非平衡淀粉样聚合物利用动态共价键暂时控制电荷选择性催化。

Nonequilibrium Amyloid Polymers Exploit Dynamic Covalent Linkage to Temporally Control Charge-Selective Catalysis.

机构信息

Department of Chemical Sciences and Centre for Advanced Functional Materials, Indian Institute of Science Education and Research (IISER) Kolkata, Mohanpur 741246, West Bengal, India.

出版信息

J Am Chem Soc. 2022 Oct 26;144(42):19248-19252. doi: 10.1021/jacs.2c09262. Epub 2022 Oct 11.

DOI:10.1021/jacs.2c09262

PMID:36219699

Abstract

Extant proteins exploit thermodynamically activated negatively charged coenzymes and hydrotropes to temporally access mechanistically important conformations that regulate vital biological functions, from metabolic reactions to expression modulation. Herein, we show that a short amyloid peptide can bind to a small molecular coenzyme by exploiting reversible covalent linkage to polymerize and access catalytically proficient nonequilibrium amyloid microphases. Subsequent hydrolysis of the activated coenzyme leads to depolymerization, realizing a variance of the surface charge of the assembly as a function of time. Such temporal change of surface charge dynamically modulates catalytic activities of the transient assemblies as observed in highly evolved modern-day biocatalysts.

摘要

现存蛋白质利用热力学激活的带负电荷的辅酶和水溶助长剂来临时获得对调节重要生物功能的机制上重要的构象，这些功能从代谢反应到表达调控都有涉及。在此，我们展示了一个短的淀粉样肽可以通过利用可逆的共价键连接来聚合并获得催化有效的非平衡淀粉样微相，从而与小分子辅酶结合。随后，激活的辅酶水解导致解聚，实现了组装体表面电荷的变化，这是时间的函数。这种表面电荷的时间变化动态调节了瞬态组装体的催化活性，就像在高度进化的现代生物催化剂中观察到的那样。

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非平衡淀粉样聚合物利用动态共价键暂时控制电荷选择性催化。

Nonequilibrium Amyloid Polymers Exploit Dynamic Covalent Linkage to Temporally Control Charge-Selective Catalysis.

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