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W J Schwartz

Showing results (1-10 of 86) with videos related to

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Neuroscience Letters|July 17, 2009
6-Hydroxydopamine lesions of rat locus coeruleus alter brain glucose consumption, as measured by the 2-deoxy-D-[(14)C]glucose tracer techniqueW J Schwartz
Annals of Neurology|March 1, 1997
Understanding circadian clocks: from c-fos to fly ballsW J Schwartz
Science (New York, N.Y.)|August 6, 1993
Circadian clockworkW J Schwartz
The American Journal of Physiology|February 1, 1987
In vivo metabolic activity of hamster suprachiasmatic nuclei: use of anesthesiaW J Schwartz
Advances in Internal Medicine|January 1, 1993
A clinician's primer on the circadian clock: its localization, function, and resettingW J Schwartz
Journal of Biological Rhythms|January 1, 1991
Further evaluation of the tetrodotoxin-resistant circadian pacemaker in the suprachiasmatic nucleiW J Schwartz
Brain Research|February 26, 2011
A role for the dopaminergic nigrostriatal bundle in the pathogenesis of altered brain glucose consumption after lateral hypothalamic lesions. Evidence using the 14C-labeled deoxyglucose techniqueW J Schwartz
Nature Medicine|July 1, 1997
Molecular time machines. The first gene involved in mammalian circadian timekeeping has been identifiedW J Schwartz
Journal of Neurocytology|March 1, 1973
A septate-like contact in the rat retinaW J Schwartz
The American Journal of Physiology|November 1, 1990
Different in vivo metabolic activities of suprachiasmatic nuclei of Turkish and golden hamstersW J Schwartz
Pageof 9

Showing results (1-10 of 86) with videos related to

Sort By:
Pageof 9
Neuroscience Letters|July 17, 2009
6-Hydroxydopamine lesions of rat locus coeruleus alter brain glucose consumption, as measured by the 2-deoxy-D-[(14)C]glucose tracer techniqueW J Schwartz
Annals of Neurology|March 1, 1997
Understanding circadian clocks: from c-fos to fly ballsW J Schwartz
Science (New York, N.Y.)|August 6, 1993
Circadian clockworkW J Schwartz
The American Journal of Physiology|February 1, 1987
In vivo metabolic activity of hamster suprachiasmatic nuclei: use of anesthesiaW J Schwartz
Advances in Internal Medicine|January 1, 1993
A clinician's primer on the circadian clock: its localization, function, and resettingW J Schwartz
Journal of Biological Rhythms|January 1, 1991
Further evaluation of the tetrodotoxin-resistant circadian pacemaker in the suprachiasmatic nucleiW J Schwartz
Brain Research|February 26, 2011
A role for the dopaminergic nigrostriatal bundle in the pathogenesis of altered brain glucose consumption after lateral hypothalamic lesions. Evidence using the 14C-labeled deoxyglucose techniqueW J Schwartz
Nature Medicine|July 1, 1997
Molecular time machines. The first gene involved in mammalian circadian timekeeping has been identifiedW J Schwartz
Journal of Neurocytology|March 1, 1973
A septate-like contact in the rat retinaW J Schwartz
The American Journal of Physiology|November 1, 1990
Different in vivo metabolic activities of suprachiasmatic nuclei of Turkish and golden hamstersW J Schwartz
Pageof 9