To further develop genetic techniques for the enteropathogen Brachyspira hyodysenteriae, the gyrB gene of this spirochete was isolated from a ZAPII 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 A₁-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 A₁/ml. The coumermycin A₁ 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 Gly₇₈ to Ser (two strains), Gly₇₈ to Cys, and Thr₁₆₆ to Ala. When Cn^r strain 435A (Gly₇₈ to Ser) and Cm^r Km^r strain SH (flaA1::cat 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 A₁, 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.