Microbial plastic degradation: enzymes, pathways, challenges, and perspectives

生物塑料 生物降解 材料科学 聚氯乙烯 聚合物 生化工程 微生物 微生物降解 聚丙烯 高分子科学 制浆造纸工业 聚乙烯 生物技术 商品化学品 聚对苯二甲酸乙二醇酯 天然橡胶 极端微生物 塑料工业 聚苯乙烯 生物可分解塑胶 废物管理 生物 工业微生物学 氯乙烯 环氧树脂
作者
Pablo Pérez-García,Katharina Saß,Sasipa Wongwattanarat,Johannes Amann,Golo Feuerriegel,Tabea Neumann,Nico Bäse,Laura Schmitz,Robert F. Dierkes,Marno Gurschke,Alan Wypych,Hadjira Bounabi,Marcella de Divitiis,Christel Vollstedt,Wolfgang R. Streit
出处
期刊:Microbiology and Molecular Biology Reviews [American Society for Microbiology]
卷期号:89 (4): e0008724-e0008724 被引量:11
标识
DOI:10.1128/mmbr.00087-24
摘要

SUMMARYSynthetic polymers have transformed modern life, giving rise to a wide spectrum of versatile materials commonly known as plastics. They are essential to industries including packaging, medical devices, automotive, textiles, and many consumer goods. However, significant environmental challenges have emerged because of the same properties that make plastics so useful. Of the estimated 400-450 million tons (Mt) of plastics produced each year, nearly 80 percent end up in the environment. Many of these plastics will persist in nature for hundreds or even thousands of years because they are mostly not biodegradable or poorly biodegradable. The identification of polymer-active microorganisms and enzymes that target most fossil fuel-based plastics is one of the greatest challenges microbiologists are facing today. Currently, more than 255 functionally verified plastic-active enzymes from more than 11 microbial phyla are known. Here, we summarize current knowledge on the microbial pathways and enzymes involved in the degradation of polyethylene terephthalate (PET), polyamide (PA) oligomers, ester-based polyurethane (PUR), and polycarbonates (PC), as well as some of the most widely used bioplastics. We also highlight the challenges microbiologists face in identifying microorganisms acting on highly persistent commodity polymers such as polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC), ether-based PUR, PA, polystyrene (PS), epoxy resins, and synthetic rubber (SR), for which no truly efficient degraders are currently known. We highlight methods used to discover novel microorganisms and enzymes involved in biodegradation and measure and quantify their activities. Finally, we will review the biotechnological applications of microbial-driven plastics recycling.
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