Effective Zearalenone Degradation in Model Solutions and Infected Wheat Grain Using a Novel Heterologous Lactonohydrolase Secreted by Recombinant Penicillium canescens

This paper reports the first results on obtaining an enzyme preparation that might be promising for the simultaneous decontamination of plant feeds contaminated with a polyketide fusariotoxin, zearalenone (ZEN), and enhancing the availability of their nutritional components. A novel ZEN-specific lac...

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Bibliographic Details
Published in:Toxins 2020-07, Vol.12 (8), p.475
Main Authors: Shcherbakova, Larisa, Rozhkova, Alexandra, Osipov, Dmitrii, Zorov, Ivan, Mikityuk, Oleg, Statsyuk, Natalia, Sinitsyna, Olga, Dzhavakhiya, Vitaly, Sinitsyn, Arkady
Format: Article
Language:English
Subjects:
Amino acids
Biodegradation
Biorefineries
Biosynthesis
Cellulase
Cloning
Decontamination
Degradation
E coli
Edible Grain - chemistry
Edible Grain - microbiology
enzymatic degradation
enzyme preparations
Enzymes
Flour - analysis
Food
Food Contamination - analysis
Food Contamination - prevention & control
Fungal Proteins - chemistry
Fungi
Fusarium
Gene expression
Grain
Hydrolases - chemistry
lactonohydrolase
Metabolites
Penicillium
Penicillium - enzymology
Penicillium - genetics
pH effects
Proteins
recombinant proteins
Toxins
Triticum - microbiology
Wheat
Zearalenone
Zearalenone - chemistry
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Summary:This paper reports the first results on obtaining an enzyme preparation that might be promising for the simultaneous decontamination of plant feeds contaminated with a polyketide fusariotoxin, zearalenone (ZEN), and enhancing the availability of their nutritional components. A novel ZEN-specific lactonohydrolase (ZHD) was expressed in a strain PCA-10 that was developed previously as a producer of different hydrolytic enzymes for feed biorefinery. The recombinant ZHD secreted by transformed fungal clones into culture liquid was shown to remove the toxin from model solutions, and was able to decontaminate wheat grain artificially infected with a zearalenone-producing . The dynamics of ZEN degradation depending on the temperature and pH of the incubation media was investigated, and the optimal values of these parameters (pH 8.5, 30 °C) for the ZHD-containing enzyme preparation (PR-ZHD) were determined. Under these conditions, the 3 h co-incubation of ZEN and PR-ZHD resulted in a complete removal of the toxin from the model solutions, while the PR-ZHD addition (8 mg/g of dried grain) to flour samples prepared from the infected ZEN-polluted grain (about 16 µg/g) completely decontaminated the samples after an overnight exposure.
ISSN:2072-6651
2072-6651
DOI:10.3390/toxins12080475