Jb. Cheng et al., THE CHROMOSOMAL TETRACYCLINE RESISTANCE LOCUS OF BACILLUS-SUBTILIS ENCODES A NA+ H+ ANTIPORTER THAT IS PHYSIOLOGICALLY IMPORTANT AT ELEVATED PH/, The Journal of biological chemistry, 269(44), 1994, pp. 27365-27371
The chromosomal tetB(L) gene of Bacillus subtilis encodes a transporte
r that catalyzes Na+/H+ antiport even more actively than tetracycline/
H+ antiport, as shown by assays of membrane antiporter activity upon t
ransformation of Na+/H+ antiporter-deficient Escherichia coli with the
cloned gene; the transformation results in a substantial increase in
Na+ resistance as well as detectable resistance to low tetracycline co
ncentrations. Transpositional disruption of the chromosomal tetB(L) lo
cus of B. subtilis led to reduced rates of electrogenic Na+ efflux and
revealed a physiological role for this locus in Na+ resistance and Na
+-dependent pH homeostasis at pH 8.5. The mutant phenotype was reverse
d by transformation with a plasmid expressing the cloned tetB(L) gene.
Energy-dependent tetracycline efflux rates in the wild type were grea
ter than in the transposition mutant but were not sufficient to confer
resistance to the antibiotic. TetB(L) is also inferred to have a mode
st capacity for K+ efflux, since the transposition mutant is slightly
impaired in K+-dependent pH homeostasis at pH 8.5 and grew better than
the wild type at pH 7 on limiting K+ concentrations.