Richard A. Ewin scite author profile

Antifolates targeting folate biosynthesis within the shikimate-chorismate-folate metabolic pathway are ideal and selective antimicrobials, since higher eukaryotes lack this pathway and rely on an exogenous source of folate. Resistance to the available antifolates, inhibiting the folate pathway, underlines the need for novel antibiotic scaffolds and molecular targets. While para-aminobenzoic acid synthesis within the chorismate pathway constitutes a novel molecular target for antifolates, abyssomicins are its first known natural inhibitors. This review describes the abyssomicin family, a novel spirotetronate polyketide Class I antimicrobial. It summarizes synthetic and biological studies, structural, biosynthetic, and biological properties of the abyssomicin family members. This paper aims to explain their molecular target, mechanism of action, structure–activity relationship, and to explore their biological and pharmacological potential. Thirty-two natural abyssomicins and numerous synthetic analogues have been reported. The biological activity of abyssomicins includes their antimicrobial activity against Gram-positive bacteria and mycobacteria, antitumor properties, latent human immunodeficiency virus (HIV) reactivator, anti-HIV and HIV replication inducer properties. Their antimalarial properties have not been explored yet. Future analoging programs using the structure–activity relationship data and synthetic approaches may provide a novel abyssomicin structure that is active and devoid of cytotoxicity. Abyssomicin J and atrop-o-benzyl-desmethylabyssomicin C constitute promising candidates for such programs.

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Chiral base mediated asymmetric synthesis of tricarbonyl(η6-arene)chromium complexes

Ewin¹,

MacLeod²,

Price³

et al. 1997

J. Chem. Soc., Perkin Trans. 1

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Intramolecular reactions using amide links: Aryl radical cyclisation of silylated acryloylanilides

Jones

Wilkinson

Ewin

1994

Tetrahedron Letters

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The asymmetric synthesis of phosphorus- and sulfur-containing tricarbonyl(η6-arene)chromium complexes using the chiral base approach

Ariffin¹,

Blake²,

Ewin³

et al. 1999

J. Chem. Soc., Perkin Trans. 1

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Asymmetric induction ? to nitrogen in pyrrolidines and piperidines via radical chemistry

Ewin¹,

Jones²,

Newton³

1996

J. Chem. Soc., Perkin Trans. 1

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Richard A. Ewin

Review on Abyssomicins: Inhibitors of the Chorismate Pathway and Folate Biosynthesis

Chiral base mediated asymmetric synthesis of tricarbonyl(η6-arene)chromium complexes

Intramolecular reactions using amide links: Aryl radical cyclisation of silylated acryloylanilides

The asymmetric synthesis of phosphorus- and sulfur-containing tricarbonyl(η6-arene)chromium complexes using the chiral base approach

Asymmetric induction ? to nitrogen in pyrrolidines and piperidines via radical chemistry

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