Chemoenzymatic Synthesis of Indole-Containing Acyloin Derivatives
Date
2022
Journal Title
Journal ISSN
Volume Title
Publisher
Molecules
Abstract
Indole-containing acyloins are either key intermediates of many antimicrobial/antiviral
natural products or building blocks in the synthesis of biologically active molecules. As such, access
to structurally diverse indole-containing acyloins has attracted considerable attention. In this report,
we present a pilot study of using biotransformation to provide acyloins that contain various indole
substituents. The biotransformation system contains the tryptophan synthase standalone β-subunit
variant, PfTrpB6
, generated from directed evolution in the literature; a commercially available
L-amino acid oxidase (LAAO); and the thiamine-diphosphate (ThDP)-dependent enzyme NzsH,
encoded in the biosynthetic gene cluster (nzs) of the bacterial carbazole alkaloid natural product
named neocarazostatin A. The utilization of the first two enzymes, the PfTrpB variant and LAAO,
is designed to provide structurally diverse indole 3-pyruvate derivatives as donor substrates for
NzsH-catalysed biotransformation to provide acyloin derivatives. Our results demonstrate that
NzsH displays a considerable substrate profile toward donor substrates for production of acyloins
with different indole ring systems, suggesting that NzsH could be further explored as a potential
biocatalyst via directed evolution to improve the catalytic efficiency in the future.
Description
Research Article
Keywords
indole, acyloin, chemoenzymatic synthesis, thiamine-diphosphate dependent enzymes, tryptophan, indole-3-pyruvate
Citation
Citation: Alrashdi, S.; Casolari, F.; Alabed, A.; Kyeremeh, K.; Deng, H. Chemoenzymatic Synthesis of Indole-Containing Acyloin Derivatives. Molecules 2023, 28, 354. https://doi.org/10.3390/ molecules28010354