粪肠球菌信息素诱导的表面蛋白聚集物质功能域分析
Analysis of functional domains of the Enterococcus faecalis pheromone-induced surface protein aggregation substance.
作者信息
Waters C M, Dunny G M
机构信息
Department of Microbiology, University of Minnesota Medical School, Minneapolis, Minnesota 55455, USA.
出版信息
J Bacteriol. 2001 Oct;183(19):5659-67. doi: 10.1128/JB.183.19.5659-5667.2001.
Abstract
Pheromone-inducible aggregation substance (AS) proteins of Enterococcus faecalis are essential for high-efficiency conjugation of the sex pheromone plasmids and also serve as virulence factors during host infection. A number of different functions have been attributed to AS in addition to bacterial cell aggregation, including adhesion to host cells, adhesion to fibrin, increased cell surface hydrophobicity, resistance to killing by polymorphonuclear leukocytes and macrophages, and increased vegetation size in an experimental endocarditis model. Relatively little information is available regarding the structure-activity relationship of AS. To identify functional domains, a library of 23 nonpolar 31-amino-acid insertions was constructed in Asc10, the AS encoded by the plasmid pCF10, using the transposons TnlacZ/in and TnphoA/in. Analysis of these insertions revealed a domain necessary for donor-recipient aggregation that extends further into the amino terminus of the protein than previously reported. In addition, insertions in the C terminus of the protein also reduced aggregation. As expected, the ability to aggregate correlates with efficient plasmid transfer. The results also indicated that an increase in cell surface hydrophobicity resulting from AS expression is not sufficient to mediate bacterial aggregation.
摘要
粪肠球菌的信息素诱导聚集物质(AS)蛋白对于性信息素质粒的高效接合至关重要,并且在宿主感染期间也作为毒力因子起作用。除了细菌细胞聚集外,AS还具有许多不同的功能,包括对宿主细胞的粘附、对纤维蛋白的粘附、细胞表面疏水性增加、对多形核白细胞和巨噬细胞杀伤的抗性以及在实验性心内膜炎模型中赘生物大小增加。关于AS的构效关系的信息相对较少。为了鉴定功能结构域,使用转座子TnlacZ/in和TnphoA/in在质粒pCF10编码的AS Asc10中构建了一个包含23个非极性31氨基酸插入的文库。对这些插入的分析揭示了供体 - 受体聚集所必需的一个结构域,该结构域比先前报道的更深入蛋白质的氨基末端。此外,蛋白质C末端的插入也减少了聚集。正如预期的那样,聚集能力与有效的质粒转移相关。结果还表明,AS表达导致的细胞表面疏水性增加不足以介导细菌聚集。
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