Assembly of the long helical filament of the bacterial flagellum requires polymerisation of ca 20,000 flagellin (FliC) monomeric subunits into the growing structure extending from the cell surface. Here, we show that export of Salmonella flagellin is facilitated specifically by a cytosolic protein, FliS, and that FliS binds to the FliC C-terminal helical domain, which contributes to stabilisation of flagellin subunit interactions during polymerisation. Stable complexes of FliS with flagellin were assembled efficiently in vitro, apparently by FliS homodimers binding to FliC monomers. The data suggest that FliS acts as a substrate-specific chaperone, preventing premature interaction of newly synthesised flagellin subunits in the cytosol. Compatible with this view, FliS was able to prevent in vitro polymerisation of FliC into filaments. (C) 2001 Academic Press. [References: 41]
展开▼
机译:iExport Australia-为出口商提供以下服务的在线平台/应用程序:出口电子商务出口拍卖在线与服务提供商进行出口相关的服务请求和投标与服务提供商的集成与货运和货运的报价集成到政府机构和海关/边境的在线文件和电子提交澳大利亚– EDI / Web Services与GS1集成在一起,用于对出口工作台进行编号和条形码编码,以管理每个出口的所有与出口,交货和银行有关的任务出口相关的潜在客户和联系人管理出口市场AI和工具
