Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_12013 LG3 9030392 9036581 PREDICTED: histone acetyltransferase of the MYST family 1 isoform X2
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   regulation of photoperiodism, flowering, negative regulation of transcription, DNA-templated, regulation of photoperiodism, flowering, negative regulation of transcription, DNA-templated, regulation of photoperiodism, flowering, regulation of photoperiodism, flowering, positive regulation of transcription by RNA polymerase II, positive regulation of transcription by RNA polymerase II, regulation of photoperiodism, flowering, regulation of photoperiodism, flowering, DNA repair, regulation of photoperiodism, flowering, regulation of photoperiodism, flowering, negative regulation of transcription, DNA-templated, negative regulation of transcription, DNA-templated, regulation of photoperiodism, flowering, positive regulation of transcription by RNA polymerase II, positive regulation of transcription by RNA polymerase II, DNA repair, DNA repair, regulation of photoperiodism, flowering, response to UV-B
Cellular Component   is active in   NuA4 histone acetyltransferase complex, NuA4 histone acetyltransferase complex, NuA4 histone acetyltransferase complex, NuA4 histone acetyltransferase complex
Cellular Component   located in   nucleus, nucleus
Molecular Function   enables   transcription coregulator activity, histone acetyltransferase activity, histone acetyltransferase activity, protein binding, histone acetyltransferase activity (H4-K5 specific), protein binding, histone acetyltransferase activity, histone acetyltransferase activity (H4-K5 specific), histone acetyltransferase activity, histone acetyltransferase activity, protein binding, histone acetyltransferase activity, histone binding
Pathway   B 09182 Protein families: genetic information processing   C 03000 Transcription factors [BR:ko03000]
SNP Position Effect Amino acid change
G/C 9030531 synonymous_variant p.Ala24Ala
G/A 9030797 upstream_gene_variant
G/A 9031004 upstream_gene_variant
T/G 9031097 upstream_gene_variant
C/G 9031102 upstream_gene_variant
A/T 9031140 upstream_gene_variant
G/T 9031626 upstream_gene_variant
A/C 9031982 missense_variant p.Asp96Ala
A/T 9031986 synonymous_variant p.Ser97Ser
