Gene Details:

Gene ID Chr. No. Start Position End Position Function View on
Vu_06459 LG1 95326517 95333128 homeobox protein HD1
Map

Annotations  
category   relationship type   keyword
Biological Process   involved in   seed growth, mucilage extrusion from seed coat, regulation of transcription by RNA polymerase II, seed coat development, mucilage biosynthetic process, mucilage extrusion from seed coat, seed growth, seed growth, mucilage extrusion from seed coat, seed coat development, negative regulation of transcription, DNA-templated, regulation of transcription by RNA polymerase II, mucilage biosynthetic process, seed growth, regulation of transcription by RNA polymerase II, mucilage extrusion from seed coat, seed coat development, regulation of secondary cell wall biogenesis, negative regulation of transcription, DNA-templated, seed coat development, seed growth, negative regulation of transcription, DNA-templated, xylem development, mucilage biosynthetic process, regulation of transcription by RNA polymerase II, negative regulation of transcription, DNA-templated
Cellular Component   located in   nucleus, nucleus
Molecular Function   enables   transcription cis-regulatory region binding, DNA-binding transcription factor activity, RNA polymerase II-specific, transcription cis-regulatory region 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, transcription cis-regulatory region binding, transcription cis-regulatory region binding
SNP Position Effect Amino acid change
C/A 95326639 synonymous_variant p.Leu41Leu
T/G 95326640 missense_variant p.Ser42Ala
C/T 95326644 missense_variant p.Ala43Val
A/G 95326788 missense_variant p.Asn91Ser
C/G 95326820 intron_variant
A/G 95326931 synonymous_variant p.Leu100Leu
G/A 95326933 missense_variant p.Cys101Tyr
T/A 95327057 intron_variant
G/A 95327121 intron_variant
G/A 95327146 intron_variant
G/A 95327152 intron_variant
T/C 95327165 intron_variant
A/G 95327562 intron_variant
T/C 95327618 intron_variant
C/A,* 95327647 intron_variant
T/C 95327697 intron_variant
G/A 95327698 intron_variant
C/A 95327769 intron_variant
T/C 95327861 intron_variant
C/T 95328002 intron_variant
A/T 95328006 intron_variant
G/A 95328203 intron_variant
G/A 95328420 intron_variant
C/T 95328534 intron_variant
A/G 95328569 intron_variant
T/A 95328581 intron_variant
A/T 95328678 intron_variant
A/T 95328696 intron_variant
A/G 95328762 intron_variant
A/G 95328764 intron_variant
