Differentiating carrier protein interactions in biosynthetic pathways using dapoxyl solvatochromism

Abstract

Carrier protein-dependent synthases are ubiquitous enzymes involved both in primary and secondary metabolism. Biocatalysis within these synthases is governed by key interactions between the carrier protein, substrate, and partner enzymes. The weak and transient nature of these interactions has rendered them difficult to study. Here we develop a useful fluorescent solvatochromic probe, dapoxyl-pantetheinamide, to monitor and quantify carrier protein interactions in vitro. Upon loading with target carrier proteins, we observe dramatic shifts in fluorescence emission wavelength and intensity and further demonstrate that this tool has the potential to be applied across numerous biosynthetic pathways. The environmental sensitivity of this probe allows rapid characterization of carrier protein interactions, with the ability to quantitatively determine inhibition of protein–protein interactions. We anticipate future application of these probes for inhibitor screening and in vivo characterization.