SCCAP S 352, and the two Amoebozoa Hartmannella vermiformis and P

SCCAP S 352, and the two Amoebozoa Hartmannella vermiformis and Phalansterium solitarium (SCCAP Ph 185). To make

sure, we notice that our B. caudatus and B. designis are synonymous with Parabodo caudatus PR-171 datasheet and Neobodo designis, respectively (Moreira et al., 2004), and, likewise, our C. longicauda (SCCAP C 1) and N. jutlandica (SCCAP C 161) are synonymous with Paracercomonas ekelundi and Cercomonas jutlandica (Karpov et al., 2006). All strains were originally isolated from Danish soils, and are now deposited in the Scandinavian Culture Centre for Algae and Protozoa (SCCAP), except for B. designis UJ and H. vermiformis that, regrettably, passed away. The origin of H. vermiformis is described by Vestergård et al. (2007); it was identified

according to Page (1988). Origin and identification of the other strains are accounted for by Ekelund (2002a, b), Ekelund et al. (2004), and Koch & Ekelund (2005). Clonal cultures were originally established by repeated dilution and growth on TSB (0.1 g L−1, Difco Bacto) (Ekelund, 1996). This method provides protozoan cultures on assemblages on their original food bacteria. Before experiments were begun, we used the stepwise dilution technique (Pelegri et al., 1999; Mohapatra & Fukami, 2004) to provide monoxenic cultures of our nine protozoan strains. In short, we repeatedly transferred 600 μL protozoan culture material to 9.4-mL E. aerogenes SC culture produced selleck chemicals llc as described above, and left the culture at 15 °C for 8–16 days. We repeated this procedure until no bacteria, but E. aerogenes were detectable on agar plates (0.3 g TSB mL−1 solidified with 15 g L−1 agar, detection level: 102 cells mL−1). We cultivated the previously produced monoxenic protozoan cultures on E. aerogenes for

10–14 days in cell culture flasks (Nunc A/S, Roskilde, Denmark, # 156367, Adenosine 25 cm3) in darkness, at 15 °C, until late exponential phase. We then diluted the protozoan cultures in phosphate buffer to obtain final concentrations of 2–5 × 103 protozoa mL−1. We conducted the growth experiments in 96-well microtiter plates (Costar® 3598, Corning Inc.). We amended the wells with 125 μL bacterial and 25 μL protozoan culture, produced as described above. Each particular combination of bacteria and protozoa was set up in four replicates. The microtiter plates were incubated in darkness at 15 °C and counted at regular intervals until the cell number stabilized after 8–16 days. Stabilization occurred either because the culture entered the stationary phase, in case of good food-quality bacteria, or because the protozoa stabilized without growth or simply died out. We used an inverted microscope (Olympus CK X31) equipped with a 10 × 10 counting grid to estimate protozoan cell numbers at × 200 or × 400 magnification. At each counting, we counted a minimum of 200 cells in nine to 17 microscopic fields distributed widely over the bottom of the well.

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