Clock genes in mammalian peripheral tissues
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[1] V. Cassone,et al. Oscillating on Borrowed Time: Diffusible Signals from Immortalized Suprachiasmatic Nucleus Cells Regulate Circadian Rhythmicity in Cultured Fibroblasts , 2001, The Journal of Neuroscience.
[2] I. Zucker,et al. Neural regulation of circadian rhythms. , 1979, Physiological reviews.
[3] J. F. Feldman,et al. Isolation of circadian clock mutants of Neurospora crassa. , 1973, Genetics.
[4] Ueli Schibler,et al. Multiple signaling pathways elicit circadian gene expression in cultured Rat-1 fibroblasts , 2000, Current Biology.
[5] Steven A. Brown,et al. Resetting of circadian time in peripheral tissues by glucocorticoid signaling. , 2000, Science.
[6] Y Sakaki,et al. Resetting central and peripheral circadian oscillators in transgenic rats. , 2000, Science.
[7] Ralf Stanewsky,et al. Clock mechanisms in Drosophila , 2002, Cell and Tissue Research.
[8] Jeffrey C. Hall,et al. The cryb Mutation Identifies Cryptochrome as a Circadian Photoreceptor in Drosophila , 1998, Cell.
[9] F. Tamanini,et al. Molecular Mechanisms of the Biological Clock in Cultured Fibroblasts , 2001, Science.
[10] F. Fleury-Olela,et al. Analysis of circadian liver gene expression by ADDER, a highly sensitive method for the display of differentially expressed mRNAs. , 2001, Nucleic acids research.
[11] T. Nagase,et al. Humoral signals mediate the circadian expression of rat period homologue (rPer2) mRNA in peripheral tissues , 1998, Neuroscience Letters.
[12] V. Cassone,et al. Immortal time: circadian clock properties of rat suprachiasmatic cell lines. , 1999, Science.
[13] Sara Abdulla,et al. Circadian clocks , 1999, Nature.
[14] T. Nagase,et al. Antiphase circadian expression between BMAL1 and period homologue mRNA in the suprachiasmatic nucleus and peripheral tissues of rats. , 1998, Biochemical and biophysical research communications.
[15] Jeffrey C. Hall,et al. Molecular analysis of the period locus in Drosophila melanogaster and identification of a transcript involved in biological rhythms , 1984, Cell.
[16] S. Reppert,et al. Targeted Disruption of the mPer3 Gene: Subtle Effects on Circadian Clock Function , 2000, Molecular and Cellular Biology.
[17] M. Hotz Vitaterna. Mutagenesis and mapping of a mouse gene,Clock, essential for circadian behavior , 1994 .
[18] K. Oishi,et al. Rhythmic expression of BMAL1 mRNA is altered in Clock mutant mice: differential regulation in the suprachiasmatic nucleus and peripheral tissues. , 2000, Biochemical and biophysical research communications.
[19] Gregor Eichele,et al. RIGUI, a Putative Mammalian Ortholog of the Drosophila period Gene , 1997, Cell.
[20] K. Yagita,et al. Forskolin induces circadian gene expression of rPer1, rPer2 and dbp in mammalian rat‐1 fibroblasts , 2000, FEBS letters.
[21] V. Bruce. Mutants of the biological clock in Chlamydomonas reinhardi. , 1972, Genetics.
[22] E. Nishida,et al. Involvement of the MAP kinase cascade in resetting of the mammalian circadian clock. , 2000, Genes & development.
[23] U. Schibler,et al. A Serum Shock Induces Circadian Gene Expression in Mammalian Tissue Culture Cells , 1998, Cell.
[24] F. Davis,et al. Transplanted suprachiasmatic nucleus determines circadian period. , 1990, Science.
[25] S. Yamaguchi,et al. Molecular machinery of the circadian clock in mammals , 2002, Cell and Tissue Research.
[26] Y Sakaki,et al. Entrainment of the circadian clock in the liver by feeding. , 2001, Science.
[27] S. Kay,et al. Time zones: a comparative genetics of circadian clocks , 2001, Nature Reviews Genetics.
[28] M. Rosbash. Molecular control of circadian rhythms. , 1995, Current opinion in genetics & development.
[29] S. Kay,et al. Independent photoreceptive circadian clocks throughout Drosophila. , 1997, Science.
[30] U. Schibler,et al. CLOCK, an essential pacemaker component, controls expression of the circadian transcription factor DBP. , 2000, Genes & development.
