Gene Details:
- Gene ID: AT4G18270
- Gene Symbol: ATTRANS11, TRANS11
- Gene Name: ARABIDOPSIS THALIANA TRANSLOCASE 11, translocase 11
- Description: translocase 11;(source:Araport11)
- TAIR Accession: locus:2141892
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009071 — anther wall tapetum — pollen sac tapetum (exact), portion of anther wall tapetal tissue (exact), tapete (Spanish, exact), 葯壁タペート組織 (Japanese, exact), Poaceae tapetum (narrow), Zea tapetum (narrow)
- PO:0020022 — plant ovule inner integument — integumento interno (Spanish, exact), 内珠皮 (Japanese, exact), Poaceae inner integument (narrow)
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
Gene Ontology:
- GO:0044038 — involved in — cell wall macromolecule biosynthetic process
- GO:0071555 — involved in — cell wall organization
- GO:0016020 — located in — membrane
- GO:0006486 — acts upstream of or within — protein glycosylation
- GO:0009507 — located in — chloroplast
- GO:0016780 — enables — phosphotransferase activity, for other substituted phosphate groups
- GO:0008963 — enables — phospho-N-acetylmuramoyl-pentapeptide-transferase activity
- GO:0015450 — enables — protein-transporting ATPase activity
Function-related keywords:
Literature:
- 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
Sequences:
cDNA Sequence
- >AT4G18270.1
GTTGGATTTCAATTTCATACAGATATTTTTGTTTGCGACATAAAAAATCCGGAGTCACCAATCACATAACCCACAGAGAGCTTGACCCAAATCGTTTCTTCTTCATCAACGACGCCATTTACGTTTCTCCACATTCTTTCTTCTTCGTCTCTCACTAAATTCAATTACTCTTCATCACCAACCTTCTGTACTGTCCCCGGAAACGATGCGATGAGATGTTCCTTGTTAACTCCGACTTCTTACCGATTTCATTACCCAAACCCGTTTCGATCTCTTGAATCGATTCCTCCCCTTTCAAATTCACGTTATCGCATCGAATCTGGATCTCCCTCTTCTTTCAAGTTCAGTGCGCCGAGCTTGCAGAGACATAGCTCTGTCTCGGTTAAAGCATTTGATGATGATACATTTGATTTCTATACCGGTGACATATTTGCTGCTACTTATGCTATTTCGTCGAGTGAAGGCGAAGAGAGCGATGGGGATTATGCTTTGAATGTGGTTACCGAAACTACTGCACAGAAGCTAGGAAAGTTTCCAAGAGGTCGCAAAAAGCACAGAATCAGATATGGGATTAATTTGGGGCTTCTTGCTTTTTTGTCACTGCTGCTTCTACTGATGGACTCTTTTGCTTGGAAGATTGTTAGACTACCTTTGCCTCCATATTTCTTAAGCATGCCCTTCTTCACATCGGCGATTCTAGTTACCTTAGCTGGTTATATTTTTGTTCCGCTTCTAGACAGACTGAGAGTGCATGAGCCAATTAGGACATTAGGGCCAGTTCCACATAACCGCAGACCAACAATCCCGACAATGGGTGGGTTGTTTTTTGTTCCAATTGGTGTTGTTGTTGCAATAGCCTTGAATAAAGTTTCATCCATCGAAGTCTTGGGAGCAGCAGCCGCAACTGTAGCATTTGCAGCCATTGGGCTAATTGATGACTCCTTAAGCCTCTACAGTGAGAATAATAATGGTTTATCTGCAAAGATACAACTTCTTTTGGAGGCAGCTGTTGGGACTTGCTTTGCGTTTTGGTTGGAGACTGCAAGCTTATCATCTCCTTATGGCATGAAAATGTTGGTCCCCTTGCCTTCACCATTAGGTCTTGTTTTCTTGGGAAAACTTTACCTACTGTTGACATCGTTTTACTTTGTTTCCATGGGAAACTTAGTCAAAGCAACCGATGGTCTCGATGGATTGGCGGGAGGTATTGCTGCTTTGTGTTTTGTTGCAATGGCAATAGCAGTTCTTCCTATTTGCTCTGATCTCTCTGTATTTGGAGCTTCGATGGCTGGAGCTTGTTTTGGGTTTCTGCTTCACAATCGATACAGAGCATCAGTTTCCATGGGAGATACAGGATCCTTGGCTCTAGGTGGAGCTTTGGCTGCAATGGCTGCTTGCTCAGGAATGTTCTTCCCGTTGTTCATATCGTCTGGTGTCGCAGTTTTGGAAGCTTCTTCTGTCATTATACAGGTCGTGTATTACTCGACAACTAAGCGTTTAAAAGGAAAAGGGCGTCGGATATTCAAGACTATACCGTTTCATCATCACCTTAGGCTAAACGGTTTAAAGGAGCCAATGATAGTAACGATGGCATATGTAATATCCTCTTTGCTCTCTCTTTCAGCAGCTTACATAGGTCTTATTTCTGCATAAGCCTCTTTTTCTTTTTTGCTTCCCCTCTACCCAATTTTTGTTTTCTTGAATTCTTTTAAATAGAGTAATGTTTATTATAGCGACTACTTTTATAAAAGAGTAGGCTACACAAATTTTACGGTTAAATCACATCAATAAGATTTTATTATAGGCTATAACCATTTTATTTTCTCTAATCTTCAACCTTTTTTACGATTTTAATTGGCAATCTAGAATAATAGAAATGCTAGAGATTTGCTATTGTGTTATTCTACTCTTACCAACTTGATGCTTTTAAGTTTTAGCACACATAAAAGAAAAAAAGAAACAGTCTTGATGTTATGTTTTCTTTTTACTATAGTCTAAAGAAACAAATATTTTAAAAACTTGAGCTGGAAATGATCGAGCAAATTTTATTGATGTGATTTAACCGTAATTTGTGTAGTTTTCAACTTTTCATCAAGGCCTACTCTTTTATAAAAATTTCCAATGGATCTAGATCACTTTTCTTGTTTTTCTCTCAACTTTGATGACAAAGTGAAGTAAAGAGAGAAAAAGTAAAGGAACAAAGTTCATATAAATAGACTGGCTACCAAAAATTTCATTAGGTACAATTATATATAGTTTGTTAGTGTTTTAGTCGATAGAATCAGAGACTTTTTTTTACCCATGCATTTGTAATCATTTCGATGATCGTTAAGTCCACCGCGAG
CDS Sequence
Protein Sequence