scholarly article | Q13442814 |
P50 | author | David M Bannerman | Q61105943 |
P2093 | author name string | Vladyslav V Vyazovskiy | |
Stuart N Peirson | |||
Laurence A Brown | |||
Shu K E Tam | |||
Angus S Fisk | |||
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Persistent impairments in hippocampal, dorsal striatal, and prefrontal cortical function following repeated photoperiod shifts in rats | Q48320439 | ||
Sleep deprivation impairs contextual fear conditioning and attenuates subsequent behavioural, endocrine and neuronal responses | Q48336877 | ||
The significance of circadian organization for longevity in the golden hamster | Q48369938 | ||
Circadian regulation of arousal: role of the noradrenergic locus coeruleus system and light exposure | Q48386165 | ||
The effects of rapid eye movement sleep deprivation and recovery on spatial reference memory of young rats | Q48397049 | ||
Sleep homeostasis in suprachiasmatic nuclei-lesioned rats: effects of sleep deprivation and triazolam administration | Q48432719 | ||
Chronic disruption of circadian rhythms impairs hippocampal memory in the rat. | Q48438089 | ||
The circadian rhythm of glucocorticoids is regulated by a gating mechanism residing in the adrenal cortical clock | Q48454141 | ||
In vivo monitoring of peripheral circadian clocks in the mouse | Q48518211 | ||
Effect of circadian phase on performance of rats in the Morris water maze task | Q48535914 | ||
Sleep deprivation impairs hippocampus-mediated contextual learning but not amygdala-mediated cued learning in rats | Q48590920 | ||
The significance of glucocorticoid pulsatility | Q37109675 | ||
Conversion of short-term to long-term memory in the novel object recognition paradigm | Q37205842 | ||
Altered Electroencephalographic Activity Associated with Changes in the Sleep-Wakefulness Cycle of C57BL/6J Mice in Response to a Photoperiod Shortening | Q37218320 | ||
Circadian timing of REM sleep is coupled to an oscillator within the dorsomedial suprachiasmatic nucleus | Q37219957 | ||
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Disrupted sleep without sleep curtailment induces sleepiness and cognitive dysfunction via the tumor necrosis factor-α pathway | Q28387166 | ||
The role of the basal forebrain adenosine receptors in sleep homeostasis | Q28565911 | ||
COMPASS: Continuous Open Mouse Phenotyping of Activity and Sleep Status | Q28589279 | ||
Circadian rhythms from multiple oscillators: lessons from diverse organisms | Q28751778 | ||
Circadian performance of suprachiasmatic nuclei (SCN)-lesioned antelope ground squirrels in a desert enclosure | Q29012760 | ||
Receptor trafficking and synaptic plasticity | Q29041960 | ||
A serum shock induces circadian gene expression in mammalian tissue culture cells | Q29615207 | ||
A two process model of sleep regulation | Q29615631 | ||
Transplanted suprachiasmatic nucleus determines circadian period | Q29616365 | ||
Resetting central and peripheral circadian oscillators in transgenic rats | Q29616557 | ||
The mammalian circadian timing system: organization and coordination of central and peripheral clocks | Q29619119 | ||
Stochastic modeling of mouse motor activity under deep brain stimulation: the extraction of arousal information | Q30300547 | ||
Measuring and using light in the melanopsin age. | Q30361752 | ||
Linking neural activity and molecular oscillations in the SCN. | Q30416917 | ||
Light enhances learned fear | Q30428329 | ||
Dysregulation of inflammatory responses by chronic circadian disruption | Q30429758 | ||
Dissociation of circadian and light inhibition of melatonin release through forced desynchronization in the rat. | Q30436476 | ||
Aberrant light directly impairs mood and learning through melanopsin-expressing neurons | Q30532692 | ||
Circadian pacemaking in cells and circuits of the suprachiasmatic nucleus. | Q30581156 | ||
Evening use of light-emitting eReaders negatively affects sleep, circadian timing, and next-morning alertness | Q30619462 | ||
Light exposure before learning improves memory consolidation at night | Q30670256 | ||
Daytime naps, motor memory consolidation and regionally specific sleep spindles | Q33280994 | ||
Brain responses to violet, blue, and green monochromatic light exposures in humans: prominent role of blue light and the brainstem | Q33307547 | ||
Rapid changes in the light/dark cycle disrupt memory of conditioned fear in mice. | Q33686839 | ||
Regulation of mammalian circadian behavior by non-rod, non-cone, ocular photoreceptors. | Q33858821 | ||
