AT4G21380

Gene Details:

Gene ID: AT4G21380
Gene Symbol: ARK3, RK3
Gene Name: receptor kinase 3, receptor kinase 3
Description: receptor kinase 3;(source:Araport11)
TAIR Accession:
Genome: Araport11_genome_release
Species: Arabidopsis thaliana

Transcripts:

AT4G21380.1 AT4G21380.2

Literature:

A superfamily of S locus-related sequences in Arabidopsis: diverse structures and expression patterns. DOI: 10.1105/tpc.6.12.1829 ; PMID: 7866027
Comparison of the expression patterns of two small gene families of S gene family receptor kinase genes during the defence response in Brassica oleracea and Arabidopsis thaliana. DOI: 10.1016/s0378-1119(01)00821-6 ; PMID: 11814694
Large-scale characterization of integral proteins from Arabidopsis vacuolar membrane by two-dimensional liquid chromatography. DOI: 10.1002/pmic.200300607 ; PMID: 14760709
Comparative analysis of the receptor-like kinase family in Arabidopsis and rice. DOI: 10.1105/tpc.020834 ; PMID: 15105442
Comprehensive comparison of auxin-regulated and brassinosteroid-regulated genes in Arabidopsis. DOI: 10.1104/pp.103.034736 ; PMID: 15047898
Gene expression signatures from three genetically separable resistance gene signaling pathways for downy mildew resistance. DOI: 10.1104/pp.104.040444 ; PMID: 15181204
Transcriptional divergence of the duplicated oxidative stress-responsive genes in the Arabidopsis genome. DOI: 10.1111/j.1365-313X.2004.02295.x ; PMID: 15634198
DNA array analyses of Arabidopsis thaliana lacking a vacuolar Na+/H+ antiporter: impact of AtNHX1 on gene expression. DOI: 10.1111/j.1365-313X.2004.02253.x ; PMID: 15546358
The WRKY70 transcription factor: a node of convergence for jasmonate-mediated and salicylate-mediated signals in plant defense. DOI: 10.1105/tpc.016980 ; PMID: 14742872
Interactions between the S-domain receptor kinases and AtPUB-ARM E3 ubiquitin ligases suggest a conserved signaling pathway in Arabidopsis. DOI: 10.1104/pp.108.123380 ; PMID: 18552232
Global analysis of Arabidopsis gene expression uncovers a complex array of changes impacting pathogen response and cell cycle during geminivirus infection. DOI: 10.1104/pp.108.121038 ; PMID: 18650403
Natural variation at Strubbelig Receptor Kinase 3 drives immune-triggered incompatibilities between Arabidopsis thaliana accessions. DOI: 10.1038/ng.704 ; PMID: 21037570
Autophosphorylation profiling of Arabidopsis protein kinases using the cell-free system. DOI: 10.1016/j.phytochem.2011.02.029 ; PMID: 21477822
Genome-Wide Screening for Lectin Motifs in Arabidopsis thaliana. DOI: 10.3835/plantgenome2017.02.0010 ; PMID: 28724081
Classification and phylogenetic analyses of the Arabidopsis and tomato G-type lectin receptor kinases. DOI: 10.1186/s12864-018-4606-0 ; PMID: 29625550
Activation of Self-Incompatibility Signaling in Transgenic Arabidopsis thaliana Is Independent of AP2-Based Clathrin-Mediated Endocytosis. DOI: 10.1534/g3.118.200231 ; PMID: 29720392
In silico analysis and expression profiling of S-domain receptor-like kinases (SD-RLKs) under different abiotic stresses in Arabidopsis thaliana. DOI: 10.1186/s12864-021-08133-9 ; PMID: 34772363
A superfamily of S locus-related sequences in Arabidopsis: diverse structures and expression patterns. DOI: 10.1105/tpc.6.12.1829 ; PMID: 7866027
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
Large-scale characterization of integral proteins from Arabidopsis vacuolar membrane by two-dimensional liquid chromatography. DOI: 10.1002/pmic.200300607 ; PMID: 14760709

