Information report for AT5G18610
Gene Details
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Functional Descriptions
Functional Keywords
Literature and News
- Selective regulation of the chitin-induced defense response by the Arabidopsis receptor-like cytoplasmic kinase PBL27. DOI: 10.1111/tpj.12535 ; PMID: 24750441
- Arabidopsis ubiquitin ligase PUB12 interacts with and negatively regulates Chitin Elicitor Receptor Kinase 1 (CERK1). DOI: 10.1371/journal.pone.0188886 ; PMID: 29182677
- Comparative Analysis of CDPK Family in Maize, Arabidopsis, Rice, and Sorghum Revealed Potential Targets for Drought Tolerance Improvement. DOI: 10.3389/fchem.2017.00115 ; PMID: 29312925
- Roles of Receptor-Like Cytoplasmic Kinase VII Members in Pattern-Triggered Immune Signaling. DOI: 10.1104/pp.18.00486 ; PMID: 29907700
- AtCERK1 Phosphorylation Site S493 Contributes to the Transphosphorylation of Downstream Components for Chitin-Induced Immune Signaling. DOI: 10.1093/pcp/pcz096 ; PMID: 31119298
- PUB4, a CERK1-Interacting Ubiquitin Ligase, Positively Regulates MAMP-Triggered Immunity in Arabidopsis. DOI: 10.1093/pcp/pcz151 ; PMID: 31368495
- Involvement of the eIF2α Kinase GCN2 in UV-B Responses. DOI: 10.3389/fpls.2019.01492 ; PMID: 31850012
- Light Activates the Translational Regulatory Kinase GCN2 via Reactive Oxygen Species Emanating from the Chloroplast. DOI: 10.1105/tpc.19.00751 ; PMID: 32079667
- Soy and Arabidopsis receptor-like kinases respond to polysaccharide signals from Spodoptera species and mediate herbivore resistance. DOI: 10.1038/s42003-020-0959-4 ; PMID: 32385340
- Light-Dependent Activation of the GCN2 Kinase Under Cold and Salt Stress Is Mediated by the Photosynthetic Status of the Chloroplast. DOI: 10.3389/fpls.2020.00431 ; PMID: 32411155
- Cytoplasmic Kinase Network Mediates Defense Response to Spodoptera litura in Arabidopsis. DOI: 10.3390/plants12091747 ; PMID: 37176805
- Large-scale analysis of in vivo phosphorylated membrane proteins by immobilized metal ion affinity chromatography and mass spectrometry. DOI: 10.1074/mcp.T300006-MCP200 ; PMID: 14506206
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- MASCP Gator: an aggregation portal for the visualization of Arabidopsis proteomics data. DOI: 10.1104/pp.110.168195 ; PMID: 21075962
