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Food Res Int


Title:Structural and metabolic performance of p-cresol producing microbiota in different carbon sources
Author(s):Ji M; Du H; Xu Y;
Address:"Key Laboratory of Industrial Biotechnology of Ministry of Education, State Key Laboratory of Food Science and Technology, Synergetic Innovation Center of Food Safety and Nutrition, School of Biotechnology, Jiangnan University, 1800 Lihu Avenue, Wuxi, Jiangsu 214122, People's Republic of China. Key Laboratory of Industrial Biotechnology of Ministry of Education, State Key Laboratory of Food Science and Technology, Synergetic Innovation Center of Food Safety and Nutrition, School of Biotechnology, Jiangnan University, 1800 Lihu Avenue, Wuxi, Jiangsu 214122, People's Republic of China. Electronic address: duhai88@jiangnan.edu.cn. Key Laboratory of Industrial Biotechnology of Ministry of Education, State Key Laboratory of Food Science and Technology, Synergetic Innovation Center of Food Safety and Nutrition, School of Biotechnology, Jiangnan University, 1800 Lihu Avenue, Wuxi, Jiangsu 214122, People's Republic of China. Electronic address: yxu@jiangnan.edu.cn"
Journal Title:Food Res Int
Year:2020
Volume:20200207
Issue:
Page Number:109049 -
DOI: 10.1016/j.foodres.2020.109049
ISSN/ISBN:1873-7145 (Electronic) 0963-9969 (Linking)
Abstract:"p-Cresol (PC) is a potential off-flavor and carcinogenic compound that affects food flavor and safety. However, controlling the production of PC when making fermented food is hindered by a lack of knowledge of the microbial diversity and the growth requirements of the microbiota that produce PC. To address this, the present study used three media with selected carbon sources (glucose, ethanol and lactic acid) to explore the microbial origin of PC and to determine the preferred carbon source for the PC-producing microbiota in the pit mud of the strong-aroma type Baijiu. The results showed that the different carbon sources affected the microbial structure, especially of the PC-producing microbiota. Glucose led to the highest production of PC and lactic acid to the lowest. The production of PC was significantly correlated (p < 0.05, |rho| > 0.6) with Dorea, Sporanaerobacter, Tepidimicrobium, Tissierella Soehngenia, Clostridium and Sedimentibacter in the glucose medium; with Proteiniborus, Ruminococcus and Sporanaerobacter in the ethanol medium; and with Lutispora and Tepidimicrobium in the lactic acid medium. Multiphasic metabolite target analysis further indicated that the PC-producing microbiota could also metabolize flavor compounds. Lactic acid could inhibit the production of PC and ensure that the microbiota produced the appropriate flavor compounds during culture. Collectively, Dorea, Sporanaerobacter, Tepidimicrobium, Tissierella_Soehngenia, Clostridium, Sedimentibacter, Proteiniborus, Ruminococcus and Lutispora were identified as potential PC producers in three media with glucose preferred as the carbon source. These findings provide a perspective on the microbiota and carbon source preference for ultimately improving the quality of distilled alcoholic beverage"
Keywords:"Alcoholic Beverages/analysis Bacteria/classification Carbon/*metabolism Cresols/*chemistry/*metabolism Ethanol Fermentation Fermented Foods/*microbiology Flavoring Agents Glucose Lactic Acid Microbiota/*physiology Odorants RNA, Ribosomal, 16S Substrate Sp;"
Notes:"MedlineJi, Mei Du, Hai Xu, Yan eng Research Support, Non-U.S. Gov't Canada 2020/04/26 Food Res Int. 2020 Jun; 132:109049. doi: 10.1016/j.foodres.2020.109049. Epub 2020 Feb 7"

 
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