Lab No. 106, National Institute of Plant Genome Research, Aruna Asaf Ali Marg, New Delhi 110067, India.
Biosci Rep. 2022 Jul 29;42(7). doi: 10.1042/BSR20220302.
Heterotrimeric G-proteins interact with various upstream and downstream effectors to regulate various aspects of plant growth and development. G-protein effectors have been recently reported in Arabidopsis thaliana; however, less information is available from polyploid crop species having complex networks of G-protein components. Regulator of G-protein signaling (RGS) is a well-characterized GTPase accelerating protein, which plays an important role in the regulation of the G-protein cycle in plants. In the present study, four homologs encoding RGS proteins were isolated from the allotetraploid Brassica juncea, a globally important oilseed, vegetable, and condiment crop. The B. juncea RGS proteins were grouped into distinct BjuRGS1 and BjuRGS2 orthologous clades, and the expression of BjuRGS1 homologs was predominantly higher than BjuRGS2 homologs across the tested tissue types of B. juncea. Utilizing B. juncea Y2H library screening, a total of 30 nonredundant interacting proteins with the RGS-domain of the highly expressed BjuA.RGS1 was identified. Gene ontology analysis indicated that these effectors exerted various molecular, cellular, and physiological functions. Many of them were known to regulate cell wall metabolism (BjuEXP6, Bju-α-MAN, BjuPGU4, BjuRMS3) and phosphorylation-mediated cell signaling (BjuMEK4, BjuDGK3, and BjuKinase). Furthermore, transcript analysis indicated that the identified interacting proteins have a coexpression pattern with the BjuRGS homologs. These findings increase our knowledge about the novel targets of G-protein components from a globally cultivated Brassica crop and provide an important resource for developing a plant G-protein interactome network.
异三聚体 G 蛋白与各种上游和下游效应物相互作用,调节植物生长和发育的各个方面。在拟南芥中最近报道了 G 蛋白效应物;然而,来自具有复杂 G 蛋白成分网络的多倍体作物物种的信息较少。G 蛋白信号调节因子(RGS)是一种特征明确的 GTP 酶加速蛋白,在植物中 G 蛋白循环的调节中发挥重要作用。在本研究中,从全球重要的油料作物、蔬菜和调味品作物的四倍体芥菜中分离出编码 RGS 蛋白的 4 个同源物。芥菜 RGS 蛋白分为不同的 BjuRGS1 和 BjuRGS2 直系同源群,在测试的芥菜组织类型中,BjuRGS1 同源物的表达明显高于 BjuRGS2 同源物。利用芥菜 Y2H 文库筛选,共鉴定出与高度表达的 BjuA.RGS1 的 RGS 结构域相互作用的 30 个非冗余互作蛋白。基因本体分析表明,这些效应物发挥了各种分子、细胞和生理功能。其中许多已知调节细胞壁代谢(BjuEXP6、Bju-α-MAN、BjuPGU4、BjuRMS3)和磷酸化介导的细胞信号(BjuMEK4、BjuDGK3 和 BjuKinase)。此外,转录分析表明,鉴定出的互作蛋白与 BjuRGS 同源物具有共表达模式。这些发现增加了我们对全球种植的芸薹属作物中 G 蛋白成分的新靶标的认识,并为开发植物 G 蛋白互作网络提供了重要资源。