Regulation of the mammalian pineal by non-rod, non-cone, ocular photoreceptors. | Q33858825 | ||
Central projections of melanopsin-expressing retinal ganglion cells in the mouse | Q33914320 | ||
Loss of a circadian adrenal corticosterone rhythm following suprachiasmatic lesions in the rat. | Q34053330 | ||
Individual neurons dissociated from rat suprachiasmatic nucleus express independently phased circadian firing rhythms | Q34058703 | ||
Relationship between alertness, performance, and body temperature in humans | Q34155205 | ||
Role of melanopsin in circadian responses to light | Q34164611 | ||
Exogenous and endogenous components in circadian rhythms | Q34247273 | ||
Timing of human sleep: recovery process gated by a circadian pacemaker | Q34266646 | ||
Light at night increases body mass by shifting the time of food intake | Q34276797 | ||
Enhanced long-term and impaired short-term spatial memory in GluA1 AMPA receptor subunit knockout mice: evidence for a dual-process memory model | Q37246175 | ||
Dim light at night disturbs the daily sleep-wake cycle in the rat. | Q37352670 | ||
The acute effects of light on murine sleep during the dark phase: importance of melanopsin for maintenance of light-induced sleep. | Q37365482 | ||
Circadian oscillation of hippocampal MAPK activity and cAmp: implications for memory persistence. | Q37409553 | ||
Sleep inertia, sleep homeostatic and circadian influences on higher-order cognitive functions | Q37443329 | ||
Circadian Forced Desynchrony of the Master Clock Leads to Phenotypic Manifestation of Depression in Rats. | Q37564278 | ||
Light as a modulator of cognitive brain function | Q37596141 | ||
Sleep deprivation during a specific 3-hour time window post-training impairs hippocampal synaptic plasticity and memory. | Q37664877 | ||
Sleep and the single neuron: the role of global slow oscillations in individual cell rest | Q37678901 | ||
Sleep and circadian rhythm disruption in psychiatric and neurodegenerative disease | Q37772758 | ||
Recognition memory: material, processes, and substrates | Q37789709 | ||
Effects of sleep deprivation on cognition | Q37809324 | ||
Can light make us bright? Effects of light on cognition and sleep | Q37870514 | ||
Jet lag and shift work sleep disorders: how to help reset the internal clock | Q37941971 | ||
Psychobiological allostasis: resistance, resilience and vulnerability | Q37955455 | ||
Complex interaction of circadian and non-circadian effects of light on mood: shedding new light on an old story | Q37975823 | ||
How rod, cone, and melanopsin photoreceptors come together to enlighten the mammalian circadian clock | Q38033278 | ||
Sleep homeostasis | Q38091183 | ||
The circadian control of sleep | Q38100627 | ||
An old test for new neurons: refining the Morris water maze to study the functional relevance of adult hippocampal neurogenesis | Q38105063 | ||
The rhythms of life: what your body clock means to you! | Q38173344 | ||
Sleep and the price of plasticity: from synaptic and cellular homeostasis to memory consolidation and integration | Q38177466 | ||
Neurophysiological analysis of the suprachiasmatic nucleus: a challenge at multiple levels | Q38364372 | ||
Photic regulation of clock systems. | Q38364374 | ||
Signalling by melanopsin (OPN4) expressing photosensitive retinal ganglion cells. | Q38592720 | ||
Jet Lag and Shift Work Disorder. | Q38633471 | ||
Not a single but multiple populations of GABAergic neurons control sleep. | Q38809484 | ||
Generalized CNS arousal: An elementary force within the vertebrate nervous system | Q38842349 | ||
Constant Light Desynchronizes Olfactory versus Object and Visuospatial Recognition Memory Performance | Q38926209 | ||
Circuit-based interrogation of sleep control | Q38973212 | ||
The Functional and Clinical Significance of the 24-Hour Rhythm of Circulating Glucocorticoids. | Q38982619 | ||
Neural Circuitry of Wakefulness and Sleep | Q39148152 | ||
Sleep homeostasis, habits and habituation. | Q39346532 | ||
Circadian neural rhythms in mammals | Q39361998 | ||
Chemogenetic Activation of Melanopsin Retinal Ganglion Cells Induces Signatures of Arousal and/or Anxiety in Mice | Q39593074 | ||
Effect of SCN lesions on sleep in squirrel monkeys: evidence for opponent processes in sleep-wake regulation | Q34360970 | ||
The trouble with circadian clock dysfunction: multiple deleterious effects on the brain and body | Q34400343 | ||
Photic memory for executive brain responses | Q34409490 | ||
Light as a central modulator of circadian rhythms, sleep and affect. | Q34424070 | ||
