FRep: A Fluorescent Protein-Based Bioprobe for in Vivo Detection of Protein–DNA Interactions

Abstract

We describe a bacterial reporter system, FRep, for rapid and facile detection of protein-DNA recognition. The bioprobe reporter comprises genes of two fluorescent proteins (FPs) separated by a potential DNA target. If a coexpressed transcription factor binds the DNA target, transcription of the second FP is impeded, resulting in loss of FRET partner. Using ratiometric FRET, we show that evaluation of protein-DNA recognition can be reliably made on bZIP and bHLHZ transcription factors and their DNA targets. FRep displays similar thresholds of detection regarding protein-DNA binding affinities, as compared to well-established electrophoretic and yeast assays, although we observed variations in the intensity of fluorescence signals and detection thresholds that may depend on differences between DNA-binding protein production levels and/or stability in the cell, or the expressed bioprobe linker between the two FPs. FRep can potentially be applied to high-throughput searches of both protein and DNA libraries; in a mock library screen, binding and nonbinding complexes can even be distinguished by visual inspection of colonies on plates. FRep presents notable advantages over existing technologies when applied to assessing protein-DNA interactions in vivo, and this approach has the potential for applications in assaying protein-protein interactions and screening molecules that influence specific macromolecular interactions.