- Comparative Analysis of CDPK Family in Maize, Arabidopsis, Rice, and Sorghum Revealed Potential Targets for Drought Tolerance Improvement. DOI: 10.3389/fchem.2017.00115 ; PMID: 29312925
Gene Resources
- UniProt: A0A178UA60
- EMBL: LUHQ01000005
- AlphaFoldDB: A0A178UA60
- EnsemblPlants: AT5G18610.1, AT5G18610.2, AT5G18610.3
- Gramene: AT5G18610.1, AT5G18610.2, AT5G18610.3
- KEGG: ath:AT5G18610
- Orthologous matrix: IDNTRGP
- ExpressionAtlas: AT5G18610
- InterPro: IPR000719, IPR008271, IPR011009
- PANTHER: PTHR47985, PTHR47985:SF4
- SUPFAM: SSF56112
- PROSITE: PS00107, PS00108, PS50011
- Gene3D: 1.10.510.10, 3.30.200.20
- SWISS-MODEL: A0A178UA60
- Conserved Domain Database: cd14066
Sequences
cDNA Sequence
- >AT5G18610.3
CACATCAACCCAACAAAAAAAAAAAAAAAAAAAGATAACAAAAAAAACAACTCGAGATGTGTTGTTGAGAGCTTATGTTGGGATTCTCCGGTTGATTGGTTTTGTCGGTAGTTTTTTTTTTTGTATTTGAATTTCTCCGAGGGACTTAGCTTCGGAGATGAGTGGGTGTTTGCCTTGTTTTGGATCTTCGGCTAAAGACGCTGCTTCTAAAGATTCGGTGAAGAAGGAACTTTCAGCTAAAGACGGCTCAGTTACTCAGTCTCACCATATCAGCTTAGATAAATCAAAGTCTCGACGAGGTCCTGAACAGAAGAAGGAGCTAACTGCTCCAAAAGAAGGGCCTACTGCGCATATTGCTGCACAAACCTTTACTTTCCGAGAGTTAGCTGCCGCCACTAAAAACTTTCGACCGGAATGTCTTCTTGGAGAAGGAGGTTTCGGACGTGTTTACAAAGGTCGTCTAGAGACCACAGGACAGATAGTAGCTGTTAAACAGCTTGATCGAAACGGTCTACAAGGAAACAGAGAGTTTCTTGTAGAGGTTCTTATGCTGAGCCTTCTGCATCATCCCAATCTTGTGAATTTGATTGGTTATTGTGCTGATGGGGACCAGCGTCTTCTTGTGTATGAGTATATGCCACTAGGATCATTGGAGGATCATCTACACGATCTTCCACCTGATAAAGAGCCTCTAGACTGGAGTACTAGAATGACAATAGCGGCAGGAGCAGCAAAGGGACTGGAGTATCTGCATGATAAAGCGAATCCGCCTGTGATCTACAGAGACCTGAAATCATCCAACATTCTTCTCGGTGATGGCTATCACCCAAAGTTATCTGATTTTGGGTTAGCTAAGTTAGGTCCCGTGGGCGATAAAACACATGTGTCAACTCGTGTGATGGGCACATATGGTTATTGTGCACCGGAATATGCCATGACAGGGCAACTCACATTGAAATCCGATGTTTATAGCTTTGGGGTTGTGTTTCTCGAGCTCATCACGGGTCGAAAAGCTATTGATAATGCTCGAGCACCCGGAGAGCACAACCTTGTCGCATGGGCTAGGCCGTTGTTCAAAGATCGTAGAAAGTTTCCGAAGATGGCGGATCCATCGCTGCAAGGGCGGTATCCAATGCGTGGTCTATATCAAGCACTTGCAGTTGCAGCAATGTGTTTACAGGAACAAGCAGCGACAAGACCACTGATTGGCGACGTGGTGACAGCTCTAACATACTTAGCTTCGCAAACGTTTGACCCAAACGCACCAAGCGGTCAAAACAGTAGAAGTGGGAGTGGGCCACCATTTATCAGAACAAGGGATGATCGGAGGAGCTTGGGAGATGGGAGTAGCTTGGATAGTCCTGCAGAGACTCGGAGTCGGTTAGGGTCACCAGCCACTCACAAGAACTCTCCTGATTACAGAAGAAGGGATATGGTGAGGGAAGTCAATGCAGGATCAGAAGGTGGGAGCGAGACAGGAGGCGGGTCAGGTAGAAAATGGGGATTAAGCGATTTGGAAGGGCAAGAATCACAGAGAGGGAGCCCGGCGAGTGTTGGGAGATCATCGAGAGGCACTCCGAGGAACCGAGATTTAGATAGAGAGAGGGCGGTGGCGGAAGCAAAGGTGTGGGGAGAGAATTGGAGGGAGAGGAAGAGAGCTACCAATGGACCGGGCAGCTTTGATAGTACAAATGACTGAAATGGGAAAGATGAAAGCTTGTTTGAAAAATAGAGAACTTTTGTCACTGTGCCAAAAGGCAAAGGGAGAGAGGCTTTGGGTTCATGCGAACATTTTGTCGAGTCGGGTCGGTCAGTTGTCGAATTTGATGTCTGAGTCGAGAAAGAGGACTCTTCAATATTGTGGTTGAAGCTGAAGAACATATGAGGAAGAGAGTTCAAGAAGAATGATGAGTAGTTGGGGACGATTAGGAGGGGAAGAAAAAGTTTATTTTCAGGTGATGTTTTTGGGGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCTTCTTGTTCAATGGGTTGTATATGTAATATGGGAGGGAGGATTCGAGTCGATTTTTATAATTTTTCTGTACTA - >AT5G18610.2
CACATCAACCCAACAAAAAAAAAAAAAAAAAAAGATAACAAAAAAAACAACTCGAGATGTGTTGTTGAGAGCTTATGTTGGGATTCTCCGGTTGATTGGTTTTGTCGGTAGTTTTTTTTTTTGTATTTGAATTTCTCCGAGGGACTTAGCTTCGGAGATGAGTGGGTGTTTGCCTTGTTTTGGATCTTCGGCTAAAGACGCTGCTTCTAAAGATTCGGTGAAGAAGGAACTTTCAGCTAAAGACGGCTCAGTTACTCAGTCTCACCATATCAGCTTAGATAAATCAAAGTCTCGACGAGGTCCTGAACAGAAGAAGGAGCTAACTGCTCCAAAAGAAGGGCCTACTGCGCATATTGCTGCACAAACCTTTACTTTCCGAGAGTTAGCTGCCGCCACTAAAAACTTTCGACCGGAATGTCTTCTTGGAGAAGGAGGTTTCGGACGTGTTTACAAAGGTCGTCTAGAGACCACAGGACAGATAGTAGCTGTTAAACAGCTTGATCGAAACGGTCTACAAGGAAACAGAGAGTTTCTTGTAGAGGTTCTTATGCTGAGCCTTCTGCATCATCCCAATCTTGTGAATTTGATTGGTTATTGTGCTGATGGGGACCAGCGTCTTCTTGTGTATGAGTATATGCCACTAGGATCATTGGAGGATCATCTACACGATCTTCCACCTGATAAAGAGCCTCTAGACTGGAGTACTAGAATGACAATAGCGGCAGGAGCAGCAAAGGGACTGGAGTATCTGCATGATAAAGCGAATCCGCCTGTGATCTACAGAGACCTGAAATCATCCAACATTCTTCTCGGTGATGGCTATCACCCAAAGTTATCTGATTTTGGGTTAGCTAAGTTAGGTCCCGTGGGCGATAAAACACATGTGTCAACTCGTGTGATGGGCACATATGGTTATTGTGCACCGGAATATGCCATGACAGGGCAACTCACATTGAAATCCGATGTTTATAGCTTTGGGGTTGTGTTTCTCGAGCTCATCACGGGTCGAAAAGCTATTGATAATGCTCGAGCACCCGGAGAGCACAACCTTGTCGCATGGGCTAGGCCGTTGTTCAAAGATCGTAGAAAGTTTCCGAAGATGGCGGATCCATCGCTGCAAGGGCGGTATCCAATGCGTGGTCTATATCAAGCACTTGCAGTTGCAGCAATGTGTTTACAGGAACAAGCAGCGACAAGACCACTGATTGGCGACGTGGTGACAGCTCTAACATACTTAGCTTCGCAAACGTTTGACCCAAACGCACCAAGCGGTCAAAACAGTAGAAGTGGGAGTGGGCCACCATTTATCAGAACAAGGGATGATCGGAGGAGCTTGGGAGATGGGAGTAGCTTGGATAGTCCTGCAGAGACTCGGAGTCGGTTAGGGTCACCAGCCACTCACAAGAACTCTCCTGATTACAGAAGAAGGGATATGGTGAGGGAAGTCAATGCAGGATCAGAAGGTGGGAGCGAGACAGGAGGCGGGTCAGGTAGAAAATGGGGATTAAGCGATTTGGAAGGGCAAGAATCACAGAGAGGGAGCCCGGCGAGTGTTGGGAGATCATCGAGAGGCACTCCGAGGAACCGAGATTTAGATAGAGAGAGGGCGGTGGCGGAAGCAAAGGTGTGGGGAGAGAATTGGAGGGAGAGGAAGAGAGCTACCAATGGACCGGGCAGCTTTGATAGTACAAATGACTGAAATGGGAAAGATGAAAGCTTGTTTGAAAAATAGAGAACTTTTGTCACTGTGCCAAAAGGCAAAGGGAGAGAGGCTTTGGGTTCATGCGAACATTTTGTCGAGTCGGGTCGGTCAGTTGTCGAATTTGATGTCTGAGTCGAGAAAGAGGACTCTTCAATATTGTGGTTGAAGCTGAAGAACATATGAGGAAGAGAGTTCAAGAAGAATGATGAGTAGTTGGGGACGATTAGGAGGGGAAGAAAAAGTTTATTTTCAGGTGATGTTTTTGGGGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCTTCTTGTTCAATGGGTTGTATATGTAATATGGGAGGGAGGATTCGAGTCGATTTTTATAATTTTTCTGTACTA - >AT5G18610.1
