Gene is Involved in the Step to Make the Xanthone Structure of Demethylsterigmatocystin in Aflatoxin Biosynthesis

Overview

Journal Int J Mol Sci

Publisher MDPI

Specialties Biochemistry
Chemistry
Molecular Biology

Date 2020 Sep 5

PMID 32887494

Citations 4

Authors

Hongmei Zeng

Jingjing Cai

Hidemi Hatabayashi

Hiroyuki Nakagawa

Hiromitsu Nakajima

Kimiko Yabe

Affiliations

Soon will be listed here.

Abstract

In the biosynthesis of aflatoxin, , , , and genes of the aflatoxin gene cluster are involved in the pathway from versicolorin A (VA) to demethylsterigmatocystin (DMST). We herein isolated each disruptant of these four genes to determine their functions in more detail. Disruptants of , , and genes commonly accumulated VA in their mycelia. In contrast, the gene disruptant accumulated a novel yellow fluorescent substance (which we named HAMA) in the mycelia as well as culture medium. Feeding HAMA to the other disruptants commonly caused the production of aflatoxins B (AFB) and G (AFG). These results indicate that HAMA pigment is a novel aflatoxin precursor which is involved at a certain step after those of , , and genes between VA and DMST. HAMA was found to be an unstable substance to easily convert to DMST and sterigmatin. A liquid chromatography-mass spectrometry (LC-MS) analysis showed that the molecular mass of HAMA was 374, and HAMA gave two close major peaks in the LC chromatogram in some LC conditions. We suggest that these peaks correspond to the two conformers of HAMA; one of them would be selectively bound on the substrate binding site of VerA enzyme and then converted to DMST. VerA enzyme may work as a key enzyme in the creation of the xanthone structure of DMST from HAMA.

Citing Articles

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