底物物理性质对酶促聚对苯二甲酸乙二酯水解的影响：对聚对苯二甲酸乙二酯水解酶工程的启示

The influences of substrates' physical properties on enzymatic PET hydrolysis: Implications for PET hydrolase engineering.

作者信息

Pasula Rupali Reddy, Lim Sierin, Ghadessy Farid J, Sana Barindra

机构信息

School of Chemical and Biomedical Engineering Nanyang Technological University Singapore.

Disease Intervention Technology Laboratory Institute of Molecular and Cell Biology Agency for Science Technology and Research (ASTAR) Biopolis Singapore.

出版信息

Eng Biol. 2022 Mar 24;6(1):17-22. doi: 10.1049/enb2.12018. eCollection 2022 Mar.

DOI:10.1049/enb2.12018

PMID:36968557

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9995159/

Abstract

Plastic pollution in diverse terrestrial and marine environments is a widely recognised and growing problem. Bio-recycling and upcycling of plastic waste is a potential solution to plastic pollution, as these processes convert plastic waste into useful materials. Polyethylene terephthalate (PET) is the most abundant plastic waste, and this material can be degraded by a class of recently discovered bacterial esterase enzymes known as PET hydrolases (PETase). Investigations of the enzymatic hydrolysis of diverse PET molecules have clearly revealed that the biodegradability of various PET substrates depends on both their chemical structure and physical properties, including polymer length, crystallinity, glass transition temperature, surface area, and surface charge. This review summarises the known impacts of crystallinity and other physical properties on enzymatic PET hydrolysis.

摘要

塑料在各种陆地和海洋环境中的污染是一个得到广泛认可且日益严重的问题。塑料废物的生物回收和升级再造是解决塑料污染的一个潜在办法，因为这些过程能将塑料废物转化为有用材料。聚对苯二甲酸乙二酯（PET）是最常见的塑料废物，这种材料可被一类最近发现的细菌酯酶——即PET水解酶（PETase）降解。对各种PET分子的酶促水解研究清楚地表明，不同PET底物的生物降解性取决于其化学结构和物理性质，包括聚合物长度、结晶度、玻璃化转变温度、表面积和表面电荷。本综述总结了结晶度和其他物理性质对PET酶促水解的已知影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ee3d/9995159/a70ba712ec8e/ENB2-6-17-g001.jpg

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底物物理性质对酶促聚对苯二甲酸乙二酯水解的影响：对聚对苯二甲酸乙二酯水解酶工程的启示

The influences of substrates' physical properties on enzymatic PET hydrolysis: Implications for PET hydrolase engineering.

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