Related references
Note: Only part of the references are listed.Decoding Neural Circuits that Control Compulsive Sucrose Seeking
Edward H. Nieh et al.
CELL (2015)
Circadian Rhythms and Addiction: Mechanistic Insights and Future Directions
Ryan W. Logan et al.
BEHAVIORAL NEUROSCIENCE (2014)
Binge-like consumption of caloric and non-caloric palatable substances in ad libitum-fed C57BL/6J mice: Pharmacological and molecular evidence of orexin involvement
Manuel Alcaraz-Iborra et al.
BEHAVIOURAL BRAIN RESEARCH (2014)
Impact of Circadian Nuclear Receptor REV-ERBα on Midbrain Dopamine Production and Mood Regulation
Sooyoung Chung et al.
CELL (2014)
Behavioral Changes and Dopaminergic Dysregulation in Mice Lacking the Nuclear Receptor Rev-erbα
Jennifer Jager et al.
MOLECULAR ENDOCRINOLOGY (2014)
Motivational activation: a unifying hypothesis of orexin/hypocretin function
Stephen V. Mahler et al.
NATURE NEUROSCIENCE (2014)
The role of orexin in motivated behaviours
Takeshi Sakurai
NATURE REVIEWS NEUROSCIENCE (2014)
Nuclear receptor Rev-erbα: up, down, and all around
Logan J. Everett et al.
TRENDS IN ENDOCRINOLOGY AND METABOLISM (2014)
Enhanced Histaminergic Neurotransmission and Sleep-Wake Alterations, a Study in Histamine H3-Receptor Knock-Out Mice
Elise Gondard et al.
NEUROPSYCHOPHARMACOLOGY (2013)
The nuclear receptor REV-ERBα is required for the daily balance of carbohydrate and lipid metabolism
Julien Delezie et al.
FASEB JOURNAL (2012)
Regulation of circadian behaviour and metabolism by synthetic REV-ERB agonists
Laura A. Solt et al.
NATURE (2012)
Regulation of circadian behaviour and metabolism by REV-ERB-α and REV-ERB-β
Han Cho et al.
NATURE (2012)
Differential orexin/hypocretin expression in addiction-prone and -resistant rats selectively bred for high (HiS) and low (LoS) saccharin intake
Nathan A. Holtz et al.
NEUROSCIENCE LETTERS (2012)
Decreased Intake of Sucrose Solutions in Orexin Knockout Mice
Eiko Matsuo et al.
JOURNAL OF MOLECULAR NEUROSCIENCE (2011)
Connectomics of orexin-producing neurons: interface of systems of emotion, energy homeostasis and arousal
Takeshi Sakurai et al.
TRENDS IN PHARMACOLOGICAL SCIENCES (2011)
Orexin Signaling Via the Orexin 1 Receptor Mediates Operant Responding for Food Reinforcement
Ruth Sharf et al.
BIOLOGICAL PSYCHIATRY (2010)
The tempted brain eats: Pleasure and desire circuits in obesity and eating disorders
Kent C. Berridge et al.
BRAIN RESEARCH (2010)
Food-reward signalling in the suprachiasmatic clock
Jorge Mendoza et al.
JOURNAL OF NEUROCHEMISTRY (2010)
THE ROLE OF OREXIN-A IN FOOD MOTIVATION, REWARD-BASED FEEDING BEHAVIOR AND FOOD-INDUCED NEURONAL ACTIVATION IN RATS
D. L. Choi et al.
NEUROSCIENCE (2010)
Role of orexin/hypocretin in reward-seeking and addiction: Implications for obesity
Angie M. Cason et al.
PHYSIOLOGY & BEHAVIOR (2010)
Circadian Integration of Metabolism and Energetics
Joseph Bass et al.
SCIENCE (2010)
A Major Role for Perifornical Orexin Neurons in the Control of Glucose Metabolism in Rats
Chun-Xia Yi et al.
DIABETES (2009)
Orexin-A Hyperphagia: Hindbrain Participation in Consummatory Feeding Responses
John-Paul Baird et al.
ENDOCRINOLOGY (2009)
Differential effects of the hypocretin 1 receptor antagonist SB 334867 on high-fat food self-administration and reinstatement of food seeking in rats
S. G. Nair et al.
BRITISH JOURNAL OF PHARMACOLOGY (2008)
Regulation of monoamine oxidase a by circadian-clock components implies clock influence on mood
Gabriele Hampp et al.
CURRENT BIOLOGY (2008)
The genetics of mammalian circadian order and disorder: implications for physiology and disease
Joseph S. Takahashi et al.
NATURE REVIEWS GENETICS (2008)
A Technique for Serial Collection of Cerebrospinal Fluid from the Cisterna Magna in Mouse
Li Liu et al.
Jove-Journal of Visualized Experiments (2008)
Intense Sweetness Surpasses Cocaine Reward
Magalie Lenoir et al.
PLOS ONE (2007)
Behavioural assessment of drug reinforcement and addictive features in rodents: an overview
Carles Sanchis-Segura et al.
ADDICTION BIOLOGY (2006)
Orexin A in the VTA is critical for the induction of synaptic plasticity and Behavioral Sensitization to cocaine
SL Borgland et al.
NEURON (2006)
Corticostriatal-hypothalamic circuitry and food motivation: Integration of energy, action and reward
AE Kelley et al.
PHYSIOLOGY & BEHAVIOR (2005)
A role for lateral hypothalamic orexin neurons in reward seeking
GC Harris et al.
NATURE (2005)
Inbred mouse strain survey of sucrose intake
SR Lewis et al.
PHYSIOLOGY & BEHAVIOR (2005)
Regulation of dopaminergic transmission and cocaine reward by the Clock gene
CA McClung et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2005)
Obesity and metabolic syndrome in circadian Clock mutant mice
FW Turek et al.
SCIENCE (2005)
The clock gene Per2 influences the glutamatergic system and modulates alcohol consumption
R Spanagel et al.
NATURE MEDICINE (2005)
Reduced food anticipatory activity in genetically orexin (hypocretin) neuron-ablated mice
M Akiyama et al.
EUROPEAN JOURNAL OF NEUROSCIENCE (2004)
Orexin neurons function in an efferent pathway of a food-entrainable circadian oscillator in eliciting food-anticipatory activity and wakefulness
M Mieda et al.
JOURNAL OF NEUROSCIENCE (2004)
Lesions of the suprachiasmatic nucleus eliminate the daily rhythm of hypocretin-1 release
SW Zhang et al.
SLEEP (2004)
Convergence of circadian and sleep regulatory mechanisms on hypocretin-1
T Deboer et al.
NEUROSCIENCE (2004)
The need to feed: Homeostatic and hedonic control of eating
CB Saper et al.
NEURON (2002)
The orphan nuclear receptor REV-ERBα controls circadian transcription within the positive limb of the mammalian circadian oscillator
N Preitner et al.
CELL (2002)
Cocaine sensitization and reward are under the influence of circadian genes and rhythm
C Abarca et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2002)
Anatomical substrates of orexin-dopamine interactions: Lateral hypothalamic projections to the ventral tegmental area
J Fadel et al.
NEUROSCIENCE (2002)
Fluctuation of extracellular hypocretin-1 (orexin A) levels in the rat in relation to the light-dark cycle and sleep-wake activities
Y Yoshida et al.
EUROPEAN JOURNAL OF NEUROSCIENCE (2001)