淋病奈瑟菌mtr外排系统的转录调控
Transcriptional control of the mtr efflux system of Neisseria gonorrhoeae.
作者信息
Hagman K E, Shafer W M
机构信息
Department of Microbiology and Immunology, Emory University School of Medicine, Atlanta, Georgia 30322, USA.
出版信息
J Bacteriol. 1995 Jul;177(14):4162-5. doi: 10.1128/jb.177.14.4162-4165.1995.
Abstract
The capacity of Neisseria gonorrhoeae to resist structurally diverse hydrophobic agents (HAs) because of the mtr (multiple transferable resistance) efflux system was found to be regulated at the level of transcription by two distinct mechanisms. This was surmised because a deletion that removed > 90% of the coding sequence of the mtrR (multiple transferrable resistance regulator) gene or a single-base-pair deletion within a 13-bp inverted repeat sequence located in its promoter resulted in altered expression of the mtrC gene; mtrC encodes a 44-kDa membrane lipoprotein essential for the efflux of HAs. However, the single-base-pair deletion had the more significant impact on gene expression since it resulted in the loss of expression of mtrR and a threefold increase in the expression of mtrC. Hence, the mtr efflux system in gonococci is subject to both MtrR-dependent and MtrR-independent regulation, and the levels of mtrC mRNA correlate well with HA resistance levels in gonococci.
摘要
由于mtr(多重可转移耐药)外排系统,淋病奈瑟菌对结构多样的疏水剂(HA)具有耐药能力,这种能力在转录水平上受两种不同机制调控。之所以这样推测,是因为一个缺失了mtrR(多重可转移耐药调节子)基因> 90%编码序列的缺失突变,或者其启动子中一个位于13 bp反向重复序列内的单碱基对缺失,都会导致mtrC基因表达改变;mtrC编码一种44 kDa的膜脂蛋白,对HA的外排至关重要。然而,单碱基对缺失对基因表达的影响更为显著,因为它导致mtrR表达缺失,mtrC表达增加了三倍。因此,淋球菌中的mtr外排系统受MtrR依赖和MtrR非依赖两种调控,mtrC mRNA水平与淋球菌对HA的耐药水平密切相关。
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