Brachyspira ( Serpulina ) hyodysenteriae gyrB Mutants and Interstrain Transfer of Coumermycin A 1 Resistance

Abstract

ABSTRACT To further develop genetic techniques for the enteropathogen Brachyspira hyodysenteriae , the gyrB gene of this spirochete was isolated from a λZAPII library of strain B204 genomic DNA and sequenced. The putative protein encoded by this gene exhibited up to 55% amino acid sequence identity with GyrB proteins of various bacterial species, including other spirochetes. B. hyodysenteriae coumermycin A 1 -resistant (Cn r ) mutant strains, both spontaneous and UV induced, were isolated by plating B204 cells onto Trypticase soy blood agar plates containing 0.5 μg of coumermycin A 1 /ml. The coumermycin A 1 MICs were 25 to 100 μg/ml for the resistant strains and 0.1 to 0.25 μg/ml for strain B204. Four Cn r strains had single nucleotide changes in their gyrB genes, corresponding to GyrB amino acid changes of Gly 78 to Ser (two strains), Gly 78 to Cys, and Thr 166 to Ala. When Cn r strain 435A (Gly 78 to Ser) and Cm r Km r strain SH (Δ flaA1 :: cat Δ nox :: kan ) were cultured together in brain heart infusion broth containing 10% (vol/vol) heat-treated (56°C, 30 min) calf serum, cells resistant to chloramphenicol, coumermycin A 1 , and kanamycin could be isolated from the cocultures after overnight incubation, but such cells could not be isolated from monocultures of either strain. Seven Cn r Km r Cm r strains were tested and were determined to have resistance genotypes of both strain 435A and strain SH. Cn r Km r Cm r cells could not be isolated when antiserum to the bacteriophage-like agent VSH-1 was added to cocultures, and the numbers of resistant cells increased fivefold when mitomycin C, an inducer of VSH-1 production, was added. These results indicate that coumermycin resistance associated with a gyrB mutation is a useful selection marker for monitoring gene exchange between B. hyodysenteriae cells. Gene transfer readily occurs between B. hyodysenteriae cells in broth culture, a finding with practical importance. VSH-1 is the likely mechanism for gene transfer.