CACATCAACCCAACAAAAAAAAAAAAAAAAAAAGATAACAAAAAAAACAACTCGAGATGTGTTGTTGAGAGCTTATGTTGGGATTCTCCGGTTGATTGGTTTTGTCGGTAGTTTTTTTTTTTGTATTTGAATTTCTCCGAGGGACTTAGCTTCGGAGATGAGTGGGTGTTTGCCTTGTTTTGGATCTTCGGCTAAAGACGCTGCTTCTAAAGATTCGGTGAAGAAGGAACTTTCAGCTAAAGACGGCTCAGTTACTCAGTCTCACCATATCAGCTTAGATAAATCAAAGTCTCGACGAGGTCCTGAACAGAAGAAGGAGCTAACTGCTCCAAAAGAAGGGCCTACTGCGCATATTGCTGCACAAACCTTTACTTTCCGAGAGTTAGCTGCCGCCACTAAAAACTTTCGACCGGAATGTCTTCTTGGAGAAGGAGGTTTCGGACGTGTTTACAAAGGTCGTCTAGAGACCACAGGACAGATAGTAGCTGTTAAACAGCTTGATCGAAACGGTCTACAAGGAAACAGAGAGTTTCTTGTAGAGGTTCTTATGCTGAGCCTTCTGCATCATCCCAATCTTGTGAATTTGATTGGTTATTGTGCTGATGGGGACCAGCGTCTTCTTGTGTATGAGTATATGCCACTAGGATCATTGGAGGATCATCTACACGATCTTCCACCTGATAAAGAGCCTCTAGACTGGAGTACTAGAATGACAATAGCGGCAGGAGCAGCAAAGGGACTGGAGTATCTGCATGATAAAGCGAATCCGCCTGTGATCTACAGAGACCTGAAATCATCCAACATTCTTCTCGGTGATGGCTATCACCCAAAGTTATCTGATTTTGGGTTAGCTAAGTTAGGTCCCGTGGGCGATAAAACACATGTGTCAACTCGTGTGATGGGCACATATGGTTATTGTGCACCGGAATATGCCATGACAGGGCAACTCACATTGAAATCCGATGTTTATAGCTTTGGGGTTGTGTTTCTCGAGCTCATCACGGGTCGAAAAGCTATTGATAATGCTCGAGCACCCGGAGAGCACAACCTTGTCGCATGGGCTAGGCCGTTGTTCAAAGATCGTAGAAAGTTTCCGAAGATGGCGGATCCATCGCTGCAAGGGCGGTATCCAATGCGTGGTCTATATCAAGCACTTGCAGTTGCAGCAATGTGTTTACAGGAACAAGCAGCGACAAGACCACTGATTGGCGACGTGGTGACAGCTCTAACATACTTAGCTTCGCAAACGTTTGACCCAAACGCACCAAGCGGTCAAAACAGTAGAAGTGGGAGTGGGCCACCATTTATCAGAACAAGGGATGATCGGAGGAGCTTGGGAGATGGGAGTAGCTTGGATAGTCCTGCAGAGACTCGGAGTCGGTTAGGGTCACCAGCCACTCACAAGAACTCTCCTGATTACAGAAGAAGGGATATGGTGAGGGAAGTCAATGCAGGATCAGAAGGTGGGAGCGAGACAGGAGGCGGGTCAGGTAGAAAATGGGGATTAAGCGATTTGGAAGGGCAAGAATCACAGAGAGGGAGCCCGGCGAGTGTTGGGAGATCATCGAGAGGCACTCCGAGGAACCGAGATTTAGATAGAGAGAGGGCGGTGGCGGAAGCAAAGGTGTGGGGAGAGAATTGGAGGGAGAGGAAGAGAGCTACCAATGGACCGGGCAGCTTTGATAGTACAAATGACTGAAATGGGAAAGATGAAAGCTTGTTTGAAAAATAGAGAACTTTTGTCACTGTGCCAAAAGGCAAAGGGAGAGAGGCTTTGGGTTCATGCGAACATTTTGTCGAGTCGGGTCGGTCAGTTGTCGAATTTGATGTCTGAGTCGAGAAAGAGGACTCTTCAATATTGTGGTTGAAGCTGAAGAACATATGAGGAAGAGAGTTCAAGAAGAATGATGAGTAGTTGGGGACGATTAGGAGGGGAAGAAAAAGTTTATTTTCAGGTGATGTTTTTGGGGTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTTCTTCTTGTTCAATGGGTTGTATATGTAATATGGGAGGGAGGATTCGAGTCGATTTTTATAATTTTTCTGTACTA
CDS Sequence
Protein Sequence