G/C 9031987 missense_variant p.Val98Leu
A/G 9032189 upstream_gene_variant
T/C 9032260 upstream_gene_variant
C/A 9032350 upstream_gene_variant
G/T 9032484 missense_variant p.Lys123Asn
G/T 9032634 upstream_gene_variant
T/G 9032661 upstream_gene_variant
T/C,G 9032744 upstream_gene_variant
T/A 9032979 upstream_gene_variant
T/C 9033163 upstream_gene_variant
C/T 9033197 upstream_gene_variant
G/A 9033201 upstream_gene_variant
A/G 9033232 upstream_gene_variant
T/C 9033367 upstream_gene_variant
G/A 9033575 upstream_gene_variant
C/T 9033841 synonymous_variant p.Phe170Phe
A/T 9033867 missense_variant p.Lys179Met
G/C 9034186 intron_variant
A/T 9034398 intron_variant
C/A 9034498 intron_variant
T/A 9034786 intron_variant
G/C 9034796 intron_variant
C/T 9034850 intron_variant
A/T 9035073 upstream_gene_variant
A/G 9035084 upstream_gene_variant
G/A 9035229 synonymous_variant p.Leu261Leu
A/G 9035555 upstream_gene_variant
C/T 9035720 splice_region_variant&intron_variant
T/A 9035879 upstream_gene_variant
C/T 9035932 synonymous_variant p.Tyr310Tyr
A/T 9036056 missense_variant p.Asn352Tyr
G/C 9036074 splice_region_variant&intron_variant
G/T 9036078 splice_region_variant&intron_variant
T/C 9036118 upstream_gene_variant
G/T 9036151 splice_region_variant&intron_variant
A/T 9036202 synonymous_variant p.Thr371Thr

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_12013.1
MGSIEIPTANGNGKSPPFDGAETALESNTSKRRRSSVLPLEVGTRVMCRWRDNKYHPVKVIERRKVHNADYEYYVHYTEFNRRLDEWVRLEQLDLDSVEAVVDEKVEEKGATGLKMTRHQKRKIDETHVEGHEELDAASLREHEEFTKVKNIATIELGRYEIETWYFSPFPPEYNDCLKLFFCEFCLNFMKRKEQLQRHMRKCDLKHPPGDEIYRSGTLSMFEVDGKKNKVYGQNLCYLAKLFLDHKTLYYDVDLFLFYVLCECDDRGCHMVGYFSKEKHSEESYNLACILTLPPYQRKGYGKFLIAFSYELSKKESKVGTPERPLSDLGLLSYRGYWTRVLLDILKKHKGNISIKELSDMTAIKAEDILTTLQSLELIQYRKGQHVICADPKVLDRHLKAAGRGGLEVDVSKLIWTPYKEQS*


CDS Sequence:
>Vu_12013.1
ATGGGTTCGATCGAAATCCCAACCGCCAACGGCAACGGAAAATCGCCGCCCTTCGACGGCGCAGAGACGGCGTTGGAGTCCAACACGTCGAAGCGGCGGAGATCGTCGGTGCTCCCTCTGGAGGTCGGCACGCGCGTCATGTGCCGGTGGAGGGACAACAAGTACCATCCCGTGAAGGTCATCGAACGGCGGAAGGTTCACAACGCCGATTATGAGTATTACGTCCATTACACCGAGTTCAATAGAAGGCTTGATGAGTGGGTTAGGCTTGAACAGCTCGATCTTGATTCAGTGGAGGCTGTTGTGGATGAGAAAGTGGAGGAGAAGGGTGCGACGGGCTTGAAGATGACGCGCCATCAAAAGAGGAAGATTGATGAGACTCATGTAGAGGGACATGAGGAGCTTGATGCTGCCAGTTTGCGAGAACATGAGGAATTTACAAAAGTGAAAAATATAGCTACTATTGAGCTTGGAAGATATGAGATTGAGACATGGTACTTCTCCCCCTTCCCTCCAGAATACAATGACTGTTTGAAGCTGTTCTTTTGTGAGTTTTGCCTCAATTTCATGAAGCGCAAAGAACAGCTTCAGAGGCATATGAGGAAATGCGATCTGAAGCATCCCCCTGGTGATGAGATTTACAGAAGTGGTACACTGTCAATGTTTGAGGTTGATGGAAAGAAGAACAAGGTTTATGGGCAGAATCTTTGTTATTTGGCCAAGTTATTTCTTGATCACAAGACACTCTATTATGACGTAGATCTGTTTCTGTTTTATGTTTTGTGTGAATGTGATGATCGAGGTTGTCACATGGTTGGCTATTTCTCCAAGGAAAAACATTCCGAGGAATCTTACAATTTGGCATGTATCCTCACCCTTCCACCTTACCAAAGGAAAGGCTATGGCAAATTTCTAATTGCTTTCTCATACGAACTGTCGAAGAAGGAGAGCAAAGTTGGGACACCTGAAAGACCCCTTTCAGATCTTGGACTGCTAAGCTACAGAGGATATTGGACCAGGGTTCTCTTGGACATTCTGAAGAAGCACAAGGGGAACATTTCTATCAAGGAACTGAGTGATATGACTGCCATTAAAGCTGAAGATATATTAACAACCCTACAGAGTCTAGAGTTGATTCAATACAGGAAAGGTCAACATGTGATCTGTGCTGATCCCAAAGTGTTGGATCGCCATCTTAAAGCTGCTGGAAGGGGCGGCCTGGAGGTTGATGTTAGCAAATTGATCTGGACTCCTTATAAAGAACAGAGTTGA


Promoter Sequence:
>Vu_12013::LG3:9028392-9030392(+)
ATCTCAATTAGGTTCTCGTATTTTTTTTATCCCAATTAGGTTACTTTTTCTGTAAAATTGAGTCAATTTTGACCTTGCCATTAAATTTAGTGGACAACGTTAAAATTTGTGTTTAGTGGCATGTTGACTGTGTAATTTTTAATGACGTGTCACAAAATCGTCTTTTTACCTGTAATTTACAAATGAAAAAGCAAACGAGAAAGGCAGCTTCTCATCCCCTTCCTTGATCCTCCATGGCCACCTTCATGGATCTCACACTTGTGTTGTTGACATCTCCATGGCCACCTTTCCATGCTCTTGATTCTTCTTCAAATTCTTCTTTGTATACCTGATTGCCTGTTATAAATAAAAAATATGAAATTTTCTTAAATCCCTAATTTGAGAGAATCCCTAATTAAAAAGGTGCCTGAATGTTGATGGAGGTGGTGGCAGTAATGGTGATGGATGGGGGCTGCCATTGACGCCCTGAATGTTAATAGGTCTACTCACCTGAAAATGTTGCTGGAAATGTGTTATCTTGAAACAACCATTTTAGCCAGAAGTGCCACAGTGAAAATAGTGAGGGCATACCAAGAGCTTGGGGGCTAGGTAGAAGATGCGGCAGATCTAGGAGGTGGAGAAACCGTGGGTTCAGACTTAGTCTAAGGCGGTGGCGGAGAATGGTGGAGCAGTGTTCCATTCCACCCCTATTCCTGGACAGGTTCATTTTCTCATCCTCCACACCTTTCTCTTCGTTTCTTCTCACCCTGGGACCATTCCACCCCTTCCCACCCCTTCCTATTAGGATTCTTCATTTTCCTTTCACTGTCATTGTTTCAATTTTGTAAATTTCATATCTTTTCTATTGACACTGGAATCATATATTCTGTTTCGTTTAACCTTTTTCATGTTTCATCTCTGTTAATTTTCCATTATCTATAGGCTTCTGTGTAGCTGAACAAAATATCTACAGTTACTATGATTGATAAAATAATTTCATCTCTGCTAACTTGAATGGAACACCTGCTTTCACCACCGTCTACAAACTGGAACCAACACCAGAATAATTCACTCTAAAAACTGTTAAAAAAATTATCATTTATTTTTTATTTAGCTCATTTTTTGGTATGTTAGAGGATTCTCTCCTGAACTTTTTTCGTTTTCCAAATGAAGTGTTTGAAAGAGTGAAACTAAGGATACGTAAATCATCATCGTCCTCGATGTTGGGAAGGTCAATGATGTGGTTTCATGGTTGAGAAGGGTTGCCGGTGGAGTCATGACCGATAGTGGCAGTGACGATGGCGAGGTTTGAGGATTGAACATTTTGGAGATTTGAGTGAGTCTAGAGGAGTATGAAGTTCCACTACCACTTGCTTAACCATTGCCTAGTCAGCATGCCATCAGACACAAATTTTAACACCGTCCACTAAATTTAACGGCAAAGTCAAAATTGACTCAATTTTACAAAAAAAAGAACTTAATTGGACTTACAAAAATACGATGACCTAATTGAAATAATTCTACACAAATAGAAACATCCGAGATGATTAAACCAAAGTTAAACTTAAGATTAATTTTTTATTTGTTATGAAAATTAATATAGAAGTGTTTGAAAATGGAGCAAAAGTTCCTTTCAATTCCATTTCTCCAAACGTATTTTGAAAATTATATTTAAAAACCAATTGGAAAAGACATTTACAAAAGTTATTTTCCTTATGAGAATGAAAAGGAAAAATTTTAATTAAAAATAAAATTGGAACCACAGGAAGAAGAAGCATGCAATACAAAGTTGAAAAGCATAGGACACCGAAATATATTTTTTAAATTACTTTTTTTTTTCTTTTTTATGTTTCTAATACTTGTTAAATTTATATTTACTCTTTTTGAATAAGATATATTGTGACATATTTTAGGATATTTTAATGATCACAAATAAAAATAATATAAGATTTGTAATAGTTATTTATTTTAATTTAAATTATATTAGCATTATTTATGAGACAGCAAAAAACAACTCTATA


Gene Sequence:
>Vu_12013(+)
ATTCCTGCAGTTTTTTCAGTCATCTTTCAGCACCTCTTCCTGCGGTTTTCAGCTCATCTTTCTCTCCCATGGGTTCGATCGAAATCCCAACCGCCAACGGCAACGGAAAATCGCCGCCCTTCGACGGCGCAGAGACGGCGTTGGAGTCCAACACGTCGAAGCGGCGGAGATCGTCGGTGCTCCCTCTGGAGGTCGGCACGCGCGTCATGTGCCGGTGGAGGGACAACAAGTACCATCCCGTGAAGGTCATCGAACGGCGGAAGGTTCACAACGCCGATTATGAGTATTACGTCCATTACACCGAGTGTAAGACCTCTAGTCCTTCGTTCTGTTTCTCGATTTCAATGAATAGAGTGAAAGGTTAGGGTTTCGGTTTCTAGGATTGGTTGGTTGGTTGGGATGTGTGTTGATTTTGGGTTTGTTTGGTTGTAATTTGAATTGGTTTCGAATGGGCTTTTGTTTGGGGTTAACGGGGAGTATTGTGTCGGTGGCTTTGAGTGTAATTGTGTCTTATTCGAATAAGGTTCACTGGGAAATTGGTGGGAATACCTGTGAAGCGTTGCCAGAACTTCGATTGTTGTGAATTATTTGTTATGAATTTGTTAGTGTCGGGAGTGAGGATTATTTTTTATTTTAGGTTTTGTTTTACGGAACGAGAAGTTGCATGTTGAAGAGAAAGGAATAATCTGTGTTTGTGTGGTACTTTTTTCCCAATTAGGGCTGGGCAGGGAAGCCATCGTTGGAGGAAAAAATGAAAGTTAAACAAAGTAGAATAGAGAGGAGAAAAGTAGAATACTTCCGTTACTGAAGAAGCTGAATATTAGTTACAAATATTCTATTTATAGAGTAATTGGGTGCACACTAACCAACAAACTCTTGAATTAATTACAACAGTCATAACTGGTTTTCTGAATACCAAGAAGTGTAATAAAATTAGGGTTTTAATGGCTCTTTTACAGCAGCACAGTGTTGTGGAGCGGCCCCACCTACTATAGGGGTTCTCGTAGTGGAGAGGTTTAATGTAGTTGCTGTAGTACACTAAATAGCGGCTGAATAGTGATAGAAGGGGGCACTGTGTGTTGATTCCTAAAGCATGCCATGAACAGAGAGGCATTAGGACATTTTGGTTCATAATGTTGGGATCTCAGTTATACAAATGAAATCTACAACTGTAATAGTGGAGAAAATGGTAAAGGAGAAAGCTTGAATTTAGAAGATGATAGTTGGTAATTGAGGGTCCCTTTCTAAGAAACTTGGATTTCACTTTGGTTGGTATTTACTTGTATGTTTTGTTTAGGAAACCTTTAACATTTTATTGTTAATTATGAATGTCATTAATTTTGGTAGATTTTTATCATTCTTTAGAATCGAAGCTATCTGCGATATACAAATTTCAAAATAGTGCCTATCCTAATATAGTGCTTTTGGGGTTGGCTGCTACATGTCGTGAACTGGGATTTAAAACACTGCCTGGCAGGGATGATGATAATATGCTCACTGCTTAGCCTTATTGTAATTCTTTTACCTTGTTCTCTTTGGCAGTCAATAGAAGGCTTGATGAGTGGGTTAGGCTTGAACAGCTCGATCTTGATTCAGTGGAGGCTGTTGTGGATGAGAAAGTGGAGGAGAAGGTAATGAATATATACTCCAAATTGTACATTGCCGCATTTGTTTTGACCTCATCAATTTAATTTTTGAAGATTATGGGAATTTCCCAAGGAAAAAGTGATAATGTAGTCCAGACATGTCTTTGTTGCTTTACAAACACAACTTTATCTTTTCCACTAGATGGGACTGATTACATGGAACAAATGATGCCATTGAGTTATGGTTAAAGCCCTGGTTTTATAATATTTAAAGCAGACATATTTTCTTTTTAATGGTGTCTCCTTTCAGTGGGACCTTTTGTAGTCAGTTGTACTGGCCTTTCTTCAATTTAATATCTTGAATGGTGTTTACTTTCTTGGTTATGTTATGTCTGCCACTTTTTCAAAATTTGGTTTCTCTTTGTGACTGGACTCATTTAGAAAATTGCAATTATGGGTTTTTAGGGTGCGACGGGCTTGAAGATGACGCGCCATCAAAAGAGGAAGATTGATGAGACTCATGTAGAGGTAGAGTTATTACTTTTTCAGTTACAGTTTCAAAGTATGCTGTTGGACACAAATACACACCACAGAACGTATGCTATACTTTTACTTCTCTTATGCATATGCTTCAACAGTGTGTAGGTGCTATATTGGCATAAAATAAATTGAATGCTATAAACTGTTAATTTTGCACTTGCACAACTTTTTGTCTGTACCGTTCTATTTGAATATCTTATCAATATTGGAGTATAATTCAAATTGATGCCTAACAATGTGTTTGAATTGACTGTCAAAAAATAGAGTGTGTATATAATTTATTATTGTTATTGATTATATAAAAGAAGTTTTTTTAGGATGGTGAGGTGAACAATAATTTTAAAATCTATTTTGTTCGACTCAAGTTTAGGAATAAACTATATATACTTTTTATGAGATACATAAGATTTTTATATACAGGAACTCAATGACAATCTTAGAAAATATGGGAAGCTTATTCTTGGGGACTGTTGAAATAATTTATTATTATTATTTCTTTTGTATGTATCCAACTTTAGGGTTAGGGGCAAAGGTAAGCGCCTTGTCTCTTTTTGTAATCTATATATACATCAATCAATTAGGAGCACAAGTTGAATACACGGTGTTTTCTCCATCTTATCTATTCAAGTGGAACAAACTTAGAGATTGATTATCATTTTGTCAAGAAGAAGCTGTTGTTCGAGGAACTTTGTACTGGATTTATTAGCTCTAATGAACACCTTGTAAACATTCTCACTAAGTCCTTGAGAGGTCTAGAAATCAGTTTATGTGTTCCAAGCTTGGTGCATAAAGTTCAAATGCTCTAACTTAAGGGGATGTTAAAATTATGATTGTTATTGTATTGTGCAATTTTCATAAAGCTAAATTTCTTGTGCATAAAGTTATTATAGTTTTTGTCATGAAAAGAGCCGTTCTTCAAAAAAATTTAGTGCTCCCAATTGCTAACACACTAAGACGACTTATGCATAGTGCTTCCAAAACACTAACAATGTTTGCGTGAGTATCTTTAATGGTAAGATTGAAGTTGTCTGAAGCATGTAATTGTGATTATGATATTGTTTTGTTGGAGCTGGATAGTAATCATTGATTTCTTGAGCATGAAAGTTGAAACCAATATATTCTACTGGTGGTCCGATTATTCCTGCTTCAACTCTCATATTTGTTCATTGTATTTTAAATTTGTATATGTATTATTAAATTATAGGGACATGAGGAGCTTGATGCTGCCAGTTTGCGAGAACATGAGGAATTTACAAAAGTGAAAAATATAGCTACTATTGAGCTTGGAAGATATGAGATTGAGACATGGTACTTCTCCCCCTTCCCTCCAGAATACAATGACTGTTTGAAGCTGTTCTTTTGTGAGTTTTGCCTCAATTTCATGAAGCGCAAAGAACAGCTTCAGAGGCATATGGTGAGCTGTGACTGAAAAAGTCCTTTCACTTTATATTTCTTTGTTTTGTGTTTTCCATCTTTTTATTTTTTTGAGAGAAGAATAAATACTAGCTGATAGCTTTCTATAAACAATCTAAGGCACTGAAACTATGGGGAAAGTTTGTTCTTCAAAAATATTCCTATTACCAACTTTACTACGATGGTCCTCCTTATTGCAGTAATTGTACAAAAGCAGCTTAGTTTGTAGTGATCATAATATGCTTATTCTTCATTGAAGTTCTATGTCTTGTAGGTTTCTACGGGATTCCAAACAATATGTGGTTTTGTATTGTTTGCCATTTGAAATTTACTTATACTCAGGATTTCAGTTTTAATCATTTAGTCGTCTTTAAAATTTATTTCTTCTTTCCACTTATTTGAAATTGAACTTTTTTTATTGAAATGAATGTTTTTAGTTTCTTTACCGCTTGAAAATTGATGAAAGAAAATAGTCTATGAAAATCATCTGCTACCATTTATTCTTCGGTCTCCCTTGGGCCCCACAAACTAGAGGAAAGAGGCCAGTTTTATATACCCAATGCAGATCACTTAAGCACCATTTTCAGTGCTAACGTTGGCTTCCTGTTCATGCAGAGGAAATGCGATCTGAAGCATCCCCCTGGTGATGAGATTTACAGAAGTGGTACACTGTCAATGTTTGAGGTACATTTTTGACACTGTTCTCAATATCACAAATTCCTCCTTTATTCTCATCAGTACCCATTCCATTATCTTCAATTTTTTTAGTTCAAAATAAGTTTTTTCTTTTTGCCTCTTATCTTTAAAGCTTTTGACAATGAATATTCACAATTTGTTTATAAAAATTCTTTATCCTCCTTTGATTGTGGTAGAGTTCGTTTTTTAAAGACATTGATGGTTGCCCAAGTTTCTGCGGCTCCCTAACTTGATGAGCACCAGCTCTCCAATAATTTTTTTAAAAGAAATTAGGTGATTTTGTTTTGAAATAGTTAAATGATATGTAGTGCACGTTAAAAAATCTCAAATATTGGAAATTATTTCGATTTAGAAAATGGCAGTTGTTTTGTTGTGCTGGCAGTTACAAGTTGCAATAGTTCTCGGCACATTTTTTATTATTAGTCCTTGATTATTATGGAAGTTTGAATTTATTATTATTATTTTTAGTCATTATATTTCTGGAAACAGGTTGATGGAAAGAAGAACAAGGTTTATGGGCAGAATCTTTGTTATTTGGCCAAGTTATTTCTTGATCACAAGACACTCTATTATGACGTAGATCTGTTTCTGTTTTATGTTTTGTGTGAATGTGATGATCGAGGTTGTCACATGGTTGGCTATTTCTCCAAGGTAAAATATTACAATGCTGTAATTATTTTGCTTTGAATAATTGCAAAGAGAATAATGTTTGCTTTTAGTCAGTGTTTTTAAAAGTTGTGGTCGGACTAGTGTTTATATTTATACATGTACTTAAGTTTTTCAAATTTGCTTCCGGTGCAGTGATTCATTCTTGTCATTTTCTTCATGTCTCGAGTTCAATCTTGTTCATGTTAAACCTTTTACTTGGTTTTTTGAAGTTCGTTTAAAGTTCCTGCAATACAGCAGTAGTCTCTTTGAAACTGACATAAGTTTTCATTGCCGATTTACTGAGTTGTGCATTATGAGGAAAGAACTTGGTTCTAATTTAAATATATTTAGTCTTCAAACTTTTCATTTGTTAGCCATACACATTAGTTTATTATTTTTCTGCACGTTGTGGTTAATCTTGTTGATTTTGTTTACTTTTTTCTTGCGAAGGAAAAACATTCCGAGGAATCTTACAATTTGGCATGTATCCTCACCCTTCCACCTTACCAAAGGAAAGGCTATGGCAAATTTCTAATTGCTTTCTGTAAGCTCTCTTTTTCTGTAAAATGGGCCTTTTGTTATTTAGCAGTGGCTAGAGTATATGTGATGAAGTGTGACTGAAACTGGTTGTTGAAATTTGAATGATTGAAAAGCATACGAACTGTCGAAGAAGGAGAGCAAAGTTGGGACACCTGAAAGACCCCTTTCAGATCTTGGACTGCTAAGCTACAGAGGATATTGGACCAGGGTTCTCTTGGACATTCTGAAGAAGCACAAGGGGAACATTTCTATCAAGGTAGCTTGATGTGAATGTTTGGAGGGCAATGAGAGTGGTGTGGTTTTTATTGAATGAATGAATGACTTATGATTTGGTTTGGAACAGGAACTGAGTGATATGACTGCCATTAAAGCTGAAGATATATTAACAACCCTACAGAGTCTAGAGTTGATTCAATACAGGAAAGGTCAACATGTGATCTGTGCTGATCCCAAAGTGTTGGATCGCCATCTTAAAGCTGCTGGAAGGGGCGGCCTGGAGGTTGATGTTAGCAAATTGATCTGGACTCCTTATAAAGAACAGAGTTGATCCCTCAAAAACAAATATCATATAGTAACTTGTACCTTTGTTTATAGTGAGAATGAGGATAGGAACATTACTGTATAGTGCTGAACCCTAGTTGTAGCTGTAGATGTAACTGTAGCGTAGGTACCTGCATGTATTGCTCTGTTATCTTTCCTCCTATCTTGTAATGATGAATGGCAGAAGCAAAATTTTATTTTATTTTAATGAGATTGGTGATTGCATG