Study of an Enterococcus faecium strain isolated from an artisanal Mexican cheese, whole-genome sequencing, comparative genomics, and bacteriocin expression

Enterococci are ubiquitous microorganisms in almost all environments, from the soil we step on to the food we eat. They are frequently found in naturally fermented foods, contributing to ripening through protein, lipid, and sugar metabolism. On the other hand, these organisms are also leading the cu...

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Veröffentlicht in:	Antonie van Leeuwenhoek 2024-12, Vol.117 (1), p.40-40, Article 40
Hauptverfasser:	Acero-Pimentel, Daniel, Romero-Sánchez, Diana I., Fuentes-Curiel, Sac Nicté, Quirasco, Maricarmen
Format:	Artikel
Sprache:	eng
Schlagworte:	Antibiotic resistance Antibiotics Bacteriocins Bacteriocins - metabolism bacteriophages Biomedical and Life Sciences Carbohydrates Cheese cheeses CRISPR Dairy products Enterocins Enterococcus - genetics Enterococcus faecium Enterococcus faecium - genetics Enterococcus faecium - metabolism fermentation Fermented food Gene expression Gene sequencing Genomes Genomics Life Sciences Lipid metabolism Lipids Medical Microbiology Metabolic pathways Microbiology Microorganisms operon Original Paper Phages Plant Sciences Protein turnover Ripening soil Soil Science & Conservation sugars traditional technology Vancomycin Whole genome sequencing
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description	Enterococci are ubiquitous microorganisms in almost all environments, from the soil we step on to the food we eat. They are frequently found in naturally fermented foods, contributing to ripening through protein, lipid, and sugar metabolism. On the other hand, these organisms are also leading the current antibiotic resistance crisis. In this study, we performed whole-genome sequencing and comparative genomics of an Enterococcus faecium strain isolated from an artisanal Mexican Cotija cheese, namely QD-2. We found clear genomic differences between commensal and pathogenic strains, particularly in their carbohydrate metabolic pathways, resistance to vancomycin and other antibiotics, bacteriocin production, and bacteriophage and CRISPR content. Furthermore, a bacteriocin transcription analysis performed by RT-qPCR revealed that, at the end of the log phase, besides enterocins A and X, two putative bacteriocins not reported previously are also transcribed as a bicistronic operon in E. faecium QD-2, and are expressed 1.5 times higher than enterocin A when cultured in MRS broth.
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They are frequently found in naturally fermented foods, contributing to ripening through protein, lipid, and sugar metabolism. On the other hand, these organisms are also leading the current antibiotic resistance crisis. In this study, we performed whole-genome sequencing and comparative genomics of an Enterococcus faecium strain isolated from an artisanal Mexican Cotija cheese, namely QD-2. We found clear genomic differences between commensal and pathogenic strains, particularly in their carbohydrate metabolic pathways, resistance to vancomycin and other antibiotics, bacteriocin production, and bacteriophage and CRISPR content. 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subjects	Antibiotic resistance Antibiotics Bacteriocins Bacteriocins - metabolism bacteriophages Biomedical and Life Sciences Carbohydrates Cheese cheeses CRISPR Dairy products Enterocins Enterococcus - genetics Enterococcus faecium Enterococcus faecium - genetics Enterococcus faecium - metabolism fermentation Fermented food Gene expression Gene sequencing Genomes Genomics Life Sciences Lipid metabolism Lipids Medical Microbiology Metabolic pathways Microbiology Microorganisms operon Original Paper Phages Plant Sciences Protein turnover Ripening soil Soil Science & Conservation sugars traditional technology Vancomycin Whole genome sequencing
title	Study of an Enterococcus faecium strain isolated from an artisanal Mexican cheese, whole-genome sequencing, comparative genomics, and bacteriocin expression
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