基于宏转录组学分析中国浓香型白酒老窖中陈年老窖泥与退化老窖泥微生物组的差异。

Analysis of the difference between aged and degenerated pit mud microbiome in fermentation cellars for Chinese Luzhou-flavor baijiu by metatranscriptomics.

机构信息

College of Biomass Science and Engineering, Sichuan University, Chengdu, China.

Department of Liquor and Food Engineering, Sichuan Technology and Business College, Dujiangyan, China.

出版信息

J Sci Food Agric. 2021 Aug 30;101(11):4621-4631. doi: 10.1002/jsfa.11105. Epub 2021 Feb 6.

DOI:10.1002/jsfa.11105

PMID:33474773

Abstract

BACKGROUD

Chinese Luzhou-flavor baijiu (LFB) was fermented in an underground cellar, and the bottom and side of the cellar were covered with pit muds (PMs), where the metabolic activity of the microorganisms had a significant effect on the LFB quality. PMs can be divided into aged pit mud (AP) and degenerated pit mud (DP), thus, the qualities of LFB generated from AP and DP were different. In this essay, metatranscriptomics method was applied to illustrate the differences of the two PMs, as well as to search out the pivotal microorganisms and genes influencing the quality of LFB.

RESULTS

Archaea, Clostridium and some thermophilic microorganisms might bring significant effect in AP, while the active eukaryota and Anaeromyxobacter would cause degeneration in PM. Also, the metabolism of carbohydrate and amino acid were more active in AP. What is more, carbohydrate, amino acid and their derivant can produce important organic acids via the activity of the microorganisms in PMs. There were eight critical enzymes noticed in the organic acids metabolic pathway, which were more actively expressed in AP, demonstrating active expression of the critical genes related to organic acid metabolism could have a positive effect on LFB quality.

CONCLUSION

This study identified specific differences in active microorganisms, active expressed genes and the expression levels of key genes in vital metabolic pathway between AP and DP. Which may be the actual reason for the differences in the quality of LFB made from different PMs. Mastering these results will provide assistance to improve the quality of LFB. © 2021 Society of Chemical Industry.

摘要

背景

中国浓香型泸州老窖（LFB）在地下酒窖中发酵，酒窖的底部和侧面覆盖着窖泥（PMs），微生物的代谢活动对 LFB 的质量有显著影响。PMs 可分为陈化窖泥（AP）和退化窖泥（DP），因此，由 AP 和 DP 产生的 LFB 的质量不同。在本文中，应用宏转录组学方法来阐明这两种 PM 的差异，并寻找影响 LFB 质量的关键微生物和基因。

结果

古菌、梭菌和一些嗜热微生物可能在 AP 中产生显著影响，而活跃的真核生物和 Anaeromyxobacter 则会导致 PM 退化。此外，AP 中碳水化合物和氨基酸的代谢更为活跃。更重要的是，碳水化合物、氨基酸及其衍生物可以通过 PM 中微生物的活性产生重要的有机酸。在有机酸代谢途径中发现了 8 种关键酶，它们在 AP 中表达更为活跃，这表明与有机酸代谢相关的关键基因的活性表达可能对 LFB 的质量产生积极影响。

结论

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基于宏转录组学分析中国浓香型白酒老窖中陈年老窖泥与退化老窖泥微生物组的差异。

Analysis of the difference between aged and degenerated pit mud microbiome in fermentation cellars for Chinese Luzhou-flavor baijiu by metatranscriptomics.

机构信息

出版信息

BACKGROUD

RESULTS

CONCLUSION

背景

结果

结论

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