Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_04812 LG1 69365515 69371496 hypothetical protein
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   guard mother cell differentiation, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of cell cycle G1/S phase transition, guard mother cell differentiation, multicellular organismal water homeostasis, guard cell differentiation, regulation of transcription, DNA-templated, positive regulation of response to water deprivation, guard mother cell differentiation, guard mother cell differentiation, guard cell differentiation, regulation of DNA endoreduplication, positive regulation of lateral root development, positive regulation of response to salt stress, guard cell differentiation, regulation of stomatal complex patterning, lateral root development, regulation of transcription, DNA-templated, guard cell differentiation, megasporogenesis, response to gravity, positive regulation of response to water deprivation, regulation of transcription, DNA-templated, lateral root development, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, megasporogenesis, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, megasporogenesis, megasporogenesis, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, guard mother cell cytokinesis, regulation of transcription, DNA-templated, regulation of cell cycle G1/S phase transition, positive regulation of response to salt stress, guard mother cell cytokinesis, regulation of transcription, DNA-templated, regulation of DNA endoreduplication, guard mother cell differentiation, guard mother cell cytokinesis, stomatal complex formation, guard cell differentiation, regulation of transcription, DNA-templated, guard mother cell cytokinesis, guard cell differentiation, guard mother cell differentiation, stomatal complex formation, response to abscisic acid, regulation of transcription, DNA-templated, stomatal complex formation, embryo sac development, regulation of transcription, DNA-templated, guard mother cell differentiation, positive regulation of response to water deprivation, guard mother cell differentiation, guard mother cell differentiation, positive regulation of lateral root development, regulation of transcription, DNA-templated, lateral root development, guard mother cell differentiation, guard cell differentiation, guard mother cell differentiation, regulation of DNA endoreduplication, response to abscisic acid, regulation of stomatal complex patterning, positive regulation of lateral root development, guard mother cell differentiation, regulation of DNA endoreduplication, guard cell differentiation, regulation of transcription, DNA-templated
