« Previous AbstractFloral thermogenesis of three species of Hydnora (Hydnoraceae) in Africa    Next AbstractEffects of Anthocyanin Supplementation and Ageing Time on the Volatile Organic Compounds and Sensory Attributes of Meat from Goat Kids »

J Dairy Sci

Title:		Nonstarter lactic acid bacteria volatilomes produced using cheese components
Author(s):		Sgarbi E; Lazzi C; Tabanelli G; Gatti M; Neviani E; Gardini F;
Address:		"Department of Food Science, University of Parma, Viale delle Scienze 11A, 43124, Parma, Italy"
Journal Title:		J Dairy Sci
Year:		2013
Volume:		20130516
Issue:		7
Page Number:		4223 - 4234
DOI:		10.3168/jds.2012-6472
ISSN/ISBN:		1525-3198 (Electronic) 0022-0302 (Linking)
Abstract:		"In long-ripened cheese, flavor formation occurs during ripening. The metabolism of lactic acid bacteria (LAB) leads to the production of different compounds that contribute to the flavor of cheese. The contribution of LAB to the formation of cheese flavor has previously been studied. However, the specific nonstarter LAB (NSLAB) metabolic reactions in ripened cheese that lead to the formation of flavor compounds remain unclear. In ripened cheese, the nutrient sources available include small peptides or amino acids, citrate, lactate, free fatty acids, and starter LAB cell lysis products. Thus, the aim of this study was to evaluate the ability of NSLAB to produce volatile flavor compounds by using an in vitro system that used only the nutrients available in ripened cheese as the energy source. Moreover, the potential contribution of the NSLAB volatilome on total cheese flavor is discussed. For this purpose, the production of volatile compounds on cheese-based medium (CBM) and on starter LAB lysed cell medium (LCM) by 2 Lactobacillus casei and 2 Lactobacillus rhamnosus strains, previously isolated from ripened Parmigiano Reggiano cheese, was investigated. The generated volatile compounds were analyzed with head-space gas chromatography mass spectrometry. Overall, ketones, aldehydes, alcohols, and acids were the most abundant compounds produced. Differences in volatilome production were found between NSLAB grown in LCM and CBM. The catabolic metabolism of amino acids and fatty acids were required for NSLAB growth on LCM. Conversely, pyruvate metabolism was the main catabolic pathway that supported growth of NSLAB in CBM. This study can be considered a first step toward a better understanding of how microbiota involved in the long ripening of cheese may contribute to the development of cheese flavor"
Keywords:		Amino Acids/metabolism Cheese/analysis/*microbiology Culture Media Fatty Acids/metabolism Food Technology/*methods Gas Chromatography-Mass Spectrometry Lactobacillus/*growth & development/metabolism Lacticaseibacillus casei/growth & development/metabolism;
Notes:		"MedlineSgarbi, E Lazzi, C Tabanelli, G Gatti, M Neviani, E Gardini, F eng 2013/05/21 J Dairy Sci. 2013 Jul; 96(7):4223-34. doi: 10.3168/jds.2012-6472. Epub 2013 May 16"