Multitasking in the olfactory system: context-dependent responses to odors reveal dual GABA-regulated coding mechanisms in single olfactory projection neurons.
about
Properties of external plexiform layer interneurons in mouse olfactory bulb slicesData-driven inference of network connectivity for modeling the dynamics of neural codes in the insect antennal lobeNeural correlates of behavior in the moth Manduca sexta in response to complex odorsSynchronous firing of antennal-lobe projection neurons encodes the behaviorally effective ratio of sex-pheromone components in male Manduca sextaContrast enhancement of stimulus intermittency in a primary olfactory network and its behavioral significance.A 4-dimensional representation of antennal lobe output based on an ensemble of characterized projection neurons.Olfactory coding in the insect brain: data and conjectures.Properties and physiological function of Ca2+-dependent K+ currents in uniglomerular olfactory projection neurons.Antennal lobe representations are optimized when olfactory stimuli are periodically structured to simulate natural wing beat effects.Odors Pulsed at Wing Beat Frequencies are Tracked by Primary Olfactory Networks and Enhance Odor Detection.Glomerular interactions in olfactory processing channels of the antennal lobes.Histamine-immunoreactive local neurons in the antennal lobes of the hymenoptera.Spiking patterns and their functional implications in the antennal lobe of the tobacco hornworm Manduca sexta.Chemosensory selectivity of output neurons innervating an identified, sexually isomorphic olfactory glomerulus.The organization of the antennal lobe correlates not only with phylogenetic relationship, but also life history: a Basal hymenopteran as exemplar.Odor detection in Manduca sexta is optimized when odor stimuli are pulsed at a frequency matching the wing beat during flightPostsynaptic odorant concentration dependent inhibition controls temporal properties of spike responses of projection neurons in the moth antennal lobe.ϒ spike-field coherence in a population of olfactory bulb neurons differentiates between odors irrespective of associated outcomeDetailed Characterization of Local Field Potential Oscillations and Their Relationship to Spike Timing in the Antennal Lobe of the Moth Manduca sexta.Modeling the cellular mechanisms and olfactory input underlying the triphasic response of moth pheromone-sensitive projection neuronsInteraction of cellular and network mechanisms for efficient pheromone coding in moths.Coordination of central odor representations through transient, non-oscillatory synchronization of glomerular output neurons.Excitatory interactions between olfactory processing channels in the Drosophila antennal lobe.Spatio-temporal activity patterns of odor-induced synchronized potentials revealed by voltage-sensitive dye imaging and intracellular recording in the antennal lobe of the cockroach.Chemotopic odorant coding in a mammalian olfactory systemSpace Takes Time: Concentration Dependent Output Codes from Primary Olfactory Networks Rapidly Provide Additional Information at Defined Discrimination ThresholdsTwo types of local interneurons are distinguished by morphology, intrinsic membrane properties, and functional connectivity in the moth antennal lobe.High-frequency oscillations are not necessary for simple olfactory discriminations in young ratsA Flight Sensory-Motor to Olfactory Processing Circuit in the Moth Manduca sexta.Intrinsic and Network Mechanisms Constrain Neural Synchrony in the Moth Antennal Lobe.Learning modulates the ensemble representations for odors in primary olfactory networks.The