Diurnal changes in melatonin binding sites of hamster and rat brains. Correlation with neuroendocrine responsiveness to melatonin

A diurnal variation in neuroendocrine sensitivity to melatonin is known to occur in hamsters and rats. The present experiments were carried out to examine the possibility that affinity and/or number of melatonin binding sites in brain could change accordingly at the two times when exogenous melatoni...

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Detalles Bibliográficos
Publicado: 1979
Materias:
tritium
animal experiment
bernard soulier disease
brain
central nervous system
circadian rhythm
drug binding
hamster
in vitro study
melatonin h 3
radioimmunoassay
rat
Animal
Brain Chemistry
Circadian Rhythm
Comparative Study
Hamsters
Light
Male
Melatonin
Rats
Receptors, Cell Surface
Species Specificity
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03043940_v15_n2-3_p259_Vacas
http://hdl.handle.net/20.500.12110/paper_03043940_v15_n2-3_p259_Vacas
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_03043940_v15_n2-3_p259_Vacas
record_format dspace
spelling paper:paper_03043940_v15_n2-3_p259_Vacas2023-06-08T15:29:28Z Diurnal changes in melatonin binding sites of hamster and rat brains. Correlation with neuroendocrine responsiveness to melatonin tritium animal experiment bernard soulier disease brain central nervous system circadian rhythm drug binding hamster in vitro study melatonin h 3 radioimmunoassay rat Animal Brain Chemistry Circadian Rhythm Comparative Study Hamsters Light Male Melatonin Rats Receptors, Cell Surface Species Specificity A diurnal variation in neuroendocrine sensitivity to melatonin is known to occur in hamsters and rats. The present experiments were carried out to examine the possibility that affinity and/or number of melatonin binding sites in brain could change accordingly at the two times when exogenous melatonin is known to be ineffective or effective to produce neuroendocrine changes, i.e., at 07 : 00 or 20 : 00 h (lights on from 07 : 00 to 21 : 00 h daily). The number of melatonin binding sites in hamster and rat brains was at 20 : 00 h 34-56% higher than at 07 : 00 h, without changing their affinity towards [3H]melatonin (hamster: Kd = 53 nM; rat: Kd = 73-77 nM). These alterations in melatonin receptor density may play a role in daily changes in sensitivity to the exogenous methoxyindole. © 1979. 1979 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03043940_v15_n2-3_p259_Vacas http://hdl.handle.net/20.500.12110/paper_03043940_v15_n2-3_p259_Vacas
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic tritium
animal experiment
bernard soulier disease
brain
central nervous system
circadian rhythm
drug binding
hamster
in vitro study
melatonin h 3
radioimmunoassay
rat
Animal
Brain Chemistry
Circadian Rhythm
Comparative Study
Hamsters
Light
Male
Melatonin
Rats
Receptors, Cell Surface
Species Specificity
spellingShingle tritium
animal experiment
bernard soulier disease
brain
central nervous system
circadian rhythm
drug binding
hamster
in vitro study
melatonin h 3
radioimmunoassay
rat
Animal
Brain Chemistry
Circadian Rhythm
Comparative Study
Hamsters
Light
Male
Melatonin
Rats
Receptors, Cell Surface
Species Specificity
Diurnal changes in melatonin binding sites of hamster and rat brains. Correlation with neuroendocrine responsiveness to melatonin
topic_facet tritium
animal experiment
bernard soulier disease
brain
central nervous system
circadian rhythm
drug binding
hamster
in vitro study
melatonin h 3
radioimmunoassay
rat
Animal
Brain Chemistry
Circadian Rhythm
Comparative Study
Hamsters
Light
Male
Melatonin
Rats
Receptors, Cell Surface
Species Specificity
description A diurnal variation in neuroendocrine sensitivity to melatonin is known to occur in hamsters and rats. The present experiments were carried out to examine the possibility that affinity and/or number of melatonin binding sites in brain could change accordingly at the two times when exogenous melatonin is known to be ineffective or effective to produce neuroendocrine changes, i.e., at 07 : 00 or 20 : 00 h (lights on from 07 : 00 to 21 : 00 h daily). The number of melatonin binding sites in hamster and rat brains was at 20 : 00 h 34-56% higher than at 07 : 00 h, without changing their affinity towards [3H]melatonin (hamster: Kd = 53 nM; rat: Kd = 73-77 nM). These alterations in melatonin receptor density may play a role in daily changes in sensitivity to the exogenous methoxyindole. © 1979.
title Diurnal changes in melatonin binding sites of hamster and rat brains. Correlation with neuroendocrine responsiveness to melatonin
title_short Diurnal changes in melatonin binding sites of hamster and rat brains. Correlation with neuroendocrine responsiveness to melatonin
title_full Diurnal changes in melatonin binding sites of hamster and rat brains. Correlation with neuroendocrine responsiveness to melatonin
title_fullStr Diurnal changes in melatonin binding sites of hamster and rat brains. Correlation with neuroendocrine responsiveness to melatonin
title_full_unstemmed Diurnal changes in melatonin binding sites of hamster and rat brains. Correlation with neuroendocrine responsiveness to melatonin
title_sort diurnal changes in melatonin binding sites of hamster and rat brains. correlation with neuroendocrine responsiveness to melatonin
publishDate 1979
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_03043940_v15_n2-3_p259_Vacas
http://hdl.handle.net/20.500.12110/paper_03043940_v15_n2-3_p259_Vacas
_version_ 1768542939218182144

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