Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_00313 LG1 5672140 5678886 PREDICTED: B3 domain-containing protein Os07g0679700-like
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of seed maturation, regulation of seed maturation, positive regulation of seed germination, regulation of transcription, DNA-templated, regulation of seed maturation, regulation of transcription, DNA-templated, regulation of seed maturation, positive regulation of seed germination
Cellular Component   located in   nucleus, nucleus
Molecular Function   enables   transcription cis-regulatory region binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, transcription cis-regulatory region binding, transcription cis-regulatory region binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, transcription cis-regulatory region binding, protein binding, protein binding, protein binding, protein binding, DNA-binding transcription factor activity, protein binding, protein binding, protein binding, protein binding, zinc ion binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding, protein binding
SNP Position Effect Amino acid change
C/A 5672194 missense_variant p.Asp696Tyr
A/G 5672269 missense_variant p.Trp671Arg
C/G 5672315 synonymous_variant p.Ala655Ala
C/A 5672317 missense_variant p.Ala655Ser
G/T 5672322 missense_variant p.Ser653Tyr
C/A 5672372 missense_variant p.Arg636Ser
C/T 5672381 synonymous_variant p.Lys633Lys
G/T 5672440 missense_variant p.His614Asn
A/G 5672449 missense_variant p.Trp611Arg
G/A 5672520 intron_variant
T/G 5672521 intron_variant
T/A 5672792 intron_variant
G/T 5672801 intron_variant
G/C 5672842 intron_variant
A/G 5672843 intron_variant
C/T 5672846 intron_variant
G/A 5672871 intron_variant
G/A 5672882 intron_variant
G/A 5672947 intron_variant
C/A 5673003 intron_variant
G/A 5673037 intron_variant
C/T 5673055 intron_variant
C/T 5673288 intron_variant
A/G 5673377 synonymous_variant p.Tyr556Tyr
C/T 5673506 synonymous_variant p.Arg513Arg
G/A 5673694 missense_variant p.Leu451Phe
C/A 5673795 intron_variant
G/C 5673800 intron_variant
A/G 5673832 intron_variant
A/T 5673836 intron_variant
A/T 5673894 missense_variant p.Phe410Leu
G/A 5673936 splice_region_variant&intron_variant
T/A 5673955 intron_variant
A/C 5673961 intron_variant
