The propensity for consuming ethanol in Drosophila requires rutabaga adenylyl cyclase expression within mushroom body neurons.
about
Shared neurocircuitry underlying feeding and drugs of abuse in DrosophilaGlobal and local missions of cAMP signaling in neural plasticity, learning, and memoryDrosophila and Caenorhabditis elegans as Discovery Platforms for Genes Involved in Human Alcohol Use DisorderFeeding on ripening and over-ripening fruit: interactions between sugar, ethanol and polyphenol contents in a tropical butterfly.Sir2/Sirt1 Links Acute Inebriation to Presynaptic Changes and the Development of Alcohol Tolerance, Preference, and RewardCircadian Modulation of Alcohol-Induced Sedation and Recovery in Male and Female Drosophila.Long-lasting, experience-dependent alcohol preference in DrosophilaGenetics and genomics of alcohol responses in Drosophila.The pre-synaptic Munc13-1 binds alcohol and modulates alcohol self-administration in Drosophila.Ethanol Stimulates Locomotion via a Gαs-Signaling Pathway in IL2 Neurons in Caenorhabditis elegans.The Arf6 activator Efa6/PSD3 confers regional specificity and modulates ethanol consumption in Drosophila and humans.A Simple Way to Measure Alterations in Reward-seeking Behavior Using Drosophila melanogaster.Drosophila: An Emergent Model for Delineating Interactions between the Circadian Clock and Drugs of Abuse.Perineurial Barrier Glia Physically Respond to Alcohol in an Akap200-Dependent Manner to Promote Tolerance.A Fly's Eye View of Natural and Drug Reward.Mechanisms Underlying the Risk to Develop Drug Addiction, Insights From Studies in Drosophila melanogaster.Ethanol Regulates Presynaptic Activity and Sedation through Presynaptic Unc13 Proteins in Drosophila.
P2860
Q26751337-26E76816-188B-4CD8-9944-9CC6C004AD87Q26795514-7131D02E-5D71-497D-A6BC-C03C848B98E1Q26801896-523A4A3E-23FB-4344-827A-AE14F775CC72Q36413715-2FD359BE-FE71-4974-98C3-BDBF7ED2E404Q36889612-E85366B7-D7A3-4BC3-9FF0-E9B7803FF7A2Q37471082-F1DEB281-1EC0-42B2-8968-B395586DE60EQ38829136-FA04A9CC-DBCA-4D92-A61C-396D25ED7FFBQ38978961-9C9264F7-09D4-4745-91F1-EBC27EB5A147Q42590696-26265AAB-251D-457B-94DC-DAD191FCA4AEQ45283836-7F0B52D4-6694-4D87-857B-6219ACD1A9A5Q47115570-5915A13E-E978-433A-BD30-D86CD987BF41Q47373358-C314ADD0-EAEE-4A7E-8E9C-BFFB3445DBFDQ47637909-8DFD868D-5AFF-4BFA-9BA7-E5EBAC02E9C3Q49997218-95C0A335-09B2-4339-9AD8-24AB7F614A6EQ55027027-3F681244-E543-4432-B5C0-87F98A2FCB85Q55236584-1A55362F-BCA4-4D70-B99B-8545938A9A35Q55313799-13DE60A2-C858-489A-9857-A66ED6AB8DD9
P2860
The propensity for consuming ethanol in Drosophila requires rutabaga adenylyl cyclase expression within mushroom body neurons.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
The propensity for consuming e ...... within mushroom body neurons.
@ast
The propensity for consuming e ...... within mushroom body neurons.
@en
type
label
The propensity for consuming e ...... within mushroom body neurons.
@ast
The propensity for consuming e ...... within mushroom body neurons.
@en
prefLabel
The propensity for consuming e ...... within mushroom body neurons.
@ast
The propensity for consuming e ...... within mushroom body neurons.
@en
P2093
P2860
P1476
The propensity for consuming e ...... n within mushroom body neurons
@en
P2093
P2860
P304
P356
10.1111/J.1601-183X.2012.00810.X
P407
P577
2012-06-15T00:00:00Z