Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_28889 LG8 15618207 15625041 transcription factor bHLH48 isoform X2
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, regulation of transcription, DNA-templated, 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, DNA-binding transcription factor activity, DNA-binding transcription factor activity, protein dimerization activity, DNA binding, protein binding, protein binding
SNP Position Effect Amino acid change
A/T 15618415 upstream_gene_variant
T/C 15618679 upstream_gene_variant
T/G 15618708 upstream_gene_variant
G/A 15618758 upstream_gene_variant
G/T 15618955 upstream_gene_variant
C/A 15618961 upstream_gene_variant
A/T 15619029 upstream_gene_variant
C/T 15619057 upstream_gene_variant
T/A 15619086 upstream_gene_variant
G/A 15619134 upstream_gene_variant
G/A 15619140 upstream_gene_variant
A/G 15619196 upstream_gene_variant
C/A 15619207 upstream_gene_variant
A/T 15619227 upstream_gene_variant
G/A 15619229 upstream_gene_variant
A/T 15619233 upstream_gene_variant
G/T 15619362 upstream_gene_variant
A/T 15619474 upstream_gene_variant
T/A 15619487 upstream_gene_variant
A/G 15619645 upstream_gene_variant
C/A 15619681 upstream_gene_variant
A/G 15619773 upstream_gene_variant
A/G 15619938 upstream_gene_variant
G/A 15619944 upstream_gene_variant
T/A 15619970 upstream_gene_variant
A/G 15620130 upstream_gene_variant
G/T 15620190 upstream_gene_variant
C/A 15620395 missense_variant p.Ala274Ser
G/T 15620407 missense_variant p.Pro270Thr
C/A 15620434 stop_gained&splice_region_variant p.Gly261*
T/A 15620478 intron_variant
A/T 15620479 intron_variant
T/A 15620553 intron_variant
A/T 15620594 intron_variant
G/T 15620698 intron_variant
C/T 15620707 intron_variant
T/A 15620758 intron_variant
C/G 15620765 intron_variant
C/T 15620845 intron_variant
C/T 15621033 intron_variant
T/A 15621352 intron_variant
G/A 15621601 intron_variant
G/T 15621607 intron_variant
G/T 15621680 intron_variant
A/G 15621726 intron_variant
T/A 15621926 missense_variant p.Glu234Val
C/A 15622087 intron_variant
A/T 15622116 intron_variant
T/C 15622236 intron_variant
G/C 15622394 intron_variant
A/T 15622419 intron_variant
T/C 15622420 intron_variant
C/G 15622480 intron_variant
T/A 15622541 intron_variant
G/C 15623066 intron_variant
C/T 15623100 intron_variant
