Experimental and Computational Snapshots of C-C Bond Formation in a C-nucleoside Synthase

Overview

Journal Open Biol

Specialties Biology
Cell Biology
Molecular Biology

Date 2023 Jan 11

PMID 36629016

Authors

Wenbo Li

Georgina C Girt

Ashish Radadiya

James J P Stewart

Nigel G J Richards

James H Naismith

Affiliations

Soon will be listed here.

Abstract

The biosynthetic enzyme, ForT, catalyses the formation of a C-C bond between 4-amino-1-pyrazoledicarboxylic acid and MgPRPP to produce a C-nucleoside precursor of formycin A. The transformation catalysed by ForT is of chemical interest because it is one of only a few examples in which C-C bond formation takes place via an electrophilic substitution of a small, aromatic heterocycle. In addition, ForT is capable of discriminating between the aminopyrazoledicarboxylic acid and an analogue in which the amine is replaced by a hydroxyl group; a remarkable feat given the steric and electronic similarities of the two molecules. Here we report biophysical measurements, structural biology and quantum chemical calculations that provide a detailed molecular picture of ForT-catalysed C-C bond formation and the conformational changes that are coupled to catalysis. Our findings set the scene for employing engineered ForT variants in the biocatalytic production of novel, anti-viral C-nucleoside and C-nucleotide analogues.

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