Information report for AT5G12150
Gene Details
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Functional Descriptions
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- GO:0009574 — colocalizes with — preprophase band
- GO:0005515 — enables — protein binding
- GO:0005737 — located in — cytoplasm
- GO:0009920 — acts upstream of or within — cell plate formation involved in plant-type cell wall biogenesis
- GO:0035091 — enables — phosphatidylinositol binding
- GO:0007165 — involved in — signal transduction
- GO:0007165 — acts upstream of or within — signal transduction
- GO:0005096 — enables — GTPase activator activity
- GO:0005886 — located in — plasma membrane
Functional Keywords
Literature and News
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- Learning the lipid language of plant signalling. DOI: 10.1016/j.tplants.2004.06.008 ; PMID: 15358268
- Global analysis of Arabidopsis gene expression uncovers a complex array of changes impacting pathogen response and cell cycle during geminivirus infection. DOI: 10.1104/pp.108.121038 ; PMID: 18650403
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- Putative RopGAPs impact division plane selection and interact with kinesin-12 POK1. DOI: 10.1038/nplants.2016.120 ; PMID: 27501519
- Arabidopsis pavement cell shape formation involves spatially confined ROPGAP regulators. DOI: 10.1016/j.cub.2021.12.042 ; PMID: 35085497
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
Gene Resources
- UniProt: B3H5D4
- EMBL: CP002688
- AlphaFoldDB: B3H5D4
- EnsemblPlants: AT5G12150.2
- Gramene: AT5G12150.2
- ExpressionAtlas: AT5G12150
- InterPro: IPR000198, IPR001849, IPR008936
- PANTHER: PTHR46265, PTHR46265:SF8
- SUPFAM: SSF48350, SSF50729
- PROSITE: PS50003, PS50238
- Gene3D: 1.10.555.10, 2.30.29.30
- SWISS-MODEL: B3H5D4
- Conserved Domain Database: cd00159, cd00821
Sequences
cDNA Sequence
- >AT5G12150.2
