4.8 Article

Chemically Fueled Dissipative Self-Assembly that Exploits Cooperative Catalysis

Journal

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
Volume 58, Issue 1, Pages 244-247

Publisher

WILEY-V C H VERLAG GMBH
DOI: 10.1002/anie.201811749

Keywords

catalysis; cooperative effects; dissipative self-assembly; gels; systems chemistry

Funding

  1. Nanomission Grant, DST, GOI [SR/NM/NS-1082/2015]
  2. IISER Kolkata
  3. NPDF [PDF/2017/000782]

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In living systems, dissipative processes are driven by the endergonic hydrolysis of chemical fuels such as nucleoside triphosphates. Now, through a simple model system, a transient self-assembled state is realized by utilizing the catalytic effect of histidine on the formation and breaking of ester bonds. First, histidine facilitates the ester bond formation, which then rapidly co-assembles to form a self-supporting gel. An out-of-equilibrium state is realized owing to the cooperative catalysis by the proximal histidines in the assembled state, driving the second pathway and resulting in disassembly to sol. Cooperative effects that use the dual role of imidazoles as nucleophile and as proton donor is utilized to achieve transient assemblies. This simple system mimics the structural journey seen in microtubule formation where the substrate GTP facilitates the non-covalent assembly and triggers a cooperative catalytic process, leading to substrate hydrolysis and subsequent disassembly.

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