Pages that link to "Q42576085"

The following pages link to Dissecting the functions of the mammalian clock protein BMAL1 by tissue-specific rescue in mice (Q42576085):

Displaying 50 items.

• Redundant function of REV-ERBalpha and beta and non-essential role for Bmal1 cycling in transcriptional regulation of intracellular circadian rhythms (Q21092485) (← links)
• Differential rescue of light- and food-entrainable circadian rhythms (Q24618271) (← links)
• Circadian genes, rhythms and the biology of mood disorders (Q24669771) (← links)
• Circadian clock regulation of skeletal muscle growth and repair (Q26740312) (← links)
• Molecular architecture of the mammalian circadian clock (Q27004052) (← links)
• Circadian clock control of endocrine factors (Q27022325) (← links)
• The chondrocyte clock gene Bmal1 controls cartilage homeostasis and integrity. (Q27331315) (← links)
• Crystal Structure of the Heterodimeric CLOCK:BMAL1 Transcriptional Activator Complex (Q27679392) (← links)
• The functional significance of the skeletal muscle clock: lessons from Bmal1 knockout models (Q28073308) (← links)
• Ageing in relation to skeletal muscle dysfunction: redox homoeostasis to regulation of gene expression (Q28080339) (← links)
• The cost of circadian desynchrony: Evidence, insights and open questions (Q28385845) (← links)
• AMPK regulates the circadian clock by cryptochrome phosphorylation and degradation (Q28509385) (← links)
• Interaction of MAGED1 with nuclear receptors affects circadian clock function (Q28511138) (← links)
• Rhythmic PER abundance defines a critical nodal point for negative feedback within the circadian clock mechanism (Q28588540) (← links)
• Brain and muscle Arnt-like 1 is a key regulator of myogenesis (Q28590771) (← links)
• Stable isotope ratios in hair and teeth reflect biologic rhythms (Q28757363) (← links)
• The genetics of mammalian circadian order and disorder: implications for physiology and disease (Q29616366) (← links)
• Physiological significance of a peripheral tissue circadian clock (Q29619075) (← links)
• The meter of metabolism (Q29619740) (← links)
• Differential Contribution of Rod and Cone Circadian Clocks in Driving Retinal Melatonin Rhythms in Xenopus (Q30433787) (← links)
• Inducible and reversible Clock gene expression in brain using the tTA system for the study of circadian behavior (Q33275305) (← links)
• Regulation of BMAL1 protein stability and circadian function by GSK3beta-mediated phosphorylation. (Q33521907) (← links)
• Zebrafish as a genetic model in biological and behavioral gerontology: where development meets aging in vertebrates--a mini-review. (Q33647569) (← links)
• Time is of the essence: vascular implications of the circadian clock. (Q33709641) (← links)
• The Role of the Molecular Clock in Skeletal Muscle and What It Is Teaching Us About Muscle-Bone Crosstalk. (Q33720405) (← links)
• Diurnal regulation of RNA polymerase III transcription is under the control of both the feeding-fasting response and the circadian clock (Q33751462) (← links)
• SirT1 in muscle physiology and disease: lessons from mouse models. (Q33815408) (← links)
• Regulation of transforming growth factor-beta1 (TGF-β1)-induced pro-fibrotic activities by circadian clock gene BMAL1. (Q33816685) (← links)
• Running on time: the role of circadian clocks in the musculoskeletal system (Q34148776) (← links)
• Rev-erb-alpha: an integrator of circadian rhythms and metabolism (Q34252942) (← links)
• Metabolic and nontranscriptional circadian clocks: eukaryotes (Q34408902) (← links)
• Circadian rhythms, the molecular clock, and skeletal muscle (Q34454032) (← links)
• Small molecule modifiers of circadian clocks. (Q34480532) (← links)
• Stoichiometric Relationship among Clock Proteins Determines Robustness of Circadian Rhythms (Q34606132) (← links)
• Global loss of bmal1 expression alters adipose tissue hormones, gene expression and glucose metabolism (Q34764246) (← links)
• Shift work and its effects on the cardiovascular system. (Q34822928) (← links)
• Differential effects of light and feeding on circadian organization of peripheral clocks in a forebrain Bmal1 mutant (Q34983700) (← links)
• Circadian rhythms, sleep, and metabolism (Q35015762) (← links)
• Disrupting the circadian clock: gene-specific effects on aging, cancer, and other phenotypes. (Q35166095) (← links)
• Smooth-muscle BMAL1 participates in blood pressure circadian rhythm regulation. (Q35242513) (← links)
• Tissue-intrinsic dysfunction of circadian clock confers transplant arteriosclerosis. (Q35345992) (← links)
• The endogenous molecular clock orchestrates the temporal separation of substrate metabolism in skeletal muscle. (Q35633645) (← links)
• Circadian metabolism in the light of evolution (Q35657123) (← links)
• A Novel Bmal1 Mutant Mouse Reveals Essential Roles of the C-Terminal Domain on Circadian Rhythms (Q35783557) (← links)
• Age-related BMAL1 change affects mouse bone marrow stromal cell proliferation and osteo-differentiation potential (Q35843920) (← links)
• Assessment of circadian rhythms in humans: comparison of real-time fibroblast reporter imaging with plasma melatonin. (Q35987853) (← links)
• Intrinsic circadian clock of the mammalian retina: importance for retinal processing of visual information (Q36088146) (← links)
• Feedback Loops of the Mammalian Circadian Clock Constitute Repressilator. (Q36220165) (← links)
• A tunable artificial circadian clock in clock-defective mice. (Q36360640) (← links)
• Genetic insights on sleep schedules: this time, it's PERsonal (Q36405856) (← links)