The Neurobiology of Circadian Timing

<ol> <li>How Rod, Cone and Melanopsin Photoreceptors Come Together to Enlighten the Mammalian Circadian Clock</li> <p>Robert J Lucas, Gurprit S Lall, Annette E Allen and Timothy M Brown</p> <p> <li>Melanopsin Phototransduction: Slowly Emerging from the Dark</li> <p>Steven Hughes, Mark W. Hankins, Russell G. Foster and Stuart N. Peirson</p> <p> <li>Circadian Clocks: Lessons From Fish</li> <p>M. Laura Idda, Cristiano Bertolucci, Daniela Vallone, Yoav Gothilf, Francisco Javier Sánchez-Vázquez and Nicholas S. Foulkes</p> <p> <li>Two Clocks in the Brain – An Update of the Morning and Evening Oscillator Model in Drosophila</li> <p>Taishi Yoshii, Dirk Rieger and Charlotte Helfrich-Förster </p> <p> <li>Circadian System from Conception Till Adulthood</li> <p>Alena Sumova, Martin Sladek, Lenka Polidarova, Marta Novakova and Pavel Houdek </p> <p> <li>When does it start Ticking? Ontogenetic Development of the Mammalian Circadian System </li> <p>Elmar Christ, Horst-Werner Korf and Charlotte von Gall</p> <p> <li>The Circadian Output Signals from the Suprachiasmatic Nuclei</li> <p>Jia-Da Li, Wang-Ping Hu and Qun-Yong Zhou</p> <p> <li>Suprachiasmatic Nucleus: Cellular Clocks and Networks</li> <p>Sato Honma, Daisuke Ono, Yohko Suzuki, Natsuko Inagaki, Tomoko Yoshikawa, Wataru Nakamura and Ken-ichi Honma</p> <p> <li>Dynamic Neuronal Network Organization of the Circadian Clock, and Possible Deterioration in Disease</li> <p>Johanna H. Meijer, Christopher S. Colwell, Jos H.T. Rohling, Thijs Houben and Stephan Michel</p> <p> <li>Interaction of Central and Peripheral Clocks in Physiological Regulation</li> <p>Johanna L. Barclay, Anthony H. Tsang and Henrik Oster</p> <p> <li>Circadian Rhythms in White Adipose Tissue</li> <p>R. van der Spek, F. Kreier, E. Fliers and A. Kalsbeek</p> <p> <li>Circadian Modulation of Sleep in Rodents</li> <p>Roman Yasenkov and Tom Deboer</p> <p> <li>Local Aspects of Sleep: Observations from Intracerebral Recordings in Humans</li> <p>Lino Nobili, Luigi De Gennaro, Paola Proserpio, Fabio Moroni, Simone Sarasso, Andrea Pigorini, Fabrizio De Carli and Michele Ferrara</p> <p> <li>The Circadian Clock Component PERIOD2: From Molecular to Cerebral Functions</li> <p>Jürgen A. Ripperger and Urs Albrecht</p> <p> <li>Generation of Mouse Mutants as Tools in Dissecting the Molecular Clock</li> <p>Sneha N. Anand, Jessica K. Edwards and Patrick M. Nolan</p> <p> <li>In Search of a Temporal Niche: Social Interactions</li> <p>Alexandra Castillo-Ruiz, Matthew J. Paul and William J. Schwartz</p> <p> <li>In Search of a Temporal Niche: Environmental Factors</li> <p>Roelof A. Hut, Noga Kronfeld-Schor, Vincent Van der Vinne and Horacio De la Iglesia</p> <p> <li>Feedback Actions of Locomotor Activity to The Circadian Clock</li> <p>Alun T.L. Hughes and Hugh D. Piggins</p> <p> <li>The Impact of The Circadian Timing System on Cardiovascular and Metabolic Function</li> <p>Christopher J. Morris, Jessica N. Yang and Frank A.J.L. Scheer</p> <p> <li>Nutrition and The Circadian Timing System</li> <p>D.J. Stenvers, C.F. Jonkers, E. Fliers, P.H.L.T. Bisschop and A. Kalsbeek</p> <p> <li>Managing Neurobehavioral Capability when Social Expediency Trumps Biological Imperatives</li> <p>Andrea M. Spaeth, Namni Goel and David F. Dinges</p> <p> <li>Noisy and Individual, but Doable: Shift-Work Research in Humans</li> <p>Thomas Kantermann, Sophie M.T. Wehrens, Melissa A. Ulhôa, Claudia Moreno and Debra J. Skene </p> <p> <li>The Evolutionary Physiology of Photoperiodism in Vertebrates</li> <p>David Hazlerigg</p> <p> <li>A Kiss for Daily and Seasonal Reproduction</li> <p>V. Simonneaux, I. Bur, C. Ancel, L. Ansel and P. Klosen</p> <p> <li>Circannual Rhythm in the Varied Carpet Beetle, Anthrenus verbasci</li> <p>Yosuke Miyazaki, Tomoyosi Nisimura and Hideharu Numata</p> <p> <li>Avian Migration: Temporal Multi-Tasking and a Case Study of Melatonin Cycles in Waders<br><br>Barbara Helm, Eberhard Gwinner, Anita Koolhaas, Phil Battley, Ingrid Schwabl, Anne Dekinga and Theunis Piersma</li></ol>