anatomical basis for modulatory convergence in the antennal lobe of Manduca sexta.Inhibitory interactions among olfactory glomeruli do not necessarily reflect spatial proximity.Inhibition of nitric oxide and soluble guanylyl cyclase signaling affects olfactory neuron activity in the moth, Manduca sexta.Pheromone responsiveness threshold depends on temporal integration by antennal lobe projection neuronsMorphometric modeling of olfactory circuits in the insect antennal lobe: I. Simulations of spiking local interneuronsOlfactory coding in the turbulent realm.Intrinsic and Extrinsic Neuromodulation of Olfactory Processing.Flight motor networks modulate primary olfactory processing in the moth Manduca sexta.Inhibitory Pathways for Processing the Temporal Structure of Sensory Signals in the Insect Brain
P2860
Q24655532-0646F03C-6BAD-4E05-804D-2A4679B39FFBQ28654582-74C42BED-B13F-4878-B0C3-95927F34DB82Q28749972-FBB03985-83FB-47E8-917E-BC528C70521EQ30427116-3B8E93AE-327D-4677-BA3F-E05E308050B0Q30487831-79AF3D81-A100-462C-B2E2-8E368808EE6AQ30492003-307123CC-91C2-40D9-A95C-1B50B7EFE2A1Q30792922-9A218A44-A9E5-48A5-B509-E31B1CC86DC4Q33573030-03BD7190-9A03-426B-B19E-963253481ED7Q33741914-040615E9-018C-4116-BF5E-5D5D457B4C93Q33789208-E2AF0B92-D9B2-40D4-9AD8-EA74ECD2E627Q33792066-B8F68B50-8008-4AB9-B7FD-CD613ECBC619Q33917267-68B83E74-AD20-43D8-A18F-F75B283BD501Q34012731-8B369AB7-5562-49B0-9D4C-71A4E99D6A58Q34314002-7A465D7E-9832-4452-BD06-E79FD7EC0D93Q35018344-36DF45AA-245D-4030-A0AB-C18041124C36Q35054108-DCD73186-6B2F-4F7E-BF38-E3710E83FDECQ35106722-872A8263-F360-4C60-ABA7-5DC762B90B3AQ35307880-C65970D4-68D4-4048-8134-94A5C4AA303FQ35435880-3F7BA74C-1605-4CA9-A52D-1B14D3B1C15BQ35592415-5CCE3944-C86D-4A2E-B4CF-D912655B9208Q35621335-56A7005A-9552-4EB8-9D6A-ACDDDB1448B2Q35978945-F8799940-EF82-4AD1-B338-4E2A56F3FEBEQ36103095-176F1B27-3D25-49E2-86B2-69ADAC5E97E7Q36114178-CFD7382C-6A5A-4554-83F4-91BBE5418D2DQ36404416-E4A381CD-9F75-483E-B113-6859F24BBCC7Q36460674-8ACC2B9F-E7B6-4E78-8335-52AA6EADD2D5Q36533406-C54F1870-F567-49DC-9C84-BAB1892BCA30Q36537892-DA81FA9E-3363-4223-97B0-F20A30D92F0EQ36583232-9BEE0598-C0E7-4125-A7A9-A2278F140043Q36660933-9B1C82A7-85B5-4FDC-8802-B80A69CF1E52Q36672511-DE8A7808-0F5B-4B4F-A47A-0575E1D3CA19Q36803738-B0FCCD2E-F867-4BE9-BB9B-A64FFBD8C0AEQ36852190-7FBDACAE-ACDB-4EB9-90DF-05D5AB53816FQ37068018-72F7B8FD-D295-46DC-95BC-6315D20C1D09Q37191865-A977DD15-3CF2-49C1-87D9-18750AE84F25Q37411611-D29922C8-B2FE-4E4C-B6C3-79D9552586C6Q47122704-DA318C2D-A295-497D-90CF-F0A0C2466523Q49530166-644AD632-6731-4D00-AB19-05FB7AF040C5Q55442125-AC237B51-EC86-47F9-83EE-B455EC083DECQ58728689-5F52291D-9E66-4BF2-B376-A90939D5993E
P2860
Multitasking in the olfactory system: context-dependent responses to odors reveal dual GABA-regulated coding mechanisms in single olfactory projection neurons.
description
1998 nî lūn-bûn
@nan
1998年の論文
@ja
1998年論文
@yue
1998年論文
@zh-hant
1998年論文
@zh-hk
1998年論文
@zh-mo
1998年論文
@zh-tw
1998年论文
@wuu
1998年论文
@zh
1998年论文
@zh-cn
name
Multitasking in the olfactory ...... olfactory projection neurons.
@en
Multitasking in the olfactory ...... olfactory projection neurons.
@nl
type
label
Multitasking in the olfactory ...... olfactory projection neurons.
@en
Multitasking in the olfactory ...... olfactory projection neurons.
@nl
prefLabel
Multitasking in the olfactory ...... olfactory projection neurons.
@en
Multitasking in the olfactory ...... olfactory projection neurons.
@nl
P2093
P1476
Multitasking in the olfactory ...... e olfactory projection neurons
@en
P2093
B R Waldrop
J G Hildebrand
T A Christensen
P304
P356
10.1523/JNEUROSCI.18-15-05999.1998
P407
P577
1998-08-01T00:00:00Z