Information report for AT5G41730
Gene Details
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Functional Descriptions
Functional Keywords
Literature and News
- Genome-wide analysis and experimentation of plant serine/ threonine/tyrosine-specific protein kinases. DOI: 10.1007/s11103-005-4109-7 ; PMID: 16429265
- Discovery of a Family of Mixed Lineage Kinase Domain-like Proteins in Plants and Their Role in Innate Immune Signaling. DOI: 10.1016/j.chom.2020.08.012 ; PMID: 33053377
Gene Resources
- UniProt: Q9FGG5
- EMBL: AB025635, CP002688
- AlphaFoldDB: Q9FGG5
- EnsemblPlants: AT5G41730.1, AT5G41730.2
- Gramene: AT5G41730.1, AT5G41730.2
- KEGG: ath:AT5G41730
- Orthologous matrix: TIMNTKD
- ExpressionAtlas: AT5G41730
- InterPro: IPR000719, IPR001245, IPR010632
- PANTHER: PTHR44329, PTHR44329:SF260
- SUPFAM: SSF56112
- PROSITE: PS50011
- Gene3D: 1.10.510.10
- SWISS-MODEL: Q9FGG5
Sequences
cDNA Sequence
- >AT5G41730.1
CTCAAGTCTTGTGGAACAATTATTTGCGTTGGTTTTATTGAAAGAAAGAGATTTAAGGATTTTTTAAACACTGATGGAGCAATTCAGACAAATCGGAGAAGTTCTTGGAAGTCTAAATGCACTAATGGTATTACAAGATGATATCTTGATCAACCAAAGACAATGTTGTTTGTTGTTAGAACTCTTCAGCTTAGCTTTCAACACGGTCGCAGAAGAGATCAGACAGAATCTAAAGCTTGAAGAGAAGCATACTAAATGGAGAGCTCTTGAACAACCTTTAAGGGAGCTTTATAGAGTTTTTAAAGAAGGAGAGTTATATGTTAAGCATTGTATGGATAATAGTGATTGGTGGGGTAAAGTAATCAATCTTCATCAGAACAAAGATTGTGTTGAGTTTCATATACACAACTTGTTCTGTTATTTCTCTGCGGTTGTTGAAGCCATCGAGGCTGCTGGTGAGATTTCGGGTCTTGACCCTTCTGAGATGGAGAGAAGGAGAGTTGTGTTTTCAAGAAAGTATGATAGAGAGTGGAATGATCCTAAGATGTTTCAATGGAGGTTTGGGAAACAGTATTTGCTCTCGAGAGATATTTGCAGCCGGTTTGAGCATTCTTGGAGAGAAGATAGATGGAATCTAGTGGAGGCATTGCAAGAGAAGAGGAAATCGGATAGCGATGATATTGGTAAAACCGAGAAGCGTTTAGCTGATTTGCTGTTGAAGAAGTTAACCGGTTTGGAGCAGTTTAACGGTAAACTGTTTCCTAGTTCGATACTTCTTGGTTCAAAGGATTACCAGGTGAAGAAACGGTTAGATGCAGATGGACAATACAAGGAGATTCAATGGTTAGGTGATAGTTTTGCACTAAGGCACTTTTTCAGCGATCTTGAGCCGCTAAGTTCTGAAATCTCGTCTCTTTTAGCGCTTTGTCATTCGAATATACTTCAGTACCTTTGTGGATTCTATGATGAAGAAAGGAAAGAATGTTTTTTGGTTATGGAGTTGATGCACAAAGATTTGCAGAGCTACATGAAGGAGAATTGTGGACCAAGAAGAAGATATTTGTTCTCGATCCCTGTGGTGATTGATATCATGTTGCAAATTGCAAGGGGGATGGAGTATCTTCATGGAAATGATATCTTCCATGGAGATTTAAACCCAATGAACATTCATCTGAAAGAGAGGAGTCACACCGAAGGTTACTTCCATGCGAAGATTTGTGGATTCGGTTTATCTTCAGTCGTTAAAGCGCAGTCTTCCTCGAAACCAGGCACTCCTGATCCTGTAATATGGTATGCACCTGAAGTTCTAGCAGAGATGGAACAAGACCTGAATGGTAAAACTCCGAAATCTAAGTTGACGCATAAAGCTGATGTGTATAGCTTTGCAATGGTGTGTTTTGAGCTTATAACAGGTAAAGTTCCATTTGAAGATAGTCATCTTCAAGGTGAACCAATGACTATCAATATTAGAATGGGAGAGAGACCTCTTTTCCCTTTCCCTTCACCAAAATACCTCGTTAGTCTGATCAAACGATGTTGGCACTCAGAACCGAGTCAGCGTCCTAACTTCTCTTCGATATGTCGGATACTACGCTACATCAAGAAGTTCCTAGTTGTGAATCCAGATCATGGTCATCCTCAAATGCAAACTCCACTTGTTGATTGTTGGGACTTAGAAGCAAGGTTCTTGAGAAAGTTTCCAGGTGATGCAGGGTCTCACACCGCGTCAGTGAATCAAATACCGTTCCAACTATACTCATACCGGGTTTTGGAAAAAGAGAAGATGAATCCAAACTCAAAAGAAAGCTCAGAGACTAGTGAATCTGAAAGCGTTTCAGTGGTTGAAGATCCACCTAATGCCATGATTACAAGAGATACAAAGTCATTGTGTCTTGATACAATATCTGAATACTCAGATACAAGATCAGTCTACTCGGAAGCTCCCATGAAAAAGGTCTCAGCTCTAAAGAAAAGCGGCGAAATGGCAAAGCTCAGAAGAAGTCCAAGCTTAGGTTCAGAAAAGTTGAGATCGGCAGGAACTTCAACGGTAAAAGCAAGATCATCGCCAAAAGTATCACCACTGAGTCCATTTGGAAGAAGCATTAAAGCAAGGAAGGATAATCGATTGCCTTTGAGTCCAATGAGTCCTTTAACCCCTGGAATACGTAGACAACAGACTGGTCATGCTTCAGACTCTGAGCTTACTTAGCTTTTCATCAAAAACCAGACAAGAAGAAGAAGATCCATGAAAAAACAGAGTGCTTAGCTTTTGGTCAGTATTCAAAGCAGAGTTCATAGTTTCAGACATGAAAAAAAACACCTAAAAAAAAACAATGAGGTAGAGATCTTTGCATACATTTTTGTGGTTAATTTTAGAAGCTTCTCTTGGGATTTTTTCTTCAAGAGTATGGTTTATTTGTTCTTGTTTCTTTTTTGTAGCTTCTGAGTAATTTTTTGGAGTTCGGATTGTAAAAGTTTATTTTTGTACAAAGACAGAAATGTATCAGCTTTTTGCAA - >AT5G41730.2
CTCAAGTCTTGTGGAACAATTATTTGCGTTGGTTTTATTGAAAGAAAGAGATTTAAGGATTTTTTAAACACTGATGGAGCAATTCAGACAAATCGGAGAAGTTCTTGGAAGTCTAAATGCACTAATGGTATTACAAGATGATATCTTGATCAACCAAAGACAATGTTGTTTGTTGTTAGAACTCTTCAGCTTAGCTTTCAACACGGTCGCAGAAGAGATCAGACAGAATCTAAAGCTTGAAGAGAAGCATACTAAATGGAGAGCTCTTGAACAACCTTTAAGGGAGCTTTATAGAGTTTTTAAAGAAGGAGAGTTATATGTTAAGCATTGTATGGATAATAGTGATTGGTGGGGTAAAGTAATCAATCTTCATCAGAACAAAGATTGTGTTGAGTTTCATATACACAACTTGTTCTGTTATTTCTCTGCGGTTGTTGAAGCCATCGAGGCTGCTGGTGAGATTTCGGGTCTTGACCCTTCTGAGATGGAGAGAAGGAGAGTTGTGTTTTCAAGAAAGTATGATAGAGAGTGGAATGATCCTAAGATGTTTCAATGGAGGTTTGGGAAACAGTATTTGCTCTCGAGAGATATTTGCAGCCGGTTTGAGCATTCTTGGAGAGAAGATAGATGGAATCTAGTGGAGGCATTGCAAGAGAAGAGGAAATCGGATAGCGATGATATTGGTAAAACCGAGAAGCGTTTAGCTGATTTGCTGTTGAAGAAGTTAACCGGTTTGGAGCAGTTTAACGGTAAACTGTTTCCTAGTTCGATACTTCTTGGTTCAAAGGATTACCAGGTGAAGAAACGGTTAGATGCAGATGGACAATACAAGGAGATTCAATGGTTAGGTGATAGTTTTGCACTAAGGCACTTTTTCAGCGATCTTGAGCCGCTAAGTTCTGAAATCTCGTCTCTTTTAGCGCTTTGTCATTCGAATATACTTCAGTACCTTTGTGGATTCTATGATGAAGAAAGGAAAGAATGTTTTTTGGTTATGGAGTTGATGCACAAAGATTTGCAGAGCTACATGAAGGAGAATTGTGGACCAAGAAGAAGATATTTGTTCTCGATCCCTGTGGTGATTGATATCATGTTGCAAATTGCAAGGGGGATGGAGTATCTTCATGGAAATGATATCTTCCATGGAGATTTAAACCCAATGAACATTCATCTGAAAGAGAGGAGTCACACCGAAGGTTACTTCCATGCGAAGATTTGTGGATTCGGTTTATCTTCAGTCGTTAAAGCGCAGTCTTCCTCGAAACCAGGCACTCCTGATCCTGTAATATGGTATGCACCTGAAGTTCTAGCAGAGATGGAACAAGACCTGAATGGTAAAACTCCGAAATCTAAGTTGACGCATAAAGCTGATGTGTATAGCTTTGCAATGGTGTGTTTTGAGCTTATAACAGGTAAAGTTCCATTTGAAGATAGTCATCTTCAAGGTGAACCAATGACTATCAATATTAGAATGGGAGAGAGACCTCTTTTCCCTTTCCCTTCACCAAAATACCTCGTTAGTCTGATCAAACGATGTTGGCACTCAGAACCGAGTCAGCGTCCTAACTTCTCTTCGATATGTCGGATACTACGCTACATCAAGAAGTTCCTAGTTGTGAATCCAGATCATGGTCATCCTCAAATGCAAACTCCACTTGTTGATTGTTGGGACTTAGAAGCAAGGTTCTTGAGAAAGTTTCCAGGTGATGCAGGGTCTCACACCGCGTCAGTGAATCAAATACCGTTCCAACTATACTCATACCGGGTTTTGGAAAAAGAGAAGATGAATCCAAACTCAAAAGAAAGCTCAGAGACTAGTGAATCTGAAAGCGTTTCAGTGGTTGAAGATCCACCTAATGCCATGATTACAAGAGATACAAAGTCATTGTGTCTTGATACAATATCTGAATACTCAGATACAAGATCAGTCTACTCGGAAGCTCCCATGAAAAAGGTCTCAGCTCTAAAGAAAAGCGGCGAAATGGCAAAGCTCAGAAGAAGTCCAAGCTTAGGTTCAGAAAAGTTGAGATCGGCAGGAACTTCAACGGTAAAAGCAAGATCATCGCCAAAAGTATCACCACTGAGTCCATTTGGAAGAAGCATTAAAGCAAGGAAGGATAATCGATTGCCTTTGAGTCCAATGAGTCCTTTAACCCCTGGAATACGTAGACAACAGACTGGTCATGCTTCAGACTCTGAGCTTACTTAGCTTTTCATCAAAAACCAGACAAGAAGAAGAAGATCCATGAAAAAACAGAGTGCTTAGCTTTTGGTCAGTATTCAAAGCAGAGTTCATAGTTTCAGACATGAAAAAAAACACCTAAAAAAAAACAATGAGGTAGAGATCTTTGCATACATTTTTGTGGTTAATTTTAGAAGCTTCTCTTGGGATTTTTTCTTCAAGAGTATGGTTTATTTGTTCTTGTTTCTTTTTTGTAGCTTCTGAGTAATTTTTTGGAGTTCGGATTGTAAAAGTTTATTTTTGTACAAAGACAGAAATGTATCAGCTTTTTGCAA
CDS Sequence
Protein Sequence