Controlling Radical Formation in the Photoactive Yellow Protein Chromophore

To understand how photoactive proteins function, it is necessary to understand the photoresponse of the chromophore. Photoactive yellow protein (PYP) is a prototypical signaling protein. Blue light triggers trans–cis isomerization of the chromophore covalently bound within PYP as the first step in a...

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Veröffentlicht in:Angewandte Chemie International Edition 2015-05, Vol.54 (19), p.5646-5649
Hauptverfasser: Mooney, Ciarán R. S., Parkes, Michael A., Iskra, Andreas, Fielding, Helen H.
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Sprache:eng
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Zusammenfassung:To understand how photoactive proteins function, it is necessary to understand the photoresponse of the chromophore. Photoactive yellow protein (PYP) is a prototypical signaling protein. Blue light triggers trans–cis isomerization of the chromophore covalently bound within PYP as the first step in a photocycle that results in the host bacterium moving away from potentially harmful light. At higher energies, photoabsorption has the potential to create radicals and free electrons; however, this process is largely unexplored. Here, we use photoelectron spectroscopy and quantum chemistry calculations to show that the molecular structure and conformation of the isolated PYP chromophore can be exploited to control the competition between trans–cis isomerization and radical formation. We also find evidence to suggest that one of the roles of the protein is to impede radical formation in PYP by preventing torsional motion in the electronic ground state of the chromophore. Isomerization or radical formation: The photochemical properties of para‐coumaric acid were investigated by photoelectron spectroscopy and quantum chemical calculations. The role of chemical structure and low‐frequency bond rotations on the control of the competition between isomerization and electron emission (radical formation; see picture) in the photoactive yellow protein chromophore is studied.
ISSN:1433-7851
1521-3773
DOI:10.1002/anie.201500549