Information report for AT5G35400
Gene Details
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Functional Descriptions
- GO:0031119 — involved in — tRNA pseudouridine synthesis
- GO:0009982 — enables — pseudouridine synthase activity
- GO:0005634 — located in — nucleus
- GO:0009507 — located in — chloroplast
- GO:0106029 — enables — tRNA pseudouridine synthase activity
- GO:0003723 — enables — RNA binding
Functional Keywords
Literature and News
- Analysis of the plastidic phosphate translocator gene family in Arabidopsis and identification of new phosphate translocator-homologous transporters, classified by their putative substrate-binding site. DOI: 10.1104/pp.016519 ; PMID: 12644669
- Identification of plant promoter constituents by analysis of local distribution of short sequences. DOI: 10.1186/1471-2164-8-67 ; PMID: 17346352
- 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: F4JZU2
- EMBL: CP002688
- AlphaFoldDB: F4JZU2
- EnsemblPlants: AT5G35400.2
- Gramene: AT5G35400.2
- KEGG: ath:AT5G35400
- ExpressionAtlas: AT5G35400
- InterPro: IPR001406, IPR020094, IPR020095
- PANTHER: PTHR11142, PTHR11142:SF10
- SUPFAM: SSF55120
- Gene3D: 3.30.70.580, 3.30.70.660
Sequences
cDNA Sequence
- >AT5G35400.2
AACGAGCAACGGCTTAGGTCAATCAGACAATGGCGAGCAGAGTTTACGTTCATTACCACCACGCCGATGCCTGTAGCAAAGCTCGCTGGAACGCCAGAGAGACATTTAGGTTTATGTATGATAGGCCTTGGCAACATGTTCTTGACTTCTACTCAAATGCAGTGGAAGGGAATCTTTCTGTCCTGAGTTTGTTTCAGCCTAAAAAATCTTTGGTTCATGATGATGGGATAACTGAAGAGATGCTTCTTGAATCGGAACCGGAGACTTCTACTCGGAAAGACGGGAGGTCGGGGAGGTGGGAAAGAGTGAATTTCAAGATCGTTCTTTCGTATAATGGGGCTTCTTTTGATGGATGGCAGAAACAGCCTGACTTACATACTGTTCAGGGTGTAGTAGAGAAGTCTCTAGGGGGATTTGTTGATGAAAGGAAAGCTCAACTGCTCAAGAAAAAATGTAAACCATTAGAAGGACGTGTACTTGTCGCTGGAAGAACCGATAAAGGAGTGTCTGCTCTTAATCAAGTTTGTTCTTTCTATACATGGAGAAAAGACATTGAACCCATTGCTATTGAAGATGCTATCAATAAAGATGCTTCTGGGAAGCTAAGGGTTGTATCAATCTCTAAGGTTTCCCGTTCATTTCACCCAAATTTCTCGGCAAAATGGAGGCGCTACTTGTATATCTTCCCCTTGGATGATGCTGAGCCATTGCGAAAAAGTGGCGAGAATCATGAGAACTTTATCTTTGATGAGAACAAGAAAAAGCAAAGAAATGGACTCTTAAGTGAAGAGATTGCTGAAGAAGTAATAATGAGCGAGGATGATGAGCTTGAAATTGAGGAAACCAGCAATGCGCTTGAAGTAGTAGAAAAACCAAGTGACTTTAGTGTAAGCAAGGTTGATCAACTTTTGCAGCACCTTCAAGGAAAAGTATTATCCTACAAGATGTTTGCGCGTGATACAAAAGCTGCAAGAAACGAAGGTCCGCCTACAGAATGTTTTATGTACCATGCACGGGCAGCCGAAATTAGATTGTCCAGTTCTGTCGTCCATTTTGTGGCATGGGTTTTTGGTGGATCAATAGTACTTGTAATCCTGGCTACTGAAGGATCAACATTAGACTTGACAGATACAAAACTGTATATTGCATCTTGGTTTTTGATTAAACGTTCTTGCGAGTTCTTGTTCATTGCAAGTGACTGTGTGGAAGGAAGAAGGGTTATGTGTGTTGAGCTTGTGGCTAACCGATTTCTCCGCAAGATGGTTCGAGTTCTTGTGGCAACATCAATCCGAGAAGCTGCCGCTGGTGCGGAAGATGATGCATTGTTAAAACTGCTAGAAGCTTCATGCAGACGAGCCACAGCTCCTCCAGCTCCATCTGAAGGTCTCTGTCTATTCGACGTTGGTTATACTGACTTTGACCCTCAAACTTCTCTCATTTCCTGAGAATGGCATGTTACATTTACTTAATCATATATTGGATGAAATCTGCATGATTTAGTATGTTTAGTCCGCTTGTCGTTAAAGCAAGCAAGACTTATTTTATTAATATCTCATGATTAATAGTAAGGGTATAGTTATATTTGCCCAAAGCCTTGAGTCATTGACAATGATTTTTATTTAATGGGTCTATTGCAAGATC - >AT5G35400.1
AACGAGCAACGGCTTAGGTCAATCAGACAATGGCGAGCAGAGTTTACGTTCATTACCACCACGCCGATGCCTGTAGCAAAGCTCGCTGGAACGCCAGAGAGACATTTAGGTTTATGTATGATAGGCCTTGGCAACATGTTCTTGACTTCTACTCAAATGCAGTGGAAGGGAATCTTTCTGTCCTGAGTTTGTTTCAGCCTAAAAAATCTTTGGTTCATGATGATGGGATAACTGAAGAGATGCTTCTTGAATCGGAACCGGAGACTTCTACTCGGAAAGACGGGAGGTCGGGGAGGTGGGAAAGAGTGAATTTCAAGATCGTTCTTTCGTATAATGGGGCTTCTTTTGATGGATGGCAGAAACAGCCTGACTTACATACTGTTCAGGGTGTAGTAGAGAAGTCTCTAGGGGGATTTGTTGATGAAAGGAAAGCTCAACTGCTCAAGAAAAAATGTAAACCATTAGAAGGACGTGTACTTGTCGCTGGAAGAACCGATAAAGGAGTGTCTGCTCTTAATCAAGTTTGTTCTTTCTATACATGGAGAAAAGACATTGAACCCATTGCTATTGAAGATGCTATCAATAAAGATGCTTCTGGGAAGCTAAGGGTTGTATCAATCTCTAAGGTTTCCCGTTCATTTCACCCAAATTTCTCGGCAAAATGGAGGCGCTACTTGTATATCTTCCCCTTGGATGATGCTGAGCCATTGCGAAAAAGTGGCGAGAATCATGAGAACTTTATCTTTGATGAGAACAAGAAAAAGCAAAGAAATGGACTCTTAAGTGAAGAGATTGCTGAAGAAGTAATAATGAGCGAGGATGATGAGCTTGAAATTGAGGAAACCAGCAATGCGCTTGAAGTAGTAGAAAAACCAAGTGACTTTAGTGTAAGCAAGGTTGATCAACTTTTGCAGCACCTTCAAGGAAAAGTATTATCCTACAAGATGTTTGCGCGTGATACAAAAGCTGCAAGAAACGAAGGTCCGCCTACAGAATGTTTTATGTACCATGCACGGGCAGCCGAAATTAGATTGTCCAGTTCTGTCGTCCATTTTGTGGCATGGGTTTTTGGTGGATCAATAGTACTTGTAATCCTGGCTACTGAAGGATCAACATTAGACTTGACAGATACAAAACTGTATATTGCATCTTGGTTTTTGATTAAACGTTCTTGCGAGTTCTTGTTCATTGCAAGTGACTGTGTGGAAGGAAGAAGGGTTATGTGTGTTGAGCTTGTGGCTAACCGATTTCTCCGCAAGATGGTTCGAGTTCTTGTGGCAACATCAATCCGAGAAGCTGCCGCTGGTGCGGAAGATGATGCATTGTTAAAACTGCTAGAAGCTTCATGCAGACGAGCCACAGCTCCTCCAGCTCCATCTGAAGGTCTCTGTCTATTCGACGTTGGTTATACTGACTTTGACCCTCAAACTTCTCTCATTTCCTGAGAATGGCATGTTACATTTACTTAATCATATATTGGATGAAATCTGCATGATTTAGTATGTTTAGTCCGCTTGTCGTTAAAGCAAGCAAGACTTATTTTATTAATATCTCATGATTAATAGTAAGGGTATAGTTATATTTGCCCAAAGCCTTGAGTCATTGACAATGATTTTTATTTAATGGGTCTATTGCAAGATC
CDS Sequence
Protein Sequence