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Comparative biochemistry of PET hydrolase-carbohydrate-binding module fusion enzymes on a variety of PET substrates

Enzyme and Microbial Technology. 2024-07; 
Andrew Philip Rennison , Andreas Prestel , Peter Westh , Marie Sofie Møller
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Abstract

Enzyme-driven recycling of PET has now become a fully developed industrial process. With the right pre-treatment, PET can be completely depolymerized within workable timeframes. This has been realized due to extensive research conducted over the past decade, resulting in a large set of engineered PET hydrolases. Among various engineering strategies to enhance PET hydrolases, fusion with binding domains has been used to tune affinity and boost activity of the enzymes. While fusion enzymes have demonstrated higher activity in many cases, these results are primarily observed under conditions that would not be economically viable at scale. Furthermore, the wide variation in PET substrates, conditions, and combinati... More

Keywords

Binding affinity; Carbohydrate-binding module; PET hydrolase; Protein engineering; Waste polyethylene terephthalate.