Anaerobic regulation by an atypical Arc system in Shewanella oneidensis

Shewanella oneidensis strain MR-1 is well known for its respiratory versatility, yet little is understood about how it regulates genes involved in anaerobic respiration. The Arc two-component system plays an important role in this process in Escherichia coli; therefore, we determined its function in S. oneidensis. arcA from S. oneidensis complements an E. coli arcA mutant, but the Arc regulon in S. oneidensis constitutes a different suite of genes. For example, one of the strongest ArcA-regulated gene clusters in E. coli, sdh, is not regulated by the Arc system in S. oneidensis, and the cyd locus, which is induced by ArcA in E. coli under microaerobic conditions, is repressed by ArcA in S. oneidensis under anaerobic conditions. One locus that we identified as being potentially regulated by ArcA in S. oneidensis contains genes predicted to encode subunits of a dimethyl sulphoxide (DMSO) reductase. We demonstrate that these genes encode a functional DMSO reductase, and that an arcA mutant cannot fully induce their expression and is defective in growing on DMSO under anaerobic conditions. While S. oneidensis lacks a highly conserved full-length ArcB homologue, ArcA is partially activated by a small protein homologous to the histidine phosphotransfer domain of ArcB from E. coli, HptA. This protein alone is unable to compensate for the lack of arcB in E. coli, indicating that another protein is required in addition to HptA to activate ArcA in S. oneidensis.     

Limited functional conservation of a global regulator among related bacterial genera: Lrp in <Emphasis Type="Italic">Escherichia</Emphasis>, <Emphasis Type="Italic">Proteus</Emphasis> and <Emphasis Type="Italic">Vibrio</Emphasis>

Background  

Bacterial genome sequences are being determined rapidly, but few species are physiologically well characterized. Predicting regulation from genome sequences usually involves extrapolation from better-studied bacteria, using the hypothesis that a conserved regulator, conserved target gene, and predicted regulator-binding site in the target promoter imply conserved regulation between the two species. However many compared organisms are ecologically and physiologically diverse, and the limits of extrapolation have not been well tested. In E. coli K-12 the leucine-responsive regulatory protein (Lrp) affects expression of ~400 genes. Proteus mirabilis and Vibrio cholerae have highly-conserved lrp orthologs (98% and 92% identity to E. coli lrp). The functional equivalence of Lrp from these related species was assessed.     

Assessment of the utilization of the antisense RNA strategy to identify essential genes in heterologous bacteria

We employed an antisense RNA approach to identify essential genes common in both Gram-positive and Gram-negative bacteria by cloning a random library of Streptococcus mutans chromosomal DNA into an expression vector and transforming Escherichia coli. Twelve out of 27 E. coli transformants with growth defective phenotypes contained individual structural genes of S. mutans in the antisense orientation relative to the E. coli promoter. Thirty-three percent of these transformants (4/12) corresponded to the genes (gyrA, ileS, rplE and yihA orthologs) which are essential for bacterial viability.