Temporal and spatial regulation of fliP, an early flagellar gene of Caulobacter crescentus that is required for motility and normal cell division

Abstract

In Caulobacter crescentus, the genes encoding a single polar flagellum are expressed under cell cycle control. In this report, we describe the characterization of two early class II flagellar genes contained in the orfX-fliP locus. Strains containing mutations in this locus exhibit a filamentous growth phenotype and fail to express class III and IV flagellar genes. A complementing DNA fragment was sequenced and found to contain two potential open reading frames. The first, orfX, is predicted to encode a 105-amino-acid polypeptide that is similar to MopB, a protein which is required for both motility and virulence in Erwinia carotovora. The deduced amino acid sequence of the second open reading frame, fliP, is 264 amino acids in length and shows significant sequence identity with the FliP protein of Escherichia coli as well as virulence proteins of several plant and mammalian pathogens. The FliP homolog in pathogenic organisms has been implicated in the secretion of virulence factors, suggesting that the export of virulence proteins and some flagellar proteins share a common mechanism. The 5' end of orfX-fliP mRNA was determined and revealed an upstream promoter sequence that shares few conserved features with that of other early Caulobacter flagellar genes, suggesting that transcription of orfX-fliP may require a different complement of trans-acting factors. In C. crescentus, orfX-fliP is transcribed under cell cycle control, with a peak of transcriptional activity in the middle portion of the cell cycle. Later in the cell cycle, orfX-fliP expression occurs in both poles of the predivisional cell. Protein fusions to a lacZ reporter gene indicate that FliP is specifically targeted to the swarmer compartment of the predivisional cell.