Structure Report for: 5NO5

Byrne, M.J., Race, P.R.

Title: An Esterase-like Lyase Catalyzes Acetate Elimination in Spirotetronate/Spirotetramate Biosynthesis
Lees NR, Han LC, Byrne MJ, Davies JA, Parnell AE, Moreland PEJ, Stach JEM, van der Kamp MW, Willis CL, Race PR
Ref: Angew Chem Int Ed Engl, 58:2305, 2019 : PubMed
Abstract


ESTHER: Lees_2019_Angew.Chem.Int.Ed.Engl_58_2305
PubMedSearch: Lees 2019 Angew.Chem.Int.Ed.Engl 58 2305
PubMedID: 30664319
Gene_locus related to this paper: verma-f4f7f5

Abstract

Spirotetronate and spirotetramate natural products include a multitude of compounds with potent antimicrobial and antitumor activities. Their biosynthesis incorporates many unusual biocatalytic steps, including regio- and stereo-specific modifications, cyclizations promoted by Diels-Alderases, and acetylation-elimination reactions. Here we focus on the acetate elimination catalyzed by AbyA5, implicated in the formation of the key Diels-Alder substrate to give the spirocyclic system of the antibiotic abyssomicin C. Using synthetic substrate analogues, it is shown that AbyA5 catalyzes stereospecific acetate elimination, establishing the (R)-tetronate acetate as a biosynthetic intermediate. The X-ray crystal structure of AbyA5, the first of an acetate-eliminating enzyme, reveals a deviant acetyl esterase fold. Molecular dynamics simulations and enzyme assays show the use of a His-Ser dyad to catalyze either elimination or hydrolysis, via disparate mechanisms, under substrate control.