A circadian gene expression atlas in mammals: implications for biology and medicine | Q34445166 | ||
Disruption of circadian clocks has ramifications for metabolism, brain, and behavior | Q34534170 | ||
Transiently increasing cAMP levels selectively in hippocampal excitatory neurons during sleep deprivation prevents memory deficits caused by sleep loss | Q34537105 | ||
Timing of light exposure affects mood and brain circuits | Q34550327 | ||
Wavelength-dependent modulation of brain responses to a working memory task by daytime light exposure. | Q34615130 | ||
Circadian rhythm disorganization produces profound cardiovascular and renal disease in hamsters | Q34749905 | ||
Paradoxical sleep deprivation impairs spatial learning and affects membrane excitability and mitochondrial protein in the hippocampus | Q34803383 | ||
Competitive short-term and long-term memory processes in spatial habituation | Q34898346 | ||
The acute light-induction of sleep is mediated by OPN4-based photoreception | Q34927307 | ||
Influence of light at night on murine anxiety- and depressive-like responses. | Q34991747 | ||
Astrocyte-derived adenosine and A1 receptor activity contribute to sleep loss-induced deficits in hippocampal synaptic plasticity and memory in mice | Q35116975 | ||
Light stimulates the mouse adrenal through a retinohypothalamic pathway independent of an effect on the clock in the suprachiasmatic nucleus | Q35127930 | ||
In search of the pathways for light-induced pacemaker resetting in the suprachiasmatic nucleus | Q35163404 | ||
Optogenetic disruption of sleep continuity impairs memory consolidation | Q35164741 | ||
Sustained sleep fragmentation induces sleep homeostasis in mice | Q35166269 | ||
Glucocorticoid effects on object recognition memory require training-associated emotional arousal | Q35554524 | ||
Metabolic consequences of sleep and sleep loss | Q35647672 | ||
Circadian rhythm. Dysrhythmia in the suprachiasmatic nucleus inhibits memory processing | Q35694131 | ||
Circadian desynchronization of core body temperature and sleep stages in the rat | Q35778143 | ||
Circadian and wakefulness-sleep modulation of cognition in humans | Q35895575 | ||
Sleep deprivation selectively impairs memory consolidation for contextual fear conditioning. | Q36065399 | ||
The rhythm of rest and excess | Q36110563 | ||
Resonating circadian clocks enhance fitness in cyanobacteria | Q36210459 | ||
Neuroanatomy of the extended circadian rhythm system | Q36400207 | ||
Misaligned feeding impairs memories | Q36510606 | ||
Glucocorticoids are not responsible for paradoxical sleep deprivation-induced memory impairments | Q36519114 | ||
Dynamics of the sleep EEG after an early evening nap: experimental data and simulations | Q36825138 | ||
Acute effects of bright light exposure on cortisol levels | Q36940311 | ||
Alerting effects of light | Q36970913 | ||
Rods-cones and melanopsin detect light and dark to modulate sleep independent of image formation | Q37000923 | ||
Interactions between cognition and circadian rhythms: attentional demands modify circadian entrainment | Q39939218 | ||
Sleep and activity rhythms in mice: A description of circadian patterns and unexpected disruptions in sleep | Q40083282 | ||
Is sleep fundamentally different between mammalian species? | Q40404526 | ||
Functional consequences of sustained sleep deprivation in the rat. | Q40404530 | ||
Impairment of Circadian Rhythms in Peripheral Clocks by Constant Light Is Partially Reversed by Scheduled Feeding or Exercise | Q40431698 | ||
Neural control of the pineal gland | Q41097225 | ||
Circadian clocks. | Q41651091 | ||
Astrocytic modulation of sleep homeostasis and cognitive consequences of sleep loss | Q41776277 | ||
The rodent hippocampus is essential for nonspatial object memory | Q41836566 | ||
The effect of phase-shift on the passive avoidance response in rats and the modifying action of chlordiazepoxide | Q41870866 | ||
Sleep, recovery, and metaregulation: explaining the benefits of sleep | Q41888928 | ||
Bidirectional interactions between circadian entrainment and cognitive performance | Q41990740 | ||
A time for learning and a time for sleep: the effect of sleep deprivation on contextual fear conditioning at different times of the day. | Q42425409 | ||
Stress-induced pressor and corticosterone responses in oxytocin-deficient mice. | Q42462778 | ||
Anatomical and functional demonstration of a multisynaptic suprachiasmatic nucleus adrenal (cortex) pathway | Q42471095 | ||
Activation of ventrolateral preoptic neurons during sleep | Q42513216 | ||
