Caulobacter crescentus pili: Analysis of production during development

Abstract

The pili of Caulobacter crescentus are structures whose appearance is regulated during the development of the swarmer cell pole. Pili are assembled during the predivisional and swarmer cell stages, at the same time as the flagellum, and disappear as the swarmer cell differentiates into a stalked cell. Pilin is the protein which polymerizes to form the pilus. An immune precipitation assay, developed to examine the periodicity of pilin synthesis during the cell cycle, demonstrated that pilin synthesis begins in the early stalked cell and is probably completed before cell division. Thus, the entire period of synthesis occurs before the pili are clearly visible at the differentiated cell pole. Likewise, the functional stability of the pilin mRNA is relatively short, further suggesting that the protein monomers accumulate prior to assembly. Unlike the case of the flagellins, experiments with the DNA replication inhibitor hydroxyurea did not establish a correlation between the DNA replication and the onset of pilin synthesis. In addition to pilin, several other developmentally regulated proteins, including the flagellins, are reproducibly precipitated in the pilin immunoassay. Their presence in the precipitate is a specific consequence of the antipilin antibody. Analysis of the antibody preparations yielded conflicting results; electron microscopic studies with ferritin-coupled antibody and double diffusion analysis indicated no binding activity to any cell components other than pilin. However, an assay based on filter transferred preparations of electrophoresed cell proteins indicated that at least one additional class of proteins in the immune precipitate may bind pilin antibody. These results are discussed in the context of the possible formation of a discrete membrane complex in the polar region of the cell which may be involved in the regulation of spatial development in Caulobacter.