Information report for AT5G18820
Gene Details
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Functional Descriptions
- GO:0009507 — located in — chloroplast
- GO:0005524 — enables — ATP binding
- GO:0005737 — located in — cytoplasm
- GO:0009793 — acts upstream of or within — embryo development ending in seed dormancy
- GO:0042026 — involved in — protein refolding
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
- When defense pathways collide. The response of Arabidopsis to a combination of drought and heat stress. DOI: 10.1104/pp.103.033431 ; PMID: 15047901
- Genome-wide expression profiling of ARABIDOPSIS RESPONSE REGULATOR 7(ARR7) overexpression in cytokinin response. DOI: 10.1007/s00438-006-0177-x ; PMID: 17061125
- Identification of nuclear genes encoding chloroplast-localized proteins required for embryo development in Arabidopsis. DOI: 10.1104/pp.110.168120 ; PMID: 21139083
- A chaperonin subunit with unique structures is essential for folding of a specific substrate. DOI: 10.1371/journal.pbio.1001040 ; PMID: 21483722
- Molecular foundations of reproductive lethality in Arabidopsis thaliana. DOI: 10.1371/journal.pone.0028398 ; PMID: 22164284
- Functional divergence of chloroplast Cpn60α subunits during Arabidopsis embryo development. DOI: 10.1371/journal.pgen.1007036 ; PMID: 28961247
- Capturing the phosphorylation and protein interaction landscape of the plant TOR kinase. DOI: 10.1038/s41477-019-0378-z ; PMID: 30833711
- Genome-wide identification of EMBRYO-DEFECTIVE (EMB) genes required for growth and development in Arabidopsis. DOI: 10.1111/nph.16071 ; PMID: 31334862
- Embryonic Photosynthesis Affects Post-Germination Plant Growth. DOI: 10.1104/pp.20.00043 ; PMID: 32060052
Gene Resources
- UniProt: A0A1P8BAR0
- EMBL: CP002688
- AlphaFoldDB: A0A1P8BAR0
- EnsemblPlants: AT5G18820.3
- Gramene: AT5G18820.3
- ExpressionAtlas: AT5G18820
- InterPro: IPR001844, IPR002423, IPR027409
- PANTHER: PTHR45633
- SUPFAM: SSF48592, SSF52029
- Gene3D: 1.10.560.10, 3.50.7.10
- OrthoDB: A0A1P8BAR0
- SWISS-MODEL: A0A1P8BAR0
Sequences
cDNA Sequence
- >AT5G18820.3