Disruption of circadian rhythms due to chronic constant light leads to depressive and anxiety-like behaviors in the rat. | Q42601047 | ||
Adrenal glucocorticoids have a key role in circadian resynchronization in a mouse model of jet lag. | Q42737260 | ||
Spatial and reversal learning in the Morris water maze are largely resistant to six hours of REM sleep deprivation following training | Q42778679 | ||
Effects of Animal Care Procedures on Plasma Corticosterone Levels in Group-Housed Mice during the Nocturnal Active Phase | Q42844243 | ||
Melanopsin-driven light adaptation in mouse vision | Q43000031 | ||
Strong resetting of the mammalian clock by constant light followed by constant darkness | Q43198814 | ||
Sleep deprivation impairs spatial working memory and reduces hippocampal AMPA receptor phosphorylation. | Q43202004 | ||
Multiple effects of circadian dysfunction induced by photoperiod shifts: alterations in context memory and food metabolism in the same subjects | Q43453710 | ||
Djungarian hamsters: a species with a labile circadian pacemaker? Arrhythmicity under a light-dark cycle induced by short light pulses | Q44020470 | ||
A broad role for melanopsin in nonvisual photoreception. | Q44540543 | ||
Sleep deprivation causes behavioral, synaptic, and membrane excitability alterations in hippocampal neurons. | Q44628450 | ||
Nyctohemeral differences in response to restraint stress in CD-1 and C57BL/6 mice. | Q44740588 | ||
Circadian phase-shifted rats show normal acquisition but impaired long-term retention of place information in the water task | Q44878675 | ||
Nonvisual responses to light exposure in the human brain during the circadian night | Q45118846 | ||
High sensitivity of human melatonin, alertness, thermoregulation, and heart rate to short wavelength light | Q45178338 | ||
Light at night alters daily patterns of cortisol and clock proteins in female Siberian hamsters. | Q45341638 | ||
Dim light at night does not disrupt timing or quality of sleep in mice | Q45784289 | ||
Dim light at night increases depressive-like responses in male C3H/HeNHsd mice. | Q45953053 | ||
PERIOD1 coordinates hippocampal rhythms and memory processing with daytime. | Q45973742 | ||
Constant illumination induces Alzheimer-like damages with endoplasmic reticulum involvement and the protection of melatonin | Q46120195 | ||
Circadian modulation of learning and memory in fear-conditioned mice | Q46571907 | ||
Effect of constant light on prolactin and corticosterone rhythms evaluated using a noninvasive urine sampling protocol in the rat. | Q46642104 | ||
Light activates the adrenal gland: timing of gene expression and glucocorticoid release | Q46791849 | ||
Molecular and electrophysiological evidence for net synaptic potentiation in wake and depression in sleep | Q46801717 | ||
Altered NMDA receptor trafficking contributes to sleep deprivation-induced hippocampal synaptic and cognitive impairments | Q46866893 | ||
Sleep deprivation impairs object recognition in mice | Q46901657 | ||
Short-wavelength sensitivity for the direct effects of light on alertness, vigilance, and the waking electroencephalogram in humans | Q46957130 | ||
Dim nighttime light impairs cognition and provokes depressive-like responses in a diurnal rodent. | Q47312407 | ||
Constant light uncovers behavioral effects of a mutation in the schizophrenia risk gene Dtnbp1 in mice | Q47677312 | ||
Nocturnal light exposure impairs affective responses in a wavelength-dependent manner. | Q47830622 | ||
The two-process model of sleep regulation: a reappraisal. | Q47899463 | ||
Acute alerting effects of light: A systematic literature review. | Q48112816 | ||
NREM and REM Sleep: Complementary Roles in Recovery after Wakefulness. | Q48121668 | ||
Retinal input to the sleep-active ventrolateral preoptic nucleus in the rat. | Q48147717 | ||
Effects of a constant light environment on hippocampal neurogenesis and memory in mice | Q48173303 | ||
Detrimental effects of constant light exposure and high-fat diet on circadian energy metabolism and insulin sensitivity | Q48218638 | ||
Circadian clocks: genes, sleep, and cognition | Q48224921 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P921 | main subject | circadian rhythm | Q208353 |
P304 | page(s) | 56 | |
P577 | publication date | 2018-02-09 | |
P1433 | published in | Frontiers in Neurology | Q15817039 |
P1476 | title | Light and Cognition: Roles for Circadian Rhythms, Sleep, and Arousal | |
P478 | volume | 9 |
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