摘要
Polyethylene terephthalate(PET),one of the most widely used plastics in the world,causes serious environmental pollution.Recently,researchers have focused their efforts on enzymatic degradation of PET,which is an attractive way of degrading and recycling PET.In this work,PET hydrolase Sb PETase from Schlegelella brevitalea sp.nov.was biochemically characterized,and rational design was performed based on its sequence similarity with the previ-ously reported Is PETase from Ideonella sakaiensis,resulting in a triple mutant with increased activity.Furthermore,using a sec-dependent signal peptide PeIB and colicin release protein Kil,we set up a high-efficiency secretion system of PETase in Escherichia coli BL21(DE3),enabling higher PETase secretion.Utilizing this secretion system,we established a high-throughput screening method named SecHTS(sec retion-based h igh-throughput s creening)and performed directed evolution of Is PETase and Sb PETase through DNA shuffling.Finally,we generated a mutant Is PETase S139T with increased activity from the mutant library.
基金
supported by the Qilu Youth Scholar Startup Funding of Shandong University(L.H.)
National Natural Science Foundation of China(32170038)as well as the Sino-German mobility programme(M-0348).