CTCGTACCTTGACTCGTCCGGTTCCAAAAACTCGGTCACCCAAAAATAAAAATCAAAACCCTTCGATAAACCTCCCGGAGGAGAGGAGACACCCGAAATGTTCGCCGTATCACCGTCGTCATTCTCGCCGACAACCATTTCTCCGCGCCGTAGTGGACAGAGGAACGAACCTCGAAAATTCTCGGTGGTGAGAGCTGGAGCTAAGAGAATACTATACGGTAAAGATAGCAGAGAGAAACTCCAAGCCGGAATCGATAAGTTAGCTGATGCTGTTTCCATCACCTTAGGCCCTAGAGGGCGTAATGTAGTGCTTGCTGAAAAAGATACAATCAAAGTGATTAACGATGGTGTCACCATTGCTAAATCTATTGAGCTTCCTGACACTATTGAGAACGCTGGAGCAACATTAATCCAAGAGGTTGCGATTAAAATGAACGAATCAGCGGGTGACGGGACAACCACTGCAATCATTTTGGCTAGAGAAATGATCAAAGCTGGTTCTTTGGCTATTGCTTTTGGAGCTAATGCTGTTTCTGTGAAGAATGGAATGAATAAGACTGTTAAAGAGTTGGTCAGGGTGTTGCAGATGAAAAGTATTCCTGTTCAAGGGAAGAATGATATTAAAGCTGTGGCTTCAATCTCTGCTGGTAACGATGAATTTGTGGGGAATTTGATTGCTGAGACTGTGGAAAAGATTGGCCCTGATGGTGTCATCTCCATTGAATCATCTTCCACTTCAGAAACGTCTGTTATAGTTGAGGAAGGAATGAAGTTTGACAAGGGCTATATGTCGCCTCATTTCATCACAAATCAGGAGAAATCTACGGTGGAATTCGACAAAGCTAAAATTCTTGTGACGGATCAGAAAATCACTTCAGCCAAAGAATTAGTTCCGTTACTGGAGAAAACCTCACAACTGAGTGTTCCGCTCCTTATAATTGCAGAAGATATCTCTGCGGAAGTGCTTGAGATACTGGTGGTGAACAAGAAGCAAGGTTTGATCAATGTCGCAGTTGTGAAATGTCCAGGAATGTTGGATGGGAAAAAGGCTTTGCTACAAGACATTGCACTCATGACAGGAGCTGATTATCTTTCCGGAGATTTAGGCATGTCGCTCATGGGTGCAACTTCAGATCAGCTGGGTGTTTCTCGTAGAGTAGTAATTACAGCTAATTCAACAACTATAGTCGCAGACGCTTCTACTAAACCAGAGATTCAGGCAAGAATTGCTCAGATGAAGAAGGATCTAGCTGAGACAGATAATTCATATCTTTCAAAAAAAATAGCAGAGAGAATTGCTAAGCTCACAGGAGGCGTGGCTGTAATAAAGGTCCGATTTTACAATAACCCATTCTTTGTTTATAATATGCTGCGACAACTTGGGCTTTCATCAGAACATAATTTCTACCTAAGTTGGAGGCCACACTGAAACAGAACTTGAGGACAGAAAACTAAGAATAGAGGACGCGAAGAATGCTACATTTGCAGCCATGAGAGAAGGTATAGTTCCAGGTGGTGGTGCTACTTATATCCATCTTTTAGATGAGATACCGAGAATCAAGAAGAATCTAATGGAAGATTCATACGAACAAATAGGTGCAGATATTGTAGCAATGGCACTCACTGCACCTGCAATGGCCATAGCAACCAATGCTGGGGTTGATGGATCAGTTGTGGTGCAGAAAACCAGAGAACTCGAATGGAGAAGTGGTTACAACGCAATGTCTGGAAAGTATGAGGATCTTCTAAACGCTGGAATCGCAGATCCTTGTCGGGTTTCAAGATTCGCCCTTCAAAACGCAGTTTCCGTTGCCGGCATTATTCTCACAACTCAAGCAGTACTCGTGGAGAAGATCAAGCAACCTAAACCTGCTGTTCCTCAAGTTCCTGGCATACCCACATCATAACCAACCACCACCAAAGGTAACAAAGAAGCACAAAAACCAAACTCTCTACTGCAGATTTTGTCAGAATCTAAACCTTTGCTCACAAAGTGGTGTTTAATCTTGTTGTGTTTTAACTAAACATTAGAATCTGTGATGCAATGGTATGTGCAGAGTGAAAGAAAAAAAAGATTGTTGGAATCATTGTTGCTTATTGTGTTAGCTAAGCTAGTAGTTAGCCTCAAATTTCGGAGAAAGCAAGAAAATGCCTTGTAATGCAAGATTCTTACGCTGTAAGCCCTAGTTGAATGTGTATACGGACATCTTTTATATTATTTTCTTTTGTCAGTTTTGTGCTTAGAAAGCGTCATCAAGTCTCAATTATTATGCAATTTCATCTTATTAAACTTTTGTAGCCTATGTGGTTATGTCGAG - >AT5G18820.1
