaagaccagtctagcaccttatgtgaaagtttttgaacattttcttgaa
aatctggataaatcccgaaaaggagaacttcttaagaagagtgaaatgcccggcgaagcc
acagaaaccgtccctgctacagagcaggagttgccgcagccccaggctgagacagaggca
cctactcctccagctgtgactcctccatcccccgaaaagggcccagcaactccagccccc
aaagggactcccacttccccacctgtgactccttcctccctcaaagactcccctacttcc
ccagcttctgtcacatgtaaaatgggggccactgttcctcaagcatctaaagggcttcca
gcaaagaaaggccccacagctctgaaagaagtacttgttgccccagctccagaaagcacg
ccaatcatcacagctcccactcggaaaggtccacagaccaaaaagagttctgctacttca
cctcctatatgcccagatccctcagctaagaatggttctaaaggacccctttccacagtg
gctccagcccctctactccctgttcagaaagactcttcaaagacagcaaaaggcaaagat
gcttctcattccccaaagggccccttggctcctcctgagtctaaggcgtccacccctcta
acagcagctgcctttgagaaggtccttcctaaacctgaatcagcatctgtctctgcagca
ccctccccaccagtctctctgcctcttgctccctccccagttcccactctgcctcctaaa
cagcaatttctgccgtcctctcctgggctggtgttggaatcaccctctaaaccccttgcc
cctgctgatgaggatgagctgctgcctctgattcccccggaaccaatctctgggggagtg
cctttccagtcggtcctcgtcaacatgcccacccctaaatctgctggaatccctgtccca
accccctctgccaagcaacctgttacgaagaacaacaaggggtctggaacagaatctgac
agtgatgaatcagtaccagagcttgaagaacaggattccacccaggcaaccacacaacaa
gcccagctggcggcagcagctgaaattgatgaagaaccagtcagtaaagcaaaacagagt
cggagtgaaaagaaggcacggaaggctatgtccaaactgggtcttcggcaggttacagga
gttactagagtcactatccggaaatctaagaatatcctctttgtcatcacaaaaccagat
gtctacaagagccctgcttcagatacttacatagtttttggggaagccaagatcgaagat
ttatcccagcaagcacaactagcagctgctgagaaattcaaagttcaaggtgaagctgtc
tcaaacattcaagaaaacacacagactccaactgtacaagaggagagtgaagaggaagag
gtcgatgaaacaggtgtagaagttaaggacattgaattggtcatgtcacaagcaaatgtg
tcgagagcaaaggcagtccgagccctgaagaacaacagtaatgatattgtaaatgcgatt
atgatatctctagaaagccgcgccggagcccaaaaacaaggactgcgcacgcgcggcggc
aaggcccgggcattttgctgcgtcaccagccgccgcccggcctcaccacccctcgtttgc
acgcacgcacgttcattctccgtcctcgcgccccttttcctacactttcctcttctcccc
gaccggaggagccgctctttccgcgcggtgcattctggggcccgaggtcgagcccgccgc
tgccgccgtcgcctgagggaagcgagaagaggccgcgaccggagagaaaaagcggagtcg
ccaccggagagaagtcgactccctagcagcagccgccgccagagaggcccgcccaccagt
tcgcccgtccccctgccccgttcacaatgccctgagtcgagtgcacctgtggtgggtgcc
gccaggtgcctggcggagctcctgggagagccccacgcggacctcgccgtgagctgcagg
cagcctgcttctgcaaagtggtacgatcgaagggactatgtcttcattgaattttgtgtt
gaagacagtaaggatgttaatgtaaattttgaaaaatccaaacttacattcagttgtctc
ggaggaagtgataattttaagcatttaaatgaaattgatctttttcactgtattgatcca
aatcttaattggcttagtgtcgacttcaataattggaaagactgggaagatgattcagat
gaagacatgtctaattttgatcgtttctctgagatgatgaacaacatgggtggtgatgag
gatgtagatttaccagaagtagatggagcagatgatgattcacaagacagtgatgatgaa
