Mycobacterium leprae, the causative agent of leprosy, is noncultivable in vitro; therefore, evaluation of antibiotic activity against M. leprae relies mainly upon the mouse footpad system, which requires at least 12 months before the results become available. We have developed an in vitro assay for studying the activities of quinolones against the DNA gyrase of M. leprae. We overexpressed in Es...

We have cloned the DNA gyrase and topoisomerase IV genes of Enterococcus faecalis to examine the actions of quinolones against E. faecalis genetically and enzymatically. We first generated levofloxacin-resistant mutants of E. faecalis by stepwise selection with increasing drug concentrations and analyzed the quinolone resistance-determining regions of gyrA and parC from the resistant mutants. I...

Three distinct Escherichia coli DNA gyrase complexes with DNA can be identified using a nitrocellulose filter-binding assay. One complex consists of an ensemble of two subunit A and two subunit B protomers bound noncovalently to specific sequences of DNA. High levels of each subunit alone are inactive but a single gyrase molecule binds DNA to a filter. At 23 degrees, the complex has a dissociat...

Norfloxacin is a nalidixic acid analogue and one of the most potent DNA gyrase inhibitors. To study the mechanism of this important class of inhibitors, the binding of [3H]norfloxacin to gyrase and substrate DNA was measured. We found that, contrary to prior belief, norfloxacin does not bind to gyrase but instead binds to DNA. This was demonstrated by both equilibrium dialysis and membrane filt...

DNA-protein loops can be essential for gene regulation. The Escherichia coli lactose (lac) operon is controlled by DNA-protein loops that have been studied for decades. Here we adapt this model to test the hypothesis that negative superhelical strain facilitates the formation of short-range (6-8 DNA turns) repression loops in E. coli. The natural negative superhelicity of E. coli DNA is regulat...

A practical access to four new halogen-substituted pyrrole building blocks was realized in two five synthetic steps from commercially available starting materials. The target compounds were prepared on a 50 mg 1 g scale, and their conversion nanomolar inhibitors of bacterial DNA gyrase B demonstrated for three the showcase usefulness such chemical motifs medicinal chemistry.

DNA gyrase and topoisomerase IV control bacterial DNA topology by breaking DNA, passing duplex DNA through the break, and then resealing the break. This process is subject to reversible corruption by fluoroquinolones, antibacterials that form drug-enzyme-DNA complexes in which the DNA is broken. The complexes, called cleaved complexes due to the presence of DNA breaks, have been crystallized an...

DNA gyrase, which catalyzes topological transformation of DNA, plays an essential role in replication and transcription in prokaryotes. Virus-induced gene silencing of NbGyrA or NbGyrB, which putatively encode DNA gyrase subunits A and B, respectively, resulted in leaf yellowing phenotypes in Nicotiana benthamiana. NbGyrA and NbGyrB complemented the gyrA and gyrB temperature-sensitive mutations...