Plant Chemetics Laboratory, Chemical Genomics Centre of the Max Planck Society, Max Planck Institute for Plant Breeding Research, 50829 Cologne, Germany.
Plant Physiol. 2012 Apr;158(4):1583-99. doi: 10.1104/pp.112.194001. Epub 2012 Feb 27.
Papain-like cysteine proteases (PLCPs) are a large class of proteolytic enzymes associated with development, immunity, and senescence. Although many properties have been described for individual proteases, the distribution of these characteristics has not been studied collectively. Here, we analyzed 723 plant PLCPs and classify them into nine subfamilies that are present throughout the plant kingdom. Analysis of these subfamilies revealed previously unreported distinct subfamily-specific functional and structural characteristics. For example, the NPIR and KDEL localization signals are distinctive for subfamilies, and the carboxyl-terminal granulin domain occurs in two PLCP subfamilies, in which some individual members probably evolved by deletion of the granulin domains. We also discovered a conserved double cysteine in the catalytic site of SAG12-like proteases and two subfamily-specific disulfides in RD19A-like proteases. Protease activity profiling of representatives of the PLCP subfamilies using novel fluorescent probes revealed striking polymorphic labeling profiles and remarkably distinct pH dependency. Competition assays with peptide-epoxide scanning libraries revealed common and unique inhibitory fingerprints. Finally, we expand the detection of PLCPs by identifying common and organ-specific protease activities and identify previously undetected proteases upon labeling with cell-penetrating probes in vivo. This study provides the plant protease research community with tools for further functional annotation of plant PLCPs.
半胱氨酸蛋白酶(papain-like cysteine proteases,PLCPs)是一类与发育、免疫和衰老相关的大型蛋白水解酶。尽管已经描述了许多单个蛋白酶的特性,但这些特性的分布尚未进行过综合研究。在这里,我们分析了 723 种植物 PLCP,并将其分为九个亚家族,这些亚家族存在于整个植物界。对这些亚家族的分析揭示了以前未报道的独特的亚家族特异性功能和结构特征。例如,NPIR 和 KDEL 定位信号是亚家族特有的,而羧基末端的颗粒素结构域存在于两个 PLCP 亚家族中,其中一些成员可能是通过缺失颗粒素结构域而进化而来的。我们还发现 SAG12 样蛋白酶的催化位点有一个保守的双半胱氨酸,RD19A 样蛋白酶中有两个亚家族特异性的二硫键。使用新型荧光探针对 PLCP 亚家族的代表进行蛋白酶活性谱分析,揭示了惊人的多态性标记谱和明显不同的 pH 依赖性。与肽-环氧化物扫描文库的竞争测定揭示了共同和独特的抑制指纹。最后,我们通过鉴定常见和器官特异性的蛋白酶活性,以及在体内用穿透细胞探针标记时鉴定以前未检测到的蛋白酶,扩大了对 PLCP 的检测。这项研究为植物 PLCP 的进一步功能注释提供了植物蛋白酶研究界的工具。