about
Rapid encoding and perception of novel odors in the ratTranscriptome profiling of chemosensory appendages in the malaria vector Anopheles gambiae reveals tissue- and sex-specific signatures of odor codingMolecular vibration-sensing component in Drosophila melanogaster olfactionOdorant reception in the malaria mosquito Anopheles gambiaeNeuroethology of Olfactory-Guided Behavior and Its Potential Application in the Control of Harmful InsectsComparing Neuromorphic Solutions in Action: Implementing a Bio-Inspired Solution to a Benchmark Classification Task on Three Parallel-Computing Platforms.A combined perceptual, physico-chemical, and imaging approach to 'odour-distances' suggests a categorizing function of the Drosophila antennal lobeThe whole genome sequence of the Mediterranean fruit fly, Ceratitis capitata (Wiedemann), reveals insights into the biology and adaptive evolution of a highly invasive pest species.Or47b plays a role in Drosophila males' preference for younger mates.The Role of Multiple Hydrogen-Bonding Groups in Specific Alcohol Binding Sites in Proteins: Insights from Structural Studies of LUSHActivation of Pheromone-Sensitive Neurons Is Mediated by Conformational Activation of Pheromone-Binding ProteinHuman olfaction: a constant state of change-blindnessSparse odor representation and olfactory learningBiophysical mechanisms underlying olfactory receptor neuron dynamicsPredicting the receptive range of olfactory receptorsBehavioural and genetic evidence for C. elegans' ability to detect volatile chemicals associated with explosivesExpression and membrane topology of Anopheles gambiae odorant receptors in lepidopteran insect cellsCharacterization of an enantioselective odorant receptor in the yellow fever mosquito Aedes aegyptiPlasticity of the chemoreceptor repertoire in Drosophila melanogasterDecoding complex chemical mixtures with a physical model of a sensor arrayQuality coding by neural populations in the early olfactory pathway: analysis using information theory and lessons for artificial olfactory systemsAmino acid residues contributing to function of the heteromeric insect olfactory receptor complexIdentification of new agonists and antagonists of the insect odorant receptor co-receptor subunitPhosphoinositide 3-kinase dependent inhibition as a broad basis for opponent coding in Mammalian olfactory receptor neuronsCan yeast (S. cerevisiae) metabolic volatiles provide polymorphic signaling?Temporal features of spike trains in the moth antennal lobe revealed by a comparative time-frequency analysisOlfactory deficits in an alpha-synuclein fly model of Parkinson's diseaseIdentification of odorant-receptor interactions by global mapping of the human odoromeIdentification and Comparison of Candidate Olfactory Genes in the Olfactory and Non-Olfactory Organs of Elm Pest Ambrostoma quadriimpressum (Coleoptera: Chrysomelidae) Based on Transcriptome AnalysisOdorant Responses and Courtship Behaviors Influenced by at4 Neurons in DrosophilaDrosophila Avoids Parasitoids by Sensing Their Semiochemicals via a Dedicated Olfactory CircuitLarge-scale assessment of olfactory preferences and learning in Drosophila melanogaster: behavioral and genetic componentsA model for non-monotonic intensity coding.Insect olfaction from model systems to disease controlQuantitative analysis of pheromone-binding protein specificitySequence comparisons of odorant receptors among tortricid moths reveal different rates of molecular evolution among family membersSpontaneous olfactory receptor neuron activity determines follower cell response propertiesMetabolite exchange between microbiome members produces compounds that influence Drosophila behaviorObp56h Modulates Mating Behavior in Drosophila melanogasterExtensive local adaptation within the chemosensory system following Drosophila melanogaster's global expansion
P2860
