| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/0014-2999(92)90099-P |
| P953 | full work available at URL | https://api.elsevier.com/content/article/PII:001429999290099P?httpAccept=text/plain |
| https://api.elsevier.com/content/article/PII:001429999290099P?httpAccept=text/xml | ||
| P698 | PubMed publication ID | 1316283 |
| P2093 | author name string | K. Tominaga | |
| S. Watanabe | |||
| S. Ueki | |||
| S. Shibata | |||
| P2860 | cites work | Effects of melatonin on neuronal activity in the rat suprachiasmatic nucleus in vitro | Q69949947 |
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| The concept of selectivity in 5-HT receptor research | Q37885973 | ||
| Serotonin regulation of circadian rhythmicity | Q38004447 | ||
| Neurophysiology of the suprachiasmatic circadian pacemaker in rodents | Q38663203 | ||
| Serotonin neurons of the midbrain raphe: ascending projections | Q39491709 | ||
| Effects of parachlorophenylalanine and 5, 6-dihydroxytryptamine on the free-running rhythms of locomotor activity and plasma corticosterone in the rat exposed to continuous light | Q40229434 | ||
| Stimulated activity mediates phase shifts in the hamster circadian clock induced by dark pulses or benzodiazepines | Q41292964 | ||
| Involvement of 5-HT1A- and alpha 2-receptors in the decreased 5-hydroxytryptamine release and metabolism in rat suprachiasmatic nucleus after intravenous 8-hydroxy-2-(n-dipropylamino) tetralin | Q42570966 | ||
| Circadian activity rhythms in rats with midbrain raphe lesions | Q43541815 | ||
| Antagonism of 5-hydroxytryptamine1A (5-HT1A) receptor-mediated modulation of adenylate cyclase activity by pindolol and propranolol isomers | Q43620520 | ||
| Melatonin inhibits cyclic AMP and cyclic GMP accumulation in the rat pituitary | Q43815527 | ||
| Adaptation of circadian rhythmicity to shift in light-dark cycle accelerated by a benzodiazepine | Q44378589 | ||
| Central depressants rapidly reduce nocturnal serotonin N-acetyltransferase activity in the rat pineal gland | Q44509631 | ||
| Characterization of the putative anxiolytic SM-3997 recognition sites in rat brain | Q44766280 | ||
| Synaptic relationships between neurons containing vasopressin, gastrin-releasing peptide, vasoactive intestinal polypeptide, and glutamate decarboxylase immunoreactivity in the suprachiasmatic nucleus: dual ultrastructural immunocytochemistry with g | Q48287198 | ||
| Effect of monoamines on field potentials in the suprachiasmatic nucleus of slices of hypothalamus of the rat evoked by stimulation of the optic nerve | Q48302082 | ||
| Influence of excitatory amino acid receptor antagonists and of baclofen on synaptic transmission in the optic nerve to the suprachiasmatic nucleus in slices of rat hypothalamus | Q48362815 | ||
| VIP neurons as prime synaptic targets for serotonin afferents in rat suprachiasmatic nucleus: a combined radioautographic and immunocytochemical study | Q48451574 | ||
| Effects of inhibitory and excitatory drugs on the metabolic rhythm of the hamster suprachiasmatic nucleus in vitro | Q48467883 | ||
| The distribution of putative neurotransmitters in the lateral geniculate nucleus of the rat. | Q48704971 | ||
| GABA neurons in the rat suprachiasmatic nucleus: involvement in chemospecific synaptic circuitry and evidence for GAD-peptide colocalization | Q48839940 | ||
| A serotonin agonist phase-shifts the circadian clock in the suprachiasmatic nuclei in vitro | Q48857856 | ||
| Antidepressant drugs can slow or dissociate circadian rhythms | Q48872887 | ||
| GABAA/benzodiazepine receptor localization in the circadian timing system | Q48876498 | ||
| Effects of GABA and anxiolytics on the single unit discharge of suprachiasmatic neurons in rat hypothalamic slices | Q48947015 | ||
| Chronic clorgyline treatment of Syrian hamsters: an analysis of effects on the circadian pacemaker | Q48965828 | ||
| Destruction of the hamster serotonergic system by 5,7-DHT: effects on circadian rhythm phase, entrainment and response to triazolam | Q48972412 | ||
| A benzodiazepine used in the treatment of insomnia phase-shifts the mammalian circadian clock | Q49012582 | ||
| Inhibition of hippocampal CA1 neurons by 5-hydroxytryptamine, derived from the dorsal raphe nucleus and the 5-hydroxytryptamine1A agonist SM-3997. | Q49126286 | ||
| Melatonin signal transduction in hamster brain: inhibition of adenylyl cyclase by a pertussis toxin-sensitive G protein. | Q52244502 | ||
| Central administration of muscimol phase-shifts the mammalian circadian clock | Q69503705 | ||
| Ultrastructural relationships of serotonin and GABA terminals in the rat suprachiasmatic nucleus. Evidence for a close interconnection between the two afferent systems | Q69589785 | ||
| Diurnal variation in the function of serotonin terminals in the rat hypothalamus | Q69936818 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | circadian rhythm | Q208353 |
