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Implausibility of the vibrational theory of olfactionThe swipe card model of odorant recognitionMolecular complexity determines the number of olfactory notes and the pleasantness of smells.Why sniff fast? The relationship between sniff frequency, odor discrimination, and receptor neuron activation in the rat.High-speed odor transduction and pulse tracking by insect olfactory receptor neuronsReshaping of bulbar odor response by nasal flow rate in the rat.Neurogenesis and plasticity of the olfactory sensory neurons.Glomerular input patterns in the mouse olfactory bulb evoked by retronasal odor stimuli.Molecular dynamics simulations of water/mucus partition coefficients for feeding stimulants in fish and the implications for olfaction.Olfaction: anatomy, physiology and behavior.Odorant-binding protein: localization to nasal glands and secretions.Anatomical contributions to odorant sampling and representation in rodents: zoning in on sniffing behavior.Sniffing and spatiotemporal coding in olfaction.Factors influencing the differential sorption of odorant molecules across the olfactory mucosaA parametric study of the stimulation variables affecting the magnitude of the olfactory nerve response.Sniffing behavior of mice during performance in odor-guided tasks.Sensory-dependent asymmetry for a urine-responsive olfactory bulb glomerulus.Testing the sorption hypothesis in olfaction: a limited role for sniff strength in shaping primary odor representations during behavior.A method for generating natural and user-defined sniffing patterns in anesthetized or reduced preparationsTuning to odor solubility and sorption pattern in olfactory epithelial responses.Recording odor-evoked response potentials at the human olfactory epithelium.Tour of a labyrinth: exploring the vertebrate nose.Factors affecting the ortho- and retronasal perception of flavors: A review.The role of metals in mammalian olfaction of low molecular weight organosulfur compounds.Effects of odorant mixtures on olfactory receptor cells.A role for lung retention in the sense of retronasal smellLong hydrocarbon chains serve as unique molecular features recognized by ventral glomeruli of the rat olfactory bulbOdorant concentration dependence in electroolfactograms recorded from the human olfactory epithelium.Mitral cell temporal response patterns evoked by odor mixtures in the rat olfactory bulb.Rapid olfactory processing implicates subcortical control of an olfactomotor system.Tests of the sorption and olfactory "fovea" hypotheses in the mouse.Breathing life into dinosaurs: tackling challenges of soft-tissue restoration and nasal airflow in extinct species.A primacy code for odor identity.Multiple routes of chemosensitivity to free fatty acids in humans.An electroolfactogram study of odor response patterns from the mouse olfactory epithelium with reference to receptor zones and odor sorptiveness.Intranasal concentrations of orally administered flavors.Stimulus dependent diversity and stereotypy in the output of an olfactory functional unit.
P2860
Q28260916-337C070C-93FC-4128-9C3A-D88017A4E0E6Q30459253-30678CAB-3D54-462E-B191-C3B88C3CBF59Q30472010-B9A99239-8A82-4F61-ADC9-814EA1559B55Q30483660-F2D56565-5F46-40C8-8ED2-0AE6D8E502E5Q30603934-22EB7592-BF2A-4A85-B002-EC117D1FAF7EQ33813340-942D61AC-268F-49AA-8651-AB538170A401Q34194914-09D75FB2-8192-4E29-964D-90D34F6C0644Q34659037-7C64FDD0-9DB0-4344-B6BC-88EEC8E6F00EQ34983895-AD089C62-6AA5-4835-99D0-056FD9C2BB19Q35036564-E3DCC687-BB4F-46AD-BE33-D202D33911D5Q35615615-65690426-C61E-47E9-8892-41BAAC081DADQ36336760-691E8F70-7ACA-4005-93D0-2D8049E89C28Q36342110-A2BB22C0-DC46-451E-AA0F-F07FFDE7DC76Q36407693-00450618-CC02-40F8-8ACA-2158E16A79A5Q36408922-39C84542-45ED-469D-B3AE-B73DF9917A0EQ36870614-D13A9BB4-6674-4FEA-8B46-6CC1EEE34D19Q36890354-7D93FC12-720A-4FC4-8C76-34A050E34E12Q37008405-C6F36583-6B17-46BB-AEB1-51F51489F4B2Q37091063-30AB08D0-B34A-4C13-A342-EC2695D3D032Q37554967-18A1ED32-0489-4B11-8BD3-CC9621A7F0ABQ38040250-C69005E9-CAEA-42FD-85A4-F8A112C118CCQ38259878-A2E83795-F9E5-4FD0-BDA8-71A74943C399Q38959072-58030549-CEAB-43ED-B75A-8893442B7C04Q39283154-5E872D07-B3FC-4C1F-9872-A7BE04D5DFB3Q39693218-0EF9CBB9-013D-4845-9D4E-C1DF0D9C337AQ40334639-FA7B5408-1CD9-46F3-9AB7-95B78ABEEAF8Q41961402-AF4BAF5D-07E3-4C7B-BED1-AA5D0B3AD583Q43298101-F1573890-8E3F-46F3-9620-B4EA43C5DCAEQ44090782-98B5B9BD-F376-4FB9-904C-5B1E9A5B1903Q44346140-1EEE62B3-E2B8-4689-AFED-8A8B24EA4186Q45066692-DEB88C7B-3E9A-4D67-84A8-F46CC512EFA1Q46825881-DB4C6502-FC6F-4F32-830C-1264585EF2F1Q46945590-D17E863C-00BE-4F8B-AA24-182C5B665772Q48305386-A668D383-9BDD-46B2-A8AC-5A51F5D3EE63Q50763484-D73FB85B-0249-4E1C-8932-3B425A2565DBQ51843704-67C92B6C-5A04-456F-95E0-E1375ECEA40FQ52597801-AE2793BD-2018-4D60-9BC1-E992030CBBEB
P2860
description
1970 nî lūn-bûn
@nan
1970年の論文
@ja
1970年学术文章
@wuu
1970年学术文章
@zh-cn
1970年学术文章
@zh-hans
1970年学术文章
@zh-my
1970年学术文章
@zh-sg
1970年學術文章
@yue
1970年學術文章
@zh
1970年學術文章
@zh-hant
name
Evidence for a chromatographic model of olfaction.
@ast
Evidence for a chromatographic model of olfaction.
@en
type
label
Evidence for a chromatographic model of olfaction.
@ast
Evidence for a chromatographic model of olfaction.
@en
prefLabel
Evidence for a chromatographic model of olfaction.
@ast
Evidence for a chromatographic model of olfaction.
@en
P356
P1476
Evidence for a chromatographic model of olfaction.
@en
P2093
M M Mozell
P2860
P356
10.1085/JGP.56.1.46
P577
1970-07-01T00:00:00Z