Information report for AT5G19160
Gene Details
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Functional Descriptions
Functional Keywords
Literature and News
- Arabidopsis ESK1 encodes a novel regulator of freezing tolerance. DOI: 10.1111/j.1365-313X.2006.02994.x ; PMID: 17316173
- TRICHOME BIREFRINGENCE and its homolog AT5G01360 encode plant-specific DUF231 proteins required for cellulose biosynthesis in Arabidopsis. DOI: 10.1104/pp.110.153320 ; PMID: 20388664
- Involvement of TBL/DUF231 proteins into cell wall biology. DOI: 10.4161/psb.5.8.12414 ; PMID: 20657172
- Molecular Mechanism of Polysaccharide Acetylation by the Arabidopsis Xylan O-acetyltransferase XOAT1. DOI: 10.1105/tpc.20.00028 ; PMID: 32354790
Gene Resources
- UniProt: A0A178UEV1
- EMBL: CACSHJ010000096, LR881470, LUHQ01000005
- AlphaFoldDB: A0A178UEV1
- EnsemblPlants: AT5G19160.1
- Gramene: AT5G19160.1
- KEGG: ath:AT5G19160
- Orthologous matrix: EAYPLYQ
- ExpressionAtlas: AT5G19160
- InterPro: IPR025846, IPR026057, IPR029962
- PANTHER: PTHR32285, PTHR32285:SF213
- OrthoDB: A0A178UEV1
- SWISS-MODEL: A0A178UEV1
Sequences
cDNA Sequence
- >AT5G19160.1
AAGTCTCTCCCTTTACGAAACAAGACGGTCAAGAAAAAAGTTGAGACTCTTCTCTTTTAGATTTTGAAACCGAAAATCTTAAGCTAATTACACCTTTGGATTTGTATTTGTTCGCTAATACATATACTAGTTTGACGAATCTAATATACCAAGTAAAGCTGTCTCTTTCAGCTTACTTTTTTCTACTCAGATATTAATAAAGTTAGCAACTTCTGAAGCTTCTTCTTAAAACCTCAAAGATGTCGAAGAACCCATCTCAGGAAGAAGATGAAGCCATGCCAATCTCTGAAGTAGTAATAAAGAGATTCAAGCGTTTAAGGCTCGTGTTCGAGCCATCACTAGGAGTCTTGGGTTTTTTCTTGGTGGGTTTGTGTTTAGTCTTCAGCTTCTTCTACCTCGATTACAGAACCGTGGCTAAAACTAAAAGTCATGACTTTTCGGATCAATCGGAGAGATTCCTTTGGCTCAAGGAGCTCGATGGGTTTGAAGTTAACAACACCAAAGTTGGGTTTCTTGAAGAGAGTGGGAATGGTTGTGATTTGTTCAATGGGAAATGGGTTTGGGACGAATCGTATCCCTTGTATCAGTCTAAAGATTGTACCTTTATTGATGAAGGATTCAGATGCACTGAGTTTGGGAGACCTGATTTGTTCTATACTAAGTGGAGATGGCAACCTAACCATTGTGATTTGCCCAGATTTGATGCTAAGTTGATGTTGGAGAAGCTAAGGAACAAGCGGCTAGTGTTTGTAGGAGACTCAATTGGAAGAAACCAATGGGAGTCTCTTCTTTGTATGCTAGCTTCTGCAATCAGTAACAAGAATTTGGTTTATGAAGTGAACAATAGACCCATCACAAAGCACATGGGCTTCTTTGTGTTCAGGTTTCATGACTACAATTGCACTGTTGAATACTATAGAGCACCGTTTTTGGTTCTTCAAAGCCGGCCACCTGAAGGATCACCAGAGAAGGTAAAGACCACTCTTAAGCTAGAGACGATGGAATGGACTGCTGATAAGTGGAGAGATGCGGATATATTAGTGTTTAACACGGGTCATTGGTGGAACTATGAGAAAACTATTCGCGGAGGTTGTTACTTTCAAGAAGGAGAAAAAGTAAGAATGAGAATGAAGATAGAGCATGCGTATAGACGAGCTATGAAGACTGTAATGAAATGGATACAAGAAGAGGTTGATGCAAACAAGACACAGGTTTTCTTTCGGACATTTGCCCCTGTGCATTTCAGGGGAGGAGATTGGAGAACTGGAGGAACATGTCATATGGAGACACTGCCTGATTTTGGAGCTTCTCTGGTTCCAGCAGAGACATGGGATCATATAAAGCTCCTTCAAGATGTCTTGTCTTCGTCTCTTTACTACTCGAACATATCAGAGACGGTTAAACTGAAAGTGTTGAACATAACAGCCATGGCTGCTCAAAGAAACGATGGTCACCCATCACTGTACTACCTGGGCTTGGCTGGTCCTGCGCCATTCCACAGGCAAGACTGCAGCCATTGGTGTCTCCCTGGAGTTCCTGATTCGTGGAATGAGCTTCTTTATGCATTGTTTCTAAAGCATGAAGGCTATTCAAGTCCAAGATCAAACAATAGCGATACAGACAACTTTACATAACATCTTTTGGTAAAGTAGATGGTTCTTGCTCTCTAGAGGCTGGGCTCAAGATTTTGATTGAGTGATTAGGTTAATTGGGTGGGGAATATGTAATTACTTGTTAGGTTAAGCAACTTTTGTTGTAAAGATATTAGTTTTGGATCTCTGTTCTCAAGAAATATTGGAAATTTAAAAGTGTTTTGGTATACAATGATTATGTAACACTTCCAGAACTTTATTTTGCTTTTGATTATAAGAAACAAATCCATATATGATAATAATCGAAGTTTGGTACTTTGTTTGGTCTTCAACGTGAAAAACCGGCACTGTGATGATGATGATGATGATGGTAAGGAATAGAGGCTATGGGAGGACGATGATGATGAAGAAGAAGAAAAGTGCCATAATTGGCGCCGGCGACATGAGACTTCTTCGACTCTAAAACATCTTGTGTGACGGTTATACCCTTTTCCACGTCAACTAGTTTGGTCTGCATCTCATCGTGATCGGTGCAACCGTTGACGGCGTAGACGACACAACATGCGAGAAGCGCAACAACACAAGGGATG - >AT5G19160.2
AAGTCTCTCCCTTTACGAAACAAGACGGTCAAGAAAAAAGTTGAGACTCTTCTCTTTTAGATTTTGAAACCGAAAATCTTAAGCTAATTACACCTTTGGATTTGTATTTGTTCGCTAATACATATACTAGTTTGACGAATCTAATATACCAAGTAAAGCTGTCTCTTTCAGCTTACTTTTTTCTACTCAGATATTAATAAAGTTAGCAACTTCTGAAGCTTCTTCTTAAAACCTCAAAGATGTCGAAGAACCCATCTCAGGAAGAAGATGAAGCCATGCCAATCTCTGAAGTAGTAATAAAGAGATTCAAGCGTTTAAGGCTCGTGTTCGAGCCATCACTAGGAGTCTTGGGTTTTTTCTTGGTGGGTTTGTGTTTAGTCTTCAGCTTCTTCTACCTCGATTACAGAACCGTGGCTAAAACTAAAAGTCATGACTTTTCGGATCAATCGGAGAGATTCCTTTGGCTCAAGGAGCTCGATGGGTTTGAAGTTAACAACACCAAAGTTGGGTTTCTTGAAGAGAGTGGGAATGGTTGTGATTTGTTCAATGGGAAATGGGTTTGGGACGAATCGTATCCCTTGTATCAGTCTAAAGATTGTACCTTTATTGATGAAGGATTCAGATGCACTGAGTTTGGGAGACCTGATTTGTTCTATACTAAGTGGAGATGGCAACCTAACCATTGTGATTTGCCCAGATTTGATGCTAAGTTGATGTTGGAGAAGCTAAGGAACAAGCGGCTAGTGTTTGTAGGAGACTCAATTGGAAGAAACCAATGGGAGTCTCTTCTTTGTATGCTAGCTTCTGCAATCAGTAACAAGAATTTGGTTTATGAAGTGAACAATAGACCCATCACAAAGCACATGGGCTTCTTTGTGTTCAGGTTTCATGACTACAATTGCACTGTTGAATACTATAGAGCACCGTTTTTGGTTCTTCAAAGCCGGCCACCTGAAGGATCACCAGAGAAGGTAAAGACCACTCTTAAGCTAGAGACGATGGAATGGACTGCTGATAAGTGGAGAGATGCGGATATATTAGTGTTTAACACGGGTCATTGGTGGAACTATGAGAAAACTATTCGCGGAGGTTGTTACTTTCAAGAAGGAGAAAAAGTAAGAATGAGAATGAAGATAGAGCATGCGTATAGACGAGCTATGAAGACTGTAATGAAATGGATACAAGAAGAGGTTGATGCAAACAAGACACAGGTTTTCTTTCGGACATTTGCCCCTGTGCATTTCAGGGGAGGAGATTGGAGAACTGGAGGAACATGTCATATGGAGACACTGCCTGATTTTGGAGCTTCTCTGGTTCCAGCAGAGACATGGGATCATATAAAGCTCCTTCAAGATGTCTTGTCTTCGTCTCTTTACTACTCGAACATATCAGAGACGGTTAAACTGAAAGTGTTGAACATAACAGCCATGGCTGCTCAAAGAAACGATGGTCACCCATCACTGTACTACCTGGGCTTGGCTGGTCCTGCGCCATTCCACAGGCAAGACTGCAGCCATTGGTGTCTCCCTGGAGTTCCTGATTCGTGGAATGAGCTTCTTTATGCATTGTTTCTAAAGCATGAAGGCTATTCAAGTCCAAGATCAAACAATAGCGATACAGACAACTTTACATAACATCTTTTGGTAAAGTAGATGGTTCTTGCTCTCTAGAGGCTGGGCTCAAGATTTTGATTGAGTGATTAGGTTAATTGGGTGGGGAATATGTAATTACTTGTTAGGTTAAGCAACTTTTGTTGTAAAGATATTAGTTTTGGATCTCTGTTCTCAAGAAATATTGGAAATTTAAAAGTGTTTTGGTATACAATGATTATGTAACACTTCCAGAACTTTATTTTGCTTTTGATTATAAGAAACAAATCCATATATGATAATAATCGAAGTTTGGTACTTTGTTTGGTCTTCAACGTGAAAAACCGGCACTGTGATGATGATGATGATGATGGTAAGGAATAGAGGCTATGGGAGGACGATGATGATGAAGAAGAAGAAAAGTGCCATAATTGGCGCCGGCGACATGAGACTTCTTCGACTCTAAAACATCTTGTGTGACGGTTATACCCTTTTCCACGTCAACTAGTTTGGTCTGCATCTCATCGTGATCGGTGCAACCGTTGACGGCGTAGACGACACAACATGCGAGAAGCGCAACAACACAAGGGATG
CDS Sequence
Protein Sequence