超分子配位化学研究所
Institute of Supramolecular Coordination Chemistry
TOP
研究进展
当前位置:
Thermo-responsive polymer-modified metal– organic frameworks as soft–rigid enzyme-reactors for enhancement of enzymolysis efficiency using a controllable embedding protocol

Juan Qiao,‡ Cheng Cheng,‡ Dan Li and Li Qi*

 

Enzyme immobilization is a suitable strategy to promote biosensing, biocatalysis and the industrial applications of biomacromolecules. Although considerable efforts have been devoted to the construction of metal–organic frameworks (MOFs)-based porous nano-reactors, their enzymolysis efficiency cannot be tuned by varying the external conditions due to the fixed conformation of the encapsulated enzymes. In this work, a controllable embedding protocol was developed based on the concept of stimuli-responsive polymer modified MOFs. Using MOFs as a rigid template for thermo-responsive polymer modification and consequently utilizing the polymer–MOFs complexes for enzyme (glucose oxidase, horseradish peroxidase, trypsin, cytochrome c, glutaminase) immobilization, different porous nano-reactors were fabricated. Most importantly, the polymer on the MOF surface exhibited good ability to form a ‘‘soft nest’’ at high temperature for inducing the confinement effect and further improving the enzymolysis efficiencies of the nano-reactors 3.75–37.7-fold. Moreover, a colorimetric sensing method was developed to detect serum glucose with the proposed nano-reactors. This strategy is highly versatile and suitable for diverse rigid MOFs modified with stimuli-responsive soft-polymer-nests and enzymes.


文章链接:J Mater Chem B 2023 6428.pdf