遗传修饰：一种提高生物燃料应用中β-葡萄糖苷酶产量的工具。

Genetic modification: A tool for enhancing beta-glucosidase production for biofuel application.

机构信息

DBT-IOC Advanced Bio-Energy Research Centre, Indian Oil Corporation; R&D Centre, Sector-13, Faridabad 121007, India.

Department of Molecular Biosciences and Bioengineering, University of Hawaii at Manoa, Honolulu 96822, HI, United States.

出版信息

Bioresour Technol. 2017 Dec;245(Pt B):1352-1361. doi: 10.1016/j.biortech.2017.05.126. Epub 2017 May 21.

DOI:10.1016/j.biortech.2017.05.126

PMID:28596076

Abstract

Beta-glucosidase (BGL) is a rate-limiting enzyme for cellulose hydrolysis as it acts in the final step of lignocellulosic biomass conversion to convert cellobiose into glucose, the final end product. Most of the fungal strains used for cellulase production are deficient in BGL hence BGL is supplemented into cellulases to have an efficient biomass conversion. Genetic engineering has enabled strain modification to produce BGL optimally with desired properties to be employed for biofuel applications. It has been cloned either directly into the host strains lacking BGL or into another expression system, to be overexpressed so as to be blended into BGL deficient cellulases. In this article, role of genetic engineering to overcome BGL limitations in the cellulase cocktail and its significance for biofuel applications has been critically reviewed.

摘要

β-葡萄糖苷酶（BGL）是纤维素水解的限速酶，因为它在木质纤维素生物质转化的最后一步起作用，将纤维二糖转化为葡萄糖，这是最终的末端产物。大多数用于纤维素酶生产的真菌菌株缺乏 BGL，因此 BGL 被补充到纤维素酶中以实现有效的生物质转化。遗传工程使菌株修饰能够最佳地产生具有期望性质的 BGL，以用于生物燃料应用。它要么直接克隆到缺乏 BGL 的宿主菌株中，要么克隆到另一个表达系统中，以过表达，从而与 BGL 缺乏的纤维素酶混合。本文批判性地回顾了遗传工程克服纤维素酶混合物中 BGL 限制及其在生物燃料应用中的重要性。

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遗传修饰：一种提高生物燃料应用中β-葡萄糖苷酶产量的工具。

Genetic modification: A tool for enhancing beta-glucosidase production for biofuel application.

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