14 research outputs found

    Clinical practice guidelines for the management of hypothyroidism

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    Hurdle factors minimizing growth of <em>Listeria monocytogenes</em> while counteracting <em>in situ</em> antilisterial effects of a novel nisin A-producing <em>Lactococcus lactis</em> subsp. <em>cremoris</em> costarter in thermized cheese milks

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    Implications of new research and technologies for malolactic fermentation in wine

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    The initial conversion of grape must to wine is an alcoholic fermentation (AF) largely carried out by one or more strains of yeast, typically Saccharomyces cerevisiae. After the AF, a secondary or malolactic fermentation (MLF) which is carried out by lactic acid bacteria (LAB) is often undertaken. The MLF involves the bioconversion of malic acid to lactic acid and carbon dioxide. The ability to metabolise L-malic acid is strain specific, and both individual Oenococcus oeni strains and other LAB strains vary in their ability to efficiently carry out MLF. Aside from impacts on acidity, LAB can also metabolise other precursors present in wine during fermentation and, therefore, alter the chemical composition of the wine resulting in an increased complexity of wine aroma and flavour. Recent research has focused on three main areas: enzymatic changes during MLF, safety of the final product and mechanisms of stress resistance. This review summarises the latest research and technological advances in the rapidly evolving study of MLF and investigates the directions that future research may take.Krista M. Sumby, Paul R. Grbin, Vladimir Jirane

    Lactic Acid Bacteria (LAB) and Their Bacteriocins as Alternative Biotechnological Tools to Control Listeria monocytogenes Biofilms in Food Processing Facilities

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    Postbiotics-parabiotics: the new horizons in microbial biotherapy and functional foods

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