0230f34009914df008c985b3bede1230fb17eb0203fefab884b694972988608e137d39d64a06c62108e592b7899659c09abdd0d354d189bcac1a86f30c41e1c52ccf495a62eb84d49eff2994636031f80d6408d7c83aec612bc1301885e91a4b484300b017913423405210688524f9f8835095a68837257f17b31eb397d9cb034ac9d62112e0c90145b814a518ecd0db4784704936c2ec5797cad0f543e33728243c9342d3fc1eae8c6c88b107069c90315d672c25060716d332c2f7e1196b9dc0ba9e0bedfcff2f298f991d3e815d8c50fa7319784fec9c40fac67e2bc68a22d20d455642f7a0f0cb42086a356cfa043fd4c12df37d998d57c66e7af11a4a7c766169a14069049730493116d02e5c6c66ca85e608ea281640e6dd5b9c674941cf327629d55e6cdbbb26c9dc45296ede68818d82ed186b0d7bc8cd789fe6eec34873025a5a89ef852515b4053f399392d36e8d0758ba53f36475282ff1002f4807ec866fe988616160dd553a616542161ba4e3c6c607c650ef97895c634c2a92d8701d1947aa2aeff570c40781cb84c968be3def05ae2640deb51cbe91c34ea611a66ca46e7b69c5eba3d1d90b038fa22354a8d61fb84ca177db0981739fbb20cb2e3f90965d3f1d9ba059037e3a550c824b3d20b3f9e06183646d1fcd19c9ab7e9ef682d9821d34826c938bcc8790ee208b4b2080ced9d7e37b02bf5846d5fd5c0ce17e474b470d8583dd6865068d822f8e2886d94881ab4aeb5e16932fd2fde742344c1ead7281d48d75b53215c6a893ea2c3e89291f5c0cff04d09606f12d0fe21bf1980d0a4d2427b5aa85a13cc89059e93ee37ab726991ae870ce878b89d65f6ef329626e193a3236509bf27ea132b8a75aac8198d2124c8f98f89963c2ab5cc2d2a1c0106235b66b950ea29e304816cbdcab96ee9861dbf9e9803a457d4baf9b2c53cb89d3ae308ca84164ae9b49a0eb7dae64b71cdbc106cbb1196d82792e10e9c7e31500b3b99f724f0c8fdeb854ba94f6ea574cec1db0b495637591ae0582e2b8e6cb1d8d97ae7d2d520e26a1596609659cd09dc357a34fc6d2f3cfba7b3613a55c15dfbd9a0cbdc42b570371e5e12fb856aa00d550fcdc56aa3d64
P248
Q21145853-92272E21-705D-4AAA-AB4E-69747AAE6FF1Q21267188-DE198986-571D-4242-991E-5A9DB88C2336Q24610443-1F1D5B24-6561-4AE6-9807-D76B251DABAEQ24632916-463302B1-8294-4C3E-8F6F-CA54AD482399Q26314502-ECD436B0-0634-4579-9669-F1395521CDD8Q27313687-6238AE66-E499-4981-8568-C5A68B06A5DAQ27321689-085F51A9-C130-464E-97BD-88B5E7F150F0Q27335791-2599DAC0-A520-48D8-81EA-BA7723B50D69Q27336144-0ADB2AEC-3F8D-4E19-A8B8-5A438B13B1F4Q27649736-987E5577-323A-44A8-BB6C-A8F6DB24800CQ27650972-C0D5A99A-7B60-41F7-8A43-7E62620DBA6FQ28287109-1044FE50-A398-4B32-A26F-C6DD78B850FAQ28294102-62CE3F14-A2D5-497F-B685-DCAF1BE470BEQ28302798-0E79D646-1308-40C4-A6B5-2CBBBC48A18CQ28472133-B6010985-B301-418A-81F4-030A1F9634A5Q28475427-4BC6B5D6-B10A-4103-BDD1-CD1AA703ED13Q28475997-5D9A03CB-BD99-4CDD-A457-1259131ACFAEQ28476130-6346F858-D6E4-4D05-876A-19275FED1EC4Q28476264-771EBFEA-CFD0-4B73-B99B-C0520B570072Q28477653-7E95CAB7-6E27-4BBE-BF72-82804F7EA1E2Q28480505-F49D8265-FB5C-4EE3-96D8-AFB720BD78D7Q28481374-662C72CF-C2CB-4C7C-B739-EB7B2C87442EQ28483525-68ECE847-4183-4FFF-92FB-898E580F1D62Q28486122-832EE1C4-F786-4D61-A972-49F6494F2330Q28535438-71C5BE91-1A27-40CF-B4A3-D35F083E3D22Q28538846-CFC74B03-D8D4-4AE8-9C16-884C1C538666Q28539195-878FE867-AF41-4E9C-BDA6-278563F30ADCQ28541819-FAF838A7-E18E-41FF-8020-FD6E6D43AF38Q28552740-DEE1D632-9840-46E6-A71B-A45A16A11CB3Q28554011-15EBEED6-5B62-43B2-AD9C-43EE77BA6B7DQ28603704-6CE9B701-2170-4F25-974F-ED226B0DD29FQ28607893-C14F3194-DEDE-491B-BC7C-636E9854FC34Q28646102-C9FD9A01-6905-485A-9218-C07B6B5CDB5BQ28656261-37F0FE2E-A541-4D5D-B3C0-F43F9EE63590Q28709899-4C727A8D-6F62-4BB1-A16B-C4978ED68CC5Q28728623-9790B767-A2D6-492E-9390-06EA671E315CQ28730478-7E14CB2C-68FF-4291-897E-0177694683E3Q28817713-9E7F76AC-7F2B-4DEB-8837-AF090D2B8365Q28821763-C4461755-3E9A-4702-88C1-07E1BA8A0FB0Q28830131-220C5037-AC5A-40DE-BCD3-6DB3BCE44AFC
P2860
description
2006 nî lūn-bûn
@nan
2006 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Coding of odors by a receptor repertoire.
@ast
Coding of odors by a receptor repertoire.
@en
Coding of odors by a receptor repertoire.
@nl
type
label
Coding of odors by a receptor repertoire.
@ast
Coding of odors by a receptor repertoire.
@en
Coding of odors by a receptor repertoire.
@nl
prefLabel
Coding of odors by a receptor repertoire.
@ast
Coding of odors by a receptor repertoire.
@en
Coding of odors by a receptor repertoire.
@nl
P1433
P1476
Coding of odors by a receptor repertoire.
@en
P2093
Elissa A Hallem
John R Carlson
P304
P356
10.1016/J.CELL.2006.01.050
P407
P577
2006-04-01T00:00:00Z