T/C 95328769 intron_variant
A/C 95328773 intron_variant
A/C 95328775 intron_variant
G/T 95328819 intron_variant
A/G 95328946 intron_variant
T/A 95329051 intron_variant
A/G 95329124 intron_variant
T/G 95329148 intron_variant
C/A 95329209 intron_variant
A/G 95329316 intron_variant
T/G 95329333 intron_variant
A/G 95329520 intron_variant
C/A 95329543 intron_variant
A/G 95329626 intron_variant
A/G 95329857 intron_variant
T/G 95329910 intron_variant
G/A 95329918 intron_variant
A/T 95329935 intron_variant
C/T 95329963 intron_variant
T/C 95330016 intron_variant
T/A 95330020 intron_variant
A/G 95330024 intron_variant
T/G 95330029 intron_variant
T/C 95330040 intron_variant
T/C 95330050 intron_variant
A/G,* 95330091 intron_variant
G/C 95330123 intron_variant
A/G 95330134 intron_variant
A/C 95330152 intron_variant
C/T 95330181 intron_variant
A/C 95330493 intron_variant
T/G 95330624 intron_variant
T/C 95330631 intron_variant
A/G 95330672 intron_variant
A/G 95330674 intron_variant
G/A 95330675 intron_variant
A/G 95330694 intron_variant
T/C 95330738 intron_variant
C/G 95330748 intron_variant
A/T 95330816 intron_variant
G/A 95330821 intron_variant
C/T 95330895 intron_variant
C/A 95330902 intron_variant
T/A 95331039 intron_variant
G/C 95331096 intron_variant
A/G 95331185 intron_variant
C/T,* 95331262 intron_variant
A/T 95331310 intron_variant
A/G 95331320 intron_variant
T/C 95331380 intron_variant
T/A 95331473 intron_variant
T/G 95331476 intron_variant
G/A 95331509 intron_variant
G/A 95331517 intron_variant
A/G 95331643 intron_variant
A/G 95331663 intron_variant
G/C 95331761 intron_variant
T/A 95331769 intron_variant
T/C 95331786 intron_variant
T/A 95331787 intron_variant
T/C 95331828 intron_variant
T/A 95331832 intron_variant
A/G 95331865 intron_variant
A/G 95331896 intron_variant
G/C 95331904 intron_variant
A/G 95331909 intron_variant
G/A 95331924 intron_variant
T/A 95331925 intron_variant
G/C 95332247 intron_variant
G/C 95332249 intron_variant
G/C 95332286 intron_variant
T/A 95332297 intron_variant
T/C 95332311 intron_variant
A/T 95332318 intron_variant
A/T 95332370 intron_variant
G/A 95332769 synonymous_variant p.Ser224Ser
A/T 95332904 missense_variant p.Asp242Val
G/A 95332912 missense_variant p.Ala245Thr

View accession wise SNPs


Sequence Details:

Protein Sequence:
>Vu_06459.1
