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Adaptive Pore Deformation in Metal–Organic Framework Nanosheets for Enhanced Enzymatic Catalysis

化学 介孔材料 纳米片 催化作用 可重用性 纳米技术 生物催化 酶催化 等结构 金属有机骨架 多孔性 化学工程 合理设计 多相催化 纳米颗粒 多孔介质 固定化酶 细胞色素 催化效率 动力学
作者
Huangsheng Yang,Ying Liu,Ziyang Cai,Yuhong Lin,Yong Shen,Xiaohui Liu,Yujian Shen,Linjing Tong,T.‐C. Wu,Weihua Huang,Hang Xing,Fang Zhu,S. Joseph Huang,Guosheng Chen,Lingmei Liu,Yu Han,Gangfeng Ouyang
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:148 (12): 13128-13139 被引量:1
标识
DOI:10.1021/jacs.5c22730
摘要

The nanoconfinement of enzymes within porous scaffolds is a pivotal strategy for constructing robust and industrially relevant biocatalysts. However, a molecular-level understanding of the host-guest interactions that dictate catalytic efficiency remains a significant challenge, largely due to the inherent heterogeneity of enzyme guests and the scarcity of synthetic material hosts that permit atomic-level investigation of their pores upon enzyme loading. Here, we report the design of two redox-active biocatalysts via the encapsulation of cytochrome c within the mesopores of isostructural metal-organic framework (MOF) nanosheets and unveil for the first time adaptive pore deformation in MOF nanosheets governing biocatalytic efficiency. Using low-dose electron microscopy, we directly visualize how the nominally "rigid" MOF pores adaptively remodel─expanding or contracting─to accommodate "flexible" enzymes, a process governed by the interplay between pore surface chemistry and biomolecular flexibility. Crucially, pore expansion facilitates a transition in the heme iron configuration of cytochrome c from a six-coordinated (S = 1/2) to a highly active five-coordinated geometry (S = 3/2). This structural rearrangement enhances catalytic oxidation activity by up to an order of magnitude compared with the free enzyme. The synthetic MOF nanosheet biocatalyst exhibits exceptional efficiency in the degradation of toxic organic pollutants via a high-valent iron(IV)-oxo mechanism, surpassing existing nanocatalysts. These findings challenge the conventional view of solid supports as static carriers and provide new insights into enzymatic reactions under pore confinement.
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