Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_12474 LG3 17339074 17347541 PREDICTED: phototropin-1-like isoform X2
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   blue light signaling pathway, protein autophosphorylation, blue light signaling pathway, protein phosphorylation, regulation of stomatal movement, regulation of proton transport, protein autophosphorylation, negative regulation of anion channel activity by blue light, protein phosphorylation, circadian rhythm, regulation of proton transport, protein autophosphorylation, protein autophosphorylation, blue light signaling pathway, phototropism, chloroplast accumulation movement, protein autophosphorylation, chloroplast avoidance movement, protein phosphorylation, chloroplast avoidance movement, phototropism, protein autophosphorylation, negative regulation of anion channel activity by blue light, chloroplast accumulation movement, blue light signaling pathway, response to blue light, negative regulation of anion channel activity by blue light
Cellular Component   is active in   nucleus, plasma membrane, cytoplasm
Cellular Component   located in   plant-type vacuole, cytoplasm, nucleus, cytoplasmic side of plasma membrane, cell surface, plant-type vacuole, nucleus, cytoplasm, cytoplasmic side of plasma membrane
Molecular Function   enables   protein binding, FMN binding, kinase activity, FMN binding, protein kinase activity, blue light photoreceptor activity, protein kinase activity, FMN binding, identical protein binding, protein serine/threonine kinase activity, identical protein binding, protein serine/threonine kinase activity, protein serine/threonine kinase activity, protein binding, protein kinase activity, protein serine/threonine kinase activity, mRNA binding, protein binding, protein binding, identical protein binding, FMN binding, protein serine/threonine kinase activity, protein binding, protein serine/threonine kinase activity
Pathway   B 09181 Protein families: metabolism   C 01001 Protein kinases [BR:ko01001]
SNP Position Effect Amino acid change
C/T 17339496 synonymous_variant p.Asn141Asn
A/T 17339980 intron_variant
G/T 17340110 synonymous_variant p.Thr249Thr
A/G 17340181 stop_lost&splice_region_variant p.Ter273Trpext*?
C/A 17340620 intron_variant
T/C 17340660 intron_variant
G/A 17340695 intron_variant
A/G 17340713 intron_variant
A/T 17340715 intron_variant
T/A 17340913 intron_variant
A/C 17340943 intron_variant
