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Substrate-Induced Self-Assembly of Cooperative Catalysts.


ABSTRACT: Dissipative self-assembly processes in nature rely on chemical fuels that activate proteins for assembly through the formation of a noncovalent complex. The catalytic activity of the assemblies causes fuel degradation, resulting in the formation of an assembly in a high-energy, out-of-equilibrium state. Herein, we apply this concept to a synthetic system and demonstrate that a substrate can induce the formation of vesicular assemblies, which act as cooperative catalysts for cleavage of the same substrate.

SUBMITTER: Solis Munana P 

PROVIDER: S-EPMC7159549 | biostudies-literature | 2018 Dec

REPOSITORIES: biostudies-literature

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Substrate-Induced Self-Assembly of Cooperative Catalysts.

Solís Muñana Pablo P   Ragazzon Giulio G   Dupont Julien J   Ren Chloe Z-J CZ   Prins Leonard J LJ   Chen Jack L-Y JL  

Angewandte Chemie (Weinheim an der Bergstrasse, Germany) 20181115 50


Dissipative self-assembly processes in nature rely on chemical fuels that activate proteins for assembly through the formation of a noncovalent complex. The catalytic activity of the assemblies causes fuel degradation, resulting in the formation of an assembly in a high-energy, out-of-equilibrium state. Herein, we apply this concept to a synthetic system and demonstrate that a substrate can induce the formation of vesicular assemblies, which act as cooperative catalysts for cleavage of the same  ...[more]

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