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Structure‐Guided Engineering of a Versatile Urethanase Improves Its Polyurethane Depolymerization Activity

解聚 聚氨酯 聚酯纤维 己二酸 材料科学 生物降解 水解 化学 有机化学 高分子化学
作者
Zhishuai Li,Xu Han,Lin Cong,Pushpendra Singh,Pedro Paiva,Yannick Branson,W.J. Li,Yangyang Chen,Da’san M. M. Jaradat,Frank Lennartz,Thomas Bayer,Louis Schmidt,Ulrike Garscha,You Song,Pedro Alexandrino Fernandes,Maria J. Ramos,Uwe T. Bornscheuer,Gert Weber,Ren Wei,Weidong Liu
出处
期刊:Advanced Science [Wiley]
标识
DOI:10.1002/advs.202416019
摘要

Polyurethane (PUR), the fifth most prevalent synthetic polymer, substantially contributes to the global plastic waste problem. Biotechnology-based recycling methods have recently emerged as innovative solutions to plastic waste disposal and sparked interest among scientific communities and industrial stakeholders in discovering and designing highly active plastic-degrading enzymes. Here, the ligand-free crystal structure of UMG-SP2, a metagenome-derived urethanase with depolymerization activities, at 2.59 Å resolution, as well as its (co-)structures bound to a suicide hydrolase inhibitor and a short-chain carbamate substrate at 2.16 and 2.40 Å resolutions, respectively, is reported. Structural analysis and molecular dynamics simulations reveal that the flexible loop L3 consisting of residues 219-226 is crucial for regulating the hydrolytic activity of UMG-SP2. The semi-rational redesign of UMG-SP2 reveals superior variants, A141G and Q399A, exhibiting over 30.7- and 7.4-fold increased activities on polyester-PUR and a methylene diamine derivative of PUR, respectively, compared to the wild-type enzyme. These findings advance the understanding of the structure-function relationship of PUR-hydrolyzing enzymes, which hold great promise for developing effective industrial PUR recycling processes and mitigating the environmental footprint of plastic waste.

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