Motion processing streams in Drosophila are behaviorally specialized.
about
Contributions of the 12 neuron classes in the fly lamina to motion visionIntrinsic activity in the fly brain gates visual information during behavioral choicesFrom Form to Function: the Ways to Know a NeuronAutomated monitoring and analysis of social behavior in Drosophila.Dynamics of optomotor responses in Drosophila to perturbations in optic flowObject preference by walking fruit flies, Drosophila melanogaster, is mediated by vision and graviperception.Behavioural system identification of visual flight speed control in Drosophila melanogaster.Symmetries in stimulus statistics shape the form of visual motion estimators.Flies and humans share a motion estimation strategy that exploits natural scene statistics.Walking Drosophila align with the e-vector of linearly polarized light through directed modulation of angular accelerationA new chamber for studying the behavior of Drosophila.Mapping and cracking sensorimotor circuits in genetic model organisms.Drosophila fly straight by fixating objects in the face of expanding optic flowAn automated paradigm for Drosophila visual psychophysicsRunning hot and cold: behavioral strategies, neural circuits, and the molecular machinery for thermotaxis in C. elegans and Drosophila.Frequency response of lift control in DrosophilaDiscriminating external and internal causes for heading changes in freely flying Drosophila.Extremely sparse olfactory inputs are sufficient to mediate innate aversion in Drosophila.Genetic dissection reveals two separate retinal substrates for polarization vision in Drosophila.Cholinergic circuits integrate neighboring visual signals in a Drosophila motion detection pathway.Loom-sensitive neurons link computation to action in the Drosophila visual system.Food odors trigger Drosophila males to deposit a pheromone that guides aggregation and female oviposition decisions.Nonlinear circuits for naturalistic visual motion estimation.Spatial vision in insects is facilitated by shaping the dynamics of visual input through behavioral actionTexture dependence of motion sensing and free flight behavior in blowflies.Modular use of peripheral input channels tunes motion-detecting circuitry.The Drosophila visual system: From neural circuits to behavior.An olfactory circuit increases the fidelity of visual behavior.The Drosophila SK channel (dSK) contributes to photoreceptor performance by mediating sensitivity control at the first visual network.Specific kinematics and motor-related neurons for aversive chemotaxis in Drosophila.Cracking neural circuits in a tiny brain: new approaches for understanding the neural circuitry of DrosophilaNeurotrapping: cellular screens to identify the neural substrates of behavior in Drosophila.Farnesol-detecting olfactory neurons in Drosophila.Design principles of insect and vertebrate visual systems.Neural circuits that drive startle behavior, with a focus on the Mauthner cells and spiral fiber neurons of fishes.Parallel Computations in Insect and Mammalian Visual Motion Processing.Olfactory Behaviors Assayed by Computer Tracking Of Drosophila in a Four-quadrant Olfactometer.Processing of horizontal optic flow in three visual interneurons of the Drosophila brain.A transcriptional reporter of intracellular Ca(2+) in Drosophila.Dynamic structure of locomotor behavior in walking fruit flies.
P2860
Q24605995-8A887434-A06B-459E-BBE3-F6BD13B87091Q27314884-54FFFF0A-8477-444C-AFB1-469E6754B72BQ29398894-81020E92-BCA6-4939-9A3C-40C6525289D3Q30487508-F5807E59-A57C-444E-B22C-2826AE7A4D47Q30493898-8FA34E20-8AFF-4F75-A1D7-C314671642CEQ30495136-2E7E70D0-F0ED-468D-8DD0-FD4BFB037BB1Q30498084-A065919E-8D00-424C-BC16-A3A89A168E2AQ30503266-8D8A136B-2FB1-4C89-ACCF-DCC5C6655980Q30576505-775593DF-1780-4013-87B2-3D30E736800FQ30657562-DEE826E3-2C85-4AF4-84A4-762C07E9C1DCQ33527418-44B14C2E-E039-4BD6-B451-9CA61C0C702EQ33622557-0158054D-702F-4336-8FA0-D1E982407F7FQ33819976-70B390E3-FC5E-4548-9F7D-2FB2069622DEQ33955163-5D7EAF2D-D3D5-4D4F-905C-77FD43196963Q34244237-7A6DA589-149D-43FE-BEBF-851FA0A83306Q34333221-0E515954-0F22-4751-A950-AC2D8B373440Q34611038-8FC6BDCE-0A7E-4B74-BD30-E4C87C075439Q35558503-973C3C6A-D3B0-4082-8816-C2F56FB50245Q35672886-4B1CFE29-B127-4A25-A64D-F3DC0DB5A865Q35691506-A6D28007-9A73-47C1-A9FB-F502366DB127Q35818692-CE699D36-7F29-4016-B310-7BA39D732085Q36209267-AD6E5F95-0968-4AA9-81DC-73CD8645CFD7Q36330942-C2D0CAF7-2155-43BC-A2B4-D7EBC9B3231BQ36479313-58589AA4-3360-42D4-AA45-45835F815B1BQ36524887-0302AE53-F372-4A96-B58B-3E68EE771491Q37019165-6BD7A40C-2CEF-46C6-AEAF-EAAAA180B7E4Q37085727-736DBE60-E51C-4BB0-9DBD-CB5FE03A4FA7Q37109713-7152845D-0B53-45B0-B9A1-F7CF46E9495AQ37135641-516F92FA-FF2D-4284-A690-FC8D22FA8967Q37145323-F080F65D-F6E0-4879-94FE-9B7D68E6D9C0Q37262468-F4CA25A1-7409-40A1-A2CC-3B0F053BD3D3Q37437338-39825ECC-B04F-4A05-813F-CEB9014A5614Q37633618-0CCF650F-3D4E-46C7-BD2A-8E9C78F4CD90Q37732854-C373C0D1-8DE8-4FA0-BA24-CE5E07A5A71DQ38865508-C69DAB3A-1FE7-4B9A-AD3B-BC8463700E72Q38990449-BB1F0CB8-9FFA-4BD4-AA71-ECB4B9F1BCA4Q39431958-AEE6C988-1337-40D2-800A-598D5A060D42Q39908201-5D1292C8-A0AD-48E0-BC46-6143656F0537Q40952826-E5FA2973-6A86-44D8-9B06-735D52FD0CF0Q41121859-C796752A-6BB6-4A63-9082-15C4926E6F10
P2860
Motion processing streams in Drosophila are behaviorally specialized.
description
2008 nî lūn-bûn
@nan
2008 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Motion processing streams in Drosophila are behaviorally specialized.
@ast
Motion processing streams in Drosophila are behaviorally specialized.
@en
type
label
Motion processing streams in Drosophila are behaviorally specialized.
@ast
Motion processing streams in Drosophila are behaviorally specialized.
@en
prefLabel
Motion processing streams in Drosophila are behaviorally specialized.
@ast
Motion processing streams in Drosophila are behaviorally specialized.
@en
P2860
P1433
P1476
Motion processing streams in Drosophila are behaviorally specialized.
@en
P2093
Alexander Y Katsov
Thomas R Clandinin
P2860
P304
P356
10.1016/J.NEURON.2008.05.022
P407
P577
2008-07-01T00:00:00Z