CTCGTACCTTGACTCGTCCGGTTCCAAAAACTCGGTCACCCAAAAATAAAAATCAAAACCCTTCGATAAACCTCCCGGAGGAGAGGAGACACCCGAAATGTTCGCCGTATCACCGTCGTCATTCTCGCCGACAACCATTTCTCCGCGCCGTAGTGGACAGAGGAACGAACCTCGAAAATTCTCGGTGGTGAGAGCTGGAGCTAAGAGAATACTATACGGTAAAGATAGCAGAGAGAAACTCCAAGCCGGAATCGATAAGTTAGCTGATGCTGTTTCCATCACCTTAGGCCCTAGAGGGCGTAATGTAGTGCTTGCTGAAAAAGATACAATCAAAGTGATTAACGATGGTGTCACCATTGCTAAATCTATTGAGCTTCCTGACACTATTGAGAACGCTGGAGCAACATTAATCCAAGAGGTTGCGATTAAAATGAACGAATCAGCGGGTGACGGGACAACCACTGCAATCATTTTGGCTAGAGAAATGATCAAAGCTGGTTCTTTGGCTATTGCTTTTGGAGCTAATGCTGTTTCTGTGAAGAATGGAATGAATAAGACTGTTAAAGAGTTGGTCAGGGTGTTGCAGATGAAAAGTATTCCTGTTCAAGGGAAGAATGATATTAAAGCTGTGGCTTCAATCTCTGCTGGTAACGATGAATTTGTGGGGAATTTGATTGCTGAGACTGTGGAAAAGATTGGCCCTGATGGTGTCATCTCCATTGAATCATCTTCCACTTCAGAAACGTCTGTTATAGTTGAGGAAGGAATGAAGTTTGACAAGGGCTATATGTCGCCTCATTTCATCACAAATCAGGAGAAATCTACGGTGGAATTCGACAAAGCTAAAATTCTTGTGACGGATCAGAAAATCACTTCAGCCAAAGAATTAGTTCCGTTACTGGAGAAAACCTCACAACTGAGTGTTCCGCTCCTTATAATTGCAGAAGATATCTCTGCGGAAGTGCTTGAGATACTGGTGGTGAACAAGAAGCAAGGTTTGATCAATGTCGCAGTTGTGAAATGTCCAGGAATGTTGGATGGGAAAAAGGCTTTGCTACAAGACATTGCACTCATGACAGGAGCTGATTATCTTTCCGGAGATTTAGGCATGTCGCTCATGGGTGCAACTTCAGATCAGCTGGGTGTTTCTCGTAGAGTAGTAATTACAGCTAATTCAACAACTATAGTCGCAGACGCTTCTACTAAACCAGAGATTCAGGCAAGAATTGCTCAGATGAAGAAGGATCTAGCTGAGACAGATAATTCATATCTTTCAAAAAAAATAGCAGAGAGAATTGCTAAGCTCACAGGAGGCGTGGCTGTAATAAAGGTCCGATTTTACAATAACCCATTCTTTGTTTATAATATGCTGCGACAACTTGGGCTTTCATCAGAACATAATTTCTACCTAAGTTGGAGGCCACACTGAAACAGAACTTGAGGACAGAAAACTAAGAATAGAGGACGCGAAGAATGCTACATTTGCAGCCATGAGAGAAGGTATAGTTCCAGGTGGTGGTGCTACTTATATCCATCTTTTAGATGAGATACCGAGAATCAAGAAGAATCTAATGGAAGATTCATACGAACAAATAGGTGCAGATATTGTAGCAATGGCACTCACTGCACCTGCAATGGCCATAGCAACCAATGCTGGGGTTGATGGATCAGTTGTGGTGCAGAAAACCAGAGAACTCGAATGGAGAAGTGGTTACAACGCAATGTCTGGAAAGTATGAGGATCTTCTAAACGCTGGAATCGCAGATCCTTGTCGGGTTTCAAGATTCGCCCTTCAAAACGCAGTTTCCGTTGCCGGCATTATTCTCACAACTCAAGCAGTACTCGTGGAGAAGATCAAGCAACCTAAACCTGCTGTTCCTCAAGTTCCTGGCATACCCACATCATAACCAACCACCACCAAAGGTAACAAAGAAGCACAAAAACCAAACTCTCTACTGCAGATTTTGTCAGAATCTAAACCTTTGCTCACAAAGTGGTGTTTAATCTTGTTGTGTTTTAACTAAACATTAGAATCTGTGATGCAATGGTATGTGCAGAGTGAAAGAAAAAAAAGATTGTTGGAATCATTGTTGCTTATTGTGTTAGCTAAGCTAGTAGTTAGCCTCAAATTTCGGAGAAAGCAAGAAAATGCCTTGTAATGCAAGATTCTTACGCTGTAAGCCCTAGTTGAATGTGTATACGGACATCTTTTATATTATTTTCTTTTGTCAGTTTTGTGCTTAGAAAGCGTCATCAAGTCTCAATTATTATGCAATTTCATCTTATTAAACTTTTGTAGCCTATGTGGTTATGTCGAG - >AT5G18820.2
CTCGTACCTTGACTCGTCCGGTTCCAAAAACTCGGTCACCCAAAAATAAAAATCAAAACCCTTCGATAAACCTCCCGGAGGAGAGGAGACACCCGAAATGTTCGCCGTATCACCGTCGTCATTCTCGCCGACAACCATTTCTCCGCGCCGTAGTGGACAGAGGAACGAACCTCGAAAATTCTCGGTGGTGAGAGCTGGAGCTAAGAGAATACTATACGGTAAAGATAGCAGAGAGAAACTCCAAGCCGGAATCGATAAGTTAGCTGATGCTGTTTCCATCACCTTAGGCCCTAGAGGGCGTAATGTAGTGCTTGCTGAAAAAGATACAATCAAAGTGATTAACGATGGTGTCACCATTGCTAAATCTATTGAGCTTCCTGACACTATTGAGAACGCTGGAGCAACATTAATCCAAGAGGTTGCGATTAAAATGAACGAATCAGCGGGTGACGGGACAACCACTGCAATCATTTTGGCTAGAGAAATGATCAAAGCTGGTTCTTTGGCTATTGCTTTTGGAGCTAATGCTGTTTCTGTGAAGAATGGAATGAATAAGACTGTTAAAGAGTTGGTCAGGGTGTTGCAGATGAAAAGTATTCCTGTTCAAGGGAAGAATGATATTAAAGCTGTGGCTTCAATCTCTGCTGGTAACGATGAATTTGTGGGGAATTTGATTGCTGAGACTGTGGAAAAGATTGGCCCTGATGGTGTCATCTCCATTGAATCATCTTCCACTTCAGAAACGTCTGTTATAGTTGAGGAAGGAATGAAGTTTGACAAGGGCTATATGTCGCCTCATTTCATCACAAATCAGGAGAAATCTACGGTGGAATTCGACAAAGCTAAAATTCTTGTGACGGATCAGAAAATCACTTCAGCCAAAGAATTAGTTCCGTTACTGGAGAAAACCTCACAACTGAGTGTTCCGCTCCTTATAATTGCAGAAGATATCTCTGCGGAAGTGCTTGAGATACTGGTGGTGAACAAGAAGCAAGGTTTGATCAATGTCGCAGTTGTGAAATGTCCAGGAATGTTGGATGGGAAAAAGGCTTTGCTACAAGACATTGCACTCATGACAGGAGCTGATTATCTTTCCGGAGATTTAGGCATGTCGCTCATGGGTGCAACTTCAGATCAGCTGGGTGTTTCTCGTAGAGTAGTAATTACAGCTAATTCAACAACTATAGTCGCAGACGCTTCTACTAAACCAGAGATTCAGGCAAGAATTGCTCAGATGAAGAAGGATCTAGCTGAGACAGATAATTCATATCTTTCAAAAAAAATAGCAGAGAGAATTGCTAAGCTCACAGGAGGCGTGGCTGTAATAAAGGTCCGATTTTACAATAACCCATTCTTTGTTTATAATATGCTGCGACAACTTGGGCTTTCATCAGAACATAATTTCTACCTAAGTTGGAGGCCACACTGAAACAGAACTTGAGGACAGAAAACTAAGAATAGAGGACGCGAAGAATGCTACATTTGCAGCCATGAGAGAAGGTATAGTTCCAGGTGGTGGTGCTACTTATATCCATCTTTTAGATGAGATACCGAGAATCAAGAAGAATCTAATGGAAGATTCATACGAACAAATAGGTGCAGATATTGTAGCAATGGCACTCACTGCACCTGCAATGGCCATAGCAACCAATGCTGGGGTTGATGGATCAGTTGTGGTGCAGAAAACCAGAGAACTCGAATGGAGAAGTGGTTACAACGCAATGTCTGGAAAGTATGAGGATCTTCTAAACGCTGGAATCGCAGATCCTTGTCGGGTTTCAAGATTCGCCCTTCAAAACGCAGTTTCCGTTGCCGGCATTATTCTCACAACTCAAGCAGTACTCGTGGAGAAGATCAAGCAACCTAAACCTGCTGTTCCTCAAGTTCCTGGCATACCCACATCATAACCAACCACCACCAAAGGTAACAAAGAAGCACAAAAACCAAACTCTCTACTGCAGATTTTGTCAGAATCTAAACCTTTGCTCACAAAGTGGTGTTTAATCTTGTTGTGTTTTAACTAAACATTAGAATCTGTGATGCAATGGTATGTGCAGAGTGAAAGAAAAAAAAGATTGTTGGAATCATTGTTGCTTATTGTGTTAGCTAAGCTAGTAGTTAGCCTCAAATTTCGGAGAAAGCAAGAAAATGCCTTGTAATGCAAGATTCTTACGCTGTAAGCCCTAGTTGAATGTGTATACGGACATCTTTTATATTATTTTCTTTTGTCAGTTTTGTGCTTAGAAAGCGTCATCAAGTCTCAATTATTATGCAATTTCATCTTATTAAACTTTTGTAGCCTATGTGGTTATGTCGAG
CDS Sequence
Protein Sequence