A/T 5673981 intron_variant
C/T 5674006 intron_variant
T/G 5674081 intron_variant
T/G 5674265 synonymous_variant p.Gly360Gly
A/G 5674353 intron_variant
A/G 5674386 intron_variant
C/T 5674532 stop_retained_variant p.Ter321Ter
A/G 5674574 splice_region_variant&intron_variant
T/A 5674651 intron_variant
C/A 5674684 intron_variant
A/G 5674722 intron_variant
C/T 5674890 intron_variant
T/A 5674954 intron_variant
T/A 5674963 intron_variant
G/T 5675195 intron_variant
A/C 5675426 intron_variant
A/G 5675530 intron_variant
T/C 5675570 intron_variant
A/C 5675710 intron_variant
A/T,* 5675761 intron_variant
G/A 5675997 intron_variant
A/G 5676147 intron_variant
T/G 5676184 intron_variant
C/T 5676291 intron_variant
T/C 5676324 intron_variant
A/T 5676332 intron_variant
G/T 5676400 intron_variant
A/G 5676532 intron_variant
C/A 5676736 intron_variant
T/C 5676755 intron_variant
A/T 5676912 intron_variant
T/A 5677000 intron_variant
A/G 5677012 intron_variant
A/G 5677045 intron_variant
A/G 5677188 missense_variant p.Met270Thr
T/A 5677288 missense_variant p.Thr237Ser
C/A 5677395 missense_variant p.Ser201Ile
T/A 5677487 missense_variant p.Glu170Asp
G/A 5677536 missense_variant p.Pro154Leu
A/G 5677540 missense_variant p.Trp153Arg
G/T 5677591 synonymous_variant p.Arg136Arg
T/A 5677657 missense_variant p.Asn114Tyr
T/C 5677661 synonymous_variant p.Val112Val
C/T 5677689 missense_variant p.Gly103Glu
A/G 5677775 intron_variant
G/C 5677919 intron_variant
T/G 5677965 intron_variant
A/G 5678012 intron_variant
C/T 5678101 intron_variant
T/A 5678110 intron_variant
G/A 5678350 synonymous_variant p.Leu80Leu
T/G 5678429 intron_variant
T/A 5678430 intron_variant
A/G 5678433 intron_variant
T/G,A 5678448 intron_variant
A/T 5678466 intron_variant
T/A 5678487 missense_variant&splice_region_variant p.Ser65Cys
C/A 5678622 intron_variant
T/C 5678629 intron_variant
G/C 5678660 intron_variant
C/T 5678827 synonymous_variant p.Lys20Lys

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_00313.1
