Gene Details:
- Gene ID: AT4G19490
- Gene Symbol: ATVPS54, MTV17, VPS54
- Gene Name: ARABIDOPSIS THALIANA VPS54 HOMOLOG, modified transport to the vacuole 17
- Description: VPS54;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0025281 — pollen — polen (Spanish, exact), pollen grain (exact), 花粉 (Japanese, exact)
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
- Mutation in a homolog of yeast Vps53p accounts for the heat and osmotic hypersensitive phenotypes in Arabidopsis hit1-1 mutant. DOI: 10.1007/s00425-005-0216-6 ; PMID: 16408208
- Comparative mapping of Brassica juncea and Arabidopsis thaliana using Intron Polymorphism (IP) markers: homoeologous relationships, diversification and evolution of the A, B and C Brassica genomes. DOI: 10.1186/1471-2164-9-113 ; PMID: 18315867
- The POK/AtVPS52 protein localizes to several distinct post-Golgi compartments in sporophytic and gametophytic cells. DOI: 10.1093/jxb/ern162 ; PMID: 18583349
- Tethering factors required for cytokinesis in Arabidopsis. DOI: 10.1104/pp.110.154286 ; PMID: 20713617
- Involvement of the Arabidopsis HIT1/AtVPS53 tethering protein homologue in the acclimation of the plasma membrane to heat stress. DOI: 10.1093/jxb/err060 ; PMID: 21398432
- and microtubule-associated compartments in the plant vacuolar trafficking pathway. DOI: 10.1073/pnas.1919820117 ; PMID: 32321832
- The Arabidopsis thaliana chloroplast proteome reveals pathway abundance and novel protein functions. DOI: 10.1016/j.cub.2004.02.039 ; PMID: 15028209
- The POK/AtVPS52 protein localizes to several distinct post-Golgi compartments in sporophytic and gametophytic cells. DOI: 10.1093/jxb/ern162 ; PMID: 18583349
- Analysis of the Arabidopsis cytosolic proteome highlights subcellular partitioning of central plant metabolism. DOI: 10.1021/pr1009433 ; PMID: 21166475
- The Arabidopsis thaliana chloroplast proteome reveals pathway abundance and novel protein functions. DOI: 10.1016/j.cub.2004.02.039 ; PMID: 15028209
