Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_01680 LG1 19673305 19681531 PREDICTED: LRR receptor-like serine/threonine-protein kinase ERECTA
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   protein phosphorylation, defense response to fungus, stomatal complex morphogenesis, regulation of cell growth, regulation of cell division, transpiration, protein phosphorylation, regulation of cell growth, stomatal complex morphogenesis, regulation of cell growth, regulation of cell growth, protein phosphorylation, regulation of cell division, regulation of cell adhesion, inflorescence morphogenesis, plant-type cell wall organization, regulation of cell growth, regulation of cell growth, regulation of cell growth, regulation of cell growth, inflorescence morphogenesis, regulation of plant organ morphogenesis, cellular heat acclimation, defense response to bacterium, defense response to bacterium, defense response to bacterium, leaf morphogenesis, plant-type cell wall organization, phloem or xylem histogenesis, cellular heat acclimation, defense response to fungus, inflorescence morphogenesis, polarity specification of adaxial/abaxial axis, leaf morphogenesis, stomatal complex morphogenesis, defense response to fungus, inflorescence morphogenesis, regulation of plant organ morphogenesis, cellular heat acclimation
Cellular Component   located in   plasma membrane, plasma membrane, mitochondrion
Molecular Function   enables   receptor serine/threonine kinase binding, protein binding, protein binding, receptor serine/threonine kinase binding, transmembrane receptor protein kinase activity, protein binding, receptor serine/threonine kinase binding, receptor serine/threonine kinase binding, protein binding, receptor serine/threonine kinase binding, protein binding, signaling receptor binding, protein binding, protein binding, protein binding, peptide binding, transmembrane receptor protein kinase activity, peptide binding, protein binding, protein binding, protein binding, protein binding, transmembrane receptor protein kinase activity, protein binding, transmembrane receptor protein kinase activity, protein binding
Pathway   B 09132 Signal transduction   C 04016 MAPK signaling pathway - plant [PATH:ko04016]
SNP Position Effect Amino acid change
A/T 19673407 3_prime_UTR_variant
T/A 19673615 3_prime_UTR_variant
T/A 19673656 3_prime_UTR_variant
C/T 19673677 3_prime_UTR_variant
G/A 19673789 3_prime_UTR_variant
T/A 19673900 3_prime_UTR_variant
T/C 19673911 3_prime_UTR_variant
