Information report for AT5G05380
Gene Details
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Functional Descriptions
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
- Biosynthesis of cellulose-enriched tension wood in Populus: global analysis of transcripts and metabolites identifies biochemical and developmental regulators in secondary wall biosynthesis. DOI: 10.1111/j.1365-313X.2005.02584.x ; PMID: 16367961
- The PRA1 gene family in Arabidopsis. DOI: 10.1104/pp.108.122226 ; PMID: 18583532
Gene Resources
- UniProt: A0A1P8B9I5
- EMBL: CP002688
- AlphaFoldDB: A0A1P8B9I5
- EnsemblPlants: AT5G05380.3
- Gramene: AT5G05380.3
- ExpressionAtlas: AT5G05380
- InterPro: IPR004895
- PANTHER: PTHR19317, PTHR19317:SF92
Sequences
cDNA Sequence
- >AT5G05380.3
CACGTGGACGGTAGAGATGCTACGATGCAGAGAGCGGTCTATGGTGAGGGTTATTACACGAGATCATGACGTTAACACGGGAAACAGGTTGCTTCAAAAGAAATCAATTCATTCGTACGGGCCTTTAATCCACGCGCCTTCTTCGCATCCCCACGCGCAGTCGTGTGTGATGATGGCTAATCCTCCAACGTTACCGATCTCAGACCATTCCGGTGGTGGTTCCCAATCTCAGCAACCCGTATCAACACCGGCGTTTCGCACGTTCCTCTCTCGCCTCTCGTCGTCAATCCGCCAAAGCCTATCGCAGCGGCGTCCATGGTTAGAACTCGTAGATCGAAGCGCAATTTCACGTCCAGAGTCTCTCACCGATGCGTATTCTCGGATCCGGAGGAATCTCCCTTACTTCAAGGTAAACTACGTGACGATCGTCTCCTTGGTGCTCGCGCTCTCGCTCCTCTCCCATCCTTTCTCTCTTCTCGTTCTCCTATGCCTCTTCTGCGCTTGGATCTTCCTCTACCTTTTCCGTCCGTCAGATCAACCTCTGGTCGTCCTCGGCCGTACGTTTTCAGATCGTGAGACGCTTGGTGTTTTGGTAATTTTGACAATCGTCGTCGTCTTTTTAACCAGCGTTGGGTCTTTATTGACCTCTGCTTTGATGATTGGTTTCGGAATCGTATGCTTACACGGCGCGTTTAGAGTCCCGGAGGATCTTTTCTTGGATGATCAAGAACCTGCTAACACCGGCTTATTGTCTTTCCTTAGCGGAGCCGCCACTTCCGCCGCAGTTGCCGCCGCATCAACTCCTGCGTCAGGTCGTGTTTGAAGGACTCTCTTCTCTGTAGACAACAAACTCAATTACTATGATTCTTTTATTGTATTTCTGAATGCGACTATGTAAGGGGAAATGTAGAATTGATCTTCTTGGTTTTAAGCTGAGAAATTCTTATGATTCAAACATTAAATGGATTCAACAATATCTCGCATTACTCTTCCTTAGCTCTTTTTGTGACAAAGATTATGGAATGGTT - >AT5G05380.1
CACGTGGACGGTAGAGATGCTACGATGCAGAGAGCGGTCTATGGTGAGGGTTATTACACGAGATCATGACGTTAACACGGGAAACAGGTTGCTTCAAAAGAAATCAATTCATTCGTACGGGCCTTTAATCCACGCGCCTTCTTCGCATCCCCACGCGCAGTCGTGTGTGATGATGGCTAATCCTCCAACGTTACCGATCTCAGACCATTCCGGTGGTGGTTCCCAATCTCAGCAACCCGTATCAACACCGGCGTTTCGCACGTTCCTCTCTCGCCTCTCGTCGTCAATCCGCCAAAGCCTATCGCAGCGGCGTCCATGGTTAGAACTCGTAGATCGAAGCGCAATTTCACGTCCAGAGTCTCTCACCGATGCGTATTCTCGGATCCGGAGGAATCTCCCTTACTTCAAGGTAAACTACGTGACGATCGTCTCCTTGGTGCTCGCGCTCTCGCTCCTCTCCCATCCTTTCTCTCTTCTCGTTCTCCTATGCCTCTTCTGCGCTTGGATCTTCCTCTACCTTTTCCGTCCGTCAGATCAACCTCTGGTCGTCCTCGGCCGTACGTTTTCAGATCGTGAGACGCTTGGTGTTTTGGTAATTTTGACAATCGTCGTCGTCTTTTTAACCAGCGTTGGGTCTTTATTGACCTCTGCTTTGATGATTGGTTTCGGAATCGTATGCTTACACGGCGCGTTTAGAGTCCCGGAGGATCTTTTCTTGGATGATCAAGAACCTGCTAACACCGGCTTATTGTCTTTCCTTAGCGGAGCCGCCACTTCCGCCGCAGTTGCCGCCGCATCAACTCCTGCGTCAGGTCGTGTTTGAAGGACTCTCTTCTCTGTAGACAACAAACTCAATTACTATGATTCTTTTATTGTATTTCTGAATGCGACTATGTAAGGGGAAATGTAGAATTGATCTTCTTGGTTTTAAGCTGAGAAATTCTTATGATTCAAACATTAAATGGATTCAACAATATCTCGCATTACTCTTCCTTAGCTCTTTTTGTGACAAAGATTATGGAATGGTT - >AT5G05380.4
CACGTGGACGGTAGAGATGCTACGATGCAGAGAGCGGTCTATGGTGAGGGTTATTACACGAGATCATGACGTTAACACGGGAAACAGGTTGCTTCAAAAGAAATCAATTCATTCGTACGGGCCTTTAATCCACGCGCCTTCTTCGCATCCCCACGCGCAGTCGTGTGTGATGATGGCTAATCCTCCAACGTTACCGATCTCAGACCATTCCGGTGGTGGTTCCCAATCTCAGCAACCCGTATCAACACCGGCGTTTCGCACGTTCCTCTCTCGCCTCTCGTCGTCAATCCGCCAAAGCCTATCGCAGCGGCGTCCATGGTTAGAACTCGTAGATCGAAGCGCAATTTCACGTCCAGAGTCTCTCACCGATGCGTATTCTCGGATCCGGAGGAATCTCCCTTACTTCAAGGTAAACTACGTGACGATCGTCTCCTTGGTGCTCGCGCTCTCGCTCCTCTCCCATCCTTTCTCTCTTCTCGTTCTCCTATGCCTCTTCTGCGCTTGGATCTTCCTCTACCTTTTCCGTCCGTCAGATCAACCTCTGGTCGTCCTCGGCCGTACGTTTTCAGATCGTGAGACGCTTGGTGTTTTGGTAATTTTGACAATCGTCGTCGTCTTTTTAACCAGCGTTGGGTCTTTATTGACCTCTGCTTTGATGATTGGTTTCGGAATCGTATGCTTACACGGCGCGTTTAGAGTCCCGGAGGATCTTTTCTTGGATGATCAAGAACCTGCTAACACCGGCTTATTGTCTTTCCTTAGCGGAGCCGCCACTTCCGCCGCAGTTGCCGCCGCATCAACTCCTGCGTCAGGTCGTGTTTGAAGGACTCTCTTCTCTGTAGACAACAAACTCAATTACTATGATTCTTTTATTGTATTTCTGAATGCGACTATGTAAGGGGAAATGTAGAATTGATCTTCTTGGTTTTAAGCTGAGAAATTCTTATGATTCAAACATTAAATGGATTCAACAATATCTCGCATTACTCTTCCTTAGCTCTTTTTGTGACAAAGATTATGGAATGGTT - >AT5G05380.2
CACGTGGACGGTAGAGATGCTACGATGCAGAGAGCGGTCTATGGTGAGGGTTATTACACGAGATCATGACGTTAACACGGGAAACAGGTTGCTTCAAAAGAAATCAATTCATTCGTACGGGCCTTTAATCCACGCGCCTTCTTCGCATCCCCACGCGCAGTCGTGTGTGATGATGGCTAATCCTCCAACGTTACCGATCTCAGACCATTCCGGTGGTGGTTCCCAATCTCAGCAACCCGTATCAACACCGGCGTTTCGCACGTTCCTCTCTCGCCTCTCGTCGTCAATCCGCCAAAGCCTATCGCAGCGGCGTCCATGGTTAGAACTCGTAGATCGAAGCGCAATTTCACGTCCAGAGTCTCTCACCGATGCGTATTCTCGGATCCGGAGGAATCTCCCTTACTTCAAGGTAAACTACGTGACGATCGTCTCCTTGGTGCTCGCGCTCTCGCTCCTCTCCCATCCTTTCTCTCTTCTCGTTCTCCTATGCCTCTTCTGCGCTTGGATCTTCCTCTACCTTTTCCGTCCGTCAGATCAACCTCTGGTCGTCCTCGGCCGTACGTTTTCAGATCGTGAGACGCTTGGTGTTTTGGTAATTTTGACAATCGTCGTCGTCTTTTTAACCAGCGTTGGGTCTTTATTGACCTCTGCTTTGATGATTGGTTTCGGAATCGTATGCTTACACGGCGCGTTTAGAGTCCCGGAGGATCTTTTCTTGGATGATCAAGAACCTGCTAACACCGGCTTATTGTCTTTCCTTAGCGGAGCCGCCACTTCCGCCGCAGTTGCCGCCGCATCAACTCCTGCGTCAGGTCGTGTTTGAAGGACTCTCTTCTCTGTAGACAACAAACTCAATTACTATGATTCTTTTATTGTATTTCTGAATGCGACTATGTAAGGGGAAATGTAGAATTGATCTTCTTGGTTTTAAGCTGAGAAATTCTTATGATTCAAACATTAAATGGATTCAACAATATCTCGCATTACTCTTCCTTAGCTCTTTTTGTGACAAAGATTATGGAATGGTT
CDS Sequence
Protein Sequence