- Analysis of the Arabidopsis cytosolic proteome highlights subcellular partitioning of central plant metabolism. DOI: 10.1021/pr1009433 ; PMID: 21166475
Sequences:
cDNA Sequence
- >AT4G19490.2
TTTCTGTAGATGACGTGGATACCTAATGCACCGTCGATTAAATCTGCGTAGTGAAACCCCGCACTGCTCACAGCACCACCTCTCTCGAACCATCGAGTCTCGAACCCAGAGAGGACTTTCCTCAGTGAGTCCTCCGTTCCTTAGCTTCTCTTCCAGATCCAAACTCTCACCAAACTTTCTCACAACACACACACAATTCGATTCGATCCACACTCTTAAAATCCCAAAGATCTCTCTGATTTTGAAATTCGATTCTTCCCCAGATCAACTTGTGAATTTTTCCACAATTTTGGTTCATGATTTTGATTTCGTGAAGGACTTATGGATTCACACCCTTCCCTAATGGGAAGGTCCATTACCAATTCGAACCGATCGAGCTTAGATCTTGGTCGTCCTTCTTCGTCTTCTTCATCTTCTCCTTCACCGTTAACCAAATCGATCTCCGATGCAAGTAGTCAAAGTCTCTCTTCGATCCTTAACAATCCACACGGAGGTAAGTCTGGTGTTTATGGTTCCGATGCATCTTGGGTTGGTTGGTGGTCTTCATCGACATTTGTAGCTCCAGCTGAGTTTGCGCCTGTTGCTTCAACGAAGCTCCCTGGTTCGGAGCTAACCAGATCCGACTTCCATGGCTACGTTTCTTCGATCTCTGAGTCTCATGGTAGATTTGAGGATATTAGGAAGCATACTAGGGAAGAGAGCTGTGGGTTTGATCAGGAGAGCCATGTATCGGGTTTAGCTGCGTGTTTGCGTGAGGTTCCTTCGCTTTACTTTAAGGAGGATTTTGCTCTTGAGGACGGAGCTACATTTCGTTCTGCTTGCCCTTTCTCGAGCCTTAATGAGAATCTAGCGCTTCAAGAGAAGTTGTCACAGTATCTTGATGTGGTGGAGCTGCATCTTGTGAAGGAGATCTCTGTGAGGTCTGATTCGTTTTTTGAGGCTCAAGGACAGTTACAGGATTTGAATGTGAAGATTGTTGAGGGTTGTAGTAGGATTCGTGAGTTGAAAGAGACTATTCGGCTCCTGGATAGGAATTTGGTAGATTCAGCTCGACAGATTCAAGAGCTGAGCTCAACTAGGATTAATATGCTGGAGCTGCAACGTAAATTAAGACTTATTTTGTATGTTAACCAAGCTCTCTCTGCACTCAAATTGCTTGTTGCGTCCGCAGATTGTGCTGGAGCTTTGGATATAACTGACGATCTCCAGAACTTGCTGGCTGGGGATGAGCTTACTGGTCTATACTGCTTCCGCCATCTTCGGGATCATGTTACTAGTTCCATAGATTCCATAAACAGTATTCTCACTTCAGAATTCATGCGTATCTCCATACATGATACTGGGGAGATAGATGTACTGATTTTATCTGCAGCAAATATACGGGGATCCATTTCATCTAACGGGAATACCGGCGAAGAAGTTAAGTTAGAAGAAGAGGATACCTCTACCTTATGTGATCGGCTTCTTCCTTTAGTTATTGGATTGCTAAGAACGGCAAAGTTCCCGTCAATTTTGAGGATGTATCGTGATACACTCACATCCGAAATGAAAAATGCAATCAAGAAAGCAGTTGCTGATCTGCTTCCCATTCTTGTTGCAAGATCGCTCGAATCTGATTTTTCACATGGGGAGCGCTCTGTAGATGATGGTGGTGGCTTATCTCTCGCGAGCAAATTGAGGACTCTGTCATCTGAGGCTTTTGTTAATCTCTTAACTGCTATATTTAAGATTGTTCAGGCACATCTAGTCCGGGCTTCGGAAGTGAAAAAAGCAATTGAATGGATTCTCTGCAATATCGATGGACATTATGCCGCTGATTCAGTTGCAGCTGCAATTGCTGTTGGTGCTGTAGCAGCCGAAACAGCTCAAGAAATAGGTTTCCAAGGCGGGTCATTAGTGTCTTCTCCATTGGGTAAGGCTACCTCAAAGGCCCCTCCATTGCAGGGAAAATCGAGTGATGCATCAAGCTTGATGAACATGTCAAGAAACTTCAGGGCCGATGTCTTGAGAGAAAATACAGAAGCTGTCTTTGCGGCTTGTGAGGTTACTCATGGTAGGTGGGCAAAGCTACTAGGAGTTCGCGCTCTTCTTCATCCAAAATTGAAATTGCAAGAGTTCATGAGCATTTATGATCTGACCCAAGAATTTATAACATCTACGGAGAAGATTGGTGGAAGGTTGGGTTCTAGTATTCGTGGGACGCTGCAATCACAAGCCAAAGCCTTTGTGGACTCCCAGCACGAATCTCGGATGACAAAACTAAAAGCTGTGCTTGATCAAGAAACATGGGATGAGATAGATGTTCCTGAAGAATTTCAATCCATAATCAGTTCTCTTTTTGCATCCCAGCGGTTGATCTCTGGGAAAGTTGATGATGCTGATCTTAATTCATACCACAGTAATCGGCTCCCTCTCAATGGGTCTCTCACTTCTGGATCTGGGGATCAAAATAGTGAATTACGAAATGAAAAATCTGAATCTAGTGAAGGTTCTGTAGTTAGTGATGCACAAGTGAAACCCACAGTCTCACCTGAGTCTCTTGAAAGAAGCAAGGCTGGTGTATCTTCAGCTACGAATAATCAAAGTAATCAGAAGGCGCACGGAAAATCTAACCTTTTCTATCAAGGAGTTGGTTACCACATGGTAAACTGTGGGTTAATATTGCTCAAGATGCTGTCGGAATACATTGATATGAACAATTCTTTGCCAGCTTTGTCCTCGGAAATTGTTCTTCGTGTTGTTGAAGTGTTGAGATTTTTCAACACTCGGACATGCCAACTTGTTCTGGGTGCTGGTGCTATGCAGGTATCTGGTTTGAAGTCCATAAAGGCGAAACACTTGGCGCTTGCAAGTCAAGTAATCGACTTCACTTACACTATTATTCCTGAAACCAGAAGGATTCTGTTTTCAAAAGTACCTGAGACGAGAAAGCCTCTGTTGTCAGTAGAGATTGATAAAGTTGCTCAGGATTTTAGAATTCATCGAGATGAAATATACACAAAACTGGTTCAGATTATGAGAGAAAGACTATTGGCGCATCTTCATGGTTTGCCCAAAGTTGTTGAGGGCTGGAACAGACCTCCAGATACCAATAAACAAACTAAAGAGTTTGCATGGCCGCTCACAAGGGAAGTTGGCTACCTTCACCGTGTGTTGTCTGAGACATTGCACGAAGCCGATGTTCAAGCAATCTTCAGGCAGGTGATTTCAATTATCCACACACAAACCTCTCAAACGCTTACGAACTTGGAGATAAGCTCAACAGAGGCAAAGAAAAGGCTGAAGCTTCATGTCGAGCTAATCCTCAAATGCATCCGGTCGTTACCATCCGACAATGCCAATCAATCAGACATCCCAAACTGGGGACAACTAGATGAATTCTTTGCAGAGCACTTTAGAGAAGAAGAAGCAGGCGAAGCTGAGTGATGAAGTCGTCATTGTACAGCAATTTGTTTCTTCTCACATCCTTTATAAAGTCAAAAATTCAGAGTTTGGGTTTGAGGATGGACTATTCGCCTGTAGATTTAACTTACAGGTAACAAATTCATTCCCTCTGCCTCCATTACCAAAAAACCACTCTGCTACCAAAAGTGTTTAACAAATCAAATAGAAAATGTGATCTGTAATATCTCATCGGTTTACATCAAGATTTGTGGAAGTGAACCAAATTAGTATCCTGAAAATCAGGCCTTTCTTTTGTTGAGATACTGCATAGAAACTTAAAGAGAACTCTGATGGGTTGGACCCTTAAAATGCAGGCATACTACAGTTCTTGGCTCGGATGAATATTATAAAGCCAACAGTATCTCTATAAAGTAACAATCTCTCTTCTTGTTTGAATTTTCTCATTTGCCTCAATTGTTGCTTTTTTATTATCCTTTTTGTTTTTGAGTTGTATGAGATACGACTGATTGAACTGAAGTTTTTGAAAGAGGTAAGCAGTAGATTCTTAGACGTATATAATGTATTTTCAGAGCGAGGAAATATTTAGTCATTTGGTGTGTCCACTGCATAAG - >AT4G19490.1