G/C 15623212 intron_variant
A/C 15623300 intron_variant
G/C 15623476 intron_variant
T/G 15623508 intron_variant
C/G 15623542 intron_variant
T/A 15623589 intron_variant
T/C 15623627 intron_variant
G/C 15623760 intron_variant
C/G 15623926 intron_variant
G/A 15624110 intron_variant
G/T 15624230 intron_variant
A/T 15624239 intron_variant
T/A,* 15624252 intron_variant
T/A 15624254 intron_variant
G/T 15624518 splice_region_variant&intron_variant
G/A 15624667 synonymous_variant p.Ser125Ser
G/A 15624673 synonymous_variant p.Gly123Gly
G/A 15624676 synonymous_variant p.Gly122Gly
C/T 15624709 synonymous_variant p.Pro111Pro
C/T 15624802 synonymous_variant p.Leu80Leu
A/G 15624931 synonymous_variant p.Val37Val
G/T 15624934 synonymous_variant p.Ala36Ala
C/T 15624946 synonymous_variant p.Pro32Pro
G/C 15624961 synonymous_variant p.Ala27Ala
G/C 15625015 missense_variant p.Asp9Glu

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_28889.1
MLEAIQFNDEIQGIIAPAPETASSFTALLELPPTQAVELLHSPERAGKPPRHNPKPYPLTSFASASASSANLTFPSNAALIERAARLSVFAGENSNSNSNSNSTEIKRELPETDSNPSSTQGGGSASDPALENKDEKGLKRKEREKKVKASSKKSKSVVPDDSSCDGQKLPYVHVRVRRGQATDSHSLAERARREKINARMKLLQELVPGCNKISGTALVLDKIINHVQSLQHEVEILSMKLAAVNPVIDFNLDSLLATEGVSPMDCNFPPTVAPVVWPEIPQNANRQQYQQPWQFDAFHHQPIWGREEDNTNFMTPENSLLSYDSSANSEKKSINFVLDNDFLTITSAQMSWETIQGTIKNSISWYEALIEDSSGSISAFKSVEDGTLKGYRGGGTSSN*


CDS Sequence:
>Vu_28889.1
ATGCTTGAAGCCATTCAGTTCAACGACGAAATCCAAGGCATCATAGCTCCGGCGCCGGAAACCGCCAGTTCCTTCACTGCCCTGCTCGAACTCCCGCCGACGCAGGCCGTTGAGCTCCTCCATTCGCCGGAGCGAGCCGGGAAACCACCGCGCCATAATCCAAAACCCTATCCGTTGACGTCATTTGCCTCCGCCTCCGCTTCGTCTGCCAACCTGACCTTCCCGTCAAACGCCGCCCTGATTGAACGCGCCGCCAGGCTCTCCGTCTTCGCCGGAGAGAATTCTAACTCGAACTCCAACTCGAACTCGACGGAGATAAAGCGAGAGCTGCCGGAGACCGATTCCAACCCGAGTTCAACTCAGGGCGGCGGCTCCGCCTCCGATCCCGCCCTGGAGAACAAGGACGAGAAGGGCCTGAAGAGGAAGGAGCGAGAGAAGAAGGTGAAGGCATCTTCGAAGAAGAGCAAGAGTGTCGTCCCAGACGATAGTTCCTGCGACGGCCAGAAACTTCCGTACGTTCACGTCCGAGTTCGTCGAGGTCAAGCCACTGATAGCCATAGCTTAGCAGAAAGGGCTAGGAGAGAGAAGATAAATGCTCGGATGAAGCTTTTGCAAGAGCTGGTCCCGGGTTGCAATAAGATATCAGGCACAGCATTGGTTCTGGATAAAATCATCAACCATGTGCAATCTCTACAACATGAAGTGGAGATATTATCGATGAAACTGGCAGCAGTGAACCCAGTAATTGATTTCAACCTTGACAGCTTATTGGCTACCGAAGGAGTCTCTCCAATGGACTGTAACTTCCCTCCCACAGTTGCACCCGTCGTCTGGCCAGAAATCCCGCAGAATGCAAACAGACAACAATATCAGCAACCGTGGCAATTCGATGCATTCCACCACCAGCCCATTTGGGGCAGGGAAGAAGACAACACTAATTTTATGACTCCAGAAAACTCACTCTTGAGTTATGACTCATCGGCTAATTCAGAAAAAAAATCTATAAATTTTGTTTTGGACAATGATTTTCTCACTATTACCTCCGCGCAAATGAGTTGGGAAACCATACAAGGGACAATTAAGAACTCTATTTCATGGTACGAGGCCTTGATTGAGGACTCTAGTGGCAGTATCTCTGCATTCAAATCAGTTGAAGATGGAACTCTGAAGGGGTACAGAGGTGGTGGCACCAGTAGCAATTAG


