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Biorecycling of polyethylene (PE): an integrated effort in pretreatment, degradation, and upcycling

生化工程 生物转化 生物高聚物 羟基烷酸 生物降解 代谢工程 生物技术 聚乙烯 微生物降解 材料科学 降级(电信) 生物制品 化学 纳米技术 工业生物技术 生物塑料 微生物代谢 环境友好型 惰性 合成生物学 环境科学 代谢途径 铅(地质) 工程类 废弃物 嗜冷菌
作者
Umer Abid,Julie Gibbons,Jiansong Qin,Dongming Xie
出处
期刊:Frontiers in Bioengineering and Biotechnology [Frontiers Media]
卷期号:13: 1692651-1692651 被引量:6
标识
DOI:10.3389/fbioe.2025.1692651
摘要

Polyethylene (PE) is one of the widely utilized plastics globally, valued for its durability but unsustainable due to its resistance to biodegradation in a natural environment, leading to severe environmental accumulation. Recent studies have identified microorganisms, insects, and potential PE-degrading enzymes (PEases) capable of breaking down PE, suggesting a possible route for biorecycling. However, research in this area remains in its early stages, with limited understanding of the enzymatic mechanisms involved and the degradation products formed. A major barrier lies in the chemically inert nature of PE's carbon-carbon and carbon-hydrogen bonds, which makes enzymatic degradation particularly challenging and unlikely to occur through a single enzyme. Overcoming these limitations requires the discovery and engineering of complex enzymatic pathways, supported by emerging tools such as omics technologies, structure-guided design, and computer-aided enzyme engineering. In parallel, the biotechnological upcycling of PE waste into value-added chemicals, by first breaking down PE into smaller products and then using them as microbial feedstocks, holds significant potential but is currently underexplored. To date, polyhydroxyalkanoate (PHA) remains the most studied PE waste upcycled biopolymer product, with only a few other studies showing production of diacids, protein, wax esters, and lipids. This highlights the need for expanded research into microbial metabolism and metabolic engineering to enable more diverse and efficient PE waste bioconversion routes. This review summarizes the current state as an integrated effort for biorecycling of PE, including PE pretreatment technologies, enzymatic PE degradation, microbial PE degradation, and PE upcycling into value-added chemicals via metabolic engineering. This review also highlights key scientific challenges and outlines future directions for PE degradation and transforming PE waste into valuable and sustainable products.
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