Note to users. If you're seeing this message, it means that your browser cannot find this page's style/presentation instructions -- or possibly that you are using a browser that does not support current Web standards. Find out more about why this message is appearing, and what you can do to make your experience of our site the best it can be.


Sci. STKE, 6 November 2001
Vol. 2001, Issue 107, p. re16
[DOI: 10.1126/stke.2001.107.re16]


Signaling to the Mammalian Circadian Clocks: In Pursuit of the Primary Mammalian Circadian Photoreceptor

Matthew P. Pando and Paolo Sassone-Corsi*

The authors are in the Institut de Génétique et de Biologie Moléculaire et Cellulaire, Centre National de la Recherche Scientifique, Institut National de la Santé et de la Recherche Médicale, Université Louis Pasteur, 1 Rue Laurent Fries, 67404 Illkirch, Strasbourg, France.

Abstract: The mammalian circadian system is critical for the proper regulation of behavioral and physiological rhythms. The central oscillator, or master clock, is located in the hypothalamic suprachiasmatic nucleus (SCN). Additional circadian clocks are dispersed throughout most organs and tissues of an animal. The most prominent stimuli capable of synchronizing circadian oscillations to the environment is light. This occurs through daily photic signaling to the SCN, which ultimately results in the appropriate phasing of the various biological rhythms. Two critical aspects of circadian biology that will be discussed here are photic signaling and the communication between central and peripheral clocks. After 10 years of investigation, the primary mammalian circadian photoreceptor remains elusive. Recent findings suggest that multiple photoreceptive molecules may contribute to the perception of environmental light cycles. In addition, the relatively recent identification of cell-autonomous peripheral clocks has opened up an entirely new area of investigation. Deciphering the communication networks responsible for harmonious central and peripheral clock function is a critical step toward the development of effective therapies for circadian-related disorders.

Corresponding author: Telephone: 33 3 88 653410, Fax: 33 3 88 653246, E-mail: paolosc{at}

Citation: M. P. Pando, P. Sassone-Corsi, Signaling to the Mammalian Circadian Clocks: In Pursuit of the Primary Mammalian Circadian Photoreceptor. Sci. STKE 2001, re16 (2001).

Read the Full Text

SCFFbxl3 Controls the Oscillation of the Circadian Clock by Directing the Degradation of Cryptochrome Proteins.
L. Busino, F. Bassermann, A. Maiolica, C. Lee, P. M. Nolan, S. I. H. Godinho, G. F. Draetta, and M. Pagano (2007)
Science 316, 900-904
   Abstract »    Full Text »    PDF »

To Advertise     Find Products

Science Signaling. ISSN 1937-9145 (online), 1945-0877 (print). Pre-2008: Science's STKE. ISSN 1525-8882