DNA gyrase is a unique topoisomerase, which plays important roles in macromolecular events like DNA replication, transcription and genetic recombination. In this study a high affinity monoclonal antibody to the gyrase B (GyrB) subunit of Mycobacterium smegmatis was characterized, which did not cross-react with either the Escherichia coli GyrB subunit or with GyrB subunits from other mycobacteri...

Appearance of bacteria resistant to antibacterial agents puts physicians in trouble and threatens the health of the world. The rapid development of bacterial resistance in Escherichia coli to ciprofloxacin makes difficult the treatment of infectious diseases. So, detection of the locations of possible mutations in gyrase A gene ( gyrA ) in these mutants is very important to determine the mech...

DNA gyrase, a typical type II topoisomerase that can introduce negative supercoils in DNA, is essential for replication and transcription in prokaryotes. The apicomplexan parasite Plasmodium falciparum contains the genes for both gyrase A and gyrase B in its genome. Due to the large sizes of both proteins and the unusual codon usage of the highly AT-rich P. falciparum gyrA (PfgyrA) and PfgyrB g...

DNA gyrase subunit B C-terminal domain (GyrB-CTD) is a functional module of DNA gyrase which participates in forming the core of DNA gyrase and plays critical roles in G-segment binding and T-segment loading and passage. Here, the purification, crystallization and preliminary X-ray crystallographic studies of GyrB-CTD from Mycobacterium tuberculosis H37Rv are reported. Diffraction data were col...

In summary, we have developed a sensitive detection system for inhibitors of bacterial DNA gyrase. The use of B. subtilis as the host organism confers the advantage that it is sensitive to both gyrase subunit A and B inhibitors, whereas E. coli is relatively insensitive to B subunit inhibitors in vivo. Using this assay, we identified a new DNA gyrase inhibitor with a novel structure.

Most bacteria possess two type IIA topoisomerases, DNA gyrase and topo IV, that together help manage chromosome integrity and topology. Gyrase primarily introduces negative supercoils into DNA, an activity mediated by the C-terminal domain of its DNA binding subunit (GyrA). Although closely related to gyrase, topo IV preferentially decatenates DNA and relaxes positive supercoils. Here we report...

This paper characterizes N-benzyl-3-sulfonamidopyrrolidines (gyramides) as DNA gyrase inhibitors. Gyramide A was previously shown to exhibit antimicrobial activity that suggested it inhibited bacterial cell division. In this study, we conducted target identification studies and identified DNA gyrase as the primary target of gyramide A. The gyramide A resistance-determining region in DNA gyrase ...

Buruli ulcer disease is a neglected necrotizing and disabling cutaneous tropical illness caused by Mycobacterium ulcerans (Mul). Fluoroquinolone (FQ), used in the treatment of this disease, has been known to act inhibiting enzymatic activities DNA gyrase; however, detailed molecular basis these characteristics FQ resistance mechanisms Mul remains unknown. In study investigated mechanism gyrase ...

We have found that purified T4 DNA topoisomerase promotes recombination between two phage lambda DNA molecules in an in vitro system. In this cross, T4 DNA topoisomerase alone is able to catalyze the recombination and produce a linear monomer recombinant DNA that can be packaged in vitro. ATP is not required for this recombination, while oxolinic acid stimulates it. The recombinant DNA molecule...

DNA gyrase is a bacterial motor protein in a class known as topoisomerases, which are responsible for controlling the topological properties of DNA (e.g. amount of supercoiling or catenation). Most topoisomerases can relax supercoiled DNA, which is an energetically favourable process. DNA gyrase is unique amongst this class, because it can introduce supercoils as well as remove them. To wind or...