The dimorphic prosthecate bacteria (DPB) are ␣-proteobacteria that reproduce in an asymmetric manner rather than by binary fission and are of interest as simple models of development. Prior to this work, the only member of this group for which genome sequence was available was the model freshwater organism Caulobacter crescentus. Here we describe the genome sequence of Hyphomonas neptunium, a marine member of the DPB that differs from C. crescentus in that H. neptunium uses its stalk as a reproductive structure. Genome analysis indicates that this organism shares more genes with C. crescentus than it does with Silicibacter pomeroyi (a closer relative according to 16S rRNA phylogeny), that it relies upon a heterotrophic strategy utilizing a wide range of substrates, that its cell cycle is likely to be regulated in a similar manner to that of C. crescentus, and that the outer membrane complements of H. neptunium and C. crescentus are remarkably similar. H. neptunium swarmer cells are highly motile via a single polar flagellum. With the exception of cheY and cheR, genes required for chemotaxis were absent in the H. neptunium genome. Consistent with this observation, H. neptunium swarmer cells did not respond to any chemotactic stimuli that were tested, which suggests that H. neptunium motility is a random dispersal mechanism for swarmer cells rather than a stimulus-controlled navigation system for locating specific environments. In addition to providing insights into bacterial development, the H. neptunium genome will provide an important resource for the study of other interesting biological processes including chromosome segregation, polar growth, and cell aging.Unlike most bacteria, which reproduce by symmetric binary fission, dimorphic prosthecate bacteria (DPB) reproduce by asymmetric binary fission (e.g., Caulobacter crescentus) or budding (e.g., Hyphomonas and Hyphomicrobium species) to produce a motile swarmer cell from a nonmotile mother cell (68). The mother cell is distinguished by a presence of an appendage termed a prostheca or stalk (84), as well as generally having a holdfast that allows the cell to adhere to a surface (36). The swarmer cells, which are unable to reproduce, undergo a developmental process that results in their conversion to mother cells.The life cycle of DPB is analogous in many ways to that of dimorphic invertebrates, and this analogy is further supported by studies that have shown that the motile offspring of DPB, as in the multicellular case, are in a "juvenile" condition in which most energy is expended on motility and little on growth (26, 67). These facts suggest that DPB are good model systems for understanding the evolution and biology of dimorphic life in general.DPB are ubiquitous in both freshwater and marine environments but are found also to a lesser degree in soil (68). They are of considerable environmental interest since many Hyphomicrobium species can mineralize pollutants such as aromatic hydrocarbons (54), methyl chloride (34), and various alcohols, including metha...
