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Potato locus auxin-regulated IAA13
Locus details | Download GMOD XML | Note to Editors | Annotation guidelines |
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Registry name: | None | [Associate registry name] |
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Image | Description | Type |
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![]() ![]() | [Associate accession] |
Accession name:
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Alleles (0) | None | [Add new Allele] |
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![]() ![]() | View auxin-regulated IAA13 relationships in the stand-alone network browser |
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![]() ![]() | unprocessed genomic sequence region underlying this gene |
>PGSC0003DMG400005794 PGSC_DMv3_219_ch08:4892883..4896942
AGAATGCATTTAAATCAAACAAATTTAAGCGATAAACGCGTATATATAGAATATACGCCTCATATACTTATTGATTTTACATAAACACTAGATGTAAGTAAGTTTTTCCTGTTGCAACAACCCCACTTGAGTAAGTACAACTACAGAGATACAACAACCAAACCTCCACCAGAATCATTAAATTACATATACACAAGCTTCTAATACTAACTCCACTAAATGATGAAAAAAGATTCAACTATTTGCTTGTTGTCAAGCTTATTCAACAAGACGACATAGAGTCTCATAATCTAAGCGTTATTATTGAAGATTGCAGATACCTGTTGGCAGTCAACAAGGCCGAAACTTTTTAAGAAATGAAGGTCACAATTGGGAAAACACGATCAAGGACGAAATGGAGTCTTCGCTCCTGACAGATGTAAGTAGTGTAGCTTATGAGCGGTTTTCATGTTGAAGTAGTTGTTTCACTTTCTAAACAAGACGGCGATTTGGTTCTTGCACTGAAACTTTTCATGTCTTGACTAGAACAAATGAAGATCCTCTTCGCGATGTTGCAGAACTCTCTGTGAATAATTGAGCACCATATTATGATATGCAAAGTATGAGAGATCTTACATGTAGCTATATTATAATTCACGGGCAGAGCTAGCTTATGAGTTTATGGATCACATGTATTATACGTATTAAGAAATTAACTTGAGGTCGTTGTAGGAACCCAGTTATTTTTATATATTAACTTGAGGTCGTTGTAGGAACTCATAAACCTCAAATCCTGGATTCGCATATGAGCTACATACTTTTAATTTTAAGTTGTAAATGGAGAAAGAAACACTTACGGCCAAGGATAATCGCCCATAAGCATCATATCACCTTCATCGTCTGTAAAAACGATCTCCCATTTATTTCGTGTGTGGAGCTCTTCCTGGATATCGAACATCTCTTCGAGTTCCTTTAGGAGCTCATCGTATCCACTCAGTTTTGTTAAATCCACAGCACGTCCCACAGCTACGCCTTGCATTTGAACCTTCTCAAGGAATTCATGTAAGCTAAAAAAGTATTTTTATTTCTATTGACGTCTTTGGAGTAGTAACGAACATGGAAAAACACAATTTACTTTCTCGTTTTGGTTTTCATACCTTGGTGCGAGTTCTGGTGGAAGAAATCTGCTTGATGTGAACCTCCTTTGGTGGCAGATTCAGCTGCTCTTGCTTCTGATCTTCGGAATCTCTTGAAAGGCCAGAGTTGTCTTCTGAATCACCAGCAGAAGTCGTGTTTCCAGAGCACCCTTCAGCAGAGCCATCGGAATTGTTGGCTGGTTCTAGAGGCGGATTCTCATTAACAGAACCAAATGAGGGGGATTTCAAGTCAATACCAAACAATCTACAGGATGTAATTGTATCACGTTTTCTCTCATCGTCTAGGCAAGGAAGCAGGAGATCGTTCTGCTTTCCGAATTGTGAGGACGCAAAGCTTGGAAAAGCAGGCCGAGGTGAAGCACTTTTACTGCCTTCTGTCTCATCCAAAAGCATATTCAAAGAAGCACTTACTTTAGAAGCTGACCAAATTCCATCTTCATGAACCTTAAAAGTACTGTTGGTAGTTGAATGTGTTTGTGAAGTATGCAAAGAAAATGGATTATCACTACTTTGTCCTTCAATAACGGGGTTAAATTGCGTTGAAGGAATCCAAGCGGCTAGTGCAGCTGCAGGGACAGGTTCTAGCAGGAAAATAACGGAATAATAATCAAGAAAATGAAAATAGAAAACTAAATAGGATGACTAAAAAAACATGCCATGGAATATGAATATGCTTGTTTCCACCTGAAGTTTTGGGTTCGTTATGTGCTCGATGCCTTTTATTCTTCACCCCCATTGGTGGAACGAGAGGAGTAGCGACTGACGCCACAAATGGTTCGATGTCCCAAGGAGAAACTCTGTCAGGTCTTGAAACAGATGCAGGCTCATCCCATTGAACCTGGAAAGATGGAAGAAAAATAATGAAATTTTACATCAATCCAAATGTATTGATTCATTCAATGTCGACAACAACCAAATTATATCCACCTTCAATGATCGCCATTTTGAATCTTTCCACTGTGAGGAACTATCTTCAACTCCTACTATGGTACCTGTAAATCTGGGAAATTACGAAGGAACAACCGAAGAAAAAAGAAAATAGAGATCAGAAATGCAGTATATTGAGAAACTTTATACGGTAGAGAAACATCTCGTTAATTCGAGCTTCAATAAAGTTGATGTTTTACCACCTTTTCTCAGGAATCTCTTCCCCTTCAAAATTCATCTTGAATCTCATGCCAACTGAATACCGATGCTTAACAGCCTCAAGATATTTGTTTAGGCCTACGATAAACTGACTTGTTCTGAAGATTTTCCACACACAATATTGAGAACATAGGCAACATTTAGCATATTCTCACCCAAAAAAAAACAAACTAATTTCAACATTGCTGAAAGGACATAATAAGGGCAGCCCGGTGCATTAAGCTCCCGCTATGCGAGAGGTCCAGGGAAGTGCCGGACCACAAGAGTCTATTGTATGCAGCCTTACCCTGCATTTCTGCAAGAGGTTGTTTCCACAGCTTGAATCCATGACCTCTTGGTCACATGGTAACAATTTTACCAGTTGCGCCAAGGCTCCCCTTGACATCTAAAGTTCAATCTTTTAAGAAAAGAGATGCATAAGAGAAACCTCGGTTTGTAATAAACAACAAACATAGTCTGGGTCGTCACAGCATGAGATGCAGTAGCTAACACTCCTAGGTGCATGCTCTGATTTGAAATCACTGATTGTGGCATTGAGCTCGGTTGGCGAGCAAGTCGTCTAATTCCTATTCGGACTTCACCTTTGTCCCTCCTAAACACGACATATTTGCACAACATAATGAATAAATAGTGATGAATATGATAGATTTAAAGCGCAATAGACAAATAAGCACCAGATATAAACCTCAAGAATACAAAAGAATCCCCCGTAACTAATCTCTTCGAGGAAACAAAGGTACTCCACCCTGTGGTAAGTAAATGCCTCCGGGGTTGGCCTGTTAGTCAAGAATCAAGAGTGAGCACTTGGGCCATATAACAAATTGATAAAGTGTCATCGCTATCATCTTTTTGTTGTTGTCAAACCAAATTGGACACTACGAGTTGTCAAATAATTACCTCTAAATATATGTTTAAAGTGCCACTCGAAGCCATGAAGGTCCTTGGCGACCAATTCCTGTGCTGGAGTCGTTTGGTTCATGTCCTGCATTAAAAAATATAGCATCACAAAATCGACAGGTAATGCATCATTTTCTCAAAATGGACAGACTATAGAATGTAACAACAAAGGATCAAATATATTACCAGGGGAGGTAGGCATTCATTAGCATGTTTCCTGAGAATGGAAAATCCACCGTGAGTGCTCGTATCAGATGCAGTTAGAACCTTGCAGAAGAAATGAACTTTGGGCCTCGGAGGCTCGGGCAGGGACGGATCAGGACTAGTCGGCTCAACTTGCTAAATTGGATGAAAGCAATTATAGGAAAATTGGCCAACAGAACATAAAAGACCAAGTGAACACAACAGAGTTTCATACAAGCAAGAAAGTAGGTTCTTTAAGTTCTTACATCTGCTTCGGGCAACAAAGCAATCTTCGCATAAACCTCATCAGTATCTTGCTCAGCCTACAACGAATTTTCAATGAGAAAGTCCTCATTATAACTTCTTTTTTCTTCAGAAATAACCTAGAATTAGCTATACGAACTTCGTCGCTAATCTACGTCTAAATAGCTCGTAGCTAACAAAATTATTTGATTGTAGTTCAACTACAAAATTTGTTTGTTGCTAATTCTTGTTTTTTTTTAGTAGTTTATATATGCATGAACCTAATACATAGAAACATTACTGTTTAACTAAAACAAGAAAACGGTGAAAGTACAGCTAATTACCAGAAGTTGAATGTGAAGAACGCGACAAAGGATCTTTGGTTGCAGATTGAACAATGGTATTCTCTGATTCAGCTCCTGATTTGTTGATGCCTCCAACTATCCATACCACAA
