Metagenomic profiles of different types of Italian high-moisture Mozzarella cheese

The microbiota of different types of Italian high-moisture Mozzarella cheese produced using cow or buffalo milk, acidified with natural or selected cultures, and sampled at the dairy or at the mass market, was evaluated using a Next Generation Sequencing approach, in order to identify possible drive...

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Published inFood microbiology Vol. 79; pp. 123 - 131
Main Authors Marino, Marilena, Dubsky de Wittenau, Giorgia, Saccà, Elena, Cattonaro, Federica, Spadotto, Alessandro, Innocente, Nadia, Radovic, Slobodanka, Piasentier, Edi, Marroni, Fabio
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.06.2019
Subjects
buffalo milk
cluster analysis
High-moisture Mozzarella cheese
high-throughput nucleotide sequencing
lactic acid bacteria
Lactobacillus delbrueckii subsp. bulgaricus
Lactobacillus helveticus
markets
Metagenomics
Microbiota
milk
mozzarella cheese
Next generation sequencing
Psychrotrophs
Streptococcus thermophilus
temperature
whey
Psychrotrophs
Metagenomics
Microbiota
High-moisture Mozzarella cheese
Next generation sequencing
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Abstract The microbiota of different types of Italian high-moisture Mozzarella cheese produced using cow or buffalo milk, acidified with natural or selected cultures, and sampled at the dairy or at the mass market, was evaluated using a Next Generation Sequencing approach, in order to identify possible drivers of the bacterial diversity. Cow Mozzarella and buffalo Mozzarella acidified with commercial cultures were dominated by Streptococcus thermophilus, while buffalo samples acidified with natural whey cultures showed similar prevalence of L. delbrueckii subsp. bulgaricus, L. helveticus and S. thermophilus. Moreover, several species of non-starter lactic acid bacteria were frequently detected. The diversity in cow Mozzarella microbiota was much higher than that of water buffalo samples. Cluster analysis clearly separated cow's cheeses from buffalo's ones, the former having a higher prevalence of psychrophilic taxa, and the latter of Lactobacillus and Streptococcus. A higher prevalence of psychrophilic species and potential spoilers was observed in samples collected at the mass retail, suggesting that longer exposures to cooling temperatures and longer production-to-consumption times could significantly affect microbiota diversity. Our results could help in detecting some kind of thermal abuse during the production or storage of mozzarella cheese. •Metagenomics clearly allows to distinguish cow Mozzarella from buffalo Mozzarella.•Cow Mozzarella show a higher bacterial diversity.•Cow Mozzarella show a large presence of psychrophilic species.•Sampling point (local or mass retail) is a possible driver of bacteria diversity.
AbstractList The microbiota of different types of Italian high-moisture Mozzarella cheese produced using cow or buffalo milk, acidified with natural or selected cultures, and sampled at the dairy or at the mass market, was evaluated using a Next Generation Sequencing approach, in order to identify possible drivers of the bacterial diversity. Cow Mozzarella and buffalo Mozzarella acidified with commercial cultures were dominated by Streptococcus thermophilus, while buffalo samples acidified with natural whey cultures showed similar prevalence of L. delbrueckii subsp. bulgaricus, L. helveticus and S. thermophilus. Moreover, several species of non-starter lactic acid bacteria were frequently detected. The diversity in cow Mozzarella microbiota was much higher than that of water buffalo samples. Cluster analysis clearly separated cow's cheeses from buffalo's ones, the former having a higher prevalence of psychrophilic taxa, and the latter of Lactobacillus and Streptococcus. A higher prevalence of psychrophilic species and potential spoilers was observed in samples collected at the mass retail, suggesting that longer exposures to cooling temperatures and longer production-to-consumption times could significantly affect microbiota diversity. Our results could help in detecting some kind of thermal abuse during the production or storage of mozzarella cheese.
