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拟南芥中 S 域受体样激酶(SD-RLKs)在不同非生物胁迫下的计算机分析和表达谱分析。

In silico analysis and expression profiling of S-domain receptor-like kinases (SD-RLKs) under different abiotic stresses in Arabidopsis thaliana.

机构信息

Department of Botany, Centre of Advanced Study in Botany, Institute of Science, Banaras Hindu University, Varanasi, Uttar Pradesh, 221005, India.

Current address: Mulberry Tissue Culture Lab, Central Sericultural Germplasm Resources Center, Central Silk Board-Ministry of Textiles (GoI), Hosur, Tamil Nadu, 635109, India.

出版信息

BMC Genomics. 2021 Nov 12;22(1):817. doi: 10.1186/s12864-021-08133-9.

DOI:10.1186/s12864-021-08133-9
PMID:34772363
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8590313/
Abstract

BACKGROUND

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. 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.

RESULTS

This 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.

CONCLUSIONS

To 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.

摘要

背景

S-域受体样激酶(SD-RLKs)是植物受体样/类 Pelle 激酶(RLKs)的一个重要的多基因亚家族,已知其在拟南芥的发育和免疫反应中发挥重要作用。SD-RLKs 胞外结构域中的保守半胱氨酸残基使其成为感应活性氧(ROS)的有趣候选物,有助于减轻非生物胁迫下的氧化应激和相关信号通路。然而,在拟南芥中,SD-RLKs 与非生物胁迫缓解和信号转导的关系还不清楚。

结果

本研究通过使用公共微阵列数据集,检查了 37 个 SD-RLK 基因在冷胁迫、渗透胁迫、遗传毒性胁迫、干旱、盐胁迫、UV-B 辐射、热胁迫和创伤胁迫下的染色体定位、系统发育、序列和差异表达分析。在 37 个 SD-RLK 中,有 12 个基因在根和地上组织中表现出差异表达模式。启动子结构分析表明,这 12 个 SD-RLK 基因含有几个潜在的顺式调控元件(CREs),参与调节多种非生物胁迫反应。基于这些观察结果,我们使用半定量 RT-PCR 法在不同时间点研究了 12 个选定的 SD-RLKs 在臭氧、创伤、氧化(甲紫精)、UV-B、冷和光胁迫下的表达模式。在这 12 个 SD-SRKs 中,基因 At1g61360、At1g61460、At1g61380 和 At4g27300 在大多数胁迫处理中都表现出潜在的候选表达模式,直到暴露 12 小时。使用 qRT-PCR 进一步验证了这四个基因在类似胁迫处理下的表达模式。表达分析表明,基因 At1g61360、At1g61380 和 At1g61460 大多上调,而 At4g27300 的表达在这些条件下要么上调,要么下调。

结论

总之,SD-RLKs 在各种非生物胁迫下的计算分析和差异转录积累表明它们与拟南芥的非生物胁迫耐受和相关信号转导有关。我们相信,进一步的详细研究将阐明这些代表性 SD-RLKs 在拟南芥非生物胁迫缓解及其信号转导途径中的具体作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1967/8590313/36ce9275b4d3/12864_2021_8133_Fig7_HTML.jpg
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本文引用的文献

1
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2
Comparative effect of tenuazonic acid, diuron, bentazone, dibromothymoquinone and methyl viologen on the kinetics of Chl a fluorescence rise OJIP and the MR signal.替诺嗪酸、敌草隆、苯达松、二溴百里醌和甲紫精对叶绿素 a 荧光上升 OJIP 动力学和 MR 信号的比较影响。
Plant Physiol Biochem. 2020 Nov;156:39-48. doi: 10.1016/j.plaphy.2020.08.044. Epub 2020 Aug 29.
3
TBtools: An Integrative Toolkit Developed for Interactive Analyses of Big Biological Data.
在拟南芥中,通过计算机模拟对编码豆科凝集素样蛋白的基因进行鉴定、分子系统发育分析和各种非生物胁迫下的表达谱分析。
BMC Genomics. 2022 Jun 29;23(1):480. doi: 10.1186/s12864-022-08708-0.
TBtools:一个用于生物大数据交互式分析的集成工具包。
Mol Plant. 2020 Aug 3;13(8):1194-1202. doi: 10.1016/j.molp.2020.06.009. Epub 2020 Jun 23.
4
Arabidopsis Transmembrane Receptor-Like Kinases (RLKs): A Bridge between Extracellular Signal and Intracellular Regulatory Machinery.拟南芥跨膜受体样激酶(RLKs):细胞外信号与细胞内调控机制之间的桥梁。
Int J Mol Sci. 2020 Jun 3;21(11):4000. doi: 10.3390/ijms21114000.
5
Origin and Diversity of Plant Receptor-Like Kinases.植物类受体激酶的起源与多样性。
Annu Rev Plant Biol. 2020 Apr 29;71:131-156. doi: 10.1146/annurev-arplant-073019-025927. Epub 2020 Mar 18.
6
Hydrogen peroxide sensor HPCA1 is an LRR receptor kinase in Arabidopsis.过氧化氢传感器 HPCA1 是拟南芥中的一个 LRR 受体激酶。
Nature. 2020 Feb;578(7796):577-581. doi: 10.1038/s41586-020-2032-3. Epub 2020 Feb 19.
7
Structural evolution drives diversification of the large LRR-RLK gene family.结构进化驱动大型LRR-RLK基因家族的多样化。
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8
Generation of Transgenic Self-Incompatible Shows a Genus-Specific Preference for Self-Incompatibility Genes.转基因自交不亲和系的产生显示出对自交不亲和基因的属特异性偏好。
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9
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10
CDD/SPARCLE: the conserved domain database in 2020.CDD/SPARCLE:2020 年的保守结构域数据库。
Nucleic Acids Res. 2020 Jan 8;48(D1):D265-D268. doi: 10.1093/nar/gkz991.