Cellular Component   is active in   nucleus
Cellular Component   located in   nucleus, nucleus, nucleus, nucleus, nucleus
Molecular Function   enables   DNA-binding transcription factor activity, sequence-specific DNA binding, RNA polymerase II cis-regulatory region sequence-specific DNA binding, RNA polymerase II cis-regulatory region sequence-specific DNA binding, DNA-binding transcription factor activity, protein binding, DNA-binding transcription factor activity, RNA polymerase II-specific
Pathway   B 09182 Protein families: genetic information processing   C 03000 Transcription factors [BR:ko03000]
SNP Position Effect Amino acid change
C/A 69365640 5_prime_UTR_variant
C/T 69365768 5_prime_UTR_premature_start_codon_gain_variant
T/A 69365955 intron_variant
C/A 69366453 missense_variant p.Asp27Glu
T/G 69366858 intron_variant
T/A 69366915 intron_variant
C/T 69367275 intron_variant
T/A 69367364 intron_variant
T/C 69368507 missense_variant p.Val282Ala
G/A 69368509 missense_variant p.Asp283Asn
A/T 69368513 missense_variant p.Gln284Leu
T/A 69368560 intron_variant
A/T 69368672 intron_variant
A/G 69368689 intron_variant
T/A 69368803 intron_variant
C/A 69368912 intron_variant
C/G 69369270 intron_variant
T/A 69369468 stop_gained p.Cys397*
A/T 69369476 missense_variant p.Asn400Ile
T/A 69369948 intron_variant
T/G 69370067 intron_variant
C/A 69370178 intron_variant
A/G 69370686 intron_variant
G/T 69370708 intron_variant
A/G 69370735 intron_variant
C/T 69370746 intron_variant
T/C 69370945 missense_variant p.Ser475Pro
A/T 69370953 synonymous_variant p.Pro477Pro
G/A 69371021 3_prime_UTR_variant
C/A 69371268 3_prime_UTR_variant
C/A 69371288 3_prime_UTR_variant

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_04812.1
MMPQDLKQHHNEESTKKEHSEESKKKDHNEESKKKERHIVTWTQEEDDILREQIGIHGTENWAIIASKFKDKTTRQCRRRWYTYLNSDFKKGGWSAEEDMLLCEAQKIFGNRWTEIAKVVSGRTDNAVKNRFSTLCRKKEKYAALAKENSTSYINSNSKRIMFQHYNNMDTTAESGVPIKRMRRSHIPDDAEKTEFGDRSHLRNGTPINQQQRPPFAVLAQNSHNSNSLPDHQHDCSPKFNSAQDDQIQGTFLKRDDPKRSVLMKQAELLSSLALKVDTENVDQSLEHTWKVLQEFLNRNKESNIPGHKISDLRLVDKDINEDLKSSNEEGQACWRQVEQYEDSPASSGYSTESTFLGQSAVDKSEHTLHQDIGTEMKSEQVGDEKGVDKDDKGVLCTANVDQDVLPYCEEQINNDGIVSTSSRLEFNSPIQVTPLFRSLAAGIPSPQFSESERNFLRKTLGVESPSINPSADSSQPPPCKRALLPSL*


