Nucleophilic Catalysis of Acylhydrazone Equilibration for Protein-directed Dynamic Covalent Chemistry

Overview

Journal Nat Chem

Specialty Chemistry

Date 2010 May 22

PMID 20489719

Citations 46

Authors

Venugopal T Bhat

Anne M Caniard

Torsten Luksch

Ruth Brenk

Dominic J Campopiano

Michael F Greaney

Affiliations

Soon will be listed here.

Abstract

Dynamic covalent chemistry uses reversible chemical reactions to set up an equilibrating network of molecules at thermodynamic equilibrium, which can adjust its composition in response to any agent capable of altering the free energy of the system. When the target is a biological macromolecule, such as a protein, the process corresponds to the protein directing the synthesis of its own best ligand. Here, we demonstrate that reversible acylhydrazone formation is an effective chemistry for biological dynamic combinatorial library formation. In the presence of aniline as a nucleophilic catalyst, dynamic combinatorial libraries equilibrate rapidly at pH 6.2, are fully reversible, and may be switched on or off by means of a change in pH. We have interfaced these hydrazone dynamic combinatorial libraries with two isozymes from the glutathione S-transferase class of enzyme, and observed divergent amplification effects, where each protein selects the best-fitting hydrazone for the hydrophobic region of its active site.

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