about
A 2D virtual reality system for visual goal-driven navigation in zebrafish larvaeEntrained rhythmic activities of neuronal ensembles as perceptual memory of time intervalA microfluidic device to study neuronal and motor responses to acute chemical stimuli in zebrafish.Monitoring tectal neuronal activities and motor behavior in zebrafish larvae.How to move with no rigid skeleton? The octopus has the answers.An integrated calcium imaging processing toolbox for the analysis of neuronal population dynamicsWing-beat coupling between flying locust pairs: preferred phase and lift enhancementThe first mecp2-null zebrafish model shows altered motor behaviorsLKB1/STRAD promotes axon initiation during neuronal polarization.Functional Interactions between Newborn and Mature Neurons Leading to Integration into Established Neuronal Circuits.Sustained Rhythmic Brain Activity Underlies Visual Motion Perception in Zebrafish.The Emergence of the Spatial Structure of Tectal Spontaneous Activity Is Independent of Visual Inputs.The world according to zebrafish: how neural circuits generate behaviorSpontaneous neuronal network dynamics reveal circuit's functional adaptations for behavior.Control of octopus arm extension by a peripheral motor program.Neurobiology: motor control of flexible octopus arms.Principles of Functional Circuit Connectivity: Insights From Spontaneous Activity in the Zebrafish Optic Tectum.Whole-Brain Neuronal Activity Displays Crackling Noise DynamicsFunctional Integration of Newborn Neurons in the Zebrafish Optic TectumOctopuses use a human-like strategy to control precise point-to-point arm movementsSensorimotor Transformations in the Zebrafish Auditory SystemNaturalistic Behavior: The Zebrafish Larva Strikes Back
P50
Q27344990-623F2969-BB7B-4324-93DB-C098C3DD5115Q30372722-74277FC6-AAF1-440B-BA75-C95252E079E6Q30658341-F77B8FD4-610A-45EC-829E-0BA0A4097422Q31137012-CBD060B3-A38B-4F54-B94E-AF0E654E7032Q33963178-1C746059-3E98-404C-BDC9-23FE970F39F6Q36395068-E75F29BD-A5E0-4380-9C45-B6D3FDF44161Q36884891-B0F57F85-F771-42C4-A730-826435895BDFQ37017708-D95B55F3-39CB-4A3C-BC12-A35DC0D0F69CQ40136806-0BDAF8D3-7DAD-423D-9249-F37AC687E5B8Q41051777-3FC800F2-45BE-4F62-AFF7-7AACA8DD2299Q41586938-1793EB0F-6BBB-42E2-9FF5-D0003B2439BAQ42255977-FA28E635-06D6-405F-8974-7EE08058CB60Q42745255-4AF21833-FCE0-47BD-BB90-F7BCB79754CEQ43180613-D5CFAB5A-252A-447F-AB50-9658A0784FB9Q48800609-FB155A32-37AD-4177-BA04-00F2F4F50856Q51634452-80032D21-3882-4BE8-996C-D116F39E2B6CQ55445337-7AFBF6FD-D612-4AFF-AF5E-C2B9D9EBF5E0Q61443565-4F4BDF2F-CA2E-4361-8526-FB36C20301A6Q64107940-EB9A32AE-B089-4C54-8C05-3E0340D38A04Q83187727-7915C772-97BE-42BC-BC99-B1A1836B2673Q91215841-AB986447-F51B-4E98-A7ED-B8DCCA79EDB5Q92472979-88B45887-763D-4FA7-827E-BB7793B5CE48
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
German Sumbre
@ast
German Sumbre
@en
German Sumbre
@es
German Sumbre
@nl
type
label
German Sumbre
@ast
German Sumbre
@en
German Sumbre
@es
German Sumbre
@nl
prefLabel
German Sumbre
@ast
German Sumbre
@en
German Sumbre
@es
German Sumbre
@nl
P1053
K-7538-2017
P106
P31
P3762
P3835
german-sumbre
P496
0000-0003-4436-6840