GTGCAGTAGGTCAGACTCTTGTAGTGAATTCACTGCAAAGTAAGGGAAAGCTTGGCTTGGAAATGGGAGTTGAACAAGCCATCGATTCGGGCTAATGTGTATAGTTTGATTCGTCTGGGGAGCTTTTGAGAGATAGCAATTTAGTTTTCCGCTTACGAATGATCTTTTTCTGATGCGTCATTTTGATTAAGTGTGTACTTCTGCAATGGAGGCTTCTCTAGCTGTTATACAGAGGCCTCAAGCTGGAGCTTCGAATACGGTTTATAAGAGTGGCCCTCTCTTCATATCATCAAAAGGACTAGGTTGGACATCCTGGAAGAAGCGTTGGTTTATCCTTACCCGAACTTCTTTGGTCTTTTTCAAAAATGATCCAAGTGCATTACCACAAAAGGGAGGTGAAGTAAATTTGACCCTTGGAGGCATTGACTTGAACAGTTCGGGGAGTGTCGTGGTGAGAGAAGATAAGAAGTTGCTGACTGTACTATTCCCAGATGGGCGTGATGGACGAGCCTTCACCCTTAAGGCTGAGACATTGGACGACTTGTATGAATGGAAGGCTGCCCTTGAGCAAGCCCTTGCACAAGCTCCCAATGCAGCACTTGTAATTGGTCAAAATGGAATATTCCGAACAGAAGCAAACAATACTATTGAAGCATCTTTCAATTCATGGAGGGATCAGCGCCCGTTGAAGTCTTCGGTTGTTGGAAGACCAATTTTGCTAGCTTTAGAAGAAATCGATGGAAGTCCATCTTTTCTTGAGAAAGCACTTCAATTTCTTGAGACATATGGAACCAAAGTAGAAGGAATTTTAAGACAGTCTGCAGATGTTGAGGAGGTAGAACGCAGAGTTCAAGAATACGAACAAGGCAAGACAGAATTCAGTCCTGAAGAGGATCCGCATGTTGTTGGAGACTGTGTTAAGCATGTTCTGCGGCAATTGCCTTCTTCTCCAGTCCCAGCGTCGTGCTGCACTGCTTTGCTTGAAGCTTATAAAATTGATCAGAACGAAGCTCGGGTTAACTCACTGCGCTCTGCTATAATTGAAACATTTCCAGAACCAAACAGGCGACTACTACTGCGGATGCTAAAGATGATGCATACTATCACCTCTCATTCCAGTGAGAATCGCATGACTTCATCTGCTGTTGCTGCATGCATGTCCCCATTGCTCTTACGTCCTCTATTGGCTGGAGAATGTGATCTAGAAGGTTTTGACACTCTAGGAGATAACTCTGCCCAGCTTCTTGCTGCCGCCAATGCTGCCAATAATGCTCAAGCCATTGTCACAGCCCTTTTGGAAGACTATGGGAATATGATCAATGATGAAGGTCTTGGGAGATGCTCCACTTCTACTGATTCTCATATTGGCGACAGTGGGCCTGAGAACTCAAGTGATGAAGAGGAAATAGTGGTTAAACATCCTGACTTGCATACTCTGGATATAGAAGAAGGGGAAACAGATGATGATAATGATGTTCTGCTAAGCAGAAAACCAAGCGAGAGCAGTGATTATGCTGGCAGTGATCTGTATGACTACAAGGGTTTTGGTGTTGAAGATTCAGATGCTGAGTCTCCTAGAGATATCCATTGTTCAGTCGAGAGTACAGACTTTTCCGCTAGAGTGAAAAAACATATTGAAGAACCTATTAAAGATATAGAAGTTTCTAGCGTTTCACCTACTGAAAACTGTTATCAATCAGGGAGAGAGGCTATACCCTCAGTTACTCCCAGTACTCCTCTCACGGCCCTTAGATACACAACATCAGCTGAGAAACCTGCAAGTAAAACTACTGGCTCATCAACAGTAAATTCGAAGCGTTCTTCGTCCTGGGGAAGAGGCAACGGCAAGAAAACACCTGCTAAAGGATCATTTGATTCCTCAGGAAATGACGAGCTTCTTATACAGAGGCTCGAGCACATGAAAGATGAACTGCGACAACGAATCGCTAAGGAGGCTAAAGGAAATGCGGCTCTACAAGCTAGCTTGGAGAGAAGGAAGCAGGCTTTGCACGAACGACGGTTGGCACTTGAACAAGATGTGGGTAGATTACAAGAGCAACTGCAAGCTGAGAGAGACCTACGATCTGCTCTTGAAGTTGGTCTAAGCATTTCTTGTGGACAATTTAGCTCACAAGCTGCGGATTCCAAAACAAGGGCAGAGCTTGAGGAGATTGCTCTTGCTGAAGCTGATGTCGCAAGGTTGAAGCAGAAAGTCGCCGAATTACATCATCAGCTAAGTCAGCAGCGACAGCATCACTTAAGTTCACTCCCAGATGCTCAAAGCCATCACCAGTTTCTCCATAATCACAATACTCAACTGAAGTCTTTTCAACAGGACTTTGATTCCATTCTTGCTTTCGTTAATCACGAAAGAAATCAGAGAACGGATGAAACTAGCCTAAGAGCAGACTGGAGGAATGGCAGAGGAAACAACAGACAAGTACCAGGCTCACCAAGCTTGAATGCAGCATCCTTAGGCATCCCAATGGAAGAGTATTCTCCGGTTAGTGATAGTCTTGTTTAAACCAATCTCACGAGATTCAAATGTGTAAAAAGTGTGAGTAAACGGTCTTGTAGGTAATGGACTACGGAAGACATCATCATCCTCCTGCAACATCTGCAGCTCTCATGGAGCTAACCACTCGTCTGGATTTCTTCAAGGAACGACGGTCACAACTTATGGAACAGATTCAGAATCTTGACCTCAACTATGGTTCCTCTTCTTCTTCTCTGCACCGATCCTCTTCTCCACCATGGAATTAGGCTCTTTGAGAAGCTCTTGTCCAAAAAAATAGAAAAATGTAAAGAAAGTCTCGTCTGTGCAGACTCTTCATGCTTGTAAAACCGGTTCAAGGTTAAACCAACTATATATTTACCACGAAATTGATGAGAAATTGTTTGCTCTTGCTTCGTTGTTAGTGTGATTTATGTGAGTGAGGTTTGTAAAAAGTTGTGTGTATTTCCTCTGTTTTTGTTTCTACATTTTAAATGGTTGGCCGACATATAAATTCAGTTTATTGAAAAGAAGAA - >AT5G12150.1
GTGCAGTAGGTCAGACTCTTGTAGTGAATTCACTGCAAAGTAAGGGAAAGCTTGGCTTGGAAATGGGAGTTGAACAAGCCATCGATTCGGGCTAATGTGTATAGTTTGATTCGTCTGGGGAGCTTTTGAGAGATAGCAATTTAGTTTTCCGCTTACGAATGATCTTTTTCTGATGCGTCATTTTGATTAAGTGTGTACTTCTGCAATGGAGGCTTCTCTAGCTGTTATACAGAGGCCTCAAGCTGGAGCTTCGAATACGGTTTATAAGAGTGGCCCTCTCTTCATATCATCAAAAGGACTAGGTTGGACATCCTGGAAGAAGCGTTGGTTTATCCTTACCCGAACTTCTTTGGTCTTTTTCAAAAATGATCCAAGTGCATTACCACAAAAGGGAGGTGAAGTAAATTTGACCCTTGGAGGCATTGACTTGAACAGTTCGGGGAGTGTCGTGGTGAGAGAAGATAAGAAGTTGCTGACTGTACTATTCCCAGATGGGCGTGATGGACGAGCCTTCACCCTTAAGGCTGAGACATTGGACGACTTGTATGAATGGAAGGCTGCCCTTGAGCAAGCCCTTGCACAAGCTCCCAATGCAGCACTTGTAATTGGTCAAAATGGAATATTCCGAACAGAAGCAAACAATACTATTGAAGCATCTTTCAATTCATGGAGGGATCAGCGCCCGTTGAAGTCTTCGGTTGTTGGAAGACCAATTTTGCTAGCTTTAGAAGAAATCGATGGAAGTCCATCTTTTCTTGAGAAAGCACTTCAATTTCTTGAGACATATGGAACCAAAGTAGAAGGAATTTTAAGACAGTCTGCAGATGTTGAGGAGGTAGAACGCAGAGTTCAAGAATACGAACAAGGCAAGACAGAATTCAGTCCTGAAGAGGATCCGCATGTTGTTGGAGACTGTGTTAAGCATGTTCTGCGGCAATTGCCTTCTTCTCCAGTCCCAGCGTCGTGCTGCACTGCTTTGCTTGAAGCTTATAAAATTGATCAGAACGAAGCTCGGGTTAACTCACTGCGCTCTGCTATAATTGAAACATTTCCAGAACCAAACAGGCGACTACTACTGCGGATGCTAAAGATGATGCATACTATCACCTCTCATTCCAGTGAGAATCGCATGACTTCATCTGCTGTTGCTGCATGCATGTCCCCATTGCTCTTACGTCCTCTATTGGCTGGAGAATGTGATCTAGAAGGTTTTGACACTCTAGGAGATAACTCTGCCCAGCTTCTTGCTGCCGCCAATGCTGCCAATAATGCTCAAGCCATTGTCACAGCCCTTTTGGAAGACTATGGGAATATGATCAATGATGAAGGTCTTGGGAGATGCTCCACTTCTACTGATTCTCATATTGGCGACAGTGGGCCTGAGAACTCAAGTGATGAAGAGGAAATAGTGGTTAAACATCCTGACTTGCATACTCTGGATATAGAAGAAGGGGAAACAGATGATGATAATGATGTTCTGCTAAGCAGAAAACCAAGCGAGAGCAGTGATTATGCTGGCAGTGATCTGTATGACTACAAGGGTTTTGGTGTTGAAGATTCAGATGCTGAGTCTCCTAGAGATATCCATTGTTCAGTCGAGAGTACAGACTTTTCCGCTAGAGTGAAAAAACATATTGAAGAACCTATTAAAGATATAGAAGTTTCTAGCGTTTCACCTACTGAAAACTGTTATCAATCAGGGAGAGAGGCTATACCCTCAGTTACTCCCAGTACTCCTCTCACGGCCCTTAGATACACAACATCAGCTGAGAAACCTGCAAGTAAAACTACTGGCTCATCAACAGTAAATTCGAAGCGTTCTTCGTCCTGGGGAAGAGGCAACGGCAAGAAAACACCTGCTAAAGGATCATTTGATTCCTCAGGAAATGACGAGCTTCTTATACAGAGGCTCGAGCACATGAAAGATGAACTGCGACAACGAATCGCTAAGGAGGCTAAAGGAAATGCGGCTCTACAAGCTAGCTTGGAGAGAAGGAAGCAGGCTTTGCACGAACGACGGTTGGCACTTGAACAAGATGTGGGTAGATTACAAGAGCAACTGCAAGCTGAGAGAGACCTACGATCTGCTCTTGAAGTTGGTCTAAGCATTTCTTGTGGACAATTTAGCTCACAAGCTGCGGATTCCAAAACAAGGGCAGAGCTTGAGGAGATTGCTCTTGCTGAAGCTGATGTCGCAAGGTTGAAGCAGAAAGTCGCCGAATTACATCATCAGCTAAGTCAGCAGCGACAGCATCACTTAAGTTCACTCCCAGATGCTCAAAGCCATCACCAGTTTCTCCATAATCACAATACTCAACTGAAGTCTTTTCAACAGGACTTTGATTCCATTCTTGCTTTCGTTAATCACGAAAGAAATCAGAGAACGGATGAAACTAGCCTAAGAGCAGACTGGAGGAATGGCAGAGGAAACAACAGACAAGTACCAGGCTCACCAAGCTTGAATGCAGCATCCTTAGGCATCCCAATGGAAGAGTATTCTCCGGTTAGTGATAGTCTTGTTTAAACCAATCTCACGAGATTCAAATGTGTAAAAAGTGTGAGTAAACGGTCTTGTAGGTAATGGACTACGGAAGACATCATCATCCTCCTGCAACATCTGCAGCTCTCATGGAGCTAACCACTCGTCTGGATTTCTTCAAGGAACGACGGTCACAACTTATGGAACAGATTCAGAATCTTGACCTCAACTATGGTTCCTCTTCTTCTTCTCTGCACCGATCCTCTTCTCCACCATGGAATTAGGCTCTTTGAGAAGCTCTTGTCCAAAAAAATAGAAAAATGTAAAGAAAGTCTCGTCTGTGCAGACTCTTCATGCTTGTAAAACCGGTTCAAGGTTAAACCAACTATATATTTACCACGAAATTGATGAGAAATTGTTTGCTCTTGCTTCGTTGTTAGTGTGATTTATGTGAGTGAGGTTTGTAAAAAGTTGTGTGTATTTCCTCTGTTTTTGTTTCTACATTTTAAATGGTTGGCCGACATATAAATTCAGTTTATTGAAAAGAAGAA
CDS Sequence
Protein Sequence