Issue 29, 2015

Phenalenones: insight into the biosynthesis of polyketides from the marine alga-derived fungus Coniothyrium cereale

Abstract

The marine alga-derived fungus Coniothyrium cereale is a prolific producer of phenalenones. These polyketides were shown to possess antimicrobial effects and inhibitory activity towards the protease human leucocyte elastase (HLE). The current study focused on the biosynthesis of eight different structural types of phenalenones, comprising the natural products rousselianone A′ (1), coniosclerodin (3), cereolactam (12), cereoaldomine (15), and trypethelone (16). Solid agar cultures of C. cereale were used to follow up the incorporation of [1-13C] labeled acetate into these metabolites. Taking the respective mechanisms of polyketide metabolism into account, the labeling pattern was interpreted, thus providing a hypothesis for the biosynthetic formation of the phenalenones. The polyketide skeleton of the phenanthrene-based compound cereolactam is proposed to be formed through degradation of a heptaketide by loss of two carbon atoms.

Graphical abstract: Phenalenones: insight into the biosynthesis of polyketides from the marine alga-derived fungus Coniothyrium cereale

Supplementary files

Article information

Article type
Paper
Submitted
27 Apr 2015
Accepted
25 Jun 2015
First published
25 Jun 2015

Org. Biomol. Chem., 2015,13, 8071-8079

Author version available

Phenalenones: insight into the biosynthesis of polyketides from the marine alga-derived fungus Coniothyrium cereale

M. Nazir, F. El Maddah, S. Kehraus, E. Egereva, J. Piel, A. O. Brachmann and G. M. König, Org. Biomol. Chem., 2015, 13, 8071 DOI: 10.1039/C5OB00844A

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