Rhizoplane colonisation of peas by Rhizobium leguminosarum bv. viceae and a deleterious Pseudomonas putida.

Pseudomonas putida strain A313, a deleterious rhizosphere bacterium, reduced pea nitrogen content when inoculated alone or in combination with Rhizobium leguminosarum bv. viceae on plants in the presence of soil under greenhouse conditions. When plants were grown gnotobiotically in liquid media, mixed inocula of A313 and rhizobia gave a higher proportion of small evenly distributed nodules when compared with a single rhizobial inoculation. In addition, the rhizobial root establishment was reduced by A313 irrespective of inoculum density, indicating that A313 has the capacity to interact with the early rhizobial infection process. When pea seedlings were simultaneously inoculated with A313 and rhizobia, A313 colonised the root hairs to the same extent as the rhizobia, according to analysis by immunofluorescence microscopy. This suggests that the root hair colonisation trait of P. putida interferes with the onset of the symbiotic process.

Indirect immunofluorescence colony staining method for detecting bacterial pathogens of tomato.

An indirect immunofluorescence colony staining method was developed for the detection of important seed-borne bacterial pathogens of tomato. The method involves the use of specific antiserum for initial binding of target bacteria and visualization of positive colonies with a commercially available secondary antiserum conjugated with FITC and observed under a fluorescence microscope. The indirect method is especially suitable for laboratories, seed companies, and quarantine stations which have no facilities for conjugation of primary antiserum. It is more economical and overcomes the problems generally encountered with variable conjugate quality in new batches of conjugates prepared from the same stock of primary antiserum. The assay is easy to perform and results can be easily assessed by visual scoring or image analyser. Results are available in 4-5 days as compared to 30-45 days in traditional methods. The resulting bacterial culture can be tested by PCR or host infectivity and a culture can be stored for future reference. Used in combination with highly specific antibodies (commercially available monoclonal and recombinant antibodies) it can be used as a very sensitive detection tool and has application potential in localization studies as well. Choosing the right secondary conjugate is however necessary to get best results in the assay.