AGAATGCATTTAAATCAAACAAATTTAAGCGATAAACGCGTATATATAGAATATACGCCTCATATACTTATTGATTTTACATAAACACTAGATGTAAGTAAGTTTTTCCTGTTGCAACAACCCCACTTGAGTAAGTACAACTACAGAGATACAACAACCAAACCTCCACCAGAATCATTAAATTACATATACACAAGCTTCTAATACTAACTCCACTAAATGATGAAAAAAGATTCAACTATTTGCTTGTTGTCAAGCTTATTCAACAAGACGACATAGAGTCTCATAATCTAAGCGTTATTATTGAAGATTGCAGATACCTGTTGGCAGTCAACAAGGCCGAAACTTTTTAAGAAATGAAGGTCACAATTGGGAAAACACGATCAAGGACGAAATGGAGTCTTCGCTCCTGACAGATGTAAGTAGTGTAGCTTATGAGCGGTTTTCATGTTGAAGTAGTTGTTTCACTTTCTAAACAAGACGGCGATTTGGTTCTTGCACTGAAACTTTTCATGTCTTGACTAGAACAAATGAAGATCCTCTTCGCGATGTTGCAGAACTCTCTGTGAATAATTGAGCACCATATTATGATATGCAAAGTATGAGAGATCTTACATGTAGCTATATTATAATTCACGGGCAGAGCTAGCTTATGAGTTTATGGATCACATGTATTATACGTATTAAGAAATTAACTTGAGGTCGTTGTAGGAACCCAGTTATTTTTATATATTAACTTGAGGTCGTTGTAGGAACTCATAAACCTCAAATCCTGGATTCGCATATGAGCTACATACTTTTAATTTTAAGTTGTAAATGGAGAAAGAAACACTTACGGCCAAGGATAATCGCCCATAAGCATCATATCACCTTCATCGTCTGTAAAAACGATCTCCCATTTATTTCGTGTGTGGAGCTCTTCCTGGATATCGAACATCTCTTCGAGTTCCTTTAGGAGCTCATCGTATCCACTCAGTTTTGTTAAATCCACAGCACGTCCCACAGCTACGCCTTGCATTTGAACCTTCTCAAGGAATTCATGTAAGCTAAAAAAGTATTTTTATTTCTATTGACGTCTTTGGAGTAGTAACGAACATGGAAAAACACAATTTACTTTCTCGTTTTGGTTTTCATACCTTGGTGCGAGTTCTGGTGGAAGAAATCTGCTTGATGTGAACCTCCTTTGGTGGCAGATTCAGCTGCTCTTGCTTCTGATCTTCGGAATCTCTTGAAAGGCCAGAGTTGTCTTCTGAATCACCAGCAGAAGTCGTGTTTCCAGAGCACCCTTCAGCAGAGCCATCGGAATTGTTGGCTGGTTCTAGAGGCGGATTCTCATTAACAGAACCAAATGAGGGGGATTTCAAGTCAATACCAAACAATCTACAGGATGTAATTGTATCACGTTTTCTCTCATCGTCTAGGCAAGGAAGCAGGAGATCGTTCTGCTTTCCGAATTGTGAGGACGCAAAGCTTGGAAAAGCAGGCCGAGGTGAAGCACTTTTACTGCCTTCTGTCTCATCCAAAAGCATATTCAAAGAAGCACTTACTTTAGAAGCTGACCAAATTCCATCTTCATGAACCTTAAAAGTACTGTTGGTAGTTGAATGTGTTTGTGAAGTATGCAAAGAAAATGGATTATCACTACTTTGTCCTTCAATAACGGGGTTAAATTGCGTTGAAGGAATCCAAGCGGCTAGTGCAGCTGCAGGGACAGGTTCTAGCAGGAAAATAACGGAATAATAATCAAGAAAATGAAAATAGAAAACTAAATAGGATGACTAAAAAAACATGCCATGGAATATGAATATGCTTGTTTCCACCTGAAGTTTTGGGTTCGTTATGTGCTCGATGCCTTTTATTCTTCACCCCCATTGGTGGAACGAGAGGAGTAGCGACTGACGCCACAAATGGTTCGATGTCCCAAGGAGAAACTCTGTCAGGTCTTGAAACAGATGCAGGCTCATCCCATTGAACCTGGAAAGATGGAAGAAAAATAATGAAATTTTACATCAATCCAAATGTATTGATTCATTCAATGTCGACAACAACCAAATTATATCCACCTTCAATGATCGCCATTTTGAATCTTTCCACTGTGAGGAACTATCTTCAACTCCTACTATGGTACCTGTAAATCTGGGAAATTACGAAGGAACAACCGAAGAAAAAAGAAAATAGAGATCAGAAATGCAGTATATTGAGAAACTTTATACGGTAGAGAAACATCTCGTTAATTCGAGCTTCAATAAAGTTGATGTTTTACCACCTTTTCTCAGGAATCTCTTCCCCTTCAAAATTCATCTTGAATCTCATGCCAACTGAATACCGATGCTTAACAGCCTCAAGATATTTGTTTAGGCCTACGATAAACTGACTTGTTCTGAAGATTTTCCACACACAATATTGAGAACATAGGCAACATTTAGCATATTCTCACCCAAAAAAAAACAAACTAATTTCAACATTGCTGAAAGGACATAATAAGGGCAGCCCGGTGCATTAAGCTCCCGCTATGCGAGAGGTCCAGGGAAGTGCCGGACCACAAGAGTCTATTGTATGCAGCCTTACCCTGCATTTCTGCAAGAGGTTGTTTCCACAGCTTGAATCCATGACCTCTTGGTCACATGGTAACAATTTTACCAGTTGCGCCAAGGCTCCCCTTGACATCTAAAGTTCAATCTTTTAAGAAAAGAGATGCATAAGAGAAACCTCGGTTTGTAATAAACAACAAACATAGTCTGGGTCGTCACAGCATGAGATGCAGTAGCTAACACTCCTAGGTGCATGCTCTGATTTGAAATCACTGATTGTGGCATTGAGCTCGGTTGGCGAGCAAGTCGTCTAATTCCTATTCGGACTTCACCTTTGTCCCTCCTAAACACGACATATTTGCACAACATAATGAATAAATAGTGATGAATATGATAGATTTAAAGCGCAATAGACAAATAAGCACCAGATATAAACCTCAAGAATACAAAAGAATCCCCCGTAACTAATCTCTTCGAGGAAACAAAGGTACTCCACCCTGTGGTAAGTAAATGCCTCCGGGGTTGGCCTGTTAGTCAAGAATCAAGAGTGAGCACTTGGGCCATATAACAAATTGATAAAGTGTCATCGCTATCATCTTTTTGTTGTTGTCAAACCAAATTGGACACTACGAGTTGTCAAATAATTACCTCTAAATATATGTTTAAAGTGCCACTCGAAGCCATGAAGGTCCTTGGCGACCAATTCCTGTGCTGGAGTCGTTTGGTTCATGTCCTGCATTAAAAAATATAGCATCACAAAATCGACAGGTAATGCATCATTTTCTCAAAATGGACAGACTATAGAATGTAACAACAAAGGATCAAATATATTACCAGGGGAGGTAGGCATTCATTAGCATGTTTCCTGAGAATGGAAAATCCACCGTGAGTGCTCGTATCAGATGCAGTTAGAACCTTGCAGAAGAAATGAACTTTGGGCCTCGGAGGCTCGGGCAGGGACGGATCAGGACTAGTCGGCTCAACTTGCTAAATTGGATGAAAGCAATTATAGGAAAATTGGCCAACAGAACATAAAAGACCAAGTGAACACAACAGAGTTTCATACAAGCAAGAAAGTAGGTTCTTTAAGTTCTTACATCTGCTTCGGGCAACAAAGCAATCTTCGCATAAACCTCATCAGTATCTTGCTCAGCCTACAACGAATTTTCAATGAGAAAGTCCTCATTATAACTTCTTTTTTCTTCAGAAATAACCTAGAATTAGCTATACGAACTTCGTCGCTAATCTACGTCTAAATAGCTCGTAGCTAACAAAATTATTTGATTGTAGTTCAACTACAAAATTTGTTTGTTGCTAATTCTTGTTTTTTTTTAGTAGTTTATATATGCATGAACCTAATACATAGAAACATTACTGTTTAACTAAAACAAGAAAACGGTGAAAGTACAGCTAATTACCAGAAGTTGAATGTGAAGAACGCGACAAAGGATCTTTGGTTGCAGATTGAACAATGGTATTCTCTGATTCAGCTCCTGATTTGTTGATGCCTCCAACTATCCATACCACAA
Download sequence region |
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Ontology terms | None | terms associated with this mRNA |
![]() ![]() | spliced cDNA sequence, including UTRs |
>PGSC0003DMT400014832 Auxin response factor 9
