Each Caulobacter crescentus cell division generates distinct progeny cells: a stalked cell which is competent for DNA replication, and a motile swarmer cell which initiates DNA replication only after it sheds its flagellum and differentiates into a stalked cell later in the cell cycle. Following the initiation of DNA replication, the flagellar transcriptional hierarchy is activated, culminating in the assembly of a single flagellum at the cell pole opposite that bearing the stalk. The biogenesis of the flagellum is a landmark in the establishment of asymmetry in the predivisional cell (Fig. 1).A large number of the flagellar structural and regulatory genes have been grouped into classes (Fig. 1) that form a regulatory hierarchy (7,9,11,43,62). We have preliminary evidence that the class I genes respond to cell cycle cues (44a). The class II flagellar genes are transcribed early in the cell cycle and are required for the transcription of genes in classes III and IV. Two class II genes, rpoN and flbD, encode a sigma factor ( 54 ) (6), and a transcriptional activator, FlbD (45, 60), respectively, which are required directly for the transcription of class III and class IV genes. Other class II genes encode proteins required for flagellar assembly and function (24, 45a, 65). The order of flagellar gene expression approximates the order of assembly of the gene products into the nascent structure (11,13,17,43,62). In C. crescentus, Salmonella typhimurium, and Escherichia coli, if flagellar assembly is aborted, transcription of the remaining flagellar genes is blocked, suggesting that the two processes are coupled (19,23,24,31).We reported previously that a nonmotile mutant with a deletion in the flaS locus not only diminished or abolished the transcription of class III and class IV genes but also exhibited a cell division defect (13). To understand the role of this class II flaS locus in the assembly of the flagellum and in cell divi- At each division, a predivisional cell gives rise to two different progeny, a stalked cell and a motile swarmer cell. As the cell cycle proceeds, the swarmer cell sheds its flagellum and assembles a stalk at the previously flagellated pole. The new stalked cell begins to divide, assembling a new flagellum at the pole opposite the stalk. The flagellar genes are expressed in an order that reflects their positions in the regulatory hierarchy and the order of assembly of their protein products into the flagellum (7,42). Arrows indicate positive regulation, such that transcription of each class of genes requires the expression of the gene products of the preceding class. Both rpoN and flbD encode transcription proteins (6, 45), whereas other class II genes appear to encode proteins involved in the assembly, structure, and function of the flagellum (24, 65).
