Abstract
BackgroundRaw milk, meat and plant materials are subjected to high risks of contamination by various pathogenic bacteria and thus their growth prevention is a great challenge in the food industry. Food fermentation by lactic acid bacteria (LAB) besides changing its organoleptic characteristics also helps to eliminate unfavorable microflora and represses growth of pathogens. To the date only few LABs has been reported to exhibit activity against bacteria embedded in the biofilms characterized by extreme resistance to antimicrobials, high exchange rate with resistance genes and represent high risk factor for foodborne disease development.ResultsSix novel LAB strains isolated from the clover silage exhibited pronounced antibacterial activity against biofilm embedded pathogens. We show explicitly that these strains demonstrate high acidification rate, completely repress the growth of E. coli, S. aureus and to a lesser extent P. aeruginosa as well as exhibit appropriate probiotic and milk-fermenting properties. Moreover, in contrast to the approved probiotic strain Lactobacillus plantarum 8PA3, the new isolates were able to efficiently eradicate preformed biofilms of these pathogens and prevent bacterial spreading originating from the biofilm. We suggest these strains as potential additives to the pre-cultures of conventional LAB strains as efficient tools targeting foodborne pathogens in order to prevent food contamination from either seeded raw material or biofilm-fouled equipment.ConclusionsThe AG10 strain identified as L. plantarum demonstrate attractive probiotic and milk fermentation properties as well as high resistance to simulated gastric conditions thus appearing perspective as a starter culture for the prevention of bacterial contamination originating from fouled equipment during milk fermentation.
Highlights
Raw milk, meat and plant materials are subjected to high risks of contamination by various pathogenic bacteria and their growth prevention is a great challenge in the food industry
Since the activity against bacteria embedded in biofilms has been previously reported only for few lactic acid bacteria (LAB), the biofilm-eradicating activity of these novel LAB strains was tested explicitly
No repression of B. cereus spreading from the biofilm and consequent growth could be observed in the presence of any of the LAB
Summary
Meat and plant materials are subjected to high risks of contamination by various pathogenic bacteria and their growth prevention is a great challenge in the food industry. Food fermentation by lactic acid bacteria (LAB) besides changing its organoleptic characteristics helps to eliminate unfavorable microflora and represses growth of pathogens. Fermentation of substrates improves digestibility and nutritional quality of the final product, enriches it with vitamins, essential amino acids and fatty acids [1]. Another important role of LAB is the prevention of pathogenic microorganisms growth reducing the risks of foodborne disease development (for a detailed review, we refer to [2,3,4,5]). The growth, acidification rate and antimicrobial activity are the most important properties of newly isolated strains as potential candidates for biotechnological and food industry applications [8,9,10]
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