RNA-interference knockdown of Drosophila pigment dispersing factor in neuronal subsets: the anatomical basis of a neuropeptide's circadian functions
about
Persistence of morning anticipation behavior and high amplitude morning startle response following functional loss of small ventral lateral neurons in DrosophilaThe monarch butterfly genome yields insights into long-distance migrationPeptide neuromodulation in invertebrate model systemsAllatostatin A Signalling in Drosophila Regulates Feeding and Sleep and Is Modulated by PDFLight and temperature control the contribution of specific DN1 neurons to Drosophila circadian behaviorA mathematical model provides mechanistic links to temporal patterns in Drosophila daily activity.Adult circadian behavior in Drosophila requires developmental expression of cycle, but not periodFragile X mental retardation protein is required for programmed cell death and clearance of developmentally-transient peptidergic neurons.Reciprocal cholinergic and GABAergic modulation of the small ventrolateral pacemaker neurons of Drosophila's circadian clock neuron network.Remote control of renal physiology by the intestinal neuropeptide pigment-dispersing factor in Drosophila.Epigenetic regulation of axonal growth of Drosophila pacemaker cells by histone acetyltransferase tip60 controls sleep.Dual PDF signaling pathways reset clocks via TIMELESS and acutely excite target neurons to control circadian behaviorSignaling of pigment-dispersing factor (PDF) in the Madeira cockroach Rhyparobia maderaePigment-Dispersing Factor Signaling and Circadian Rhythms in Insect Locomotor ActivityCalcitonin gene-related peptide neurons mediate sleep-specific circadian output in DrosophilaFlies in the north: locomotor behavior and clock neuron organization of Drosophila montana.Circadian period integrates network information through activation of the BMP signaling pathway.Old flies have a robust central oscillator but weaker behavioral rhythms that can be improved by genetic and environmental manipulations.Analysis of functional neuronal connectivity in the Drosophila brain.Autoreceptor control of peptide/neurotransmitter corelease from PDF neurons determines allocation of circadian activity in drosophila.Oscillating PDF in termini of circadian pacemaker neurons and synchronous molecular clocks in downstream neurons are not sufficient for sustenance of activity rhythms in constant darknessDispensable, redundant, complementary, and cooperative roles of dopamine, octopamine, and serotonin in Drosophila melanogaster.A Neural Network Underlying Circadian Entrainment and Photoperiodic Adjustment of Sleep and Activity in Drosophila.Pigment-dispersing factor modulates pheromone production in clock cells that influence mating in drosophila.E and M circadian pacemaker neurons use different PDF receptor signalosome components in drosophila.From neurogenetic studies in the fly brain to a concept in circadian biology.Rhythmic control of activity and sleep by class B1 GPCRs.Experimental assessment of the network properties of the Drosophila circadian clock.Retrograde bone morphogenetic protein signaling shapes a key circadian pacemaker circuit.Modulation of light-driven arousal by LIM-homeodomain transcription factor Apterous in large PDF-positive lateral neurons of the Drosophila brainThe Drosophila Clock Neuron Network Features Diverse Coupling Modes and Requires Network-wide Coherence for Robust Circadian Rhythms.The circadian clock network in the brain of different Drosophila species.Cryptochrome-positive and -negative clock neurons in Drosophila entrain differentially to light and temperature.Neuropeptide F immunoreactive clock neurons modify evening locomotor activity and free-running period in Drosophila melanogaster.Pigment-Dispersing Factor-expressing neurons convey circadian information in the honey bee brain.A Peptidergic Circuit Links the Circadian Clock to Locomotor Activity.Metamorphosis of a clock: remodeling of the circadian timing system in the brain of Rhodnius prolixus (Hemiptera) during larval-adult development.Dstac is required for normal circadian activity rhythms in Drosophila.Pigment-dispersing factor is involved in age-dependent rhythm changes in Drosophila melanogaster.The CCHamide1 Neuropeptide Expressed in the Anterior Dorsal Neuron 1 Conveys a Circadian Signal to the Ventral Lateral Neurons in
