| Title : Enzyme Benchmarking with Polyethylene Furanoate Soluble Scaffolds for Directed Evolution of PEFases - Dolz_2024_ACS.Omega_9_45633 |
| Author(s) : Dolz M , Monterrey DT , Quartinello F , de Santos PG , Mateljak I , Pellis A , Guebitz G , Vina-Gonzalez J , Alcalde M |
| Ref : ACS Omega , 9 :45633 , 2024 |
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Abstract :
Plastic waste is a major threat in our industrialized world and is driving research into bioplastics. The success of biobased polyethylene furanoate (PEF) as a viable alternative to polyethylene terephthalate (PET) of fossil origin will depend on designing effective enzymes to break it down, aiding its recycling. Here, a panel of fungal and bacterial cutinases were functionally expressed in a tandem yeast expression system based on Saccharomyces cerevisiae and Pichia pastoris. The activity of the enzyme panel was tested with soluble PEF model scaffolds, observing a correlation with the degradation of real PEF powder. A high-throughput colorimetric screening assay based on the PEF scaffold diethyl furan-2,5-dicarboxylate was developed, establishing the basis for future directed evolution campaigns of PEFases. |
| PubMedSearch : Dolz_2024_ACS.Omega_9_45633 |
| PubMedID: 39554451 |
Dolz M, Monterrey DT, Quartinello F, de Santos PG, Mateljak I, Pellis A, Guebitz G, Vina-Gonzalez J, Alcalde M (2024)
Enzyme Benchmarking with Polyethylene Furanoate Soluble Scaffolds for Directed Evolution of PEFases
ACS Omega
9 :45633
Dolz M, Monterrey DT, Quartinello F, de Santos PG, Mateljak I, Pellis A, Guebitz G, Vina-Gonzalez J, Alcalde M (2024)
ACS Omega
9 :45633