about
Re-patterning sleep architecture in Drosophila through gustatory perception and nutritional qualityShared neurocircuitry underlying feeding and drugs of abuse in DrosophilaRemembering Components of Food in DrosophilaOlfactory learning skews mushroom body output pathways to steer behavioral choice in DrosophilaShocking revelations and saccharin sweetness in the study of Drosophila olfactory memoryPokes, sunburn, and hot sauce: Drosophila as an emerging model for the biology of nociceptionPeptide neuromodulation in invertebrate model systemsReward value determines memory consolidation in parasitic waspsConditioning individual mosquitoes to an odor: sex, source, and timeFunctional dissociation in sweet taste receptor neurons between and within taste organs of DrosophilaNon-invasive brain stimulation: an interventional tool for enhancing behavioral training after strokeThe Influence of Learning on Host Plant Preference in a Significant Phytopathogen Vector, Diaphorina citriReward improves long-term retention of a motor memory through induction of offline memory gainsSequential use of mushroom body neuron subsets during drosophila odor memory processingThe neuronal architecture of the mushroom body provides a logic for associative learningConditioned sounds enhance visual processing.Pain-relief learning in flies, rats, and man: basic research and applied perspectives.Molecular analysis of cDNA clones and the corresponding genomic coding sequences of the Drosophila dunce+ gene, the structural gene for cAMP phosphodiesterase.Classical conditioning through auditory stimuli in Drosophila: methods and modelsThe amnesiac gene is involved in the regulation of thermal nociception in Drosophila melanogaster.There are many ways to train a fly.Drosophila conditioned courtship: two ways of testing memory.Neural circuits for long-term water-reward memory processing in thirsty Drosophila.Appetitive and aversive visual learning in freely moving Drosophila.Dopamine is required for learning and forgetting in Drosophila.Isolation and characterization of a mammalian gene encoding a high-affinity cAMP phosphodiesterase.Cloning and characterization of mammalian homologs of the Drosophila dunce+ gene.The radish gene reveals a memory component with variable temporal properties.Shared mushroom body circuits underlie visual and olfactory memories in DrosophilaDopamine reveals neural circuit mechanisms of fly memory.Drosophila mushroom body mutants are deficient in olfactory learning.Optogenetic induction of aversive taste memory.Neural correlates of water reward in thirsty DrosophilaThe small GTPase Rheb affects central brain neuronal morphology and memory formation in Drosophila.A Neurogenetic Dissociation between Punishment-, Reward-, and Relief-Learning in DrosophilaDeconstructing memory in DrosophilaMushroom body output neurons encode valence and guide memory-based action selection in Drosophila.Remembering nutrient quality of sugar in Drosophila.Dynamics of learning-related cAMP signaling and stimulus integration in the Drosophila olfactory pathway.A pair of inhibitory neurons are required to sustain labile memory in the Drosophila mushroom body.
P2860
Q21144919-66BF82A9-E6B3-48BE-97E7-0D1F7B5C5D50Q26751337-A3EB695C-F857-4E07-AA6B-FB283BCEEF1DQ26765915-32335C61-FAB9-4EBD-8469-5ECAB1C25D40Q26779915-4F8CE2B0-6E1A-4368-996D-E46E5F7128CEQ26824581-13064184-9163-4168-9C4A-EE6258635C0FQ26862727-37CD8588-8A99-479A-9C4D-49A9FEA33CE9Q26864612-011998AD-CE11-43DA-8858-8340396BE86EQ27300756-917F2923-F4F8-4EA9-9AC7-F1160A46E4A5Q27322364-F6D87CC0-62F9-459B-8554-7BB6ADFA7565Q27332362-27DE8286-DDB2-4D5E-8906-60E5D3083686Q28082620-46EECE1C-27B9-4979-AC16-E1B192BD22A5Q28550449-2F6E0470-5C89-46B1-84EC-BCE7849B3A5CQ28741184-CBBDF97B-74B4-4E10-9508-F17F71704CA4Q28763190-CC5ED6D7-9A03-4922-815B-907985DE1E57Q30408443-E8A96911-5BCE-4101-BBD3-CB89855B1415Q30431173-0547B567-617E-4951-BF46-BAC0CC22817AQ30440363-EFBD13FD-E588-4C4B-B4D6-E19BC72F5097Q30449660-FB90138E-2513-4681-B9B0-7153865CC0E6Q30464213-FBCBEB0A-DB36-460D-8F93-57EECDFF77D0Q30476727-AB4EB44D-BF0F-48F3-8B43-4CF56211CFD5Q33622983-1BB1DD42-3F25-4716-AF96-5E29CA942D2CQ33650910-5F6B8C0D-E3E8-44EB-A76D-1AA7BFB7403EQ33715932-ED01B64E-1A88-4E48-9BF4-CE9BEA4A7240Q33731755-13502F86-7BEF-4C9A-99B6-B754C6922713Q33852469-BEA1730C-B5D0-4688-B3C7-DC78D1ADEABBQ33856733-7D8C606A-9D4E-41B9-B0F0-7FEC53EBC424Q33856758-D1EA2C9A-4F94-4D50-95CB-D06F8180DF43Q34017952-51722717-FAF3-4EE1-B979-6973BA4C3404Q34055478-BA661371-DAB3-418F-B96C-04C9FAF55D8FQ34163919-B9476FBA-B63C-4A93-A0FA-A1EF04651395Q34199116-8780245D-81EB-462C-B439-2C1FF5F7F8CBQ34347125-DE298CBF-793D-452B-B7D8-56ED8D87AEA6Q34421436-1EF68FA7-48AA-4834-B2EA-B74F394FEBB6Q34427606-1E9CAC5F-6D52-4474-B513-5409AEE3A0A3Q34455513-BF1EBAE9-FCD2-430A-8A57-2E7B4C7757DDQ34605999-9E59A604-FDD2-45B7-9C62-BB51104CB088Q34753487-E26F3939-F24D-4E3E-B1C3-DFBC16CE8E8DQ34980016-E4145BA5-21E2-411D-A805-0FE3073DB8C5Q35014955-BC73150E-15D2-4FD7-83C3-3C03DCE09ED2Q35037128-3FC035E7-E3D2-4537-B75A-44ECBEA73FD0
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on March 1983
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Reward learning in normal and mutant Drosophila.
@en
Reward learning in normal and mutant Drosophila.
@nl
type
label
Reward learning in normal and mutant Drosophila.
@en
Reward learning in normal and mutant Drosophila.
@nl
prefLabel
Reward learning in normal and mutant Drosophila.
@en
Reward learning in normal and mutant Drosophila.
@nl
P2093
P2860
P356
P1476
Reward learning in normal and mutant Drosophila.
@en
P2093
P2860
P304
P356
10.1073/PNAS.80.5.1482
P407
P577
1983-03-01T00:00:00Z