P2860
Q21562193-06E1E490-F767-4534-94ED-5B375087C8E2Q24633881-AE29794B-5868-4114-8019-C9A20C0ACC9EQ26864612-2D1F4965-A3BC-4BC1-993D-832D07910DA6Q27307817-ABBF55D9-F8A8-416D-AAAD-B78F99074E54Q28752390-88EE49E5-1650-409D-9694-38A92AB4CA1CQ30385508-1CE57D6F-6D5B-48A9-A68A-58F2AEA787CDQ30431436-F240BB5F-F8DE-40DE-BEC2-3BE2AFA85E34Q30502814-397B5832-3404-4C2F-811B-B597E0EECD9EQ30513614-9EB4C2D0-2B6E-4B37-9352-2C3244C671F2Q30523922-BEE58739-D803-422C-BAA7-08F19790D6A8Q30528879-126DE964-CE95-4216-999C-1FE82044007EQ34410822-14A5BFFD-740B-48F3-9B33-733E21617FCFQ34441065-2F32429E-3170-4BB2-A644-53C1FB9AF747Q34447256-2B9D076E-51B3-4C31-A0DF-00B3FB7D447CQ34629534-71C41AF3-A94F-4D8D-85E4-3BD7A0A121BBQ34660854-74FECDFF-3B8D-4E12-BF13-B4498ADEC938Q35067146-9462E9E2-2832-4C7A-8057-05E5684F874DQ35964782-E5AB3528-1CAB-45E3-8200-B2B57BF75F24Q36115902-F1B00E76-98AF-49CF-8E6D-F56E4D77BA43Q36205935-F3CBDBDD-BE43-4B27-BF74-DD1DA9782E57Q36384943-77F0C3C5-B0DB-4E37-AF63-C9A3980EBA03Q36480380-B83FDFE8-E738-4E88-8665-8D289E00B13CQ37219061-DFA5D5D2-45ED-4376-B417-89B709600BEBQ37639696-3478B6DC-23D5-44A9-8F23-4ABC8E5F71CFQ37693825-68E0420C-962E-4DD5-95BF-11AA99B10C04Q38198131-59FCD616-B33F-43E4-83BD-9454A5F02913Q38269733-A23A653F-C5E4-42C3-A223-BB9AAEF992F2Q41694646-F9392FB3-A3E5-42BD-B030-8010E7ACC374Q41930070-145017E2-8256-4BFB-BEAF-849B0420171AQ42077735-0A2034AE-6B39-4C7B-B17D-6DA7FCD25B8AQ42160990-3142B102-D1CF-4B7A-8772-FF636ADFB808Q46950954-29955311-9C98-4CD2-AAFB-3F6817690A9DQ47070012-C2416870-1077-406E-BFE9-038D75E756F0Q47071261-4F709DB4-DDBE-4C26-A7FA-A4E9D796BDAAQ47871891-7C5A9320-547C-4C78-A915-951BE3353E8FQ48215941-F97900C0-3C42-48E7-BAF4-3B0C06F06D0FQ48955642-B7851641-050B-4683-B4D0-80BC1575C179Q52604526-B617C749-5EAD-4432-948B-6E4FC880DEA8Q52747469-7E8774E6-26B5-4647-BE61-A6E5CB85A2A7Q58754287-36874442-5AC3-42F0-AC6C-46E42A9A045B
P2860
RNA-interference knockdown of Drosophila pigment dispersing factor in neuronal subsets: the anatomical basis of a neuropeptide's circadian functions
description
2009 nî lūn-bûn
@nan
2009 թուականին հրատարակուած գիտական յօդուած
@hyw
2009 թվականին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
RNA-interference knockdown of ...... opeptide's circadian functions
@ast
RNA-interference knockdown of ...... opeptide's circadian functions
@en
RNA-interference knockdown of ...... opeptide's circadian functions
@en-gb
RNA-interference knockdown of ...... opeptide's circadian functions
@nl
type
label
RNA-interference knockdown of ...... opeptide's circadian functions
@ast
RNA-interference knockdown of ...... opeptide's circadian functions
@en
RNA-interference knockdown of ...... opeptide's circadian functions
@en-gb
RNA-interference knockdown of ...... opeptide's circadian functions
@nl
altLabel
RNA-Interference Knockdown of ...... opeptide's Circadian Functions
@en
prefLabel
RNA-interference knockdown of ...... opeptide's circadian functions
@ast
RNA-interference knockdown of ...... opeptide's circadian functions
@en
RNA-interference knockdown of ...... opeptide's circadian functions
@en-gb
RNA-interference knockdown of ...... opeptide's circadian functions
@nl
P2860
P3181
P1433
P1476
RNA-interference knockdown of ...... opeptide's circadian functions
@en
P2093
Orie T Shafer
Paul H Taghert
P2860
P3181
P356
10.1371/JOURNAL.PONE.0008298
P407
P577
2009-01-01T00:00:00Z