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低水分活度下嗜极酶的功能与生物技术

Function and biotechnology of extremophilic enzymes in low water activity.

作者信息

Karan Ram, Capes Melinda D, Dassarma Shiladitya

机构信息

Department of Microbiology and Immunology, University of Maryland School of Medicine, Baltimore, MD, USA.

出版信息

Aquat Biosyst. 2012 Feb 2;8(1):4. doi: 10.1186/2046-9063-8-4.

Abstract

Enzymes from extremophilic microorganisms usually catalyze chemical reactions in non-standard conditions. Such conditions promote aggregation, precipitation, and denaturation, reducing the activity of most non-extremophilic enzymes, frequently due to the absence of sufficient hydration. Some extremophilic enzymes maintain a tight hydration shell and remain active in solution even when liquid water is limiting, e.g. in the presence of high ionic concentrations, or at cold temperature when water is close to the freezing point. Extremophilic enzymes are able to compete for hydration via alterations especially to their surface through greater surface charges and increased molecular motion. These properties have enabled some extremophilic enzymes to function in the presence of non-aqueous organic solvents, with potential for design of useful catalysts. In this review, we summarize the current state of knowledge of extremophilic enzymes functioning in high salinity and cold temperatures, focusing on their strategy for function at low water activity. We discuss how the understanding of extremophilic enzyme function is leading to the design of a new generation of enzyme catalysts and their applications to biotechnology.

摘要

来自极端微生物的酶通常在非标准条件下催化化学反应。此类条件会促进聚集、沉淀和变性,降低大多数非极端微生物酶的活性,这通常是由于缺乏足够的水合作用。一些极端微生物酶能维持紧密的水合壳层,即使在液态水有限的情况下,如在高离子浓度存在时,或在水接近冰点的低温下,仍能在溶液中保持活性。极端微生物酶能够通过特别是改变其表面来竞争水合作用,方式包括增加表面电荷和增强分子运动。这些特性使一些极端微生物酶能够在非水有机溶剂存在的情况下发挥作用,具有设计有用催化剂的潜力。在本综述中,我们总结了在高盐度和低温下发挥作用的极端微生物酶的当前知识状态,重点关注它们在低水活度下的功能策略。我们讨论了对极端微生物酶功能的理解如何推动新一代酶催化剂的设计及其在生物技术中的应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c7eb/3310334/6aa9bd06ce35/2046-9063-8-4-1.jpg

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