Ochratoxin A Defective Aspergillus carbonarius Mutants as Potential Biocontrol Agents

Ochratoxin A Defective Aspergillus carbonarius Mutants as Potential Biocontrol Agents

is one of the main species responsible for wine, coffee and cocoa toxin contamination. The main mycotoxin produced by this fungus, ochratoxin A (OTA), is a secondary metabolite categorized as a possible carcinogen because of its significant nephrotoxicity and immunosuppressive effects. A polyketide...

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Bibliographic Details
Published in:Toxins Vol. 14; no. 11; p. 745
Main Authors: Llobregat, Belén, González-Candelas, Luis, Ballester, Ana-Rosa
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 31-10-2022
MDPI
Subjects:
Aspergillus - genetics
Aspergillus - metabolism
Aspergillus carbonarius
Biological control
Biosynthesis
Carcinogens
Cocoa
Coffee
competence
Contamination
Food
Fungi
Fungi - metabolism
Gene clusters
Genes
Genomics
Grapes
Humidity
Metabolism
Metabolites
Microorganisms
Mutants
mycotoxin
Mycotoxins
Nutrients
Ochratoxin A
Ochratoxins - metabolism
outcompete
Pesticides
Polyketide synthase
secondary metabolism
Secondary metabolites
Toxins
VeA gene
VELVET complex
Vitaceae
Vitis - microbiology
Wines
VELVET complex
competence
mycotoxin
polyketide synthase
secondary metabolism
outcompete
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Summary:is one of the main species responsible for wine, coffee and cocoa toxin contamination. The main mycotoxin produced by this fungus, ochratoxin A (OTA), is a secondary metabolite categorized as a possible carcinogen because of its significant nephrotoxicity and immunosuppressive effects. A polyketide synthase gene ( ) encodes the first enzyme in the OTA biosynthetic pathway. It is known that the filamentous fungi, growth, development and production of secondary metabolites are interconnected processes governed by global regulatory factors whose encoding genes are generally located outside the gene clusters involved in the biosynthesis of each secondary metabolite, such as the gene, which forms part of the VELVET complex. Different fungal strains compete for nutrients and space when they infect their hosts, and safer non-mycotoxigenic strains may be able to outcompete mycotoxigenic strains during colonization. To determine the possible utility of biopesticides based on the competitive exclusion of mycotoxigenic strains by non-toxigenic ones, we used Δ and Δ knockout mutants. Our results showed that during both in vitro growth and infection of grapes, non-mycotoxigenic strains could outcompete the wild-type strain. Additionally, the introduction of the non-mycotoxigenic strain led to a drastic decrease in OTA during both in vitro growth and infection of grapes.
ISSN:2072-6651
2072-6651
DOI:10.3390/toxins14110745