CDS Sequence:
>Vu_04812.1
ATGATGCCGCAAGATTTGAAGCAGCACCATAATGAAGAGTCCACGAAGAAGGAGCACAGTGAAGAATCTAAAAAGAAGGACCACAATGAAGAATCTAAAAAGAAGGAGCGTCACATTGTGACTTGGACTCAAGAGGAGGATGATATACTAAGGGAGCAGATTGGTATTCATGGAACTGAAAATTGGGCAATTATTGCATCTAAGTTTAAAGATAAAACGACAAGACAGTGCAGAAGAAGATGGTACACATACTTGAATTCTGATTTCAAGAAAGGTGGATGGTCAGCCGAGGAAGACATGCTCTTATGTGAGGCTCAAAAAATATTTGGTAACAGATGGACAGAAATAGCAAAGGTGGTTTCAGGCAGAACGGATAATGCCGTGAAAAACCGTTTCTCCACACTCTGCAGAAAGAAAGAAAAATATGCAGCATTAGCAAAAGAGAACAGTACTTCTTACATCAATTCAAATAGCAAGAGAATTATGTTCCAACATTATAATAATATGGATACAACAGCTGAATCTGGAGTACCTATTAAAAGGATGAGGAGGTCCCATATCCCTGATGATGCAGAAAAAACCGAATTTGGAGACCGATCACATTTACGAAATGGAACTCCAATAAATCAACAGCAAAGACCACCATTTGCAGTATTAGCTCAAAACTCTCATAACTCAAACAGCTTGCCAGACCATCAGCATGATTGCAGTCCCAAGTTCAATTCTGCCCAGGATGACCAGATTCAAGGAACATTTCTCAAAAGGGATGACCCAAAGAGAAGTGTATTGATGAAACAGGCAGAGTTATTAAGTTCACTAGCTCTAAAAGTTGATACCGAAAACGTGGACCAAAGTCTTGAACACACTTGGAAGGTTCTTCAAGAGTTTCTGAACCGAAACAAAGAATCAAACATTCCTGGTCACAAGATTTCAGATTTACGGCTTGTAGATAAAGATATCAATGAGGACTTGAAAAGCAGTAATGAGGAAGGCCAGGCTTGTTGGAGGCAAGTGGAACAATACGAAGATTCTCCAGCCAGTTCCGGATACAGTACAGAATCAACTTTCCTGGGTCAGTCAGCCGTTGATAAATCAGAGCACACATTGCATCAAGATATTGGAACTGAAATGAAGTCTGAACAGGTTGGAGATGAAAAAGGAGTAGACAAAGATGATAAAGGGGTTCTTTGTACTGCAAATGTAGATCAAGATGTACTGCCATATTGTGAGGAACAGATAAACAATGATGGAATTGTTTCTACCTCATCAAGATTGGAGTTCAACTCCCCTATTCAAGTAACCCCTCTGTTCAGATCCTTGGCAGCAGGAATTCCCAGCCCACAGTTTTCAGAAAGTGAAAGGAACTTCCTAAGGAAAACACTAGGAGTGGAATCTCCATCCATCAACCCAAGTGCTGACTCATCTCAACCACCACCCTGCAAAAGAGCCCTACTACCAAGTCTATGA


Promoter Sequence:
>Vu_04812::LG1:69363515-69365515(+)
CATTGCAACATCAACAACTAATGATGACTCTCCAACAACAAAGAATTAATCTTTTCTAGTGAGAGATTTGACTAAGCTGCAACCATAGAGTATACTAAGAATATCTTAGTGAATCATAAACTCTTGATACCGCTTTGATTGGAACATCAATGTCTTTACTTCTAATAATTACTCCACCTATAAATAAATAAGATCAACATAAGAATATAACATGAAAACTCCAAAATTAGATAAAACTACGATAGTTATCTAATGAAAAAAATAATAATACTATATAACAAATTATACAATACCTAAACAACTTTCTTATGTTTTTTTTACTCCAAATACACCCACACTAAAATTAAGAATTAAAAGAGGGTTTACTTAAAAATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATGAAAGGTTAATTTCTTAAAATTTTCAAATCAAAAGTAAGAAAATAAAATAACCCATACTTTGATGAGGTGGTGCATTTAGCATGAACTAAGATCGATTGATATTAAGGCATACGAAACATTTAATTTCAATGCAAGCCTTATACTAACTTGTTATTAGGTCATGTACATTCTCATGTGTCCTTAAAATTCACAGTTTTCCTGTGGGGTCATATATTCTGATGTATCCTTAAAATTCACAGTTTCATACTCATTTCATTCATACAATACAGCTGTGTATGATGTCATATAAAATGTTTGTTTGACTAAACGGGTATAACTCATGAAACATAACCTTGAGTTGAATTTTGAAATGATACAATTTTCAATAAGAGTGAAGAGATTTAAATGTAATTAATTTCATTTCAGATTAAAAATTAATATCACAGTTATAAAGAAATATACATTTAGGTAATTTCAAAGCTGTATTTAATAATTATATTGAATACTCAATAAATATATATATATATATATATATATATATATATATATATATATGTATATATATATATATATGTATGTATATATATATATATATGTATGTATGTATAAAAGAAGATAGTTAAAATTGAGATTATGGTTAGGATAGTAAAAGTTTTACTTTCTACGATATAAATGATAAATTATTAAAATAAAATCAATTCAATTATTAATCTATCAATCATCAAACTTAAGTTTATACAATTAATCATTTTGTGAACTCCTTACTATCTTAACCATGATAGATTTTAAGATGTAACATAAAAGAGTGTTTTATTTTAATTGATTGAAATTCATTGAAGATGAGTGGTGTGGAAAAAAAACGCCCTTCATTTTTAATTGAATTTGAATTTTGTTTTAATTAAAGTTTCATTTATCAAATTAGATTGAATTTTATTTTAATTTAAATTTATTCAAGTAGATGAATATTTGATGTTGTTGAAAGTGATAATACCAAGACAAATTTGTAATTATATTAAATTTTAATTTGATTAAACATATAAGAGAGTTTTATTTGTATTTCTTTTTAGTTGAATGGTGTTAATACTCATAATACGTATAAAAATCAATTTTAATTGTTTTAAATTTTAATTAAATTTAACTTTTATTTAGATGAATTACATTAATCTAATAATGTAAACAAATAATATAGAAAAAAAAATGACAATTTATATAATTTTACGATTTATTTGATAATCCTAATGATTTTACTATTCTTACAATATTATAACTAATAATGCGTGTGATTTAATAAAAACTTGAGTAAAAATATTGAAAGAAGACAGATAAAAGTTAATGAAAGGAAGAATAAGCGTGTGAAGGGAGAAAGTATGCCAGAATAAGCCATGAGAGCATTAATAAAGACTGAAGAATGCACGTTAGGAGCAGCAGCACAGCACAAGTCTTCTCATGGAATTCAGCGTTTTATTCAAACTTCCTTCATACCCGCGCACTAACCCCAAGTATCCGTTTATTTAAAACTATTAAACAAATACATAAAATGTATTAATTAATCTTAGGTTTTGCATTCACTCA


Gene Sequence:
>Vu_04812(+)
ACCACTCCAATTTTCTATTCTCTTTCTTTCTTGTAAGAAAAGAGAACCAACCAACTCAAGGGTGTGTGACCGTTTCAAAAAAGTAAGAGAGAGAAAGAACTGAAAAACAAAACAACCAAGTAACTCAGACACTCACAGATCAACATTAGTACTTTGGTCCAAAACACCCACTTCACTCTCCACACTGCTTCTCATACCACTCTCTCTACTATCTCTGCTTCCTGCTATCAGTTTTCCTGTTTATCCCAGAATACGTATCACGAATCCAAACGTAGTTTATTCGAGGTATTTCTCAATTTCACCCTTTCTTTTACTCATTTGGGTATATTCCAAGTTCATCAATTTGTTTAGATCCCCCACCATTTCTGGGTTATTTCTTACATGCCACTACTCCATGAAATAAATAGGTAGTTGGTACTTTGTTGGGTTTGGATAAAAATTAGATTTTTATCCAATCCCATGTACCCCTTTTAAGTATTTTTCATTACCCATTATCTATCTATCTTTTTCGTGTAGCTCTGGCTCTCTAATTTTAACATTCGATTGTGTTTTCCTGTTTTGTTCTTCATTGATCACTGATGATAATAGCAATTTTATTTTCCCTTTTTCAATTGAATACTTTTTGGTGAGGGCTTTTGGGAATGTGATTTTTGCTTATTAAGGTGTAAAGGTGGATGTGAAAGAGAAGGGAGAAGTGATGGTTTCGCTTTTTCTTTTCTTTTTCGATTTTTTTTTGCAAAACATAAAAGCTTCTAATTATAAAGCTTTGGCAGCATGCAAGTTTGCCGGTTCAGGCAAAAGGAAGGAGCCTCAAGAAGAGAGGGACGCCGATAGAATAATAAGCACTCTCTGTGGTAAATGATGCCGCAAGATTTGAAGCAGCACCATAATGAAGAGTCCACGAAGAAGGAGCACAGTGAAGAATCTAAAAAGAAGGACCACAATGAAGAATCTAAAAAGAAGGAGCGTCACATTGTGACTTGGACTCAAGAGGTGTTTCTTTCTCTCTTTAGTTCTCTACGTTTATTTTAATTCTTCTGTTTACTTGCAAATATATATCATCTACTTAGTTCTAACAATGGATAAGAGATTTTTTCAGGAGGATGATATACTAAGGGAGCAGATTGGTATTCATGGAACTGAAAAGTACTCATTCTTCTTTTACTAATTCTTCTTTTTTGATAAACACGACTCTTTTCTTCGTTGACGAGTGACATTAAAGGGCTTTGTATTGCAATTAATTATATGCAGTTGGGCAATTATTGCATCTAAGTTTAAAGATAAAACGACAAGACAGTGCAGAAGAAGGTGAGGTTTTTCCAATTGTCTACAATTTTTTAATTTTTATCTTCACTGATTCAAAAGATCTGTTGGGTTCTTTGTTACTACCATTCTGATCCTTCTATTACTAATCATATTTCAGATGGTACACATACTTGAATTCTGATTTCAAGAAAGGTGGATGGTCAGCCGAGGAAGACATGCTCTTATGTGAGGTAATGATGGTCTCTGTGTACAGAACCAACTTAACAAGCTTATTTTATGATGAAGCATATGGAACTTTAAAAGATTGGAGTTCATTTTGAATAGTAGTATGACTAAATTAAAAGGTACAAGTCAGACACAATTCTTAACTTGCAAGTTAAATTTGTAGAGTTGAATTAGGCCTAAAGCCCAAATTTAAAATGATACCAGAGTTTATCCTGTCATTGTTGTTGAGTTTATCAGGCTACTTGCTATTGAGTTATTGTTGGACTATCCTCAAAGTCTTGCAAGCTTCACAGTCAAGATATGTAGTCTTCAATGTTAGGGAGTGTGGTGGAGGTTCACATTGACCAATAACATGATCTAGTTTTGTATATAACTTAGTAAATTTCCCTTTACAAGTCAGTTTTATAGGAATGAGTTGTGTCCAAAGCCACATTGTAAGACTTCTTTGTCTTCATTGGCCAGAAGACAATCTATTGACGAACTTATGCACTGAGAAGCAGCCTAGCCTACTGTCAGAAGTTGGTTACAACCAAATCACCAAGATCTCATGTATATATATGCATACTCTTCCAGATAACATCAACTAGACTTCAGTACACATGAATAAATGAGGCATTTGTGATTTTATTTCTTACCATTTTCTCTGTAGGCTCAAAAAATATTTGGTAACAGATGGACAGAAATAGCAAAGGTGGTTTCAGGCAGGTAACCAGAAATTGATTTTTTTCTTCTTGAGTGCATGTGAATATGTGATAGTCATTTTATTGATGCTTAATATTTAATGCATTGCTTTCTGCACAGAACGGATAATGCCGTGAAAAACCGTTTCTCCACACTCTGCAGAAAGAAAGAAAAATATGCAGCATTAGCAAAAGAGAACAGTACTTCTTACATCAATTCAAATAGCAAGAGAATTATGTTCCAACATTATAATAATATGGATACAACAGCTGAATCTGGAGTACCTATTAAAAGGATGAGGTACTGTATACTCTATGTATCAAAATACTCAAATTCTACTAAGAGAAGTGTTGACATTTTATCCTATGGTTATATAGGAGGTCCCATATCCCTGATGATGCAGAAAAAACCGAATTTGGAGACCGATCACATTTACGAAATGGAACTCCAATAAATCAACAGCAAAGACCACCATTTGCAGTATTAGCTCAAAACTCTCATAACTCAAACAGCTTGCCAGACCATCAGCATGATTGCAGTCCCAAGTTCAATTCTGGTAGTTATCTTTGAATTGAACTTTAGTGTTGGAGCTTGATTCATGTATAGTAAAACTTGAAAAAGAAAACATGATATAATTAATATATTCAGCAAACAAAACTTCAGCCATCCTCTCATTGTAAGATGGTTTGTCATGCTTCTGCAGCCCAGGATGACCAGATTCAAGGAACATTTCTCAAAAGGGATGACCCAAAGAGAAGTGTATTGATGAAACAGGCAGAGTTATTAAGTTCACTAGCTCTAAAAGTTGATACCGAAAACGTGGACCAAAGTCTTGAACACACTTGGAAGGTGAGGCTTTATAACTTCTAAACTTGCTTCAGTTTTGAATATTGACCACTTTTTCTTCTTTAAAAAATGAACTTACTACTTTTTGTGATGAGTAAAGCCCTAAAAGTGCCAGTTATATCCTTAGAAGTTAGCATCAACAACAAGCAACTTGTCATGTTAGCCTATTTACATAAAAAATTGAAAGTCGTTTCACATGTATCTTTTTTTCGTCCTATAGCACCCTGGTAAGCATTAAAAGCTAATTGAAAAAGTTTAGGCATTGTTTGCTCCTAGTTTCTTGACTAAAACATTTGCAATTTATGTCGTTATGAATCTGAAGCATTTATTTAAAGGAAAACATGAATCAAATGAGTTGTTAATCTTCCCAATGAGAACTCTGAAATAGTTTCATAGGTCACCTTGCTAGCGTGTATTCAAATGTTGAAAACTCCGCTTGATTTTATGATACCAATCACGAGCTGATATGTCTTTTTACTTGACCATATACATATGATAAGTGTTACTCTTTACACTGTATGTTCATTTGAACTGATGGTAGGTTCTTCAAGAGTTTCTGAACCGAAACAAAGAATCAAACATTCCTGGTCACAAGATTTCAGATTTACGGCTTGTAGATAAAGATATCAATGAGGACTTGAAAAGCAGTAATGAGGAAGGCCAGGCTTGTTGGAGGTACATTAAGATCTTTAAAACTATTGTTTTGCCTGTGGCCTCTGCGAAATGTCTAATAGTTTCTGAATATGTTCTAGGCAAGTGGAACAATACGAAGATTCTCCAGCCAGTTCCGGATACAGTACAGAATCAACTTTCCTGGGTCAGTCAGCCGTTGATAAATCAGAGCACACATTGCATCAAGATATTGGAACTGAAATGAAGTCTGAACAGGTTGGAGATGAAAAAGGAGTAGACAAAGATGATAAAGGGGTTCTTTGTACTGCAAATGTAGATCAAGGTAAATAAATGGAAAGGATTTTTAATAAAATATCAGTTTAGTAACAATTAACCACATAAATAGTAAATTATGTTCAAAGGGTTGATGAATAACCAGATAATAAACAGATAATAACCAGATAATAACTTACCTCTTAAGTGTTTAGTTATTCCTAAGCTGGAAATTATATGAAGGCTTAGTTTTATATATTTTCTAAAATAAAATGCTTTATCCAATATGCTAATACCGGAAATGGTAAGTGTTAATACTATGTGTATTCTTGCAGATGTACTGCCATATTGTGAGGAACAGATAAACAATGATGGAATTGTTTCTACCTCATCAAGATTGGAGTTCAACTCCCCTATTCAAGTAACCCCTCTGTTCAGATCCTTGGCAGCAGGAATTCCCAGCCCACAGTTTTCAGAAAGTGTAAGTCAGCCATGCACTTTGGCATTGAACAATTTTAAGGCCAACAGAATGATTATATCATTAATAGAGATAACTAGCATGATTATATATTATTAGTAATATGACATTAAGTAGGCAAATGAGGGAGCTTTTTAACTTAATGGCAGAGCTTGTTATACTAGGGATTTTTGGGGGAAAGCTTATCAATGCGCAGGTGATGTTAAAGCGGTGAACTTAAGTTGTTATCTTTAGAAACTTAACATGAATAGTTGTTGGATTAATAGAGTCGTGTCTTTTAATCTATCAATAATAAATTAAATAATTCTAGCTTTTTATTTTCCATCCTTGATGTCAATACTCAGAAGATGAAACCGTGGACACCTTAACTCAAGGGTTCTTAATATCATCTATTGCTACTTCTAAGTCCATTCAGGTATAGATGAGCTGGGATTTTGAAATACTTAGGCAATCCCTACATACAATTGTTGAAGCTGGTAAAAAAGTGGTAAATCAAGTATTTGAGTGGCATATAATGTGCTGGTAAAATTAATACAACATGTGTGTATATGACATGAGGTTTTTCTAAGAGAAATTTGGATTTTTTGGCATACATATTTAGTTGGGAAAGATCTTACTAAAATTTGCAATACGCTGGAGCACATAGAGGTGTAACTGTAGGGTTTGTTTGGATAAAATTTTCCGTAAACACTTACAGGAGAAGGAAATAAGAAGGAAAGACAAACCGTAAAAAGCAAAACTAGTTTATAGACTAGTTTATCCAATAAAACACATAGTTTCTATTCGTGCTAGAAGATAGAAGCCATGTTCTTGCAAATAACATTGAATTATTTGGCAAGATTAGTGGAAGCTGTTGGGGTTTTTTTTCACACATACATAGATTTTTGTTGGTAATGACACTTCTATCTTTTTCGTCAAGTAATAGAATATATCGAAGCTTGACACTGAAGACTAACCTTTATTTTTAAATTTTGTTCTTTCAGGAAAGGAACTTCCTAAGGAAAACACTAGGAGTGGAATCTCCATCCATCAACCCAAGTGCTGACTCATCTCAACCACCACCCTGCAAAAGAGCCCTACTACCAAGTCTATGAATCATCTGAGACTCAAATATTGATCCGTTTTGAATCCTACTTTCTCATCTGGAGAAAATTTACAATTTCACTCTGCCTAAAGTTTTGGAAGGCATATGCTGCTCCCCAAGAATGTTATGATACATTCTTGCCGCCATCAACATATCTAACATCTCAAAAGTTACCTTTTTGAAACTTGCACATAAAATTGGATTGCTTAGTGTGTCATTCTTTGGTTTGTTTTGTTTTGATATTGTTCTGGGTTTGTTTTTCTCCAATCCAGCAATCAGCATTTTGTCCGAATTTTGTACAGAGCTTGCCGTGTAATCAGTAGCATCCTGATTCCTGAGTGTGTATGAATACATTAGCATAGATAGAAGAGAGAGAAGAAACTTGACAGTGGCAACTTGGATTCTAATTTGTTGTTTGGAGTGTGCATAGGTTATTTAATAAATATTTTTCCCTTTTGCTTCTGATGTACTGAAACATAATCATAAGTGAGTGGAAATGCATTTTGGTTTGGTGTGC