Abstract The mammalian circadian clock, expressed throughout the brain and body, controls daily metabolic homeostasis. Clock function in peripheral tissues is required, but not sufficient, for this task. Because of the lack of specialized animal models, it is unclear how tissue clocks interact with extrinsic signals to drive molecular oscillations. Here, we isolated the interaction between feeding and the liver clock by reconstituting Bmal1 exclusively in hepatocytes (Liver-RE), in otherwise clock-less mice, and controlling timing of food intake. We found that the cooperative action of BMAL1 and the transcription factor CEBPB regulates daily liver metabolic transcriptional programs. Functionally, the liver clock and feeding rhythm are suf...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
The circadian clock is an evolutionarily acquired gene network that synchronizes physiological proce...
Circadian rhythms govern glucose homeostasis, and their dysregulation leads to complex metabolic dis...
The mammalian circadian clock, expressed throughout the brain and body, controls daily metabolic hom...
The mammalian circadian clock, expressed throughout the brain and body, controls daily metabolic hom...
The mammalian circadian clock, expressed throughout the brain and body, controls daily metabolic hom...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
Physiology is regulated by interconnected cell and tissue circadian clocks. Disruption of the rhythm...
Mammals rely on a network of circadian clocks to control daily systemic metabolism and physiology. T...
Summary: Every mammalian tissue exhibits daily rhythms in gene expression to control the activation ...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
The circadian clock is an evolutionarily acquired gene network that synchronizes physiological proce...
Circadian rhythms govern glucose homeostasis, and their dysregulation leads to complex metabolic dis...
The mammalian circadian clock, expressed throughout the brain and body, controls daily metabolic hom...
The mammalian circadian clock, expressed throughout the brain and body, controls daily metabolic hom...
The mammalian circadian clock, expressed throughout the brain and body, controls daily metabolic hom...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
Physiology is regulated by interconnected cell and tissue circadian clocks. Disruption of the rhythm...
Mammals rely on a network of circadian clocks to control daily systemic metabolism and physiology. T...
Summary: Every mammalian tissue exhibits daily rhythms in gene expression to control the activation ...
Life on Earth anticipates recurring 24-hour environmental cycles via genetically encoded molecular c...
The circadian clock is an evolutionarily acquired gene network that synchronizes physiological proce...
Circadian rhythms govern glucose homeostasis, and their dysregulation leads to complex metabolic dis...