M. Bunger, L. Wilsbacher, S. Moran, C. Clendenin, Laurel Radcliffe, J. Hogenesch, M. Simon, J. Takahashi, C. Bradfield (2000)
Mop3 Is an Essential Component of the Master Circadian Pacemaker in MammalsCell, 103
K. Obrietan, S. Impey, David Smith, J. Athos, D. Storm (1999)
Circadian Regulation of cAMP Response Element-mediated Gene Expression in the Suprachiasmatic Nuclei*The Journal of Biological Chemistry, 274
Rosalind Lee, Rhonda Feinbaum, V. Ambros (1993)
The C. elegans heterochronic gene lin-4 encodes small RNAs with antisense complementarity to lin-14Cell, 75
Erno Wienholds, W. Kloosterman, E. Miska, Ezequiel Alvarez-Saavedra, Eugene Berezikov, Ewart Bruijn, H. Horvitz, S. Kauppinen, R. Plasterk (2005)
MicroRNA Expression in Zebrafish Embryonic DevelopmentScience, 309
S. Masuki, T. Todo, Yasushi Nakano, H. Okamura, H. Nose (2005)
Reduced α‐adrenoceptor responsiveness and enhanced baroreflex sensitivity in Cry‐deficient mice lacking a biological clockThe Journal of Physiology, 566
K. Obrietan, S. Impey, D. Storm (1998)
Light and circadian rhythmicity regulate MAP kinase activation in the suprachiasmatic nucleiNature Neuroscience, 1
H. Cheng, H. Dziema, Joseph Papp, Daniel Mathur, M. Koletar, M. Ralph, J. Penninger, K. Obrietan (2006)
The Molecular Gatekeeper Dexras1 Sculpts the Photic Responsiveness of the Mammalian Circadian ClockThe Journal of Neuroscience, 26
H. Dziema, Benjamin Oatis, Greg Butcher, R. Yates, K. Hoyt, K. Obrietan (2003)
The ERK/MAP kinase pathway couples light to immediate‐early gene expression in the suprachiasmatic nucleusEuropean Journal of Neuroscience, 17
Lin He, G. Hannon (2004)
MicroRNAs: small RNAs with a big role in gene regulationNature Reviews Genetics, 5
U. Albrecht, B. Zheng, David Larkin, Z. Sun, Cheng Lee (2001)
mPer1 and mPer2 Are Essential for Normal Resetting of the Circadian ClockJournal of Biological Rhythms, 16
We also thank T. Todo for providing access to mcry1/mcry2 double-mutant mice. This work is supported by National Institutes of Health Grants MH62335 and NS47176 to
M. Comas, D. Beersma, K. Spoelstra, Serge Daan (2006)
Phase and Period Responses of the Circadian System of Mice (Mus musculus) to Light Stimuli of Different DurationJournal of Biological Rhythms, 21
S. Honma, T. Shirakawa, Y. Katsuno, M. Namihira, K. Honma (1998)
Circadian periods of single suprachiasmatic neurons in ratsNeuroscience Letters, 250
Sebastian Kraves, C. Weitz (2006)
A role for cardiotrophin-like cytokine in the circadian control of mammalian locomotor activityNature Neuroscience, 9
Satchidananda Panda, M. Antoch, B. Miller, A. Su, Andrew Schook, M. Straume, P. Schultz, S. Kay, J. Takahashi, J. Hogenesch (2002)
Coordinated Transcription of Key Pathways in the Mouse by the Circadian ClockCell, 109
N. Gekakis, D. Staknis, Hubert Nguyen, F. Davis, L. Wilsbacher, D. King, J. Takahashi, C. Weitz (1998)
Role of the CLOCK protein in the mammalian circadian mechanism.Science, 280 5369
S. Impey, S. McCorkle, H. Cha-Molstad, J. Dwyer, G. Yochum, J. Boss, S. McWeeney, J. Dunn, G. Mandel, R. Goodman (2004)
Defining the CREB Regulon A Genome-Wide Analysis of Transcription Factor Regulatory RegionsCell, 119
