Issue 84, 2023

From a binding module to essential catalytic activity: how nature stumbled on a good thing

Abstract

Enzymes are complex macromolecules capable of catalyzing a wide variety of chemical reactions with high efficiency. Nonetheless, biological catalysis can be rudimentary. Here, we describe an enzyme that is built from a simple protein fold. This short protein sequence – almost a peptide – belongs to the ancient SH3 family of binding modules. Surprisingly, this binding module catalyzes the specific reduction of dihydrofolate using NADPH as a reducing cofactor, making this a dihydrofolate reductase. Too small to provide all the required binding and catalytic machinery on its own, it homotetramerizes, thus creating a large, central active site environment. Remarkably, none of the active site residues is essential to the catalytic function. Instead, backbone interactions juxtapose the reducing cofactor proximal to the target imine of the folate substrate, and a specific motion of the substrate promotes formation of the transition state. In this feature article, we describe the features that make this small protein a functional enzyme capable of catalyzing a metabolically essential reaction, highlighting the characteristics that make it a model for the evolution of primitive enzymes from binding modules.

Graphical abstract: From a binding module to essential catalytic activity: how nature stumbled on a good thing

Article information

Article type
Feature Article
Submitted
28 Aug 2023
Accepted
25 Sep 2023
First published
03 Oct 2023

Chem. Commun., 2023,59, 12560-12572

From a binding module to essential catalytic activity: how nature stumbled on a good thing

C. Lemay-St-Denis and J. N. Pelletier, Chem. Commun., 2023, 59, 12560 DOI: 10.1039/D3CC04209J

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