Information report for AT5G28646
Gene Details
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Functional Descriptions
- GO:0055028 — located in — cortical microtubule
- GO:0001578 — acts upstream of or within — microtubule bundle formation
- GO:0000226 — involved in — microtubule cytoskeleton organization
- GO:0005634 — located in — nucleus
- GO:0010091 — acts upstream of or within — trichome branching
- GO:0000226 — acts upstream of or within — microtubule cytoskeleton organization
- GO:0009825 — acts upstream of or within — multidimensional cell growth
- GO:0008017 — enables — microtubule binding
- GO:0007163 — acts upstream of or within — establishment or maintenance of cell polarity
- wvd2-1 — Inhibition of cell elongation, right-handed root twisting, left-handed leaf petiole twisting, suppression of root-waving, reduced trichome branching, perturbed microtubule organization such as increased longitudinal and oblique positions in root caps.
Functional Keywords
Literature and News
- WVD2 and WDL1 modulate helical organ growth and anisotropic cell expansion in Arabidopsis. DOI: 10.1104/pp.015966 ; PMID: 12586874
- A survey of dominant mutations in Arabidopsis thaliana. DOI: 10.1016/j.tplants.2012.08.006 ; PMID: 22995285
- The evolution and diversification of plant microtubule-associated proteins. DOI: 10.1111/tpj.12189 ; PMID: 23551562
- COP1 mediates dark-specific degradation of microtubule-associated protein WDL3 in regulating Arabidopsis hypocotyl elongation. DOI: 10.1073/pnas.1708087114 ; PMID: 29087315
Gene Resources
- UniProt: A0A1P8BFP4
- EMBL: CP002688
- AlphaFoldDB: A0A1P8BFP4
- EnsemblPlants: AT5G28646.3
- Gramene: AT5G28646.3
- ExpressionAtlas: AT5G28646
- InterPro: IPR027329, IPR044806
- PANTHER: PTHR46372, PTHR46372:SF25
- SWISS-MODEL: A0A1P8BFP4
Sequences
cDNA Sequence
- >AT5G28646.3
CACCGGTCAAAAACAACAGAACCTATCTTTATTTCCTTCAGAGAGAGAGAGATAAAGGAAAAATCTTTTGTTCTTGTCTGAAAAAAACCTCACGACAGATCGGAAAGAGTAAGCTTATCAAGAATCATTGTTCAATCAGACAAGATCTTAAGTTGGAATGAGAAGAGAAGTTTTTGAGTCGGTGAGCACCAATGCTTCTAATGAAAGGGTTCACGTGGCTCCCAAAATAGCGGCAGAGGAACAAGATTATGAGGAGAAAGAATGCACTGAGGAGAATTCTCTCTCTCAGAATCATAAATCTTCTAATAATGATTCGAAGAAGAAGAATTTGGATGAAGAGGATGATTGTTCTGTTGCTTCTTCGATGAAGAATGCTAAGTCTAAAGTAACTCATGGAACCGCTCCACGATTTAGGAGTGCTCAGCGCGCTGAGAAACGAAAAGAGTATTACCAAAAGCTTGAAGAGAAACACCAAGCACTTGAAGCTGAAAGGATCGAGCTCGAACAAAGACAAAAGGAAGAACAAGAAGCAGCTATTAAACAGCTTCGGAAAAACCTTAAGTTTAAGGCTAATCCTGTTCCTGACTTCTATTACCAACGACCTCCCGTGAAACCAGAGCTTAAGAAGTTTCCTCTGACGCGTCCTAAGTCGCCGAAACTCAATCTGTCCAGGAGAAAGAGTTGCAGCGATGCGATTACCTCGTCTGGTGAAGAGAATTCGAACTCACAGAATCGCCAGAGTGTGGTAGAATGATTGCTCTCAAAAAGCTTCCACGGAGTAAGAGGTTTCCATAACCTAATTTTACTAGACCGGAGATAACCAAACTTTTATTTCCGGTTATTTATGGTATTTGTTCGATTTCACAATCGTTGTCCTCCAACGATTTATTGATTGTTTTTTGTTTTTCACGTCTGTCTCTACTTGATTTCTGTTTTAATTTTACGTAACGTTTAAATCTGAAACTGTATATTGAATGTGTTGAAGAATCTTGGTGCTAAAGATAGTGTTGATTATATCGTTCGTTGATATGTATGGACTAATAATACGTTTGTTGTGATTTTTTTGAGAGTTATAGAGAATACCAAA - >AT5G28646.1
