Research and Toxinogenic Characterization of Penicillium Contaminating Goat's Traditional Dairy Products in Northern Morocco

Amrani Meriem, Maouni Abdelfettah, Hassani Zerrouk Mounir, Toukour Larbi, Laglaoui Amin, Zantar Said, Khaddor Mustapha
2020 European Scientific Journal  
The goat rearing in northern Morocco had known a very important evolution with the introduction of European breeds of goats more productive of milk compared to local breeds. Moulds are common contaminants in many traditional dairy products. Some species are responsible for significant economic losses and major public health problems by producing toxic metabolites like mycotoxins. This work aims to isolate, identify and 71 characterize the mycotoxin-producing species of Penicillium from milk and
more » ... llium from milk and traditional cheese (Jben) in the different northern region of Morocco, based on microbiological analysis and in vitro identification of Penicillium toxinogenic by fluorescence detection and HPLC analysis. Our microbiological analysis clearly show that the fungal flora is highly developed in goat's milk and Jben: 85 mould and yeast isolates from 57 samples collected. The rate of fungal flora (mould and yeast species) is high, it is around 2,6 10 4 CFU/ml in milk and 5,90 10 4 CFU/g in Jben. Penicillium isolates were purified and identified according to macroscopic and microscopic criteria. The proportion of Penicillium (61,53 %) in milk is more than Jben (16,94 %). The most important Penicillium species in two dairy products are P.italicum (23,1% in milk against 5,1 % in Jben), P. cyclopium (7,7 % in milk against 5,1% in cheese), and P. expansum (7,7% in milk against 3,4 % in cheese). According to in vitro identification of Penicillium toxinogenic by fluorescence detection, the majority of Penicillium isolates were able to produce mycotoxin type Citrinin and Ochratoxin A. The capacity of mycotoxin production by the identified strains was confirmed by High-Performance Liquid Chromatography Analysis. The patulin was produced by all Penicillium isolates, while the citrinin was produced by P. nalgiovense, P. simplicissimum, and P. dipodomyis. Unlike the ochratoxin A was produced by all isolates, except the P. nalgiovense and P. dipodomyis. The presence of toxicogenic Penicillium species in Moroccan traditional goat's dairy products suggests that contaminated products according to processing conditions and after storage traditionally could be a risk to the health and safety of consumers. The awareness-raising measures, the professional guidance on the concept of hygienic quality and the tendency to semi-industrial production remain worksites to work more efficiently by the state.
doi:10.19044/esj.2020.v16n12p70 fatcat:owk4mjepxjhkhnxf4za3ruvd24