Sequences:

cDNA Sequence

>AT4G21380.2
ATATATTATTGACAGAAATAAAATCGGTTACGTAAGGTTCACACATTACACAAAACATGTCCGATATCTCCAATGGAAATAAACTCTCATACTTTTCTCAAGAAAGAGTGAAAAACAAAAAACTTGGTTTAGAGAAATGAGAGGTTTACCAAATTTCTACCATTCTTACACCTTCTTCTTCTTCTTCCTCTTAATTCTGTTCCCTGCTTACTCTATCTCTGCCAACACTTTGTCGGCTTCAGAATCTCTAACTATCTCAAGCAATAACACCATTGTGTCTCCTGGTAATGTCTTCGAGCTTGGTTTCTTCAAACCCGGTTTAGATTCTCGTTGGTATCTTGGAATTTGGTACAAGGCAATCTCTAAGAGAACCTACGTATGGGTTGCAAACAGAGACACTCCTCTCTCTAGTTCCATCGGAACTCTCAAAATCTCCGACAGTAATCTTGTCGTTTTGGATCAGTCCGATACACCGGTTTGGTCGACGAATCTGACCGGAGGAGATGTGAGATCTCCATTGGTGGCAGAGCTTCTTGATAATGGTAATTTTGTGCTCAGAGACTCCAAGAACAGCGCTCCAGATGGAGTTTTGTGGCAGAGTTTTGATTTTCCGACAGATACTTTACTTCCGGAGATGAAACTTGGCTGGGATGCCAAAACCGGGTTCAACAGATTCATTAGATCATGGAAATCTCCAGATGATCCATCAAGTGGAGATTTCTCGTTCAAACTCGAAACCGAAGGCTTCCCTGAGATTTTTCTATGGAACAGAGAATCACGAATGTACCGGAGTGGTCCATGGAATGGAATCCGGTTTAGTGGTGTACCGGAGATGCAACCATTTGAATACATGGTTTTCAATTTCACTACGAGTAAAGAAGAAGTGACTTACTCATTTAGAATCACTAAAAGCGACGTTTACTCGAGATTAAGCATAAGCTCCTCAGGATTGTTACAAAGATTCACTTGGATTGAGACAGCACAGAATTGGAACCAATTCTGGTACGCACCAAAAGACCAATGTGATGAGTACAAAGAGTGTGGTGTTTACGGTTATTGCGACTCGAACACTTCACCTGTTTGTAATTGTATTAAAGGGTTTAAGCCGAGGAATCCTCAAGTGTGGGGATTGAGAGACGGGTCGGATGGTTGCGTGAGGAAGACGCTACTGAGCTGTGGTGGCGGAGATGGGTTTGTGCGGTTGAAGAAAATGAAATTGCCGGATACTACCACGGCTAGTGTGGACAGAGGAATTGGTGTGAAAGAATGTGAACAGAAGTGTTTAAGAGATTGTAATTGCACGGCGTTTGCGAATACGGATATCCGGGGTAGCGGGTCGGGTTGTGTGACTTGGACCGGAGAGCTTTTTGATATCAGGAATTATGCCAAAGGTGGTCAAGATCTTTACGTTAGATTGGCTGCTACTGATCTCGAGGACAAAAGAAACAGAAGTGCAAAAATCATAGGTTCGAGTATTGGAGTGAGCGTTTTGCTTCTTTTAAGTTTCATTATCTTCTTCTTGTGGAAAAGGAAGCAGAAGCGATCAATACTAATCGAAACACCTATTGTTGATCATCAACTGAGAAGCCGAGATTTGCTAATGAACGAAGTTGTAATATCAAGTAGGAGACACATATCTAGAGAAAACAATACAGACGATCTCGAATTGCCATTGATGGAGTTTGAAGAAGTTGCCATGGCCACAAACAATTTTTCTAACGCCAACAAGCTAGGACAAGGTGGTTTTGGTATAGTTTATAAGGGAAAGTTACTTGATGGTCAAGAAATGGCAGTGAAGAGACTATCAAAGACATCAGTTCAGGGGACTGATGAGTTCAAGAATGAGGTAAAGTTGATTGCAAGGCTTCAGCACATAAACCTTGTTAGGCTTCTTGCATGTTGCGTCGATGCGGGTGAGAAGATGTTGATTTACGAGTACTTGGAAAATCTAAGCCTCGACTCTCATCTATTTGGTTAGTGTCTCAACTCCTTACAACTCTGTTCTAACAATTTTTCAATGTCTTTAAAAATAATGTACTCAATCCAGTGATGATTCATTAGCAGACAAATCCCGAAACTCTAAGCTAAATTGGCAAATGAGATTTGATATCATCAATGGTATTGCTCGAGGACTTCTATATCTTCACCAAGATTCACGGTTTAGAATTATCCATAGAGACTTGAAAGCAAGTAACATCTTGCTTGATAAATATATGACTCCAAAGATCTCGGATTTCGGAATGGCTAGGATCTTTGGACGGGATGAGACAGAAGCTAATACGAGGAAGGTGGTTGGAACCTACGGTTATATGTCTCCTGAATATGCAATGGACGGGATATTCTCGATGAAGTCAGATGTTTTCAGTTTTGGGGTCTTGCTTCTTGAGATTATAAGTAGCAAGAGGAACAAAGGATTCTACAATTCGGACCGTGACCTTAACCTTCTCGGTTGTGTGTGGAGGAATTGGAAAGAAGGAAAAGGGCTAGAGATCATAGATCCAATCATCACAGATTCTTCATCAACATTCAGGCAACATGAAATCTTAAGATGCATACAAATTGGCCTCTTGTGTGTTCAAGAACGTGCAGAGGACAGACCAACTATGTCCTTGGTAATTTTGATGCTCGGAAGCGAATCAACAACTATTCCTCAACCTAAAGCGCCCGGTTATTGCCTGGAGAGAAGTCTTCTTGACACTGATTCTTCGTCGAGTAAACAGCGCGACGATGAATCATGGACAGTGAACCAAATTACTGTCTCGGTCCTTGATGCTCGGTAATGTGACTGTCAACTAGCCAATCTTCTATACTAAGATGACTAAATTGAGCGACAATAAGAATCAACTAGGAAAGATGGTATTAGTTATGTGCATAGTATTTTCTCTGTACGTCTCCGTTGCAAAGGTTACTACATGATTCAATTGTCTTAATTAAGCATGTATTCTGTAATTGCTTTATGGATAACCCAAATAGTCCTGCAGTTATAGGACATCAATGTGATATTTTGAAAGATTCTCAGACTTTCATATTATAAATTATGGCTACTAGAAGAGGCAAATATTGTTGGTTAGTAGAATTTCGGGTTGTACGTTTTGAGATTAGGTTTGTACATGTTGTAATAGATTTTTTTTTTAATAAGTACATACGTTATAAGAATTTTTTATGATCAGCA
>AT4G21380.1
ATATATTATTGACAGAAATAAAATCGGTTACGTAAGGTTCACACATTACACAAAACATGTCCGATATCTCCAATGGAAATAAACTCTCATACTTTTCTCAAGAAAGAGTGAAAAACAAAAAACTTGGTTTAGAGAAATGAGAGGTTTACCAAATTTCTACCATTCTTACACCTTCTTCTTCTTCTTCCTCTTAATTCTGTTCCCTGCTTACTCTATCTCTGCCAACACTTTGTCGGCTTCAGAATCTCTAACTATCTCAAGCAATAACACCATTGTGTCTCCTGGTAATGTCTTCGAGCTTGGTTTCTTCAAACCCGGTTTAGATTCTCGTTGGTATCTTGGAATTTGGTACAAGGCAATCTCTAAGAGAACCTACGTATGGGTTGCAAACAGAGACACTCCTCTCTCTAGTTCCATCGGAACTCTCAAAATCTCCGACAGTAATCTTGTCGTTTTGGATCAGTCCGATACACCGGTTTGGTCGACGAATCTGACCGGAGGAGATGTGAGATCTCCATTGGTGGCAGAGCTTCTTGATAATGGTAATTTTGTGCTCAGAGACTCCAAGAACAGCGCTCCAGATGGAGTTTTGTGGCAGAGTTTTGATTTTCCGACAGATACTTTACTTCCGGAGATGAAACTTGGCTGGGATGCCAAAACCGGGTTCAACAGATTCATTAGATCATGGAAATCTCCAGATGATCCATCAAGTGGAGATTTCTCGTTCAAACTCGAAACCGAAGGCTTCCCTGAGATTTTTCTATGGAACAGAGAATCACGAATGTACCGGAGTGGTCCATGGAATGGAATCCGGTTTAGTGGTGTACCGGAGATGCAACCATTTGAATACATGGTTTTCAATTTCACTACGAGTAAAGAAGAAGTGACTTACTCATTTAGAATCACTAAAAGCGACGTTTACTCGAGATTAAGCATAAGCTCCTCAGGATTGTTACAAAGATTCACTTGGATTGAGACAGCACAGAATTGGAACCAATTCTGGTACGCACCAAAAGACCAATGTGATGAGTACAAAGAGTGTGGTGTTTACGGTTATTGCGACTCGAACACTTCACCTGTTTGTAATTGTATTAAAGGGTTTAAGCCGAGGAATCCTCAAGTGTGGGGATTGAGAGACGGGTCGGATGGTTGCGTGAGGAAGACGCTACTGAGCTGTGGTGGCGGAGATGGGTTTGTGCGGTTGAAGAAAATGAAATTGCCGGATACTACCACGGCTAGTGTGGACAGAGGAATTGGTGTGAAAGAATGTGAACAGAAGTGTTTAAGAGATTGTAATTGCACGGCGTTTGCGAATACGGATATCCGGGGTAGCGGGTCGGGTTGTGTGACTTGGACCGGAGAGCTTTTTGATATCAGGAATTATGCCAAAGGTGGTCAAGATCTTTACGTTAGATTGGCTGCTACTGATCTCGAGGACAAAAGAAACAGAAGTGCAAAAATCATAGGTTCGAGTATTGGAGTGAGCGTTTTGCTTCTTTTAAGTTTCATTATCTTCTTCTTGTGGAAAAGGAAGCAGAAGCGATCAATACTAATCGAAACACCTATTGTTGATCATCAACTGAGAAGCCGAGATTTGCTAATGAACGAAGTTGTAATATCAAGTAGGAGACACATATCTAGAGAAAACAATACAGACGATCTCGAATTGCCATTGATGGAGTTTGAAGAAGTTGCCATGGCCACAAACAATTTTTCTAACGCCAACAAGCTAGGACAAGGTGGTTTTGGTATAGTTTATAAGGGAAAGTTACTTGATGGTCAAGAAATGGCAGTGAAGAGACTATCAAAGACATCAGTTCAGGGGACTGATGAGTTCAAGAATGAGGTAAAGTTGATTGCAAGGCTTCAGCACATAAACCTTGTTAGGCTTCTTGCATGTTGCGTCGATGCGGGTGAGAAGATGTTGATTTACGAGTACTTGGAAAATCTAAGCCTCGACTCTCATCTATTTGGTTAGTGTCTCAACTCCTTACAACTCTGTTCTAACAATTTTTCAATGTCTTTAAAAATAATGTACTCAATCCAGTGATGATTCATTAGCAGACAAATCCCGAAACTCTAAGCTAAATTGGCAAATGAGATTTGATATCATCAATGGTATTGCTCGAGGACTTCTATATCTTCACCAAGATTCACGGTTTAGAATTATCCATAGAGACTTGAAAGCAAGTAACATCTTGCTTGATAAATATATGACTCCAAAGATCTCGGATTTCGGAATGGCTAGGATCTTTGGACGGGATGAGACAGAAGCTAATACGAGGAAGGTGGTTGGAACCTACGGTTATATGTCTCCTGAATATGCAATGGACGGGATATTCTCGATGAAGTCAGATGTTTTCAGTTTTGGGGTCTTGCTTCTTGAGATTATAAGTAGCAAGAGGAACAAAGGATTCTACAATTCGGACCGTGACCTTAACCTTCTCGGTTGTGTGTGGAGGAATTGGAAAGAAGGAAAAGGGCTAGAGATCATAGATCCAATCATCACAGATTCTTCATCAACATTCAGGCAACATGAAATCTTAAGATGCATACAAATTGGCCTCTTGTGTGTTCAAGAACGTGCAGAGGACAGACCAACTATGTCCTTGGTAATTTTGATGCTCGGAAGCGAATCAACAACTATTCCTCAACCTAAAGCGCCCGGTTATTGCCTGGAGAGAAGTCTTCTTGACACTGATTCTTCGTCGAGTAAACAGCGCGACGATGAATCATGGACAGTGAACCAAATTACTGTCTCGGTCCTTGATGCTCGGTAATGTGACTGTCAACTAGCCAATCTTCTATACTAAGATGACTAAATTGAGCGACAATAAGAATCAACTAGGAAAGATGGTATTAGTTATGTGCATAGTATTTTCTCTGTACGTCTCCGTTGCAAAGGTTACTACATGATTCAATTGTCTTAATTAAGCATGTATTCTGTAATTGCTTTATGGATAACCCAAATAGTCCTGCAGTTATAGGACATCAATGTGATATTTTGAAAGATTCTCAGACTTTCATATTATAAATTATGGCTACTAGAAGAGGCAAATATTGTTGGTTAGTAGAATTTCGGGTTGTACGTTTTGAGATTAGGTTTGTACATGTTGTAATAGATTTTTTTTTTAATAAGTACATACGTTATAAGAATTTTTTATGATCAGCA

CDS Sequence

Protein Sequence