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Active Site Flexibility as a Hallmark for Efficient PET Degradation by I. sakaiensis PETase.

Biophys. J.. 2018-03; 
FeckerTobias,Galaz-DavisonPablo,EngelbergerFelipe,NaruiYoshie,SotomayorMarcos,ParraLoreto P,Ramírez-SarmientoCés
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Peptide Synthesis … The codon-optimized gene for PETase from I. sakaiensis strain 201-F6 without signal-peptide (Genscript, Piscataway, NJ)—identified using SignalP (DTU Bioinformatics, Kongens Lyngby, Denmark) ( 38)—was synthesized, cloned into a pET24b vector (EMD Biosciences … Get A Quote

摘要

Polyethylene terephthalate (PET) is one of the most-consumed synthetic polymers, with an annual production of 50 million tons. Unfortunately, PET accumulates as waste and is highly resistant to biodegradation. Recently, fungal and bacterial thermophilic hydrolases were found to catalyze PET hydrolysis with optimal activities at high temperatures. Strikingly, an enzyme from Ideonella sakaiensis, termed PETase, was described to efficiently degrade PET at room temperature, but the molecular basis of its activity is not currently understood. Here, a crystal structure of PETase was determined at 2.02 Å resolution and employed in molecular dynamics simulations showing that the active site of PETase ... More

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