Abstract
A stalk, a single falgellum, several pili, and deoxyribonucleic acid (DNA) phage receptors are polar surface structures expressed at a defined time in the Caulobacter crescentus cell cycle. When mutants were isolated as DNA phage phiCbK-resistant or ribonucleic acid (RNA) phage phiCp2-resistant, as well as nonmotile, strains, 5 out of 30 such mutant isolates were found not to possess stalks, but did possess inactive flagella. These stalkless mutants were resistant simultaneously to both DNA and RNA phages and did not possess pili and DNA pendent stalkless mutants. All motile revertants simultaneously regained the capacity to form stalks and susceptibility to DNA and RNA phages. It is suggested that a single mutation pleiotropically affects stalk formation, flagella motility, and coordinate polar morphogenesis of pili and DNA phage receptors. The stalkless mutants grew at a generation time similar to that of the wild-type strain at 30 degrees C. Cell size and morphology of a stalkless mutant, C. crescentus CB13 pdr-819, were also similar to those of the wild-type strain, except for the absence of a stalk. In addition, the CB13 pdr-819 predivisional cells were partitioned into smaller and larger portions, indicating asymmetrical cell division, as in the wild-type strain. From these results, it is suggested that swarmer cells undergo transition to cells of a stalked-cell nature without stalk formation and that the cell cycle of the stalkless mutant proceeds in an ordered sequence similar to that defining the wild-type cell cycle.
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