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J Dairy Sci


Title:Lactobacillus demonstrate thiol-independent metabolism of methylglyoxal: Implications toward browning prevention in Parmesan cheese
Author(s):Gandhi NN; Cobra PF; Steele JL; Markley JL; Rankin SA;
Address:"Department of Food Science, and National Magnetic Resonance Facility, University of Wisconsin, Madison 53706. Department of Biochemistry, National Magnetic Resonance Facility, University of Wisconsin, Madison 53706. Department of Food Science, and National Magnetic Resonance Facility, University of Wisconsin, Madison 53706. Electronic address: sarankin@wisc.edu"
Journal Title:J Dairy Sci
Year:2018
Volume:20171221
Issue:2
Page Number:968 - 978
DOI: 10.3168/jds.2017-13577
ISSN/ISBN:1525-3198 (Electronic) 0022-0302 (Print) 0022-0302 (Linking)
Abstract:"Endogenous production of alpha-dicarbonyls by lactic acid bacteria can influence the quality and consistency of fermented foods and beverages. Methylglyoxal (MG) in Parmesan cheese can contribute toward undesired browning during low temperature ripening and storage conditions, leading to the economic depreciation of affected cheeses. We demonstrate the effects of exogenously added MG on browning and volatile formation using a Parmesan cheese extract (PCE). To determine the influence of Lactobacillus on alpha-dicarbonyls, strains were screened for their ability to modulate concentrations of MG, glyoxal, and diacetyl in PCE. It was found that a major metabolic pathway of MG in Lactobacillus is a thiol-independent reduction, whereby MG is partially or fully reduced to acetol and 1,2-propanediol, respectively. The majority of lactobacilli grown in PCE accumulated the intermediate acetol, whereas Lactobacillus brevis 367 formed exclusively 1,2-propanediol and Lactobacillus fermentum 14931 formed both metabolites. In addition, we determined the inherent tolerance to bacteriostatic concentrations of MG among lactobacilli grown in rich media. It was found that L. brevis 367 reduces MG exclusively to 1,2-propanediol, which correlates to both its ability to significantly decrease MG concentrations in PCE, as well as its significantly higher tolerance to MG, in comparison to other lactobacilli screened. These findings have broader implications toward lactobacilli as a viable solution for reducing MG-mediated browning of Parmesan cheese"
Keywords:Cheese/*analysis Color Diacetyl/analysis Fermentation Glyoxal/analysis Lactobacillus/genetics/*metabolism Pyruvaldehyde/administration & dosage/analysis/*metabolism Sulfhydryl Compounds/metabolism Volatile Organic Compounds/*analysis Lactobacillus Parmesa;
Notes:"MedlineGandhi, N N Cobra, P F Steele, J L Markley, J L Rankin, S A eng S10 RR008438-01/RR/NCRR NIH HHS/ P41 GM066326/GM/NIGMS NIH HHS/ S10 RR002781-01/RR/NCRR NIH HHS/ S10 RR002781/RR/NCRR NIH HHS/ P41 GM103399/GM/NIGMS NIH HHS/ S10 RR008438/RR/NCRR NIH HHS/ 2017/12/25 J Dairy Sci. 2018 Feb; 101(2):968-978. doi: 10.3168/jds.2017-13577. Epub 2017 Dec 21"

 
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