Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_12248 LG3 14433638 14440133 PREDICTED: transcription factor TGA2 isoform X1
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   transcription, DNA-templated, transcription, DNA-templated, anther development, anther development, anther development, response to molecule of bacterial origin, response to molecule of bacterial origin, anther development, response to molecule of bacterial origin, hydrogen peroxide mediated signaling pathway, response to molecule of bacterial origin, response to molecule of bacterial origin, response to molecule of bacterial origin, transcription, DNA-templated, transcription, DNA-templated
Cellular Component   located in   nucleus, nucleus, nucleus, nucleus, nucleus, nucleus
Molecular Function   enables   protein binding, protein binding, protein homodimerization activity, protein binding, transcription cis-regulatory region binding, transcription cis-regulatory region binding, protein binding, protein binding, protein binding, transcription cis-regulatory region binding, protein binding, protein binding, protein binding, protein binding, protein binding, DNA-binding transcription factor activity, protein binding, transcription cis-regulatory region binding, protein binding, protein binding
Pathway   B 09132 Signal transduction   C 04075 Plant hormone signal transduction [PATH:ko04075]
SNP Position Effect Amino acid change
G/T 14433643 synonymous_variant p.Ala2Ala
T/A 14433758 intron_variant
T/A 14433759 intron_variant
A/G 14433802 intron_variant
A/G 14433921 missense_variant p.Lys39Glu
T/A 14434030 intron_variant
T/A 14434039 intron_variant
A/T 14434088 intron_variant
G/C 14434165 intron_variant
G/A 14434498 intron_variant
G/C 14434516 intron_variant
A/T 14434540 intron_variant
G/T 14434811 missense_variant p.Arg156Met
G/A 14434813 missense_variant p.Ala157Thr
G/T 14434816 missense_variant p.Gly158Trp
G/T 14434817 missense_variant p.Gly158Val
A/T 14434832 missense_variant p.Gln163Leu
G/T 14434840 missense_variant p.Ala166Ser
C/T 14434883 intron_variant
T/A 14434890 intron_variant
T/G 14434969 intron_variant
A/T 14434970 intron_variant
A/T 14435110 intron_variant
G/C 14435118 intron_variant
G/A 14435119 intron_variant