agagagcaggcggctgcggttgctgcagccttcagtctccacccggactacgccatgttg
gggtttgtgggtcgggtggccgctgctccggcctccggggccttgcggagactcacccct
tcagcgtcgctgcccccagctcagctcttactgcgggccgctccgacggcggtccatcct
gtcagggactatgcggcgcaaacatctccttcgccaaaagcaggcgccgccaccgggcgc
atcgtggcggtcattggcgcagtggtggacgtccagtttgatgagggactaccaccaatt
ctaaatgccctggaagtgcaaggcagggagaccagactggttttggaggtggcccagcat
ttgggtgagagcacagtaaggactattgctatggatggtacagaaggcttggttagaggc
cagaaagtactggattctggtgcaccaatcaaaattcctgttggtcctgagactttgggc
agaatcatgaatgtcattggagaacctattgatgaaagaggtcccatcaaaaccaaacaa
tttgctcccattcatgctgaggctccagagttcatggaaatgagtgttgagcaggaaatt
ctggtgactggtatcaaggttgtcgatctgctagctccctatgccaagggtggcaaaatt
gggctttttggtggtgctggagttggcaagactgtactgatcatggagttaatcaacaat
gtcgccaaagcccatggtggttactctgtgtttgctggtgttggtgagaggacccgtgaa
ggcaatgatttataccatgaaatgattgaatctggtgttatcaacttaaaagatgccacc
tctaaggtagcgctggtatatggtcaaatgaatgaaccacctggtgctcgtgcccgggta
gctctgactgggctgactgtggctgaatacttcagagaccaagaaggtcaagatgtactg
ctatttattgataacatctttcgcttcacccaggctggttcagaggtgtctgcattattg
ggccgaatcccttctgctgtgggctatcagcctaccctggccactgacatgggtactatg
caggaaagaattaccactaccaagaagggatctatcacctctgtacaggctatctatgtg
cctgctgatgacttgactgaccctgcccctgctactacgtttgcccatttggatgctacc
actgtactgtcgcgtgccattgctgagctgggcatctatccagctgtggatcctctagac
tccacctctcgtatcatggatcccaacattgttggcagtgagcattacgatgttgcccgt
ggggtgcaaaagatcctgcaggactacaaatccctccaggatatcattgccatcctgggt
atggatgaactttctgaggaagacaagttgaccgtgtcccgtgcacggaaaatacagcgt
ttcttgtctcagccattccaggttgctgaggtcttcacaggtcatatggggaagctggta
cccctgaaggagaccatcaaaggattccagcagattttggcaggtgaatatgaccatctc
ccagaacaggccttctatatggtgggacccattgaagaagctgtggcaaaagctgataag
ctggctgaagagcattcatctggatccttcgcgactgctctcctgagcggttgtcctcac
ctcggtagttcctgcccctttaagcaccacctcctcccctccgccgccgccggcccaggg
ctgggggaggaggcgcagccgccgcccggctcggccacctgcgcctctgccgccgccgcc
gccgcctgcggcccggccctgctccagccatctggctacagagtggagccaggcactgtg
gcagctgaccccagagtcagggaggtgctgcaggaacacagggagggggagggcctctac
actaacgggtctcccatgaacttcccccagcaagggaaaagtttgaatggggatgtgaat
gttaatggcttatctactgtatctcacactactacttcagggattttgaactctgctccc
cactcctccagcacctcacacctccatcaccccagcgtggcctacgactgtctctggaac
tactcacagtacccatctgccaatcctggcagcaacctcaaggacccaccccttctctcc
cagttctcggggggacaatacccactcaacggcatccttgggggcagccggcaaccttca
tccccaagtcataacactaaccttcgggctgggagccaagagttctgggccaacggtacc
cagagtcccatggggcttaactttgattcacaagaactgtatgattcctttcctgaccag
