Distribution of the streptomycin-resistance transposon Tn5393among phylloplane and soil bacteria from managed agricultural habitats

Abstract

The distribution of the strA–strB streptomycin-resistance (Sm^r) genes associated with Tn5393 was examined in bacteria isolated from the phylloplane and soil of ornamental pear and tomato. Two ornamental pear nurseries received previous foliar applications of streptomycin, whereas the tomato fields had no prior exposure to streptomycin bactericides. Although the recovery of culturable Sm^rbacteria was generally higher from soil, the highest occurrence of Sm^rwas observed in phylloplane bacteria of an ornamental pear nursery that received 15 annual applications of streptomycin during the previous 2 years. Twenty-two and 12% of 143 Gram-negative phylloplane and 163 Gram-negative soil isolates, respectively, contained sequences that hybridized to probes specific for the strA–strB Sm^rgenes and for the transposase and resolvase genes of Tn5393. These sequences were located on large plasmids (>60 kb) in 74% of the isolates. The 77 Sm^rGram-positive bacteria isolated in the present study showed no homology to the Tn5393-derived probes. Although the repeated use of a single antibiotic in clinical situations is known to favor the development of strains with resistance to other antibiotics, we found no evidence that intensive streptomycin usage in agricultural habitats favors the development of resistance to tetracycline, an antibiotic also registered for disease control on plants. The detection of Tn5393 in bacteria with no prior exposure to streptomycin suggests that this transposon is indigenous to both phylloplane and soil microbial communities.Key words: streptomycin, tetracycline, antibiotic resistance, phylloplane, transposon.