Continuous Titration Based Method For Rapid In-solution Analysis Of Non-covalent Interactions

Development of new drugs typically involves the identification and validation of molecular inhibitors or promotors of endogenous biological processes. The identification of ligands that can bind the target of interest is typically achieved by screening large libraries of small molecules, using analytical methods that only provide yes/no answers. These methods are only qualitative and often associated with unacceptable amounts of false positives and negatives. Quantitative methods are in general more accurate but time intensive. This is mainly due to repeating measurements of a dilution series in order to generate a titration curve and measure the dissociation constant ( K _d ). In this work, we introduce Continuous Titration Based Spectral Related Intensity Change (cSPRING), that combines Taylor dispersion analysis (TDA) with ratiometric fluorescence detection to measure a K _d in a single experiment. cSPRING is an in-solution method that reduces the sample preparation time 8-fold and requires only nanograms of protein. We show a good agreement of cSPRING with other quantitative methods for three well-known protein-small molecule interactions with binding affinities ranging from the low nanomolar to high micromolar. In addition, we show that cSPRING is able to measure binding affinities in under a minute, highlighting its efficiency and potential for screening applications.