Biochemical and structural characterisation of a family GH5 cellulase from endosymbiont of shipworm P. megotara

纤维素酶 纤维素 糖苷水解酶 生物净化 化学 生物化学 水解 木质纤维素生物量 细胞壁 多糖 羧甲基纤维素 水解酶 有机化学 原材料 生物炼制
作者
Madan Junghare,Tamilvendan Manavalan,Lasse Fredriksen,Ingar Leiros,Bjørn Altermark,Vincent G. H. Eijsink,Gustav Vaaje‐Kolstad
出处
期刊:Biotechnology for biofuels and bioproducts [BioMed Central]
卷期号:16 (1)
标识
DOI:10.1186/s13068-023-02307-1
摘要

Cellulases play a key role in the enzymatic conversion of plant cell-wall polysaccharides into simple and economically relevant sugars. Thus, the discovery of novel cellulases from exotic biological niches is of great interest as they may present properties that are valuable in the biorefining of lignocellulosic biomass.We have characterized a glycoside hydrolase 5 (GH5) domain of a bi-catalytic GH5-GH6 multi-domain enzyme from the unusual gill endosymbiont Teredinibacter waterburyi of the wood-digesting shipworm Psiloteredo megotara. The catalytic GH5 domain, was cloned and recombinantly produced with or without a C-terminal family 10 carbohydrate-binding module (CBM). Both variants showed hydrolytic endo-activity on soluble substrates such as β-glucan, carboxymethylcellulose and konjac glucomannan, respectively. However, low activity was observed towards the crystalline form of cellulose. Interestingly, when co-incubated with a cellulose-active LPMO, a clear synergy was observed that boosted the overall hydrolysis of crystalline cellulose. The crystal structure of the GH5 catalytic domain was solved to 1.0 Å resolution and revealed a substrate binding cleft extension containing a putative + 3 subsite, which is uncommon in this enzyme family. The enzyme was active in a wide range of pH, temperatures and showed high tolerance for NaCl.This study provides significant knowledge in the discovery of new enzymes from shipworm gill endosymbionts and sheds new light on biochemical and structural characterization of cellulolytic cellulase. Study demonstrated a boost in the hydrolytic activity of cellulase on crystalline cellulose when co-incubated with cellulose-active LPMO. These findings will be relevant for the development of future enzyme cocktails that may be useful for the biotechnological conversion of lignocellulose.

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