TTTCTGTAGATGACGTGGATACCTAATGCACCGTCGATTAAATCTGCGTAGTGAAACCCCGCACTGCTCACAGCACCACCTCTCTCGAACCATCGAGTCTCGAACCCAGAGAGGACTTTCCTCAGTGAGTCCTCCGTTCCTTAGCTTCTCTTCCAGATCCAAACTCTCACCAAACTTTCTCACAACACACACACAATTCGATTCGATCCACACTCTTAAAATCCCAAAGATCTCTCTGATTTTGAAATTCGATTCTTCCCCAGATCAACTTGTGAATTTTTCCACAATTTTGGTTCATGATTTTGATTTCGTGAAGGACTTATGGATTCACACCCTTCCCTAATGGGAAGGTCCATTACCAATTCGAACCGATCGAGCTTAGATCTTGGTCGTCCTTCTTCGTCTTCTTCATCTTCTCCTTCACCGTTAACCAAATCGATCTCCGATGCAAGTAGTCAAAGTCTCTCTTCGATCCTTAACAATCCACACGGAGGTAAGTCTGGTGTTTATGGTTCCGATGCATCTTGGGTTGGTTGGTGGTCTTCATCGACATTTGTAGCTCCAGCTGAGTTTGCGCCTGTTGCTTCAACGAAGCTCCCTGGTTCGGAGCTAACCAGATCCGACTTCCATGGCTACGTTTCTTCGATCTCTGAGTCTCATGGTAGATTTGAGGATATTAGGAAGCATACTAGGGAAGAGAGCTGTGGGTTTGATCAGGAGAGCCATGTATCGGGTTTAGCTGCGTGTTTGCGTGAGGTTCCTTCGCTTTACTTTAAGGAGGATTTTGCTCTTGAGGACGGAGCTACATTTCGTTCTGCTTGCCCTTTCTCGAGCCTTAATGAGAATCTAGCGCTTCAAGAGAAGTTGTCACAGTATCTTGATGTGGTGGAGCTGCATCTTGTGAAGGAGATCTCTGTGAGGTCTGATTCGTTTTTTGAGGCTCAAGGACAGTTACAGGATTTGAATGTGAAGATTGTTGAGGGTTGTAGTAGGATTCGTGAGTTGAAAGAGACTATTCGGCTCCTGGATAGGAATTTGGTAGATTCAGCTCGACAGATTCAAGAGCTGAGCTCAACTAGGATTAATATGCTGGAGCTGCAACGTAAATTAAGACTTATTTTGTATGTTAACCAAGCTCTCTCTGCACTCAAATTGCTTGTTGCGTCCGCAGATTGTGCTGGAGCTTTGGATATAACTGACGATCTCCAGAACTTGCTGGCTGGGGATGAGCTTACTGGTCTATACTGCTTCCGCCATCTTCGGGATCATGTTACTAGTTCCATAGATTCCATAAACAGTATTCTCACTTCAGAATTCATGCGTATCTCCATACATGATACTGGGGAGATAGATGTACTGATTTTATCTGCAGCAAATATACGGGGATCCATTTCATCTAACGGGAATACCGGCGAAGAAGTTAAGTTAGAAGAAGAGGATACCTCTACCTTATGTGATCGGCTTCTTCCTTTAGTTATTGGATTGCTAAGAACGGCAAAGTTCCCGTCAATTTTGAGGATGTATCGTGATACACTCACATCCGAAATGAAAAATGCAATCAAGAAAGCAGTTGCTGATCTGCTTCCCATTCTTGTTGCAAGATCGCTCGAATCTGATTTTTCACATGGGGAGCGCTCTGTAGATGATGGTGGTGGCTTATCTCTCGCGAGCAAATTGAGGACTCTGTCATCTGAGGCTTTTGTTAATCTCTTAACTGCTATATTTAAGATTGTTCAGGCACATCTAGTCCGGGCTTCGGAAGTGAAAAAAGCAATTGAATGGATTCTCTGCAATATCGATGGACATTATGCCGCTGATTCAGTTGCAGCTGCAATTGCTGTTGGTGCTGTAGCAGCCGAAACAGCTCAAGAAATAGGTTTCCAAGGCGGGTCATTAGTGTCTTCTCCATTGGGTAAGGCTACCTCAAAGGCCCCTCCATTGCAGGGAAAATCGAGTGATGCATCAAGCTTGATGAACATGTCAAGAAACTTCAGGGCCGATGTCTTGAGAGAAAATACAGAAGCTGTCTTTGCGGCTTGTGAGGTTACTCATGGTAGGTGGGCAAAGCTACTAGGAGTTCGCGCTCTTCTTCATCCAAAATTGAAATTGCAAGAGTTCATGAGCATTTATGATCTGACCCAAGAATTTATAACATCTACGGAGAAGATTGGTGGAAGGTTGGGTTCTAGTATTCGTGGGACGCTGCAATCACAAGCCAAAGCCTTTGTGGACTCCCAGCACGAATCTCGGATGACAAAACTAAAAGCTGTGCTTGATCAAGAAACATGGGATGAGATAGATGTTCCTGAAGAATTTCAATCCATAATCAGTTCTCTTTTTGCATCCCAGCGGTTGATCTCTGGGAAAGTTGATGATGCTGATCTTAATTCATACCACAGTAATCGGCTCCCTCTCAATGGGTCTCTCACTTCTGGATCTGGGGATCAAAATAGTGAATTACGAAATGAAAAATCTGAATCTAGTGAAGGTTCTGTAGTTAGTGATGCACAAGTGAAACCCACAGTCTCACCTGAGTCTCTTGAAAGAAGCAAGGCTGGTGTATCTTCAGCTACGAATAATCAAAGTAATCAGAAGGCGCACGGAAAATCTAACCTTTTCTATCAAGGAGTTGGTTACCACATGGTAAACTGTGGGTTAATATTGCTCAAGATGCTGTCGGAATACATTGATATGAACAATTCTTTGCCAGCTTTGTCCTCGGAAATTGTTCTTCGTGTTGTTGAAGTGTTGAGATTTTTCAACACTCGGACATGCCAACTTGTTCTGGGTGCTGGTGCTATGCAGGTATCTGGTTTGAAGTCCATAAAGGCGAAACACTTGGCGCTTGCAAGTCAAGTAATCGACTTCACTTACACTATTATTCCTGAAACCAGAAGGATTCTGTTTTCAAAAGTACCTGAGACGAGAAAGCCTCTGTTGTCAGTAGAGATTGATAAAGTTGCTCAGGATTTTAGAATTCATCGAGATGAAATATACACAAAACTGGTTCAGATTATGAGAGAAAGACTATTGGCGCATCTTCATGGTTTGCCCAAAGTTGTTGAGGGCTGGAACAGACCTCCAGATACCAATAAACAAACTAAAGAGTTTGCATGGCCGCTCACAAGGGAAGTTGGCTACCTTCACCGTGTGTTGTCTGAGACATTGCACGAAGCCGATGTTCAAGCAATCTTCAGGCAGGTGATTTCAATTATCCACACACAAACCTCTCAAACGCTTACGAACTTGGAGATAAGCTCAACAGAGGCAAAGAAAAGGCTGAAGCTTCATGTCGAGCTAATCCTCAAATGCATCCGGTCGTTACCATCCGACAATGCCAATCAATCAGACATCCCAAACTGGGGACAACTAGATGAATTCTTTGCAGAGCACTTTAGAGAAGAAGAAGCAGGCGAAGCTGAGTGATGAAGTCGTCATTGTACAGCAATTTGTTTCTTCTCACATCCTTTATAAAGTCAAAAATTCAGAGTTTGGGTTTGAGGATGGACTATTCGCCTGTAGATTTAACTTACAGGTAACAAATTCATTCCCTCTGCCTCCATTACCAAAAAACCACTCTGCTACCAAAAGTGTTTAACAAATCAAATAGAAAATGTGATCTGTAATATCTCATCGGTTTACATCAAGATTTGTGGAAGTGAACCAAATTAGTATCCTGAAAATCAGGCCTTTCTTTTGTTGAGATACTGCATAGAAACTTAAAGAGAACTCTGATGGGTTGGACCCTTAAAATGCAGGCATACTACAGTTCTTGGCTCGGATGAATATTATAAAGCCAACAGTATCTCTATAAAGTAACAATCTCTCTTCTTGTTTGAATTTTCTCATTTGCCTCAATTGTTGCTTTTTTATTATCCTTTTTGTTTTTGAGTTGTATGAGATACGACTGATTGAACTGAAGTTTTTGAAAGAGGTAAGCAGTAGATTCTTAGACGTATATAATGTATTTTCAGAGCGAGGAAATATTTAGTCATTTGGTGTGTCCACTGCATAAG
CDS Sequence
Protein Sequence