Disrupted Glutamate Signaling in Drosophila Generates Locomotor Rhythms in Constant Light
Published 2020 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Disrupted Glutamate Signaling in Drosophila Generates Locomotor Rhythms in Constant Light
Authors
Keywords
-
Journal
Frontiers in Physiology
Volume 11, Issue -, Pages -
Publisher
Frontiers Media SA
Online
2020-03-06
DOI
10.3389/fphys.2020.00145
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Neuron-specific knockouts indicate the importance of network communication to Drosophila rhythmicity
- (2019) Matthias Schlichting et al. eLife
- Dissection of central clock function in Drosophila through cell-specific CRISPR-mediated clock gene disruption
- (2019) Rebecca Delventhal et al. eLife
- Reconfiguration of a Multi-oscillator Network by Light in the Drosophila Circadian Clock
- (2018) Abhishek Chatterjee et al. CURRENT BIOLOGY
- Non-canonical Phototransduction Mediates Synchronization of the Drosophila melanogaster Circadian Clock and Retinal Light Responses
- (2018) Maite Ogueta et al. CURRENT BIOLOGY
- Neural network interactions modulate CRY-dependent photoresponses inDrosophila
- (2018) Pallavi Lamba et al. JOURNAL OF NEUROSCIENCE
- CK1/Doubletime activity delays transcription activation in the circadian clock
- (2018) Deniz Top et al. eLife
- Hub-organized parallel circuits of central circadian pacemaker neurons for visual photoentrainment in Drosophila
- (2018) Meng-Tong Li et al. Nature Communications
- A New Rhodopsin Influences Light-dependent Daily Activity Patterns of Fruit Flies
- (2017) Christa Kistenpfennig et al. JOURNAL OF BIOLOGICAL RHYTHMS
- CRYPTOCHROME mediates behavioral executive choice in response to UV light
- (2017) Lisa S. Baik et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Coordination between Differentially Regulated Circadian Clocks Generates Rhythmic Behavior
- (2017) Deniz Top et al. Cold Spring Harbor Perspectives in Biology
- Circadian neuron feedback controls the Drosophila sleep–activity profile
- (2016) Fang Guo et al. NATURE
- The Drosophila Clock Neuron Network Features Diverse Coupling Modes and Requires Network-wide Coherence for Robust Circadian Rhythms
- (2016) Zepeng Yao et al. Cell Reports
- CRYPTOCHROME-mediated phototransduction by modulation of the potassium ion channel β-subunit redox sensor
- (2015) Keri J. Fogle et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- The Logic of Circadian Organization in Drosophila
- (2014) Stephane Dissel et al. CURRENT BIOLOGY
- Analysis of the expression patterns, subcellular localisations and interaction partners of Drosophila proteins using a pigP protein trap library
- (2014) N. Lowe et al. DEVELOPMENT
- The Drosophila Circadian Clock Is a Variably Coupled Network of Multiple Peptidergic Units
- (2014) Z. Yao et al. SCIENCE
- Circadian timekeeping and output mechanisms in animals
- (2013) Paul E Hardin et al. CURRENT OPINION IN NEUROBIOLOGY
- Ramshackle (Brwd3) promotes light-induced ubiquitylation of Drosophila Cryptochrome by DDB1-CUL4-ROC1 E3 ligase complex
- (2013) N. Ozturk et al. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA
- Unexpected features of Drosophila circadian behavioural rhythms under natural conditions
- (2012) Stefano Vanin et al. NATURE
- Balance of Activity between LNvs and Glutamatergic Dorsal Clock Neurons Promotes Robust Circadian Rhythms in Drosophila
- (2012) Ben Collins et al. NEURON
- QUASIMODO, a Novel GPI-Anchored Zona Pellucida Protein Involved in Light Input to the Drosophila Circadian Clock
- (2011) Ko Fan Chen et al. CURRENT BIOLOGY
- Glial Cells Physiologically Modulate Clock Neurons and Circadian Behavior in a Calcium-Dependent Manner
- (2011) Fanny S. Ng et al. CURRENT BIOLOGY
- Synchronized Bilateral Synaptic Inputs to Drosophila melanogaster Neuropeptidergic Rest/Arousal Neurons
- (2011) E. v. McCarthy et al. JOURNAL OF NEUROSCIENCE
- CRYPTOCHROME Is a Blue-Light Sensor That Regulates Neuronal Firing Rate
- (2011) K. J. Fogle et al. SCIENCE
- Light-Mediated TIM Degradation within Drosophila Pacemaker Neurons (s-LNvs) Is Neither Necessary nor Sufficient for Delay Zone Phase Shifts
- (2010) Chih-Hang Anthony Tang et al. NEURON
- Drosophila Pacemaker Neurons Require G Protein Signaling and GABAergic Inputs to Generate Twenty-Four Hour Behavioral Rhythms
- (2010) David Dahdal et al. NEURON
- BrainTrap: a database of 3D protein expression patterns in the Drosophila brain
- (2010) Seymour Knowles-Barley et al. Database-The Journal of Biological Databases and Curation
- Light-Dependent Interactions between the Drosophila Circadian Clock Factors Cryptochrome, Jetlag, and Timeless
- (2009) Nicolai Peschel et al. CURRENT BIOLOGY
- Metabotropic glutamate receptor-dependent long-term potentiation
- (2009) R. Anwyl NEUROPHARMACOLOGY
- A Constant Light-Genetic Screen Identifies KISMET as a Regulator of Circadian Photoresponses
- (2009) Raphaëlle Dubruille et al. PLoS Genetics
- Organization and Postembryonic Development of Glial Cells in the Adult Central Brain of Drosophila
- (2008) T. Awasaki et al. JOURNAL OF NEUROSCIENCE
- Glutamate, GABA and Acetylcholine Signaling Components in the Lamina of the Drosophila Visual System
- (2008) Agata Kolodziejczyk et al. PLoS One
Become a Peeref-certified reviewer
The Peeref Institute provides free reviewer training that teaches the core competencies of the academic peer review process.
Get StartedAsk a Question. Answer a Question.
Quickly pose questions to the entire community. Debate answers and get clarity on the most important issues facing researchers.
Get Started