The microbiota of different types of Italian high-moisture Mozzarella cheese produced using cow or buffalo milk, acidified with natural or selected cultures, and sampled at the dairy or at the mass market, was evaluated using a Next Generation Sequencing approach, in order to identify possible drivers of the bacterial diversity. Cow Mozzarella and buffalo Mozzarella acidified with commercial cultures were dominated by Streptococcus thermophilus, while buffalo samples acidified with natural whey cultures showed similar prevalence of L. delbrueckii subsp. bulgaricus, L. helveticus and S. thermophilus. Moreover, several species of non-starter lactic acid bacteria were frequently detected. The diversity in cow Mozzarella microbiota was much higher than that of water buffalo samples. Cluster analysis clearly separated cow's cheeses from buffalo's ones, the former having a higher prevalence of psychrophilic taxa, and the latter of Lactobacillus and Streptococcus. A higher prevalence of psychrophilic species and potential spoilers was observed in samples collected at the mass retail, suggesting that longer exposures to cooling temperatures and longer production-to-consumption times could significantly affect microbiota diversity. Our results could help in detecting some kind of thermal abuse during the production or storage of mozzarella cheese. •Metagenomics clearly allows to distinguish cow Mozzarella from buffalo Mozzarella.•Cow Mozzarella show a higher bacterial diversity.•Cow Mozzarella show a large presence of psychrophilic species.•Sampling point (local or mass retail) is a possible driver of bacteria diversity.
The microbiota of different types of Italian high-moisture Mozzarella cheese produced using cow or buffalo milk, acidified with natural or selected cultures, and sampled at the dairy or at the mass market, was evaluated using a Next Generation Sequencing approach, in order to identify possible drivers of the bacterial diversity. Cow Mozzarella and buffalo Mozzarella acidified with commercial cultures were dominated by Streptococcus thermophilus, while buffalo samples acidified with natural whey cultures showed similar prevalence of L. delbrueckii subsp. bulgaricus, L. helveticus and S. thermophilus. Moreover, several species of non-starter lactic acid bacteria were frequently detected. The diversity in cow Mozzarella microbiota was much higher than that of water buffalo samples. Cluster analysis clearly separated cow's cheeses from buffalo's ones, the former having a higher prevalence of psychrophilic taxa, and the latter of Lactobacillus and Streptococcus. A higher prevalence of psychrophilic species and potential spoilers was observed in samples collected at the mass retail, suggesting that longer exposures to cooling temperatures and longer production-to-consumption times could significantly affect microbiota diversity. Our results could help in detecting some kind of thermal abuse during the production or storage of mozzarella cheese.The microbiota of different types of Italian high-moisture Mozzarella cheese produced using cow or buffalo milk, acidified with natural or selected cultures, and sampled at the dairy or at the mass market, was evaluated using a Next Generation Sequencing approach, in order to identify possible drivers of the bacterial diversity. Cow Mozzarella and buffalo Mozzarella acidified with commercial cultures were dominated by Streptococcus thermophilus, while buffalo samples acidified with natural whey cultures showed similar prevalence of L. delbrueckii subsp. bulgaricus, L. helveticus and S. thermophilus. Moreover, several species of non-starter lactic acid bacteria were frequently detected. The diversity in cow Mozzarella microbiota was much higher than that of water buffalo samples. Cluster analysis clearly separated cow's cheeses from buffalo's ones, the former having a higher prevalence of psychrophilic taxa, and the latter of Lactobacillus and Streptococcus. A higher prevalence of psychrophilic species and potential spoilers was observed in samples collected at the mass retail, suggesting that longer exposures to cooling temperatures and longer production-to-consumption times could significantly affect microbiota diversity. Our results could help in detecting some kind of thermal abuse during the production or storage of mozzarella cheese.
Author Spadotto, Alessandro
Innocente, Nadia
Dubsky de Wittenau, Giorgia
Saccà, Elena
Radovic, Slobodanka
Piasentier, Edi
Marino, Marilena
Cattonaro, Federica
Marroni, Fabio
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Keywords Psychrotrophs
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High-moisture Mozzarella cheese
Next generation sequencing
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Snippet The microbiota of different types of Italian high-moisture Mozzarella cheese produced using cow or buffalo milk, acidified with natural or selected cultures,...
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SubjectTerms buffalo milk
cluster analysis
High-moisture Mozzarella cheese
high-throughput nucleotide sequencing
lactic acid bacteria
Lactobacillus delbrueckii subsp. bulgaricus
Lactobacillus helveticus
markets
Metagenomics
Microbiota
milk
mozzarella cheese
Next generation sequencing
Psychrotrophs
Streptococcus thermophilus
temperature
whey
Title Metagenomic profiles of different types of Italian high-moisture Mozzarella cheese
URI https://dx.doi.org/10.1016/j.fm.2018.12.007
https://www.ncbi.nlm.nih.gov/pubmed/30621867
https://www.proquest.com/docview/2165658523
https://www.proquest.com/docview/2220845053
Volume 79
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