Promoter Sequence:
>Vu_28889::LG8:15625041-15627041(-)
GATCGTGTTGTATTAACCATATAGGCAGACATAATTTTTTGTATTATCAAACTAAATAATTATCTTTTAAATTAGAAAAACTAATTACATTGTTTATTAGTTATAAATATATTAAAATCTATGGTTTACATGATTGAATTGCATAATGAAGTTTGATGTGTTGAATTGTTTGTTTTGGATGTTTATCTTATGATTTGATTTGGTTGAATTTATGTTGATTTGATTTGAAGTTTGATATGTTTTTATTATTTACATTATAAAGTTTATTGTAGTTGAGTTTTATTTAATAAAAAAAGTAAGTATTTAAAATTATTATATTATTAATTTATATCTTTTTAAAAAAACAAGTAATTAATTTAAATCAAATTCAATAATATTATTATAATGGATTTAAAAATAATTTTAGAGGTATTTAATAAAAACTAAATTTTCATATACATATTAGTATAATATTTATAAATAATAAATTTGATTCTAATTAGAAAAAATGGAGAGTTGATATATGAGACTTAAGACTCCATTCAATAAAACACACACAATACAAAGTCTTTAAATAAAGTATTTTTGTTTCTATTATATTATTTATATATTTGCATTGTCCTTTTCAATTTTATTTTAAGAAAATAGATCCTTAATTTAGTTCAAGCTGATCGGGTTGGAAAGTGGAGTGAGACACTTGTCACCCTATATAATGTGATAGAGGAGAAAAGAGATTAAAGTGCAGTTCTGGGAACCCTATTCTCCGTTTCCGTTGCATTATCATCGTACAAAAATACCCGTATAGTTGAAATTGTGACCTCTCCATAGCGAAGCCAGGTTGCTTTCATAACACTTGAAATGGCGCTGAAGCAATCTCTCAGGCACAATCACAGTAACATACACAATACCTGAGAGAGAAATATGTAAAATTATTCACTATTATTTTATTTACATCAAAATTCTTTATTTTAATTTTAAATAATTTTATGAAATAATATAAATATATTATTATTATTATAAACATAAGAAAATTCTTATTCAATTCTATAAAATAAAATATTTATATTAAATTTTAATTATATCTCACAAATTTAAATTTACATAATAAATATATTTTATTTGTTAAAACTTCCGTATACAAAAATGTTATAATTTTATTTTTGCATTGTAATTATAGAAAATAAAACAATAGTCATAAAATATTTATTCTAATAAAATAGTTTTTTTTATGAAAACGCTAACTCATACAACTAAAATTATGATATATAAACAAATGTTTGAAAATTATTAAACACAAAACAGACACATCTTGATAATATGTTTATTTATTTACTGTATGTTCCTTTCTAAAACATAAATCTTTATTGAATGAAATGCACATTTTAAAATATTTCAAATTATCATTAGTAAATATTCAAAAATTCAATTATTTATTATAAATAAATATTAAAATATTTATTACAAAAAATATACAATGTTTTTTTCACACAAAATCATTATTTGTTTAACCTATTATAAATTTAACAGGTTATATTATATCAAACCATTCTAAAAGATTTAATAAATTTTATAAAAAATATTTTAATTATGAATATTTAAGATAATTAGACAAATATATTTCCGTATTCTACGTTTCTATTACAACCGTACAAAAATACCGGAATAGTTGAGATTATAAACTCTGGATCGCGTAGCAAGGTTGCTTTCGTAATACTTGAAATGGCGCAGAAGCAATCTCCCAGACACAATCACGGTAACACACACAAGAACTGAGAGAGAGAAGAGAGAAGAAAAAAAAAAGCATTGACCGCCATTAAAAACCACTTCCCTTTATATATCACTCCCCAACACATTCCCTTCATTATCTTTCCATTTTCTCTTATCTTTCTCTTTCTGCTTTTTTCTTTCTCTTCTTCACTGTCCAGAAAACTCTTCAGAACTTCAAAATCAAGAAGCCCGTTTCCATTTCCCTGCACTTCCTGTCCGGTTCGGTCCGGTTCAATTGGATCATGGAACAAACC