TTGTGGTATGGATAGTTGGAGGCATCAACAAATCAGGAGCTGAATCAGAGAATACCATTGTTCAATCTGCAACCAAAGATCCTTTGTCGCGTTCTTCACATTCAACTTCTGGCTGAGCAAGATACTGATGAGGTTTATGCGAAGATTGCTTTGTTGCCCGAAGCAGATCAAGTTGAGCCGACTAGTCCTGATCCGTCCCTGCCCGAGCCTCCGAGGCCCAAAGTTCATTTCTTCTGCAAGGTTCTAACTGCATCTGATACGAGCACTCACGGTGGATTTTCCATTCTCAGGAAACATGCTAATGAATGCCTACCTCCCCTGGACATGAACCAAACGACTCCAGCACAGGAATTGGTCGCCAAGGACCTTCATGGCTTCGAGTGGCACTTTAAACATATATTTAGAGGCCAACCCCGGAGGCATTTACTTACCACAGGGTGGAGTACCTTTGTTTCCTCGAAGAGATTAGTTACGGGGGATTCTTTTGTATTCTTGAGGAGGGACAAAGGTGAAGTCCGAATAGGAATTAGACGACTTGCTCGCCAACCGAGCTCAATGCCACAATCAGTGATTTCAAATCAGAGCATGCACCTAGGAGTGTTAGCTACTGCATCTCATGCTGTGACGACCCAGACTATGTTTGTTGTTTATTACAAACCGAGGTTTCTCTTATGCATCTCTTTTCTTAAAAGATTGAACTTTAGATGTCAAGGGGAGCCTTGGCGCAACTGGTAAAATTGTTACCATGTGACCAAGAGGTCATGGATTCAAGCTGTGGAAACAACCTCTTGCAGAAATGCAGGGTAAGGCTGCATACAATAGACTCTTGTGGTCCGGCACTTCCCTGGACCTCTCGCATAGCGGGAGCTTAATGCACCGGGCTGCCCTTATTATGTCCTTTCAGCAATGTTGAAATTAGTTTGTTTTTTTTTGGGTGAGAATATGCTAAATGTTGCCTATGTTCTCAATATTGTGTGTGGAAAATCTTCAGAACAAGTCAGTTTATCGTAGGCCTAAACAAATATCTTGAGGCTGTTAAGCATCGGTATTCAGTTGGCATGAGATTCAAGATGAATTTTGAAGGGGAAGAGATTCCTGAGAAAAGATTTACAGGTACCATAGTAGGAGTTGAAGATAGTTCCTCACAGTGGAAAGATTCAAAATGGCGATCATTGAAGGTTCAATGGGATGAGCCTGCATCTGTTTCAAGACCTGACAGAGTTTCTCCTTGGGACATCGAACCATTTGTGGCGTCAGTCGCTACTCCTCTCGTTCCACCAATGGGGGTGAAGAATAAAAGGCATCGAGCACATAACGAACCCAAAACTTCAGAACCTGTCCCTGCAGCTGCACTAGCCGCTTGGATTCCTTCAACGCAATTTAACCCCGTTATTGAAGGACAAAGTAGTGATAATCCATTTTCTTTGCATACTTCACAAACACATTCAACTACCAACAGTACTTTTAAGGTTCATGAAGATGGAATTTGGTCAGCTTCTAAAGTAAGTGCTTCTTTGAATATGCTTTTGGATGAGACAGAAGGCAGTAAAAGTGCTTCACCTCGGCCTGCTTTTCCAAGCTTTGCGTCCTCACAATTCGGAAAGCAGAACGATCTCCTGCTTCCTTGCCTAGACGATGAGAGAAAACGTGATACAATTACATCCTGTAGATTGTTTGGTATTGACTTGAAATCCCCCTCATTTGGTTCTGTTAATGAGAATCCGCCTCTAGAACCAGCCAACAATTCCGATGGCTCTGCTGAAGGGTGCTCTGGAAACACGACTTCTGCTGGTGATTCAGAAGACAACTCTGGCCTTTCAAGAGATTCCGAAGATCAGAAGCAAGAGCAGCTGAATCTGCCACCAAAGGAGGTTCACATCAAGCAGATTTCTTCCACCAGAACTCGCACCAAGGTTCAAATGCAAGGCGTAGCTGTGGGACGTGCTGTGGATTTAACAAAACTGAGTGGATACGATGAGCTCCTAAAGGAACTCGAAGAGATGTTCGATATCCAGGAAGAGCTCCACACACGAAATAAATGGGAGATCGTTTTTACAGACGATGAAGGTGATATGATGCTTATGGGCGATTATCCTTGGCCAGAGTTCTGCAACATCGCGAAGAGGATCTTCATTTGTTCTAGTCAAGACATGAAAAGTTTCAGTGCAAGAACCAAATCGCCGTCTTGTTTAGAAAGTGAAACAACTACTTCAACATGAAAACCGCTCATAAGCTACACTACTTACATCTGTCAGGAGCGAAGACTCCATTTCGTCCTTGATCGTGTTTTCCCAATTGTGACCTTCATTTCTTAAAAAGTTTCGGCCTTGTTGACTGCCAACAGGTATCTGCAATCTTCAATAATAACGCTTAGATTATGAGACTCTATGTCGTCTTGTTGAATAAGCTTGACAACAAGCAAATAGTTGAATCTTTTTTCATCATTTAGTGGAGTTAGTATTAGAAGCTTGTGTATATGTAATTTAATGATTCTGGTGGAGGTTTGGTTGTTGTATCTCTGTAGTTGTACTTACTCAAGTGGGGTTGTTGCAACAGGAAAAACTTACTTACATCTAGTGTTTATGTAAAATCAATAAGTATATGAGGCGTATATTCTATATATACGCGTTTATCGCTTAAATTTGTTTGATTTAAATGCATTCT
