Information report for AT4G27340
Gene Details
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Functional Descriptions
- GO:0002939 — involved in — tRNA N1-guanine methylation
- GO:0052906 — enables — tRNA (guanine(37)-N(1))-methyltransferase activity
- GO:0102522 — enables — tRNA 4-demethylwyosine alpha-amino-alpha-carboxypropyltransferase activity
- GO:0009019 — enables — tRNA (guanine-N1-)-methyltransferase activity
- GO:0009507 — located in — chloroplast
- GO:0005737 — is active in — cytoplasm
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
- DNA methylation profiling identifies CG methylation clusters in Arabidopsis genes. DOI: 10.1016/j.cub.2005.01.008 ; PMID: 15668172
- Identification of tRNA nucleoside modification genes critical for stress response and development in rice and Arabidopsis. DOI: 10.1186/s12870-017-1206-0 ; PMID: 29268705
Gene Resources
- UniProt: A0A1P8B962
- EMBL: CP002687
- AlphaFoldDB: A0A1P8B962
- EnsemblPlants: AT4G27340.3
- Gramene: AT4G27340.3
- ExpressionAtlas: AT4G27340
- InterPro: IPR029063, IPR030382
- PANTHER: PTHR23245, PTHR23245:SF43
- SUPFAM: SSF53335
- PROSITE: PS51684
- Gene3D: 3.30.300.110
- SWISS-MODEL: A0A1P8B962
Sequences
cDNA Sequence
- >AT4G27340.3
AGCAGAGTGATATGTTCGTTCTTATTGCCGATGAAATCTCTAATATGCTCCCTGAGTAATACCTTTGATGCACAAACGCGGGAAATGACCTTCATTGTCCCAACACCAAAACCCAAATCCATCAGGAAGCTGAGTGAATCAGAAAATGGTGTCAAAGCTTTCTCTTTTCCGAGCCAATTCACTTCCTTTTCCAGTCATCTCTTCCTACTCTGCTCGTTTTATCCTTAAACCCTATCCCAAACCTAAAACCCTTATCTTCTGTGTCTTCTCCAGTAATCTCTCCTCCACCACCTTTCCGTATGGCCCGTCTCTTCTGAAAGGAAAGAAGCCTGTGCTAGATGATATTAGATTAGCTTCAATTGGTCGAGACAGAGATGCCCATCGAGGCAAAATTGGAGAGTTTGATGAATCAATTGAGAAAGATGTTCTTTTGAATGAAGATGAATTTACTAGGGTTTTTGAGATTTCGGCGATTCGAGTCCCGGCGAAGGATTGTTTCGCGCTCGAGAATCGTCTCCGTGGTCATCTTCTTAATTGGCCTAGGATTCGGAACATTGCTAGGGTTCCTGGAGATGAGATTGAAGAAGATGTGGTGAAGCTGTTGGGCCGTGAGACTGATGAAGAAGAAGAAGATGAAGATAGTGTTGTGGATTCGGTTAACCGGAGAATAAGAGGGAAAGCAGAAGGGGATGGGGAGAGATTGAGTTCAGTGTTGCATAGAGATAAACTCGCCAGGACATTTAATTCAACTGGGTATCTCAAATTCAGAAACTTGGCCAAGATTTCTCGGCCAAAGAGGAAGAGGAAGACAGAGAGAACAAGGGAGGGGAAGGAAAAGGAAATAGCAAGCAGACGCAACGAAATGGCGGTGGTGGAAGTGGTGGAAACTCGAGGAGGAGAAGAGGATTTTGAGGGGTTATTGGGAGAAGGCTATGGTAGTAGAGGAAGATGGAGAGGTTCAACAAGATTGTTGCTTTTGGATGAGAAATATTCCGGTGAGGAAGTTCAAGACTTGCCTGAGGCTATCAAGGTTCTGTTTGCAGAAGCTAAAATGGCTGATGCAAGCTTAAGTTTCGAGCTAGTGAAATGCAGACTGACTTTGTTCTATGACTATTGGCCAATGATTGAGATATTGGAGGCTGTACTACCTAAGGGTATGATTGTGCCTTCGGCATTTGAGATGGTGGGGCATATTGCGCATCTGAACCTAAGAGATGAGCATCTACCATACAAAAGGCTCATAGCTAAGGTAGTCCTGGACAAGAATCAGCCAAAGATACAAACCGTTGTGAATAAGATTGATCCTATCCACAATGACTTCAGAACTATGCAGCTAGAGGTTTTAGCTGGAAACCATTCGCTGGTGACTCTAGTTGTTGAAAATGGACTGCGCTTTCATGTTGATTTAGCTAGAGTGTATGTAAATTCTTTCTCATTGAAATGCCAATTATAGTATGCATGCTTTTATTGAGTGCTTTGATGATGACCCAAATACCATTTACCATTTGAAATTAGCCCTTACCCTACTTAATTCGGTGATGAAAGTAGCTTTGTGTAAGATGTCTGATATCAGTTTTGAGTTTTCAGTCAGAGGAGAAATGTTGTCTACTTTTGACTTAGAAAACATGTTCTTACCAAATCTCGTATCATGTGATTTAGCGATATATCTGCTTATAAGTTGACGTTTTTGGCATTTTTTGCGTGTGCTAGATATTGGAATTCGAAACTTGGGACAGAAAGACAGAGGCTGCTACTCGGGTTCGACCAAAATGACGTTGTCTGTATGTTTGCTACTTAGAACTGATACATCATGAAAATTATTGCTATGCCCTCTATTGAACTCCCCATTTATAAATTAGCACCACTGATCTCCTCATTAAAAAGTGCATTGTCCCTCCTATTGGTGTTGAAATTTGCTGTTCTCCGTTGTATAAGAAGCATATGTAGCGGCCAGATAGATAATACATTGATTGTATTATTGTTATTGCTAGTCTGGAGTTCTCTTTTCTGTCTTGTTTCAAGTTTTGTCTATGTCTTGTTCTGTTT - >AT4G27340.2
AGCAGAGTGATATGTTCGTTCTTATTGCCGATGAAATCTCTAATATGCTCCCTGAGTAATACCTTTGATGCACAAACGCGGGAAATGACCTTCATTGTCCCAACACCAAAACCCAAATCCATCAGGAAGCTGAGTGAATCAGAAAATGGTGTCAAAGCTTTCTCTTTTCCGAGCCAATTCACTTCCTTTTCCAGTCATCTCTTCCTACTCTGCTCGTTTTATCCTTAAACCCTATCCCAAACCTAAAACCCTTATCTTCTGTGTCTTCTCCAGTAATCTCTCCTCCACCACCTTTCCGTATGGCCCGTCTCTTCTGAAAGGAAAGAAGCCTGTGCTAGATGATATTAGATTAGCTTCAATTGGTCGAGACAGAGATGCCCATCGAGGCAAAATTGGAGAGTTTGATGAATCAATTGAGAAAGATGTTCTTTTGAATGAAGATGAATTTACTAGGGTTTTTGAGATTTCGGCGATTCGAGTCCCGGCGAAGGATTGTTTCGCGCTCGAGAATCGTCTCCGTGGTCATCTTCTTAATTGGCCTAGGATTCGGAACATTGCTAGGGTTCCTGGAGATGAGATTGAAGAAGATGTGGTGAAGCTGTTGGGCCGTGAGACTGATGAAGAAGAAGAAGATGAAGATAGTGTTGTGGATTCGGTTAACCGGAGAATAAGAGGGAAAGCAGAAGGGGATGGGGAGAGATTGAGTTCAGTGTTGCATAGAGATAAACTCGCCAGGACATTTAATTCAACTGGGTATCTCAAATTCAGAAACTTGGCCAAGATTTCTCGGCCAAAGAGGAAGAGGAAGACAGAGAGAACAAGGGAGGGGAAGGAAAAGGAAATAGCAAGCAGACGCAACGAAATGGCGGTGGTGGAAGTGGTGGAAACTCGAGGAGGAGAAGAGGATTTTGAGGGGTTATTGGGAGAAGGCTATGGTAGTAGAGGAAGATGGAGAGGTTCAACAAGATTGTTGCTTTTGGATGAGAAATATTCCGGTGAGGAAGTTCAAGACTTGCCTGAGGCTATCAAGGTTCTGTTTGCAGAAGCTAAAATGGCTGATGCAAGCTTAAGTTTCGAGCTAGTGAAATGCAGACTGACTTTGTTCTATGACTATTGGCCAATGATTGAGATATTGGAGGCTGTACTACCTAAGGGTATGATTGTGCCTTCGGCATTTGAGATGGTGGGGCATATTGCGCATCTGAACCTAAGAGATGAGCATCTACCATACAAAAGGCTCATAGCTAAGGTAGTCCTGGACAAGAATCAGCCAAAGATACAAACCGTTGTGAATAAGATTGATCCTATCCACAATGACTTCAGAACTATGCAGCTAGAGGTTTTAGCTGGAAACCATTCGCTGGTGACTCTAGTTGTTGAAAATGGACTGCGCTTTCATGTTGATTTAGCTAGAGTGTATGTAAATTCTTTCTCATTGAAATGCCAATTATAGTATGCATGCTTTTATTGAGTGCTTTGATGATGACCCAAATACCATTTACCATTTGAAATTAGCCCTTACCCTACTTAATTCGGTGATGAAAGTAGCTTTGTGTAAGATGTCTGATATCAGTTTTGAGTTTTCAGTCAGAGGAGAAATGTTGTCTACTTTTGACTTAGAAAACATGTTCTTACCAAATCTCGTATCATGTGATTTAGCGATATATCTGCTTATAAGTTGACGTTTTTGGCATTTTTTGCGTGTGCTAGATATTGGAATTCGAAACTTGGGACAGAAAGACAGAGGCTGCTACTCGGGTTCGACCAAAATGACGTTGTCTGTATGTTTGCTACTTAGAACTGATACATCATGAAAATTATTGCTATGCCCTCTATTGAACTCCCCATTTATAAATTAGCACCACTGATCTCCTCATTAAAAAGTGCATTGTCCCTCCTATTGGTGTTGAAATTTGCTGTTCTCCGTTGTATAAGAAGCATATGTAGCGGCCAGATAGATAATACATTGATTGTATTATTGTTATTGCTAGTCTGGAGTTCTCTTTTCTGTCTTGTTTCAAGTTTTGTCTATGTCTTGTTCTGTTT - >AT4G27340.1
AGCAGAGTGATATGTTCGTTCTTATTGCCGATGAAATCTCTAATATGCTCCCTGAGTAATACCTTTGATGCACAAACGCGGGAAATGACCTTCATTGTCCCAACACCAAAACCCAAATCCATCAGGAAGCTGAGTGAATCAGAAAATGGTGTCAAAGCTTTCTCTTTTCCGAGCCAATTCACTTCCTTTTCCAGTCATCTCTTCCTACTCTGCTCGTTTTATCCTTAAACCCTATCCCAAACCTAAAACCCTTATCTTCTGTGTCTTCTCCAGTAATCTCTCCTCCACCACCTTTCCGTATGGCCCGTCTCTTCTGAAAGGAAAGAAGCCTGTGCTAGATGATATTAGATTAGCTTCAATTGGTCGAGACAGAGATGCCCATCGAGGCAAAATTGGAGAGTTTGATGAATCAATTGAGAAAGATGTTCTTTTGAATGAAGATGAATTTACTAGGGTTTTTGAGATTTCGGCGATTCGAGTCCCGGCGAAGGATTGTTTCGCGCTCGAGAATCGTCTCCGTGGTCATCTTCTTAATTGGCCTAGGATTCGGAACATTGCTAGGGTTCCTGGAGATGAGATTGAAGAAGATGTGGTGAAGCTGTTGGGCCGTGAGACTGATGAAGAAGAAGAAGATGAAGATAGTGTTGTGGATTCGGTTAACCGGAGAATAAGAGGGAAAGCAGAAGGGGATGGGGAGAGATTGAGTTCAGTGTTGCATAGAGATAAACTCGCCAGGACATTTAATTCAACTGGGTATCTCAAATTCAGAAACTTGGCCAAGATTTCTCGGCCAAAGAGGAAGAGGAAGACAGAGAGAACAAGGGAGGGGAAGGAAAAGGAAATAGCAAGCAGACGCAACGAAATGGCGGTGGTGGAAGTGGTGGAAACTCGAGGAGGAGAAGAGGATTTTGAGGGGTTATTGGGAGAAGGCTATGGTAGTAGAGGAAGATGGAGAGGTTCAACAAGATTGTTGCTTTTGGATGAGAAATATTCCGGTGAGGAAGTTCAAGACTTGCCTGAGGCTATCAAGGTTCTGTTTGCAGAAGCTAAAATGGCTGATGCAAGCTTAAGTTTCGAGCTAGTGAAATGCAGACTGACTTTGTTCTATGACTATTGGCCAATGATTGAGATATTGGAGGCTGTACTACCTAAGGGTATGATTGTGCCTTCGGCATTTGAGATGGTGGGGCATATTGCGCATCTGAACCTAAGAGATGAGCATCTACCATACAAAAGGCTCATAGCTAAGGTAGTCCTGGACAAGAATCAGCCAAAGATACAAACCGTTGTGAATAAGATTGATCCTATCCACAATGACTTCAGAACTATGCAGCTAGAGGTTTTAGCTGGAAACCATTCGCTGGTGACTCTAGTTGTTGAAAATGGACTGCGCTTTCATGTTGATTTAGCTAGAGTGTATGTAAATTCTTTCTCATTGAAATGCCAATTATAGTATGCATGCTTTTATTGAGTGCTTTGATGATGACCCAAATACCATTTACCATTTGAAATTAGCCCTTACCCTACTTAATTCGGTGATGAAAGTAGCTTTGTGTAAGATGTCTGATATCAGTTTTGAGTTTTCAGTCAGAGGAGAAATGTTGTCTACTTTTGACTTAGAAAACATGTTCTTACCAAATCTCGTATCATGTGATTTAGCGATATATCTGCTTATAAGTTGACGTTTTTGGCATTTTTTGCGTGTGCTAGATATTGGAATTCGAAACTTGGGACAGAAAGACAGAGGCTGCTACTCGGGTTCGACCAAAATGACGTTGTCTGTATGTTTGCTACTTAGAACTGATACATCATGAAAATTATTGCTATGCCCTCTATTGAACTCCCCATTTATAAATTAGCACCACTGATCTCCTCATTAAAAAGTGCATTGTCCCTCCTATTGGTGTTGAAATTTGCTGTTCTCCGTTGTATAAGAAGCATATGTAGCGGCCAGATAGATAATACATTGATTGTATTATTGTTATTGCTAGTCTGGAGTTCTCTTTTCTGTCTTGTTTCAAGTTTTGTCTATGTCTTGTTCTGTTT
CDS Sequence
Protein Sequence