To address this
issue, we incubated live or killed A. macleodii cells with 55Fe, and we subsequently tested whether the Ti-citrate-EDTA wash induces 55Fe leakage (Fig. 1, steps a + d and c). We therefore determined the cellular 55Fe quota (i.e. the activity per cell) for washed and unwashed live and killed cells, based on the radioactivity measured on the filter and the bacterial abundance determined by flow cytometry (Table 1a). selleck chemical For each biological replicate, we calculated the difference in the 55Fe quota between unwashed and washed cells and we compared by t-test these differences obtained for live and killed cells. No significant difference between live and killed cells (t-test, P = 0.06) was detectable. These results demonstrate that the washing step with the Ti-citrate-EDTA solution does not induce leakage of intracellular 55Fe. The application of CARD-FISH requires
fixation of bacterial cells with PFA. In the present study, this fixation step was performed prior to the washing with Ti-citrate-EDTA (Fig. 1, step b). The loss of intracellular radiotracers due to the treatment of cells with fixatives was reported in several studies (Silver & Davoll, 1978; Larsen et al., 2008). Tang & Morel (2006) observed that the fixation of this website diatoms (T. weissflogii) with glutaraldehyde resulted in a loss of 90% of 14C-labeled methylamine, a substrate that is taken up, but not assimilated by diatoms. By contrast, negligible loss of intracellular 55Fe was observed in the same study (Tang & Morel, 2006). To investigate whether fixation results in the loss of intracellular 55Fe of
bacterial cells, we tested the Farnesyltransferase two different fixatives PFA and FA on A. macleodii cells labeled with 55Fe (Fig. 1, steps b + d and a + d). Our results demonstrate that the fixation of bacterial cells for 4 h does not induce any significant loss of intracellular 55Fe as compared to cells that were not exposed to these fixatives (Table 1b, paired t-test, P = 0.05 and 0.11 for PFA and FA, respectively). Ti-citrate-EDTA was thus selected as the suitable reagent for 55Fe, because in addition to an excellent removal of extracellular iron without loss of radioactivity, it did not interfere with the procedure of in situ hybridization, as described below. To determine the maximum amount of cells associated with silver grains, time series were performed for each experiment. As illustrated for two time series (Fig. 2), a minimum of 4 weeks of exposure to the NTB2 emulsion was required to reach a saturation level in the fraction of DAPI cells associated with silver grains. The maximum percent cells with silver grains varied among experiments between 3% and 29% of total DAPI cells. In the control treatments, the percent DAPI cells associated with silver grains remained low (< 0.5% of total DAPI cells) over the exposure period. These microscopic observations further demonstrate the efficient removal of nonspecifically bound 55Fe.