TTGTGGTATGGATAGTTGGAGGCATCAACAAATCAGGAGCTGAATCAGAGAATACCATTGTTCAATCTGCAACCAAAGATCCTTTGTCGCGTTCTTCACATTCAACTTCTGGCTGAGCAAGATACTGATGAGGTTTATGCGAAGATTGCTTTGTTGCCCGAAGCAGATCAAGTTGAGCCGACTAGTCCTGATCCGTCCCTGCCCGAGCCTCCGAGGCCCAAAGTTCATTTCTTCTGCAAGGTTCTAACTGCATCTGATACGAGCACTCACGGTGGATTTTCCATTCTCAGGAAACATGCTAATGAATGCCTACCTCCCCTGGACATGAACCAAACGACTCCAGCACAGGAATTGGTCGCCAAGGACCTTCATGGCTTCGAGTGGCACTTTAAACATATATTTAGAGGCCAACCCCGGAGGCATTTACTTACCACAGGGTGGAGTACCTTTGTTTCCTCGAAGAGATTAGTTACGGGGGATTCTTTTGTATTCTTGAGGAGGGACAAAGGTGAAGTCCGAATAGGAATTAGACGACTTGCTCGCCAACCGAGCTCAATGCCACAATCAGTGATTTCAAATCAGAGCATGCACCTAGGAGTGTTAGCTACTGCATCTCATGCTGTGACGACCCAGACTATGTTTGTTGTTTATTACAAACCGAGGTTTCTCTTATGCATCTCTTTTCTTAAAAGATTGAACTTTAGATGTCAAGGGGAGCCTTGGCGCAACTGGTAAAATTGTTACCATGTGACCAAGAGGTCATGGATTCAAGCTGTGGAAACAACCTCTTGCAGAAATGCAGGGTAAGGCTGCATACAATAGACTCTTGTGGTCCGGCACTTCCCTGGACCTCTCGCATAGCGGGAGCTTAATGCACCGGGCTGCCCTTATTATGTCCTTTCAGCAATGTTGAAATTAGTTTGTTTTTTTTTGGGTGAGAATATGCTAAATGTTGCCTATGTTCTCAATATTGTGTGTGGAAAATCTTCAGAACAAGTCAGTTTATCGTAGGCCTAAACAAATATCTTGAGGCTGTTAAGCATCGGTATTCAGTTGGCATGAGATTCAAGATGAATTTTGAAGGGGAAGAGATTCCTGAGAAAAGATTTACAGGTACCATAGTAGGAGTTGAAGATAGTTCCTCACAGTGGAAAGATTCAAAATGGCGATCATTGAAGGTTCAATGGGATGAGCCTGCATCTGTTTCAAGACCTGACAGAGTTTCTCCTTGGGACATCGAACCATTTGTGGCGTCAGTCGCTACTCCTCTCGTTCCACCAATGGGGGTGAAGAATAAAAGGCATCGAGCACATAACGAACCCAAAACTTCAGAACCTGTCCCTGCAGCTGCACTAGCCGCTTGGATTCCTTCAACGCAATTTAACCCCGTTATTGAAGGACAAAGTAGTGATAATCCATTTTCTTTGCATACTTCACAAACACATTCAACTACCAACAGTACTTTTAAGGTTCATGAAGATGGAATTTGGTCAGCTTCTAAAGTAAGTGCTTCTTTGAATATGCTTTTGGATGAGACAGAAGGCAGTAAAAGTGCTTCACCTCGGCCTGCTTTTCCAAGCTTTGCGTCCTCACAATTCGGAAAGCAGAACGATCTCCTGCTTCCTTGCCTAGACGATGAGAGAAAACGTGATACAATTACATCCTGTAGATTGTTTGGTATTGACTTGAAATCCCCCTCATTTGGTTCTGTTAATGAGAATCCGCCTCTAGAACCAGCCAACAATTCCGATGGCTCTGCTGAAGGGTGCTCTGGAAACACGACTTCTGCTGGTGATTCAGAAGACAACTCTGGCCTTTCAAGAGATTCCGAAGATCAGAAGCAAGAGCAGCTGAATCTGCCACCAAAGGAGGTTCACATCAAGCAGATTTCTTCCACCAGAACTCGCACCAAGGTTCAAATGCAAGGCGTAGCTGTGGGACGTGCTGTGGATTTAACAAAACTGAGTGGATACGATGAGCTCCTAAAGGAACTCGAAGAGATGTTCGATATCCAGGAAGAGCTCCACACACGAAATAAATGGGAGATCGTTTTTACAGACGATGAAGGTGATATGATGCTTATGGGCGATTATCCTTGGCCAGAGTTCTGCAACATCGCGAAGAGGATCTTCATTTGTTCTAGTCAAGACATGAAAAGTTTCAGTGCAAGAACCAAATCGCCGTCTTGTTTAGAAAGTGAAACAACTACTTCAACATGAAAACCGCTCATAAGCTACACTACTTACATCTGTCAGGAGCGAAGACTCCATTTCGTCCTTGATCGTGTTTTCCCAATTGTGACCTTCATTTCTTAAAAAGTTTCGGCCTTGTTGACTGCCAACAGGTATCTGCAATCTTCAATAATAACGCTTAGATTATGAGACTCTATGTCGTCTTGTTGAATAAGCTTGACAACAAGCAAATAGTTGAATCTTTTTTCATCATTTAGTGGAGTTAGTATTAGAAGCTTGTGTATATGTAATTTAATGATTCTGGTGGAGGTTTGGTTGTTGTATCTCTGTAGTTGTACTTACTCAAGTGGGGTTGTTGCAACAGGAAAAACTTACTTACATCTAGTGTTTATGTAAAATCAATAAGTATATGAGGCGTATATTCTATATATACGCGTTTATCGCTTAAATTTGTTTGATTTAAATGCATTCT
![]() ![]() | translated polypeptide sequence |
>PGSC0003DMT400014832 Auxin response factor 9
MNFEGEEIPEKRFTGTIVGVEDSSSQWKDSKWRSLKVQWDEPASVSRPDRVSPWDIEPFVASVATPLVPPMGVKNKRHRAHNEPKTSEPVPAAALAAWIPSTQFNPVIEGQSSDNPFSLHTSQTHSTTNSTFKVHEDGIWSASKVSASLNMLLDETEGSKSASPRPAFPSFASSQFGKQNDLLLPCLDDERKRDTITSCRLFGIDLKSPSFGSVNENPPLEPANNSDGSAEGCSGNTTSAGDSEDNSGLSRDSEDQKQEQLNLPPKEVHIKQISSTRTRTKVQMQGVAVGRAVDLTKLSGYDELLKELEEMFDIQEELHTRNKWEIVFTDDEGDMMLMGDYPWPEFCNIAKRIFICSSQDMKSFSARTKSPSCLESETTTST*
MNFEGEEIPEKRFTGTIVGVEDSSSQWKDSKWRSLKVQWDEPASVSRPDRVSPWDIEPFVASVATPLVPPMGVKNKRHRAHNEPKTSEPVPAAALAAWIPSTQFNPVIEGQSSDNPFSLHTSQTHSTTNSTFKVHEDGIWSASKVSASLNMLLDETEGSKSASPRPAFPSFASSQFGKQNDLLLPCLDDERKRDTITSCRLFGIDLKSPSFGSVNENPPLEPANNSDGSAEGCSGNTTSAGDSEDNSGLSRDSEDQKQEQLNLPPKEVHIKQISSTRTRTKVQMQGVAVGRAVDLTKLSGYDELLKELEEMFDIQEELHTRNKWEIVFTDDEGDMMLMGDYPWPEFCNIAKRIFICSSQDMKSFSARTKSPSCLESETTTST*
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![]() ![]() | [Associate new unigene] |
Unigene ID:
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GenBank accessions | None | [Associate new genbank sequence] |
Other genome matches | None |
![]() ![]() | [Associate publication] [Matching publications] |
Genome-wide analysis of Aux/IAA gene family in Solanaceae species using tomato as a model.
Molecular genetics and genomics : MGG (2012)
Show / hide abstract
Show / hide abstract