MELDVCMNGACKNGYAREWKKGWPLRSGGFARLCDKCGSAYANSIFCEKFHLHQTGWRECNFCNKSIHCGCIISRFSFEYLDFGGIGCSTCLRASPFPLIQETGNSIRSIRSVKNHASDRHTEHIDDRLFLDGSSKRKPMHMRRIVDGRESSRWPQVKRDDIHSCIDLSREEMRFSNVMKPSNHSLKFTALENNRPTWENRSMHRSSSLNISLGASSGNPVLPSASAVAAEGRFDGKTSSSSFHQGQRSLSIMPKPLMNAININMESSNGMISQERVARPPTDGKGKNMLLSRYWPRITDQELQQLSGDLKSTIVPLFEKVLSASDAGRIGRLVLPKSCAEAYFPPISQSEGLPLHMKDVKGNEWTFQFRFWPNNNSRMYVLEGVTPCIQALQLNAGDIVIFSRIDPGGKFVLGFRRASDSTDTQDASAAHSNVLSTKETTISGATAGNSYHDLLQARKGNGDPYLNKCSEHFRLGTAGIAEPLRTENSEIVNKDLVQLPISVSEKTQNIGPMCKRLLIHNEDAKELRVTWEEAQDFLCPAPSIKSNIVTIEDQEFEEYEEPPVFGKRTTINARSSGSLSFASEEMSPKELDNIPVIRKGVLEDDVADRGDSSAGATTKYPRHRSGCTCIVCIQASSGKGRHSPPCITVERRLDTLLTRKKQRLGTQKDEDEGDGACLSEKEGNINKGCLKKGELSAGQIDLNCRPNLDEDMQVDI*


CDS Sequence:
>Vu_00313.1
ATGGAGCTCGATGTTTGCATGAATGGTGCTTGCAAGAATGGCTATGCGAGAGAGTGGAAGAAAGGGTGGCCTCTGCGATCGGGTGGATTCGCTAGGCTCTGCGATAAGTGCGGATCTGCATATGCCAATTCAATTTTCTGTGAAAAATTCCACCTGCATCAAACTGGTTGGAGAGAGTGCAACTTTTGCAACAAGTCTATCCACTGTGGATGCATAATATCAAGGTTTTCTTTTGAGTACCTCGATTTTGGAGGTATAGGTTGCTCAACCTGTTTGAGGGCTTCTCCATTTCCTTTGATACAGGAGACTGGAAACTCTATTAGGTCTATTAGATCAGTAAAAAATCATGCTAGTGATCGTCATACAGAACATATTGATGATAGGCTATTCCTTGATGGTTCTAGCAAACGAAAACCTATGCACATGCGTAGAATTGTGGATGGTAGAGAATCCAGCCGTTGGCCTCAAGTTAAGAGAGATGACATACATTCCTGTATTGATCTAAGCAGAGAAGAAATGAGATTTTCAAATGTGATGAAACCGTCTAATCATTCATTAAAGTTTACTGCATTAGAAAATAACAGACCAACATGGGAGAATAGAAGTATGCACAGATCAAGTTCATTGAATATTTCTCTGGGAGCCTCATCAGGAAACCCTGTGCTACCTTCTGCTTCAGCGGTTGCAGCAGAAGGGAGATTTGATGGTAAAACATCATCTTCTTCCTTTCATCAAGGGCAAAGATCTCTCTCCATTATGCCTAAACCATTGATGAATGCAATAAACATAAATATGGAATCAAGCAATGGAATGATTTCTCAAGAGCGTGTTGCACGGCCACCTACTGATGGGAAAGGCAAGAATATGTTACTTTCTCGATACTGGCCAAGGATTACAGACCAAGAGCTTCAGCAATTATCCGGAGATTTGAAGTCTACTATAGTGCCTTTATTTGAGAAGGTACTGAGTGCCAGTGATGCAGGTCGAATTGGTCGTCTTGTTCTGCCAAAATCATGCGCTGAGGCTTACTTTCCTCCTATTTCACAATCAGAAGGTCTTCCTTTGCATATGAAAGATGTGAAGGGAAATGAGTGGACATTTCAGTTTAGATTTTGGCCTAATAACAACAGTAGGATGTATGTATTAGAGGGAGTAACCCCATGCATACAGGCCTTGCAATTAAATGCTGGCGACATTGTGATATTTAGTCGAATAGATCCTGGAGGCAAATTTGTTTTGGGTTTTAGAAGGGCATCAGATTCTACAGATACACAGGATGCTTCTGCCGCTCATTCCAATGTTTTATCGACAAAGGAAACAACCATTTCTGGTGCAACTGCTGGAAATAGTTATCATGATCTTCTCCAGGCAAGGAAAGGGAATGGTGATCCTTACTTAAATAAATGTTCAGAGCATTTCCGTTTGGGTACTGCTGGCATTGCTGAGCCTCTTCGAACTGAAAATTCTGAGATTGTAAACAAAGATTTGGTGCAACTACCAATTTCAGTTTCAGAGAAGACTCAAAATATTGGACCTATGTGCAAGAGGTTGCTCATACACAACGAAGATGCCAAGGAGTTGAGAGTTACATGGGAAGAAGCTCAGGACTTTCTTTGTCCAGCGCCTAGTATTAAGTCCAATATTGTAACAATTGAGGACCAAGAATTTGAGGAATATGAGGAACCCCCGGTCTTTGGGAAGAGAACTACAATAAATGCTCGTTCATCTGGGTCTTTGAGCTTTGCATCAGAGGAAATGAGTCCAAAGGAATTAGATAATATTCCAGTTATCAGAAAAGGAGTTTTGGAAGATGATGTTGCTGACCGTGGTGATTCATCAGCTGGAGCCACCACCAAATATCCAAGGCACCGTTCAGGATGCACTTGCATTGTGTGCATTCAAGCCTCAAGTGGAAAAGGGAGACATAGCCCTCCCTGCATCACCGTGGAACGCCGTTTGGACACCCTTCTGACGCGTAAGAAGCAACGCCTTGGTACCCAGAAAGATGAAGATGAAGGAGATGGTGCATGTCTCTCTGAGAAAGAGGGAAACATAAACAAAGGTTGTCTTAAGAAGGGTGAACTCAGTGCAGGACAGATAGACCTGAATTGTCGTCCCAATCTCGATGAAGACATGCAAGTGGATATATGA


