Information report for AT4G20020
Gene Details
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Functional Descriptions
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
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
- Arabidopsis response regulator, ARR22, ectopic expression of which results in phenotypes similar to the wol cytokinin-receptor mutant. DOI: 10.1093/pcp/pch128 ; PMID: 15356332
- Combinatorial microarray analysis revealing arabidopsis genes implicated in cytokinin responses through the His->Asp Phosphorelay circuitry. DOI: 10.1093/pcp/pci033 ; PMID: 15695462
- Natural genetic variation in whole-genome expression in Arabidopsis thaliana: the impact of physiological QTL introgression. DOI: 10.1111/j.1365-294X.2006.02774.x ; PMID: 16626458
- Multiple organellar RNA editing factor (MORF) family proteins are required for RNA editing in mitochondria and plastids of plants. DOI: 10.1073/pnas.1202452109 ; PMID: 22411807
- Comprehensive high-resolution analysis of the role of an Arabidopsis gene family in RNA editing. DOI: 10.1371/journal.pgen.1003584 ; PMID: 23818871
- and heteromer interactions between the multiple organellar RNA editing factor (MORF) proteins in Arabidopsis thaliana. DOI: 10.1074/jbc.M114.602086 ; PMID: 25583991
- MEF13 Requires MORF3 and MORF8 for RNA Editing at Eight Targets in Mitochondrial mRNAs in Arabidopsis thaliana. DOI: 10.1016/j.molp.2015.05.008 ; PMID: 26048647
- Crystal structures of the Arabidopsis thaliana organellar RNA editing factors MORF1 and MORF9. DOI: 10.1093/nar/gkx099 ; PMID: 28201607
- RNA editing of cytochrome c maturation transcripts is responsive to the energy status of leaf cells in Arabidopsis thaliana. DOI: 10.1016/j.mito.2017.04.006 ; PMID: 28478183
- Crystal structure of the chloroplast RNA editing factor MORF2. DOI: 10.1016/j.bbrc.2017.12.044 ; PMID: 29229384
- The Analysis of the Editing Defects in the dyw2 Mutant Provides New Clues for the Prediction of RNA Targets of Arabidopsis E+-Class PPR Proteins. DOI: 10.3390/plants9020280 ; PMID: 32098170
- GRP23 plays a core role in E-type editosomes via interacting with MORFs and atypical PPR-DYWs in Arabidopsis mitochondria. DOI: 10.1073/pnas.2210978119 ; PMID: 36122211
Gene Resources
Sequences
cDNA Sequence
- >AT4G20020.2
CCCACACAAAAACCCTAATTTCATTTCTCCAAAGCTTTCCAGAATACTCTCCACTCCTTCATAATTTCTCTGGCAACGATGGCTATGATATCTCACCGTCTCCGACGAGCTTTACTCACTGCGACTTCCTATGTTAACCGATCAATTAGCTCTTCGATCACACCAGCGTCTGATTTCCCTTCTGTGTCGGCGGCGGTGTTAAAGAGATCCGTTATAGGGCGTTCGACGGAAGTAGCTACTCGAGCACCGGCGAGACTGTTTTCAACGAGGCAGTACAAGCTTTACAAAGAAGGTGATGAGATCACGGAAGACACTGTGTTGTTCGAAGGATGTGATTATAATCACTGGCTTATCACTATGGATTTCTCCAAAGAGGAAACTCCTAAGTCTCCAGAAGAAATGGTCGCTGCTTATGAAGAAACTTGCGCCCAAGGACTTGGCATCAGCGTGGAAGAGGCTAAGCAAAGGATGTATGCTTGTAGCACAACTACTTACCAAGGATTTCAAGCAATCATGACTGAACAAGAATCAGAAAAGTTCAAGGATCTACCCGGAGTGGTTTTCATCTTGCCAGATTCCTACATTGATCCCCAGAACAAAGAGTATGGAGGAGATAAATACGAGAATGGAGTGATAACACACAGGCCACCACCGATTCAGAGTGGCAGAGCAAGACCTCGTCCTAGATTTGACCGTTCAGGAGGAGGAAGTGGTGGTCCCCAAAACTTCCAAAGAAACACACAGTATGGTCAGCAACCACCAATGCAAGGTGGTGGAGGGAGCTATGGTCCTCAACAGGGCTATGCCACTCCAGGACAAGGTCAGGGAACTCAAGCGCCTCCACCATTTCAAGGAGGTTATAACCAAGGCCCGAGATCTCCACCACCTCCATATCAGGCAGGTTACAATCAAGGCCAGGGATCTCCAGTGCCTCCATATCAGGCAGGTTACAATCAAGTCCAGGGATCTCCAGTGCCTCCATACCAAGGAACACAAAGCAGTTACGGTCAAGGTGGATCTGGGAACTATAGTCAAGGGCCACAAGGTGGTTACAACCAAGGAGGACCTAGGAATTACAATCCACAGGGAGCTGGAAACTTTGGTCCTGCATCTGGAGCTGGAAACTTAGGTCCTGCACCTGGAGCTGGAAATCCTGGCTATGGTCAGGGGTATTCTGGACCAGGACAAGAGCAGAATCAGACATTCCCACAGGCAGATCAGAGGAATCGAGACTGGAACAACAATAATCCAGCAGGCCAGCCCGGGTCTGACCAATTTCCACAGGGAAGAAGGTACTAGACAGAGAGCATGCTGCAGTGAATTGAGCTGAATAAGGAGAGAAGTGTCAAAGGCCTTTTATTAAGTTTTACAGTAAATAGTATTTAGTCATCTTTCTACTTTGTAAGACAATAGTTAGTCCTTTTTTCTCTTAAGTTGAGCTTGTTAACGTTGTTGGTTGCGCTTGTGAAATTGAAACACTCTTTCTAGAAGTTCTTTTAAGACCTAATATGCTTGCTTTACCTGAGAC - >AT4G20020.1
CCCACACAAAAACCCTAATTTCATTTCTCCAAAGCTTTCCAGAATACTCTCCACTCCTTCATAATTTCTCTGGCAACGATGGCTATGATATCTCACCGTCTCCGACGAGCTTTACTCACTGCGACTTCCTATGTTAACCGATCAATTAGCTCTTCGATCACACCAGCGTCTGATTTCCCTTCTGTGTCGGCGGCGGTGTTAAAGAGATCCGTTATAGGGCGTTCGACGGAAGTAGCTACTCGAGCACCGGCGAGACTGTTTTCAACGAGGCAGTACAAGCTTTACAAAGAAGGTGATGAGATCACGGAAGACACTGTGTTGTTCGAAGGATGTGATTATAATCACTGGCTTATCACTATGGATTTCTCCAAAGAGGAAACTCCTAAGTCTCCAGAAGAAATGGTCGCTGCTTATGAAGAAACTTGCGCCCAAGGACTTGGCATCAGCGTGGAAGAGGCTAAGCAAAGGATGTATGCTTGTAGCACAACTACTTACCAAGGATTTCAAGCAATCATGACTGAACAAGAATCAGAAAAGTTCAAGGATCTACCCGGAGTGGTTTTCATCTTGCCAGATTCCTACATTGATCCCCAGAACAAAGAGTATGGAGGAGATAAATACGAGAATGGAGTGATAACACACAGGCCACCACCGATTCAGAGTGGCAGAGCAAGACCTCGTCCTAGATTTGACCGTTCAGGAGGAGGAAGTGGTGGTCCCCAAAACTTCCAAAGAAACACACAGTATGGTCAGCAACCACCAATGCAAGGTGGTGGAGGGAGCTATGGTCCTCAACAGGGCTATGCCACTCCAGGACAAGGTCAGGGAACTCAAGCGCCTCCACCATTTCAAGGAGGTTATAACCAAGGCCCGAGATCTCCACCACCTCCATATCAGGCAGGTTACAATCAAGGCCAGGGATCTCCAGTGCCTCCATATCAGGCAGGTTACAATCAAGTCCAGGGATCTCCAGTGCCTCCATACCAAGGAACACAAAGCAGTTACGGTCAAGGTGGATCTGGGAACTATAGTCAAGGGCCACAAGGTGGTTACAACCAAGGAGGACCTAGGAATTACAATCCACAGGGAGCTGGAAACTTTGGTCCTGCATCTGGAGCTGGAAACTTAGGTCCTGCACCTGGAGCTGGAAATCCTGGCTATGGTCAGGGGTATTCTGGACCAGGACAAGAGCAGAATCAGACATTCCCACAGGCAGATCAGAGGAATCGAGACTGGAACAACAATAATCCAGCAGGCCAGCCCGGGTCTGACCAATTTCCACAGGGAAGAAGGTACTAGACAGAGAGCATGCTGCAGTGAATTGAGCTGAATAAGGAGAGAAGTGTCAAAGGCCTTTTATTAAGTTTTACAGTAAATAGTATTTAGTCATCTTTCTACTTTGTAAGACAATAGTTAGTCCTTTTTTCTCTTAAGTTGAGCTTGTTAACGTTGTTGGTTGCGCTTGTGAAATTGAAACACTCTTTCTAGAAGTTCTTTTAAGACCTAATATGCTTGCTTTACCTGAGAC
CDS Sequence
Protein Sequence