Immunofluorescence Colony-staining (IFC) for Detection and Quantification of Ralstonia (Pseudomonas) solanacearum Biovar 2 (Race 3) in Soil and Verification of Positive Results by PCR and Dilution Plating

Abstract

A procedure was developed for specific and sensitive quantitative detection of Ralstonia (Pseudomonas) solanacearum biovar 2 (race 3) in soil. It is based on immunofluorescence colony-staining (IFC) followed by confirmation of the identity of fluorescent colonies by PCR-amplification or dilution plating on a semi-selective medium, SMSA. Addition of sucrose and the antibiotics cycloheximide and crystal violet to the non-selective trypticase soy broth agar resulted in increased colony size and staining intensity of R. solanacearum in IFC. Verification of IFC-results by picking cells from IFC-positive colonies followed by dilution plating of the suspended cells on SMSA was highly efficient. The success rate was 92% and 96% with ‘spiked’ and naturally contaminated soils respectively. Several other bacterial species which cross-reacted with polyclonal antibodies in IFC also grew on SMSA and were difficult to distinguish from R. solanacearum, thereby necessitating confirmation of the results. Rapid verification of IFC-positive results directly by PCR-amplification with primers D2/B specific to division 2 of R. solanacearum had a success rate of 86% and 96% with ‘spiked’ and naturally contaminated soil samples, respectively. Primers D2/B reacted with all R. solanacearum division 2 strains, and strains of R. syzygii and the banana blood disease bacterium, but not with saprophytic bacteria cross-reacting in IFC with R. solanacearum antibodies. In comparative tests, IFC was able to detect consistently ca. 100 cfu g−1 of soil, a detection level similar to that found with direct plating on SMSA, but less laboriously, whereas detection level with a bioassay on tomato plants was only 104−105 cfu g−1 of soil.