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Hydrophobic cell surface display system of PETase as a sustainable biocatalyst for PET degradation

Front Microbiol. 2022-09; 
Yunpu Jia , Nadia A Samak , Xuemi Hao , Zheng Chen , Qifeng Wen , Jianmin Xing
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Codon Optimization Based on the published coding DNA sequence of hfbII from T. reesei, the hfbII was fully synthesized after codon optimization conducted by GenScript Inc. (China). Get A Quote

摘要

Remarkably, a hydrolase from Ideonella sakaiensis 201-F6, termed PETase, exhibits great potential in polyethylene terephthalate (PET) waste management due to it can efficiently degrade PET under moderate conditions. However, its low yield and poor accessibility to bulky substrates hamper its further industrial application. Herein a multigene fusion strategy is introduced for constructing a hydrophobic cell surface display (HCSD) system in Escherichia coli as a robust, recyclable, and sustainable whole-cell catalyst. The truncated outer membrane hybrid protein FadL exposed the PETase and hydrophobic protein HFBII on the surface of E. coli with efficient PET accessibility and degradation performance. E. coli cont... More

关键词

PET biodegradation; PETase; extracellular protein production; polyethylene terephthalate; surface display; whole-cell catalysis.
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