T/A 17340947 intron_variant
A/T 17340963 intron_variant
G/A 17340967 intron_variant
T/A 17341074 intron_variant
A/G 17341254 intron_variant
T/C 17341256 intron_variant
G/C 17341257 intron_variant
A/G 17341497 intron_variant
C/T 17341534 intron_variant
C/T 17341652 intron_variant
C/T 17341668 intron_variant
G/T 17341696 intron_variant
A/G 17341747 intron_variant
T/G,* 17341752 intron_variant
T/C 17341765 intron_variant
T/C 17341795 intron_variant
T/C 17341845 intron_variant
A/T 17341875 missense_variant p.Thr306Ser
G/A 17342085 missense_variant p.Gly376Arg
A/C 17342091 missense_variant p.Asn378His
T/A 17342140 missense_variant p.Leu394His
C/T 17342171 intron_variant
G/T 17342248 intron_variant
A/C 17342252 intron_variant
T/A 17342261 intron_variant
G/A 17342275 intron_variant
C/T 17342369 intron_variant
T/A 17342450 missense_variant p.Leu418Gln
A/G 17342465 missense_variant p.Lys423Arg
T/C 17342674 intron_variant
G/C 17342683 intron_variant
G/C 17342716 intron_variant
T/C 17342749 intron_variant
A/C 17342780 intron_variant
A/T 17343102 intron_variant
A/T 17343110 intron_variant
C/T 17343127 intron_variant
G/T 17343374 intron_variant
A/C 17343459 intron_variant
A/T 17343512 intron_variant
T/C 17343653 intron_variant
A/G 17344069 synonymous_variant p.Lys580Lys
A/C 17344143 intron_variant
G/T 17344163 intron_variant
G/A 17344307 intron_variant
C/G 17344315 intron_variant
T/A 17344329 intron_variant
G/T 17344587 intron_variant
A/G 17344592 intron_variant
A/C 17345028 intron_variant
A/T 17345053 splice_region_variant&intron_variant
T/C 17345138 synonymous_variant p.Leu709Leu
G/A 17345243 intron_variant
A/G 17345501 intron_variant
G/A 17345526 intron_variant
A/G 17345614 intron_variant
A/T 17345653 intron_variant
C/A 17345686 intron_variant
T/A 17345703 intron_variant
G/A 17345716 intron_variant
C/A 17345943 intron_variant
T/G 17345964 intron_variant
A/G 17346005 intron_variant
A/G 17346065 intron_variant
T/C 17346301 intron_variant
C/A 17346305 intron_variant
G/A 17346314 intron_variant
T/A 17346343 missense_variant p.Leu772Gln
A/C 17346375 missense_variant p.Asn783His
T/G 17346464 splice_region_variant&intron_variant
C/T 17346473 intron_variant
T/A 17346534 intron_variant
G/A 17346539 intron_variant
A/G 17346545 intron_variant
T/A 17346674 intron_variant
A/G 17346685 intron_variant
G/A 17347038 intron_variant
C/A 17347064 intron_variant
T/C 17347122 intron_variant
G/A 17347123 intron_variant
