Gene Details:
- Gene ID: AT1G01200
- Gene Symbol: ATRAB-A3, ATRABA3, RABA3
- Gene Name: ARABIDOPSIS RAB GTPASE HOMOLOG A3, RAB GTPase homolog A3, RAB GTPase homolog A3
- Description: RAB GTPase homolog A3;(source:Araport11)
- TAIR Accession: locus:2035302
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Gene Ontology:
- GO:0005768 — located in — endosome
- GO:0003924 — enables — GTPase activity
- GO:0042546 — acts upstream of or within — cell wall biogenesis
- GO:0005634 — located in — nucleus
- GO:0005525 — enables — GTP binding
- GO:0005576 — located in — extracellular region
- GO:0005794 — is active in — Golgi apparatus
- GO:0005768 — is active in — endosome
- GO:0009504 — located in — cell plate
Function-related keywords:
Literature:
- Unique drought resistance functions of the highly ABA-induced clade A protein phosphatase 2Cs. DOI: 10.1104/pp.112.202408 ; PMID: 22829320
- PYRABACTIN RESISTANCE1-LIKE8 plays an important role for the regulation of abscisic acid signaling in root. DOI: 10.1104/pp.112.208678 ; PMID: 23370718
- Arabidopsis nanodomain-delimited ABA signaling pathway regulates the anion channel SLAH3. DOI: 10.1073/pnas.1211667110 ; PMID: 23630285
- Structural insights into the abscisic acid stereospecificity by the ABA receptors PYR/PYL/RCAR. DOI: 10.1371/journal.pone.0067477 ; PMID: 23844015
- Targeted degradation of abscisic acid receptors is mediated by the ubiquitin ligase substrate adaptor DDA1 in Arabidopsis. DOI: 10.1105/tpc.113.122234 ; PMID: 24563205
- Mechanism of high-affinity abscisic acid binding to PYL9/RCAR1. DOI: 10.1111/gtc.12140 ; PMID: 24645846
Sequences:
cDNA Sequence
- >AT1G01200.1
ATTTCAACGACTTAAACCAAACCAAATTTACGAAATTTTGGTTTGTAGCAGTTTTAGTTTTATTAAATATGGTTGCGAATGGTTATGAGTGAATCCAACCAATCTCACTGAAGTGGTTCAGAATTTTTGTTAATTCGGTATATTCGTACTGAACCATATAAAACCAAATTTCTTCTCCTTTCTTCTCTTTTCTCTGTTTCACTCACTCCCACTTTACTCAAAAGAGACTTAAACTTTATAGTTGTTTTCTTCATCAGCGCAATAATGAACGAAGAGATGAGCGGTGAGTCGCCGGAGAATAACAAACACGTAAAGAAACCGACGATGCCGGAAAAGATCGATTACGTGTTCAAGGTGGTGGTCATTGGAGATTCTGCTGTCGGGAAAACGCAGCTCCTCTCACGTTTTACACACAACGAGTTCTGTTATGATTCAAAATCAACCATTGGTGTCGAGTTTCAGACACGGACCATCACTCTTCGGGGCAAACTCGTCAAAGCTCAGATCTGGGACACCGCCGGTCAAGAGAGATACAGAGCGGTGACTAGCGCCTACTACAGAGGTGCGTTAGGTGCGATGGTGGTTTACGACATTACCAAACGCCTCTCATTCGACCACGTTGCACGTTGGGTCGAGGAATTACGTGCTCACGCCGATGATTCCGCCGTGATCATGCTCGTCGGAAACAAAGCCGATCTCTCCGTTGGTAAACGTGCCGTTCCTACGGAGGATGCAGTCGAATTCGCCGAGACTCAACGGCTTTTTTTCTCGGAAGTCTCGGCTCTAAGCGGCGGAAACGTCGACGAAGCTTTTTTCCGTTTACTCGAGGAGATTTTCAGCCGCGTTGTTGTTTCGAGAAAAGCTATGGAATCCGACGGTGGAGCCACCGTGAAACTTGACGGTTCGAGAATTGATGTCATCTCTGGTTCGGATCTTGAGACTAGTAATATCAAGGAACAAGCTTCGTGCTCGTGTTGAAATTTTGAGTGATAGGCCATAAAATCAAAAGCCAATTATTGGGCCTTTCTTTAAGCCCATATATGACTCGGATCTTTGTTTGGGTTTTTCATGTTTAGAGAATTAGAGGTGGTGCTTATAGTAAAATCAAAAAGCTATTCATGTGTCACTCGTAATCTCTTTGACATTCTTGTATATGTAAAGAAAAAACAATTCTTTTATTCTGTCAAGTTCCAAGGAGTTTCTTCTA
CDS Sequence
- >AT1G01200.1
ATGAACGAAGAGATGAGCGGTGAGTCGCCGGAGAATAACAAACACGTAAAGAAACCGACGATGCCGGAAAAGATCGATTACGTGTTCAAGGTGGTGGTCATTGGAGATTCTGCTGTCGGGAAAACGCAGCTCCTCTCACGTTTTACACACAACGAGTTCTGTTATGATTCAAAATCAACCATTGGTGTCGAGTTTCAGACACGGACCATCACTCTTCGGGGCAAACTCGTCAAAGCTCAGATCTGGGACACCGCCGGTCAAGAGAGATACAGAGCGGTGACTAGCGCCTACTACAGAGGTGCGTTAGGTGCGATGGTGGTTTACGACATTACCAAACGCCTCTCATTCGACCACGTTGCACGTTGGGTCGAGGAATTACGTGCTCACGCCGATGATTCCGCCGTGATCATGCTCGTCGGAAACAAAGCCGATCTCTCCGTTGGTAAACGTGCCGTTCCTACGGAGGATGCAGTCGAATTCGCCGAGACTCAACGGCTTTTTTTCTCGGAAGTCTCGGCTCTAAGCGGCGGAAACGTCGACGAAGCTTTTTTCCGTTTACTCGAGGAGATTTTCAGCCGCGTTGTTGTTTCGAGAAAAGCTATGGAATCCGACGGTGGAGCCACCGTGAAACTTGACGGTTCGAGAATTGATGTCATCTCTGGTTCGGATCTTGAGACTAGTAATATCAAGGAACAAGCTTCGTGCTCGTGTTGA
Protein Sequence
- >AT1G01200.1
MNEEMSGESPENNKHVKKPTMPEKIDYVFKVVVIGDSAVGKTQLLSRFTHNEFCYDSKSTIGVEFQTRTITLRGKLVKAQIWDTAGQERYRAVTSAYYRGALGAMVVYDITKRLSFDHVARWVEELRAHADDSAVIMLVGNKADLSVGKRAVPTEDAVEFAETQRLFFSEVSALSGGNVDEAFFRLLEEIFSRVVVSRKAMESDGGATVKLDGSRIDVISGSDLETSNIKEQASCSC