李斯特菌 betL σ(A)-依赖性启动子中的单点突变可提高耐渗透压和耐冷性，并在高渗透压下导致形态改变。

A single point mutation in the listerial betL σ(A)-dependent promoter leads to improved osmo- and chill-tolerance and a morphological shift at elevated osmolarity.

机构信息

Alimentary Pharmabiotic Centre; University College Cork; Cork, Ireland; Department of Biological Sciences; Cork Institute of Technology; Cork, Ireland.

Alimentary Pharmabiotic Centre; University College Cork; Cork, Ireland.

出版信息

Bioengineered. 2013 Nov-Dec;4(6):401-7. doi: 10.4161/bioe.24094. Epub 2013 Mar 11.

DOI:10.4161/bioe.24094

PMID:23478432

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3937201/

Abstract

Betaine uptake in Listeria monocytogenes is mediated by three independent transport systems, the simplest of which in genetic terms is the secondary transporter BetL. Using a random mutagenesis approach, based on the E. coli XL1 Red mutator strain, we identified a single point mutation in a putative promoter region upstream of the BetL coding region which leads to a significant increase in betL transcript levels under osmo- and chill-stress conditions and a concomitant increase in stress tolerance. Furthermore, the mutation appears to counter the heretofore unreported "twisted" cell morphology observed for L. monocytogenes grown at elevated osmolarities in tryptone soy broth.

摘要

贝塔因在李斯特菌中的摄取由三个独立的运输系统介导，从遗传角度来看最简单的是次级转运体 BetL。我们使用基于大肠杆菌 XL1 Red 诱变菌株的随机诱变方法，在 BetL 编码区上游的假定启动子区域中鉴定出单个点突变，该突变导致在渗透和冷藏应激条件下贝塔因转录本水平显著增加，并伴随应激耐受性增加。此外，该突变似乎抵消了迄今未报道的在含有胰蛋白胨大豆肉汤的高渗透压下生长的李斯特菌中观察到的“扭曲”细胞形态。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b077/3937201/d69a57a2658e/bbug-4-401-g2.jpg

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李斯特菌 betL σ(A)-依赖性启动子中的单点突变可提高耐渗透压和耐冷性，并在高渗透压下导致形态改变。

A single point mutation in the listerial betL σ(A)-dependent promoter leads to improved osmo- and chill-tolerance and a morphological shift at elevated osmolarity.

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