G/C 14435123 intron_variant
G/C 14435241 intron_variant
T/C 14435243 intron_variant
G/A 14435297 intron_variant
T/A 14435300 intron_variant
C/A 14435446 intron_variant
A/G 14435466 intron_variant
A/C 14435733 synonymous_variant p.Ala186Ala
T/G 14435804 intron_variant
G/A 14435863 splice_region_variant&intron_variant
A/C 14435871 missense_variant&splice_region_variant p.Thr188Pro
C/T 14435872 missense_variant&splice_region_variant p.Thr188Ile
C/T 14435874 synonymous_variant p.Leu189Leu
G/A 14435881 missense_variant p.Arg191His
G/T 14435896 missense_variant p.Arg196Ile
G/A 14435904 missense_variant p.Ala199Thr
G/A 14435909 synonymous_variant p.Arg200Arg
C/T 14435921 synonymous_variant p.Leu204Leu
G/C 14435947 intron_variant
C/T 14435961 intron_variant
C/T 14436001 intron_variant
C/T 14436022 intron_variant
G/A 14436040 missense_variant&splice_region_variant p.Ala208Thr
G/T 14436068 missense_variant p.Arg217Ile
A/G 14436081 synonymous_variant p.Thr221Thr
C/T,* 14436084 synonymous_variant p.His222His
C/A 14436148 intron_variant
G/C 14436171 intron_variant
A/C 14436182 intron_variant
G/A 14436205 missense_variant&splice_region_variant p.Gly234Arg
G/C 14436233 missense_variant p.Gly243Ala
G/T 14436263 intron_variant
T/A 14436274 intron_variant
C/T,A 14436277 intron_variant
C/T 14436359 intron_variant
C/A 14436749 intron_variant
T/C 14437107 intron_variant
G/T 14437114 intron_variant
G/C 14437347 missense_variant p.Gly289Arg
T/A 14437460 synonymous_variant p.Leu326Leu
C/T 14437637 intron_variant
A/G 14437711 intron_variant
T/A 14437783 intron_variant
A/G 14437866 missense_variant p.Tyr357Cys
T/G 14437867 stop_gained p.Tyr357*
A/G 14437967 missense_variant p.Thr391Ala
G/T 14438156 splice_donor_variant&intron_variant
T/G 14438240 intron_variant
A/T 14438391 intron_variant
G/T 14438398 intron_variant
A/G 14438489 intron_variant
A/C 14438557 intron_variant
A/C 14438628 intron_variant
T/C 14438634 intron_variant
C/T 14438643 intron_variant
T/C 14438814 intron_variant
T/C 14438833 intron_variant
G/T 14439112 intron_variant
A/C 14439116 intron_variant
A/G 14439297 intron_variant
C/T 14439405 intron_variant
A/T 14439477 intron_variant
C/G 14439537 intron_variant
T/A 14439677 intron_variant
G/A 14439678 intron_variant
