In the absence of arsenite, neither aroB nor aroA transcripts are detected even though a transcript for cytC and moeA1 is generated, suggesting that there are two separate transcriptional units under the control of two separate
promoters (Santini et al., 2007). Only a single consensus sequence for a σ54-like promoter was located upstream of aroB (Santini et al., 2007). The regulation of arsenite oxidase gene expression is poorly studied. In the closely related organism Agrobacterium tumefaciens str. 5A, which, unlike NT-26, cannot utilize arsenite as a source of energy, the genes in the homologous arsenite oxidase gene cluster [i.e. aoxA (=aroA), aoxB (=aroB) and cytC] are found within a single operon together http://www.selleckchem.com/products/Gefitinib.html with aoxR (encodes a putative transcriptional regulator) and aoxS (encodes a putative sensor histidine kinase) (Kashyap et al., 2006). The regulation of arsenite oxidation in A. tumefaciens is, however, complex such that it includes a quorum-sensing mechanism in addition to the putative two-component signal transduction system (AoxSR). In another heterotrophic arsenite-oxidizing bacterium, Ochrobactrum tritici SCII24, which also contains the arsenite oxidase gene cluster (i.e. aoxR, aoxS, aoxA, aoxB,
cytC and moeA), the aoxR is transcribed separately from aoxA (Branco et al., 2009). Most recently, a differential transcriptome
analysis was used to identify Thalidomide genes, in Herminiimonas arsenicoxydans that are involved in the NU7441 cost response to arsenite (Koechler et al., 2010). Transposon insertions into aoxR and aoxS genes resulted in a lack of arsenite oxidase expression, thus demonstrating regulation of the aox operon by the AoxRS two-component system in this heterotrophic bacterium (Koechler et al., 2010). In this report, we have identified and characterized two genes immediately upstream of the arsenite oxidase gene cluster in NT-26. We have also demonstrated that the two gene products designated AroS and AroR are essential for arsenite oxidation and comprise a classic two-component signal transduction pair that interacts through a phosphorelay reaction. NT-26 was grown aerobically with shaking (130 r.p.m.) at 28 °C in a minimal salts medium (MSM) either chemolithoautotrophically with 5 mM arsenite or heterotrophically with 0.04% yeast extract with and without 5 mM arsenite. For growth experiments, cultures were grown for 18 h and inoculated (10% inoculum) into the experimental medium (100 mL). Samples were taken periodically and the OD600 nm was determined (Santini et al., 2000). Growth experiments were performed with two replicates on two separate occasions.