The pathogenic species of the genus Yersinia (Yersinia pestis, Y. enterocolitica, and Y. pseudotuberculosis) cause infections of highly varied severity in humans. Y. pestis causes plague and is transmitted by flea bites or infectious aerosols, whereas Y. enterocolitica and Y. pseudotuberculosis are enteric pathogens that cause gastroenteritis after the ingestion of contaminated food or water (for reviews, see references 9 and 35). Still, the virulence mechanisms of the different species show a lot of similarities. One such similarity is the ability to inhibit phagocytosis, which enables the pathogens to replicate in lymphoid tissues. This is conferred by an ca. 70-kb plasmid that is required for virulence in all three species. The plasmid encodes a type III secretion system (TTSS) that delivers antihost proteins or virulence effectors called Yops (Yersinia outer proteins) into the cytosol of eukaryotic cells (12, 13). Yop secretion is normally triggered by eukaryotic cell contact (36, 37), but it can also be induced in vitro by growing the bacteria in calcium-depleted medium at 37°C (13).TTSSs are found in several gram-negative animal and plant pathogens (20, 39). The overall mechanism of secretion appears to be conserved in the different systems. Typically, 20 to 25 proteins are required to assemble a functional secretion system. Nine of these proteins are conserved not only in the TTSSs of different pathogens but also in the bacterial flagellar export apparatus (for reviews, see references 1, 20, and 25). For several animal pathogens, the type III secretion organelle, also referred to as the secreton, has been isolated and analyzed (5,6,21,22,40,44). The basal body of this structure possesses two sets of rings resembling the flagellar basal body. The components common to the virulence associated and the flagellar TTSS are believed either to associate with the cytoplasmic face of the basal body-like structure or to form a pore in the inner membrane ring (15,42). A common feature of secretons isolated so far is a needle-like structure that protrudes from the ring structure located in the outer membrane. This needle is required for secretion, suggesting that the combination of the basal portion and needle extension (needle complex) constitutes an intact secretion organelle (5,6,21,22,40,44). In Yersinia spp. the needle-like structure is comprised of the YscF protein and localizes to the bacterial cell surface prior to eukaryotic cell contact (18; P. Edqvist, J. Olsson, M. Lavander, L. Sundberg, Å. Forsberg, H. Wolf-Watz, and S. Lloyd, unpublished data).The proteins forming the actual secretion apparatus are believed to somehow identify the type III secretion substrates to enable their secretion through the basal body-like structure. One key protein in the export of flagellar components is FlhB, a membrane protein with a large cytoplasmic C-terminal domain (29,30). YscU, the corresponding protein of the TTSS of Yersinia spp. has also been shown to localize to the cytoplasmic membrane (3). The flagellum is a tripar...