T/C 14439703 intron_variant
C/A 14439711 intron_variant
T/G 14439887 synonymous_variant p.Ser493Ser
T/A 14439897 missense_variant p.Ser497Thr
A/C 14439920 intron_variant
A/G 14439934 intron_variant
A/G 14439944 intron_variant
G/A 14439961 intron_variant
A/T 14440047 missense_variant&splice_region_variant p.Glu501Asp
G/T 14440048 missense_variant&splice_region_variant p.Ala502Ser

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_12248.1
MAGQRLGETGLSESGPSSHHVPYGVLHGINTSASGLMNQGSGFDFGELEEAFAPLQGIKIRSDEAKSSALFTGRPSATLEMFPSWPMRFHQTPRGGSKSGGESTDSGSGVNTLSSKNELQFETESPISIKASSSDHQQAFDQLHQQQQQETATDGSRAGTSQTQSAAKSQQEKRKGAGSTSEKPLDAKTLRRLAQNREAARKSRLRKKAYVQQLESSRLKLTHLEQDLQRARSQGVFMGCGGAGGSILSSGAAMFDLEYARWLEDDHRHMAELRTGLQAPLSDGELRVIVDGYLSHYDEVFRLKGVAAKTDVFHLINGMWTSPAERCFLWIGGFKPSELITMLIQQLEPLAEQQIMGIYALRHSSVQAEDALTQGLEQLQQSLVDTIAGGSVTDGVQQMVAAMGKLANLEGFVGQVNYSTVYTNIHTYIYIHIHTYI*IYIIYADVRKEQKRGNFADNLRQQTLHQLCRLLTVRQAARCFVVIGEYYGRLRALSSLWASRPRESMISDDNSCQTTTELQMVQPSQNHFSNF*


CDS Sequence:
>Vu_12248.1
ATGGCGGGCCAAAGATTAGGAGAAACGGGTCTGTCTGAGTCAGGACCTTCAAGTCATCATGTCCCTTATGGAGTTCTTCATGGGATTAATACCTCAGCATCAGGCCTAATGAATCAAGGGTCTGGTTTTGATTTTGGAGAGCTGGAAGAGGCTTTTGCTCCATTGCAAGGCATCAAGATAAGAAGTGATGAAGCCAAATCATCAGCTTTATTCACAGGCAGGCCTTCAGCCACACTGGAAATGTTCCCTTCATGGCCAATGAGATTCCACCAAACCCCAAGAGGAGGTTCAAAGTCAGGAGGGGAAAGCACTGATTCAGGATCAGGAGTGAACACTCTTTCAAGCAAAAATGAGCTCCAATTTGAAACAGAATCTCCCATAAGCATAAAAGCATCTTCTTCAGATCATCAACAGGCTTTTGATCAGCTTCATCAACAACAACAACAGGAGACAGCAACTGATGGCTCAAGGGCAGGGACATCACAGACTCAATCAGCAGCCAAATCACAACAAGAAAAGAGGAAAGGAGCTGGTTCCACATCAGAGAAGCCACTTGATGCAAAGACACTGAGACGTTTAGCTCAAAACAGAGAAGCTGCAAGGAAAAGCCGTCTCAGGAAAAAGGCTTATGTGCAGCAGCTAGAGTCAAGTAGATTAAAGCTCACACACCTTGAACAAGACCTTCAAAGAGCTCGCTCTCAGGGAGTGTTTATGGGTTGTGGTGGTGCTGGTGGAAGTATATTAAGTTCTGGAGCTGCAATGTTTGACCTGGAGTATGCAAGATGGTTAGAAGATGACCACCGGCACATGGCGGAGCTCCGGACCGGGCTGCAGGCACCACTGTCCGACGGCGAGCTGAGGGTGATTGTGGATGGATATCTGTCTCATTATGATGAGGTTTTCAGGCTGAAGGGAGTGGCTGCTAAAACAGATGTGTTTCATCTCATCAATGGCATGTGGACTTCACCAGCTGAGAGATGCTTCCTCTGGATAGGTGGTTTCAAACCATCAGAACTCATCACAATGTTGATACAACAGTTGGAGCCCCTAGCTGAGCAGCAAATTATGGGCATATATGCTCTCCGTCATTCTTCAGTGCAAGCAGAAGACGCTCTCACTCAAGGTCTTGAACAGCTTCAGCAGTCTCTCGTTGACACCATCGCCGGTGGCTCCGTCACCGATGGCGTGCAACAGATGGTGGCCGCCATGGGCAAGCTTGCCAACCTTGAAGGATTTGTTGGCCAGGTAAATTATAGTACAGTATACACAAATATACATACATATATATACATACATATACATACATACATATAAATATATATTATATATGCAGATGTTAGAAAAGAACAGAAAAGGGGTAACTTTGCTGATAATCTGAGACAACAAACCCTTCATCAGTTATGTCGATTACTGACAGTTCGACAAGCTGCAAGATGTTTTGTTGTGATTGGAGAGTATTATGGTCGTTTAAGAGCCCTAAGTTCTCTTTGGGCATCAAGACCTAGAGAGAGCATGATCAGTGATGATAACTCATGCCAAACAACCACAGAACTGCAGATGGTTCAACCTTCTCAGAATCATTTCTCCAATTTCTGA


Promoter Sequence:
>Vu_12248::LG3:14431638-14433638(+)
ATAAGATGTTCAAAAAGATGGTACAAATATATGAGAATATAAAAAGATGGAAAAACGAGTAATTTATGTAATTTAGTGATCTGAAATAAATACGTGAAACTTTTATTACAATTCATGTTTAAAATTTGTTATTTGTGACTATTTGCAAAAATGGAAAAAAGAAGAGTGAAAGGATTGCTCCCCGAAATAATGTGTGTAGAAAGACAATGTCGAAAGCACTTTTGCCAATAATCTATTATAATTAAACACACAATTATGGATGGGTACAGTACATATATGTATTAATTATGCCTTTCATTTATATTTGTGAAATTTAAATTTAAGTGCTAAATTCATTTTCATACATTTAAAAAAAAATAATTCACCTTTACCTTTTATATTTGTATGAAAAAAATTTGAAACTCACTTTAAATTCATTATTTATATACTTATATATATATATATATATATATATATATATACACGTTTAATTAAATAATTAAATAAATTTTATTTCAATATTTTTTTGCATTGCATAAACAAATAAATTTAAAAATATTTCATGATTCAAATTTATTTTTTAATTTTCTTAATAAAATTTAGCAAAGAGTAAATTAGTAATTTCTTTTATAATACAAATATTTTTATTTAGTTATATTAACCACATATGAAAACTTTTTATTTAAATTTATTTACTTTTTTTATCCAAAAAATCTAGCTTTTCACTTTTTTTCCCCTTCCCACCTTAACCTCAATCTAGACAAGGTATAAGTGATTAAGTTCAATGATTTCACATTTCATTTAATGAATATATTTTAACTAGACTCAATAAACATATTTCAACGACAAGAAATTGAATAACTTTCTCACATTAAAAGAATTTTTTTTTTTGTATAGTTATGTTACTTTCATAAACTAAAAAATGAATCTATCCCATAGTTTTTAGGACAAATTTAGACAAAATTATCCCTTTACCCTAACAAAAATGGAAGTACCTCTTTTTTTCTATAATTTTTCATTTCTTTTTCATATCAAATAGTTTTCTTCTAATTTCTACCATTCTCAAATTTTCATTTACACCAAATAGTCATCTAATTTTTTTTACAGCTAAAAGCATGAATAAAACGGAGGAAAAATATTTCAATCAAAGTGATTTTGAATTTAAACATTTCCATATAATATATTCAATGTAGTAAATGCATGTTTATATCAGTGTACATTCAATAATAATGGTTCATTTAAAAGCAAAACAACACATACATATTACATATATATTTTTCTAAGTGAAATTATCAGTATGATTGGGAATGTTTTCTAAACACATTACAAATATATAATCTTTTACAGTTCAATCAAAGTGAAAGTGAAACTGATGAATTTGATCAAAGAATTAAATAGTTCTAACTTGTATGAGCTATTTTATGAGTTTGAAACTCCAGAAGCTTGGAGAAACTGACAGACAGAACTCACAAGGTTGGTGAATTTGCTAGGACAAAGTTTGTGGTACCACACTTCCACATGATGAGTTACTGAATACAAGTATTTACAAGTAGGGACAGTGATAAAGCAAGCCAAACACACTTATCAATCAGGTTTCTTCCCAGAGAAGGAGAAAAGAAAGATAGAGACACCCCATGAAAGATAAAATGTTGCAAGGATGAGCACACATGAGAAAAAGACTGGACCCTCTTCTTGTGGAAACTTATATATTACTTTGACAACAAAGCTTTCATCTTTCTTCACTGTGTGAACTTTTCCATATACTATTCTTTTTGTCCATTCAATTCCAATGAAAGCAGAGGTAATTAAAAGTCATAACACTACCCGGTTTTCATACACAGAATTCTCTATGTATGTCTATAATATTATATATATATATATCGTATGGACACATGCACACAATTTTTATATTCCTCAGCTTTGGCTGTACCAAGTTTTGTTCCTTGAACTGAGTTTCTGATGAATGAGAGGCTTTCAGTTTCAGCTTCAGAGAAGGAGAGAATGTTTTAAGTAGCTTTGCA


