Yaoling Wu, Fei Hao, Xibin Lv, Biduan Chen, Yubo Yang, Xianglian Zeng, Fan Yang, Heyu Wang, Li Wang
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引用次数: 8
Abstract
ABSTRACT Maotai-flavor liquor, derived from a multi-stage solid fermentation process, is one of the most popular liquors in China. Its quality and flavor are closely related to diverse lactic acid bacteria (LAB). It is therefore significant to characterize LAB for the manufacturing of Maotai-flavor liquor. In this study, LAB in solid state fermentation stages were analyzed through high-throughput sequencing and cultivation-dependent methods during the fermentation process. In total, 65 LAB species were identified in the fermented matrix, showing a much higher LAB diversity than other types of Chinese liquor. In addition, discrepancies were found to exist in the dominant LAB community structures during different fermentation stages, and strains of the Lactobacillus genus were found to be the most dominant LAB. Furthermore, 33 LAB species were identified from the fermentation matrix through the cultivation and 16 S rRNA analysis of single isolates, thus representing 50.8% coverage of the detected LAB species. The relative abundance of isolated LAB in the total abundance of LAB was 95.9% during the fermentation process. In doing so, Lac2 and Lac13, two potentially new LAB species, were isolated. To the best of our knowledge, this study represents the identification of the highest number of LAB species by cultivation-dependent methods from fermented grains of Chinese liquor. In summary, this study monitored the LAB species composition of solid fermented matrix during the fermentation of Maotai-flavor liquor and has highlighted the potential importance of the higher abundance of LAB and the effect it has on the unique flavor of Maotai liquor.
期刊介绍:
Food Biotechnology is an international, peer-reviewed journal that is focused on current and emerging developments and applications of modern genetics, enzymatic, metabolic and systems-based biochemical processes in food and food-related biological systems. The goal is to help produce and improve foods, food ingredients, and functional foods at the processing stage and beyond agricultural production.
Other areas of strong interest are microbial and fermentation-based metabolic processing to improve foods, food microbiomes for health, metabolic basis for food ingredients with health benefits, molecular and metabolic approaches to functional foods, and biochemical processes for food waste remediation. In addition, articles addressing the topics of modern molecular, metabolic and biochemical approaches to improving food safety and quality are also published.
Researchers in agriculture, food science and nutrition, including food and biotechnology consultants around the world will benefit from the research published in Food Biotechnology. The published research and reviews can be utilized to further educational and research programs and may also be applied to food quality and value added processing challenges, which are continuously evolving and expanding based upon the peer reviewed research conducted and published in the journal.