B. Wightman, I. Ha, G. Ruvkun (1993)
Posttranscriptional regulation of the heterochronic gene lin-14 by lin-4 mediates temporal pattern formation in C. elegansCell, 75
Nicolas Preitner, F. Damiola, L. Lopez-Molina, J. Zakany, D. Duboule, U. Albrecht, U. Schibler (2002)
The Orphan Nuclear Receptor REV-ERBα Controls Circadian Transcription within the Positive Limb of the Mammalian Circadian OscillatorCell, 110
S. Reppert, D. Weaver (2001)
Molecular analysis of mammalian circadian rhythms.Annual review of physiology, 63
R. Araki, Maki Nakahara, R. Fukumura, Hirokazu Takahashi, Kazuya Mori, N. Umeda, Mitsugu Sujino, S. Inouye, M. Abe (2006)
Identification of genes that express in response to light exposure and express rhythmically in a circadian manner in the mouse suprachiasmatic nucleusBrain Research, 1098
H. Okamura, Shigeru Miyake, Y. Sumi, S. Yamaguchi, A. Yasui, M. Muijtjens, J. Hoeijmakers, G. Horst (1999)
Photic induction of mPer1 and mPer2 in cry-deficient mice lacking a biological clock.Science, 286 5449
Lee Lim, N. Lau, P. Garrett-engele, Andrew Grimson, Janell Schelter, J. Castle, D. Bartel, P. Linsley, Jason Johnson (2005)
Microarray analysis shows that some microRNAs downregulate large numbers of target mRNAsNature, 433
M. Nitabach, V. Sheeba, David Vera, J. Blau, T. Holmes (2005)
Membrane electrical excitability is necessary for the free-running larval Drosophila circadian clock.Journal of neurobiology, 62 1
Greg Butcher, Boyoung Lee, H. Cheng, K. Obrietan (2005)
Light Stimulates MSK1 Activation in the Suprachiasmatic Nucleus via a PACAP-ERK/MAP Kinase-Dependent MechanismThe Journal of Neuroscience, 25
S. Honma, T. Kawamoto, Yumi Takagi, K. Fujimoto, F. Sato, M. Noshiro, Y. Kato, K. Honma (2002)
Dec1 and Dec2 are regulators of the mammalian molecular clockNature, 419
Zdenka Travnickova-Bendova, N. Cermakian, S. Reppert, P. Sassone-Corsi (2002)
Bimodal regulation of mPeriod promoters by CREB-dependent signaling and CLOCK/BMAL1 activityProceedings of the National Academy of Sciences of the United States of America, 99
L. Shearman, Sathya Sriram, D. Weaver, E. Maywood, I. Chaves, B. Zheng, K. Kume, Cheng Lee, van Gt, M. Hastings, S. Reppert (2000)
Interacting molecular loops in the mammalian circadian clock.Science, 288 5468
M. Ralph, R. Foster, F. Davis, M. Menaker (1990)
Transplanted suprachiasmatic nucleus determines circadian period.Science, 247 4945
T. Nagai, K. Ibata, E. Park, Mie Kubota, K. Mikoshiba, A. Miyawaki (2002)
A variant of yellow fluorescent protein with fast and efficient maturation for cell-biological applicationsNature Biotechnology, 20
A. Meredith, S. Wiler, B. Miller, J. Takahashi, A. Fodor, N. Ruby, R. Aldrich (2006)
BK calcium-activated potassium channels regulate circadian behavioral rhythms and pacemaker outputNature Neuroscience, 9
Ning Bao, Khar-Wai Lye, M. Barton (2004)
MicroRNA binding sites in Arabidopsis class III HD-ZIP mRNAs are required for methylation of the template chromosome.Developmental cell, 7 5
R. Araki, Hirokazu Takahashi, R. Fukumura, Fuyan Sun, N. Umeda, Mitsugu Sujino, S. Inouye, Toshiyuki Saito, M. Abe (2004)