Gene Sequence:
>Vu_12248(+)
ATGGCGGGCCAAAGATTAGGAGAAACGGGTCTGTCTGAGTCAGGACCTTCAAGTCATCATGTCCCTTATGGAGTTCTTCATGGGATTAATACCTCAGCATCAGGCCTAATGTATTGTTCTTTAAATTGTTTCTCCATATCTCAGTTTTCAGTTTATCAACACTCAGAAAAAATTTCTCAGTTTTCTTACATGGAACTGCTGTTGTATGGTGTTTCTTCAGTTTTATATATATGGCTTGTTTTGATTTCTTTTTTTCTTACTTACCCTTTGTTTCTTAGGAATCAAGGGTCTGGTTTTGATTTTGGAGAGCTGGAAGAGGCTTTTGCTCCATTGCAAGGCATCAAGATAAGAAGTGATGAAGCCAAATCATGTATGTTTCATTGTTTTTGTTCTTCTCCTTTTGATGAGCATAGGTAATGAGCAACTCTGCAAAAGTGTAGAGAAGAAAGAAGTGGGAGGAGGAGGAGGAGGAAGGAGGTTTGAATATGCCTAAAGAGCTAAGTGGGAGGTTACAATTTCCCATACCCGAAAATGATAATAAACTTGGATGGCATAATCTTTGAAACTTGCATGATGTTCTGACTCCATCATGACTATTGAAAAGGAGGATTAGGTTCCTCCACCTTTTCGTATGATTGATGCTCATAAAGCCTTTATTTTTGGTGATCCTCTGATATTTTTCTTTTTGTGATTGTAGCAGCTTTATTCACAGGCAGGCCTTCAGCCACACTGGAAATGTTCCCTTCATGGCCAATGAGATTCCACCAAACCCCAAGAGTACTACTCTCTCTCACATCTCCATCTTTGACCAATTCATATCCAAAGATGCTCACAACAAAAACAGATTCAACAGTATCCCAGTTTTCTTTTTAGAATTTGAGTAGGAAATTTGGTTAATTAAGAACTGACCAATGAAACAAAGAGATTGACTAGTATACTGTTGGTGTTGAACATTTTGAATAAAAATTTGTGGTGGATTTCCACAGGGAGGTTCAAAGTCAGGAGGGGAAAGCACTGATTCAGGATCAGGAGTGAACACTCTTTCAAGCAAAAATGAGCTCCAATTTGAAACAGAATCTCCCATAAGCATAAAAGCATCTTCTTCAGATCATCAACAGGCTTTTGATCAGCTTCATCAACAACAACAACAGGAGACAGCAACTGATGGCTCAAGGGCAGGGACATCACAGACTCAATCAGCAGCCAAATCACAACAAGAAAAGGTTCTTAAAACAACAATTGTTGCCACTGTTAATCTCTCAGTTTCTCTCTTTCCATGTCCCCAAAACACTGGGAAAGTTGACCTCTTTAAAGGCAATTATTATTACCCTTATGGTTCGTCTTTCTCTCTCCCTCTTTGTTCACATATCTTCTCAGCACAGATCCCAACAGCCCTCAGAAAATCAAAGAGACACAGAGTTTCTCTGATTCCTGAACGATTTTCTGATGAATGTCTGACATGAAAGTGAGAGAGAGAGAGGGAAAGATGAACGTGACAAACAAAAAAACAAAGTGAGAATCTTTTCAGTACTTATCAATCACTGTTTCTCTTTTAAACAGTGACCCACTCCCACTTCACTGGTCACCCTTAGACAAAACTTGTGCTTTCTCCCAATTTAATTGTGGTGTTACAAATCTAATTCTAAAACCACACTATACGCCTACACAATGGCAGATAAAGATGCTTTTTGCTACCCTTATCATGTTCATGATTGCACACCACCACAAGAGAAATTGCCTAATAAAGGGCCTTTTCATTCAGAAATGCCTCCCAAAAATTCTGTGAGAAAATCACATTCATTGATTTCCTCTTGTATTCTTGTTTTAAAGCATGACATCTCTTTGAGCTTTGGTTTAGCCAACCTCAAAGCTAGGATGAATTTGAGAAACGTTGACCAATTTTCTTCATTTAGTAGCTAGAAATCTACAATTTTTCTGGTTTTTAAGTCCCTCTAAGCTAAGTGATTTAATTTATTATTCCAGTTCATCTTTTTATGTACTTCTCACCTTTCAAATCCCTTAATTCTTTTTCTTTTGGGGTTCTTTTTATTCAGAGGAAAGGAGCTGGTTCCACATCAGAGAAGCCACTTGATGCAAAGGTTTGAATATGACATACAATCACACACACACATTTATATACAGTATTAATATATTTTATATTTCAAGTTTGGTTATTTTCTGGATTTTTCACATGGGATTTGTGTCAAGATTTTCTTTTTTGATTTGGATTCAGACACTGAGACGTTTAGCTCAAAACAGAGAAGCTGCAAGGAAAAGCCGTCTCAGGAAAAAGGTGTGTCCCATCAATTGATAAAAACAGAAACAGAAGAATATCATATATTATAGTAAACAAAATGTAACCACAGAGACATTGTGTAAATGTGCTGTTCCATTGCAATTAGGCTTATGTGCAGCAGCTAGAGTCAAGTAGATTAAAGCTCACACACCTTGAACAAGACCTTCAAAGAGCTCGCTCTCAGGTTCTTTTCTCTCTCATACACACAATATTGCATAATTTTCTTAATTATTTATTGACTTCTGCTGATGATTATTATTTATGATATTAGGGAGTGTTTATGGGTTGTGGTGGTGCTGGTGGAAGTATATTAAGTTCTGGTGAGTTTAGCTGTTTTTATTTTCTGTTGGTTTTTTAAATGCAATTTCATTTTCTAATGCCTCAAATATGATCAAAGATAGAAAAGGTTATTATGTCATAATTTTCTGACACATGTATGATTATGGAGCTAGGAAGAACTGGTATAATGAGTACCTCAAAGATTTTGTTGGCCTGATCTTTTGACCCCTTTTTACAGTTTGGAAAGGGGAATGAGACAAAGAATTAAGAGACTCAGTAGGGAGCAATTGCTATATTTACACGTAACTTCTTTTTGTGCCCTTTGAAGCCAAAAACAAAAGTCAAATTTTGATTTTGAAATGGACTTTCAAAATCTAGAATCAGGTGGACAAGTCTCAGAGTTTGACCAAAATCTGTGGCCTAATTCACGTTTGAATTCTCATTATAAAACATAAAAAATACTTATAAAATAAAAACAGTGGATCATTATTCTAAGAAGATCGTACTGTTACACATTAAAAACTGTGCTGTCCTTTCTAAACATGCATGTAAAGCCTAGTTTAACTTTTCAGCGAATTATTGATCCATGATAACTGCTTTTTTCTGCTTTTAGTAAAAGAGCATGGTGTTCAGATAAAAAACAAAACAAAACAAATTTGAACATAGAATAATAATATCTCTTTAGGTAATGCAGTTAAGAATGATGAGTAATCCATTGATTTTCTATTCAGAAGATGAATGCGCTATGCTGTTTCATTACAAACCACATTTGCACTACTCATCAAACAACCTACATTTAAATTTTAATACAAAGTAATCATTTCTTAAATTATATTCACCAAATATTTCGTACATAAAACCAATATCATACGAAGAATAATTTGTTAAAAGTACTTAATCAGTTTCCAACTCTTAACAAGACTATACTCAACACCAAAACATAGTATCAAAATTATGCTAATATAAATGTTATTGATATAAGAAAATGGAGCTTTAAAATTTTTTTGCTGTTGCAGGAGCTGCAATGTTTGACCTGGAGTATGCAAGATGGTTAGAAGATGACCACCGGCACATGGCGGAGCTCCGGACCGGGCTGCAGGCACCACTGTCCGACGGCGAGCTGAGGGTGATTGTGGATGGATATCTGTCTCATTATGATGAGGTTTTCAGGCTGAAGGGAGTGGCTGCTAAAACAGATGTGTTTCATCTCATCAATGGCATGTGGACTTCACCAGCTGAGAGATGCTTCCTCTGGATAGGTGGTTTCAAACCATCAGAACTCATCACAGTATGTATTACCTATGCACTCTCTTTTCTCCCTTTAACATCTTCATCTTCCTCAATCAATGTTATGATAAATTTAGTTAACTATAGTATATGTATATATGTATCAGAGCTGTTCATTTTTTCAACATGAACACAGTCTAGAGAGTTCAGTATAAGAATAATAAAGATGTAGTATAAGAACTGTTTTCTCATACAAGTTTTGTTTTTCTTAAAGACCCTCATAAAAACAACCCTATTTTCTTGGTAAAAATGTTATCTTTTTTTACGTATGAAGAAAAAGAAATGAATGAAGTTATGTGTGTTATTTTGGTCAGATGTTGATACAACAGTTGGAGCCCCTAGCTGAGCAGCAAATTATGGGCATATATGCTCTCCGTCATTCTTCAGTGCAAGCAGAAGACGCTCTCACTCAAGGTCTTGAACAGCTTCAGCAGTCTCTCGTTGACACCATCGCCGGTGGCTCCGTCACCGATGGCGTGCAACAGATGGTGGCCGCCATGGGCAAGCTTGCCAACCTTGAAGGATTTGTTGGCCAGGTAAATTATAGTACAGTATACACAAATATACATACATATATATACATACATATACATACATACATATAAATATATATTATATATGCAGATGTTAGAAAAGAACAGAAAAGGGGTAACTTTGTAAGCAAAGATGTCATATTATTGAATTGATTGATAAATCACATTATATTATATATATAGCTAGGGCTATGTTTTTCTTATGTCTTAGGGCTAAAGTAATACTTTAATTTTTATGCACTCAATTTGGTGGGAGGTTGACGTAAAGCCTTCAGGTGACATCTGTGTCAAAATTATTTGCATGCAAAAGTTTCCATTTAACAGTAGATAGGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGACTTCTGCAGACATTCATGTCAAAGTTAAGTTTGAATTCGTAGGTAACTTGTTCATCCCTGGATTTCTAGCTTTCAAACAGCAATTGGTTTAAGAAAGTTGGCGTGTTTGAAATTACTGGTGGAACATGTCTAAGGACCACACACGTATTAATTAATTTCAAAATCTGGTTTTAAGATAATGATATGTATATATGAAGTGGTTCTAGCAATGGTTGATGAAATGTTATTTTCTGATCCATTTTGTTTCTTTTGCTCATTCATTGTTATCCATCCTCTCTTTTGCATGTTTTGCGCCGCAATGCTTCCTCCTCATATAAAAGAAAACTTGAGCTTATATCTTAGGTCACACCTTCATCTCACTTCAACTTGATTTAACATGCCAGTAATTTACTCTCTCCTTTTTTTCTTTTTACCTTTTCTTATACTTGTAAAATATGCAGAAAGTCAAAGAATAACAAGCTTGAAATATACTCTTTATTTTATGAGTAACACTCCTTATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATAATGAACCACTTGTCAAATTATAGACACTACCTTTAGTTCTTTGATAAGCATCATGGAAACGTAGACTCGATTGTCTCAAGCTACAATCCTCCTATAGAACTTATTTCAATATGATTAAATAACTTAATAATTTCCCATAATTAATTGGGTTGACTTAACTCACCCACTACATGCTAATTAGGCATTAGACATGTATTTATATATTAATACAGATAATTAATTGTTTTTTGGGTATTTTAGTTTATAACCTGATCATCATTTTGGTTCTAAATATTTTAAGGTGCATGCATGGTCATCAGATGTTTGATTTGATGTAGTTTTTTCATCTCAAAATGTTTCAATCAGAAGTTGGTTGTGGACAGTGACAGATTGATGTTTATACATAAACCCTAGGTAGACCTATAACCATGAGTATTTTAAAAACCAAATTGACAAGTGATTCCTAATTGATTATATTAAATTCCAGTGTCATAAAACAAAAATGAGAATACACTATTTTAATTATACTTGTATTAATTAGAATCAGTCTAAATAGTTCATAGATAAGACAAGTTCATACCCTTTGAAAGCAAAGTGCTGTTGTCCGTTAGCTAGGGACCCATCTCATGGGGTAGTTGGGTTTTGATTATACTATATAGTTTATCGGATAGATATATAATTGATTAATTAAAATGACTTGATTAAACACCATACTTAATTTTCCTTTGACTCCATTGTTTCAGTTCTCACCCATTATTTTAATCAAAATTTGGTGTTTATGAACTGAAGGCTGATAATCTGAGACAACAAACCCTTCATCAGTTATGTCGATTACTGACAGTTCGACAAGCTGCAAGATGTTTTGTTGTGATTGGAGAGTATTATGGTCGTTTAAGAGCCCTAAGTTCTCTTTGGGCATCAAGACCTAGAGAGTAAGATTTACACACCATATCTTATCATATTTTAACCATTTATATTTACTGTGCACCATTGAAAAACAAGATTAAATTATCATCAAAAAAGAGAAAAAAAAAAGTGACACACCCTTTTTGATTTGGTTGAAACAGGAGCATGATCAGTGATGATAACTCATGCCAAACAACCACAGAACTGCAGATGGTTCAACCTTCTCAGAATCATTTCTCCAATTTCTGA