Influence of culture medium pH on growth, aggregation, and biofilm formation of Xylella fastidiosa.

The major feature of Xylella fastidiosa growing in its hosts, as well as in culture media, is its cellular aggregation and biofilm formation, leading to partial obstruction of the xylem causing water stress in the plant. We report that growth, aggregation, and biofilm formation of X. fastidiosa are influenced by the medium pH. We have verified that X. fastidiosa cell aggregation is reversibly inhibited by decreasing the medium pH from 6.6 to 6.4. Biofilm formation on glass walls was affected as well, and a concomitant decrease in cell multiplication was observed below pH 6.4. The manipulation of culture medium pH can be used as a tool for the cloning of X. fastidiosa strains isolated from plant hosts, because different strains can inhabit the same plant. Also, X. fastidiosa mutants produced by gene manipulation can be isolated from cell aggregates containing transformed and untransformed cells.

A suitable Xylella fastidiosa CVC strain for post-genome studies.

The genome sequence of the pathogen Xylella fastidiosa Citrus Variegated Chlorosis (CVC) strain 9a5c has revealed many genes related to pathogenicity mechanisms and virulence determinants. However, strain 9a5c is resistant to genetic transformation, impairing mutant production for the analysis of pathogenicity mechanisms and virulence determinants of this fastidious phytopathogen. By screening different strains, we found out that cloned strains J1a12, B111, and S11400, all isolated from citrus trees affected by CVC, are amenable to transformation, and J1a12 has been used as a model strain in a functional genomics program supported by FAPESP (São Paulo State Research Foundation). However, we have found that strain J1a12, unlike strains 9a5c and B111, was incapable of inducing CVC symptoms when inoculated in citrus plants. We have now determined that strain B111 is an appropriate candidate for post-genome studies of the CVC strain of X. fastidiosa.