微生物葡萄糖醛酸酰基酯酶:发现十年后
Microbial Glucuronoyl Esterases: 10 Years after Discovery.
作者信息
Biely Peter
机构信息
Institute of Chemistry, Slovak Academy of Sciences, Bratislava, Slovakia
出版信息
Appl Environ Microbiol. 2016 Nov 21;82(24):7014-7018. doi: 10.1128/AEM.02396-16. Print 2016 Dec 15.
Abstract
A carbohydrate esterase called glucuronoyl esterase (GE) was discovered 10 years ago in a cellulolytic system of the wood-rotting fungus Schizophyllum commune Genes coding for GEs were subsequently found in a number of microbial genomes, and a new family of carbohydrate esterases (CE15) has been established. The multidomain structures of GEs, together with their catalytic properties on artificial substrates and positive effect on enzymatic saccharification of plant biomass, led to the view that the esterases evolved for hydrolysis of the ester linkages between 4-O-methyl-d-glucuronic acid of plant glucuronoxylans and lignin alcohols, one of the crosslinks in the plant cell walls. This idea of the function of GEs is further supported by the effects of cloning of fungal GEs in plants and by very recently reported evidence for changes in the size of isolated lignin-carbohydrate complexes due to uronic acid de-esterification. These facts make GEs interesting candidates for biotechnological applications in plant biomass processing and genetic modification of plants. This article is a brief summary of current knowledge of these relatively recent and unexplored esterases.
摘要
10年前,在木腐真菌裂褶菌的纤维素分解系统中发现了一种名为葡萄糖醛酸酯酶(GE)的碳水化合物酯酶。随后,在许多微生物基因组中发现了编码GE的基因,并建立了一个新的碳水化合物酯酶家族(CE15)。GE的多结构域结构,以及它们对人工底物的催化特性和对植物生物质酶促糖化的积极作用,导致人们认为这些酯酶是为水解植物葡糖醛酸木聚糖的4-O-甲基-D-葡萄糖醛酸与木质素醇(植物细胞壁中的交联键之一)之间的酯键而进化的。植物中真菌GE的克隆效应以及最近报道的由于糖醛酸脱酯作用导致分离的木质素-碳水化合物复合物大小变化的证据,进一步支持了GE功能的这一观点。这些事实使GE成为植物生物质加工和植物基因改造生物技术应用的有趣候选对象。本文简要总结了目前对这些相对较新且未被充分探索的酯酶的认识。
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