T/A 19673990 3_prime_UTR_variant
G/A 19674242 stop_gained p.Gln835*
C/A 19674374 intron_variant
A/C 19674435 intron_variant
T/C 19675065 intron_variant
T/C 19675320 intron_variant
G/C 19675328 intron_variant
G/A 19675337 intron_variant
G/A 19675342 intron_variant
G/T 19675371 intron_variant
C/G 19675816 intron_variant
C/T 19675968 intron_variant
A/C 19675977 intron_variant
A/T 19676035 intron_variant
A/C 19676039 intron_variant
G/A 19676043 splice_region_variant&intron_variant
C/T 19676133 missense_variant p.Ala526Thr
A/T 19676212 intron_variant
C/A 19676227 intron_variant
C/A 19676228 intron_variant
T/C 19676244 intron_variant
G/A 19676270 intron_variant
A/G 19676272 intron_variant
T/G 19676273 intron_variant
G/A 19676282 intron_variant
C/A 19676297 intron_variant
A/G 19676321 intron_variant
C/A,* 19676431 intron_variant
G/A 19676601 intron_variant
C/A 19676622 intron_variant
G/T 19676635 intron_variant
G/C 19676643 intron_variant
C/A 19676653 intron_variant
T/A 19676665 intron_variant
A/T,C 19676771 intron_variant
T/C 19676839 intron_variant
T/C 19676868 intron_variant
T/G 19676992 intron_variant
T/G 19676993 intron_variant
C/G 19677007 intron_variant
T/C 19677015 intron_variant
G/A 19677024 intron_variant
C/T 19677048 intron_variant
T/A 19677052 intron_variant
A/T 19677053 intron_variant
C/T 19677069 intron_variant
A/T 19677100 intron_variant
T/A 19677102 intron_variant
T/C 19677106 intron_variant
C/A 19677133 intron_variant
A/T 19677137 intron_variant
C/T 19677150 intron_variant
G/T 19677402 intron_variant
C/T 19677444 intron_variant
C/G 19677535 splice_region_variant&intron_variant
G/T 19677684 splice_region_variant&intron_variant
C/A 19677709 intron_variant
G/T 19677763 intron_variant
G/T 19677767 intron_variant
C/T 19677842 intron_variant
A/G 19677919 synonymous_variant p.Pro332Pro
G/A 19678172 intron_variant
A/C 19678274 intron_variant
C/A 19678345 intron_variant
G/A 19678359 intron_variant
A/G 19678471 intron_variant
T/C 19678473 splice_region_variant&intron_variant
T/G 19678813 intron_variant
G/A 19678863 splice_region_variant&intron_variant
A/G 19678877 synonymous_variant p.Leu221Leu
C/A 19678945 splice_region_variant&intron_variant
A/C 19679285 intron_variant
G/A 19679311 intron_variant
T/A 19679404 missense_variant p.Arg132Ser
T/C 19679426 intron_variant
A/T 19679455 intron_variant
C/T 19679583 intron_variant
C/G 19679654 intron_variant
C/T 19679766 intron_variant
C/G 19679769 intron_variant
C/T 19679970 intron_variant
G/T 19679978 splice_region_variant&intron_variant
T/C 19680033 synonymous_variant p.Ser41Ser
T/C 19680199 synonymous_variant p.Gly18Gly
A/G 19680223 synonymous_variant p.Asn10Asn
A/G 19680229 splice_region_variant&intron_variant
G/T 19680244 intron_variant
G/A 19680250 intron_variant
T/G 19680255 intron_variant
A/T 19680256 intron_variant
C/A 19680293 intron_variant
A/G 19680353 5_prime_UTR_variant
A/G 19680435 5_prime_UTR_premature_start_codon_gain_variant
T/C 19680518 intron_variant
A/T 19680654 intron_variant
G/A 19680655 intron_variant
G/C 19680707 intron_variant
C/A 19680718 intron_variant
G/A 19680823 intron_variant
C/T 19680856 intron_variant
T/A 19680885 intron_variant
C/G 19680895 intron_variant
T/A 19680967 intron_variant
C/A 19680974 intron_variant
T/C 19680995 intron_variant
T/A 19681013 intron_variant
T/C 19681059 intron_variant
A/T 19681277 5_prime_UTR_variant
C/A 19681291 5_prime_UTR_variant
G/A 19681307 5_prime_UTR_variant
A/T 19681366 5_prime_UTR_variant

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_01680.1
MSQFNVVALNLSGLNLDGEISPAIGKLQSLVSIDLRENRLSGQMPDEIGDCSSLKNLDLSFNEIRGDIPFSISKLKQLENLILKNNQLIGPIPSTLSQIPNLKILDLAQNNLSGEIPRLIYWNEVLQYMGLRGNNLIGSLSPDMCQLTGLWYFDVRNNSLTGSIPENIGNCTTFQVLDLSYNQLTGEIPFNIGFLQIATLSLQGNKLSGHIPSVIGLMQALAVLDLSCNMLSGPIPPILGNLTYTEKLYLHGNKLTGFIPPELGNMTKLHYLELNDNHLSGHIPPELGKLTDLFDLNVANNNLEGTIPSNISSCKNLNSLNVHGNKLNGTIPPALQSLESMTSLNLSSNNLQGAIPIELSRIGNLDTLDISNNHLVGSIPSSLGDLEHLLKLNLSRNNLTGVIPAEFGNLRSVMEIDLSNNELSGLIPEELSQLQNMLSLRLENNKLTGDVASLSNCLTLSVLNVSYNKLFGVIPTSNNFTRFPPDSFIGNPGLCGNWLNLPCHGSRPAERVTLSKAAILGITLGALVILLMVLLAACRPHSPPFHDGSLDKPVNYSPPKLVILHMNMALHVYEDIMRMTENLSEKYIIGYGASSTVYKCVLKNCKPVAIKRIYSHYPQCIKEFETELETVGSIKHRNLVSLQGYSLSPYGHLLFYDYMENGSLWDLLHGPTKKKKLDWDLRLKIALGAAQGLAYLHHDCSPRIIHRDVKSSNILLDADFEPHLTDFGIAKSLCPTKSHTSTYIMGTIGYIDPEYARTSRLTEKSDVYSYGIVLLELLTGRKAVDNESNLHHLILSKAATNAVMETVDQDITATCKDLGAVKKVYQLALLCTKRQPADRPTMHEVTRVLGSLVPSNTPPKQPAAPPPAPNPSAKVPCYMDEYANLKTPHLVNCPSMSTSDAQLFLKFGEVISQNSE*


CDS Sequence:
>Vu_01680.1
ATGTCACAGTTTAATGTTGTTGCACTCAATCTTTCTGGATTGAATCTTGATGGAGAAATTTCACCTGCAATAGGGAAGCTTCAGAGCTTGGTCTCTATTGACCTGAGAGAAAACAGGTTATCAGGGCAGATGCCAGATGAGATTGGTGACTGTTCTTCATTGAAGAACTTGGACTTGTCATTTAATGAAATTAGAGGGGATATCCCGTTTTCTATTTCTAAGTTGAAACAACTAGAGAATCTGATTTTGAAGAACAACCAGTTGATTGGACCAATTCCTTCAACTTTGTCTCAGATTCCTAATTTGAAGATTCTAGACCTGGCTCAAAATAATCTTAGTGGGGAAATACCAAGGCTTATATACTGGAACGAAGTTTTGCAGTATATGGGCTTGAGAGGGAACAATTTGATTGGTTCACTATCACCAGATATGTGCCAGTTAACTGGGCTGTGGTATTTTGATGTGAGAAACAATAGCCTGACAGGAAGTATTCCGGAAAACATTGGCAATTGTACTACCTTCCAGGTTTTGGATTTATCCTACAACCAGCTAACTGGAGAGATACCATTCAATATTGGATTCTTGCAAATAGCCACTTTGTCATTGCAAGGCAATAAACTCTCTGGACATATTCCATCGGTGATTGGTCTCATGCAAGCACTTGCTGTCTTAGACTTGAGTTGTAACATGTTAAGTGGACCAATTCCTCCTATCTTGGGAAATCTGACCTACACAGAAAAACTATACTTGCATGGAAACAAGCTGACTGGCTTCATTCCTCCGGAGCTTGGAAATATGACAAAACTTCACTATTTAGAACTGAATGACAATCATTTAAGTGGACATATTCCCCCTGAGCTTGGAAAACTTACTGATTTGTTTGACTTAAATGTTGCTAATAACAATCTCGAAGGAACAATTCCTAGTAATATTAGCTCCTGCAAAAATCTCAACAGCCTCAATGTGCATGGAAACAAGTTGAATGGAACAATTCCTCCTGCTTTGCAAAGCTTGGAGAGCATGACCTCTTTGAATCTTTCTTCCAACAATCTTCAGGGTGCAATTCCAATTGAACTGTCACGGATTGGTAATTTGGATACGTTGGATATTTCAAACAATCATTTAGTTGGATCCATTCCTTCTTCCCTTGGTGACTTGGAACATCTTCTGAAGTTGAATCTAAGCAGAAACAATTTGACAGGAGTTATTCCAGCAGAATTTGGAAATCTTAGAAGTGTCATGGAAATTGATCTTTCAAATAATGAACTCTCTGGCCTTATTCCTGAAGAACTTAGCCAGCTTCAGAACATGCTATCATTGAGACTTGAAAACAACAAATTAACTGGTGATGTTGCATCACTTTCGAATTGCCTTACTCTCTCTGTGCTTAATGTGTCCTATAACAAACTATTTGGTGTTATCCCCACTAGTAACAACTTTACCAGGTTTCCCCCTGATAGTTTCATCGGAAACCCTGGTCTTTGTGGTAATTGGCTGAATTTGCCGTGCCATGGTTCTCGACCTGCAGAGCGAGTTACATTATCTAAGGCAGCCATTCTTGGAATTACTCTCGGTGCCCTTGTGATTCTTCTAATGGTATTGCTGGCAGCTTGCCGACCACACAGTCCTCCTTTTCATGATGGATCACTTGACAAACCAGTTAATTACTCGCCTCCAAAACTAGTGATTCTTCATATGAATATGGCACTTCATGTGTATGAAGATATCATGAGGATGACAGAAAACTTGAGTGAGAAGTATATAATTGGATATGGTGCGTCAAGTACAGTTTATAAATGTGTTCTCAAGAATTGCAAGCCAGTGGCTATCAAGAGGATCTATTCTCACTATCCCCAATGCATTAAAGAATTTGAAACTGAACTTGAGACTGTTGGCAGCATTAAGCACCGGAATCTGGTCAGTCTCCAAGGCTACTCTTTGTCCCCTTATGGCCACCTTCTGTTTTATGACTACATGGAAAATGGCAGTCTGTGGGATCTTCTTCATGGACCTACTAAGAAGAAAAAGCTTGACTGGGATCTGCGTCTAAAAATAGCACTTGGAGCAGCACAAGGGCTTGCATATCTACACCATGATTGCAGTCCTAGAATAATCCACAGGGATGTGAAATCATCCAACATTTTATTGGACGCAGACTTTGAGCCCCATCTCACTGATTTTGGCATTGCCAAAAGCCTCTGCCCCACAAAGTCTCATACTTCTACTTACATAATGGGCACAATTGGCTACATAGACCCTGAGTATGCTAGAACTTCCCGTCTCACTGAGAAGTCTGATGTGTACAGTTACGGCATCGTTTTACTTGAGTTGCTAACTGGAAGGAAAGCTGTTGACAATGAATCCAACCTCCACCATCTGATTTTGTCCAAGGCAGCAACCAATGCTGTAATGGAAACAGTTGATCAAGACATTACTGCCACATGCAAAGACCTTGGAGCTGTGAAGAAGGTGTACCAGCTCGCTCTATTATGCACAAAGAGGCAGCCAGCTGACAGACCTACAATGCACGAAGTGACAAGAGTACTTGGGAGCCTTGTGCCATCAAACACTCCTCCAAAACAACCAGCTGCACCACCTCCTGCTCCAAACCCATCTGCCAAAGTGCCATGCTACATGGACGAGTATGCAAACCTCAAGACTCCACACTTGGTGAACTGCCCCTCAATGAGCACCTCAGATGCACAGCTCTTCCTCAAGTTTGGAGAAGTAATCTCTCAGAACAGTGAGTGA


Promoter Sequence:
>Vu_01680::LG1:19681531-19683531(-)
