Author: ["Debdas Ray","Justin T. Foy","Russell P. Hughes","Ivan Aprahamian"]
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Abstract
Imidazole, a subunit of histidine, plays a crucial role in proton-relay processes that are important for various biological activities, such as metal efflux, viral replication and photosynthesis. We show here how an imidazolyl ring incorporated into a rotary switch based on a hydrazone enables a switching cascade that involves proton relay between two different switches. The switching process starts with a single input, zinc(II), that initiates an E/Z isomerization in the hydrazone system through a coordination-coupled proton transfer. The resulting imidazolium ring is unusually acidic and, through proton relay, activates the E/Z isomerization of a non-coordinating pyridine-containing hydrazone switch. We hypothesize that the reduction in the acid dissociation constant of the imidazolium ring results from a combination of electrostatic and conformational effects, the study of which might help elucidate the proton-coupled electron-transfer mechanism in photosynthetic bacteria. Metal cations play an important role in biological proton relays by modulating the pKa values of surrounding amino acids. This effect has now been used to induce the isomerization of two hydrazone switches using a single input. It is found that a combination of electrostatic repulsion and conformational changes are required for the proton relay to take place.Cite this article
Ray, D., Foy, J., Hughes, R. et al. A switching cascade of hydrazone-based rotary switches through coordination-coupled proton relays. Nature Chem 4, 757–762 (2012). https://doi.org/10.1038/nchem.1408 