Kenza-Amel Boulahya scite author profile

Kenza-Amel Boulahya

2Publications

45Citation Statements Received

40Citation Statements Given

How they've been cited

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104

Affiliations

Laboratoire Réactions et Génie des Procédés, French National Centre for Scientific Research, Université de Lorraine

Publications

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Biosynthesis and role of 3-methylbutanal in cheese by lactic acid bacteria: Major metabolic pathways, enzymes involved, and strategies for control

Afzal

Ariceaga

Boulahya

et al. 2015

Critical Reviews in Food Science and Nutrition

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Branched chain aldehyde, 3-methylbutanal is associated as a key flavor compound with many hard and semi-hard cheese varieties. The presence and impact of this flavor compound in bread, meat, and certain beverages has been recently documented, however its presence and consequences regarding cheese flavor were not clearly reported. This paper gives an overview of the role of 3-methylbutanal in cheese, along with the major metabolic pathways and key enzymes leading to its formation. Moreover, different strategies are highlighted for the control of this particular flavor compound in specific cheese types.

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Effect of oxygen on the biosynthesis of flavor compound 3-methylbutanal from leucine catabolism during batch culture in Carnobacterium maltaromaticum LMA 28

Afzal

Boulahya

Paris

et al. 2013

Journal of Dairy Science

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In this study, we demonstrated the effect of different dissolved oxygen concentrations (DOC) on cell growth and intracellular biosynthesis of 3-methylbutanal from leucine catabolism in Carnobacterium maltaromaticum LMA 28 during batch culture. The maximum specific growth rate was obtained in culture when DOC was controlled at 50% of air saturation. The specific consumption rates of glucose and specific production rates of lactate were higher at a DOC at 50 or 90% of air saturation. Carnobacterium maltaromaticum LMA 28 produced high quantities of 3-methylbutanal and 3-methylbutanol during culture with DOC maintained at 90%, suggesting that oxygen had a significant effect of the formation of these flavor compounds. This high formation of flavor compounds in an oxygen-rich environment was attributed to the simultaneous activation and stimulation of both α-ketoacid decarboxylase (KADC) and α-ketoacid dehydrogenase (KADH) pathways. Thus, intracellular biosynthesis of 3-methylbutanal can be controlled by modifying the DOC of the culture or food product during fermentation.

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