The cytoplasmic membrane proteins XpsL, XpsM and XpsN are components required for type II secretion in Xanthomonas campestris pv. campestris. We performed metal-chelating chromatography to partially purify the His(6)-tagged XpsM (XpsMh)-containing complex. Immunoblot analysis revealed that both XpsL and XpsN co-eluted with XpsMh. The co-fractionated XpsL and XpsN proteins co-immune precipitated with each other, suggesting the existence of an XpsL-XpsM-XpsN complex. Ternary complex formation does not require other Xps protein components of the type II secretion apparatus. Further purification upon size-exclusion chromatography revealed that XpsN is prone to dissociate from the complex. Reassociation of XpsN with the XpsL-XpsMh complex immobilized on a nickel column is more effective than with XpsMh alone. Membrane-mixing experiments suggested that the XpsL-XpsMh complex and XpsN probably dissociate and reassociate in the membrane vesicles. Comparison of the half-lives of the XpsL-XpsMh-XpsN and XpsL-XpsMh complexes revealed that XpsL dissociates from the latter at a faster rate than from the former. Dissociation and reassociation between XpsL and XpsM were also demonstrated with membrane-mixing experiments. A dynamic model is proposed for the XpsL-XpsM-XpsN complex.
