However, Che1-dependent signaling is shown to contribute indirectly to surface attachment, indicating that distinct mechanisms are likely underlying flocculation and attachment to surfaces in A. brasilense. Chemotaxis is a widespread function in motile soil bacteria as it affords cells with the ability to sense and to Epacadostat order navigate toward the most favorable niches

for growth (Wadhams & Armitage, 2004). At the molecular level, the chemotaxis pathway is the dedicated chemosensory signal transduction system that allows cells to couple detection of physicochemical changes in their surroundings to changes in the swimming pattern (i.e. chemotaxis). Chemotaxis signal transduction has been best studied in Escherichia coli and experimental evidence indicates that this prototypical enteric model is conserved and functions similarly (with some variations on the theme) in phylogenetically diverse motile bacteria. In addition to regulating chemotaxis responses in motile bacteria, chemotaxis-like signal transduction pathways were shown to regulate cellular behaviors other than flagellar rotation in several other bacterial species (Kirby, 2009), including the alphaproteobacterium Azospirillum brasilense, a soil diazotroph (Bible et al., 2008).

In only a few cases, however, have the molecular targets of these chemotaxis-like pathways been identified. Seliciclib supplier The A. brasilense Che1 chemotaxis-like pathway has been shown to have a minor,

and likely indirect, function in regulating chemotaxis behavior in this species (Hauwaerts et al., 2002; Bible et al., 2008; Edwards et al., 2011). Experimental evidence indicates that Che1 functions to modulate changes in adhesive cell surface properties which impact the propensity for cell-to-cell aggregation and flocculation (Bible et al., 2008). Deletions of cheA1 or cheY1, which each code for central proteins controlling the response output of the signal transduction pathway, yield cells that aggregate and flocculate more than the wild-type strain (Bible et al., 2008). A mutant strain deleted for all of the genes encoded within the che1 gene cluster has a phenotype similar to the strains lacking only CheA1 or CheY1, consistent with a role for Che1 selleckchem in regulating the ability of cells to flocculate. A strain carrying a mutation that disrupts the function of both CheB1 and CheR1 is severely impaired in flocculation, consistent with CheB1 and CheR1 functioning in a signaling feedback loop that controls chemosensory adaptation (Stephens et al., 2006; Bible et al., 2008). Other possible roles that Che1 may have on functions such as adhesion to surfaces or root colonization, have been previously proposed to be related to flocculation (Burdman et al., 2000a, b) but have not yet been investigated. The purpose of the present study was to determine the conditions under which A.