Eukaryotic protein kinases are an intensely investigated class of enzymes which have garnered attention due to their usefulness as drug targets. Determining the regulation of ATP binding to a protein kinase is not only critical for understanding function in a cellular context but also for designing kinase-specific molecular inhibitors. Here, we provide a general procedure for characterizing ATP binding to eukaryotic protein kinases. The protocol can be adapted to identify the conditions under which a particular kinase is activated. The approach is simple, requiring only a fluorescent ATP analog such as TNP-ATP or MANT-ATP and an instrument to monitor changes in fluorescence. Although the interaction kinetics between a kinase and a given ATP analog may differ from that of native ATP, this disadvantage is offset by the ease of performing and interpreting this assay. Importantly, it can be optimized to probe a large variety of conditions under which the kinase-nucleotide binding might be affected.
Keywords: ATP binding; CASK; Fluorescence; Kinase; Nucleotide; Pseudokinase; TNP-ATP.