Abstract
BackgroundS-domain receptor-like kinases (SD-RLKs) are an important and multi-gene subfamily of plant receptor-like/pelle kinases (RLKs), which are known to play a significant role in the development and immune responses of Arabidopsis thaliana. The conserved cysteine residues in the extracellular domain of SD-RLKs make them interesting candidates for sensing reactive oxygen species (ROS), assisting oxidative stress mitigation and associated signaling pathways during abiotic stresses. However, how closely SD-RLKs are interrelated to abiotic stress mitigation and signaling remains unknown in A. thaliana.ResultsThis study was initiated by examining the chromosomal localization, phylogeny, sequence and differential expression analyses of 37 SD-RLK genes using publicly accessible microarray datasets under cold, osmotic stress, genotoxic stress, drought, salt, UV-B, heat and wounding. Out of 37 SD-RLKs, 12 genes displayed differential expression patterns in both the root and the shoot tissues. Promoter structure analysis suggested that these 12 SD-RLK genes harbour several potential cis-regulatory elements (CREs), which are involved in regulating multiple abiotic stress responses. Based on these observations, we investigated the expression patterns of 12 selected SD-RLKs under ozone, wounding, oxidative (methyl viologen), UV-B, cold, and light stress at different time points using semi-qRT-PCR. Of these 12 SD-SRKs, the genes At1g61360, At1g61460, At1g61380, and At4g27300 emerged as potential candidates that maintain their expression in most of the stress treatments till exposure for 12 h. Expression patterns of these four genes were further verified under similar stress treatments using qRT-PCR. The expression analysis indicated that the gene At1g61360, At1g61380, and At1g61460 were mostly up-regulated, whereas the expression of At4g27300 either up- or down-regulated in these conditions.ConclusionsTo summarize, the computational analysis and differential transcript accumulation of SD-RLKs under various abiotic stresses suggested their association with abiotic stress tolerance and related signaling in A. thaliana. We believe that a further detailed study will decipher the specific role of these representative SD-RLKs in abiotic stress mitigation vis-a-vis signaling pathways in A. thaliana.
Highlights
S-domain receptor-like kinases (SD-RLKs) are an important and multi-gene subfamily of plant receptor-like/pelle kinases (RLKs), which are known to play a significant role in the development and immune responses of Arabidopsis thaliana
In A. thaliana, how closely standard deviation (SD)-RLKs are interrelated to abiotic stress mitigation and associated signaling is not clear.in the present study, we investigated the role of SD-RLKs in A. thaliana in response to various abiotic stresses
Chromosomal localization, phylogenetic relationship and sequence analysis of SD-RLKs Gene localization using chromosome mapping demonstrated that the SD-RLK subfamily is distributed on all the chromosomes; most of the members of this family are present in chromosome 1 and 4
Summary
S-domain receptor-like kinases (SD-RLKs) are an important and multi-gene subfamily of plant receptor-like/pelle kinases (RLKs), which are known to play a significant role in the development and immune responses of Arabidopsis thaliana. How closely SD-RLKs are interrelated to abiotic stress mitigation and signaling remains unknown in A. thaliana. Receptor like kinases (RLKs), a multi-gene family, represent the largest class of protein kinases and have been reported to play crucial roles in plant growth, development, hormone perception, and stress-responsive signaling [1,2,3]. In Arabidopsis thaliana, RLK represents a large gene family with > 600 members that form ~ 2.5% of its protein-coding genes [4]. The family members of RLK greatly vary in their extracellular domain organization. Based on the sequence identity of extracellular domain organization, 16 subfamilies of RLKs, which includes C-type lectin, CRINKLY-like (CR-like), Catharanthus roseus-like (CrRLK-like), extensin-like, leaf rust-like (LRK), legume lectin, leucine-rich repeats (LRR), lysine motif (LysM), proline-rich extension like (PERK), receptor-like cytoplasmic kinases (RLCKs), receptor-like kinase in flowers (RKF), thaumatin, selfincompatibility domain (S-domain), the domain of unknown function 26 (DUF26), unknown receptor kinase (URK), and wall-associated kinase (WAK) have been classified to date [6]
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