Title : Current advances in the structural biology and molecular engineering of PETase - Liu_2023_Front.Bioeng.Biotechnol_11_1263996 |
Author(s) : Liu F , Wang T , Yang W , Zhang Y , Gong Y , Fan X , Wang G , Lu Z , Wang J |
Ref : Front Bioeng Biotechnol , 11 :1263996 , 2023 |
Abstract :
Poly(ethylene terephthalate) (PET) is a highly useful synthetic polyester plastic that is widely used in daily life. However, the increase in postconsumer PET as plastic waste that is recalcitrant to biodegradation in landfills and the natural environment has raised worldwide concern. Currently, traditional PET recycling processes with thermomechanical or chemical methods also result in the deterioration of the mechanical properties of PET. Therefore, it is urgent to develop more efficient and green strategies to address this problem. Recently, a novel mesophilic PET-degrading enzyme (IsPETase) from Ideonella sakaiensis was found to streamline PET biodegradation at 30 degreesC, albeit with a lower PET-degrading activity than chitinase or chitinase-like PET-degrading enzymes. Consequently, the molecular engineering of more efficient PETases is still required for further industrial applications. This review details current knowledge on IsPETase, MHETase, and IsPETase-like hydrolases, including the structures, ligandprotein interactions, and rational protein engineering for improved PET-degrading performance. In particular, applications of the engineered catalysts are highlighted, including metabolic engineering of the cell factories, enzyme immobilization or cell surface display. The information is expected to provide novel insights for the biodegradation of complex polymers. |
PubMedSearch : Liu_2023_Front.Bioeng.Biotechnol_11_1263996 |
PubMedID: 37795175 |
Liu F, Wang T, Yang W, Zhang Y, Gong Y, Fan X, Wang G, Lu Z, Wang J (2023)
Current advances in the structural biology and molecular engineering of PETase
Front Bioeng Biotechnol
11 :1263996
Liu F, Wang T, Yang W, Zhang Y, Gong Y, Fan X, Wang G, Lu Z, Wang J (2023)
Front Bioeng Biotechnol
11 :1263996