Photorelease of Pyridines Using a Metal‐Free Photoremovable Protecting Group
Abstract
The photorelease of bioactive molecules has emerged as a valuable tool in biochemistry. Nevertheless, many important bioactive molecules, such as pyridine derivatives, cannot benefit from currently available organic photoremovable protecting groups (PPGs). We found that the inefficient photorelease of pyridines is attributed to intramolecular photoinduced electron transfer (PET) from PPGs to pyridinium ions. To alleviate PET, we rationally designed a strategy to drive the excited state of PPG from S1 to T1 with a heavy atom, and synthesized a new PPG by substitution of the H atom at the 3‐position of 7‐dietheylamino‐coumarin‐4‐methyl (DEACM) with Br or I. This resulted in an improved photolytic efficiency of the pyridinium ion by hundreds‐fold in aqueous solution. The PPG can be applied to various pyridine derivatives. The successful photorelease of a microtubule inhibitor, indibulin, in living cells was demonstrated for the potential application of this strategy in biochemical research.
Citing Literature
Number of times cited according to CrossRef: 3
- Max Wienhold, John J. Molloy, Constantin G. Daniliuc, Ryan Gilmour, Coumarins by Direct Annulation: β‐Borylacrylates as Ambiphilic C3‐Synthons, Angewandte Chemie, 10.1002/ange.202012099, 133, 2, (695-699), (2020).
- Max Wienhold, John J. Molloy, Constantin G. Daniliuc, Ryan Gilmour, Coumarins by Direct Annulation: β‐Borylacrylates as Ambiphilic C3‐Synthons, Angewandte Chemie International Edition, 10.1002/anie.202012099, 60, 2, (685-689), (2020).
- Roy Weinstain, Tomáš Slanina, Dnyaneshwar Kand, Petr Klán, Visible-to-NIR-Light Activated Release: From Small Molecules to Nanomaterials, Chemical Reviews, 10.1021/acs.chemrev.0c00663, (2020).