Auxin plays key roles in a wide variety of plant activities, including embryo development, leaf formation, phototropism, fruit development and root initiation and development. Auxin/indoleacetic acid (Aux/IAA) genes, encoding short-lived nuclear proteins, are key regulators in the auxin transduction pathway. But how they work is still unknown. In order to conduct a systematic analysis of this gene family in Solanaceae species, a genome-wide search for the homologues of auxin response genes was carried out. Here, 26 and 27 non redundant AUX/IAAs were identified in tomato and potato, respectively. Using tomato as a model, a comprehensive overview of SlIAA gene family is presented, including the gene structures, phylogeny, chromosome locations, conserved motifs and cis-elements in promoter sequences. A phylogenetic tree generated from alignments of the predicted protein sequences of 31 OsIAAs, 29 AtIAAs, 31 ZmIAAs, and 26 SlIAAs revealed that these IAAs were clustered into three major groups and ten subgroups. Among them, seven subgroups were present in both monocot and dicot species, which indicated that the major functional diversification within the IAA family predated the monocot/dicot divergence. In contrast, group C and some other subgroups seemed to be species-specific. Quantitative real-time PCR (qRT-PCR) analysis showed that 19 of the 26 SlIAA genes could be detected in all tomato organs/tissues, however, seven of them were specifically expressed in some of tomato tissues. The transcript abundance of 17 SlIAA genes were increased within a few hours when the seedlings were treated with exogenous IAA. However, those of other six SlIAAs were decreased. The results of stress treatments showed that most SIIAA family genes responded to at least one of the three stress treatments, however, they exhibited diverse expression levels under different abiotic stress conditions in tomato seedlings. SlIAA20, SlIAA21 and SlIAA22 were not significantly influenced by stress treatments even though at least one stress-related cis-element was identified in their promoter regions. In conclusion, our comparative analysis provides an insight into the evolution and expression patterns in various tissues and in response to auxin or stresses of the Aux/IAA family members in tomato, which will provide a very useful reference for cloning and functional analysis of each member of AUX/IAA gene family in Solanaceae crops.
Wu, J. Peng, Z. Liu, S. He, Y. Cheng, L. Kong, F. Wang, J. Lu, G.
Molecular genetics and genomics : MGG.
2012.
().
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