| P304 | page(s) | 79-84 | |
| P577 | publication date | 1992-04-01 | |
| 1992-04-07 | |||
| P1433 | published in | European Journal of Pharmacology | Q1376712 |
| P1476 | title | Effects of 5-HT1A receptor agonists on the circadian rhythm of wheel-running activity in hamsters | |
| P478 | volume | 214 |
| Q48284731 | 5-HT agonist-induced phase-advances of the circadian pacemaker are diminished by chronic antidepressant drug treatment |
| Q48708666 | 5-HT7 receptors mediate serotonergic effects on light-sensitive suprachiasmatic nucleus neurons |
| Q32061221 | 5HT7 receptors in the rodent suprachiasmatic nucleus |
| Q48475023 | A role for serotonin in the circadian system revealed by the distribution of serotonin transporter and light-induced Fos immunoreactivity in the suprachiasmatic nucleus and intergeniculate leaflet |
| Q48645973 | A thalamic contribution to arousal-induced, non-photic entrainment of the circadian clock of the Syrian hamster |
| Q43828991 | Activity-induced circadian clock resetting in the Syrian hamster: effects of melatonin |
| Q37100502 | Acute ethanol impairs photic and nonphotic circadian phase resetting in the Syrian hamster |
| Q36648594 | Acute ethanol modulates glutamatergic and serotonergic phase shifts of the mouse circadian clock in vitro |
| Q73455096 | Aging regulates 5-HT(1B) receptors and serotonin reuptake sites in the SCN |
| Q34074087 | Alcohol usage and abrupt cessation modulate diurnal activity |
| Q38612670 | An inquiry into the seasonal nature of cerebrovascular disease |
| Q34451242 | Assessing ethanol's actions in the suprachiasmatic circadian clock using in vivo and in vitro approaches. |
| Q51588124 | Attenuating effect of serotonin receptor antagonists on impairment of mealtime-associated activity rhythm in old rats |
| Q58492359 | Bicuculline Increases and Muscimol Reduces the Phase-Delaying Effects of Light and VIP/PHI/GRP in the Suprachiasmatic Region |
| Q33570161 | Biological rhythms, higher brain function, and behavior: Gaps, opportunities, and challenges |
| Q48620888 | Both neuropeptide Y and serotonin are necessary for entrainment of circadian rhythms in mice by daily treadmill running schedules. |
| Q35763340 | Calbindin influences response to photic input in suprachiasmatic nucleus |
| Q48013296 | Chronic BMY7378 treatment alters behavioral circadian rhythms |
| Q38026510 | Circadian entrainment and its role in depression: a mechanistic review |
| Q71350105 | Circadian rhythm in the response of central 5-HT1A receptors to 8-OH-DPAT in rats |
| Q41240193 | Circadian rhythms and the pharmacology of affective illness |
| Q34325182 | Circadian rhythms, jet lag, and chronobiotics: an overview |
| Q48198289 | Cocaine modulates pathways for photic and nonphotic entrainment of the mammalian SCN circadian clock |
| Q48331172 | Destruction of serotonergic neurons in the median raphe nucleus blocks circadian rhythm phase shifts to triazolam but not to novel wheel access |
| Q48478796 | Disruption of the activity-rest cycle by MAOI treatment: dependence on light and a secondary visual pathway to the circadian pacemaker |
| Q48727927 | Dorsal raphe nuclear stimulation of SCN serotonin release and circadian phase-resetting |
| Q48171353 | Electrical stimulation of the median or dorsal raphe nuclei reduces light-induced FOS protein in the suprachiasmatic nucleus and causes circadian activity rhythm phase shifts |
| Q47949355 | Endogenous regulation of serotonin release in the hamster suprachiasmatic nucleus. |
| Q41304610 | Entrainment of the circadian clock. |
| Q48367237 | Entrainment of the circadian system of mammals by nonphotic cues |
| Q35878836 | Expression of 5-HT7 receptor mRNA in the hamster brain: effect of aging and association with calbindin-D28K expression |
| Q44331865 | Fentanyl, a upsilon-opioid receptor agonist, phase shifts the hamster circadian pacemaker |
| Q43744882 | Glutamate blocks serotonergic phase advances of the mammalian circadian pacemaker through AMPA and NMDA receptors. |
| Q51807795 | Illuminating serotonergic gateways for strong resetting of the mammalian circadian clock. |
| Q48238580 | In vivo assessment of the midbrain raphe nuclear regulation of serotonin release in the hamster suprachiasmatic nucleus |
| Q43662873 | In vivo resetting of the hamster circadian clock by 5-HT7 receptors in the suprachiasmatic nucleus. |
| Q47952816 | Inhibition of hibernation by exercise is not affected by intergeniculate leaflets lesion in hamsters |
| Q43264404 | Inhibitory action of brotizolam on circadian and light-induced per1 and per2 expression in the hamster suprachiasmatic nucleus |
| Q48859534 | Involvement of 5-HT1A receptor mechanisms in the inhibitory effects of methamphetamine on photic responses in the rodent suprachiasmatic nucleus |
| Q48698239 | Lesion of the serotonergic terminals in the suprachiasmatic nuclei limits the phase advance of body temperature rhythm in food-restricted rats fed during daytime. |
| Q46395969 | Light and melatonin inhibit in vivo serotonergic phase advances without altering serotonergic-induced decrease of per expression in the hamster suprachiasmatic nucleus |
| Q46634891 | Localization of serotonin(5A) receptors in discrete regions of the circadian timing system in the Syrian hamster |
| Q41077165 | Locomotor activity and non-photic influences on circadian clocks |
| Q28387359 | NAN-190 potentiates the circadian response to light and speeds re-entrainment to advanced light cycles |
| Q48118548 | Neonatal desipramine treatment alters free-running circadian drinking rhythms in rats |
| Q48636810 | Neuropeptide Y blocks light-induced phase advances but not delays of the circadian activity rhythm in hamsters |
| Q74046543 | Nonphotic entrainment by 5-HT1A/7 receptor agonists accompanied by reduced Per1 and Per2 mRNA levels in the suprachiasmatic nuclei |
| Q40404477 | Nonphotic entrainment of the circadian body temperature rhythm by the selective ORL1 receptor agonist W-212393 in rats |
| Q48779000 | Persistence of nonphotic phase shifts in hamsters after serotonin depletion in the suprachiasmatic nucleus |
| Q47894218 | Pharmacologic restoration of suppressed temperature rhythms in rats by melatonin, melatonin receptor agonist, S20242, or 8-OH-DPAT. |
| Q48768202 | Phase shifts to refeeding in the Syrian hamster mediated by running activity |
| Q50720134 | Photic and nonphotic responses of the circadian clock in serotonin-deficient Pet-1 knockout mice. |
| Q34754321 | Photic entrainment of circadian rhythms in rodents |
| Q44402396 | Response of the mouse circadian system to serotonin 1A/2/7 agonists in vivo: surprisingly little |
| Q73258436 | Role of the thalamic intergeniculate leaflet and its 5-HT afferences in the chronobiological properties of 8-OH-DPAT and triazolam in syrian hamster |
| Q48369954 | Roles of suprachiasmatic nuclei and intergeniculate leaflets in mediating the phase-shifting effects of a serotonergic agonist and their photic modulation during subjective day. |
| Q48497966 | Serotonergic mediation of constant light-potentiated nonphotic phase shifting of the circadian locomotor activity rhythm in Syrian hamsters |
| Q73333094 | Serotonergic modulation of astrocytic activity in the hamster suprachiasmatic nucleus |
| Q32061232 | Serotonergic modulation of retinal input to the mouse suprachiasmatic nucleus mediated by 5-HT1B and 5-HT7 receptors |
| Q44456006 | Serotonergic serotonin (1A) mixed agonists/antagonists elicit large-magnitude phase shifts in hamster circadian wheel-running rhythms |
| Q48394724 | Serotonin 5-HT2c agonists mimic the effect of light pulses on circadian rhythms |
| Q48244318 | Serotonin agonist quipazine induces photic-like phase shifts of the circadian activity rhythm and c-Fos expression in the rat suprachiasmatic nucleus |
| Q48347792 | Serotonin and feedback effects of behavioral activity on circadian rhythms in mice |
| Q48351904 | Serotonin and the mammalian circadian system: I. In vitro phase shifts by serotonergic agonists and antagonists |
| Q46167120 | Serotonin and the mammalian circadian system: II. Phase-shifting rat behavioral rhythms with serotonergic agonists |
| Q33603381 | Serotonin and the regulation of mammalian circadian rhythmicity. |
| Q48345255 | Serotonin antagonists do not attenuate activity-induced phase shifts of circadian rhythms in the Syrian hamster |
| Q48138379 | Serotonin modulates glutamate responses in isolated suprachiasmatic nucleus neurons |
| Q48594279 | Serotonin-containing fibers in the suprachiasmatic hypothalamus attenuate light-induced phase delays in mice |
| Q44898875 | Short-term exposure to constant light promotes strong circadian phase-resetting responses to nonphotic stimuli in Syrian hamsters. |
| Q27014990 | Synchronization of Biological Clock Neurons by Light and Peripheral Feedback Systems Promotes Circadian Rhythms and Health |
| Q73688484 | Synchronizing circadian rhythms in early infancy |
| Q34213935 | The effects of aging and chronic fluoxetine treatment on circadian rhythms and suprachiasmatic nucleus expression of neuropeptide genes and 5-HT1B receptors |
| Q48613192 | The effects of perinatal fluoxetine treatment on the circadian system of the adult mouse |
| Q35744661 | The role of Period1 in non-photic resetting of the hamster circadian pacemaker in the suprachiasmatic nucleus |
| Q48559635 | The serotonergic anxiolytic buspirone attenuates circadian responses to light |
| Q48724809 | The serotonergic projection from the median raphe nucleus to the suprachiasmatic nucleus modulates activity phase onset, but not other circadian rhythm parameters |
| Q41678751 | Tryptophan Loading Modulates Light-Induced Responses in the Mammalian Circadian System |
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