[31] K. Yagita,et al. Angiotensin II Induces Circadian Gene Expression of Clock Genes in Cultured Vascular Smooth Muscle Cells , 2001, Circulation.
[32] F. Conquet,et al. Circadian Expression of the Steroid 15 α-Hydroxylase (Cyp2a4) and Coumarin 7-Hydroxylase (Cyp2a5) Genes in Mouse Liver Is Regulated by the PAR Leucine Zipper Transcription Factor DBP , 1999, Molecular and Cellular Biology.
[33] J. Dunlap. Molecular Bases for Circadian Clocks , 1999, Cell.
[34] S. Reppert,et al. Molecular analysis of mammalian circadian rhythms. , 2001, Annual review of physiology.
[35] Paolo Sassone-Corsi,et al. Zebrafish Clock rhythmic expression reveals independent peripheral circadian oscillators , 1998, Nature Neuroscience.
[36] Mark J. Zylka,et al. A Molecular Mechanism Regulating Rhythmic Output from the Suprachiasmatic Circadian Clock , 1999, Cell.
[37] V. Laudet,et al. Circadian Regulation of Diverse Gene Products Revealed by mRNA Expression Profiling of Synchronized Fibroblasts* 210 , 2001, The Journal of Biological Chemistry.
[38] R J Konopka,et al. Clock mutants of Drosophila melanogaster. , 1971, Proceedings of the National Academy of Sciences of the United States of America.
[39] Ueli Schibler,et al. The DBP gene is expressed according to a circadian rhythm in the suprachiasmatic nucleus and influences circadian behavior , 1997, The EMBO journal.
[40] Gregor Eichele,et al. A Differential Response of Two Putative Mammalian Circadian Regulators, mper1 and mper2, to Light , 1997, Cell.
[41] A. Sehgal,et al. Regulation of CLOCK and MOP4 by Nuclear Hormone Receptors in the Vasculature A Humoral Mechanism to Reset a Peripheral Clock , 2001, Cell.
[42] Kazuo Sato,et al. Multitissue Circadian Expression of Rat periodHomolog (rPer2) mRNA Is Governed by the Mammalian Circadian Clock, the Suprachiasmatic Nucleus in the Brain* , 1998, The Journal of Biological Chemistry.
[43] John B. Hogenesch,et al. Mop3 Is an Essential Component of the Master Circadian Pacemaker in Mammals , 2000, Cell.
[44] M. Menaker,et al. A mutation of the circadian system in golden hamsters. , 1988, Science.
[45] F. Fleury-Olela,et al. Restricted feeding uncouples circadian oscillators in peripheral tissues from the central pacemaker in the suprachiasmatic nucleus. , 2000, Genes & development.
[46] P. Sassone-Corsi,et al. A cell-based system that recapitulates the dynamic light-dependent regulation of the vertebrate clock , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[47] J. Takahashi,et al. Stopping time: the genetics of fly and mouse circadian clocks. , 2001, Annual review of neuroscience.
[48] Yoshiyuki Sakaki,et al. Circadian Rhythms in Isolated Brain Regions , 2002, The Journal of Neuroscience.
[49] D. V. Leenen,et al. Mammalian Cry1 and Cry2 are essential for maintenance of circadian rhythms , 1999, Nature.
[50] A. Kalsbeek,et al. Output pathways of the mammalian suprachiasmatic nucleus: coding circadian time by transmitter selection and specific targeting , 2002, Cell and Tissue Research.
[51] J. Takahashi. MOLECULAR NEUROBIOLOGY AND GENETICS OF CIRCADIAN RHYTHMS IN MAMMALS , 1995 .
[52] J. C. Hall,et al. Expression of the period clock gene within different cell types in the brain of Drosophila adults and mosaic analysis of these cells' influence on circadian behavioral rhythms , 1992, The Journal of neuroscience : the official journal of the Society for Neuroscience.
[53] P. Tresco,et al. A diffusible coupling signal from the transplanted suprachiasmatic nucleus controlling circadian locomotor rhythms , 1996, Nature.
[54] Christopher R. Jones,et al. An hPer2 Phosphorylation Site Mutation in Familial Advanced Sleep Phase Syndrome , 2001, Science.
[55] Jared Rutter,et al. Regulation of Clock and NPAS2 DNA Binding by the Redox State of NAD Cofactors , 2001, Science.