TGATTCACTAAAAGGAATTAACTAACTTATTTTATTGGCCTTCAAAACTACCAACTACTATTAACTACAACATATATTAAGAATGTATATGGATTGAAATCAATTAATGATCATTCACAAAATACAAATGCTACAGAATAGATGTTAGTACAGAAACATTTAACTCAAAAGATAAATCTTTGGTAAACATTCATACTTTATACACAAGTTATGAATAAAATGAATAAAATTACTCTTTCGAATTAAACGCCATCTCATATAAAAGTATCATACTGATTATACAAATAACAATCATTCAAAAAATCCTATAAAACACATTTTAAAATTTCAAATTAAAATAAAAAAATTATCTTAATTTATTAGAGTAAACAGCCTCACCACTTTTATCAATTTTTTAATTTCTGTTATACAAATTCAGAAACAACTCTCCAATTTCAAACATCATAATTAAATTACTAAACATTCAATGAGTCCTTAAAGTCTACTATATATGTAAAAAAGTGTAATAAAAGCAGTTCCGAAAGGGGATTTGTACTGATTACATTACTTTCTCATATAGAAATAAAAACAGTAAATACAATTATGCAGAAGAAAAAAATATTAGAAAAATAATCATACTATTAAGTGTCAAAGATTATTTGATTACTTGATATGATCAGTGAGTTAAGTAATGTTTGTGTGGGGTTATCCAATATCCATATATTTTTGTTGCTGGCTTACAAGAAAAAATCATAATCTTTCTTTGTTTCTCTCTCCAAATTGGAACCACAACTAATTAACAAGAAACAAGAAGAAGAGTGTGTTTTTAGCAGTTGAATGTCACTATTCAGATAATTGTTTGATAGGGACATGCAGTAAATTTTGTCACCTTTTCTTTCAACCTTTACCTCTTCCTACCTTCCCAATGTCAACATACTCTGCTTTTTAGACCAAAATACTTTTATATTTTTTTTATTATATACTTTCTTTTTTCCATTAACTTCAAAATTTGATGAAAACAGAGCACTAGAGAATTCCTCTGGGCAATCACAGAGAGACAGTGTTAAACCATACACAATTAATACGAGAATGCATAACCACCAAACAAATTAGATAAATAAATAAGACATAAGAGAGAAAGAGAAAGAGCATTTGAGATAAATAGGAAAATTAAATAAATTGAAGGGAGAAAAAAAAACATAATATCATGAACTTGAATCCAATGCTAATGAGACTAGCAAAAAAGAAAAATTCAGAAAGAGAAAGATGTCCCTGTCATCTCAAATGGATTGCACTACTCATTGAAAATGACATATTTTATTCATACTATTTATACTAGCTTATTAATTAGAAAATGTAGAAAGAGTTTTTCATTAATAGTTTAACCTTTTTATTTTAAAAATTGAATTTTTTAAGTGTAAAAGTTTAGTATTTTAGATTTTAATTGCGCAAATTAATATTTCAAATGTAACGGTCGAATGATTTTAATCTTCCCTATCATTATATATATGGAGAACTGAGATTATGTAAGCATAGAACATGAATAAAAAGTGTAGTAAAGAAAAAAATTTGAAAGATGCTTTTTTTATTTATTTTGTTAGTTGATAAAAACTATATGAAATAATGTAACAAGAAATCTATATCAGTGTCCCCAGTTCTTACATACATGACCCATTTCCCCATAAACTCTTGCAGATAATGCAATAGCAAAAACCACACAGAAAGTGACCCCTGGGAATCAAAAGTTAAAACCAATGGCACAGCATAGCACAGTCTACAGTGTTTATTTACTATACGGCATAACACTACTGGCATAACAGTTAGGAGGAGAGAGAGAAAACGAGTGTAAAAAGAGAGAAAGTTAGGAGGGTGGAGAGAGAGAGAGAGAGTGTGTGTGTGCAGAGTGTGCAGGTTTGTAGCAGAAATGGTGGCAGATGGTTTTAACTTTATGTGTGAAATAATTTTCTTCTATCTCTCTTTTTTTTTTTTTTGAGTGATTTTTTTTCTCTCTCTCTTCTCTT


Gene Sequence:
>Vu_01680(-)
TTTCCTCCTGCATCTTGTGTTAGGGAGTGATGTTTGTGGCAGAACGATGTGATTGCACAGCCAAAGCTGTGGACTTGTTCTGTTATATGCAAATCCAATTGTAATTGTAATTGTAATTGCATAAAAAGCTTAAGAAGGGTGCACAGAAGAAGAATACAAAGTCTCTAACAAAACCCATCTTACAACTACCTTTTTATCTCTAGCCACAATTAAGTTGAGTGGTGCTCAGTGTCACTAGGCGTAACACCCTTTTTTGTTTCTGTTCCCTGGTTCCTTGCGTATGAACAAGAGCTTGGTGGTGGTTGTGAGTGATTTCATGGTTAGGCTCGTGTGAAGTTGAAGTCCTGCAGTTGCTGCCATGGCATTTCGATTTGGGGTCCTCATTTTGCCTTTGCTATTTTGTTTGAGTGTTAACTCTGTGCAATCTGATGATGGTGAGTGTTGTTTACAGTTTCAAGTTTCTGTTTTGTGTATGTTTGGATTCTTTGGCATGGCTATTGCTGTCAGTTTTTATGGGGAGGGAGAATGGGAGCTTAACAATGTTGAAAGTTGTTGTGGTTATGTAGTTCTTAACAGAGAGGTGTATGACTTGTGAGTGCCATTGTTAGTAGCCTAGTACCCTTCGTGTGTTCTTCTGTCTCGTTTCATTTTCTTGGTGAAGGGTGTCGGAAAAACGAGTTTTTTTTTCTTTTTCTCTTCTCAGCCAAGCATGGCACTTCCTCTGCTGTTTTCAGTTGGTCCATTTAGTTTTTAAACGTCATCTTTTGTCCCGCGAATTTTGAGTTTGACTTGGTTGCTTTTGGGATCTTTTGCGTCTTTTAATTCTGTTGTCTATTTTTCTCATTGTTGGAACGAGTATGCTACATCTACTACTTACTTATGCTTGGTTTGCATGTTTCACATTGTAGAAATGAATTTTCGATAAAAATGAGGTTTTGTATAGCATAATATACTAACTTGTGTAGAATTCAGTGTCTAGACAACGAGTTTACTGATGTTATAAGGAAGGACTTAGCTCTCCTTGGCTTCAAGCTTCTAACTATGTTCTTCATGGTTTGATGTCTGGACTTTGGATATTTCCATTGCAGGATCAACGTTGTTGGAGATAAAGAAGTCATTCAGGGATGTGGATAACGTTTTATATGATTGGACAGACTCACCATCATCAGATTATTGTGTCTGGAGAGGGATAACATGCGACAATGTCACAGTTTAATGTTGTTGCACTGTGAGTTACTGTCTCCTTGTACATCGGTATATACCAGTTTTCTTTTCTATGATCTCTTACGCTTTTATTTTTTGTAGCAATCTTTCTGGATTGAATCTTGATGGAGAAATTTCACCTGCAATAGGGAAGCTTCAGAGCTTGGTCTCTATGTAATTGTTACTCTCCTTCGTCCATTTTTTGGTACAGTGATGTAGTTTAGGCATTTGTATTGTCTTGCTTATGCTTTCTTCCTCTTTTTTTATTTAGTGACCTGAGAGAAAACAGGTTATCAGGGCAGATGCCAGATGAGATTGGTGACTGTTCTTCATTGAAGAACTTGTACGTTCCTCCCTTGAACTGAATTCAGTTTATATTTATACCACACAGCGACTTACTAAACTTTGATATTTATCGTGTTTTCAGGGACTTGTCATTTAATGAAATTAGAGGGGATATCCCGTTTTCTATTTCTAAGTTGAAACAACTAGAGAATCTGTGAGTATTTTATGGCATTTCCATTCAAATGAAATTTTTTATCCTGGGAAGAGGTTATGAGAGGTTTTTGATTTTATGTAAATTGTATCTTAGGATTTTGAAGAACAACCAGTTGATTGGACCAATTCCTTCAACTTTGTCTCAGATTCCTAATTTGAAGATTCTGTAAGTCGTTGTTGTATTTCTCACTCCTCATTTCTCTCTTATTTTAGACTCTATAACTGACTTTCTGGACTACTGGAAAATGTTTTTTAGAGACCTGGCTCAAAATAATCTTAGTGGGGAAATACCAAGGCTTATATACTGGAACGAAGTTTTGCAGTATATGTGAGTATAAACAATTTGCAAATGAAATTGTTATTTCATAAACTTAGTGTTGACTTTTTTTTTTCCTTCCTTCCTTATCCATTTGATAGGGGCTTGAGAGGGAACAATTTGATTGGTTCACTATCACCAGATATGTGCCAGTTAACTGGGCTGTGGTATTTGTAAGTTGCACAATCACTGTCTTTTATAATCAAAGCTTAAAAAATGTTTATGCTTGTCTTTCTCCTTTTTTGTAGTGATGTGAGAAACAATAGCCTGACAGGAAGTATTCCGGAAAACATTGGCAATTGTACTACCTTCCAGGTTTTGTATGTAATCCAATTGCATGAAAGGCTCTGCCATACTTGGTCTTGTTTTCCTTTTACCTTTCTTATGTCTTCCGTTGATGCCAGGGATTTATCCTACAACCAGCTAACTGGAGAGATACCATTCAATATTGGATTCTTGCAAATAGCCACTTTGTACGTGTTGCATGAATTTTTTGAGTTCTTACAAGCATGAGATTTGGCCTTTCACTTTACTTGTCTAGGAATTTCTTGATAGATTTTCTTAAATTTGGTAGGTCATTGCAAGGCAATAAACTCTCTGGACATATTCCATCGGTGATTGGTCTCATGCAAGCACTTGCTGTCTTGTAAGCATTGTTTGATAGTAATTTCTAGAACGTGACTTGGGAAATTTGATAATTGACTACGTTTTCTCACTGATGCTCCTTTAACATTGGTTTTATTCCAAATTTCCTATGCAGAGACTTGAGTTGTAACATGTTAAGTGGACCAATTCCTCCTATCTTGGGAAATCTGACCTACACAGAAAAACTGTATGCATAAGCTAATGGTTTTACATTTACATCTAATGGATGACTTTGATATAAATTGTTCATATCAACAACTATGTGAAAGCTTCTAGATTCACTTCTGCGTTAAGCACAATTTTTGAATTGTTTGTAGATACTTGCATGGAAACAAGCTGACTGGCTTCATTCCTCCGGAGCTTGGAAATATGACAAAACTTCACTATTTGTAAGTTACTTGAGCAAGTAGTTGCCACTCAAATTATTTCAGTTGATTTTGAACTTGGAAACCTTATATATGGAATTTATTCTATTGCATGTGACATTATGTTTTACCTAAATTCTCTTTGCAAAATGACATACTGCCTCAAGGCAGTTCTTGTTAGTTCACTGGTCTCAACTGGATGGAATTTTATTCTAGAATTAACCTTCTATTATTTTCCTATTGCAGAGAACTGAATGACAATCATTTAAGTGGACATATTCCCCCTGAGCTTGGAAAACTTACTGATTTGTTTGACTTGTAAGAGTGGTTACCTTGAAGTGTCAATTTTGTTTGCTTTTTCTGTAAGTTTTATGAGTCACCCATCATTCTTGCAGAAATGTTGCTAATAACAATCTCGAAGGAACAATTCCTAGTAATATTAGCTCCTGCAAAAATCTCAACAGCCTGTAAGCAACTAAACTTGCACTAGTACTTTGTTACAATGTAGTTTATCTAATGCGTTAAGGTGACACTTTCATACCCTTTTAGCAATGTGCATGGAAACAAGTTGAATGGAACAATTCCTCCTGCTTTGCAAAGCTTGGAGAGCATGACCTCTTTGTAAGTTTCACCTTGATACATGAGCAACATTTACCTTAATGGACTTGCTATTCTGTTGTTTTCTTCTTTTAATGCTGCCTTTCCTATAAACACGTTGAAGCACACGCCAATTCCTGCAAGCACACTTAACTACCATGCCTCAACCAATTATCCTTTTGTTTAATTGGTTATTATGGCTTCATGACATTGTTATGGTCATCCTCAGGAATCTTTCTTCCAACAATCTTCAGGGTGCAATTCCAATTGAACTGTCACGGATTGGTAATTTGGATACGTTGTGAGTATGAACTATTCAAGTTATCTCTTTGCACCGACATCTTTAAATTTGTACTAAAAAATTATTTCCTCGACAGGGATATTTCAAACAATCATTTAGTTGGATCCATTCCTTCTTCCCTTGGTGACTTGGAACATCTTCTGAAGTTGTGAGTTAACTTGCGTAGTCATGTTTGGAATATGGGCTATTTCTTCTTACTGATAGCTGATATTCATTTTGTTAGGAATCTAAGCAGAAACAATTTGACAGGAGTTATTCCAGCAGAATTTGGAAATCTTAGAAGTGTCATGGAAATGTAAGCCATTATAAAGTAAATATTATTTCTTTGTTGTTGTTTTCGTGACTGTTATTCTACGTGATTCTGTCAACAGTGATCTTTCAAATAATGAACTCTCTGGCCTTATTCCTGAAGAACTTAGCCAGCTTCAGAACATGCTATCATTGTAAGCTTCATTTGCATCTTTTCCAATTTTGTTTCATATTCTAAAATGCTTTTGTTAACAAATTATGTATTCTTGATGGTAGTTTTATTGTTATGGGTAATCTCGTGCTGTAATTGAATCTGCCTTTGTATTTAATTAGCTCATAAAGATGTCAAGGTTTTGAATCTGCAAATGTGACTTTGGAATTCTCTTTACTTTGGGTTATATTGATTAGTTGATAAATTTCCCAATAATTAGTTATTCATCTTCATCTAACTTAAATATAGACTTTTGTTTTTGTGTAATAGAACTTAATAGCTTCAAATTAACTGTGTTGTTTTTCACATGTCAATATGGTGGATGATTATTGACTTTGGTAATTGTGCTATTAGATTGATATTTATAATTATTTTTGGTTTCAAATGATATGCAGGAGACTTGAAAACAACAAATTAACTGGTGATGTTGCATCACTTTCGAATTGCCTTACTCTCTCTGTGCTGTAAGTTTAGCTTTCAAATTAATGATTTTGTTGAGATTTCTAATAGACAATGTCCTCTCTGGCCTAATAAGTTGAAGTTTTCTTGTGAATTTTTTAGTAATGTGTCCTATAACAAACTATTTGGTGTTATCCCCACTAGTAACAACTTTACCAGGTTTCCCCCTGATAGGTGAGTGTCATTCACTGTTTAAATTGTCTTTATCACCTTTTAAGTTCATAGACATGTTCTGGATTCATGAGTACAACCTTTTGTCTTTCAGTTTCATCGGAAACCCTGGTCTTTGTGGTAATTGGCTGAATTTGCCGTGCCATGGTTCTCGACCTGCAGAGCGAGGTGAGCTGTTGCACTTTGCAGGAATTTTCTGTTGCTTTTATCTTTCACAATGCATAGAAAGGAGGTCAAAAAGAGATGCTGTGTTATCTCTCTGATATTCTTTTATTCAATAGATGAAAGGGTTTTGGGTTTAAATTATGCAGAATAAGCTAATCTATTTTATTGACTGTGCAGTTACATTATCTAAGGCAGCCATTCTTGGAATTACTCTCGGTGCCCTTGTGATTCTTCTAATGGTATTGCTGGCAGCTTGCCGACCACACAGTCCTCCTTTTCATGATGGATCACTTGACAAACCAGGTACTCATCTTTGTTTCATCCTCACATTGTAAGCTGTAGCCTTCAATCAGCATAGGTTCAAAGAGCAAGCTTGGTTTTTTGTAGATTTGAGCTGTCTATAGATACTTTAGTGTACCTAACCTTAAGCCAGCAGTGCGAAAAAATCTGAAATTGATTGGATTGTGTAATTGTATGCATTAAAGTTTACATGCCAACTTTTAACTCTATTGGATTTTGTAAGGTTTATAATCATGTGGCAGTATTTTATTGCACTCTACCCATTGAAACATAATTTGACGAGTTACTGACCTTCACGAACTATGGAATTGACAGTTAATTACTCGCCTCCAAAACTAGTGATTCTTCATATGAATATGGCACTTCATGTGTATGAAGATATCATGAGGATGACAGAAAACTTGAGTGAGAAGTATATAATTGGATATGGTGCGTCAAGTACAGTTTATAAATGTGTTCTCAAGAATTGCAAGCCAGTGGCTATCAAGAGGATCTATTCTCACTATCCCCAATGCATTAAAGAATTTGAAACTGAACTTGAGACTGTTGGCAGCATTAAGCACCGGAATCTGGTCAGTCTCCAAGGCTACTCTTTGTCCCCTTATGGCCACCTTCTGTTTTATGACTACATGGAAAATGGCAGTCTGTGGGATCTTCTTCATGGTAAATACAAGCTATATCTTTTTCTAGTCTTTTGTAATGCATAGAACCCTTCATTAAGAACTAGTCTCAGCCAGAATCTCCTCTTAAATAGAAAATTACTTTATAAAGAGCATACTGATACAAGGTGTATGACTAAGTCATTTATTGAAGTTTCTTGTTTCATGTGAGTCTTTCAGCTGTATTCTTTTTGGTTTGCTGCATACAGCTTGTAAATAATGAAATATATAAATACTGTTAGAAGAAGAAACCATTAAGCCATTGTTAGAAGGTATCATAATATCATATAGTGCTATCCTACCCCGTAGTTTTGTTATGGTAAGTAGATTTCTGCATGCCACATTACTAGCCTGATCACAGCGTCAATGATTCTATTACGTATCTGGCTTACTTGTGTATCTGTTTTCAGGACCTACTAAGAAGAAAAAGCTTGACTGGGATCTGCGTCTAAAAATAGCACTTGGAGCAGCACAAGGGCTTGCATATCTACACCATGATTGCAGTCCTAGAATAATCCACAGGGATGTGAAATCATCCAACATTTTATTGGACGCAGACTTTGAGCCCCATCTCACTGATTTTGGCATTGCCAAAAGCCTCTGCCCCACAAAGTCTCATACTTCTACTTACATAATGGGCACAATTGGCTACATAGACCCTGAGTATGCTAGAACTTCCCGTCTCACTGAGAAGTCTGATGTGTACAGTTACGGCATCGTTTTACTTGAGTTGCTAACTGGAAGGAAAGCTGTTGACAATGAATCCAACCTCCACCATCTGGTGAGTCTACTACACTTTTCATGGGCTTAGGTATATATTTTGGAAATCAATGACAACATTCTATTAAGAAGATTACTTAGTTAAAAATTCAATTTTGATTGAGAACACCAAATACACATCCATGGAACTGCACTTATGATTCAAGATTGCAAAATCTAGTAGCTATAAATAACTGTTAACTTATTGTTAACACTTGATTCTTGTCTGTCTTGTTCACATACATAGCAATGGCTCATGGTTGTGCAGATTTTGTCCAAGGCAGCAACCAATGCTGTAATGGAAACAGTTGATCAAGACATTACTGCCACATGCAAAGACCTTGGAGCTGTGAAGAAGGTGTACCAGCTCGCTCTATTATGCACAAAGAGGCAGCCAGCTGACAGACCTACAATGCACGAAGTGACAAGAGTACTTGGGAGCCTTGTGCCATCAAACACTCCTCCAAAACAACCAGCTGCACCACCTCCTGCTCCAAACCCATCTGCCAAAGTGCCATGCTACATGGACGAGTATGCAAACCTCAAGACTCCACACTTGGTGAACTGCCCCTCAATGAGCACCTCAGATGCACAGCTCTTCCTCAAGTTTGGAGAAGTAATCTCTCAGAACAGTGAGTGAGTGAGTGAGTCATGAGAATCAAGTCCAACAATTAATCATGTATATTAAAACCCAAAAAAGAGAAAAAAAAATGTGGGATGAAAGGTAGGTACAAGGTAATGAAAATGTTTATAAAAGTTTTAGTACTAGCTTTAGCGTTGTTGATTTGAACAGGAAAAAGATATGGATGTATGAGCACCACAATTTGAAAGGTGAAGTGGTAACCAAATACTTGTACTTGTTTGGTAGCACACAAGGTTGCAGAAGTAAAAGTTAAGGTTCTGGGGCCAATGTGCAGAAGGTGGGGTAAGCAAAGGTCTTAATGGTAGGGAGAAGAGGCATTACATAATCTGTGAACATCAATAATGCATCGATTCTTAGCTGGCCTGGTATCAGTGAACTGTCTGAGTGCTGCCAGTTTTCTGCAGAGTCCATCCATTACCTCTTTTATTACCTCAGGCCATTTGTTCAGTAAAGTGCCATGAAATTATTTCATCAAATTTTGGGTCATTGGCTTCCTCTGCCAGGGCTCAGATATGCCATTGGTTTCCGTGCCATGTTGACTCAAAAATGTTTAATGCGTTCAGTGTCATCAATTGAACAATTTTCACCGGTTGAAAAATGAATGCAAGCTCTGTAACTTTTTCTTGGTGGTAAAACATTTACAGAACTAAAATAAATAGCATGGTCTCTGGAATATTCAAGTCTTC