Yue Kun, Sandal Priyanka, Williams Elisabeth L, Murphy Evan, Stes Elisabeth, Nikonorova Natalia, Ramakrishna Priya, Czyzewicz Nathan, Montero-Morales Laura, Kumpf Robert, Lin Zhefeng, van de Cotte Brigitte, Iqbal Mudassar, Van Bel Michiel, Van De Slijke Eveline, Meyer Matthew R, Gadeyne Astrid, Zipfel Cyril, De Jaeger Geert, Van Montagu Marc, Van Damme Daniël, Gevaert Kris, Rao A Gururaj, Beeckman Tom, De Smet Ive
Department of Plant Systems Biology, VIB, B-9052 Ghent, Belgium; Department of Plant Biotechnology and Bioinformatics, Ghent University, B-9052 Ghent, Belgium;
Roy J. Carver Department of Biochemistry, Biophysics, and Molecular Biology, Iowa State University, Ames, IA 50011;
Proc Natl Acad Sci U S A. 2016 Feb 2;113(5):1447-52. doi: 10.1073/pnas.1525122113. Epub 2016 Jan 20.
In plants, the generation of new cell types and tissues depends on coordinated and oriented formative cell divisions. The plasma membrane-localized receptor kinase ARABIDOPSIS CRINKLY 4 (ACR4) is part of a mechanism controlling formative cell divisions in the Arabidopsis root. Despite its important role in plant development, very little is known about the molecular mechanism with which ACR4 is affiliated and its network of interactions. Here, we used various complementary proteomic approaches to identify ACR4-interacting protein candidates that are likely regulators of formative cell divisions and that could pave the way to unraveling the molecular basis behind ACR4-mediated signaling. We identified PROTEIN PHOSPHATASE 2A-3 (PP2A-3), a catalytic subunit of PP2A holoenzymes, as a previously unidentified regulator of formative cell divisions and as one of the first described substrates of ACR4. Our in vitro data argue for the existence of a tight posttranslational regulation in the associated biochemical network through reciprocal regulation between ACR4 and PP2A-3 at the phosphorylation level.
在植物中,新细胞类型和组织的产生依赖于协调且定向的形态发生细胞分裂。质膜定位的受体激酶拟南芥皱叶4(ACR4)是控制拟南芥根中形态发生细胞分裂机制的一部分。尽管其在植物发育中具有重要作用,但对于ACR4所属的分子机制及其相互作用网络却知之甚少。在此,我们使用了各种互补蛋白质组学方法来鉴定与ACR4相互作用的蛋白质候选物,这些候选物可能是形态发生细胞分裂的调节因子,并可能为揭示ACR4介导的信号传导背后的分子基础铺平道路。我们鉴定出蛋白磷酸酶2A - 3(PP2A - 3),它是PP2A全酶的催化亚基,是一种先前未被鉴定的形态发生细胞分裂调节因子,也是最早描述的ACR4底物之一。我们的体外数据表明,在相关生化网络中,通过ACR4和PP2A - 3在磷酸化水平上的相互调节,存在严格的翻译后调控。