Abstract
Fluoroquinolone-resistant mutants of Mycobacterium smegmatis have been obtained in vitro by using ofloxacin as a selecting agent. Two types of mutants were identified according to their quinolone resistance patterns. Type 1 showed a low level of resistance to ofloxacin (MIC of 8 micrograms/ml), whereas a high level of resistance to this drug (MICs of 32 to 64 micrograms/ml) characterized type 2. By using two oligonucleotide primers homologous to DNA sequences flanking the quinolone resistance-determining region (QRDR) in the gyrA gene of Escherichia coli and Staphylococcus aureus, a 150-bp DNA fragment was obtained by PCR amplification from total DNA of two wild-type and five mutant strains of M. smegmatis. The nucleotide sequences of the amplified fragments were determined. The deduced amino acid sequence from the wild-type strains showed ca. 79% similarity with the QRDR in the gyrase A subunit from other gram-positive and gram-negative bacteria. The DNA sequences obtained from the fluoroquinolone-resistant mutants of M. smegmatis exhibited nucleotide modifications compared with the wild-type QRDR. The QRDR from type 1 mutants had a C-T or an A-G transition leading to a change from Ala-83 to Val or Asp-87 to Gly, respectively. The QRDR from type 2 mutants had a Val-83 mutation or both Val-83 and Gly-87 mutations detected in the type 1 mutants. These results suggest that point mutations in the QRDR of the mycobacterial gyrA gene are responsible for acquired quinolone resistance in M. smegmatis.
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