细菌 GH5-CBM27 内切 1,4-β-D-甘露聚糖酶的底物特异性和热稳定性的分子见解。

Molecular insights into substrate specificity and thermal stability of a bacterial GH5-CBM27 endo-1,4-β-D-mannanase.

机构信息

Laboratório Nacional de Biociências, Centro Nacional de Pesquisa em Energia e Materiais, Campinas, SP, Brazil.

出版信息

J Struct Biol. 2012 Feb;177(2):469-76. doi: 10.1016/j.jsb.2011.11.021. Epub 2011 Dec 3.

DOI:10.1016/j.jsb.2011.11.021

Abstract

The breakdown of β-1,4-mannoside linkages in a variety of mannan-containing polysaccharides is of great importance in industrial processes such as kraft pulp delignification, food processing and production of second-generation biofuels, which puts a premium on studies regarding the prospection and engineering of β-mannanases. In this work, a two-domain β-mannanase from Thermotoga petrophila that encompasses a GH5 catalytic domain with a C-terminal CBM27 accessory domain, was functionally and structurally characterized. Kinetic and thermal denaturation experiments showed that the CBM27 domain provided thermo-protection to the catalytic domain, while no contribution on enzymatic activity was observed. The structure of the catalytic domain determined by SIRAS revealed a canonical (α/β)(8)-barrel scaffold surrounded by loops and short helices that form the catalytic interface. Several structurally related ligand molecules interacting with TpMan were solved at high-resolution and resulted in a wide-range representation of the subsites forming the active-site cleft with residues W134, E198, R200, E235, H283 and W284 directly involved in glucose binding.

摘要

β-1,4-甘露糖苷键在各种含甘露聚糖多糖中的断裂在工业过程中非常重要，例如硫酸盐浆脱木质素、食品加工和第二代生物燃料的生产，这使得β-甘露聚糖酶的探索和工程研究变得尤为重要。在这项工作中，对一种来自嗜热栖热菌的具有 GH5 催化结构域和 C 端 CBM27 辅助结构域的双结构域β-甘露聚糖酶进行了功能和结构表征。动力学和热变性实验表明，CBM27 结构域为催化结构域提供了热保护，而对酶活性没有贡献。SIRAS 确定的催化结构域结构揭示了一个由环和短螺旋围绕的典型（α/β）（8）-桶支架，这些环和短螺旋形成了催化界面。通过高分辨率解决了几个与 TpMan 相互作用的结构相关的配体分子，形成了活性位点裂缝的广泛代表性，其中残基 W134、E198、R200、E235、H283 和 W284 直接参与葡萄糖结合。

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细菌 GH5-CBM27 内切 1,4-β-D-甘露聚糖酶的底物特异性和热稳定性的分子见解。

Molecular insights into substrate specificity and thermal stability of a bacterial GH5-CBM27 endo-1,4-β-D-mannanase.

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