Promoter Sequence:
>Vu_00313::LG1:5678886-5680886(-)
TTTTTTCTTTTGTTCATTTATTACCTTTCATAGAAAACAAGTTTTTCACATAAATTATCTCTTTTATTTCTTTTAATGAATGTTGAAATATATTTTTTTTCTTTTTTTCATCTATTTTCTTATTTATTTAGTCTCTCCTCTTCGCTTCATGCTGGAAGGAGAGATATCACAGACCACACAACGAGGAGTAAAAGAAGTCACTACCCCAGCGACATAATTGCAACCTTTCTATCCGACCAAGAAAAACTAGCTGACTTGTCTATGAGGAAAAAACATGCACTTATGCGCAATAAACCTGAAATGTGGAACCCTAACTGTTCTGCTATTATTCTAATAAATAATAATAAAATTACAACCTAGCAATAGGTAGTAAAACACATTGATGAAAAGATTAAATCGAACAAATATTAAACAACTATTGTTCGGTTAAATATTCAGAATAGCACAAAATACACTTAAAACATTATTAAACCAATTAATATTGATTTATGAACCCAAACTAGTTTGAAAGATAGGTTAAAGTGGCTAAATTGATAATTTATTAAGATATAAGTGTAATAGAATGATCCGTTAAAGTGTTCATAATTATTAATGATTGAATTTAATGTTTATTCAATACCTGTATATATATTTCCTCTAATTTTTTATTGATACAGGTATATTTTGACATATTTTATTTTATTTTTTAATAAAAATTGAAATTCTTATAATTATTTATAGAAAAGTGATTTTAAGATATAACATAAGACAAATAATGAAATGCACCAAACAAACATATAGTTGAAAGTAAAAAAAAAAATTGTCAATAAACTATTTCATCAATAAATTAAATTATAAGAATTTTATTTTATTTAAAAACTAAAATTAAAATTCTCTGAAATATACCTTTATCAACAAAATAATAAAAAAACCTATAAAGAAACATATGAAGATAACTATTGATGTCATTTTATTTTTCTTAACTCATATTTAACTTTTCAATTAGCGTAGTCAAATATAACATTGGTCAATATATCATTTATCTCAATTACATTTTTTAATTAACATTAATCGAACTTGAATTTTCATTTACATATATATAAATTTTCATTTAGACTTATGGGACATTGATACTTCGCTTCTACTCAAATACAAGAAAAATATTTAGTGTATTTAAAATAAAATAAACTTTAACCATTTTAATTTGATGTGATCTCATTATTCTAGAAAATCTATTTTTTTTAAGATAATTTGCAAAACATAAATTTATTTGTGTGATTAAAATCAAATGAACTTAATTAATTTGAAATTAATTATTATTTTATTTTTTGCACGCATTCAGATCAAATAAATAGTGAACAGATGTGCAACCATGCATTTAATTTGAATTTTAATAATTTATGGATATTTATTCTTATTTTGTTTACCCTACACATATAAATTAGTTTAAAAAATATAACAATTATGAACAGTTTTTATTAATATTTATTCATTTTTGTCTGGATTTGAGTATCATGCAAAAAGCAACACATTTCTGTTTTAAAAAATTAATTGAGACATAATTACATATAATTAAATTTATTGAAGTATTAAATAAGAGAAATTGGTGAGAGAAAGTGAGCGTTAAAGTCAACCTGGAGAAGCAGTAAGCTTAATGTAAAGAGAAGGGAAAAGAGAGTGATAAGGAAAACCTGTTGTTAAGGTTAGCGGTCTCTGCATGCCTTTTTCGCACTTCTCTTCAACCTTTATTATGTAAAACGGCATTCTTTTCTAACTTTGCATGCACACTCTTTCTCTATATATATACTAATTCTCTTTCTCTCTCATACCAAAGCACAACAACAGTAGTTCACATTTCCAAATTCCTTCGCCAGTGTAAGTGTATTGTTGTTGCAGCACACAGAAAGAACCTCAGAGTTGTTTTGTTTTGAGGATGGTTTTGTTGTTCCTATTTATCTCAAAATCTGTGTCATTTTAATTCGTTTTTGTGTTGTTTCTAGGGTTTTTTGAGTTTGCAGTGG


