Competitive abilities of Tn5 Tox- mutants of a rhizobacterium inhibitory to wheat growth

Antibiosis has been thought to impart a competitive advantage to soil microorganisms. A rhizobacterium of the genus Pseudomonas produces a toxin that inhibits the growth of other microorganisms and winter wheat (Triticum aestivum L.). The bacterium was mutagenized with the Tn5 transposon to obtain toxin-negative (Tox^-) mutants or was selected for its spontaneous resistance to rifampicin. Tox^- mutants were used to determine the role of the toxin in wheat root inhibition, root colonization, and rhizosphere competitiveness. Four Tox^- (loss of inhibition of both E. coli and wheat root growth) and four partial Tox⁺ (partial loss of inhibition of E. coli and wheat root growth) Tn5 mutants were isolated. Seven of the mutants had different Tn5 chromosomal insertions, which suggests that toxin production is the result of several gene loci. Competitive root-colonization abilities of the Tox^- isolates were studied in winter wheat rhizospheres using varied population levels in autoclaved and nonautoclaved soil. Toxin production did not affect the competitive abilities of these organisms with native soil microflora. Results here indicate that toxin production by these organisms is not the primary mechanism of their competitive advantage in root colonization. Thus, opportunities exist for biological control of plant-suppressive bacteria using these Tox^- strains.