, 2010). We used six different Pseudomonas strains, four of which produce well-characterized secondary metabolites that inhibit root-pathogenic fungi. Pseudomonas fluorescens DR54 produces viscosinamide: a membrane-bound cyclic lipopeptide with biosurfactant properties and broad antifungal activity (Nielsen et al., 1999; Thrane et al., selleck chemicals llc 2000). Pseudomonas fluorescens CHA0 produces various extracellular metabolites, two of them being DAPG (2,4-diacetylphloroglucinol), which causes membrane damage in fungi (Pythium) and inhibits zoospores, and pyoluteorin, which inhibits the fungal respiratory chain (Keel et al., 1992; Laville et al., 1992). Pseudomonas sp. DSS73 produces amphisin, an extracellular
cyclic lipopeptide with biosurfactant Palbociclib concentration properties and broad antifungal activity (Sørensen et al., 2001; Nielsen & Sørensen, 2003), and Pseudomonas chlororaphis MA342 produces DDR (2,3-de-epoxy-2,3-didehydro-rhizoxin), a membrane-bound compound that inhibits mitosis in eukaryotic cells (Hökeberg et al., 1997; Brendel et al., 2007). Two Pseudomonas strains, P. fluorescens type strain DSM50090T (Deutsche Sammlung von Mikroorganismen und Zellkulturen) and P. fluorescens ATCC43928 (American Type Culture Collection), produce no known antagonistic secondary metabolites. We further included the well-suited food bacterium Enterobacter aerogenes SC (Christensen
& Bonde, 1985) as a positive control, and a treatment only with phosphate buffer, but without bacteria, as a negative control. The bacteria for the protozoan growth experiments were pure cultures grown on tryptic soy broth (TSB) medium (3 g L−1, Difco Bacto, Detroit) at 22 °C for 24 h. Bacteria were then diluted 1/10 in weak phosphate buffer (‘Neff’s modified amoeba saline’; Page, 1988), which yields bacterial cultures with 5–10 × 107 cells mL−1. This approach yields
more reproducible results than if a fixed cell number (e.g. 5 × 107 cells mL−1) is used for standard comparison between cultures. This is because different bacterial cultures with similar cell numbers may vary considerably with regard to carbon content, because cell sizes differ (Lekfeldt & Rønn, 2008). Bacterial cell size depends on the growth medium. Here, all Rebamipide bacteria were cultivated on the same medium and microscopic evaluation demonstrated that differences between cell sizes were negligible. No biofilm formation was observed in the current set-up, even though both bacteria and protozoa settled at the bottom of the experimental units (data not shown). The protozoa used in the experiments belong to several very distantly related protozoan lineages (Adl et al., 2007). They included three amoeboid Rhizaria (Cercomonadida) Cercomonas longicauda (SCCAP C 1), Neocercomonas jutlandica (SCCAP C 161), and Heteromita globosa (SCCAP H 251), three non-amoeboid Excavata (Bodonidae) Bodo caudatus (SCCAP BC 330), Bodo designis (UJ), and B.