Gene Sequence:
>Vu_00313(-)
ATGGAGCTCGATGTTTGCATGAATGGTGCTTGCAAGAATGGCTATGCGAGAGAGTGGAAGAAAGGGTGGCCTCTGCGATCGGGTGGATTCGCTAGGCTCTGCGATAAGTGCGGGTAAATTTGATTTATCTCCCTTTTCTTTTTCTGTGCTGAATTTTGATGGATTTTTTCGTTGTTGGGCGATTTTGTGAGTTTGACTCTTTTAAAATGAATGAGTATTATTTGGTCACCACAGTTTCTGAGGTCAAGGATTTTACAATGTTTGGGACTGTAACTGTGACTGCGTGAAATTCCTTAATGTGTCACTTTGTTTGCTTTAGATCTGCATATGCCAATTCAATTTTCTGTGAAAAATTCCACCTGCATCAAACTGGTTGGAGAGAGTGCAACTTTTGCAACAAGGTAAAGAGTAAAATATCTTTTTTTCTATTTAAATTATATTCAAGCCTTGTCTTTCAATCCTTAGTGTATTTTTTGACTTGGTTTGCAGTCTATCCACTGTGGATGCATAATATCAAGGTTTTCTTTTGAGTACCTCGATTTTGGAGGTATAGGTTGCTCAACCTGTTTGAGGGCTTCTCCATTTCCTTTGGTAAGGTTAATCTGAGTATTTATTTTTGAAGGATGATTTCCAGGCTTACAGTTTATTTTCTTAGTAACTAATATGGTTCTAGCAATGTATATTTTAGTCAATCTCATATTTTTGCCGAATTGTACTTCTACAACAGTACATGCATGTCTAAATATCACAGAAATTACTCTCTGACAAATGTGAATACTGTTGTTGAAATCGTAAGGATTGAATGCAGCCTTGTTGCTATACCTTTCAAATAATTGTGAAGTTGTGATTGTGTTATAAAACAGAAAATGTAATGTCAAATGATGCAAATAACCCTTTCAAGTTTAGTGACTTAAATATGACATGTAAAAAGAAGCAAATATAATGTCACTCATGTAATGTAATGTTACTTGTTCTAATTTTCTCCATCCTGTCATATAGTTCATTTTCCAATTAGGTTTAGCAAATTGTTTCACCTTGCTTGCTGGTTCCTCTTAGGGATACCTGGTCTTGATCTCCTATATGTTTAATTTGATATAGTGTGAGATGTAGCTAATAAAAATTTTGAAGAGTTTATTAATTCCCTGCTGCTATTATTCTCATTATTATTTGATGTTTTGTTGCAGATACAGGAGACTGGAAACTCTATTAGGTCTATTAGATCAGTAAAAAATCATGCTAGTGATCGTCATACAGAACATATTGATGATAGGCTATTCCTTGATGGTTCTAGCAAACGAAAACCTATGCACATGCGTAGAATTGTGGATGGTAGAGAATCCAGCCGTTGGCCTCAAGTTAAGAGAGATGACATACATTCCTGTATTGATCTAAGCAGAGAAGAAATGAGATTTTCAAATGTGATGAAACCGTCTAATCATTCATTAAAGTTTACTGCATTAGAAAATAACAGACCAACATGGGAGAATAGAAGTATGCACAGATCAAGTTCATTGAATATTTCTCTGGGAGCCTCATCAGGAAACCCTGTGCTACCTTCTGCTTCAGCGGTTGCAGCAGAAGGGAGATTTGATGGTAAAACATCATCTTCTTCCTTTCATCAAGGGCAAAGATCTCTCTCCATTATGCCTAAACCATTGATGAATGCAATAAACATAAATATGGAATCAAGCAATGGAATGATTTCTCAAGAGCGTGTTGCACGGCCACCTACTGATGGGAAAGGCAAGAATATGTTACTTTCTCGATACTGGCCAAGGATTACAGACCAAGAGCTTCAGCAATTATCCGGAGAGTATCCTTTATATTTATGCTAAATAGTTTTTTTTAGCCTCTGCATTACATATCATAAATGCTTATTTTTATATAATTAAAATTCACAATAAACAAATCTTTTTAAAAACTGTAGTATGGATTTACAATGAAACAATTTAAACTAATTAAAGGTTATTTTTATTATCCGTTGACAAATTTATGTAAAAAAAGCATAGGAAGAAATACAAATGACAGTATGGAAACCAAGATGAAAGAATTGTAGTTTTGAGTTTCTGAAAGGGTGAGAGAGAAATATTTTATGTTGTCCACTGTCGTCTAAAAGGTTGAATCATCCACCAGGATTACATTTTTTATTAGGGATTTTTTTAACTCCATTTGACAAGAGACATACAAATTTGTTGGGGGTAATATTTTCTTATTAATAAATTTTTTTATAAAAATATATAAATAAGTTTATTTATTACTATAAATAATTGAAAAAATAAAAATTTGTGTAATAATTTATTTCACAGTTTGTGTTTGACTTAACTAAGTATATTGTTTAGGATTATATATACATATATATTAAAAATTTGTTTTGGTTTACATCTATACTATGAATAAGTTGTGAACAAATTTTATACAATGGAATAGCTGAAATTGGCTAATTCTTAATTTAAATACATTTAAAAAATTCTAAATAAATGTAACTGCAGCCATGAAGGTGGAATTGGTAGAACATTTATAAATCTTGCATAATTTATTTATATGTAGTACCATCTGATGTACATATGAATTGAGACCAACCTTGTCTGGCAGAAGGAGGTCCTCTTGTTCATGATGAAATCCAGATTGATCCTCTTTAACCAGTAAATCAATAATATCCCTAACTTCAGGTAATAGATACATTTATTCCAGGTAAACAGTTTAAACCTTGTTTTTACTCCTCTAATAAAAATAATATCTTAAAAAATGTTATTGAAAAATATCAGGTACATTCTAAACTTATTCTGAACTTTCTATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATACATTTTCTTTTGTGAAAAACTCTTTCTCACTTTGAATGGCATTAGTTGCTCATTTTAATAGAAACAATACTATGTATAGCATCACTCTTATATAATTTAGAAGTTAATACTATAACTTATATATCCTTTGTTTGCTGATCACAAAACTCTTATATAATTTAAAAGTTTAACATCCACTAATATAGAAAGTTTTGTCGTAGGTCCAAAATAGTTGTTATATAAAAATTGTATTAATGGTAAAATAAATATGATATTTAATAATAAAATCAATTCAATAAATGAAAAGTGAGTGATTATACAATTGTATTCCATATGTGGAAAGAGATTTCTTTTGCCTATACTATAATGTTGTCTAATTTGACCAAGATCGTAATGCATAAAGTGAAATAATTTAATACAATGTTGGGAAAATACTTAAAATAAAAATATAAGCATTGATATGTATCTTACTACTTTACTACCGTTTTTAATTATATATATTATTCACTATGGTTGCGTTTCACAAATCATTTTTACTGGTTATAATTTTTTTAATAATTTTTAACATCTTTTATATACTATTTCAAGTTGCTTTAATTTTAAAGTGCCAGTTTTTTATATTTATTTATTCTTGTCCATATAAACTGTCTATTAATTATTTCTTCTGCTCTACATAACCTTTTTTTTAATCAGCATCTACTCTACATAAGGTAATATGTTACTATATATTATTTTTCTATTATTTTATTCATACCTGTTATATAGGATTGAATTTTCATATTTTTCACAAGTTTTTGATAATGACGGATAATAAATTTATTGCATTTAACGATTATTTTTTAAAAATACTTTTATATAATTCTATTTATTATAATTACTATATCATTAACAATATTTATTTTATTATTTCAACATTATACTTAAATATATTAATATTGATATATAATTTTATTTTGTGATCGTAACCGCAAGTAGCCGAAAAGATAATTAGTAATTGAAAACTGTTAAATTGGTAGTTTATTAAAATAAAGTATGCAGTAAAATCATCCATTAAAGTACTTAATAATTATAAAGTAATAGAATTGAACATATTTTTTATTTTATGTTATCAATAAAAGTATATTTTTACTAAAAGAAAACAATAAGAAGAAAAAAAAATTGAAAGAGGGTTGATTGAAATGAACAGACCCTAAAGAGGTTTAGGTATACAAATAAAGATGAAAGACACGTAGTTTGAGTTTGTGAGATGGTTGAGAGAGAAAACTATTTACTAAGCTGGCAACAGTAGTGTGTGGAATACACTTGAAAAAGAGAGAAGAGAAACAATACTTAGAATCTCTGATCAAATTCCGACTCATGTATTCGAATTTACAATATTTACACATCATCTGCATTAAACTTTGTTATAGGGATAATTCATTATACCCGTTTCCTTAACTCTATATCACCATAGTTTGAAGTCTACTATAGTGCCTTTATTTGAGAAGGTACTGAGTGCCAGTGATGCAGGTCGAATTGGTCGTCTTGTTCTGCCAAAATCATGCGCTGAGGTAAGCTTTTATTCAATGAATTTCTGTCTCTATGTTTGTGCACATGTTCATGCATGCAGTTGTTGTAAAAAGTTTTCTATTGAAGAAATATGTTACCACCTTTTAATTGCAGCATATCTGATGTAACCATTTGCACATGAATTTCAGGCTTACTTTCCTCCTATTTCACAATCAGAAGGTCTTCCTTTGCATATGAAAGATGTGAAGGGAAATGAGTGGACATTTCAGTTTAGATTTTGGCCTAATAACAACAGTAGGATGTATGTATTAGAGGGAGTAACCCCATGCATACAGGCCTTGCAATTAAATGCTGGCGACATTGGTATATAATTTCATCTGGGCAGTGATCTATGCACATACTTGTTTCGTTGCTGTTTAATACTTTACTAAAAAAGTTTATTTGGTATTCTGATTTTCTTTGAAAATGTGATCCGAAGTAAATGTGTTTTCATGGCTATAAACTTTTTTGGTTCCTTCAATTGTTTTAATCGCTTATGGCTCGTACGATATAGGTTATGTACTATGATCTTTTTTGCTGCAGTGATATTTAGTCGAATAGATCCTGGAGGCAAATTTGTTTTGGGTTTTAGAAGGGCATCAGATTCTACAGATACACAGGTTGTGACATTATTTTCTATTTCATTGTCCGTTGTCTCTTCTTTTGATAAAATTAACAAATGATCATTATTGAAACAGGATGCTTCTGCCGCTCATTCCAATGTTTTATCGACAAAGGAAACAACCATTTCTGGTGCAACTGCTGGAAATAGTTATCATGATCTTCTCCAGGCAAGGAAAGGGAATGGTGATCCTTACTTAAATAAATGTTCAGAGCATTTCCGTTTGGGTACTGCTGGCATTGCTGAGCCTCTTCGAACTGAAAATTCTGAGATTGTAAACAAAGATTTGGTGCAACTACCAATTTCAGTTTCAGAGAAGACTCAAAATATTGGACCTATGTGCAAGAGGTTGCTCATACACAACGAAGATGCCAAGGAGTTGAGAGTTACATGGGAAGAAGCTCAGGACTTTCTTTGTCCAGCGCCTAGTATTAAGTCCAATATTGTAACAATTGAGGACCAAGAATTTGAGGAATATGAGGTAAGTGTCAGTGCCACTGCCATGGCTGTGCATCTTTTTATTATATTGGTTTGCTTATTTCCACGAGAACAAGGAATGGAATTATGTATAGGGTGTGTACTTTGAAGCATTACATTCAAATTTCTGTTACTCAGCTAATATATGACTTCATTTTCATTTTATTTAGGAACCCCCGGTCTTTGGGAAGAGAACTACAATAAATGCTCGTTCATCTGGGTAAGATTCAACACATTGCATAAATCTTATTTACATTTAATCCAGCAGAAAACTTTGATTGGGGAGTGACAGTTTTATGATAAGTTTTTGTAGCTTGATCTTGTCTTCAAATTTTTCATTCTGTTTTCTTGCATTATTCGATGTTAAAGAAAGTGTAGTGGATTGCTTCCTCGGGCAATTAAGGTTGAGGATAAGTGGTTGATGAAGTTCCTTGTCTAGTGTTTGGATCTGAGTTAAAAAATAGGAATATAAAACATTGTAAGACTAAAAGATAGCAAGAAGTAGTCATTCATACAAGAAATATCCTTTTCGAATCCTACTGTGATCTACTTGTATTTCATGCATGGTCTATGGTTCTTACTGACAATGGTTTTTCAGGTCTTTGAGCTTTGCATCAGAGGAAATGAGTCCAAAGGAATTAGATAATATTCCAGTTATCAGAAAAGGTGTGATGATCCTACACTTTTTATATAATATTCTCTGTATTTGCTTTGTATATTCAGATTCTAAAGTTGTAAAGCTCCTGCATTTTGTGAACATTGAAATAATAGGTCATCTTTTAAAATACCACGTAGTAATTTTTTGGTGATAGAAATGTCCATAGATTCATTCTTTAGTCCAGTTGATTAAACTGAAACTTAGACAATTAATTGTTGAATGTGCAGGAGTTTTGGAAGATGATGTTGCTGACCGTGGTGATTCATCAGCTGGAGCCACCACCAAATATCCAAGGCACCGTTCAGGATGCACTTGCATTGTGTGCATTCAAGCCTCAAGTGGAAAAGGGAGACATAGCCCTCCCTGCATCACCGTGGAACGCCGTTTGGACACCCTTCTGACGCGTAAGAAGCAACGCCTTGGTACCCAGAAAGATGAAGATGAAGGAGATGGTGCATGTCTCTCTGAGAAAGAGGGAAACATAAACAAAGGTTGTCTTAAGAAGGGTGAACTCAGTGCAGGACAGATAGACCTGAATTGTCGTCCCAATCTCGATGAAGACATGCAAGTGGATATATGA