Substrate specificity of type III flagellar protein export in Salmonella is controlled by subdomain interactions in FlhB

Fraser, Gillian M. ; Hirano, Takanori ; Ferris, Hedda U. ; Devgan, Lara L. ; Kihara, May ; Macnab, Robert M.

Oxford, UK : Blackwell Science Ltd
Published 2003
ISSN:
1365-2958
Source:
Blackwell Publishing Journal Backfiles 1879-2005
Topics:
Biology
Medicine
Notes:
FlhB, an integral membrane protein, gates the type III flagellar export pathway of Salmonella. It permits export of rod/hook-type proteins before hook completion, whereupon it switches specificity to recognize filament-type proteins. The cytoplasmic C-terminal domain of FlhB (FlhBC) is cleaved between Asn-269 and Pro-270, defining two subdomains: FlhBCN and FlhBCC. Here, we show that subdomain interactions and cleavage within FlhB are central to substrate-specificity switching. We found that deletions between residues 216 and 240 of FlhBCN permitted FlhB cleavage but abolished function, whereas a deletion spanning Asn-269 and Pro-270 abolished both. The mutation N269A prevented cleavage at the FlhBCN–FlhBCC boundary. Cells producing FlhB(N269A) exported the same amounts of hook-capping protein as cells producing wild-type FlhB. However, they exported no flagellin, even when the fliC gene was being expressed from a foreign promoter to circumvent regulation of expression by FlgM, which is itself a filament-type substrate. Electron microscopy revealed that these cells assembled polyhook structures lacking filaments. Thus, FlhB(N269A) is locked in a conformation specific for rod/hook-type substrates. With FlhB(P270A), cleavage was reduced but not abolished, and cells producing this protein were weakly motile, exported reduced amounts of flagellin and assembled polyhook filaments.
Type of Medium:
Electronic Resource
URL: