Luminescence resonance energy transfer-based high-throughput screening assay for inhibitors of essential protein-protein interactions in bacterial RNA polymerase.

The binding of sigma factors to core RNA polymerase is essential for the specific initiation of transcription in eubacteria and is thus critical for cell growth. Since the responsible protein-binding regions are highly conserved among all eubacteria but differ significantly from eukaryotic RNA polymerases, sigma factor binding is a promising target for drug discovery. A homogeneous assay for sigma binding to RNA polymerase (Escherichia coli) based on luminescence resonance energy transfer (LRET) was developed by using a europium-labeled sigma70 and an IC5-labeled fragment of the beta' subunit of RNA polymerase (amino acid residues 100 through 309). Inhibition of sigma binding was measured by the loss of LRET through a decrease in IC5 emission. The technical advances offered by LRET resulted in a very robust assay suitable for high-throughput screening, and LRET was successfully used to screen a crude natural-product library. We illustrate this method as a powerful tool to investigate any essential protein-protein interaction for basic research and drug discovery.