Using FlAsH To Probe Conformational Changes in a Large HEAT Repeat Protein

We have investigated the use of FlAsH, a small fluorogenic molecule that binds to tetracysteine motifs, to probe folding of the 15‐HEAT repeat protein PR65A. PR65A is one of a special class of modular non‐globular proteins known as tandem repeat proteins, which are composed of small structural motifs that stack to form elongated, one‐dimensional architectures. We were able to introduce linear and bipartite tetracysteine motifs at several sites along the α‐helical HEAT array of PR65A without disrupting the structure or stability. When the linear tetracysteine motif CCPGCC was used, FlAsH fluorescence reported globally on the folding of the protein. When the tetracysteine motif was displayed in bipartite mode through the engineering of pairs of cysteines on adjacent HEAT repeats, FlAsH fluorescence became a reporter of local conformation and of oligomerisation. Thus, by designing FlAsH‐binding sites at different locations along the repeat array one can interrogate specific properties of PR65A, paving the way for structure–function analysis of this protein both in vitro and in the cell. Local reporter: FlAsH, a small fluorogenic molecule that binds to tetracysteine motifs, was used to probe folding of the α‐helical 15‐HEAT‐repeat protein PR65A. When the tetracysteine motif was displayed in bipartite mode by using pairs of cysteines engineered on adjacent HEAT repeats, FlAsH was able to act as a reporter of local conformation and oligomerisation.