Come together, right...now: synchronization of rhythms in a mammalian circadian clock. - Wikidata - awgldk - TriplyDB

Come together, right...now: synchronization of rhythms in a mammalian circadian clock.

Come together, right...now: synchronization of rhythms in a mammalian circadian clock.

http://www.wikidata.org/entity/Q36318772

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Phase resetting of the mammalian circadian clock relies on a rapid shift of a small population of pacemaker neurons Synchronization-induced rhythmicity of circadian oscillators in the suprachiasmatic nucleus PDF receptor expression reveals direct interactions between circadian oscillators in Drosophila Oscillating perceptions: the ups and downs of the CLOCK protein in the mouse circadian system Neurotransmitters of the suprachiasmatic nuclei.Collective timekeeping among cells of the master circadian clock Interdependence of nutrient metabolism and the circadian clock system: Importance for metabolic health Timing by rhythms: Daily clocks and developmental rulers Peptide neuromodulation in invertebrate model systems The Interplay between Circadian System, Cholesterol Synthesis, and Steroidogenesis Affects Various Aspects of Female Reproduction Intrinsic regulation of spatiotemporal organization within the suprachiasmatic nucleus BK calcium-activated potassium channels regulate circadian behavioral rhythms and pacemaker output The Regulatory Factor ZFHX3 Modifies Circadian Function in SCN via an AT Motif-Driven Axis Knockdown of clock genes in the suprachiasmatic nucleus blocks prolactin surges and alters FRA expression in the locus coeruleus of female rats Gpr176 is a Gz-linked orphan G-protein-coupled receptor that sets the pace of circadian behaviour Dissociation of circadian and light inhibition of melatonin release through forced desynchronization in the rat.A riot of rhythms: neuronal and glial circadian oscillators in the mediobasal hypothalamus.V3 spinal neurons establish a robust and balanced locomotor rhythm during walking.Coupling governs entrainment range of circadian clocks.Circadian regulation of intracellular G-protein signalling mediates intercellular synchrony and rhythmicity in the suprachiasmatic nucleus Spontaneous spatiotemporal waves of gene expression from biological clocks in the leaf.Intercellular coupling confers robustness against mutations in the SCN circadian clock network Global parameter search reveals design principles of the mammalian circadian clock Cell-type specific distribution of chloride transporters in the rat suprachiasmatic nucleus.CaMKII is essential for the cellular clock and coupling between morning and evening behavioral rhythms Dynamic interactions between coupled oscillators within the hamster circadian pacemaker Suprachiasmatic nucleus: cell autonomy and network properties Photic desynchronization of two subgroups of circadian oscillators in a network model of the suprachiasmatic nucleus with dispersed coupling strengths.Modeling the seasonal adaptation of circadian clocks by changes in the network structure of the suprachiasmatic nucleus Properties of VIP+ synapses in the suprachiasmatic nucleus highlight their role in circadian rhythm.Regulation of feeding and metabolism by neuronal and peripheral clocks in Drosophila A model of the cell-autonomous mammalian circadian clock Role of circadian neuroendocrine rhythms in the control of behavior and physiology Light stimulates the mouse adrenal through a retinohypothalamic pathway independent of an effect on the clock in the suprachiasmatic nucleus Neuropeptides go the distance for circadian synchrony A multicellular model for differential regulation of circadian signals in the core and shell regions of the suprachiasmatic nucleus.Differentially timed extracellular signals synchronize pacemaker neuron clocks GABA and Gi/o differentially control circadian rhythms and synchrony in clock neurons Na(V)1.1 channels are critical for intercellular communication in the suprachiasmatic nucleus and for normal circadian rhythms Age-Related Changes in the Circadian System Unmasked by Constant Conditions(1,2,3).

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P2860

Come together, right...now: synchronization of rhythms in a mammalian circadian clock.

http://www.wikidata.org/entity/Q36318772

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2005 nî lūn-bûn

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2005年の論文

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2005年学术文章

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2005年学术文章

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2005年学术文章

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2005年學術文章

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2005年學術文章

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2005年學術文章

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Come together, right...now: synchronization of rhythms in a mammalian circadian clock.

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Come together, right...now: synchronization of rhythms in a mammalian circadian clock.

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Come together, right...now: synchronization of rhythms in a mammalian circadian clock

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Erik D Herzog

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Sara J Aton

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P2860

Orchestrating time: arrangements of the brain circadian clock

A noncanonical E-box enhancer drives mouse Period2 circadian oscillations in vivo

Clock controls circadian period in isolated suprachiasmatic nucleus neurons

The mouse VPAC2 receptor confers suprachiasmatic nuclei cellular rhythmicity and responsiveness to vasoactive intestinal polypeptide in vitro

Exploring complex networks

The VPAC(2) receptor is essential for circadian function in the mouse suprachiasmatic nuclei

A calcium flux is required for circadian rhythm generation in mammalian pacemaker neurons

Circadian rhythms in isolated brain regions.

Vasoactive intestinal polypeptide (VIP) phase-shifts the rat suprachiasmatic nucleus clock in vitro.

Two distinct oscillators in the rat suprachiasmatic nucleus in vitro.

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