An engram found? Evaluating the evidence from fruit flies.
about
Outcome expectations drive learned behaviour in larval DrosophilaShocking revelations and saccharin sweetness in the study of Drosophila olfactory memoryUsing an Insect Mushroom Body Circuit to Encode Route Memory in Complex Natural EnvironmentsThe Drosophila gene RanBPM functions in the mushroom body to regulate larval behavior.The origin of behavioral bursts in decision-making circuitryThree dopamine pathways induce aversive odor memories with different stabilityThermal disruption of mushroom body development and odor learning in DrosophilaA model for non-monotonic intensity coding.Pain-relief learning in flies, rats, and man: basic research and applied perspectives.Optogenetic stimulation of a hippocampal engram activates fear memory recall.Neural representations of airflow in Drosophila mushroom body.Induction of aversive learning through thermogenetic activation of Kenyon cell ensembles in DrosophilaBrain plasticity in Diptera and Hymenoptera.Optimizing Drosophila olfactory learning with a semi-automated training device.Mechanisms of odor-tracking: multiple sensors for enhanced perception and behavior.Short-term memories in Drosophila are governed by general and specific genetic systems.Dietary salt levels affect salt preference and learning in larval Drosophila.Shared mushroom body circuits underlie visual and olfactory memories in DrosophilaSpecific dopaminergic neurons for the formation of labile aversive memory.Limited taste discrimination in Drosophila.Olfactory subsystems in the honeybee: sensory supply and sex specificity.Coevolution of generalist feeding ecologies and gyrencephalic mushroom bodies in insects.Stimulation of muscarinic receptors mimics experience-dependent plasticity in the honey bee brain.Deconstructing memory in DrosophilaSpecific requirement of NMDA receptors for long-term memory consolidation in Drosophila ellipsoid bodyMushroom body output neurons encode valence and guide memory-based action selection in Drosophila.Imaging of an early memory trace in the Drosophila mushroom bodyDistinct dopamine neurons mediate reward signals for short- and long-term memories.Tomosyn-dependent regulation of synaptic transmission is required for a late phase of associative odor memorySynapsin determines memory strength after punishment- and relief-learning.Behavioral and neurophysiological study of olfactory perception and learning in honeybeesGABAergic feedback signaling into the calyces of the mushroom bodies enables olfactory reversal learning in honey beesCognition in insects.Activity in Neurons of a Putative Protocerebral Circuit Representing Information about a 10 Component Plant Odor Blend in Heliothis virescens.A fully automated Drosophila olfactory classical conditioning and testing system for behavioral learning and memory assessmentImaging live bee brains using minimally-invasive diagnostic radioentomologyAppetitive associative olfactory learning in Drosophila larvae.Theory of Connectivity: Nature and Nurture of Cell Assemblies and Cognitive ComputationTesting odor response stereotypy in the Drosophila mushroom bodyIdentification and optogenetic manipulation of memory engrams in the hippocampus.
P2860
Q24670310-DA58E9A7-74E2-4B18-A386-6EE65EE9DC99Q26824581-2A87A616-AB8D-411A-92D0-B6ECFC106581Q27316861-39FA4036-F78F-4A2D-B75D-675C7446E468Q27329076-F08C0B3A-046A-482D-833E-08369064ADADQ27333222-AAA0BF4A-B089-4FC6-BBB8-F6B55DF4DA2CQ27333312-E6BC2585-663E-47DB-8CD8-71FE330C2C7DQ28471615-14A56D86-4469-4DA0-8362-669919C172C5Q28646102-25923355-C2AD-4CE2-A2D0-C55F82CA3045Q30440363-D3C0120D-2CA9-4C45-8896-867C78E723D6Q30513624-F8733207-238C-447A-9453-EC7FE4414A81Q33396452-FD1EE62B-A67B-4A55-A342-81A752ECDF60Q33646888-E5142D67-CC30-44F0-8F55-CAF78723A56CQ33765562-5D0958F7-E9F7-4255-BCEB-319542D8463BQ33787741-F42D0F2C-C087-4021-9C42-D85921D4DFD9Q33789214-EA4EA72B-BFAE-4FB8-83C3-8C66AEB81AAAQ33821805-275F6990-49DF-4D4D-B6D6-6223049852C9Q33936961-013ED3A9-EAF3-4549-9068-01CE1F65C98DQ34055478-85680C47-4040-4038-9254-7E6D9B910275Q34090069-17DD3421-564F-4424-BC44-BDF3BB978873Q34093361-983B2532-FFE2-49AD-8DEB-4B57C45983A7Q34106138-09284955-3BC1-479E-837E-D1662219311DQ34161165-E303F1B9-9789-4CAB-BC41-D410C4C88862Q34248281-FC2FE285-A6A6-4B7C-86BA-5E02DA96A0B5Q34605999-2F622782-5212-4764-A857-63CAD3E15DF7Q34660163-E851708E-314E-486B-8840-5A91199F17D0Q34753487-06EDED0D-0481-4193-B4B8-982403CE41E3Q34773985-C0B98772-ECEF-4AA7-9B0E-129DA3026820Q34985552-B857DBCE-40F8-4D23-9A80-4C88883AF686Q35546760-97EA6509-0BBD-4253-962A-53A24705801FQ35598725-7616D943-074E-44D7-B127-43C98C4407DCQ35600957-16C6448C-0BD1-43C7-A6CC-119A2B4B40C7Q35898123-EFE71D60-E749-4D52-BF68-A88E42B46AC8Q36188716-125FA513-989C-4993-9389-98AD55792E7BQ36289430-EBCA4B09-11DC-4A01-9394-E6A526D17854Q36568142-8637A936-119F-47F0-8D96-3D87EEA695E9Q36682773-10C45323-8EDC-4B7E-B9F0-91DB9CEF0429Q36695047-E76DD6A9-0BAE-4984-B6D2-51559C952916Q36849719-C796A279-4F7E-4499-92DE-E4D977523DB6Q37125219-7A88734A-3CCA-4F6F-8123-B5F979605656Q38183373-54A5E5C7-B12F-441D-9EBB-96E8F0A646BB
P2860
An engram found? Evaluating the evidence from fruit flies.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
An engram found? Evaluating the evidence from fruit flies.
@ast
An engram found? Evaluating the evidence from fruit flies.
@en
type
label
An engram found? Evaluating the evidence from fruit flies.
@ast
An engram found? Evaluating the evidence from fruit flies.
@en
prefLabel
An engram found? Evaluating the evidence from fruit flies.
@ast
An engram found? Evaluating the evidence from fruit flies.
@en
P1476
An engram found? Evaluating the evidence from fruit flies
@en
P2093
Hiromu Tanimoto
P304
P356
10.1016/J.CONB.2004.10.014
P577
2004-12-01T00:00:00Z