Browsing by Subject "Nutrient deficiency"
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Publication Transcriptional profiling of Bacillus amyloliquefaciens FZB42 in response to seed and root exudates collected under different nutrient regimes(2010) Carvalhais Costa, Lilia; von Wirén, NicolausPlant growth-promoting rhizobacteria (PGPR) live in close association with plants and improve their growth. Bacillus amyloliquefaciens strain FZB42 is a prominent plant root-colonizing bacterium that is able to stimulate the growth of maize. To decipher the molecular cross-talk between B. amyloliquefaciens and crop plants, an exploratory analysis of the effect of seed and root exudates on the transcriptome of Bacillus amyloliquefaciens FZB42 was performed. Root exudates were collected from maize plants grown in an axenic hydroponic system under nutrient sufficiency or under deficient supply of nitrogen (N), phosphorus (P), iron (Fe) or potassium (K). An analysis of primary metabolites in the exudates was carried out, compared between treatments, and correlated with the transcriptional profiles of Bacillus amyloliquefaciens FZB42 that were gained after incubation of the bacterial culture with the root exudates. Higher exudation rates of citrate were found under Fe deficiency and greater release of ã-amino butyric acid under P deficiency. Based on a negative correlation observed between the average diffusion coefficient of N, P, K, and Fe in soils and the exudation rates of primary metabolites under conditions of N, P, K, or Fe deficiency, it was hypothesized that the exudation of sugars, amino acids and organic acids may reflect the availability and mobility of plant nutrients in soils. In the presence of seed and root exudates collected from nutrient-sufficient plants, genes involved in spore germination, transport and utilization of nutrients, biosynthesis pathways, multidrug transporters, motility and competence development were differentially expressed. In comparison to P, Fe and K, N-deficient maize root exudates caused a more distinguished change in the transcriptome of bacteria when they were in the logarithmic growth phase. During this growth phase, a number of genes coding for ribosomal proteins were down-regulated by N-deficient maize root exudates, indicating that bacterial activity was repressed. Exclusively in the presence of P-deficient maize root exudates, several genes associated to bacterial motility were induced. Moreover, a gene involved in the biosynthesis of the auxin precursor tryptophan was up-regulated by all deficiency treatments. In the transitional growth phase of Bacillus amyloliquefaciens FZB42, several genes were commonly down-regulated in different deficiency treatments. This finding is in agreement with previous studies showing that quorum-sensing and starvation-sensing are integrated to regulate cell entry into the transient phase. Taken together, this is the first study comparing the effect of different nutrient deficiencies on the composition of primary metabolites in root exudates of one plant species and evaluating systematically the transcriptional response of a Gram-positive PGPR to seed and root exudates collected from plants grown under different nutrient regimes. This analysis provides new information about the early communication between plant roots and PGPR and points to involved genes and processes that merit further investigation.