CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate. - Wikidata - wikimedia - TriplyDB

CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate.

CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate.

http://www.wikidata.org/entity/Q34169278

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Unraveling the complexities of circadian and sleep interactions with memory formation through invertebrate research Circadian light-input pathways in Drosophila Structural basis of ultraviolet-B perception by UVR8 A Conserved Bicycle Model for Circadian Clock Control of Membrane Excitability Linking neural activity and molecular oscillations in the SCN.Exquisite light sensitivity of Drosophila melanogaster cryptochrome.Reciprocal cholinergic and GABAergic modulation of the small ventrolateral pacemaker neurons of Drosophila's circadian clock neuron network.Cryptochrome Is a Regulator of Synaptic Plasticity in the Visual System of Drosophila melanogaster.PDF neuron firing phase-shifts key circadian activity neurons in Drosophila Cryptochrome-dependent magnetic field effect on seizure response in Drosophila larvae The logic of circadian organization in Drosophila Metabolism and the circadian clock converge.Synchronous Drosophila circadian pacemakers display nonsynchronous Ca²⁺ rhythms in vivo Deep-brain photoreception links luminance detection to motor output in Xenopus frog tadpoles.Fluorescence circadian imaging reveals a PDF-dependent transcriptional regulation of the Drosophila molecular clock.Flies in the north: locomotor behavior and clock neuron organization of Drosophila montana.The influence of light on temperature preference in Drosophila.Circadian regulation of the Na+/K+-ATPase alpha subunit in the visual system is mediated by the pacemaker and by retina photoreceptors in Drosophila melanogaster.CRYPTOCHROME-mediated phototransduction by modulation of the potassium ion channel β-subunit redox sensor.Light evokes rapid circadian network oscillator desynchrony followed by gradual phase retuning of synchrony.Genetic analysis of circadian responses to low frequency electromagnetic fields in Drosophila melanogaster.Connecting Circadian Genes to Neurodegenerative Pathways in Fruit Flies dTRPA1 Modulates Afternoon Peak of Activity of Fruit Flies Drosophila melanogaster Optogenetics and thermogenetics: technologies for controlling the activity of targeted cells within intact neural circuits.The circadian clock, light, and cryptochrome regulate feeding and metabolism in Drosophila.Magnetoreception Regulates Male Courtship Activity in Drosophila.Autoreceptor control of peptide/neurotransmitter corelease from PDF neurons determines allocation of circadian activity in drosophila.Drosophila TRPA1 isoforms detect UV light via photochemical production of H2O2 Blue-light induced accumulation of reactive oxygen species is a consequence of the Drosophila cryptochrome photocycle.Adaptive evolution of vertebrate-type cryptochrome in the ancestors of Hymenoptera The Drosophila Receptor Protein Tyrosine Phosphatase LAR Is Required for Development of Circadian Pacemaker Neuron Processes That Support Rhythmic Activity in Constant Darkness But Not during Light/Dark Cycles.Fly cryptochrome and the visual system.A Neural Network Underlying Circadian Entrainment and Photoperiodic Adjustment of Sleep and Activity in Drosophila.Flavin reduction activates Drosophila cryptochrome.Quasimodo mediates daily and acute light effects on Drosophila clock neuron excitability.Regulation of sleep plasticity by a thermo-sensitive circuit in Drosophila.CRYPTOCHROME mediates behavioral executive choice in response to UV light Lessons from sleeping flies: insights from Drosophila melanogaster on the neuronal circuitry and importance of sleep.From neurogenetic studies in the fly brain to a concept in circadian biology.Rhythmic control of activity and sleep by class B1 GPCRs.

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CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate.

http://www.wikidata.org/entity/Q34169278

description

2011 nî lūn-bûn

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2011 թուականի Մարտին հրատարակուած գիտական յօդուած

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2011 թվականի մարտին հրատարակված գիտական հոդված

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2011年の論文

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2011年論文

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2011年論文

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2011年論文

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2011年論文

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2011年論文

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2011年论文

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name

CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate.

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CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate.

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CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate.

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type

label

CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate.

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CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate.

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CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate.

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prefLabel

CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate.

@ast

CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate.

@en

CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate.

@nl

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SCIENCE.1199702

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CRYPTOCHROME is a blue-light sensor that regulates neuronal firing rate

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Kelly G Parson

http://www.w3.org/2001/XMLSchema#string

Keri J Fogle

http://www.w3.org/2001/XMLSchema#string

Nicole A Dahm

http://www.w3.org/2001/XMLSchema#string

P2860

Animal cryptochromes mediate magnetoreception by an unconventional photochemical mechanism

Cryptochrome mediates light-dependent magnetosensitivity in Drosophila

Roles of dopamine in circadian rhythmicity and extreme light sensitivity of circadian entrainment.

Cryptochrome mediates light-dependent magnetosensitivity of Drosophila's circadian clock.

Roles of the two Drosophila CRYPTOCHROME structural domains in circadian photoreception.

CRY, a Drosophila clock and light-regulated cryptochrome, is a major contributor to circadian rhythm resetting and photosensitivity.

The cryb mutation identifies cryptochrome as a circadian photoreceptor in Drosophila.

JETLAG resets the Drosophila circadian clock by promoting light-induced degradation of TIMELESS.

Insect cryptochromes: gene duplication and loss define diverse ways to construct insect circadian clocks.

The GABA(A) receptor RDL acts in peptidergic PDF neurons to promote sleep in Drosophila.

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1409-1413

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scholarly article

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10.1126/SCIENCE.1199702

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331

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2011-03-03T00:00:00Z

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21385718

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4418525

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