Components of the Salmonella Flagellar Export Apparatus and Classification of Export Substrates

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Journal of Bacteriology, March 1999, p. 1388-1394, Vol. 181, No. 5
0021-9193/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.

Components of the Salmonella Flagellar Export Apparatus and Classification of Export Substrates

Tohru Minamino and Robert M. Macnab^*

Department of Molecular Biophysics and Biochemistry, Yale University, New Haven, Connecticut 06520-8114

Received 29 September 1998/Accepted 11 December 1998

Until now, identification of components of the flagellar protein export apparatus has been indirect. We have now identifiedthese components directly by establishing whether mutants defectivein putative export components could translocate export substratesacross the cytoplasmic membrane into the periplasmic space. Hook-typeproteins could be exported to the periplasm of rod mutants, indicatingthat rod protein export does not have to precede hook-type proteinexport and therefore that both types of proteins belong to a singleexport class, the rod/hook-type class, which is distinct fromthe filament-type class. Hook-capping protein (FlgD) and hookprotein (FlgE) required FlhA, FlhB, FliH, FliI, FliO, FliP, FliQ,and FliR for their export to the periplasm. In the case of flagellinas an export substrate, because of the phenomenon of hook-to-filamentswitching of export specificity, it was necessary to use temperature-sensitivemutants and establish whether flagellin could be exported to thecell exterior following a shift from the permissive to the restrictivetemperature. Again, FlhA, FlhB, FliH, FliI, and FliO were requiredfor its export. No suitable temperature-sensitive fliQ or fliRmutants were available. FliP appeared not to be required for flagellinexport, but we suspect that the temperature-sensitive FliP proteincontinued to function at the restrictive temperature if incorporatedat the permissive temperature. Thus, we conclude that these eightproteins are general components of the flagellar export pathway.FliJ was necessary for export of hook-type proteins (FlgD andFlgE); we were unable to test whether FliJ is needed for exportof filament-type proteins. We suspect that FliJ may be a cytoplasmicchaperone for the hook-type proteins and possibly also for FliEand the rod proteins. FlgJ was not required for the export ofthe hook-type proteins; again, because of lack of a suitable temperature-sensitivemutant, we were unable to test whether it was required for exportof filament-type proteins. Finally, it was established that thereis an interaction between the processes of outer ring assemblyand of penetration of the outer membrane by the rod and nascenthook, the latter process being of course necessary for passageof export substrates into the external medium. During the brieftransition stage from completion of rod assembly and initiationof hook assembly, the L ring and perhaps the capping protein FlgDcan be regarded as bona fide export components, with the L ringbeing in a formal sense the equivalent of the outer membrane secretinstructure of type III virulence factor exportsystems.

^* Corresponding author. Mailing address: Department of Molecular Biophysics and Biochemistry, Yale University, New Haven, CT06520-8114. Phone: (203) 432-5590. Fax: (203) 432-9782. E-mail:robert_macnab{at}qm.yale.edu.

Journal of Bacteriology, March 1999, p. 1388-1394, Vol. 181, No. 5
0021-9193/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.

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