Restricted Expression and Photic Induction of a Novel Mouse Regulatory Factor X4 Transcript in the Suprachiasmatic Nucleus*Journal of Biological Chemistry, 279
K. Shimizu, Masato Okada, A. Takano, K. Nagai (1999)
SCOP, a novel gene product expressed in a circadian manner in rat suprachiasmatic nucleusFEBS Letters, 458
Phillip Lowrey, K. Shimomura, M. Antoch, S. Yamazaki, Peter Zemenides, M. Ralph, M. Menaker, J. Takahashi (2000)
Positional syntenic cloning and functional characterization of the mammalian circadian mutation tau.Science, 288 5465
S. Masubuchi, Noritoshi Kataoka, P. Sassone-Corsi, H. Okamura (2005)
Mouse Period1 (mPER1) Acts as a Circadian Adaptor to Entrain the Oscillator to Environmental Light/Dark Cycles by Regulating mPER2 ProteinThe Journal of Neuroscience, 25
D. McMahon, G. Block (1987)
The Bulla ocular circadian pacemaker. I. Pacemaker neuron membrane potential controls phase through a calcium-dependent mechanism.Journal of comparative physiology. A, Sensory, neural, and behavioral physiology, 161 3
H. Ueda, Wenbin Chen, A. Adachi, H. Wakamatsu, S. Hayashi, Tomohiro Takasugi, M. Nagano, K. Nakahama, Yutaka Suzuki, S. Sugano, M. Iino, Y. Shigeyoshi, S. Hashimoto (2002)
A transcription factor response element for gene expression during circadian nightNature, 418
Michelle Cheng, C. Bullock, Chuanyu Li, Alex Lee, J. Bermak, J. Belluzzi, D. Weaver, F. Leslie, Q. Zhou (2002)
Prokineticin 2 transmits the behavioural circadian rhythm of the suprachiasmatic nucleusNature, 417
J. Krützfeldt, N. Rajewsky, Ravi Braich, K. Rajeev, T. Tuschl, M. Manoharan, M. Stoffel (2005)
Silencing of microRNAs in vivo with ‘antagomirs’Nature, 438
Ngan Vo, Matthew Klein, Olga Varlamova, David Keller, Tadashi Yamamoto, Richard Goodman, Soren Impey (2005)
A cAMP-response element binding protein-induced microRNA regulates neuronal morphogenesis.Proceedings of the National Academy of Sciences of the United States of America, 102 45
Greg Butcher, H. Dziema, Minden Collamore, P. Burgoon, K. Obrietan (2002)
The p42/44 Mitogen-activated Protein Kinase Pathway Couples Photic Input to Circadian Clock Entrainment*The Journal of Biological Chemistry, 277
N. Rajewsky (2006)
microRNA target predictions in animalsNature Genetics, 38 Suppl 1
G. Horst, M. Muijtjens, Kumiko Kobayashi, Riya Takano, S. Kanno, M. Takao, J. Wit, A. Verkerk, A. Eker, D. Leenen, R. Buijs, D. Bootsma, J. Hoeijmakers, A. Yasui (1999)
Mammalian Cry1 and Cry2 are essential for maintenance of circadian rhythmsNature, 398
Boyoung Lee, Greg Butcher, K. Hoyt, S. Impey, K. Obrietan (2005)
Activity-Dependent Neuroprotection and cAMP Response Element-Binding Protein (CREB): Kinase Coupling, Stimulus Intensity, and Temporal Regulation of CREB Phosphorylation at Serine 133The Journal of Neuroscience, 25
R. Refinetti (2003)
Effects of Prolonged Exposure to Darkness on Circadian Photic Responsiveness in the MouseChronobiology International, 20
S. Kauppinen, B. Vester, J. Wengel (2006)
Locked Nucleic Acid: High-Affinity Targeting of Complementary RNA for RNomicsRNA Towards Medicine, 173
(2007)
Neuron microRNAs and the SCN Clock
Neuron – Unpaywall
Published: Jun 1, 2007
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