Gene Details:
- Gene ID: AT5G02390
- Gene Symbol: DAU1, TRM16
- Gene Name: DUO1-activated unknown 1, TON1 Recruiting Motif 16
- Description: TRM32-like protein (DUF3741);(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009046 — flower — flor (Spanish, exact), 花 (Japanese, exact), floret (related), Asteraceae floret (narrow), basal flower (narrow), double flower (narrow), hermaphrodite flower (narrow), monoclinous flower (narrow), perfect flower (narrow)
Function-related keywords:
Literature:
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- The R2R3 MYB transcription factor DUO1 activates a male germline-specific regulon essential for sperm cell differentiation in Arabidopsis. DOI: 10.1105/tpc.110.081059 ; PMID: 21285328
- The Arabidopsis TRM1-TON1 interaction reveals a recruitment network common to plant cortical microtubule arrays and eukaryotic centrosomes. DOI: 10.1105/tpc.111.089748 ; PMID: 22286137
- Functional gene-mining for salt-tolerance genes with the power of Arabidopsis. DOI: 10.1111/j.1365-313X.2008.03602.x ; PMID: 18643972
- Functional gene-mining for salt-tolerance genes with the power of Arabidopsis. DOI: 10.1111/j.1365-313X.2008.03602.x ; PMID: 18643972
Sequences:
cDNA Sequence
- >AT5G02390.3
ATGGGGAAGAACTTGCGTCACAAAGTTACTTGCTCCCCAATCCAAAACCACCCTGGATTCATGTGGGGTCTATTTGACATTCTTAAACACAACCATTGGCGTTACATCAAGAAACGACTTCCTCACAAAAGACCCGTTTGTAGAAGAACCGCTCCTGGAACAAAAAACGAAGTAAACAACACTATACCATCATCACCAGATGGTATTCCAGTACCCAAGATCAAGCTGGAAGATAAAACAGATGTAGAATCTGTGCAAAGACCAAAGAAGCCTAGTTCTGCAGTAAAGTCCAAAGAGTCTTCCAACTCAGGAGAGAAAACAAAAAAGAAGCATAATCCAGAGGAGAAGTCCAAGAAACTTAATTCAGAAGAGAGGTCAAGAAAAACACATTCTGAAATCAAAAGGTCTGTGAAAGCTTTGATCAAGGCACTTGTAATAGAGGACAAGTCTAAGAAGAAAGGCCGTCACCACCGTAGCTGTACTTATCCTGTCCAGTCAAACTCAAAAGAGAAGGATTCATTGAGTGAGGTTGGATCTTCAGATAAGAATTCCTCAAATGGTGATGAACGTAACCGTGTCTTTAACAAGAAGGTTGGCATTTCACCCGCGGTTGGTTCGTTGAACCCGCTTTATCTCATGTCTGAGGAATCAAGCAACAGTGACAGTGAAGAGTTTAGAGTAGATAACAACATTCAAGTTGATGATAACACTGATGGAAGCAAATCAGATTTTGATGAAAAAGAGTTTAAGAAAAAAGAGAAGAGTGATGATGAGGAAGCTTGGTTTGACCCAAAGATGAGACACACCAAGGGCTTCTCAGAAAATGATGATGATACATCACCTAGAAGGTCAAAAGCATGTCTTGATGCTCTTAACTTGATACACATGAATAGAAACTTCTTGTTAAAGGTATTGCAGGATCCGGGTTCTCCTCTAGCCCGGCATTTCCAGAGCCAACAATCTTTTAGCTCCAAAACTATGACTAAAGCTGGATCCTTTCCTACTCATGGTATCAATAGAGAGGATCATAATAAAGCGTTTGACCCGGTGGGAGATGTCGATAAAATACCGATGTCTCCTCCTTCCATAGCTGCAGAGCACAGAGCTGATGGGATTCAGAAGATGAATGAAACAGTGTTGAAATTGGGTGATGAAGATTCATCTGGTTCTGGTTATGCAAGGAAGCGAGGAAAGAACCAAGTTGTGATCAAACGTTTCAAGGATCTAAGACAGAAGATAAAGCATGTGATTAATGAGAACAAGAACGAGAAACACCGTATCACTATGGATGCTGTGTTGGACAAAGTACCTCGGAAGTACGGTTTTTCGAAAGATTTGAGAGACGATATTTTCGAACACTTGAAAGGAAACTCTGCAGCTAAGAACAACAACAAAGCAGAAGGTACAAAACTGAAGCAAATAACAAGAGCTTCGTCGCTGTGTGGTTCGCTGGATAGATATCTTCAGCTCTATGAGTGTAGCTTCCAAAGAGAAGCGAAGAACAGTAGTAATTCAGAGAAATCAAAGATGGAGTTAGAGGAATCAGCGTTGCCTTCTAAGAGAGCTCCTAAATTCTTGGGGAGGATTCTTTCGTTACCTCAAATGAAATTTCATGCTTTGAAGATTGATGACCTTACTGTCCAATCAATAGAGGAAGAACAAGATGGCTTGGACAACATTTCAGAGATCTCAGAAGATCACTCTCAGTCTTCAGAACATGAAACACTTGACCAAACAATGGATGCTTCTGAGGATTCACCCGTTGATGCAGAAACAGAACAAGACAGAGAGATCTCTACGCTTGACGTTGAACATGAAACAAGATCGTTAAAAGAATCATCAGAAGAAAGTCCTAATAACGTTTCTACAGTTGATATTGACGAAAATGCTTCTGTATTTGATATCTCTCGAGATTTAGATACAGAGACTGTCTCAACAAGCAAACAATTAGATGAAGAAGTCCTCAACATAGATGCACAAGATAAAGTGAAATTCAACTATGTAAGAGACATTCTCGAGATCTCCGGTTTCAATGCACCAGAATCTCTCTCAATGTGGCAATTAGATTACCAGCCACTGGATCCATTAGTCTACGAAGAAGTGACAACGACAACAACAGGATGTATGTTCCAAGATCCAGAATGTTCAAGAAATGAAGAAGAAGGCGGTAACTGCAACCACTTGCTTCTTTTCGATCTAATCAACGAGGTACTAATCGAAATCTACGAAAGGTCTTACCATTATTATCCTAAACCGTTATCATCCCTATGTAAGATCCATCCAATGCCGGTGGGGTATAGTGTTTTGAAAGAGGTTTGGGTTAGAATAAGCTGTTACTTGCGTTACAAGCCATACGACGAACAACAATCGTTTGATAAGGTTATGAGTAGGGATTTGTCGAGAGACGATGGATGGATGGATTTGCAGTTCGAGAGTGAATGTGTTGGGATTGAAGTTGAGGATTTGATCTTCGAGGAGCTTCTGGAAGAATTGCTTATATCATGTTAATAGGCATTCAAGAACTCGAATCATTTCTTCATTTTTCTTCTACTTTGTTGCTTTGCTTGGAGTTTAAGGTACATAAAAGAGAAAATATGGTGTTTGTATGAGTTTTTGTTGTTGTTTATGATAAAACTTTGTTTAAAAGAAATTGTAGAGGATAAATTTTTGGAATATACAAAAATA - >AT5G02390.2
ATGGGGAAGAACTTGCGTCACAAAGTTACTTGCTCCCCAATCCAAAACCACCCTGGATTCATGTGGGGTCTATTTGACATTCTTAAACACAACCATTGGCGTTACATCAAGAAACGACTTCCTCACAAAAGACCCGTTTGTAGAAGAACCGCTCCTGGAACAAAAAACGAAGTAAACAACACTATACCATCATCACCAGATGGTATTCCAGTACCCAAGATCAAGCTGGAAGATAAAACAGATGTAGAATCTGTGCAAAGACCAAAGAAGCCTAGTTCTGCAGTAAAGTCCAAAGAGTCTTCCAACTCAGGAGAGAAAACAAAAAAGAAGCATAATCCAGAGGAGAAGTCCAAGAAACTTAATTCAGAAGAGAGGTCAAGAAAAACACATTCTGAAATCAAAAGGTCTGTGAAAGCTTTGATCAAGGCACTTGTAATAGAGGACAAGTCTAAGAAGAAAGGCCGTCACCACCGTAGCTGTACTTATCCTGTCCAGTCAAACTCAAAAGAGAAGGATTCATTGAGTGAGGTTGGATCTTCAGATAAGAATTCCTCAAATGGTGATGAACGTAACCGTGTCTTTAACAAGAAGGTTGGCATTTCACCCGCGGTTGGTTCGTTGAACCCGCTTTATCTCATGTCTGAGGAATCAAGCAACAGTGACAGTGAAGAGTTTAGAGTAGATAACAACATTCAAGTTGATGATAACACTGATGGAAGCAAATCAGATTTTGATGAAAAAGAGTTTAAGAAAAAAGAGAAGAGTGATGATGAGGAAGCTTGGTTTGACCCAAAGATGAGACACACCAAGGGCTTCTCAGAAAATGATGATGATACATCACCTAGAAGGTCAAAAGCATGTCTTGATGCTCTTAACTTGATACACATGAATAGAAACTTCTTGTTAAAGGTATTGCAGGATCCGGGTTCTCCTCTAGCCCGGCATTTCCAGAGCCAACAATCTTTTAGCTCCAAAACTATGACTAAAGCTGGATCCTTTCCTACTCATGGTATCAATAGAGAGGATCATAATAAAGCGTTTGACCCGGTGGGAGATGTCGATAAAATACCGATGTCTCCTCCTTCCATAGCTGCAGAGCACAGAGCTGATGGGATTCAGAAGATGAATGAAACAGTGTTGAAATTGGGTGATGAAGATTCATCTGGTTCTGGTTATGCAAGGAAGCGAGGAAAGAACCAAGTTGTGATCAAACGTTTCAAGGATCTAAGACAGAAGATAAAGCATGTGATTAATGAGAACAAGAACGAGAAACACCGTATCACTATGGATGCTGTGTTGGACAAAGTACCTCGGAAGTACGGTTTTTCGAAAGATTTGAGAGACGATATTTTCGAACACTTGAAAGGAAACTCTGCAGCTAAGAACAACAACAAAGCAGAAGGTACAAAACTGAAGCAAATAACAAGAGCTTCGTCGCTGTGTGGTTCGCTGGATAGATATCTTCAGCTCTATGAGTGTAGCTTCCAAAGAGAAGCGAAGAACAGTAGTAATTCAGAGAAATCAAAGATGGAGTTAGAGGAATCAGCGTTGCCTTCTAAGAGAGCTCCTAAATTCTTGGGGAGGATTCTTTCGTTACCTCAAATGAAATTTCATGCTTTGAAGATTGATGACCTTACTGTCCAATCAATAGAGGAAGAACAAGATGGCTTGGACAACATTTCAGAGATCTCAGAAGATCACTCTCAGTCTTCAGAACATGAAACACTTGACCAAACAATGGATGCTTCTGAGGATTCACCCGTTGATGCAGAAACAGAACAAGACAGAGAGATCTCTACGCTTGACGTTGAACATGAAACAAGATCGTTAAAAGAATCATCAGAAGAAAGTCCTAATAACGTTTCTACAGTTGATATTGACGAAAATGCTTCTGTATTTGATATCTCTCGAGATTTAGATACAGAGACTGTCTCAACAAGCAAACAATTAGATGAAGAAGTCCTCAACATAGATGCACAAGATAAAGTGAAATTCAACTATGTAAGAGACATTCTCGAGATCTCCGGTTTCAATGCACCAGAATCTCTCTCAATGTGGCAATTAGATTACCAGCCACTGGATCCATTAGTCTACGAAGAAGTGACAACGACAACAACAGGATGTATGTTCCAAGATCCAGAATGTTCAAGAAATGAAGAAGAAGGCGGTAACTGCAACCACTTGCTTCTTTTCGATCTAATCAACGAGGTACTAATCGAAATCTACGAAAGGTCTTACCATTATTATCCTAAACCGTTATCATCCCTATGTAAGATCCATCCAATGCCGGTGGGGTATAGTGTTTTGAAAGAGGTTTGGGTTAGAATAAGCTGTTACTTGCGTTACAAGCCATACGACGAACAACAATCGTTTGATAAGGTTATGAGTAGGGATTTGTCGAGAGACGATGGATGGATGGATTTGCAGTTCGAGAGTGAATGTGTTGGGATTGAAGTTGAGGATTTGATCTTCGAGGAGCTTCTGGAAGAATTGCTTATATCATGTTAATAGGCATTCAAGAACTCGAATCATTTCTTCATTTTTCTTCTACTTTGTTGCTTTGCTTGGAGTTTAAGGTACATAAAAGAGAAAATATGGTGTTTGTATGAGTTTTTGTTGTTGTTTATGATAAAACTTTGTTTAAAAGAAATTGTAGAGGATAAATTTTTGGAATATACAAAAATA - >AT5G02390.1
ATGGGGAAGAACTTGCGTCACAAAGTTACTTGCTCCCCAATCCAAAACCACCCTGGATTCATGTGGGGTCTATTTGACATTCTTAAACACAACCATTGGCGTTACATCAAGAAACGACTTCCTCACAAAAGACCCGTTTGTAGAAGAACCGCTCCTGGAACAAAAAACGAAGTAAACAACACTATACCATCATCACCAGATGGTATTCCAGTACCCAAGATCAAGCTGGAAGATAAAACAGATGTAGAATCTGTGCAAAGACCAAAGAAGCCTAGTTCTGCAGTAAAGTCCAAAGAGTCTTCCAACTCAGGAGAGAAAACAAAAAAGAAGCATAATCCAGAGGAGAAGTCCAAGAAACTTAATTCAGAAGAGAGGTCAAGAAAAACACATTCTGAAATCAAAAGGTCTGTGAAAGCTTTGATCAAGGCACTTGTAATAGAGGACAAGTCTAAGAAGAAAGGCCGTCACCACCGTAGCTGTACTTATCCTGTCCAGTCAAACTCAAAAGAGAAGGATTCATTGAGTGAGGTTGGATCTTCAGATAAGAATTCCTCAAATGGTGATGAACGTAACCGTGTCTTTAACAAGAAGGTTGGCATTTCACCCGCGGTTGGTTCGTTGAACCCGCTTTATCTCATGTCTGAGGAATCAAGCAACAGTGACAGTGAAGAGTTTAGAGTAGATAACAACATTCAAGTTGATGATAACACTGATGGAAGCAAATCAGATTTTGATGAAAAAGAGTTTAAGAAAAAAGAGAAGAGTGATGATGAGGAAGCTTGGTTTGACCCAAAGATGAGACACACCAAGGGCTTCTCAGAAAATGATGATGATACATCACCTAGAAGGTCAAAAGCATGTCTTGATGCTCTTAACTTGATACACATGAATAGAAACTTCTTGTTAAAGGTATTGCAGGATCCGGGTTCTCCTCTAGCCCGGCATTTCCAGAGCCAACAATCTTTTAGCTCCAAAACTATGACTAAAGCTGGATCCTTTCCTACTCATGGTATCAATAGAGAGGATCATAATAAAGCGTTTGACCCGGTGGGAGATGTCGATAAAATACCGATGTCTCCTCCTTCCATAGCTGCAGAGCACAGAGCTGATGGGATTCAGAAGATGAATGAAACAGTGTTGAAATTGGGTGATGAAGATTCATCTGGTTCTGGTTATGCAAGGAAGCGAGGAAAGAACCAAGTTGTGATCAAACGTTTCAAGGATCTAAGACAGAAGATAAAGCATGTGATTAATGAGAACAAGAACGAGAAACACCGTATCACTATGGATGCTGTGTTGGACAAAGTACCTCGGAAGTACGGTTTTTCGAAAGATTTGAGAGACGATATTTTCGAACACTTGAAAGGAAACTCTGCAGCTAAGAACAACAACAAAGCAGAAGGTACAAAACTGAAGCAAATAACAAGAGCTTCGTCGCTGTGTGGTTCGCTGGATAGATATCTTCAGCTCTATGAGTGTAGCTTCCAAAGAGAAGCGAAGAACAGTAGTAATTCAGAGAAATCAAAGATGGAGTTAGAGGAATCAGCGTTGCCTTCTAAGAGAGCTCCTAAATTCTTGGGGAGGATTCTTTCGTTACCTCAAATGAAATTTCATGCTTTGAAGATTGATGACCTTACTGTCCAATCAATAGAGGAAGAACAAGATGGCTTGGACAACATTTCAGAGATCTCAGAAGATCACTCTCAGTCTTCAGAACATGAAACACTTGACCAAACAATGGATGCTTCTGAGGATTCACCCGTTGATGCAGAAACAGAACAAGACAGAGAGATCTCTACGCTTGACGTTGAACATGAAACAAGATCGTTAAAAGAATCATCAGAAGAAAGTCCTAATAACGTTTCTACAGTTGATATTGACGAAAATGCTTCTGTATTTGATATCTCTCGAGATTTAGATACAGAGACTGTCTCAACAAGCAAACAATTAGATGAAGAAGTCCTCAACATAGATGCACAAGATAAAGTGAAATTCAACTATGTAAGAGACATTCTCGAGATCTCCGGTTTCAATGCACCAGAATCTCTCTCAATGTGGCAATTAGATTACCAGCCACTGGATCCATTAGTCTACGAAGAAGTGACAACGACAACAACAGGATGTATGTTCCAAGATCCAGAATGTTCAAGAAATGAAGAAGAAGGCGGTAACTGCAACCACTTGCTTCTTTTCGATCTAATCAACGAGGTACTAATCGAAATCTACGAAAGGTCTTACCATTATTATCCTAAACCGTTATCATCCCTATGTAAGATCCATCCAATGCCGGTGGGGTATAGTGTTTTGAAAGAGGTTTGGGTTAGAATAAGCTGTTACTTGCGTTACAAGCCATACGACGAACAACAATCGTTTGATAAGGTTATGAGTAGGGATTTGTCGAGAGACGATGGATGGATGGATTTGCAGTTCGAGAGTGAATGTGTTGGGATTGAAGTTGAGGATTTGATCTTCGAGGAGCTTCTGGAAGAATTGCTTATATCATGTTAATAGGCATTCAAGAACTCGAATCATTTCTTCATTTTTCTTCTACTTTGTTGCTTTGCTTGGAGTTTAAGGTACATAAAAGAGAAAATATGGTGTTTGTATGAGTTTTTGTTGTTGTTTATGATAAAACTTTGTTTAAAAGAAATTGTAGAGGATAAATTTTTGGAATATACAAAAATA
CDS Sequence
Protein Sequence