2016
DOI: 10.1002/bit.25941
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Engineered bacterial polyester hydrolases efficiently degrade polyethylene terephthalate due to relieved product inhibition

Abstract: Recent studies on the enzymatic degradation of synthetic polyesters have shown the potential of polyester hydrolases from thermophilic actinomycetes for modifying or degrading polyethylene terephthalate (PET). TfCut2 from Thermobifida fusca KW3 and LC-cutinase (LCC) isolated from a compost metagenome are remarkably active polyester hydrolases with high sequence and structural similarity. Both enzymes exhibit an exposed active site in a substrate binding groove located at the protein surface. By exchanging sele… Show more

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Cited by 206 publications
(174 citation statements)
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“…The best variant of the engineered enzyme yielded a conversion of 42.6%, considerably higher than that found with the wild-type cutinase (15.9%), and the increase was attributed to relieved product inhibition [29]. The best variant of the engineered enzyme yielded a conversion of 42.6%, considerably higher than that found with the wild-type cutinase (15.9%), and the increase was attributed to relieved product inhibition [29].…”
Section: Synergy Studies On Different Pet Samplesmentioning
confidence: 83%
“…The best variant of the engineered enzyme yielded a conversion of 42.6%, considerably higher than that found with the wild-type cutinase (15.9%), and the increase was attributed to relieved product inhibition [29]. The best variant of the engineered enzyme yielded a conversion of 42.6%, considerably higher than that found with the wild-type cutinase (15.9%), and the increase was attributed to relieved product inhibition [29].…”
Section: Synergy Studies On Different Pet Samplesmentioning
confidence: 83%
“…[38] DSC Analysis of the PET Materials: Differential scanning calorimetry was performed using a DSC 8500 calorimeter (PerkinElmer, Waltham, USA) using ≈4-5 mg of a dry PET sample. [38] DSC Analysis of the PET Materials: Differential scanning calorimetry was performed using a DSC 8500 calorimeter (PerkinElmer, Waltham, USA) using ≈4-5 mg of a dry PET sample.…”
Section: Methodsmentioning
confidence: 99%
“…; Wei et al . ). However, the micro‐organisms reported to date can only transform PET to TPA, and its further degradation process is not yet clear, which may bring more serious ecotoxicity compared to PET materials themselves (Barth et al .…”
Section: Introductionmentioning
confidence: 97%
“…However, 72% of plastic packaging is not recovered with 32% estimated to completely escape the collection system and 40% being landfilled (Wei et al . ), which released into the local ecosystems causing serious environmental pollution (Barth et al . 2015a).…”
Section: Introductionmentioning
confidence: 99%