Information report for AT5G13680
Gene Details
|
|
Functional Descriptions
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- GO:0071215 — involved in — cellular response to abscisic acid stimulus
- GO:0009965 — acts upstream of or within — leaf morphogenesis
- GO:0080178 — acts upstream of or within — 5-carbamoylmethyl uridine residue modification
- GO:0048530 — acts upstream of or within — fruit morphogenesis
- GO:0009787 — involved in — regulation of abscisic acid-activated signaling pathway
- GO:0010928 — involved in — regulation of auxin mediated signaling pathway
- GO:0051301 — acts upstream of or within — cell division
- GO:0035265 — acts upstream of or within — organ growth
- GO:0009737 — involved in — response to abscisic acid
- GO:0002926 — involved in — tRNA wobble base 5-methoxycarbonylmethyl-2-thiouridinylation
- GO:0005829 — is active in — cytosol
- GO:0006400 — acts upstream of or within — tRNA modification
- GO:0000049 — enables — tRNA binding
- GO:0005634 — located in — nucleus
- GO:0031538 — involved in — negative regulation of anthocyanin metabolic process
- GO:0033588 — part of — elongator holoenzyme complex
- GO:2000024 — involved in — regulation of leaf development
- GO:0043621 — enables — protein self-association
- GO:0008284 — involved in — positive regulation of cell population proliferation
- GO:0006979 — involved in — response to oxidative stress
- elo2 — Reduced organ growth. Reduced cell proliferation rate.
Functional Keywords
Literature and News
- DRL1, a homolog of the yeast TOT4/KTI12 protein, has a function in meristem activity and organ growth in plants. DOI: 10.1105/tpc.007062 ; PMID: 12615938
- The elongata mutants identify a functional Elongator complex in plants with a role in cell proliferation during organ growth. DOI: 10.1073/pnas.0502600102 ; PMID: 15894610
- Elongator mediates ABA responses, oxidative stress resistance and anthocyanin biosynthesis in Arabidopsis. DOI: 10.1111/j.1365-313X.2009.03931.x ; PMID: 19500300
- Plant Elongator regulates auxin-related genes during RNA polymerase II transcription elongation. DOI: 10.1073/pnas.0913559107 ; PMID: 20080602
- Transfer RNA modifications and genes for modifying enzymes in Arabidopsis thaliana. DOI: 10.1186/1471-2229-10-201 ; PMID: 20836892
