Cryptochrome blue light photoreceptors are activated through interconversion of flavin redox states

Creator

Jean Pierre Bouly, Sorbonne Universite
Erik Schleicher, Freie Universität Berlin
Maribel Dionisio-Sese, Universität Marburg
Filip Vandenbussche, Sorbonne Universite
Dominique Van Der Straeten, Penn State Brandywine
Nadia Bakrim, Sorbonne Universite
Stefan Meier, Universität Marburg
Alfred Batschauer, Universität Marburg
Paul Galland, Universität Marburg

Issue Date

3-2007

Abstract

Cryptochromes are blue light-sensing photoreceptors found in plants, animals, and humans. They are known to play key roles in the regulation of the circadian clock and in development. However, despite striking structural similarities to photolyase DNA repair enzymes, cryptochromes do not repair double-stranded DNA, and their mechanism of action is unknown. Recently, a blue light-dependent intramolecular electron transfer to the excited state flavin was characterized and proposed as the primary mechanism of light activation. The resulting formation of a stable neutral flavin semiquinone intermediate enables the photoreceptor to absorb green/yellow light (500-630 nm) in addition to blue light in vitro. Here, we demonstrate that Arabidopsis cryptochrome activation by blue light can be inhibited by green light in vivo consistent with a change of the cofactor redox state. We further characterize light-dependent changes in the cryptochrome1 (cry1) protein in living cells, which match photoreduction of the purified cry1 in vitro. These experiments were performed using fluorescence absorption/emission and EPR on whole cells and thereby represent one of the few examples of the active state of a known photoreceptor being monitored in vivo. These results indicate that cry1 activation via blue light initiates formation of a flavosemiquinone signaling state that can be converted by green light to an inactive form. In summary, cryptochrome activation via flavin photoreduction is a reversible mechanism novel to blue light photoreceptors. This photocycle may have adaptive significance for sensing the quality of the light environment in multiple organisms. © 2007 by The American Society for Biochemistry and Molecular Biology, Inc.

Source or Periodical Title

Journal of Biological Chemistry

ISSN

219258

Volume

282

Issue

13

Page

9383-9391

Document Type

Article

Language

English

Recommended Citation

Bouly, Jean-Pierre & Schleicher, Erik & Dionisio-Sese, Maribel & Vandenbussche, Filip & Van Der Straeten, Dominique & Bakrim, Nadia & Meier, Stefan & Batschauer, Alfred & Galland, Paul & Bittl, Robert & Ahmad, Margaret. (2007). Cryptochrome Blue Light Photoreceptors Are Activated through Interconversion of Flavin Redox States. The Journal of biological chemistry. 282. 9383-91.

Identifier

https://doi.org/10.1074/jbc.M609842200

Digital Copy

YES