来自黄化瘤胃球菌纤维小体的一种新型非催化性碳水化合物结合模块的结晶及初步晶体学研究。

Crystallization and preliminary crystallographic studies of a novel noncatalytic carbohydrate-binding module from the Ruminococcus flavefaciens cellulosome.

作者信息

Venditto Immacolata, Goyal Arun, Thompson Andrew, Ferreira Luis M A, Fontes Carlos M G A, Najmudin Shabir

机构信息

CIISA, Faculdade de Medicina Veterinaria, Universidade de Lisboa, Avenida da Universidade Técnica, 1300-477 Lisbon, Portugal.

Department of Biotechnology, Indian Institute of Technology Guwahati, Assam, India.

出版信息

Acta Crystallogr F Struct Biol Commun. 2015 Jan 1;71(Pt 1):45-8. doi: 10.1107/S2053230X14025576.

DOI:10.1107/S2053230X14025576

PMID:25615967

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4304746/

Abstract

Microbial degradation of the plant cell wall is a fundamental biological process with considerable industrial importance. Hydrolysis of recalcitrant polysaccharides is orchestrated by a large repertoire of carbohydrate-active enzymes that display a modular architecture in which a catalytic domain is connected via linker sequences to one or more noncatalytic carbohydrate-binding modules (CBMs). CBMs direct the appended catalytic modules to their target substrates, thus potentiating catalysis. The genome of the most abundant ruminal cellulolytic bacterium, Ruminococcus flavefaciens strain FD-1, provides an opportunity to discover novel cellulosomal proteins involved in plant cell-wall deconstruction. It encodes a modular protein comprising a glycoside hydrolase family 9 catalytic module (GH9) linked to two unclassified tandemly repeated CBMs (termed CBM-Rf6A and CBM-Rf6B) and a C-terminal dockerin. The novel CBM-Rf6A from this protein has been crystallized and data were processed for the native and a selenomethionine derivative to 1.75 and 1.5 Å resolution, respectively. The crystals belonged to orthorhombic and cubic space groups, respectively. The structure was solved by a single-wavelength anomalous dispersion experiment using the CCP4 program suite and SHELXC/D/E.

摘要

植物细胞壁的微生物降解是一个具有重要工业意义的基本生物学过程。顽固多糖的水解由大量的碳水化合物活性酶协调进行，这些酶呈现出模块化结构，其中催化结构域通过连接序列与一个或多个非催化性碳水化合物结合模块（CBM）相连。CBM将附加的催化模块导向其目标底物，从而增强催化作用。最丰富的瘤胃纤维素分解细菌——黄化瘤胃球菌菌株FD-1的基因组，为发现参与植物细胞壁解构的新型纤维小体蛋白提供了契机。它编码一种模块化蛋白，该蛋白包含一个与两个未分类的串联重复CBM（称为CBM-Rf6A和CBM-Rf6B）以及一个C端dockerin相连的糖苷水解酶家族9催化模块（GH9）。已将该蛋白中的新型CBM-Rf6A结晶，并分别对天然晶体和硒代甲硫氨酸衍生物晶体进行数据处理，分辨率分别达到1.75 Å和1.5 Å。这些晶体分别属于正交晶系和立方晶系空间群。使用CCP4程序套件和SHELXC/D/E通过单波长反常色散实验解析了该结构。

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