溶藻弧菌trkAH基因簇的克隆及Trk钾离子摄取系统的特性分析

Cloning of the trkAH gene cluster and characterization of the Trk K(+)-uptake system of Vibrio alginolyticus.

作者信息

Nakamura Tatsunosuke, Yamamuro Naoya, Stumpe Stefan, Unemoto Tsutomu, Bakker Evert P

机构信息

Laboratory of Membrane Biochemistry, Faculty of Pharmaceutical Science, Chiba University1-33 Yayoi-cho, Inage-ku, Chiba 263Japan.

Abteilung Mikrobiologie, Universität OsnabrückD-49069 OsnabrückGermany.

出版信息

Microbiology (Reading). 1998 Aug;144 ( Pt 8):2281-2289. doi: 10.1099/00221287-144-8-2281.

DOI:10.1099/00221287-144-8-2281

PMID:9720051

Abstract

K(+)-uptake genes of Vibrio alginolyticus were identified by cloning chromosomal DNA fragments of this organism into plasmids, followed by electroporation and selection for growth at low K+ concentrations of cells of an Escherichia coli strain defective in K+ uptake. A 4.1 kb DNA fragment contained a cluster of three ORFs on the same DNA strand: the previously identified trkA gene, a gene similar to E. coli trkH (V. alginolyticus trkH) and a new gene, orf1, whose function is not clear. Products of V. alginolyticus trkA and orf1 were detected in E. coli minicells. trkA and trkH from V. alginolyticus restored growth at low K+ concentrations of an E. coli delta trkA and an E. coli delta trkG delta trkH strain, respectively, suggesting that these V. alginolyticus genes can functionally replace their E. coli counterparts. In addition, a plasmid containing V. alginolyticus trkAH permitted growth of an E. coli delta sapABCDF (delta trkE) strain at low K+ concentrations. This effect was mainly due to V. alginolyticus trkH and was enhanced by trkA from this organism. Measurements of net K(+)-uptake rates indicated that the presence of these genes in E. coli renders the Trk systems independent of products from the E. coli sapABCDF (trkE) operon.

摘要

通过将溶藻弧菌的染色体DNA片段克隆到质粒中，随后进行电穿孔，并在低钾浓度下筛选一株钾摄取缺陷的大肠杆菌菌株的细胞生长情况，从而鉴定出溶藻弧菌的钾离子摄取基因。一个4.1 kb的DNA片段在同一条DNA链上包含三个开放阅读框（ORF）簇：先前鉴定的trkA基因、一个与大肠杆菌trkH相似的基因（溶藻弧菌trkH）以及一个功能尚不清楚的新基因orf1。在大肠杆菌小细胞中检测到了溶藻弧菌trkA和orf1的产物。溶藻弧菌的trkA和trkH分别恢复了大肠杆菌ΔtrkA菌株和大肠杆菌ΔtrkGΔtrkH菌株在低钾浓度下的生长，这表明这些溶藻弧菌基因在功能上可以替代它们在大肠杆菌中的对应基因。此外，一个含有溶藻弧菌trkAH的质粒使大肠杆菌ΔsapABCDF（ΔtrkE）菌株在低钾浓度下能够生长。这种效应主要归因于溶藻弧菌的trkH，并且该菌株的trkA增强了这种效应。净钾离子摄取速率的测量表明，这些基因在大肠杆菌中的存在使Trk系统独立于大肠杆菌sapABCDF（trkE）操纵子的产物。

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溶藻弧菌trkAH基因簇的克隆及Trk钾离子摄取系统的特性分析

Cloning of the trkAH gene cluster and characterization of the Trk K(+)-uptake system of Vibrio alginolyticus.

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