Gene Sequence:
>Vu_28889(-)
ATGCTTGAAGCCATTCAGTTCAACGACGAAATCCAAGGCATCATAGCTCCGGCGCCGGAAACCGCCAGTTCCTTCACTGCCCTGCTCGAACTCCCGCCGACGCAGGCCGTTGAGCTCCTCCATTCGCCGGAGCGAGCCGGGAAACCACCGCGCCATAATCCAAAACCCTATCCGTTGACGTCATTTGCCTCCGCCTCCGCTTCGTCTGCCAACCTGACCTTCCCGTCAAACGCCGCCCTGATTGAACGCGCCGCCAGGCTCTCCGTCTTCGCCGGAGAGAATTCTAACTCGAACTCCAACTCGAACTCGACGGAGATAAAGCGAGAGCTGCCGGAGACCGATTCCAACCCGAGTTCAACTCAGGGCGGCGGCTCCGCCTCCGATCCCGCCCTGGAGAACAAGGACGAGAAGGGCCTGAAGAGGAAGGAGCGAGAGAAGAAGGTATACTCACAAATTTCAATCGCAACCGGAGTTAGGGTTTCGGTTTTCGGTAATTTTTGCGAAATTCAATGATTCTGTGAAACGCAGGTGAAGGCATCTTCGAAGAAGAGCAAGAGTGTCGTCCCAGACGATAGTTCCTGCGACGGCCAGAAACTTCCGTACGTTCACGTCCGAGTTCGTCGAGGTCAAGCCACTGATAGCCATAGCTTAGCAGAAAGGGTAACCTATTTAATTAACCACTGATTAATTATTTTAATCACAGTTATTTATAAGAGAGAAAGTGGAGTTGAATAATATTATTATGTCAAAAAAGTTAAGTTGAATATATATATATATATATATATATATATTTTTTTTTTTTTAAATAGTACTTACATTTTTTTTTGTTTAACCGTGTTGTAGGCTAGGAGAGAGAAGATAAATGCTCGGATGAAGCTTTTGCAAGAGCTGGTCCCGGGTTGCAATAAGGTTGGTCCTTTTTCTTCCTTTTCAGGGTTTAGTTTATGGCTTAATTACAGAGTTCATTAACCGCGATTTGTTCATTTTTCATGATTATGCCATGATTATCTGTCTGATTTGTCTCCTAAAAGTGCAATTATGTCCGGGGATTATGGGGTTTTGGAAACTGGCTTGTGTCATTGTCACCTTTTCACCTAAAAAAAGTGTATGCTTTTGTATCAAGAAAAGTGCTCACTCCCACTGGGTGTGTCAACACGGCATTTTCGTAACCTTCTCTCTCTGGTGTTGCTTTTTGAATTGGTTTGTAACGTACTGAACAAGATTGTTTCAAGGTTAACTCCGTCATTCCAGTACAAAAAAAAATGCTTTTGTTATTCCAATCTTGTTCCTCTGTTTAAGAATTATTTGGATAATTTTTTTAGTAAGTATTTATTAGGGAATAATATACACTAGTTAAATGAAGATGGGTTATTTTATTATAACTGTTTTTATAGCAAGGTTTTTTTATAATTTGAAATTAGTTTATGCAAAATTTTAAATCAACTTTGTTAAATAAAAAAAGAGATCCTATTAATTGGCTCTCTATATAAAGTACAGAAGATTTTTTTTTTTGTATTGTGTATGCTTATGAAAAATGTTAATAACAAAATTTAATATTTTTTAACCCATTATCTTTTCTAAATTTTGTTGAGAATTATTAATAATTGCATATTTTAGTGGGACTTATATTTTACGTGAATGAGTTAATCTTGATTTTTTGTTGTTTCTTTTAATAAACTTTAATAATAGTAAATGATGTTCTAGAAAAATTGTATTAGACTGCGTTGTTAAGCCTTGTAAGTGCATATTTAGATGTGTTTGGTTTCCCATTGAACTCCCAAATTATTGTTTTGGCAAGCAGTAGTTTAGATTATCTACTGAAATTTCTGCGAGGAGTTTGAGGTAGGTTCAAGCCCTTTCTCCATCCTTAATCGTTTTTGTTCGTTTTTGACTCCGGATTTTGGACTTCAATGTGAAATAATGAACTGTACAAAAAGCGACGTCAAGAAAAGAATGTTACATAAAAGTAATATAGCGATTCTTCGTTTTATTTAGCCATAAATTAGTCGTTGTTTTTTTGAAAAGGACAAACAAAAATATGCGTCACGGTTTGTTCAGGACAATTAAGGAAATCCTCCCTCGTCCCTTTCTCCAGCCAGAAGGCTTAGTGAAGAGACAGAAGGGTGGGCGTGTGGGGCGAAAATGGGGGGCATATTTTAGCTGGACTCTGCTCTTAACGATTTGAAGACACATAGGTGGGTGTATTGAAACTAGTGTGCATGGGTCCCCTCGGCCATTGAAATATTAATCCTTAAGACGGTGACGGTTCCATCTTCTCTAGGAGTTTGGTATCCATCAATCATTTATGGGATGGCGGAAATAGGGTGAAAAAAGAAAGCATTCCTTTTGCAGTGCATCTACCAAACGGATAAACCTAACTGGCTTTGAACACTGTACATGATCAAAATTATGGCCGCCTAACCTTAATCTAGATACACACCTCAAGATTTATCTCCTACAGTTTTCAATTGAACTCGTCTGTTTTGAGCTAGGTACAAGAAAAATTTATCCTTGATTGATTTGGAAAAAATATTTTTGTTTTTTTTCTGAAATCATGATTAGAAAAGTATAACCTTATAAATACGTTGTTTCCTCTTATAAAAAACTTGTACAATAACAGTATAAACAACAAAAGTCTTGTTTCAGACAAATCTTTACTTTTATATTTTTAAAATTAAAACAAAATGGTATCTTTGTAATTATTTATGAAGAAATGAAAATCGTAATATATTTTCTCAAACCAGCAAACAAGGTATTAACTTGACCTTTTTCTATTTAATATAAAGTGATATTTTGAATAATTTTACCTGCGGATGTTTCTCAACATGGGAAAAATTTGATCTCACTCCTTTTCACTTAATTAATGATTTACTATACACGATCACGATTTTGTCGATGCTACTGTGGACCTATTTAGGTTTAATCTAGAGGCCTTAATAACCGGCCACTATTGTGAATTTTAAATGCATTTAGATTGTGTTTAATTTTTCTCAAAGCAGTAAATGTAGTAAATCAGATATAGCTGAAGCTGACACAACAATGTTTTCTGTACAGATATCAGGCACAGCATTGGTTCTGGATAAAATCATCAACCATGTGCAATCTCTACAACATGAAGTGGAGGTCAGACTTTCGTATCATTCACATTCTTGGCAGTTTTGACAAACAATGAGAAAAATAAAGTTATTAGAAGTAATCTGATTCTTAATATTACTGTGGATAGTGCGTACAAACATTTAAAAAAAGTGGCTGGTTTTCCTTTCTCCCCTGTCTTTATCTGATACTTCAAAATTGACATGTAGCCCAATAAAAAGCTACCGTGAGTTTCTGGAATATGATGGCAGTCATCATAACAAATAAACCATTGCTTGCCTATAACCATTAAAGCCATCATGATTCTATTATTTTGTACCATATGTCATTATAAGCTTCGACTTTCTCATATGAATGAACATGGAATTGGATTTCATCTTATTACGGAACTGCCGCCTATCTGCCTAATGTGGACTAGAGACTTGAAAATAAATGCTCTTGGAAGTGTGCATTGCTTGGTTTTTGTATATATGCGCAGAAGTTATAAAAATGATAAAATTGTTTTCTTTGAGATGATAATTTATCTAAGTTTGCTTGCAAGTGAACTACAATTATGAAGAATCTTTCTATTGGAATACAGTGCTATAATATGAGTAATTTTCATCAAGATGATGTTGTTCTTATTGATTTTCGTTATCAATCCAGATATTATCGATGAAACTGGCAGCAGTGAACCCAGTAATTGATTTCAACCTTGACAGCTTATTGGCTACCGAAGTAAGTATAATTTTTTAGCTTTTGTCTTTGCTGGGGAGTCATCTGAAGGACATGGGCTATGGCTCCTGATTTACATGATAGATCGTGTTCAAATCTTGTGTCATCTTTTTCCTAATGATTATGAGATAGATCCCACCTATTTATTGTCTGCCAAGGGGGGAGATATCACACGAGAGAATCCACTTCCTGTGTGAATGAGTTTTGTCTGGTTGGATTCTAAAAGATTTGTGGAATAACATTTATCATCCATCACCTTCTGGAGTAGTTTCAGTTATAGTTTTATTGGAAAACGGGCATTTGTGCAGTATTAAGAAGTCTGATGTAATTTTAGACTACTCTTTCAAACACTTACATTTTCACATTGATTAGTGATAGATCAAAGTTTTGCTGCTGCCCTATCAGTTGTGTTTTGCTTTGTTTCTATATTTCCCAAAACACTGGAGTGGTGAACTTGAAAATTGGGACAGTGAAAGAGATGCCTCATAGTCAGTTACTGCCATTCATTCATGCTGTAGGATGTTCTTGCAGACCAACCATAAAACTGTAGACGCTTAACAAGAATTAACAATGTGTACACATAGATGCTAGCATTTGATAGCCTATCTTGTCATAATTAGTATTTCAAATTCTCCTGTTCTGTTGGAATTGCGCGTTTTGATTAGTTCAGTTGGATCTGGTATATGCTCTGGGGTATGTTTCTGTTGGATGAAGCTATAGAGCCAGTTCAGCATTCTCCATTGATATTTAGATTTTATGTTAATTTCCTTCTGCTGATAAATATTGTCGGTAACTTGTAGGGAGTCTCTCCAATGGACTGTAACTTCCCTCCCACAGTTGCACCCGTCGTCTGGCCAGAAATCCCGCAGAATGCAAACAGACAACAATATCAGCAACCGTGGCAATTCGATGCATTCCACCACCAGCCCATTTGGGGCAGGGAAGAAGACAACACTAATTTTATGACTCCAGAAAACTCACTCTTGAGTTATGACTCATCGGCTAATTCAGGTACATCAGACTTAAGCTTCTATCTCACCCTTTCCTCCCAGAAGTCCCATTCAACAAAAAAATGCATTTAATTTCATCATGGCACTCGGCTTCTAAATAAACTAGAACTAGAAATGTACCCGCGCGTTGCGTGAATGTTAACCCTTTTAAAAAATTTCGGTAGACATCTAAACAAAATAATGAGGACAAACTTCACCTAATAGAATACGACTAACTCCATAAAAAATAGGCTCGTCAACAATCTTTTCTAGAAAACCTTGACCAACTTTTATAGAGAAACAGTCTTGGTCTATATCAACCAAACACATTGATAATATTCTCATAAATGTGAAAGAGAAAAATGTAAATTCTTTGATTGTGAGCAGGCCAATTACCCCCTTAAATTTATATAATTCAAATTCTTTGAAAATTTCTTATCTAAATAACATCTTTTACATAGCATTTCAAATTTTTTCCAAAAATAAAATTTTCTAATATTATAAGAATAGACATTCACATATTTGTTTTTGAAAGGATATAACTTAGGACTCATTTTGTCAATGGGTCACAACCTCTTTCACATTTCTTTCTAAACCCATTAAACTAATGATTTTTTAATTTTTTTTTTGAAACAGTTTAACATTTATTATTATGGCAGAAAAAAAATCTATAAATTTTGTTTTGGACAATGATTTTCTCACTATTACCTCCGTAAGCACCACTAGCATCGGTACTGTAACGTCGTCGTTTTACCACTATCATTAGTTTCATCATCACCTACACTCTGTCATTTTAATCATTATTTTGACATATTACCATCGTAGACCGTTGATGTTATTTTGTTACAATTATCATTGTCGATACTACTATTATAATCGACACCTTCACCATTGTCATTGTGTTACCACTGATATGCTACTGTCCCCTACAAGTAACCTTATTGCATTAGTCATTACCATATTGTCATTACACCATTACCATAAGACCAACACTTTCATCATTTACCACAATTGTTCTTGTCACTCCATACTAATGCAGTTCTAGTTTTTGACATCGCCAACACCATACAAACATAATTTTAACCAAATAAGATTTTTCTTTTTACTGTTTCAATATGAATCTATAAACTAAAAATTGAAAGTTTAAAAGGCAAAAACCATCCTACGCTAAAAATCTTTTTAAAAGCTGAAAACTGGTTGTAGGTTTTAATTTTTTTTAAACTCAACTAAAAGACGAGTCTCAATAATGCCCTTGTGTGGTGTGTGTTTGTCTCTGTGTAGAGAGAGAATCCTCTCAATTATGATTTCACAACTTGCATTTGGATCTTGAATTGCTTTTAATAGGCGCAAATGAGTTGGGAAACCATACAAGGGACAATTAAGAACTCTATTTCATGGTACGAGGCCTTGATTGAGGACTCTAGTGGCAGGTAAAATAAATAAGAATTTTAAATTTTCTTTCATTCAATGAGCAATTTAAAGGGTAACCAGTTTCTAACAGAATGCACAATAGGCTTAAAATTATAATGGATGTTGTATTACCATTAGAATTAGTAATGAGTAACTAATATAATTTGAATGTGTTTAATAAAAACACGGATTATTGATTAGTTAATAATTTTAGTTAATTATAAAACAATAAATGTAAAATTAAAATTCTAAAGTAATAGAACAAACGGAAGTGGAATTATAGTCATGACAACATATTGTTTTTGTAACTCATTTTACATATTATAAATAGATAAATGTTGTATTTTCTAGGGAACATACTGATGCTGTAAAGCATAAATGAATCATAAATAACTCAACCCAAGTTAACTTGTCATAAAATTGTTATAAATTGCTCAAAAGGAATTAGTTTGCATTACAACAACAAATATGTTATTAAATTTTTAGGCACTCTGCAATTTTATCCTGGTAAGTTACTTTTGAATCTGAATGGAACAATTTAAAATTTGTGATACAGTATCTCTGCATTCAAATCAGTTGAAGATGGAACTCTGAAGGGGTACAGAGGTGGTGGCACCAGTAGCAATTAG