Information report for AT5G04895
Gene Details
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Functional Descriptions
Functional Keywords
Literature and News
- Identification of imprinted genes subject to parent-of-origin specific expression in Arabidopsis thaliana seeds. DOI: 10.1186/1471-2229-11-113 ; PMID: 21838868
- DEXH box RNA helicase-mediated mitochondrial reactive oxygen species production in Arabidopsis mediates crosstalk between abscisic acid and auxin signaling. DOI: 10.1105/tpc.112.098707 ; PMID: 22652060
Gene Resources
- UniProt: Q9FF84
- EMBL: AB005245, AB008271, AB025625
- AlphaFoldDB: Q9FF84
- EnsemblPlants: AT5G04895.1
- Gramene: AT5G04895.1
- KEGG: ath:AT5G04895
- Orthologous matrix: SCWTPDC
- ExpressionAtlas: AT5G04895
- InterPro: IPR001650, IPR007502, IPR011545
- PANTHER: PTHR18934, PTHR18934:SF103
- SUPFAM: SSF52540, SSF54768
- PROSITE: PS51192, PS51194
- Gene3D: 1.20.120.1080, 3.30.160.20, 3.40.50.300
- SWISS-MODEL: Q9FF84
- Conserved Domain Database: cd17917, cd18791
Sequences
cDNA Sequence
- >AT5G04895.1
TAGATTTGAAGACAGAGAGACCTGAAAGCTTTTAGTTCAATCGATCTTGTCTGACCAAAAATCTGTGTATAGGAGAGAACCCAGTTGAATTGGGAACTGAGAGAAGCAGAAAGTAACTTCCTTTACCGGAGAACGAGAAGTGAACGGTGAAGGCGGCGAGGTTGAGAACCATGCCTCTTCGCTCATTTCGTTTTCTAGAATGCGTTTCACAAAAAGAATAAGCCTCTTCTTGGGGCAGACGACCAGGATTCATAGTCGCTCTCTATTGGGAAATCCGACTTTATGCAGGTCTTATATCGTTGGTCCGGTCTCTACTAGTTCTCCGGCGTTTCTGATTTCGAGTCGTAATGGTGATGGTGTTACGGGATTGTACTACCCGATACGTCGTCGTTTCATCGGGCACACTGCGGAACAGTTCTCGGATGATGAGTACGAGTGTGAATTCGAGGAACATAAGGCTTCATCTTCTGTGGCCAATGTTGATGAGTGGAAGTGGAAGTTAGGAATTTTGTTGGCCAATGATAGTGAACAAGAAATTGTTTCCAGAGACAAAAGGGATCGAAGAGATTATGAGCAGATCTCAAATCTTGCTAAGAGAATGGGACTTTACAGTGAAATTTATGGAAAAGTGGTTGTTGCAAGCAAGGTTCCTCTTCCTAACTACCGACCAGATTTGGATGATAAGCGACCACAACGGGAGGTGGTGCTTCCGTTGAGTTTGCAAAGAAGGGTAGAGGGACTCCTCCAGGAACATCTTGATAGTCAGCAGCTAAGCTCAGGAAAGGCTAATGAATGCGTAGCTGATTCTCAACCTCCTAAACAGACTGAAGAACTTCCCGATGAAAATTCTGATTCGTTTCTCGATGGTTCTGTTATGGAGAAGGTACTTCAGAGGAGGAGTATGCGGATGCGCAATATGCAGAGAACCTGGCAGGAATCCCCTGAGGGACGGACGATGCTGGAATTCAGGAAAACTTTGCCTTCATTCAAGGACAAAGAAAGACTTCTTCAAGCTATTGCTCGGAACCAGGTGATAGTTGTATCTGGGGAGACTGGATGTGGTAAGACAACTCAGCTTCCACAATACATTTTGGAATCAGAGATAGAGTCTGGTCGGGGAGCATTCTGCAACATCATTTGTACTCAACCTAGGAGAATATCTGCCATGGCAGTTTCAGAAAGAGTGTCAGCTGAAAGAGGAGAACCTCTTGGTGAAACGGTTGGGTTTAAAGTTCGTCTAGAAGGAATGAGAGGAAAGAATACCCACCTTCTATTTTGTACAAGTGGTATCCTTCTCAGACGGCTGCTTAGTGATCGCAATTTGAATGGAGTTACACATGTTTTTGTTGATGAGATTCATGAAAGGGGCATGAATGAAGATTTCTTAATTATAGTGTTAAAGGAGCTTCTTCCACGGCGTCCAGATCTGAGATTGGTTCTCATGAGTGCCACTTTGAATGCTGAACTCTTTTCTAATTACTATGGAGGGGCACCTACCATTCACATTCCTGGCTTCACACATCCAGTGAAAGCACATTTTTTGGAGGATGTACTGGAAATAACGGGATATAAGCTGACCTCTTTTAATCAAGTTGATGATTATGGCCAAGAAAAGACGTGGAAAACGCAAAAACAGTTAATGCCTCGCAAAAGAAAAAACCAGATCACTACTCTTGTTGAGGAAGCTCTCAGCAAGTCAAATTTTGAAAGCTATAACTCTAGGACACGTGATTCTCTTTCGTCTTGGATGCCTGACTGCATAGGATTTAATCTCATTGAGGCTGTTCTCTGTCACATATGCCGAAAAGAACGTCCAGGTGCTGTATTAGTATTTTTGACAGGATGGGATGATATCAGATCCCTGAGCGACCAAATTAAAGCCCATCCTCTCTTGGGAGATCCGAACAGGGTTTTGCTATTAATGTGCCACGGTTCAATGGCAACTGCTGAGCAGAGACTCATTTTTGAGAGAGCACCTCCTAATATTCGCAAAATTGTTCTTGCTACAAACATGGCAGAAGCTAGTATTACAATAAACGATGTAGTGTTTGTGGTTGACTGTGGAAAAGCAAAAGAGACCACCTATGATGCTTTGAACAATACACCTTGTCTGCTACCTTCTTGGATATCTCAAGCTTCTGCGAGACAGAGAAGGGGAAGAGCTGGGCGTCTGTTTCCGGGAGAATGCTATCACCTGTACCCCAAATGCGTCTATGATGCTTTTGCAGAGTATCAACTTCCTGAACTTCTGAGAACTCCTTTAAACTCTCTCTGCCTGCAAATTAAAAGTCTTCAGGTTGAAAGCATTGCAGAATTCTTGTCAGCTGCACTTCAGGCTCCAGAGTCTTTGGCTGTTCAAAATGCTATTGGATTCCTGAAAATGATCGGAGCACTGGATGAGAAGGAAAATCTAACGGATCTTGGAAAACTCTTATCGATTCTTCCTGTTGATCCCAAGTTGGGGAAAATGCTGATAATGGGTGCCATCTTCCGCTGCTTTGATCCGATCCTGACAATTGTATCAGGGCTAAGTGTCAGAGATCCTTTCCTTCTACCTCAAGACAAAAAAGACTTAGCTTTATCAGCCAAGTTGAGATTCTCAGCCAAAGACTACAGTGACCATATGGCACTCGTTCGTGCCTTTGAAGGGTGGAAAGATGCTGAAAGAGAAGGATCGGCTTATGAGTTTTGTTGGAGGAATTTCCTGTCAGCTCAGACGCTTCAGGCGATACATTCTCTGAGGAAGCAGTTCAACTATATTTTGAAAGAAGCTGGCTTAGTTCATGATGATTTAGCTCTCAACAACAAGCTAAGTCACAACCAGTCTCTGGTTCGTGCTGTCATTTGCTCTGGCCTATTCCCTGGAATAGCATCTGTTGTGCACAGAGAGACTTCCATGTCATTCAAGACAATGGATGATGGCCAAGTATCACTATACGCGAATTCTGTTAATTCGCGGTTCCCAACAATTCCATACCCTTGGCTAGTCTTTGGAGAGAAAGTAAAGGTCAATGCGGTACTCATACGGGACTCCACTGGTGTCCCTGATTCCAGTTTGATCCTTTTTGGTGGTTCATTGAGCACGGGAGTACAGGTGGGACATCTAAAAATGCTTGACGGGTACATTGATTTCTTCATGGATCCAAATTTGGCTGAGTCCTATGTAAAGCTGAAGGAAGAACTCGATAAGCTTCTTCAAAAAAAGCTTGAAGATCCAAGCATGGACATCCACAAAGAAGGCAAGTACCTCATGCTTGCAGTTCAAGAACTTGTGGCTGGAGACCAATGCGAAGGCAGATTTGTCTTTGGCCGTGACACAAAGAGGCCAAGCCAACCGCAAATAGGAGAGAACAAACACTCCAAAGACGGGACAAACCCGAAGAGTCTCCTTCAGACACTTTTGATGAGAGCTGGACACTCACCTCCAAAGTACAAGACAAAACATCTCAAGACAAACGAATTCAGAGCACTTGTGGAGTTTAAAGGAATGCAGTTCGTTGGGAAGCCTCAGAGGAATAAAACGCTCGCTGAGAAAGATGCTGCTGTTGAGGCCTTAGCTTGGTTGACTCATACCTCTGATAATAGTACTGGCCAACACAATGAGGATGCAGATTCTCCACCTGATGTTACTGATAACATGCTTAAACTCCTTGGAGGACGGCGCAGGCGATCCAAGGGCAAGTAATTGAATCTCTGTAGGTTTTTTCGCAGACAGATTTGGTTTGTGTAACTGTGCTTTGGACGATCTCAAATACCAACCAAAGCAGATAGAGAAATTATACTTCAGTAGTCACTATGTAACTATAGTGTCGTTTTTGGGGCAGAACAATAGTGTAGGGTTATAAACATAAAATCTAGAAACTTTAGGGGCTATGATGTATTTTGAACAATAATTGGGGTTATTATCATCTTATATGCCGCCACGTGGCATTTAACTC
CDS Sequence
Protein Sequence