- Elongator and its epigenetic role in plant development and responses to abiotic and biotic stresses. DOI: 10.3389/fpls.2015.00296 ; PMID: 25972888
- Elongator Is Required for Root Stem Cell Maintenance by Regulating SHORTROOT Transcription. DOI: 10.1104/pp.18.00534 ; PMID: 30401723
Gene Resources
Sequences
cDNA Sequence
- >AT5G13680.1
AACAGAGAAGAAAAGAAAAACAGAGAAGAAGGCGTGTTTTAGGTTAAACCCTAAATATTATTATATCAGTGATTTCTGGGGTTTAAATCTGCTTCCTGGATCTGTAGCTGCAAAGTTCGTTGATGTTGTACTGATTCTTACTTCTTCGAAAATGAAAAATTTGAAGCTTTTCTCGGAGGTTCCTCAGAACATCCAATTGCATTCGACTGAAGAAGTTGTACAGTTCGCAGCTTATGACATCGACCAAAGTCGCTTATTTTTCGCATCTTCTGCTAATTTCGTTTACGCCCTTCAGCTCTCTTCCTTCCAAAATGAAAGCGCTGGGGCAAAGAGTGCTATGCCTGTGGAGGTCTGCAGTATTGATATTGAGCCTGGGGATTTCATCACGGCTTTCGATTATCTCGCGGAGAAGGAGTCTCTATTAATTGGGACTTCTCATGGGCTTTTGCTAGTGCATAATGTGGAGAGTGATGTGACTGAGCTAGTTGGAAATATAGAAGGAGGTGTCAAGTGTATCTCGCCTAATCCGACTGGAGATCTACTTGGATTGATTACTGGTCTTGGGCAGTTGCTTGTAATGACTTATGATTGGGCTTTGATGTACGAGAAGGCGCTTGGAGAGGTTCCTGAAGGTGGTTACGTACGTGAAACGAATGATTTGTCTGTAAATTGTGGGGGTATTTCCATTTCCTGGAGGGGTGATGGAAAGTATTTTGCGACTATGGGTGAGGTTTATGAGTCTGGTTGTATGTCTAAGAAGATTAAGATATGGGAAAGTGATTCCGGTGCTTTGCAGTCTTCTTCAGAAACAAAAGAATTTACGCAGGGGATTCTTGAATGGATGCCGAGTGGTGCTAAAATCGCAGCTGTTTATAAGAGGAAGTCAGATGATAGCAGTCCATCGATTGCTTTCTTTGAGAGGAATGGACTTGAGAGAAGCTCGTTTAGAATTGGTGAACCAGAAGATGCTACGGAATCATGTGAAAATCTGAAATGGAATTCTGCATCAGATCTTCTTGCAGGGGTTGTTAGTTGTAAAACATATGATGCCATTAGGGTGTGGTTCTTTAGCAACAACCACTGGTACCTGAAACAGGAGATTAGGTATCCAAGGGAAGCTGGGGTAACAGTCATGTGGGATCCAACAAAGCCACTGCAGTTAATATGTTGGACTCTGTCAGGGCAGGTGTCTGTTCGCCACTTTATGTGGGTAACAGCGGTCATGGAGGACTCAACAGCCTTTGTCATAGATAACTCCAAGATACTCGTGACACCACTATCTTTGTCCTTGATGCCACCTCCTATGTATTTGTTCAGCCTTAGTTTTTCTTCTGCTGTCAGAGATATAGCATATTACTCAAGGAATTCTAAGAATTGTCTGGCTGTGTTTTTGTCAGATGGAAACCTGTCTTTTGTTGAGTTCCCTGCACCTAATACTTGGGAAGATCTCGAAGGCAAAGACTTCAGTGTGGAAATTTCAGACTGTAAAACAGCACTGGGCTCTTTTGTACATCTTCTATGGTTGGATGTCCACTCACTTCTGTGTGTCTCCGCTTATGGTTCTAGCCACAACAAGTGTCTCTCTTCGGGAGGGTATGACACAGAGCTTCATGGTTCTTATTTACAAGAAGTTGAAGTAGTCTGTCATGAGGATCATGTTCCTGATCAAGTGACTTGCTCTGGCTTTAAGGCTAGCATTACTTTCCAGACACTTCTCGAATCACCGGTCCTGGCTCTTGCCTGGAATCCTAGTAAGCGTGATTCAGCCTTTGTGGAGTTTGAGGGTGGGAAAGTGCTTGGATATGCGTCAAGGTCAGAAATTATGGAAACTCGTAGTAGTGATGATAGTGTATGTTTTCCATCGACTTGTCCTTGGGTGAGGGTGGCACAGGTTGATGCTAGTGGGGTGCATAAACCCTTGATATGTGGGCTTGATGATATGGGTAGACTGTCCATCAACGGGAAGAACCTATGTAATAACTGTAGCAGTTTCTCATTTTATTCAGAGTTGGCCAATGAAGTAGTTACCCATCTGATTATTTTGACCAAACAGGATTTTCTCTTTATTGTCGATACCAAGGATGTACTGAATGGAGATGTGGCACTTGGAAATGTGTTCTTTGTTATTGATGGTAGAAGGCGAGACGAGGAAAATATGAGCTATGTTAATATTTGGGAAAGAGGTGCAAAAGTGATAGGAGTCCTCAATGGAGATGAAGCTGCTGTGATATTACAAACTATGCGGGGGAATCTCGAATGCATATATCCCAGAAAGCTGGTCCTCTCTTCCATTACGAATGCGTTAGCTCAGCAACGGTTCAAAGATGCATTTAACTTGGTAAGGCGTCATAGAATCGACTTTAATGTTATCGTGGATCTATATGGGTGGCAGGCATTTCTACAGTCAGCCGTAGCATTTGTTGAGCAAGTAAACAATTTGAACCATGTTACAGAATTTGTTTGTGCCATGAAGAATGAAGATGTTACAGAAACGCTGTACAAAAAGTTTTCCTTTTCCAAAAAGGGAGACGAGGTTTTTCGTGTGAAAGATAGTTGCAGTAACAAAGTATCATCAGTTCTACAGGCAATTAGGAAGGCCCTTGAAGAACATATCCCAGAAAGTCCATCAAGGGAACTCTGTATTTTGACCACTCTTGCCCGAAGTGATCCACCAGCTATCGAAGAATCTCTTTTGAGGATAAAATCTGTTCGTGAAATGGAGTTGCTAAACTCTTCTGATGATATAAGGAAAAAGTCTTGTCCATCTGCAGAAGAAGCCTTGAAACATCTTCTGTGGTTATTGGATTCTGAGGCTGTCTTTGAAGCTGCCTTAGGTCTTTATGATCTGAACCTTGCAGCTATTGTGGCACTCAATTCCCAGCGTGATCCAAAAGAATTTTTACCTTATCTCCAGGAGCTGGAAAAAATGCCCGAATCCCTGATGCATTTCAAGATTGACATTAAATTGCAGCGTTTTGATAGTGCTCTTAGGAACATTGTATCAGCAGGGGTTGGCTACTTTCCTGATTGCATGAACTTAATAAAGAAAAACCCTCAACTTTTCCCTCTGGGCCTCCTGCTAATTACTGATCCTGAGAAGAAACTAGTTGTTCTAGAGGCTTGGGCAGATCACCTCATTGATGAAAAACGTTTTGAGGATGCTGCTACTACATACCTATGTTGCTGTAAACTGGAAAAGGCTTCAAAGGCATATCGTGAATGTGGTGACTGGAGTGGGGTACTCCGAGTGGGGGCGCTAATGAAATTAGGTAAAGATGAGATCTTGAAATTGGCATATGAACTCTGTGAAGAGGTCAATGCTCTTGGGAAACCAGCGGAAGCAGCAAAAATAGCGCTTGAGTATTGCAGCGATATAAGCGGTGGAATTAGTTTGCTTATCAATGCGAGGGAATGGGAAGAGGCTTTAAGGGTTGCATTTTTGCATACAGCAGATGATAGAATCTCAGTGGTGAAAAGTTCTGCTTTGGAGTGTGCTAGTGGTCTAGTAAGTGAATTCAAAGAATCAATAGAAAAGGTAGGAAAATATTTGACTCGCTATCTAGCTGTCCGGCAGAGACGATTATTGCTTGCAGCAAAGCTCAAATCCGAGGAACGATCTGTTGTTGATCTTGACGATGACACAGCTTCAGAAGCAAGTAGCAACCTGAGTGGAATGAGCGCCTATACTTTGGGGACAAGGAGAGGTTCTGCTGCTTCAGTCAGCTCAAGCAACGCTACTAGCAGGGCAAGAGATTTGAGGCGCCAGAGAAAGAGTGGGAAAATCCGTGCTGGCAGTGCGGGTGAGGAGATGGCTCTTGTTGATCATTTGAAAGGTATGCGTATGACCGATGGAGGAAAGCGAGAGCTGAAGTCGTTGTTGATATGTCTGGTAACACTTGGTGAAATGGAGTCTGCACAGAAGTTGCAACAGACTGCAGAGAATTTCCAGGTCTCCCAAGTAGCAGCTGTAGAGCTAGCACACGATACAGTGTCCAGCGAGAGCGTAGATGAAGAAGTTTATTGCTTTGAACGTTACGCTCAGAAGACGAGATCCACAGCACGAGATTCAGATGCCTTTAGCTGGATGCTTAAGGTCTTCATAAGCCCATGAAAATCTCTACATCTGTTTTTGACTGAATAAGCTTGTGCTTTTTAAACATCAAAACCTTCCTCTACCGTTTTGTATCTTTCCTATTGTTACTGTACTATGAGATTAAGGTGCATCTGCTACATTTTTGTTCATTGCTAATGCTTACATTCCGATTCAAAAGGAACCTTTAACCACAACAAGTAAAAAATGACGAGATGTCCGTTACACA
CDS Sequence
Protein Sequence