| scholarly article | Q13442814 |
| P356 | DOI | 10.1177/074873048600100405 |
| P698 | PubMed publication ID | 2979593 |
| P2093 | author name string | B Rusak | |
| M E Harrington | |||
| P433 | issue | 4 | |
| P921 | main subject | circadian rhythm | Q208353 |
| P304 | page(s) | 309-325 | |
| P577 | publication date | 1986-01-01 | |
| P1433 | published in | Journal of Biological Rhythms | Q2093446 |
| P1476 | title | Lesions of the thalamic intergeniculate leaflet alter hamster circadian rhythms | |
| P478 | volume | 1 |
| Q44176199 | 5-HT1B receptor knockout mice exhibit an enhanced response to constant light |
| Q73525734 | A 5-HT(1B) receptor agonist inhibits light-induced suppression of pineal melatonin production |
| Q40472280 | A Non‐Photic Gateway to the Circadian Clock of Hamsters |
| Q64906752 | A Symphony of Signals: Intercellular and Intracellular Signaling Mechanisms Underlying Circadian Timekeeping in Mice and Flies. |
| 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 |
| Q48130472 | Ablation of the geniculo-hypothalamic tract alters circadian activity rhythms of hamsters housed under constant light |
| Q48433785 | Afferent projections to the hamster intergeniculate leaflet demonstrated by retrograde and anterograde tracing |
| Q48420852 | An NK1 receptor antagonist affects the circadian regulation of locomotor activity in golden hamsters |
| Q44006417 | Anatomical and temporal differences in the regulation of ZIF268 (NGFI-A) protein in the hamster and mouse suprachiasmatic nucleus |
| Q48297499 | Attenuation of circadian light induced phase advances and delays by neuropeptide Y and a neuropeptide Y Y1/Y5 receptor agonist |
| Q48379852 | Behavioral and neurochemical sources of variability of circadian period and phase: studies of circadian rhythms of npy-/- mice |
| Q48965828 | Chronic clorgyline treatment of Syrian hamsters: an analysis of effects on the circadian pacemaker |
| Q37077657 | Circadian and dark-pulse activation of orexin/hypocretin neurons. |
| Q47976042 | Clock gene daily profiles and their phase relationship in the rat suprachiasmatic nucleus are affected by photoperiod |
| Q31014500 | Crossed and uncrossed retinal projections to the hamster circadian system |
| Q47962655 | Daily variation of muscarinic receptors in visual cortex but not suprachiasmatic nucleus of Syrian hamsters |
| Q48553184 | Descending projections of the hamster intergeniculate leaflet: relationship to the sleep/arousal and visuomotor systems |
| Q57829562 | Development of the hamster serotoninergic system: Cell groups and diencephalic projections |
| Q41829639 | Dim nighttime illumination alters photoperiodic responses of hamsters through the intergeniculate leaflet and other photic pathways |
| Q48478796 | Disruption of the activity-rest cycle by MAOI treatment: dependence on light and a secondary visual pathway to the circadian pacemaker |
| Q48707585 | Distribution of ionotropic glutamate receptor subunit immunoreactivity in the suprachiasmatic nucleus and intergeniculate leaflet of the hamster |
| Q67826364 | Double-Pulse Experiments with Nonphotic and Photic Phase-Shifting Stimuli |
| Q74312899 | Effects of intergeniculate leaflet lesions on circadian rhythms in Octodon degus |
| 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 |
| Q38755335 | Geniculohypothalamic GABAergic projections gate suprachiasmatic nucleus responses to retinal input |
| Q48634284 | Immunocytochemical characterization of the suprachiasmatic nucleus and the intergeniculate leaflet in the diurnal ground squirrel, Spermophilus lateralis |
| Q41713097 | Induction of Fos expression in the circadian system by unsignaled light is attenuated as a result of previous experience with signaled light: a role for Pavlovian conditioning |
| Q30309697 | Interaction of the retina with suprachiasmatic pacemakers in the control of circadian behavior. |
| Q67532888 | Intergeniculate leaflet and suprachiasmatic nucleus organization and connections in the golden hamster |
| Q42462259 | Intergeniculate leaflet and ventral lateral geniculate nucleus afferent connections: An anatomical substrate for functional input from the vestibulo-visuomotor system |
| Q48105506 | Intergeniculate leaflet: an anatomically and functionally distinct subdivision of the lateral geniculate complex. |
| Q46738287 | Juxtacellular recording/labeling analysis of physiological and anatomical characteristics of rat intergeniculate leaflet neurons. |
| Q33633340 | Lateral geniculate lesions block circadian phase-shift responses to a benzodiazepine |
| Q34807271 | Lesions of the Intergeniculate Leaflet Lead to a Reorganization in Circadian Regulation and a Reversal in Masking Responses to Photic Stimuli in the Nile Grass Rat. |
| Q55034441 | Light induces chromatin modification in cells of the mammalian circadian clock. |
| Q33728854 | Light regulates expression of a Fos-related protein in rat suprachiasmatic nuclei |
| Q71952558 | Light-Induced Phase Shifts in Onset and Offset of Running-Wheel Activity in the Syrian Hamster |
| Q48455281 | Local administration of serotonin agonists blocks light-induced phase advances of the circadian activity rhythm in the hamster |
| Q48406909 | Luminance-dependent decrease in vasoactive intestinal polypeptide in the rat suprachiasmatic nucleus |
| Q34087235 | Neural connections of the suprachiasmatic nucleus and medial hypothalamus of the Syrian hamster (Mesocricetus auratus). |
| Q36400207 | Neuroanatomy of the extended circadian rhythm system |
| Q39421494 | Neuropeptide Y depresses GABA-mediated calcium transients in developing suprachiasmatic nucleus neurons: a novel form of calcium long-term depression |
