Information report for AT4G21770
Gene Details
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Functional Descriptions
- GO:0005634 — located in — nucleus
- GO:0009982 — enables — pseudouridine synthase activity
- GO:0000455 — involved in — enzyme-directed rRNA pseudouridine synthesis
- GO:0001522 — involved in — pseudouridine synthesis
- GO:0009507 — located in — chloroplast
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
- Mutations in SUPPRESSOR OF VARIEGATION1, a factor required for normal chloroplast translation, suppress var2-mediated leaf variegation in Arabidopsis. DOI: 10.1105/tpc.107.054965 ; PMID: 18599582
- Genome-Wide Identification and Expression Analysis of Pseudouridine Synthase Family in Arabidopsis and Maize. DOI: 10.3390/ijms23052680 ; PMID: 35269820
- Mutations in SUPPRESSOR OF VARIEGATION1, a factor required for normal chloroplast translation, suppress var2-mediated leaf variegation in Arabidopsis. DOI: 10.1105/tpc.107.054965 ; PMID: 18599582
Gene Resources
- UniProt: A0A654FRI2
- EMBL: CACRSJ010000109
- AlphaFoldDB: A0A654FRI2
- EnsemblPlants: AT4G21770.1
- Gramene: AT4G21770.1
- KEGG: ath:AT4G21770
- ExpressionAtlas: AT4G21770
- InterPro: IPR006145, IPR020103, IPR050188
- PANTHER: PTHR21600, PTHR21600:SF52
- SUPFAM: SSF55120
- Gene3D: 3.30.2350.10
- Conserved Domain Database: cd02869
Sequences
cDNA Sequence
- >AT4G21770.1
CGATTCTTAGGGCATTTACCACAGCATCAACAATGGCTTCGCCGGCGTTAACCGGCGGTTACCGGAACCTCACTGCGCCGGTATCTCTCCTGCGTACTTTAGCGTCCACCCGTGTCACTACTCCATTGTTTCGTTCCAACAAACACTCTCCACGTTTCATTTCTTCTCCAAAGAGATTCACTTGCTTGTCCTTACTCAAAACCGATTCTCAAAATCAAACCACACTCTCTTCTTCTTCCAATTCTGGATACCATGAATACAATCGATTGATGCCATGTCCTGCATATAATCTTCCACCAAGAATTGAACATATGGTTGTGTTAGAAGACGACGTTCTTGTATCTGAGTTTATCTCTAAACAATTAGATCTTCCTCCTTTATATGTTGCAGATCTTATTCGATTTGGAGCTGTACATTACGCTCTTGTATGTCCTAAACCTCCACCAACTGCGACTCCTGAGGAAATTATACTGTTTGAAGAAGTAACCTCTCCTTCTGTACTAAAGAAGAGATCTTCTATTAAAGGAAAAACTGTTAGAGAAGCTCAGAAAACGTTTCGTGTGACTCATACCAATCAGTATGCTGAAGCTGGAACTTATTTGCGTGTTCATGTTCACCCGAAACGTTCTCCAAGGTGTTATGAAATTGATTGGAAGTCACGGATTGTTGCTGTGACTGACTCTTATGTCATTTTGGATAAACCTGCCGGGACTACGGTTGGGGGCACGACGGATAACATCGAAGAGAGCTGTGCTACATTTGCCTCACGTGCATTGGATTTACCAGAACCACTGAAAACAACGCATCAGATTGATAACTGTACAGAAGGCTGTGTCGTCTTTGCTAGAACAAAAGAGTACTGCTCGGTCTTCCACACAAAAATAAGAAATAAAGAAGTGAAGAAACTATATCGTGCTCTTGCTGCGGCACCTCTTCCCATTGGAATTATCTCACATTATATGCGCCCAAAAAATATGGCTCCAAGACTCGTAGCCGAAGATTCAATTCAAGGCTGGCACTTGTGTCAACTTGAGGTTTTAGAATGTAAGAAGATTCCTTGGCCCGATGCAGCTACTGAGAAGAAACACGATATTGAAGACTGTGGATGGACTTCAAAAGAGTTTGCTTATGAGTGTACAATAAACCTTTTAACAGGCAAGACTCACCAGATCCGGGCCCAGCTTGCAGCTTGTGGGGCACCGTTGGTTGGTGACTCTATGTACATGCCAGCAGCGATTGCAGAAATGGGGAATCCTGATACCAACCCGTATGGGAAAGCAAAGAAACATTACACAATGGAGGAGAACCAAAAGGAAACCGCTGTTGCCGAATGGATTGATAGACATGGCAAGGAACCGAGGGTAGGAATCGGTCTTCAAGCTTGTCAAATCTCATGGGACGATGATGATGGCGAGCACTTCTATGAAGCTGGGACTCCATGGTGGAGATGAAACACATGTTCTGATGTCGAGGATCTTATCTAAACTTGCCGCAGTAAATGAGAGGCACCAATCATCTTTTGATAGAGCTCTGTGCTGGAAGATGAAGTTTTTGTACCAAGAAGCTGACAGTCTCGGGGTTCTCTCTTGAGTACTGAAATCGACATGGTACATACCGAACCTTATGGTATAACCGGATATCCACTCGAAGTTGTCTAGTAAAGACCAGGCGAAGTATCCTCTTACATCTGCTCCTTTCCTATTTGCACAAGTAGCTTTAGGGTTTAGAATCGAGACATATATGAGTTTTTTCTGAAGTTGAAGCATAATTACCTCATTGCTCTTTTGAGTGCATCTAAGTAGTTGCTCATGAACTTCACTC - >AT4G21770.2
CGATTCTTAGGGCATTTACCACAGCATCAACAATGGCTTCGCCGGCGTTAACCGGCGGTTACCGGAACCTCACTGCGCCGGTATCTCTCCTGCGTACTTTAGCGTCCACCCGTGTCACTACTCCATTGTTTCGTTCCAACAAACACTCTCCACGTTTCATTTCTTCTCCAAAGAGATTCACTTGCTTGTCCTTACTCAAAACCGATTCTCAAAATCAAACCACACTCTCTTCTTCTTCCAATTCTGGATACCATGAATACAATCGATTGATGCCATGTCCTGCATATAATCTTCCACCAAGAATTGAACATATGGTTGTGTTAGAAGACGACGTTCTTGTATCTGAGTTTATCTCTAAACAATTAGATCTTCCTCCTTTATATGTTGCAGATCTTATTCGATTTGGAGCTGTACATTACGCTCTTGTATGTCCTAAACCTCCACCAACTGCGACTCCTGAGGAAATTATACTGTTTGAAGAAGTAACCTCTCCTTCTGTACTAAAGAAGAGATCTTCTATTAAAGGAAAAACTGTTAGAGAAGCTCAGAAAACGTTTCGTGTGACTCATACCAATCAGTATGCTGAAGCTGGAACTTATTTGCGTGTTCATGTTCACCCGAAACGTTCTCCAAGGTGTTATGAAATTGATTGGAAGTCACGGATTGTTGCTGTGACTGACTCTTATGTCATTTTGGATAAACCTGCCGGGACTACGGTTGGGGGCACGACGGATAACATCGAAGAGAGCTGTGCTACATTTGCCTCACGTGCATTGGATTTACCAGAACCACTGAAAACAACGCATCAGATTGATAACTGTACAGAAGGCTGTGTCGTCTTTGCTAGAACAAAAGAGTACTGCTCGGTCTTCCACACAAAAATAAGAAATAAAGAAGTGAAGAAACTATATCGTGCTCTTGCTGCGGCACCTCTTCCCATTGGAATTATCTCACATTATATGCGCCCAAAAAATATGGCTCCAAGACTCGTAGCCGAAGATTCAATTCAAGGCTGGCACTTGTGTCAACTTGAGGTTTTAGAATGTAAGAAGATTCCTTGGCCCGATGCAGCTACTGAGAAGAAACACGATATTGAAGACTGTGGATGGACTTCAAAAGAGTTTGCTTATGAGTGTACAATAAACCTTTTAACAGGCAAGACTCACCAGATCCGGGCCCAGCTTGCAGCTTGTGGGGCACCGTTGGTTGGTGACTCTATGTACATGCCAGCAGCGATTGCAGAAATGGGGAATCCTGATACCAACCCGTATGGGAAAGCAAAGAAACATTACACAATGGAGGAGAACCAAAAGGAAACCGCTGTTGCCGAATGGATTGATAGACATGGCAAGGAACCGAGGGTAGGAATCGGTCTTCAAGCTTGTCAAATCTCATGGGACGATGATGATGGCGAGCACTTCTATGAAGCTGGGACTCCATGGTGGAGATGAAACACATGTTCTGATGTCGAGGATCTTATCTAAACTTGCCGCAGTAAATGAGAGGCACCAATCATCTTTTGATAGAGCTCTGTGCTGGAAGATGAAGTTTTTGTACCAAGAAGCTGACAGTCTCGGGGTTCTCTCTTGAGTACTGAAATCGACATGGTACATACCGAACCTTATGGTATAACCGGATATCCACTCGAAGTTGTCTAGTAAAGACCAGGCGAAGTATCCTCTTACATCTGCTCCTTTCCTATTTGCACAAGTAGCTTTAGGGTTTAGAATCGAGACATATATGAGTTTTTTCTGAAGTTGAAGCATAATTACCTCATTGCTCTTTTGAGTGCATCTAAGTAGTTGCTCATGAACTTCACTC
CDS Sequence
Protein Sequence