about
Genomic and functional studies of Drosophila sex hierarchy regulated gene expression in adult head and nervous system tissuesReinforcement signalling in Drosophila; dopamine does it all after allCandidate gustatory interneurons modulating feeding behavior in the Drosophila brainDrosophila Bitter Taste(s)Genetic basis of triatomine behavior: lessons from available insect genomesModulation of neural circuits: how stimulus context shapes innate behavior in DrosophilaGr33a modulates Drosophila male courtship preferenceThe full repertoire of Drosophila gustatory receptors for detecting an aversive compoundMechanosensory neurons control sweet sensing in DrosophilaPlant insecticide L-canavanine repels Drosophila via the insect orphan GPCR DmXFunctional dissociation in sweet taste receptor neurons between and within taste organs of DrosophilaOctopamine neuromodulation regulates Gr32a-linked aggression and courtship pathways in Drosophila malesA map of taste neuron projections in the Drosophila CNS.The molecular and cellular basis of taste coding in the legs of Drosophila.Aggression and courtship in Drosophila: pheromonal communication and sex recognition.Genetic and neural mechanisms that inhibit Drosophila from mating with other species.Contact chemoreceptors mediate male-male repulsion and male-female attraction during Drosophila courtshipMolecular and cellular designs of insect taste receptor system.Specific subgroups of FruM neurons control sexually dimorphic patterns of aggression in Drosophila melanogasterA behavioral switch: cGMP and PKC signaling in olfactory neurons reverses odor preference in C. elegans.Ventral lateral and DN1 clock neurons mediate distinct properties of male sex drive rhythm in DrosophilaA single pair of interneurons commands the Drosophila feeding motor program.An odorant-binding protein required for suppression of sweet taste by bitter chemicals.An inhibitory sex pheromone tastes bitter for Drosophila malesDetection of sweet tastants by a conserved group of insect gustatory receptors.The taste response to ammonia in Drosophila.Hedonic taste in Drosophila revealed by olfactory receptors expressed in taste neurons.Evolution of the sugar receptors in insectsThe chemoreceptor genes of the waterflea Daphnia pulex: many Grs but no Ors.A receptor and neuron that activate a circuit limiting sucrose consumption.Surface ultrastructure of larval mouthpart sensilla of the muga silkmoth, Antheraea assamensis, an endemic species of North-East India.Analysis of Drosophila TRPA1 reveals an ancient origin for human chemical nociception.Four GABAergic interneurons impose feeding restraint in Drosophila.Drosophila TRPA1 channel mediates chemical avoidance in gustatory receptor neurons.Diversity, variability, and suboesophageal connectivity of antennal lobe neurons in D. melanogaster larvae.Drosophila learn opposing components of a compound food stimulus.Automated monitoring and quantitative analysis of feeding behaviour in Drosophila.Avoiding DEET through insect gustatory receptors.Limited taste discrimination in Drosophila.Genetic analysis of the electrophysiological response to salicin, a bitter substance, in a polyphagous strain of the silkworm Bombyx mori
P2860
Q21145220-A64C2F41-E3BF-4E45-9649-B7F3C45447C6Q22252281-2831767A-2F08-4672-9C39-6FBA2356C410Q24816529-4C55E9CA-9EC4-498F-BA9B-95581331E999Q26774809-8ECA2826-DD09-4924-8285-AE38A8780EEBQ27022748-0CF8A97F-4796-47F5-830A-BD07EE54EB5BQ27024362-6CC3FAEE-5102-487A-AE5A-554982D472EBQ27309152-99D4FE74-03EA-4FE5-9E68-88A97AD14EF5Q27318416-B633829E-27D2-418D-96FF-1D8B96CC4122Q27325412-DF43E974-B47A-4319-8924-505A74F356FEQ27330027-05E3E868-7046-4FB7-8CF7-09C07BA51946Q27332362-9B19C6C2-9879-4DCA-A0F1-8EC27A7A939BQ28539035-4D9484AF-190A-49D4-84CD-11CB18A5E4E3Q30403851-0AB9E0EB-2414-48D8-AA86-B0886B2FA389Q30425515-1D027AF1-75AA-42EA-8D6F-8C2597BB1631Q30427111-7BE16175-F47A-436D-8974-3EEC98DD773DQ30444806-158A62C4-6E26-441C-A690-D469BD482FD8Q30460630-EA3C2228-FE97-402D-8928-F27EB483AF88Q30480580-3647DC44-406F-40A3-85E6-0024295E1031Q30480887-A5D02EF9-95DA-4DF3-88A0-65175C152988Q30484715-9B7A33BF-E4E4-4DDA-BB16-D729641ADEFFQ30495078-DDD9946C-1C65-4D17-907E-336E6F1C2F22Q30541909-97D99879-254A-4BA4-A3C8-BAFD5AC4615DQ30543677-D6D9082B-7538-4166-BDDC-ABDEED6226C1Q30544979-5D9184A1-2AFA-47DC-956D-FEBC018F832AQ30570475-79D1C710-E69E-4178-A8AF-A4330720199FQ30840726-CA8136DE-5DE8-412C-98FD-A3DDF17CBA6AQ33350191-87579E3C-801F-4B19-8129-4503ECAA1BFEQ33410401-70D0D639-D80D-45D8-B91A-5902C7E7EEE3Q33433259-87FD1383-EEFA-43FD-87FC-36C5CD19F94BQ33554599-68262732-AA40-4B63-B2B8-A88619B2D750Q33644733-1F4545BE-5695-4088-9D83-3AC7BD5E36D5Q33753976-E20B5825-176B-42FC-9B11-2440BA859EC9Q33882286-6BA4CC29-DA22-4488-828C-051614426342Q33929474-FF8DA1CF-25C3-4455-887A-7AD0A870FD6FQ33975079-BA753011-29F4-4DC0-A716-911FC5F5AE3BQ34038072-8BA824A9-A32D-41A8-B926-E622363392EAQ34086425-4FB54B8E-E6FE-468E-AECD-3D407E760BA9Q34088896-25B6A64D-8771-4E33-8267-A046AF850FA4Q34093361-0174C398-E564-4CCF-A8E4-1C9988E342A3Q34287522-8F925468-F628-4E04-B44C-21563036E3D9
P2860
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh
2004年學術文章
@zh-hant
name
Taste perception and coding in Drosophila.
@en
type
label
Taste perception and coding in Drosophila.
@en
prefLabel
Taste perception and coding in Drosophila.
@en
P2093
P1433
P1476
Taste perception and coding in Drosophila.
@en
P2093
Caroline Chromey
Hubert Amrein
Natasha Thorne
Steve Bray
P304
P356
10.1016/J.CUB.2004.05.019
P407
P577
2004-06-01T00:00:00Z