G/A 17347302 missense_variant p.Ala892Thr
A/T 17347304 synonymous_variant p.Ala892Ala
G/A 17347402 intron_variant
T/A 17347403 intron_variant
T/G 17347410 intron_variant
T/G 17347439 splice_region_variant&intron_variant

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_12474.1
MEAFPRDQRGSLEVFNPSSSYSNEKPVNSPLRTQSTWKTWMESRAEEPQEQQQRGGPDEVTATSWMALKDSTPPVPSQTLAAVLGEPPAEVGNAAKRAAEWGLVLKTDTETGKPQGVAVRTSGGEEPSAKVTGKPRRDSGNSVRSSGESSDDGREYRGGIPRVSEDLRDALSAFQQTFVVSDATKPDYPIMYASAGFFKMTGYTSKEVIGRNCRFLQGADTDPDDVAKIREALQTGQTYCGRLLNYKKDGTPFWNLLTIAPIKDHDGRVLKLIGMQVEVSKHTEGTKEKMLRPNGLPESLIRYDSRQKEKANSTVSELLLAVRRPRALSESGGRPLIRKSASGDDDQEKPEKSSRRKSESVASFRRKSHAGDTSSMERITELPEKKHKTSRRRSFMGFIRKSQSNFGSFNDEAVIKDSSESSDEDDERSGSFDGKVKKREKRKGLDLATTLERIEKNFVITDPRLPDNPIIFASDSFLELTEYSREEILGRNCRFLQGPETDPATVRKIREAIDTQTDVTVQLINYTKSGKKFWNLFHLQPMRDQKGEVQYFIGVQLDGSQHVEPLHNRIAENTAKEGEQLVKETAENVDDALRELPDANLKPEDLWMNHSKVVHPKPHRRDEAAWKAIQKILESGEQIGLNHFRPVKPLGSGDTGSVYLVELGETGQYFAMKAMEKGIMLNRNKWVSFNSSYNYRCIELAQRERSSTCWTTLFFLHYMLPFRFYAAEVVVALEYLHCQGIIYRDLKPENVLLQSSGHVSLTDFDLSCLTSCKPQLLVPSINEKKKANKSQQPPIFMAEPMRASNSFVGTEEYIAPEIITGSGHTSAVDWWALGILLYEMFYGYTPFRGKTRQRTFTNILHKDLKFPKSKQVSFSAKQLMYRLLNRETKSRLGSREGANEIKNHPFFRGVNWALVRCTKPPELDAPLFGTTEEEKEANFEDKVQEEMNVF*


CDS Sequence:
>Vu_12474.1
ATGGAGGCATTTCCCAGAGACCAACGTGGCTCGCTCGAAGTGTTCAACCCTTCGTCTTCTTACTCCAACGAGAAGCCGGTCAACTCGCCATTGCGCACTCAATCCACGTGGAAGACGTGGATGGAGTCGCGAGCCGAGGAGCCACAGGAGCAGCAGCAACGCGGCGGTCCCGATGAAGTCACAGCCACGTCGTGGATGGCGCTAAAGGACTCCACTCCGCCGGTTCCATCACAAACACTCGCCGCGGTGCTCGGTGAGCCTCCGGCGGAGGTCGGAAATGCCGCGAAGCGCGCTGCGGAATGGGGTCTGGTGCTGAAGACGGACACGGAAACCGGGAAGCCGCAGGGAGTGGCGGTTCGGACCTCCGGCGGGGAGGAGCCGAGCGCGAAGGTGACCGGTAAGCCGAGGAGGGACTCCGGAAACTCCGTTCGGAGCTCCGGCGAGTCCTCCGACGACGGGAGGGAGTACCGGGGAGGAATCCCGAGGGTTTCGGAGGACCTGAGGGATGCTCTGTCGGCGTTTCAACAAACTTTCGTGGTTTCGGATGCTACCAAACCCGATTACCCGATAATGTATGCCAGTGCCGGATTTTTCAAGATGACGGGTTACACATCGAAGGAAGTCATAGGGAGAAACTGCCGGTTTTTGCAGGGAGCGGACACGGATCCGGATGATGTGGCAAAGATAAGGGAAGCCTTACAAACGGGTCAGACCTACTGTGGAAGGTTACTGAATTACAAGAAGGACGGCACTCCCTTTTGGAACCTTCTCACTATTGCCCCAATCAAGGACCACGATGGCAGAGTCCTTAAACTTATAGGAATGCAAGTGGAGGTTAGCAAGCATACAGAGGGGACGAAGGAGAAGATGCTACGTCCCAATGGATTACCCGAATCCTTGATTCGATACGATTCTCGACAAAAAGAAAAGGCAAATAGTACAGTATCTGAGCTGTTGCTGGCTGTGAGGAGGCCACGGGCGCTGAGTGAATCAGGAGGCCGTCCCTTGATCAGAAAGTCAGCATCCGGTGATGATGATCAAGAAAAACCAGAAAAGTCATCGAGGAGAAAATCTGAGAGTGTGGCTTCTTTTAGACGCAAATCACATGCAGGAGACACAAGTTCAATGGAGAGAATCACTGAGCTACCTGAAAAGAAACACAAGACATCTCGTCGCCGTTCCTTCATGGGGTTCATCAGGAAAAGTCAGTCCAACTTTGGAAGCTTCAATGACGAAGCTGTTATTAAGGATAGTTCTGAGAGTAGTGATGAAGATGATGAGAGGTCTGGTAGTTTTGATGGCAAAGTAAAGAAGAGGGAAAAGAGAAAGGGTCTTGATCTTGCTACCACACTTGAACGTATTGAGAAGAACTTTGTTATTACTGATCCTAGGCTGCCTGATAACCCCATTATCTTTGCATCTGATAGCTTCTTGGAGCTTACGGAGTATAGTCGTGAAGAAATCTTGGGAAGAAATTGCAGGTTTCTGCAAGGGCCTGAAACTGATCCAGCAACAGTGAGAAAGATTAGAGAGGCCATTGACACTCAAACTGACGTCACTGTGCAACTCATTAATTATACAAAGAGTGGTAAAAAGTTCTGGAACTTGTTTCATTTGCAACCTATGCGTGATCAGAAGGGAGAGGTACAGTACTTTATTGGAGTTCAACTTGATGGTAGTCAACACGTGGAGCCTCTTCACAACCGCATTGCAGAAAATACTGCAAAAGAGGGAGAACAATTGGTAAAAGAAACTGCTGAAAATGTTGATGATGCATTGAGAGAACTTCCAGATGCTAATTTGAAACCAGAAGATTTATGGATGAATCATTCAAAAGTGGTTCACCCGAAACCACATAGGAGGGATGAAGCTGCTTGGAAAGCTATTCAGAAGATCCTAGAAAGTGGAGAGCAGATTGGCTTGAATCATTTTAGGCCAGTTAAACCTTTGGGATCAGGAGATACTGGCAGTGTCTATCTGGTGGAGCTAGGTGAAACTGGCCAATATTTTGCCATGAAGGCTATGGAAAAGGGTATTATGCTCAATCGTAACAAGTGGGTCAGTTTTAACAGCAGCTATAACTACAGGTGCATAGAGCTTGCACAGAGAGAGAGATCCTCGACATGTTGGACCACCCTTTTCTTCCTGCATTATATGCTTCCTTTCAGATTTTATGCCGCTGAAGTAGTTGTTGCATTGGAGTATCTTCATTGTCAAGGGATAATATATCGGGATTTGAAGCCAGAAAATGTGTTACTACAAAGCAGTGGACACGTGTCCCTAACAGATTTTGATCTGTCATGTTTGACATCTTGCAAACCACAGCTTCTAGTTCCATCCATAAATGAAAAGAAGAAAGCAAATAAAAGCCAACAACCTCCAATATTTATGGCAGAACCTATGAGAGCATCAAACTCTTTTGTGGGCACAGAAGAGTACATAGCTCCGGAAATTATAACGGGTTCAGGCCATACTAGTGCTGTGGATTGGTGGGCTCTTGGAATTCTTCTATATGAAATGTTTTATGGATATACACCATTCAGGGGAAAGACCAGGCAAAGAACATTTACAAATATTCTTCACAAGGACCTTAAATTTCCCAAAAGTAAACAGGTAAGTTTCAGTGCAAAGCAGTTAATGTATCGGTTGCTGAACAGAGAGACCAAAAGCAGATTGGGTTCAAGAGAAGGAGCAAATGAAATTAAAAACCATCCATTCTTTCGGGGTGTCAATTGGGCCCTAGTTCGTTGCACTAAACCTCCTGAGCTTGATGCACCTCTCTTCGGAACAACTGAAGAAGAAAAGGAAGCCAATTTTGAAGATAAAGTGCAAGAGGAGATGAACGTCTTCTGA


Promoter Sequence:
>Vu_12474::LG3:17337074-17339074(+)
TTCACATCACGAAGTTGATCAAAGAAGTCCTTCACTTTCAATCATTTTACCATTCAGCAGGCAACTACATAAAAAAGGTAAACATCAATCACCATTTGATACCCACTAAAAGGGAAAAATATACACTTAACTCAAAATCTTGAAGATTATTTGTGGTCACGAATCATCCAGCGTCGACCAATATGGTCTCATGTGTCCATTTCACAAGCTTATCCTTGTGACCATGCCCTTTCAACAAGCTCCTCTTTTCTTAGATATGCAATGCAAGAATTACCCTTGTGCAAGACAGTGGGTATATTAATATTCTATATGTTTTTCAAGACGCAAAAGAGTGAGGATATTTGCCATTTTTGGTTGTCTGATTTTGCATTTGTCCTGGGCTATAAGTCCACAACCTCAGACATAGAAAACCAAACAGTGTTGTCCTTGGAACAAAAGGAGGGTACAGCTAGCCTGCAGAGATTAACATGCTTGTGGAGACTCATATAATGTTCACGTTCTCTGTTCTTGTTGCTTTTCTATTTTGACACCCCACTTCCAGACTGGCACTTACGTTCTGACATCAGAAATCATTGAAGGTAAGACCCAGATGAAGAAGCAGCATCAGAAGATAGAAATACATCACTGTTTGGTTCCTCCACTCTGTAAAATTTTGTTTCTCTCAAATGTTTTAGGACTCCAAAGTGAACAAGGTTGCACCATTATATAGCATACTTTTAGGAATTCGTGCAAAGAGGAATGTCCCATGTGAAATATCCAGACACAGGGATGGGAACCCAAACCTTTCCAACAATGATCCCTTCATATTTTTATTCCACCTGTCCTCCTTCTGCACTATGAGCCATTTCTAGAAATCAGTTTTCTCTCTGTTTATATTGTGTGCAAATTTCTTTAACAATAAGCAGCAACACAAGTCCACACCTCCTACCACTGCCAAATTCAGAAGATTTCTGACCCTGCAAAGCACAAGAGGTATTACACTGTAAAACATTTCTAATCACACACAGCAAGAGGTATTATTAAACTGTGAAACATTTCTAATCACACTCATGATTTTTCTTTCATGCTGGAATTAGTTAACTTTTGAACTTTTCTCACAATTCTATGACTGTCCTTGCACTACGTCAATTTATATCTGGACAGTTTAGGAATCCAATCATGGTGGTTTAGGAAGTCATTCTGATTAGTCTGTTAGATGGATGTCATGAAAAATTCCCCAACTTTCATTTCTGTTCCACGCAAGCAGAAGAAGCACTTTGCTCACCACAGCTTTTCATCCAAATTTCTCTCCCATCATTACGTGTCCTTCTCTGGGGATTTTCCTCTATCCATTGGGGACACTTGTGTTCTGACATAATTAGCGAAAAACCCAGACAGTATCTTATCTTAGTTGTGTTTCGATGCATTAATTAGTGTCCCCTCCTAAGTAATCAACCTCCACCACTCATTGCAATATCCCACCCTCATGCAAACAAAATTAGCCTGAAAAAAAATGATGAACCAGCAAAAAGCCCCACACAACTCATCATTCGCTGTACGAGTCCCACTCCTATCACATGCCCTTGCCATTCCAATTACTAACACTCCACCACCATCATATCATACTTCGACAACATCATATACTAGTTCCAAAGTACACATCAAACACTGAACTCAATCTCTATCCTCATCCCACATCAACAACATGCAGAGATTTAGTATTCATTTCCCAAATTTACCATACAACACATCCACTCATGTCTTTTGTTCATACCAGATGTGACCCCAGTCTTTTTTTCAAATCTTTTGTTACCAACTAACAACAACAGCACACAAATTCTATAACATGAAACTCATAGTCTTCCATGAATTTTTTATTCTCATTCAACAGCAAAATGCAGGGATTTATTGTCTATAACTATGGTGATTGAGTACTGACAAGTGATTTGCATAGTTAATTCTTACTTTTTGAGAGATTAATTGTGTGACATGTGCACGAACGGAACAGAGAGTGAGAAGAA


Gene Sequence:
>Vu_12474(+)
ATGGAGGCATTTCCCAGAGACCAACGTGGCTCGCTCGAAGTGTTCAACCCTTCGTCTTCTTACTCCAACGAGAAGCCGGTCAACTCGCCATTGCGCACTCAATCCACGTGGAAGACGTGGATGGAGTCGCGAGCCGAGGAGCCACAGGAGCAGCAGCAACGCGGCGGTCCCGATGAAGTCACAGCCACGTCGTGGATGGCGCTAAAGGACTCCACTCCGCCGGTTCCATCACAAACACTCGCCGCGGTGCTCGGTGAGCCTCCGGCGGAGGTCGGAAATGCCGCGAAGCGCGCTGCGGAATGGGGTCTGGTGCTGAAGACGGACACGGAAACCGGGAAGCCGCAGGGAGTGGCGGTTCGGACCTCCGGCGGGGAGGAGCCGAGCGCGAAGGTGACCGGTAAGCCGAGGAGGGACTCCGGAAACTCCGTTCGGAGCTCCGGCGAGTCCTCCGACGACGGGAGGGAGTACCGGGGAGGAATCCCGAGGGTTTCGGAGGACCTGAGGGATGCTCTGTCGGCGTTTCAACAAACTTTCGTGGTTTCGGATGCTACCAAACCCGATTACCCGATAATGTATGCCAGTGCCGGATTTTTCAAGATGACGGGTTACACATCGAAGGAAGTCATAGGGAGAAACTGGTACGTCGAAGTTACTTTTTTTAATTGAGAATTACTAAACTTAATTATGAAGGATTAAAAAAATATAAGTTTGTGGAAACATTAAAAAACAGAGAAATGAAGTCGAATGTGGTTTTATACTGTTATTTAATGAGGGATTATGGAGTTTAATTAATTCAGATTAAAGTGAACAGAATAAAAATTACAATTATTGAGGAAAAAGAAATATGATGGAAGAGTGTCTATAACTGTAATAACTGTAAGGAAAAGGACAATAAGAAAACAATAAACGGGTCGGGTGGGTTGGCAGCCGGTTTTTGCAGGGAGCGGACACGGATCCGGATGATGTGGCAAAGATAAGGGAAGCCTTACAAACGGGTCAGACCTACTGTGGAAGGTTACTGAATTACAAGAAGGACGGCACTCCCTTTTGGAACCTTCTCACTATTGCCCCAATCAAGGACCACGATGGCAGAGTCCTTAAACTTATAGGGTACCCCACTTAAACACTTTCTTTACTCATACTTTCTTCTCTATTATTGCTGTAATTAATTATTGTGGCCAATGCCCATCGTTGCCATGGGACCTTATATATATATATATATATATATATCATACTCTCATATATAATCGACACTTCCTTCCTTTGGTCATTGTTCACAGCTTGTCCTTTGCAAATTTTAAGATAAGAAACACTCCACACCGATAATGACCCTTCTGCCATATCCTTTTCTTTCCAATCACAAAATGCCAAACACTGCTCTGTCATGTCTATTATAACTACAAATTTTATATTTCATCATATGCTATTTTTATTTATTTATCTATCTATCTATATAATCATCATACATCTACCCGTTGATATCTACCAAATAAATTTGATTTAATGCATTTCGTGTAATAAGTATCAATTTTTTTCTTGATTATATCTGAACTTGTGTTTTTAGTTAAATTCAAGAGAAAAGGTTCTTTCTTTTAAAGGAATAGAAATGTTGGTGTTATTTGAATTTACTTGGTATAGGATATTTGTCCCAAATTTATGAATATAGGCCATTTTGATCAGTTATAATGTTATAGATATTTTAGTACTTAAAAAGAGGGAAAGAGTGTGGGTCACGCCAAACCTGATATGTGACTAGAAAAGGAAACATGAGATGTAGAGATGATGAATGCATTTTTTTCTTAGATATTTTTCTATTTTAGGCCAAATAATGGATTTTGTTCAATCCATATCTTTGTTACTGTTCTTCCAACTATATAATTCATCATTGCATCAGCTGACAAACAGGAGACAAAGATGGACTGCACGTGGATAATTTTTTTTTTTAATTTAGTTTTGACTTGCACGTGGCTCTTGAGATGATGGAACGTTGGCATGCATCGTTGTCTGATACAGATACCAGCTCCCGAAGTCTGGTTTTTCACTTTTAGAAGGAAAAAAAACGAATTTCAGAGCTGTGACTGCTTTTTAGAAAATTAATTATTGAAATTTATGTAATTTAATAATGTCTTGTACATGTGTATGTATTTGATCATAGTTTTAATTATTAAATCTTTATTAATAATGAGGATTCCATCAAAAGATGCACACATAATCTTTTAAACGTGTACTGTTAAGTAAATTTAATGGAAGTTGTTCTAAAATGAAAACAGACTCAATTAAGTATTGTATGTGTATAATGATGACAGAATGCAAGTGGAGGTTAGCAAGCATACAGAGGGGACGAAGGAGAAGATGCTACGTCCCAATGGATTACCCGAATCCTTGATTCGATACGATTGTATGTATTGCAGATATCCTATCATATTTCTAAATTGTATAAGATTGTGCAACCTCAACCTACGTCATCATTGCTTTTAACGAAAGAATAATCACAATATTATCCATGATTAGAAGTATAATTAAGAAAGTAAGGTATTTATATACTGTTATAGTTTCGATTCAAATTCGTCGAGTGACACTGTTACAGTAAATCACCGTATTTATAATGTGAGATTATTAGATGTAGTATCCAAATATGAACCTACATTTCAAGTTACATTAGAAAGTTAGTTGAACAGTGTATTTACTCATTTTCTATAAGGTTTTGAATTAAAGATGGTGTTAATCTTTTACATAAATTGAACTGATATGTTATTGATAAATTGAACTTATATGTTATTGATGTTGTATAATGCAGCTCGACAAAAAGAAAAGGCAAATAGTACAGTATCTGAGCTGTTGCTGGCTGTGAGGAGGCCACGGGCGCTGAGTGAATCAGGAGGCCGTCCCTTGATCAGAAAGTCAGCATCCGGTGATGATGATCAAGAAAAACCAGAAAAGTCATCGAGGAGAAAATCTGAGAGTGTGGCTTCTTTTAGACGCAAATCACATGCAGGAGACACAAGTTCAATGGAGAGAATCACTGAGCTACCTGAAAAGAAACACAAGACATCTCGTCGCCGTTCCTTCATGGGGTACGTATGCATGCTTATTTACTCGAGTTATTTATAAAGAAATAGTTTTTGAACTACTTTTAAAAGGAGATTCTTTTAAAAATACTACTTTTCCTTCATGGGGAATGATCTTCTGGCTAAAGTACAAGTTTTTTGAATGAGTGTATGTGATTTTCATTTGATCCTATGTTCCATTTCTGTTTCTTTTAGTTGAATAATAAAGCATCATCTTTCTAATTTCTCGGTCCATGGTTCAGGTTCATCAGGAAAAGTCAGTCCAACTTTGGAAGCTTCAATGACGAAGCTGTTATTAAGGATAGTTCTGAGAGTAGTGATGAAGATGATGAGAGGTCTGGTAGTTTTGATGGCAAAGTAAAGAAGAGGGAAAAGAGAAAGGGTCTTGATCTTGCTACCACACTTGAACGTATTGAGAAGAACTTTGTTATTACTGATCCTAGGCTGCCTGATAACCCCATTGTAAGATCAGCTTTTCTTTTCTATTCTTTTCTTTTCAAATTAAGAGAATAAAATTAGAAGAAAACGATGATGAGAATGCGTCTACGTAGACCACAGACAATTTGAATGTTGGGAAGTTCCAAATTAACTAAAGTTCAATTTATAATAGGGGAGCAAATCTCTTAACTTTACAATTCAGTTTTATAAAATTGAATTAAGTTTTAAATTCATTTTTTAACATGGTATCAAAATCATGTATCACAAATTATCTTAACGAAAATTATTGTCAGCTGAAACAAAACAAATTCTCATTACTCAACAATTTGGTTTTCCAGATCTTTGCATCTGATAGCTTCTTGGAGCTTACGGAGTATAGTCGTGAAGAAATCTTGGGAAGAAATTGCAGGTATGGTTGAAACTGATACACACTTACCATGAAATGAATATCAAAACACTGAAATTGATATCAGAGTATTGCATATTGGTGCTTCAAGCATTACCTCAGGCTTCATTAACTGGAGTATATGAATGCTTCCATGAAGGACCAATGGAAAAATTCAGTAAACTGACCTCTAAAATTGTTACGTTGGCAAAAGTTATCTTATTTATATTCTACATGATTATATAGGTTTCTGCAAGGGCCTGAAACTGATCCAGCAACAGTGAGAAAGATTAGAGAGGCCATTGACACTCAAACTGACGTCACTGTGCAACTCATTAATTATACAAAGAGTGGTAAGCTTATTACCTTTCTTCAATAAGCTAATTTGCTTTAGATTGGTTAAGTGTTGGTATTACCTGAATAATTCGTATGGAAAGGAAAAATATTTCAATATTTTCACATATAACTATGTTTTCATATCATGAATCCTTCTTAGGGTCTTACAATGAAAATCACTATTTAATAACTTGAAGCTAAATATGGTTGCAAATTGTTCTGCTCGATTCAGGTAAAAAGTTCTGGAACTTGTTTCATTTGCAACCTATGCGTGATCAGAAGGTACAGTTTACAATGTCCTGCAATATAACTTTTGTTTTCGTAGTTAATCATGTCCCGTTTACCAAATCTTTGAGCAGAAACAATTTCTTACTTGTTTCTGTGTTGAACAGGGAGAGGTACAGTACTTTATTGGAGTTCAACTTGATGGTAGTCAACACGTGGAGCCTCTTCACAACCGCATTGCAGAAAATACTGCAAAAGAGGGAGAACAATTGGTCTGGTTTCTATCCAAGTGCTTCATTCGTTTAACATATATTGAAATCTCCAATTTTCTGTTGGATTCTCGACATCATTATATAATCCAAACAGAGGCTTTTAGTTTGAAAGTCTACAAAATAAAAGCCTATGGTTCCTTCATTTTGAACTAAGAGAGTTTGTGTATAATTTTTGGGTATTATATGTAATAGCAAGAAACTTTGTTCATTTTATTGTGCTTTGTACTTTCAAAGTTATAACAAATTTATTTGACATCCATCCTCAGGTAAAAGAAACTGCTGAAAATGTTGATGATGCATTGAGAGAACTTCCAGATGCTAATTTGGTAACGTATCCTAATCATCAGTATCCTTTGAAAAGCTCTGGCATTCAGTTTTTCTCATAATATTTTGATTATCTTCAGAAACCAGAAGATTTATGGATGAATCATTCAAAAGTGGTTCACCCGAAACCACATAGGAGGGATGAAGCTGCTTGGAAAGCTATTCAGAAGGTATATATATTACTTGTGTATTTCAAATTATGCCAAATTTTCTGTTATTTCTTGCTATTGCTATTGACTACTGAAAAATTTAGGAAGTAGCAGTATAAATTATTATCTCATGTAAGTTACATTTTGCAAATTGATTATGTGATCGTGGTTGTGCAGATCCTAGAAAGTGGAGAGCAGATTGGCTTGAATCATTTTAGGCCAGTTAAACCTTTGGGATCAGGAGATACTGGCAGGTTTATTTCTCGATTCTCTTTTGACTTCCCAATATTTGAAACGTGCATGAACAATTTCATGAGTCTTACGTTAGTAGCTTACTGAAACATGTTGTAACTAAATGACTGTGATGATTTATCTGGAACTAGTCCGTAGTTTAGCTGAAAACATCTTGGAATTCTGAAACCATGATTAGAGTTTCTTCATTTATTTGAGTGATGCGAAGTTTTTCTATGTTCATTATTTTTTCCAATCAGGCTCCAGGAACTACATTTTTACATCACCTGTTATTGGATTTCAGTGTCTATCTGGTGGAGCTAGGTGAAACTGGCCAATATTTTGCCATGAAGGCTATGGAAAAGGGTATTATGCTCAATCGTAACAAGGTACAACATTAAATTATTTGACACTTTTTTTTGTTTTAAGGTGTCACCTCCTACCTTCAACAGTTATAGAAATGTTTATTTGGAAATTGTTCAGTGCTGAGTTGGCTTTATATTCTGGTGATACATTTACTTTTTATAAGTTATTTGAAAAAAAAAATTCCAAGTGGGTCAGTTTTAACAGCAGCTATAACTACAGGTGCATAGAGCTTGCACAGAGAGAGAGATCCTCGACATGTTGGACCACCCTTTTCTTCCTGCATTATATGCTTCCTTTCAGGTTTGTAACTACCAAGTACCAACTGAATATATGAGAAAATAACAAAAGTTAGTAAGATTTTGCATCTTCTTTCATGTCTGTTAATTATTATTAGAGAGTGCATGAACATCAGGATCTTTTCATGGGATGGTTTCAGACGTCATAAAAAGCCTTTATTTTCTATTTCATCAAACTCAAAAGTTTCTACATGGTAGAAAACAAAATTGTGCATGCATTTCTACTTACTATAAAATGAATTTTACCTTCTTTGGAATTTGATTAATTTGCAGACAAAAACACATGTTTGTTTGATAACCGATTATTGTTCTGGTGGAGAACTATTCATTCTTCTTGACCGACAGCCAGCTAAGGTTCTCAGGGAAGATGCAGTGAGGTATATATATATATATATATATATTATACAAGAAAGAATCTATGCATGTTTATCAAAAACTGAAATTTCTTTGATTAATCTTTTCCTTATTTTTCTATACATACATATATTTAACTACAACTTTATTAAACAGTTGTATATTCCCCCTATAAAAGCAGATGATCCTTCTTCGACAGTTACTTATTCTATTTTCCTTTTACTGAAATAATGTGCTTGATAATAATAGATTTTATGCCGCTGAAGTAGTTGTTGCATTGGAGTATCTTCATTGTCAAGGTAGGTTCTTATTCATCACCCAACATGATCACAATATATAATTGTTATTATACTTTTTGGGTAATATCAAAATCAGTAAATTCTGCGGCAATCATCCATAGATGTTCAAAATTATTTTTCTCAAATCTAGTATAGATGTTTAAACGTTTTTTTTTCTCGAAATATGTTCGAAACCTTTTCTTTTAATTAATCCAGTAGCATTATATGATCCTTTCTCGGACTGAAATTCTCTCCTAGCAAGAAATTTTACTTAAAATTATGTATTTGCATTATATTAAGACACTCAGACAGCATCTAAGATAATAACATTGTTTGGTGAAAATCCACAGGGATAATATATCGGGATTTGAAGCCAGAAAATGTGTTACTACAAAGCAGTGGACACGTGTCCCTAACAGATTTTGATCTGTCATGTTTGACATCTTGCAAACCACAGGTATGTTAGAGACAAAAACTTTAGATGATGAAGCTTTTATTTAGAACTTAGACAAATTTATGTGATGCTGGTTGTGTTCTTTACAGCTTCTAGTTCCATCCATAAATGAAAAGAAGAAAGCAAATAAAAGCCAACAACCTCCAATATTTATGGCAGAACCTATGAGAGCATCAAACTCTTTTGTGGGCACAGAAGAGTACATAGCTCCGGTTGGTTGTTTCTGGACATATTATTTTATCATTTATGCTCCAATTTCTTATCTTATTGAAACTTGCTTGAACTTTTTGTTTCTAACAATTTGTTATAAATTGTATTTGACAGTTCAATGATTGTGCAGGAAATTATAACGGGTTCAGGCCATACTAGTGCTGTGGATTGGTGGGCTCTTGGTAAATTTTTACTTCTTACAACTAAATCAATTTAAAAAAGTAGAGTCTTTTAAAAAGAAAATTGAATGCATTGTATATTTACTATGTGGTGGATAAGTTTGGGGTTTATCAGTGAAAAGTTTTGCCTTGAAGAAATCTTTCTCATCAAAGGGATTGTCATTGACTGAATTCACTGGCCGAAACCAATTCTATTGGTCTCTTTCTCATCATGTTTTGACTGCATGAATTACATTTTTTCAGGAATTCTTCTATATGAAATGTTTTATGGATATACACCATTCAGGGGAAAGACCAGGCAAAGAACATTTACAAATATTCTTCACAAGGACCTTAAATTTCCCAAAAGTAAACAGGTGAGGTTGTTGTGCTGCACAATGACAACTATGGTTTTAAACCGTATTGCAAAACAATGTAACAATTTGCTTAAATTCATGATCTAAAAATTGGACTTCCAAACGAAATGCTTGTGAAAATCCGAGCTGGTTAAAGTCTCTGGAAATGCGTGATGCTGAAAGATTAAACCTGCATAGTTAAAATGAATTTATATGTAAATAAATTAAATGAGATAAAATGATGATGCAGGTAAGTTTCAGTGCAAAGCAGTTAATGTATCGGTTGCTGAACAGAGAGACCAAAAGCAGATTGGGTTCAAGAGAAGGAGCAAATGAAATTAAAAACCATCCATTCTTTCGGGGTGTCAATTGGGCCCTAGTTCGTTGCACTGTAACATCACTCAACTATTGCTATATCATCTTTAACTGTGTTAAATGTTTGATTAATGGAACATTCTTGTGTTGTCAGAAACCTCCTGAGCTTGATGCACCTCTCTTCGGAACAACTGAAGAAGAAAAGGAAGCCAATTTTGAAGATAAAGTGCAAGAGGAGATGAACGTCTTCTGA