Mannich reaction derivatives of novobiocin with modulated physiochemical properties and their antibacterial activities.

Synthetic derivatives of the natural product antibiotic novobiocin were synthesized in order to improve their physiochemical properties. A Mannich reaction was used to introduce new side chains at a solvent-exposed position of the molecule, and a diverse panel of functional groups was evaluated at this position. Novobiocin and the new derivatives were tested for their binding to gyrase B and their antibacterial activities against Staphylococcus aureus, Mycobacterium tuberculosis, Francisella tularensis and Escherichia coli.

A high-throughput fluorescence polarization assay for inhibitors of gyrase B.

DNA gyrase, a type II topoisomerase that introduces negative supercoils into DNA, is a validated antibacterial drug target. The holoenzyme is composed of 2 subunits, gyrase A (GyrA) and gyrase B (GyrB), which form a functional A(2)B(2) heterotetramer required for bacterial viability. A novel fluorescence polarization (FP) assay has been developed and optimized to detect inhibitors that bind to the adenosine triphosphate (ATP) binding domain of GyrB.

Studying the salt dependence of the binding of sigma70 and sigma32 to core RNA polymerase using luminescence resonance energy transfer.

The study of protein-protein interactions is becoming increasingly important for understanding the regulation of many cellular processes. The ability to quantify the strength with which two binding partners interact is desirable but the accurate determination of equilibrium binding constants is a difficult process. The use of Luminescence Resonance Energy Transfer (LRET) provides a homogeneous binding assay that can be used for the detection of protein-protein interactions.

Minimal promoter systems reveal the importance of conserved residues in the B-finger of human transcription factor IIB.

The "B-finger" of transcription factor IIB (TFIIB) is highly conserved and believed to play a role in the initiation process. We performed alanine substitutions across the B-finger of human TFIIB, made change-of-charge mutations in selected residues, and substituted the B-finger sequence from other organisms. Mutant proteins were examined in two minimal promoter systems (containing only RNA polymerase II, TATA-binding protein, and TFIIB) and in a complex system, using TFIIB-immunodepleted HeLa cell nuclear extract (NE).

LRET-based HTS of a small-compound library for inhibitors of bacterial RNA polymerase.

Resistance mechanisms against whole classes of antibiotics are currently developing faster than research generates new structurally different biologically active agents. The demand for new antimicrobial drugs has not been matched by the speed of discovery. The interface between sigma and core of bacterial RNA polymerase offers an attractive target for drug discovery, and we have previously described the development of a very robust high-throughput assay for this target based on luminescence resonance energy transfer.

A fast Western blot procedure improved for quantitative analysis by direct fluorescence labeling of primary antibodies.

The procedures for Western blots have been around for a long time and recent developments have increased the sensitivity for luminescent techniques so that the need for radioactive probes has been limited to only a few applications. Nevertheless, most protocols require more than 6 h and are often performed over more than a day. The majority of techniques require a secondary antibody conjugated to an enzyme that catalyzes a color reaction in order to amplify a detectable signal.