aattttgaggtgatgcccaatggaccccctagttttttcacctccccacagacttctcct
atgttgggatctagcattcaaacctttgcaccctcccaggaggtaggcagtggtatccat
cctgatgaggcagcagaaaaggagatgacttcagttgtggcagagaatggcactggcttg
gtaggcagcttggagctggaagaagagcagccagaactgaagatgtgtggctacaatggc
tctgtcccttctgtggaatcgttacaccaagaggtctcagtcctggtccctgaccccaca
gtgagctgtttagatgatccttcacatcttcctgatcaactggaagacactccaatcctc
agtgaagactctctggagcccttcaactctctggcaccagagccagtgagtggaggacta
tatggtattgatgacacggagctgatgggtgcagaggacaagctgcctcttgaggacagc
cctgtgatttctgcccttgattgcccttccctcaataatgctactgccttcagtctcctg
gcagatgatagtcaaacatcaacctctatctttgccagtcccacctctccacctgtccta
ggggagtctgtcctgcaagcctccccagcaaataaggatgtcagcagctttctagaaacc
actgctgacgtggaagagatcactggagaaggactcactgcttctggtagtggtgatgtc
atgaggagacgtattgctaccccagaagaagttcgtcttcccctccaacatgggtggcgg
agagaggtgcgcatcaagaagggcagccaccgatggcagggggagacctggtattatggc
ccctgtgggaagaggatgaagcaatttccagaagtgatcaagtacctgagccgcaacgtg
gtacacagtgtccgccgagagcacttcagcttcagtccccgtatgcctgttggagatttc
tttgaagaaagagacacgccagagggcttgcagtgggtgcagctctcagcagaggagatc
ccgtcgaggattcaggcaattactggcaaacggggtcgacctcgaaacactgagaaggct
aagactaaggaagtccccaaggtgaaacggggtcgaggtcggccacctaaggtcaaaatc
actgagctattgaacaagacagacaaccgccccctaaagaaactggaggcccaagaaaca
ttgaatgaggaggataaagcaaagattgctaaaagcaagaagaagatgaggcagaaggtt
caacggggagagtgtcagactactatccaagggcaggccagaaataagcggaaacaagag
accaagagcttaaagcagaaggaagctaagaagaaatccaaggctgagaaagaaaaagga
aagacaaagcaggaaaaactgaaggaaaaagtcaagagggaaaagaaggagaaggtaaaa
atgaaggaaaaggaggaggtgaccaaagccaagccagcctgtaaagcagataagaccctg
gccacacagaggcgcttggaggaacggcagaggcagcagatgatcttggaggaaatgaag
aagccgacagaggatatgtgtctgactgaccaccagcccctgcctgacttctcacgagtc
cctggtctgacattgcccagtggagccttctcagactgcttgaccattgtggagttcctg
catagctttggcaaggtgctgggctttgatcctgccaaagatgtgcctagcctgggggtc
ctgcaggagggactcctgtgtcaaggtgacagcttgggtgaggtgcaagacctgctggtc
aggctgctgaaggctgcactccatgatcctggctttccctcctactgtcagtccctaaag
atcttgggggagaaggtgtctgagatcccactgacaagagacaatgtgtcagagatcctg
cgctgcttccttatggcatatggagtagagccagccctctgtgaccgcctgcgcacccag
ccttttcaggcccagccaccccagcagaaggctgctgtcctggccttccttgtgcatgag
ctcaatggctccaccctcatcatcaatgagattgacaagactctggagagtatgtccagc
tacaggaaaaacaagtggattgttgaaggccggctccggaggctgaaaactgttctggcc
aagcgaactgggcggtctgaagtagagatggaagggccagaggaatgcctgggacggagg
cgcagttctcggatcatggaggagaccagtggcatggaagaagaggaagaagaggagtct
atagcagctgtccctggccgcaggggtcgaagagatggagaggttgatgccacagcatct
agcatcccagagctagagcgccagatagaaaaactcagcaagcgtcagcttttctttcgc
