A review of the principles and biotechnological applications of glycoside hydrolases from extreme environments
- PMID: 38185295
- DOI: 10.1016/j.ijbiomac.2024.129227
A review of the principles and biotechnological applications of glycoside hydrolases from extreme environments
Abstract
It is apparent that Biocatalysts are shaping the future by providing a more sustainable approach to established chemical processes. Industrial processes rely heavily on the use of toxic compounds and high energy or pH reactions, factors that both contributes to the worsening climate crisis. Enzymes found in bacterial systems and other microorganisms, from the glaciers of the Arctic to the sandy deserts of Abu Dhabi, provide key tools and understanding as to how we can progress in the biotechnology sector. These extremophilic bacteria harness the adaptive enzymes capable of withstanding harsh reaction conditions in terms of stability and reactivity. Carbohydrate-active enzymes, including glycoside hydrolases or carbohydrate esterases, are extremely beneficial for the presence and future of biocatalysis. Their involvement in the industry spans from laundry detergents to paper and pulp treatment by degrading oligo/polysaccharides into their monomeric products in almost all detrimental environments. This includes exceedingly high temperatures, pHs or even in the absence of water. In this review, we discuss the structure and function of different glycoside hydrolases from extremophiles, and how they can be applied to industrial-scale reactions to replace the use of harsh chemicals, reduce waste, or decrease energy consumption.
Keywords: AlphaFold®; Biocatalysis; Biotechnological applications; Extremozymes; Glycoside hydrolases; Pymol®.
Copyright © 2024. Published by Elsevier B.V.
Conflict of interest statement
Declaration of competing interest All authors declare that they don't have any competing interest to declare.
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