Pages that link to "Q33419850"

The following pages link to Robust food anticipatory activity in BMAL1-deficient mice (Q33419850):

Displaying 50 items.

• The role of circadian clocks in metabolic disease (Q24597882) (← links)
• Period determination in the food-entrainable and methamphetamine-sensitive circadian oscillator(s) (Q24606084) (← links)
• Increased sensitivity of the circadian system to temporal changes in the feeding regime of spontaneously hypertensive rats - a potential role for Bmal2 in the liver (Q27305171) (← links)
• Deficient of a Clock Gene, Brain and Muscle Arnt-Like Protein-1 (BMAL1), Induces Dyslipidemia and Ectopic Fat Formation (Q27318655) (← links)
• Enhanced food anticipatory activity associated with enhanced activation of extrahypothalamic neural pathways in serotonin2C receptor null mutant mice (Q27322814) (← links)
• Emergence of noise-induced oscillations in the central circadian pacemaker (Q27323028) (← links)
• Working for food shifts nocturnal mouse activity into the day (Q27350146) (← links)
• PKCγ participates in food entrainment by regulating BMAL1 (Q28509322) (← links)
• Central and peripheral circadian clocks in mammals (Q29616556) (← links)
• Circadian organization is governed by extra-SCN pacemakers (Q30452455) (← links)
• Cooperative roles of the suprachiasmatic nucleus central clock and the adrenal clock in controlling circadian glucocorticoid rhythm (Q33555476) (← links)
• Central nervous system melanocortin-3 receptors are required for synchronizing metabolism during entrainment to restricted feeding during the light cycle (Q33694606) (← links)
• Palatable Meal Anticipation in Mice (Q33717009) (← links)
• Effect of feeding regimens on circadian rhythms: implications for aging and longevity (Q33722180) (← links)
• Single gene deletions of orexin, leptin, neuropeptide Y, and ghrelin do not appreciably alter food anticipatory activity in mice (Q33862513) (← links)
• Altered body mass regulation in male mPeriod mutant mice on high-fat diet (Q34027855) (← links)
• Neural basis of timing and anticipatory behaviors. (Q34090605) (← links)
• Genome-wide profiling of the core clock protein BMAL1 targets reveals a strict relationship with metabolism (Q34142933) (← links)
• Circadian clocks for all meal-times: anticipation of 2 daily meals in rats (Q34166475) (← links)
• Metabolism and the circadian clock converge (Q34321895) (← links)
• A highly tunable dopaminergic oscillator generates ultradian rhythms of behavioral arousal. (Q34455901) (← links)
• Circadian regulation of food-anticipatory activity in molecular clock-deficient mice (Q34473694) (← links)
• Interaction between hypothalamic dorsomedial nucleus and the suprachiasmatic nucleus determines intensity of food anticipatory behavior (Q34805168) (← links)
• Oscillators entrained by food and the emergence of anticipatory timing behaviors (Q34895136) (← links)
• Differential effects of light and feeding on circadian organization of peripheral clocks in a forebrain Bmal1 mutant (Q34983700) (← links)
• Behavioral and neural correlates of acute and scheduled hunger in C57BL/6 mice. (Q35164738) (← links)
• Long-term restricted feeding alters circadian expression and reduces the level of inflammatory and disease markers (Q35216299) (← links)
• Circadian mechanisms of food anticipatory rhythms in rats fed once or twice daily: clock gene and endocrine correlates (Q35516264) (← links)
• Food-anticipatory activity in Syrian hamsters: behavioral and molecular responses in the hypothalamus according to photoperiodic conditions (Q35602973) (← links)
• Relationship of arousal to circadian anticipatory behavior: ventromedial hypothalamus: one node in a hunger-arousal network (Q35671476) (← links)
• Altered Circadian Food Anticipatory Activity Rhythms in PACAP Receptor 1 (PAC1) Deficient Mice (Q35891628) (← links)
• Daily rhythms in olfactory discrimination depend on clock genes but not the suprachiasmatic nucleus (Q36857330) (← links)
• Calorie restriction regulates circadian clock gene expression through BMAL1 dependent and independent mechanisms. (Q36893551) (← links)
• Scheduled feeding alters the timing of the suprachiasmatic nucleus circadian clock in dexras1-deficient mice (Q37000974) (← links)
• The Running Wheel Enhances Food Anticipatory Activity: An Exploratory Study (Q37063552) (← links)
• Rev-erbα in the brain is essential for circadian food entrainment. (Q37067778) (← links)
• Standards of evidence in chronobiology: critical review of a report that restoration of Bmal1 expression in the dorsomedial hypothalamus is sufficient to restore circadian food anticipatory rhythms in Bmal1-/- mice (Q37162934) (← links)
• Food anticipation in Bmal1-/- and AAV-Bmal1 rescued mice: a reply to Fuller et al. (Q37325467) (← links)
• Circadian rhythms and obesity in mammals (Q37556350) (← links)
• Standards of evidence in chronobiology: A response (Q37558754) (← links)
• Neurogenetics of food anticipation. (Q37623040) (← links)
• Neurobiology of food anticipatory circadian rhythms (Q37869971) (← links)
• Competing clocks: Metabolic status moderates signals from the master circadian pacemaker (Q37892688) (← links)
• Circadian Clocks in Fuel Harvesting and Energy Homeostasis (Q37926287) (← links)
• Food entrainment: major and recent findings. (Q38064453) (← links)
• The central circadian timing system (Q38109255) (← links)
• Understanding circadian gene function: animal models of tissue-specific circadian disruption (Q38185624) (← links)
• Chrono-immunology: progress and challenges in understanding links between the circadian and immune systems (Q38572559) (← links)
• Neural Correlates of Food Anticipatory Activity in Mice Subjected to Once or Twice-daily Feeding Periods (Q38600079) (← links)
• Deleting the Arntl clock gene in the granular layer of the mouse cerebellum: impact on the molecular circadian clockwork. (Q38679428) (← links)