Litcius/Paper detail

A Synergetic Pore Compartmentalization and Hydrophobization Strategy for Synchronously Boosting the Stability and Activity of Enzyme

Lihong Guo, Rongwei He, Guosheng Chen, Huangsheng Yang, Xiaoxue Kou, Wei Huang, Rui Gao, Shuyao Huang, Siming Huang, Fang Zhu, Gangfeng Ouyang

2024Journal of the American Chemical Society60 citationsDOI

Abstract

Spatial immobilization of fragile enzymes using a nanocarrier is an efficient means to design heterogeneous biocatalysts, presenting superior stability and recyclability to pristine enzymes. An immobilized enzyme, however, usually compromises its catalytic activity because of inevasible mass transfer issues and the unfavorable conformation changes in a confined environment. Here, we describe a synergetic metal-organic framework pore-engineering strategy to trap lipase (an important hydrolase), which confers lipase-boosted stability and activity simultaneously. The hierarchically porous NU-1003, featuring interconnected mesopore and micropore channels, is precisely modified by chain-adjustable fatty acids on its mesopore channel, into which lipase is trapped. The interconnected pore structure ensures efficient communication between trapped lipase and exterior media, while the fatty acid-mediated hydrophobic pore can activate the opening conformation of lipase by interfacial interaction. Such dual pore compartmentalization and hydrophobization activation effects render the catalytic center of trapped lipase highly accessible, resulting in 1.57-fold and 2.46-fold activities as native lipase on ester hydrolysis and enantioselective catalysis. In addition, the feasibility of these heterogeneous biocatalysts for kinetic resolution of enantiomer is also validated, showing much higher efficiency than native lipase.

Topics & Concepts

ChemistryLipaseCompartmentalization (fire protection)Kinetic resolutionMesoporous materialHydrolaseCandida antarcticaHydrolysisCatalysisEnzymeCombinatorial chemistryEnantioselective synthesisOrganic chemistryChemical engineeringEngineeringEnzyme Catalysis and ImmobilizationElectrochemical sensors and biosensorsMetal-Organic Frameworks: Synthesis and Applications