DNA gyrase is the target of the coumarin group of antibacterial agents
. The drugs are known to inhibit the ATPase activity of gyrase and bin
d to the 24-kDa N-terminal subdomain of the gyrase B protein. Supercoi
ling assays with intact DNA gyrase and ATPase assays with a 43-kDa N-t
erminal fragment of the B protein suggest that the drugs bind tightly,
with K-d values <10(-7) M. In addition, the ATPase data suggest that
1 coumermycin molecule interacts with 2 molecules of the 43-kDa protei
n while the other coumarins form a 1:1 complex. This result is confirm
ed by cross-linking experiments, Rapid gelfiltration experiments show
that the binding of ADPNP (5'-adenylyl beta,gamma-imidodiphosphate) an
d coumarins to the 43-kDa protein is mutually exclusive, consistent wi
th a competitive mode of action for the drugs. Rapid gel-filtration bi
nding experiments using both the 24- and 43-kDa proteins also show tha
t the drugs bind with association rate constants of >10(5) M(-1). s(-1
), and dissociation rate constants of similar to 3 x 10(-3) s(-1) and
similar to 4 x 10(-3) s(-1) for the 43- and 24-kDa proteins, respectiv
ely. Titration calorimetry shows that the K-d values for coumarins bin
ding to both proteins are similar to 10(-8) M and that binding is enth
alpy driven.