Nucleic acid-based approaches to investigate microbial-related cheese quality defects
Daniel J. O'Sullivan,Linda Giblin,Paul L.H. McSweeney,Jeremiah J. Sheehan,Paul D. Cotter,Paul D. Cotter +5 more
TLDR
The DNA-based methods that are available to detect/quantify spoilage bacteria, and relevant metabolic pathways in cheeses are reviewed and it is highlighted how these strategies can be employed to improve cheese quality and reduce the associated economic burden on cheese processors.Abstract:
The microbial profile of cheese is a primary determinant of cheese quality. Microorganisms can contribute to aroma and taste defects, form biogenic amines, cause gas and secondary fermentation defects, and can contribute to cheese pinking and mineral deposition issues. These defects may be as a result of seasonality and the variability in the composition of the milk supplied, variations in cheese processing parameters, as well as the nature and number of the non-starter microorganisms which come from the milk or other environmental sources. Such defects can be responsible for production and product recall costs and thus represent a significant economic burden for the dairy industry worldwide. Traditional non-molecular approaches are often considered biased and have inherently slow turnaround times. Molecular techniques can provide early and rapid detection of defects that result from the presence of specific spoilage microbes and, ultimately, assist in enhancing cheese quality and reducing costs. Here we review the DNA-based methods that are available to detect/quantify spoilage bacteria, and relevant metabolic pathways in cheeses and, in the process, highlight how these strategies can be employed to improve cheese quality and reduce the associated economic burden on cheese processors.read more
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The Epidemiology of Carbapenem-Resistant Enterobacteriaceae: The Impact and Evolution of a Global Menace.
TL;DR: The evolution of CRE is discussed, with a focus on the epidemiology of the CPE pandemic; risk factors for colonization and infection with the most common transmissible CPE worldwide, Klebsiella pneumoniae carbapenemase-producing K. pneumoniae are reviewed; and strategies used to halt the striking spread of these deadly pathogens are presented.
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The interplay of microbially mediated and abiotic reactions in the biogeochemical Fe cycle
TL;DR: The major microbially mediated and abiotic reactions in the biogeochemical Fe cycle are discussed and an integrated overview of biotic and chemically mediated redox transformations is provided.
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Contamination of water resources by pathogenic bacteria
TL;DR: This review paper attempts to develop the first comprehensive single source of existing information on pathogen contamination in multiple types of water resources, and describes the challenges associated with using indicator organisms.
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Traditional cheeses: Rich and diverse microbiota with associated benefits
Marie-Christine Montel,Solange Buchin,Adrien Mallet,Céline Delbès-Paus,Dominique A. Vuitton,Nathalie Desmasures,Françoise Berthier +6 more
TL;DR: In the future, the use of meta-omics methods should help to decipher how traditional cheese ecosystems form and function, opening the way to new methods of risk-benefit management from farm to ripened cheese.
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Microbial functional genes involved in nitrogen fixation, nitrification and denitrification in forest ecosystems
TL;DR: In this article, the abundance and community structure of functional genes involved in the biogeochemical cycling of N in forest soils offers an approach to directly link microbial groups to soil characteristics and ecosystem processes.
References
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Journal ArticleDOI
Effect of Packaging and Storage Conditions on Calcium Lactate Crystallization on the Surface of Cheddar Cheese
TL;DR: In this article, eight vats of milled curd Cheddar cheese were manufactured in a commercial cheese plant and four consecutive vats (controls) were made according to the routine manufacturing schedule used at the cheese plant.
Journal ArticleDOI
Effect of Lactobacillus helveticus and Propionibacterium freudenrichii ssp. shermanii combinations on propensity for split defect in Swiss cheese.
TL;DR: There was a sixfold increase in amount of downgraded cheese between the best and worst culture combinations used during cheese manufacture and extent of split formation was influenced by both the lactobacilli and propionibacteria cultures used.
Journal ArticleDOI
Complete Genome Sequence of the Dairy Isolate Streptococcus macedonicus ACA-DC 198
Konstantinos Papadimitriou,Stéphanie Ferreira,Nikolaos Papandreou,Eleni Mavrogonatou,Philip Supply,Bruno Pot,Effie Tsakalidou +6 more
TL;DR: The complete 2.1-Mb genome sequence of strain ACA-DC 198 is presented, which was isolated from naturally fermented Greek kasseri cheese, which is associated with the food environment, especially with fermented dairy products.
Journal ArticleDOI
Molecular-based analysis of changes in indigenous milk microflora during the grazing period.
TL;DR: Variations in milk microflora caused by changes in the cow feeding environment were analyzed using a molecular-based approach comprising denaturing gradient gel electrophoresis and real-time PCR and revealed that the population of staphylococci increased during the outside grazing period.
Book ChapterDOI
Cheese | Avoidance of Gas Blowing
Abstract: Gas blowing results in holes, cracks, slits, or fissures in cheeses. The size and nature of these openings are influenced by the volume and type of gas produced (CO2 or H2; H2 has particularly low solubility in cheese), cheese texture characteristics, and the effect of temperature on gas solubility and pressure within the curd. Measures to avoid early gas defects (24–48 h) due to coliforms, yeasts, or lactic acid bacteria include appropriate hygiene practices during milking and cheese manufacture, milk pasteurization, avoiding postpasteurization contamination, use of active starter cultures, and use of nitrates where permissible. Late gas defects (occurring weeks to months into ripening) are due to butyric acid fermentation resulting from germination of spores of Clostridium tyrobutyricum or due to growth of heterofermentative or salt-tolerant lactobacilli, heat-resistant streptococci, or undesired propionic acid bacteria. Measures to avoid late gas defects include avoiding milk from silage-fed herds, removal of spores from milk by bactofugation or microfiltration (MF), or inhibition of spore germination by nitrates, lysozyme, or nisin. Other measures include appropriate sanitation, active starter cultures, maintenance of brines, avoiding excessively long plate heat exchanger processes, and avoiding inadvertent growth of propionic acid bacteria.
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