about
The coxsackievirus-adenovirus receptor reveals complex homophilic and heterophilic interactions on neural cellsThe process-inducing activity of transmembrane agrin requires follistatin-like domainsThe heparan sulfate proteoglycan agrin contributes to barrier properties of mouse brain endothelial cells by stabilizing adherens junctions.APP interacts with LRP4 and agrin to coordinate the development of the neuromuscular junction in mice.The avian tectobulbar tract: development, explant culture, and effects of antibodies on the pattern of neurite outgrowth.A Cell Culture System to Investigate the Presynaptic Control of Subsynaptic Membrane Differentiation at the Neuromuscular Junction.Nondirected axonal growth on basal lamina from avian embryonic neural retina.Decrease in newly generated oligodendrocytes leads to motor dysfunctions and changed myelin structures that can be rescued by transplanted cells.Neuronal LRP4 regulates synapse formation in the developing CNS.Formation of cholinergic synapse-like specializations at developing murine muscle spindles.Differential regulation of AChR clustering in the polar and equatorial region of murine muscle spindles.Anti-agrin autoantibodies in myasthenia gravis.The role of agrin, Lrp4 and MuSK during dendritic arborization and synaptogenesis in cultured embryonic CNS neuronsImpaired muscle spindle function in murine models of muscular dystrophyProprioception 2.0: novel functions for muscle spindlesAlternative Splicing and the Intracellular Domain Mediate TM-agrin's Ability to Differentially Regulate the Density of Excitatory and Inhibitory Synapse-like Specializations in Developing CNS NeuronsAcetylcholine receptors in the equatorial region of intrafusal muscle fibres modulate mouse muscle spindle sensitivity
P50
Q27660037-00D244BA-2940-4E18-83D1-43A5401CF565Q33661617-82FDAAC2-0948-497E-A99E-4B560F8A3665Q34410852-12EAA700-C7C0-4D21-B2E8-2C634AB2512EQ37108667-E6027F26-7D60-45AB-BCB5-2B0D32A36B3AQ42481564-15574642-11E1-4655-903A-4191DA8AA3EEQ42502960-BE796997-50EA-4A8E-B5D0-11CD42AB1270Q42517480-ED9F0575-BB07-4B92-ABAA-56D7201D2F61Q47392218-5B4B1A6C-0A2D-46E6-939C-537EC435AD46Q47603432-8B251DEC-333E-4E64-9215-826BBBE65122Q50452239-79E9CAE8-9EE1-4BBE-80A7-7A97BE09D5D3Q54311075-97838B4A-B2CE-48CD-A2DE-0680E8EF0306Q54355374-BD54CF5A-D4C9-4490-996A-9E8D0F58EE1CQ58596724-1E73C60E-81E8-4A24-8DF5-20079F13588AQ89465244-7B4D6DD3-BC05-4973-8F89-C66FD800072CQ90868102-7622EAA2-C1A8-47F5-B04E-70C223917518Q91043046-8A14AF4F-B5B7-4AC3-9DFC-B5708B70C515Q91179210-EB497D5B-3E09-4CD1-9451-0FD1A965CB3B
P50
description
investigador
@es
researcher
@en
name
Stephan Kröger
@en
type
label
Stephan Kröger
@en
prefLabel
Stephan Kröger
@en
P31
P496
0000-0002-4626-1690