aaaaagctgcttcactcatcccagatgcttcgggcggtctccctgggtcaggaccgctac
agacgtcgctactgggtattgccgtatttggctggtatctttgtagaaggaacagagggg
aacttagttcctgaggaggtgataaagaaggaaactgactccttaaaagtggcagcccat
gcgtcactcaaccctgccctcttctctatgaagatggagttagctggctccaacaccact
gccagttctcctgcccgggcccgaggccgacctcgaaaaactaagcccgggtctatgcaa
cctaggcatcttaagtcccctgtcaggggtcaggattcagaacagccccaggcccagctt
cagcctgaggctcagcttcatgctcctgcccagccccagcctcagcttcagcttcagctt
cagtcccataaggggttcctggagcaagaaggctcccctttgtcactgggtcagagccag
catgacctcagccagtcagccttcctgtcttggctgagccagactcagagccatagctcc
ctgttgagcagctcagtcctcacacctgatagcagtccgggaaaactagacccagctcca
tcacaacccccggaggagccagagcctgatgaggcagaatccagccctgatcctcaagca
ctctggtttaacatctcagcccagatgccctgcaatgctgcccccacaccgccccctgca
gtttctgaggaccaacccactccctcccctcagcagcttgcctcctccaagccaatgaat
agacctagtgctgccaacccttgttctccagtgcagttctcttccacgcccttggctggg
ttggcccctaagaggcgagcaggagaccctggagaaatgccacagagtcccacagggctg
ggacagcccaaacggagagggagacctcccaagatgtgctcaggctggtggtggatacga
gatcctgagatgttggatgccatgctcaaggccctacacccccgaggtatccgggagaag
gcacttcacaaacaccttaacaagcacagggacttcttgcaggaagtctgcctgcggccc
tcagctgaccccatctttgagcccaggcaactacctgcctttcaagaagggattatgagc
tggtcccccaaagagaagacatacgagacagacctagcagtgcttcaatgggtagaggag
ctggagcagcgggttatcatgtctgatctgcagattcggggctggacatgtcctagccca
gactctacccgtgaagacttggcctactgtgagcacctctccgactcccaggaggatatc
acctggcgaggtcggggcagggagggactggcacctcagcgtaaaactaccaaccctttg
gacctggctgtgatgcggctggctgccctggaacagaatgtagaacggcggtacctgcgg
gagcccctctggccaactcatgaggttgtgctggagaaggccctgcttagcacacctaat
ggtgcccctgagggcaccactacagagatatcatatgagatcacccctcgcattcgtgtc
tggcgccagaccctcgagcggtgccggagcgcagcccaggtgtgcttgtgcctgggccag
ctggagaggtccattgcctgggagaagtctgtcaacaaagtgacatgtctagtctgccgg
aagggtgacaatgatgagtttcttctgctttgtgatgggtgtgaccgtggctgccacatt
tactgccatcgtcccaagatggaggctgtcccagaaggagattggttctgtactgtctgt
ttggctcaggtggagggagaattcactcagaagcctggtttcccaaagcgtggccagaag
cggaaaagtggttattcgctgaacttctcagagggtgatggccgccgacgccgggtactg
ttgaggggccgagaaagcccagcagcagggcctcggtactcggaagaagggctctccccc
tccaagcggcggcgactctctatgcggaaccaccacagtgatctcacattttgcgagatt
atcctgatggagatggagtcccatgatgcagcctggcctttcctagagcctgtgaaccca
cgtttggtgagtgggtaccggcgcatcatcaaaaatcctatggatttttccaccatgcgg
gagcggctgctcaggggagggtacaccagctcagaggagtttgcggctgatgccctcctg
gtatttgacaactgccagactttcaacgaggatgactctgaagtaggcaaggctgggcac
atcatgcgccgcttcttcgagagccgctgggaggagttttatcagggaaaacaggccaat
ctgtga