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四株干酪乳杆菌启动子在细菌通过人源微生物群相关小鼠胃肠道过程中的差异活性

Differential activities of four Lactobacillus casei promoters during bacterial transit through the gastrointestinal tracts of human-microbiota-associated mice.

作者信息

Oozeer R, Furet J P, Goupil-Feuillerat N, Anba J, Mengaud J, Corthier G

机构信息

Unité d'Ecologie et de Physiologie du Système Digestif, INRA, 78350 Jouy en Josas, France.

出版信息

Appl Environ Microbiol. 2005 Mar;71(3):1356-63. doi: 10.1128/AEM.71.3.1356-1363.2005.

DOI:10.1128/AEM.71.3.1356-1363.2005
PMID:15746338
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1065133/
Abstract

In a previous study using fusion of the deregulated lactose promoter lacTp* and reporter genes, we suggested that Lactobacillus casei could initiate de novo protein synthesis during intestinal transit. In order to confirm this finding and extend it to other promoters, we adopted a reverse transcriptase quantitative PCR (RT-QPCR) approach combined with a transcriptional fusion system consisting of luciferase genes under the control of four promoters (ccpA, dlt, ldh, and lacT*) from L. casei DN-114 001. Promoter expression was monitored during cell growth, and variable luciferase activities were detected. In 3-day cultures, all the genetically modified strains survived but without exhibiting luciferase activity. Luciferase mRNA levels determined by RT-QPCR analysis (RNA/CFU) were not significant. The cultures were administered to human-microbiota-associated mice, and the feces were collected 6 h later. L. casei promoters lacTp* and ldhp initiated mRNA synthesis during gastrointestinal transit. The promoters, ccpAp and dltp, exhibited no luciferase activity, nor was de novo-synthesized luciferase mRNA detected in the feces. L. casei seems to adapt its physiology to the gastrointestinal tract environment by modulating promoter activities. The approach (fecal transcriptional analysis) described herein may, moreover, be of value in studying gene expression of transiting bacteria in human fecal specimens.

摘要

在之前一项使用失调的乳糖启动子lacTp与报告基因融合的研究中,我们提出干酪乳杆菌可在肠道转运过程中起始从头蛋白质合成。为了证实这一发现并将其扩展至其他启动子,我们采用了逆转录定量PCR(RT-QPCR)方法,并结合了一个转录融合系统,该系统由来自干酪乳杆菌DN-114 001的四个启动子(ccpA、dlt、ldh和lacT)控制下的荧光素酶基因组成。在细胞生长过程中监测启动子表达,并检测到了不同的荧光素酶活性。在3天的培养物中,所有转基因菌株均存活,但未表现出荧光素酶活性。通过RT-QPCR分析(RNA/菌落形成单位)测定的荧光素酶mRNA水平不显著。将培养物接种给人源微生物群相关小鼠,并在6小时后收集粪便。干酪乳杆菌启动子lacTp*和ldhp在胃肠道转运过程中起始mRNA合成。启动子ccpAp和dltp未表现出荧光素酶活性,在粪便中也未检测到从头合成的荧光素酶mRNA。干酪乳杆菌似乎通过调节启动子活性使其生理机能适应胃肠道环境。此外,本文所述的方法(粪便转录分析)可能在研究人类粪便标本中转运细菌的基因表达方面具有价值。

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