Blue-light induced accumulation of reactive oxygen species is a consequence of the Drosophila cryptochrome photocycle

Photocycle and signaling mechanisms of plant cryptochromes

(2016) Margaret Ahmad   CURRENT OPINION IN PLANT BIOLOGY

Kinetic Modeling of the Arabidopsis Cryptochrome Photocycle: FADHo Accumulation Correlates with Biological Activity

(2016) Maria Procopio et al.   Frontiers in Plant Science

Spectroscopic characterization of radicals and radical pairs in fruit fly cryptochrome - protonated and nonprotonated flavin radical-states

(2015) Bernd Paulus et al.   FEBS Journal

Blue-light dependent reactive oxygen species formation byArabidopsiscryptochrome may define a novel evolutionarily conserved signaling mechanism

(2015) Laurent Consentino et al.   NEW PHYTOLOGIST

A Circadian Clock Gene, Cry, Affects Heart Morphogenesis and Function in Drosophila as Revealed by Optical Coherence Microscopy

(2015) Aneesh Alex et al.   PLoS One

CRYPTOCHROME-mediated phototransduction by modulation of the potassium ion channel β-subunit redox sensor

(2015) Keri J. Fogle et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Kinetic studies on the oxidation of semiquinone and hydroquinone forms of Arabidopsis cryptochrome by molecular oxygen

(2015) Luuk J.G.W. van Wilderen et al.   FEBS Open Bio

Cellular Metabolites Enhance the Light Sensitivity ofArabidopsisCryptochrome through Alternate Electron Transfer Pathways

(2014) Christopher Engelhard et al.   PLANT CELL

Cryptochromerestores dampened circadian rhythms and promotes healthspan in agingDrosophila

(2013) Kuntol Rakshit et al.   AGING CELL

Structures of Drosophila Cryptochrome and Mouse Cryptochrome1 Provide Insight into Circadian Function

(2013) Anna Czarna et al.   CELL

ROS signaling pathways and biological rhythms: perspectives in crustaceans

(2013) Maria Fanjul-Moles   Frontiers in Bioscience-Landmark

Mechanism of Photosignaling byDrosophilaCryptochrome

(2013) Nuri Ozturk et al.   JOURNAL OF BIOLOGICAL CHEMISTRY

Flavin reduction activates Drosophila cryptochrome

(2013) A. T. Vaidya et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Exquisite Light Sensitivity of Drosophila melanogaster Cryptochrome

(2013) Pooja Vinayak et al.   PLoS Genetics

The Cryptochromes: Blue Light Photoreceptors in Plants and Animals

(2011) Inês Chaves et al.   Annual Review of Plant Biology

Setting the clock - by nature: Circadian rhythm in the fruitfly Drosophila melanogaster

(2011) Nicolai Peschel et al.   FEBS LETTERS

Light-activated Cryptochrome Reacts with Molecular Oxygen to Form a Flavin–Superoxide Radical Pair Consistent with Magnetoreception

(2011) Pavel Müller et al.   JOURNAL OF BIOLOGICAL CHEMISTRY

Structure of full-length Drosophila cryptochrome

(2011) Brian D. Zoltowski et al.   NATURE

CRYPTOCHROME Is a Blue-Light Sensor That Regulates Neuronal Firing Rate

(2011) K. J. Fogle et al.   SCIENCE

Reaction mechanism of Drosophila cryptochrome

(2010) N. Ozturk et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

Light-Dependent Interactions between the Drosophila Circadian Clock Factors Cryptochrome, Jetlag, and Timeless

(2009) Nicolai Peschel et al.   CURRENT BIOLOGY

SPA1 and DET1 act together to control photomorphogenesis throughout plant development

(2009) Markus Nixdorf et al.   PLANTA

Human and Drosophila Cryptochromes Are Light Activated by Flavin Photoreduction in Living Cells

(2008) Nathalie Hoang et al.   PLOS BIOLOGY