The nprE gene, which is mainly expressed during early stationary phase, encodes extracellular neutral protease involved in
degradation of proteins and peptides. The peptidase ClpP, encoded by the clpP gene, can associate with the ATPases ClpC, ClpE, and ClpX, thereby forming a substrate specific channel for several regulatory proteins directing spore formation or selleck compound genetic competence in bacilli. RBAM00438 is a member of the aldo-keto reductases (AKRs) superfamily of soluble NAD(P)(H) oxidoreductases whose chief purpose is to reduce aldehydes and ketones to primary and secondary alcohols. At present, it remains questionable if those gene products are linked with any specific process triggered by the IE. The number of the genes obtained was much less than expected. We conclude that possible differences between the transcriptome responses to these two exudate samples are either very rare or too subtle to be revealed sufficiently by two-color microarrays. One drawback of the present investigation is that some effects of the root exudates
may have been masked by components of the 1 C medium and therefore did not result in altered gene GS-4997 expression. On the other hand, using 0.25 mg exudates per ml medium, some components in the exudates may have been diluted to a level at which they no longer show detectable effect on bacterial gene expression. It has been reported that the rhizosphere is a very heterogeneous soil volume, with some regions being “hotspots” of root exudation and bacterial colonization. In natural environments, bacterial populations are likely to be exposed to different Mephenoxalone concentration of exudates along the root axis [68, 69]. It needs to be mentioned that the exudates used in this study were a pooled mixture of the samples collected within seven days from maize roots (see Methods). It has not yet been described to which extent the composition of root exudates is affected by the developmental stage of a plant [70] and therefore the selleck chemicals presented bacterial
responses cannot be assigned to a particular physiological state of the host plant. This question may be addressed by performing bacterial transcriptome analyses in response to exudates collected at different time points during plant development. Such an approach may be helpful to elucidate the progression of the plant-bacteria association during the plant development. In summary, this microarray work reflects the interactions between a Gram-positive rhizobacterium and its host plant in a genome-scale perspective. Critical target genes and pathways for further investigations of the interaction were identified. Given the limited reports on transcriptomic analysis of rhizobacteria in response to their host plants [13–15], the results provided a valuable insight into PGPR behaviour in the rhizosphere.