about
On the dimensionality of odor spaceRefractoriness and neural precisionLoss of sex discrimination and male-male aggression in mice deficient for TRP2gamma-Protocadherins regulate neuronal survival but are dispensable for circuit formation in retinaReconstruction of genetically identified neurons imaged by serial-section electron microscopyAge-related alterations in neurons of the mouse retina.The most numerous ganglion cell type of the mouse retina is a selective feature detector.Rapid innate defensive responses of mice to looming visual stimuli.Dynamical adaptation in photoreceptors.Neurodata Without Borders: Creating a Common Data Format for Neurophysiology.Retinal ganglion cells can rapidly change polarity from Off to On.A neural computation for visual acuity in the presence of eye movements.LED arrays as cost effective and efficient light sources for widefield microscopy.Multineuronal codes in retinal signaling.The neural code of the retina.How to measure the information gained from one symbol.Individual neurons dissociated from rat suprachiasmatic nucleus express independently phased circadian firing rhythms.Benefits of pathway splitting in sensory coding.The stall torque of the bacterial flagellar motor.Dynamics of a tightly coupled mechanism for flagellar rotation. Bacterial motility, chemiosmotic coupling, protonmotive force.Bayesian model of dynamic image stabilization in the visual system.Decoding visual information from a population of retinal ganglion cells.A novel signaling pathway from rod photoreceptors to ganglion cells in mammalian retina.Computing complex visual features with retinal spike times.Local retinal circuits of melanopsin-containing ganglion cells identified by transsynaptic viral tracing.Rapid neural coding in the retina with relative spike latencies.Precision and diversity in an odor map on the olfactory bulb.The projective field of a retinal amacrine cell.Ventromedial hypothalamic neurons control a defensive emotion state.Genetically engineered mice with an additional class of cone photoreceptors: implications for the evolution of color vision.The structure and precision of retinal spike trainsDivergence of visual channels in the inner retinaEye smarter than scientists believed: neural computations in circuits of the retina.Physical limits to magnetogenetics.Modeling convergent ON and OFF pathways in the early visual system.Neural Circuit Inference from Function to Structure.Nonlinear dynamics support a linear population code in a retinal target-tracking circuit.The proton flux through the bacterial flagellar motor.Laminar restriction of retinal ganglion cell dendrites and axons: subtype-specific developmental patterns revealed with transgenic markers.Retinal adaptation to object motion.
P50
Q21128757-2C874796-48CA-4BC2-8480-B59C23FD0127Q28263299-82715E32-0C29-41C8-92C1-AE46DD37D543Q28594448-7E929458-F67D-40C7-89EA-9D38B6C9FA7AQ28755392-A8319D0D-BF4A-4E68-8FE6-20BCCA6EE529Q28828988-00B0C5D8-E63E-42B8-8162-CE2953E9409FQ30427023-A37A5E05-BFE5-4782-8977-E4256C74B3C7Q30524841-9746458B-DB08-4E1F-AAF0-5962E33DF1D0Q30554723-41E312E4-B8BD-44CE-B88B-BE5FE1D318A3Q30557290-18449711-377B-4502-AC6C-F596DC5B54D8Q31026967-12CC794F-0BC8-4E24-993C-6C8C26EA4E65Q33277103-9E52CF10-FA91-4CF2-B7F0-7CE08AD9E64DQ33312513-A5666454-6ACD-4386-8A99-D11E16922CE8Q33334338-6EF4BC20-5DA5-4E62-9D0E-CCB522C2D283Q33565560-8A0D8B3C-1BA9-4322-B5B6-D66A5D628AC4Q33590907-C2065635-8F69-4FB7-A9E5-44C5F3B9F0ACQ33891711-4FD5CEEB-B833-4508-B535-E6C692D790F2Q34058703-951DB437-533C-4430-B304-9C8798C0EC8EQ34123841-5E75C435-8645-4409-86BF-661E92FB3B8AQ34259405-E8675559-BA7D-4BA5-B0D6-936AB5CDECBEQ34261411-BF7BE92B-E730-44D6-9295-B2AD0FB09988Q34320197-52EE10E9-6D68-480B-9FC3-B094FD904F72Q34444902-223A8D83-0E2A-474F-9B90-C1CC1D615F1BQ34474850-BC601804-90B2-47D2-86B6-60CA3074B136Q34542298-FF15721E-C031-4537-8464-395CD9287D5BQ34631493-63A6FA45-8EF2-492D-A1ED-940FC5064C19Q34753478-AA007DD4-A1C0-40FD-B099-CAE0BA53377DQ34924340-1D5A9E02-A19C-4857-9BC5-36453D2E005BQ35087652-52CD8A60-1AC6-431B-B688-062C5D061F06Q35232641-217BAEFB-8837-4ECA-B235-E14D44FA32D1Q36161538-E0474668-D773-412C-B9E8-6D9597135957Q36773217-F5788BCC-7584-43B5-871F-9E52382AAB23Q37029467-B32858C6-15EB-4744-AD3D-B267DEECBF56Q37029475-A12D57D7-C204-45BA-8F7F-674931FC1FB3Q37242410-FDF1D5C3-2F95-4B2C-8C53-AF6DC6BBE0DDQ37326541-2FFE5B8B-93D4-4F99-A8D9-D4F238640039Q39033373-3EC7DB3F-E284-4EEE-A306-F6F9EC1233D7Q39327124-FC3B10A3-C45A-4818-B85B-CF21419E3E55Q41371119-A4B8B46F-AB4C-4F58-A548-2D7E97661961Q41786543-FB4FE694-3204-4C1E-94B4-70AE1843EF62Q41897600-61F27C07-3BA9-4523-9808-70810CCDBC9A
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Markus Meister
@ast
Markus Meister
@en
Markus Meister
@es
Markus Meister
@fr
Markus Meister
@nl
Markus Meister
@sl
type
label
Markus Meister
@ast
Markus Meister
@en
Markus Meister
@es
Markus Meister
@fr
Markus Meister
@nl
Markus Meister
@sl
prefLabel
Markus Meister
@ast
Markus Meister
@en
Markus Meister
@es
Markus Meister
@fr
Markus Meister
@nl
Markus Meister
@sl
P106
P21
P31
P496
0000-0003-2136-6506