Search results for "Light effects on circadian rhythm"

showing 3 items of 3 documents

Components and connections of the circadian timing system in mammals

1996

The circadian timing system is a neural network consisting of the hypothalamic suprachiasmatic nucleus, aided by the retina, other hypothalamic nuclei, autonomic regions of the spinal cord, sympathetic ganglia and the pineal gland. Extensive studies conducted over the last two decades have unravelled the principal items of its functional neuroanatomy. The system is responsible for the generation of the circadian rhythm, its synchronization by environmental factors such as light, and its mediation with respect to morphological, physiological and biochemical parameters of mammals that exhibit distinct alterations throughout the 24-h cycle. This review characterizes the brain sites involved an…

MammalsHistologySuprachiasmatic nucleusHypothalamusCell BiologyBiologySpinal cordPineal GlandCircadian RhythmPathology and Forensic MedicinePinealocyteMelatoninPineal glandmedicine.anatomical_structureLight effects on circadian rhythmHypothalamusNeural PathwaysmedicineAnimalsSuprachiasmatic NucleusCircadian rhythmNeurosciencemedicine.drugCell and Tissue Research
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Circadian gene expression patterns of melanopsin and pinopsin in the chick pineal gland

2004

The directly light-sensitive chick pineal gland contains at least two photopigments. Pinopsin seems to mediate the acute inhibitory effect of light on melatonin synthesis, whereas melanopsin may act by phase-shifting the intrapineal circadian clock. In the present study we have investigated, by means of quantitative RT-PCR, the daily rhythm of photopigment gene expression as monitored by mRNA levels. Under a 12-h light/12-h dark cycle, the mRNA levels of both pigments were 5-fold higher in the transitional phase from light to dark than at night, both in vivo and in vitro. Under constant darkness in vivo and in vitro, the peak of pinopsin mRNA levels was attenuated, whereas that of melanopsi…

Melanopsinmedicine.medical_specialtyLightPhotoperiodCircadian clockBiophysicsNerve Tissue ProteinsBiologyPineal GlandBiochemistryAvian ProteinsPineal glandInternal medicineGene expressionmedicineAnimalsPhotopigmentCircadian rhythmMolecular BiologyCells CulturedRegulation of gene expressionAdaptation OcularRod OpsinsCell BiologyCircadian Rhythmmedicine.anatomical_structureEndocrinologyAnimals NewbornGene Expression RegulationLight effects on circadian rhythmsense organsChickensBiochemical and Biophysical Research Communications
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Circadian rhythm and effects of light on cAMP content of the dwarf hamster suprachiasmatic nucleus

1998

The present study was conducted in the dwarf hamster (Phodopus sungorus) to investigate whether a circadian rhythm is present in the content of the second messenger cyclic adenosine 3',5'-monophosphate (cAMP) in the suprachiasmatic nucleus (SCN), the endogenous clock in mammals. In animals held under light/dark conditions (LD), we observed high levels at the end of the light phase and low levels during the night in frozen SCN punches. In animals held in continuous dark, a similar rhythm was seen although a second peak was present in the subjective day. In senile hamsters under LD, the decrease of cAMP levels at the light transition was not seen. These data, obtained for the first time from …

endocrine systemmedicine.medical_specialtyPhodopusPhotoperiodHamsterchemistry.chemical_compoundCricetinaeInternal medicineCyclic AMPmedicineAnimalsCyclic adenosine monophosphateCircadian rhythmbiologySuprachiasmatic nucleusGeneral Neurosciencebiology.organism_classificationAdenosineCircadian RhythmPhodopusEndocrinologychemistryLight effects on circadian rhythmHypothalamusSuprachiasmatic Nucleussense organsPhotic Stimulationmedicine.drugNeuroscience Letters
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