MQEAGLAMNMLSAEVSAAAADHHHRQLKADIATHPLYEQLLSAHVSCLRVATPIDQLPLIDAQLSHFNNLLRSYASHHSHSHSHDRQELDNFMTQYLIVLCALKEQLQQHVRVHAVEAVMACRDIESTLQALTGVSLGEGSGATMSDDEEDFQMDGSLDQSSAEGQDMMGFGPLLPTESERSLMERVRQELKIELKQGFKSRIEDVREEILRKRRAGKLPGDTTSVLKAWWQQHAKWPYPTEDDKAKLVEETGLQLKQINNWFINQRKRNWHSNSQSVTSLKSKRKREYSH*


CDS Sequence:
>Vu_06459.1
ATGCAAGAAGCTGGGCTGGCAATGAATATGCTCAGCGCAGAAGTCTCAGCCGCCGCCGCCGACCACCACCACCGTCAACTGAAGGCGGACATAGCCACCCATCCACTTTACGAACAGCTTCTCTCTGCACACGTCTCATGCCTCCGCGTCGCTACACCCATCGACCAGTTGCCACTCATCGACGCTCAGTTATCACACTTCAACAATCTCCTCCGCTCTTACGCCTCACACCATTCCCATTCCCATTCCCATGATCGACAAGAGCTCGACAACTTCATGACACAGTATTTGATCGTGTTATGTGCGTTAAAAGAGCAGCTTCAGCAACATGTTCGGGTGCATGCCGTGGAGGCTGTGATGGCCTGCCGTGATATTGAAAGCACCTTGCAAGCTCTGACAGGAGTGAGCCTGGGAGAAGGATCGGGTGCAACAATGTCAGATGACGAAGAGGACTTTCAAATGGATGGGTCTTTAGATCAGTCTAGCGCTGAGGGGCAGGACATGATGGGATTTGGTCCATTGCTTCCTACAGAATCTGAAAGGTCCCTCATGGAAAGAGTTCGTCAGGAGCTCAAAATTGAGCTCAAGCAGGGTTTCAAGTCAAGAATCGAAGATGTTAGGGAGGAAATATTAAGGAAAAGGAGGGCCGGGAAATTGCCTGGGGACACAACATCGGTTTTAAAGGCATGGTGGCAGCAACACGCTAAATGGCCCTACCCAACTGAAGATGACAAGGCAAAACTTGTGGAAGAGACAGGGTTGCAGCTGAAGCAAATCAATAATTGGTTCATCAACCAAAGGAAACGCAACTGGCACAGCAACTCTCAATCTGTCACCTCTCTCAAGTCCAAGCGCAAGAGGGAGTATTCCCACTAA


Promoter Sequence:
>Vu_06459::LG1:95324517-95326517(+)
AGTCGTGGGATTGGGTTTTGGGTCCCTAAGTTGGGGAAAATTGGTGTTTTAGAGTTAAAATTGACTTTTAATCACTTTAGAATGGTAGTAGGAATGTTTAGAATCATTTAGATAAGTTTAATTAAGTATAAAACAAGAATTAAGGGTGTTAGAAGTTAATAAAAATGGTTAGAAATGGTCATGTTGGGTTATATTCGCAATTATGCAGAATTCTGCAGAATTATGCAGAACGCTGCAGTTGACCGTTCGCTCTTGTGCTGCTCTCGATCATAACTGGGTTGGTCTCTTTTGAGTCTTACCAGTTCATGAGCATTCGGTCTCTTAAGTAGCGTTCGGTCTCTCAAGTAGCGTTCGGTCTCTCAGGTAGCGTTCGGTCTCTCAGGTAGCGTTTGGTCTTAGGTAGCGTTCGGTCTTGATAGTGCTCGGTCTTAGGTAGCGTTCGGTCTCTCTTAGTGAGCGGTCCTAAATAGTGTTCGGCCACTTCTTCAGTCTTACCTTTTATGGACCGTTCAGTCTTGTCCTTTGGGAGGTGAGATACCGTTCGGTCTCTACCATTCACGGGGTGTTCGGTCTTGCTCATTATGTGTTGATGTTTTCCGTTCGGCCTATATTCCTATTTATTCCAGTATGCTATTTTACTTAATTGTTCCAGTTGCTTTAAGGGCTTATGTGTGCATTATCATGTTGGTGTTAAAGTGGAAAGTATTAGTATTGGACGTAATTCCATGATCCTCAAGAGGGGATACATGGTGGTGCTCTTTCAGTGTGTTTAGAATGATTTGCATGGTAGCTCAGTCTTGGGGGTTTTCCTGACGCTCCAATGGTCTTTCATTCTCAAGTAGAGAGGATTGATCCATATGGTGAGGAGTAGCAAGAGGTCCTAGTCTTTAGTGCTTCCAGTATGGCCCAAGGTGAGTGATAACGTACTAACCTCGTGAGTGTGGTAGGGTGAAACCAATTGGCAATGGCTTTGCAAAGCAGTAGAGGCCACCATGAGTGCATAACCCGCCATAGCTCGGCAATCATTCTAAGTCCGAACGAGTCAAGTTTAAGTGCAACAAGTCATGTTTGTGTAGTGTAGTGTATCTGTCTTTACTTGCATGTTGCATGTGACTGCTATAACATGATTTTTATATCTAGCTCACCCTTGCTTGTGTGTTTGTGTTTGCTTGGGTATGTTTTTCTTCTGCAATGATCATCCACTTGGATGTGAGCAGAGATGAATAAGGTGCCTCTGAAGCAGGCTTTGGAGGAAGATGATGTTGCTGTCTAGTCTCCTTAGGATTCTATTAATTATTTCTTGTATTTTGAAATACTCTAGTATGTTAAGTAGGAAGTTTTTAAATTATGACTGATTTTGGAATGACTGTAAGGTTAACAACTTTATTTACAGTGTACTCTCAGTGTTCTCTTTTATTATAAATGTAGACTTAGTATATTATATGCTACTATATAATCTGGGATGTTACAATTATAAATCCATTAAAAAAATATTTCTTTAACAAATAACATGAAAATATGAGATAGTATGTAAATTAAGTTATGCTTTAGTAATTTGTTATGAGAATATTTAATTTATTTCTTTGAAAGTGTTTTGGAACAGAAATGTAAAAATGTAAACGAAATATGAAAAAGAAGAATTATGCAATAAGTAATTACATAATAAAAATTAATACCCCACCTTATCCGCACAAATGTTTTTCGTTGCTTTTTCTCCGTGGCGTCTTGGTGTGTGCAATAAACTCGTTGTTCACGTCTGAGGGAGAAATAGAGAGCGATGTAAGGGTTATAAAAAGACTAGGAGAAGGAGAGATCGGAATTTACAAGTCTCAGTGCTTCCATGCTAGCATTGCATCACCATTACCATTACCATACATAGAGTGGTCCTCAACTCAACCTCACTCTTTTCCCTTAAATAATCCCTCCCTCTCTAATTCCCTAATCCCTAATCTTAACCCCTTTCTCTTCCCTTAATCACTCACCTCCCCGTGCACTGCAGA


Gene Sequence:
>Vu_06459(+)
ATGCAAGAAGCTGGGCTGGCAATGAATATGCTCAGCGCAGAAGTCTCAGCCGCCGCCGCCGACCACCACCACCGTCAACTGAAGGCGGACATAGCCACCCATCCACTTTACGAACAGCTTCTCTCTGCACACGTCTCATGCCTCCGCGTCGCTACACCCATCGACCAGTTGCCACTCATCGACGCTCAGTTATCACACTTCAACAATCTCCTCCGCTCTTACGCCTCACACCATTCCCATTCCCATTCCCATGATCGACAAGAGCTCGACAACTTCATGGTACATCTTTTCTTTTTCCTTTCTCAACAATGTTTTTAAATTTGAGAGAATTTTTATTTTAAGACGTTCTAAGATTAATAAGTATTTGAATAGATTTAACTCTTAATTAGTGCAGACACAGTATTTGATCGTGTTATGTGCGTTAAAAGAGCAGCTTCAGCAACATGTTCGGGTGCATGCCGTGGAGGCTGTGATGGCCTGCCGTGATATTGAAAGCACCTTGCAAGCTCTGACAGGTACTCATCACTCTCCTCTTCAATTTAATTTATTCCTATTCTGATTCTGTTGGCTTTAATTATGCCAACAAGGGAAAGGGGATCACTTCGTTTAGGTATAACAATATCAGTGGTGTATTAGTTAATTAATTAATTAAAGGAAATAAAAATGGTTTGGTATGTAGAGTATATTAGTGGTGTGAGATTTGAGAGAAAGGAAAAAGATGCATTGTGATAGCATCAACCCGTATGTGTTCTGTGGGTATTTTACGTTAAGGGGAATGGAAGTGGTTGTTATAGCTAAGTTTCTGTAGAGAACTATACACGCCAAATAAGAATAGGATTAGAAAGAGTGGGTTAGTTTGGTGGAGGGTGGTAATCTCGCCCACCCTGCCATTCCCAACAACCTAACACAACTATAAAGTAATGAGAGAAAATACTAATTCAAAACTTTATTTTTTAATTAATTCAAACCCTCAAAATAATCTATGATTTTAGGTTAACAAAAATATATATTAAAAGGTTCAAAATATTTATTTTATTTTATTAATAAATTCTTTCTCCACAATTTACGTACTCATTCTTTCCTTTCTATAAAGTTACAAAATAATTTTCTCTATATATACATATATTATTCTTCTTCTTTTATTACTTTCATAATTCTGAATACTTTCCAAGTCACTGTCTGATGAAAAATGTGAAACGTATATTACTTGTATTTATTGTTATTATTTATTTTTAAATAATAAACAGTTCTTCCTGATTATAAATTATTCATAACCTCGTAATTGATATACGTTTAAGAATAATTACATTGATATCTCTTGTGTTTTGTTCTAATGATGATTTGTTCATATTATTTTTTAAAGAATTTAAAAAGAAAATGAGAAATATGAGGTTGGTAAATAAGTCAAGGAAAATTTAAATTTCTTAAACTACGTAAATATTCTCACGGCTTGCGATAACGTTTCAAAGAATAAAAAAAAAATCTCTATATTTTCTCTTCTTTCTCTCTCCCCTTTCTTTCTCTTTGTTTCTCTCATCTTTCTTTTAATGTATCCTAATCGTCCTTCATTTTTTTCCCCTTTATTTTCTTTCCATTTTTTCTCTCTGCCTCCTCTCAATTTCTTTCTTTTTCTCATCCGTTTTTCTTCTCCATATTTGTCAAAATTGTGTTAATATTTATGTTTTTGATTATTAACTACTGTGTAATATAAAAGTGAGATCATATTTATTTTTCAATTTTTTTAATTATATATATATATATATATATATATATATATATATATATATATATATATTTAACATTAAATTTTACACATAATGAAAATCAAATTATATTATCTTAATTAAAAAAACTAATAAATATGAATTGATTTGCCTAAGATAACATTAAGAGATTGAAGAGGGATTAAACAAGGAAATACATCTGACAAGCATTTCAAATTTTCTAAAATTTTAAATTTAACTTTTAGGTTTTGTGTGATTGTATAGACTTTATATGTGTTTTTAGCATCTACAACCACCTCTTATAAGGAAATACAATAGCAGAGTGTCAATTATCTTTTACTCGATAAGTTGTTGTAGATAACAAAGATTAAATACAAGTTTCCATTATATACTAATCGTCCTTACGGGTTTCAGAGTGTTTATTACTACGTTAATCTATTCGATTCAACATAATAAGAGTTTGTGTAATTTCTTGAAATTTCAAGAAATATTAATGTGATTATTTTAAGTTTAATTTATACAAATTTTTAAAAAATGATTTTTTTTTCTAATAAAGATATAGGTCATAATAAACAAAAGCTCCACAAAGACAGAAGAAAGTGATAAATTAGAATAGAGTTAAGAATCAAATATGACTTTGATTCCTAAAGTTTTGTTTTTTTTTTTTACATCTAGAAAAGAGTCCAATAAAAGTATTACTCATAAACAAATATAGAACAAATCAAACGTATCATTGCGATTAAAGTTCTAAGAAGTTAAAAAGACAATTTTTAAAAATATATAAATTAGTTTAAATTTATTAAAGTAGCTTAATTTGTTTAAGAAGTTTGGTGGGAATATATCCAATTTAGATTAAGATTAGGATATTCCAAATTACACATTCATCCATGTTATACCATATGCCATATGACACTAAATAAAGTTATTACTTGTATGTGTACATAAGTAGAAGAAAAACAAATTAAGGTCTGAATTTAAGAATATTAATTTAAACTAATTTTGAAGAACGTCGTGCTGAAAGGATCTAAGTCTCCAAGACAACTGTAATTTGAAATTCAATAGTGGTGGTTACAAGAAGTGTGTGACCAAACATGCTGAAAACTTTGTATTTGATAAGGTGGTAGTTGTAGTGGAGCATCAGGAAATTAGTAATAAGGAAAAAAGAAGATATAAGAGAATATGAGAAGATGTTGGAGTAAGGAAAGATAGAAAAGGAATAGACTGAAAATTATTGTAACGCGTAAAAAAAAATAGTATACTAGTCAATAATGTACATAAAATAATACATAAATCCATCGTTTTCAATATTATATAATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATGATTTGCTAATTTATGTAAGGTATTTTAGTTGATATATTTTAGCAAAATATACTAAGTTTTAGATTTAAAAGAATTTTCATTAAAAAAACATACTTTAAATCCCTGATGTTAATAATTTTAAATTTTAATTTAAAATAAAAAGTATTTATTTATTATCTATGACTTTATAATTACTGTCATGTATATTAGTTGTTTTTAAAAATAAAAAATAAAATAAAAGATAATTATTTTAACTTTAGGAATATTTTTAATTATAATAATTTTAGGAATATATAATTTTTATATTCACAACGTGTATTAGTTGTTTTAAAAAAATGAATGGATCATTAATGTTATGCAATAATTTTTTTTTCAACTTTTATTTACATTTTTAATAACATATTTTCTTTCTGTTTAAAATAATTACTATTATTTTCTATATCTCTTCCAAAAAGTTAATTACTAATATCTCGATATCTCGTGTGTATATATATATAATTTCTAAACATTATTTTGTCGTAGTTAAATTAAATAATTTTACATAAATAAGTTGACATATATTTGTGATTATTTCAACTAATTTTTAAATTTTTATGGATAATAATCTATTTAAAAATATATAAATGTCAACTTTATTTTATTTAGAAAGAAAATAGTATACAAATCTATACTCCACTTGTTAAAACAATAATTAAATATTATTAAGTGCGTATATCTTATTAATATTGTACATTTTATTAAGTAGGTAAGAAAATTAATATAAAAGGGATTTATTTTCCTTCAACATACATTTGTGCGTGTATTTCTTTTATTTTTAATAACATCACTTATTAAATAAAAATCACAGTTTAAATTGAAACATAATATATACTACACTTCGCTTAAAACAATTATTCTATTATCTATACTGCACTTCGCTTAAAATAATAACTAAATAGTGTATACTATATTTGATGTTGTGATATTAATAGGACGTGCTTGTAAAAACTTGTAAGCCAAACTTCTTAAGTTTTCCCAAATGTACTTTATAGCATGTATTAATCACTTTTAAAATCCCACATTTTAACAAAGTTTTACATTAAATCACCTATTACACCAATGCTATAGATAAAAAATTATAATAAAAAATCTTATTTATTTTATCCAATCACATTCATTTATGAAAATTATATATTTTTAAAAATGTTATAATTAAAAATATTATTAAAGTCATGATGATAAATAACTACTTTTAACTTTTTTATTTTAAAATATTAAAATACCTTTGGATTTAAATTATGTTCTTTTTAACGAGAATCTTTTTAACCTAAAACTTGGTACACTTAACTAAAATATACTAACTAAAAAAAGACCTTACATAAATTAGCAAACTCATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATATAATCACAATTAAAGAAACATAAATAGTTTAATTTTGTCATATCTTTTTCTTTCTATGAGGACTATTGTTTGCTCTACTCTTTTTACCAAAATAATTAGAAATAGTTTACATCATATATGTTGGAACAATTAGTTTAGATAAAGGGATTGAATAGTTTTTCACTTTCATTTCGTATAATTATAATTGATGGTCTATTATCGAATAAATAAAGCAATGTTAAATCTCTCAATTGAGTTAAATTTACTTCTTCCTTAATATGTTTCATTATTTAAAAATAAAAATTACAAATTAAGTACATCAACCACTCTTAGTTAACTTTCTTATCATTAGTATAAAAGGATCTCACAATCTTAGTATGTTTACACTCGAAGTAGACAAATTCTATGTTAAATGATGTCAAACTATCTTAGATTTGACGTCATTTAACGTCTGTTGGTCCTAAAATTTTTAACTCATTTCACTTTATCTTGCCATTGTGGTGATTGTTTGGCTGAAACTTTCATTCTCTCTTAATTATTACATTTCACATTAAAGTTAAAGGTAAAGTTTTTGTGTTTTTAGCTTAAGTGAGTTTGTAAACTTTAAATGGTAATAATTTGATATAGATATGGAATGAAAATGCTAGAAAAATGAAAGTTGTTGGAAGTGGGGATGATGAATGCTCTAGCCATCATTTAAGATTTTTTTTTTTGGAATGATATGAAATTTTTAAAAATCCATCGTTTAAGGTATATTTTTTATTTTCTTTGTATTTTCACTTATTTTTCTATACACTTTTATTTTAGATATCCATACTATTTCTAAAATTATAGAAATTTTTGTGTTATATTCTTGTACTATATATTGATTTTTCATGATTTTATTGAAGGAAAATATTAATAAAAGTTTTAAAAAAGAAACATACCAATAATTTGATATTTGTTGTTTATGCAAGAGATGTCAATTAATTTGGATGTGACATACATTAATTAATGTTTATCCAAAAATAATTTTCGTTAATTTGACTTCTCTTGCTATTGCATTGAATTTTCAATAAAATAATTATAAAAAAATAAATTTTCAATAAAATAATTATAAAAATAAAATTTTCATATTAAAAAAATTAAAAAAATTAATATCAAATGTGAAAAATTTATGTATATAGAATATTATTTCTATTATATATTAAGACTCTTCTAGATATTTGTCTATGTGATGTTTATTACTAGAGAACTTGCATTGCATCTAATGCTGACGATATACAAGTGTGTATGTATCTATGTGCTCAACTCTAGTTAAAAAAACAAAAAGTGAAAGACGTTTTGAAATTCTAATATATATTGAATATTTTAAATTGAGGAGTGAGCCTGGGAGAAGGATCGGGTGCAACAATGTCAGATGACGAAGAGGACTTTCAAATGGATGGGTCTTTAGATCAGTCTAGCGCTGAGGGGCAGGACATGATGGGATTTGGTCCATTGCTTCCTACAGAATCTGAAAGGTCCCTCATGGAAAGAGTTCGTCAGGAGCTCAAAATTGAGCTCAAGCAGGTCATTCTTACAACTCAATAATCAATGTGCATGATGTCGTGCAAGGGTGTGTCATTCACAATCTCCTTTTTCCTTCTTAAGTGGGTTTGAACCAAAAACCAGATTTGATATCTGCAGGGTTTCAAGTCAAGAATCGAAGATGTTAGGGAGGAAATATTAAGGAAAAGGAGGGCCGGGAAATTGCCTGGGGACACAACATCGGTTTTAAAGGCATGGTGGCAGCAACACGCTAAATGGCCCTACCCAACTGTAAGTAAACAATAAACCATCTTCTACTTGAGCAATTGGGTAGCAATCATTCTACTTGTTGCTAATTTTGTTCTTCTTTCAGGAAGATGACAAGGCAAAACTTGTGGAAGAGACAGGGTTGCAGCTGAAGCAAATCAATAATTGGTTCATCAACCAAAGGAAACGCAACTGGCACAGCAACTCTCAATCTGTCACCTCTCTCAAGTCCAAGCGCAAGAGGTAGAGAGATTTACTTTCTTCCTGATTCCAAAACACATAGCAACTTTTTTAATTACTTTATGCTTATTTCTGGCAGGGAGTATTCCCACTAA