Macrolide and aminoglycoside antibiotic resistance mutations in the Bacillus subtilis ribosome resulting in temperature-sensitive sporulation

Abstract

Mutants of Bacillus subtilis resistant to various macrolide antibiotics have been isolated and characterized with respect to their sporulation phenotype and the electrophoretic mobility of their ribosomal proteins (r-proteins). Two types of major alterations of r-protein L17, one probably due to a small deletion, are found among mutants exhibiting high-level macrolide resistance. These mutants are all temperature-sensitive for sporulation (Spo^ts). Low-level resistance to some macrolides is found to be associated with minor alterations in r-protein L17. These mutations do not cause a defective sporulation phenotype. All of the macrolide resistance mutations map at the same locus within the Str-Spc region of the B. subtilis chromosome. Hence, changes in a single ribosomal protein can result in different sporulation phenotypes. Mutants resistant to the aminoglycoside antibiotics neomycin and kanamycin have been isolated. Approximately 5% of these are Spo^ts. Representative mutations, neo 162 and kan25, cause concomitant drug resistance and sporulation temperature-sensitivity and map as single-site lesions in the Str-Spc region of the chromosome. Strains bearing neo162 or kan25 are equally cross-resistant to several aminoglycoside antibiotics but show no resistance to streptomycin or spectinomycin. These mutations define a new B. subtilis drug resistance locus at which mutation can cause defective sporulation.