CACCGGTCAAAAACAACAGAACCTATCTTTATTTCCTTCAGAGAGAGAGAGATAAAGGAAAAATCTTTTGTTCTTGTCTGAAAAAAACCTCACGACAGATCGGAAAGAGTAAGCTTATCAAGAATCATTGTTCAATCAGACAAGATCTTAAGTTGGAATGAGAAGAGAAGTTTTTGAGTCGGTGAGCACCAATGCTTCTAATGAAAGGGTTCACGTGGCTCCCAAAATAGCGGCAGAGGAACAAGATTATGAGGAGAAAGAATGCACTGAGGAGAATTCTCTCTCTCAGAATCATAAATCTTCTAATAATGATTCGAAGAAGAAGAATTTGGATGAAGAGGATGATTGTTCTGTTGCTTCTTCGATGAAGAATGCTAAGTCTAAAGTAACTCATGGAACCGCTCCACGATTTAGGAGTGCTCAGCGCGCTGAGAAACGAAAAGAGTATTACCAAAAGCTTGAAGAGAAACACCAAGCACTTGAAGCTGAAAGGATCGAGCTCGAACAAAGACAAAAGGAAGAACAAGAAGCAGCTATTAAACAGCTTCGGAAAAACCTTAAGTTTAAGGCTAATCCTGTTCCTGACTTCTATTACCAACGACCTCCCGTGAAACCAGAGCTTAAGAAGTTTCCTCTGACGCGTCCTAAGTCGCCGAAACTCAATCTGTCCAGGAGAAAGAGTTGCAGCGATGCGATTACCTCGTCTGGTGAAGAGAATTCGAACTCACAGAATCGCCAGAGTGTGGTAGAATGATTGCTCTCAAAAAGCTTCCACGGAGTAAGAGGTTTCCATAACCTAATTTTACTAGACCGGAGATAACCAAACTTTTATTTCCGGTTATTTATGGTATTTGTTCGATTTCACAATCGTTGTCCTCCAACGATTTATTGATTGTTTTTTGTTTTTCACGTCTGTCTCTACTTGATTTCTGTTTTAATTTTACGTAACGTTTAAATCTGAAACTGTATATTGAATGTGTTGAAGAATCTTGGTGCTAAAGATAGTGTTGATTATATCGTTCGTTGATATGTATGGACTAATAATACGTTTGTTGTGATTTTTTTGAGAGTTATAGAGAATACCAAA - >AT5G28646.2
CACCGGTCAAAAACAACAGAACCTATCTTTATTTCCTTCAGAGAGAGAGAGATAAAGGAAAAATCTTTTGTTCTTGTCTGAAAAAAACCTCACGACAGATCGGAAAGAGTAAGCTTATCAAGAATCATTGTTCAATCAGACAAGATCTTAAGTTGGAATGAGAAGAGAAGTTTTTGAGTCGGTGAGCACCAATGCTTCTAATGAAAGGGTTCACGTGGCTCCCAAAATAGCGGCAGAGGAACAAGATTATGAGGAGAAAGAATGCACTGAGGAGAATTCTCTCTCTCAGAATCATAAATCTTCTAATAATGATTCGAAGAAGAAGAATTTGGATGAAGAGGATGATTGTTCTGTTGCTTCTTCGATGAAGAATGCTAAGTCTAAAGTAACTCATGGAACCGCTCCACGATTTAGGAGTGCTCAGCGCGCTGAGAAACGAAAAGAGTATTACCAAAAGCTTGAAGAGAAACACCAAGCACTTGAAGCTGAAAGGATCGAGCTCGAACAAAGACAAAAGGAAGAACAAGAAGCAGCTATTAAACAGCTTCGGAAAAACCTTAAGTTTAAGGCTAATCCTGTTCCTGACTTCTATTACCAACGACCTCCCGTGAAACCAGAGCTTAAGAAGTTTCCTCTGACGCGTCCTAAGTCGCCGAAACTCAATCTGTCCAGGAGAAAGAGTTGCAGCGATGCGATTACCTCGTCTGGTGAAGAGAATTCGAACTCACAGAATCGCCAGAGTGTGGTAGAATGATTGCTCTCAAAAAGCTTCCACGGAGTAAGAGGTTTCCATAACCTAATTTTACTAGACCGGAGATAACCAAACTTTTATTTCCGGTTATTTATGGTATTTGTTCGATTTCACAATCGTTGTCCTCCAACGATTTATTGATTGTTTTTTGTTTTTCACGTCTGTCTCTACTTGATTTCTGTTTTAATTTTACGTAACGTTTAAATCTGAAACTGTATATTGAATGTGTTGAAGAATCTTGGTGCTAAAGATAGTGTTGATTATATCGTTCGTTGATATGTATGGACTAATAATACGTTTGTTGTGATTTTTTTGAGAGTTATAGAGAATACCAAA
CDS Sequence
Protein Sequence