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From Bulk to Binding: Decoding the Entry of PET into Hydrolase Binding Pockets

Anna Jäckering, Frederike Göttsch, Moritz Schäffler, Mark Doerr, Uwe T. Bornscheuer, Ren Wei, Birgit Strodel

2024JACS Au29 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Plastic-degrading enzymes facilitate the biocatalytic recycling of poly(ethylene terephthalate) (PET), a significant synthetic polymer, and substantial progress has been made in utilizing PET hydrolases for industrial applications. To fully exploit the potential of these enzymes, a deeper mechanistic understanding followed by targeted protein engineering is essential. Through advanced molecular dynamics simulations and free energy analysis methods, we elucidated the complete pathway from the initial binding of two PET hydrolases─the thermophilic leaf-branch compost cutinase (LCC) and polyester hydrolase 1 (PES-H1)─to an amorphous PET substrate, ultimately leading to a PET chain entering the active site in a hydrolyzable conformation. Our findings indicate that initial PET binding is nonspecific and driven by polar and hydrophobic interactions. We demonstrate that the subsequent entry of PET into the active site can occur via one of three key pathways, identifying barriers related to both PET–PET and PET–enzyme interactions, as well as specific residues highlighted through in silico and in vitro mutagenesis. These insights not only enhance our understanding of the mechanisms underlying PET degradation and facilitate the development of targeted enzyme enhancement strategies but also provide a novel framework applicable to enzyme studies across various disciplines.

Topics & Concepts

Decoding methodsHydrolaseBinding siteChemistryComputer scienceComputational biologyBiochemistryBiologyEnzymeAlgorithmGraphene and Nanomaterials ApplicationsMicroplastics and Plastic Pollution3D Printing in Biomedical Research
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