3A) and

3A) and Nutlin-3a mw nod gene activation (Fig. 3B) induced by L. japonicus root exudates. This indicates that the main source of the observed

Ca2+ response is the extracellular medium, and that the elevation in [Ca2+]i is required for nod gene induction. Cell viability, monitored by the BacLight Bacterial viability assay, was not altered by incubation with the Ca2+ chelator (Fig. 3C). The expression of both constitutive (glutamine synthetase II and 16S rRNA) and inducible (aequorin) genes was not significantly affected by EGTA treatment (Fig. 3D and 3E), ruling out possible general effects of extracellular Ca2+ chelation on gene induction. Figure 3 Effect of EGTA on the Ca 2+ response and nod gene expression induced by L. japonicus exudates. A, M. loti cells were treated with L. japonicus root exudates

(black trace) or pretreated with 5 mM EGTA 10 min find more before adding L. japonicus root exudates (grey trace). B, Top: RT-PCR analysis of control cells (lane 1), cells treated for 1 h with L. japonicus root exudates (lane 2) and cells pretreated with 5 mM EGTA AZD0156 order 10 min before treatment with L. japonicus exudates (lane 3). Bottom: Relative percentage of nod gene induction in response to L. japonicus exudates in M. loti cells pretreated (striped bars) or not (black bars) with 5 mM EGTA. Normalization of transcript abundance was done against 16S rRNA. Data are the means ± SEM of three independent experiments. C, Viability, monitored with the BacLight selleck products Bacterial Viability kit, of M. loti cells in control conditions or incubated with 5 mM EGTA for 1 h 10 min. As positive control, cells were treated with 70% isopropanol. Live cells fluoresce green, dead cells fluoresce red. Bar = 10 μm. D,

Top: RT-PCR analysis of the expression of the housekeeping gene glutamine synthetase II (GSII) in M. loti cells in the absence (-) or presence (+) of 5 mM EGTA. Bottom: Relative transcript abundance of GSII was normalized against 16S rRNA. Bars represent SEM. E, Top: RT-PCR analysis of the inducible aequorin (aeq) gene in M. loti cells in the absence (-) or presence (+) of 5 mM EGTA and 1 mM IPTG. Bottom: Relative transcript abundance of aeq was normalized against 16S rRNA. Bars represent SEM. To check host specificity of the Ca2+ signal, metabolite mixtures exuded by the non-host legumes soybean and Vicia sativa subsp. nigra were tested. After an initial rapid and steep Ca2+ rise (1.77 ± 0.34 μM), shared also by the response to L. japonicus root exudates, the Ca2+ transients triggered by non-host exudates show very different kinetics, such as a slow rate of decay of the Ca2+ level (Fig. 4A versus Fig. 2B). Pretreatment with EGTA also blocked these transient Ca2+ elevations (data not shown). The distinct Ca2+ signature activated by non-host legumes, together with the lack of activation of nod genes (Fig. 4B), suggests the possibility of Ca2+-mediated perception by M.

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