| Q34208015 | Neuropeptide Y in the mammalian circadian system: effects on light-induced circadian responses |
| Q39429515 | Neuropeptide Y-mediated long-term depression of excitatory activity in suprachiasmatic nucleus neurons |
| Q38100769 | Nocturnal light and nocturnal rodents: similar regulation of disparate functions? |
| Q45068902 | Not a one-trick pony: Diverse connectivity and functions of the rodent lateral geniculate complex. |
| Q44332673 | Opioid induced non-photic phase shifts of hamster circadian activity rhythms |
| Q69666747 | Organization of lateral geniculate-hypothalamic connections in the rat |
| Q71688210 | Organization of the hamster intergeniculate leaflet: NPY and ENK projections to the suprachiasmatic nucleus, intergeniculate leaflet and posterior limitans nucleus |
| Q48270359 | Orphanin-FQ/nociceptin (OFQ/N) modulates the activity of suprachiasmatic nucleus neurons |
| Q48918123 | Patterns of wheel running are related to Fos expression in neuropeptide-Y-containing neurons in the intergeniculate leaflet of Arvicanthis niloticus. |
| Q48231533 | Phase dependent response of vasoactive intestinal polypeptide to light and darkness in the suprachiasmatic nucleus |
| Q48271614 | Photic entrainment and induction of immediate-early genes within the rat circadian system |
| Q34754321 | Photic entrainment of circadian rhythms in rodents |
| Q69151989 | Photic responses of geniculo-hypothalamic tract neurons in the Syrian hamster |
| Q44673726 | Photoperiod differentially modulates photic and nonphotic phase response curves of hamsters |
| Q37776089 | Physiology of circadian entrainment |
| Q36166813 | Projections from the subparaventricular zone define four channels of output from the circadian timing system |
| Q41304650 | Regulation and integration in the mammalian circadian system. |
| Q34374680 | Resetting of the circadian clock by a conditioned stimulus |
| Q51812976 | Resetting of the hamster circadian system by dark pulses. |
| Q44579700 | Retinal ganglion cell projections to the hamster suprachiasmatic nucleus, intergeniculate leaflet, and visual midbrain: bifurcation and melanopsin immunoreactivity |
| Q69138549 | Retinal projections in the ground squirrel (Citellus tridecemlineatus) |
| Q39100915 | Retinohypothalamic projections and immunocytochemical analysis of the suprachiasmatic region of the desert iguana Dipsosaurus dorsalis |
| Q36580826 | Roles of PACAP-containing retinal ganglion cells in circadian timing |
| Q73800961 | Selective regional blockade of junB gene expression in the hamster suprachiasmatic nucleus by a tyrosine kinase inhibitor |
| Q47928063 | Serotonergic enhancement of circadian responses to light: role of the raphe and intergeniculate leaflet |
| Q33603381 | Serotonin and the regulation of mammalian circadian rhythmicity. |
| Q48399433 | Spontaneous rhythm in c-Fos immunoreactivity in the dorsomedial part of the rat suprachiasmatic nucleus |
| Q41292964 | Stimulated activity mediates phase shifts in the hamster circadian clock induced by dark pulses or benzodiazepines |
| Q43540949 | Subcellular distribution of 5-HT(1B) and 5-HT(7) receptors in the mouse suprachiasmatic nucleus |
| Q48150051 | Suprachiasmatic nucleus and intergeniculate leaflet in the diurnal rodent Octodon degus: retinal projections and immunocytochemical characterization |
| Q48638218 | TFMPP, a 5HT1B receptor agonist, inhibits light-induced phase shifts of the circadian activity rhythm and c-Fos expression in the mouse suprachiasmatic nucleus |
| Q48378545 | Temporospatial characteristics of light-induced fos immunoreactivity in suprachiasmatic nuclei are not modified in Syrian hamsters treated neonatally with monosodium glutamate |
| Q68402443 | Thalamic origin of neuropeptide Y innervation of the accessory optic nucleus of the pigeon (Columba livia) |
| Q46237959 | The Suprachiasmatic Nucleus of the Dromedary Camel (Camelus dromedarius): Cytoarchitecture and Neurochemical Anatomy. |
| Q28580430 | The circadian rhythm of Per1 gene product in the rat suprachiasmatic nucleus and its modulation by seasonal changes in daylength |
| Q42614491 | The hamster circadian rhythm system includes nuclei of the subcortical visual shell |
| Q48605018 | The induction of Fos-like proteins in the suprachiasmatic nuclei and intergeniculate leaflet by light pulses in degus (Octodon degus) and rats |
| Q44020468 | The intergeniculate leaflet, but not the visual midbrain, mediates hamster circadian rhythm response to constant light. |
| Q48565470 | The pineal gland influences rat circadian activity rhythms in constant light |
| Q48319130 | The role of the intergeniculate leaflet in entrainment of circadian rhythms to a skeleton photoperiod |
| 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 |
| Q46533929 | The suprachiasmatic nucleus and intergeniculate leaflet of Arvicanthis niloticus, a diurnal murid rodent from East Africa |
| Q34444674 | The ventral lateral geniculate nucleus and the intergeniculate leaflet: interrelated structures in the visual and circadian systems |
| Q48264401 | Transgenic ablation of rod photoreceptors alters the circadian phenotype of mice |
| Q43855667 | Unilateral optic nerve transection alters light response of suprachiasmatic nucleus and intergeniculate leaflet |
| Q26745808 | Using light to tell the time of day: sensory coding in the mammalian circadian visual network |
| Q42493132 | Visual system of the fossorial mole-lemmings, Ellobius talpinus and Ellobius lutescens |
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