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Wollmann, Robert
One or more keywords matched the following items that are connected to
Wollmann, Robert
Item Type
Name
Concept
Receptors, Cholinergic
Academic Article
A transgenic mouse model of the slow-channel syndrome.
Academic Article
The human-severe combined immunodeficiency myasthenic mouse model: a new approach for the study of myasthenia gravis.
Academic Article
Slow-channel transgenic mice: a model of postsynaptic organellar degeneration at the neuromuscular junction.
Academic Article
Genetic manipulation of AChR responses suggests multiple causes of weakness in slow-channel syndrome.
Academic Article
Striational autoantibodies in myasthenia gravis patients recognize I-band titin epitopes.
Academic Article
Active calcium accumulation underlies severe weakness in a panel of mice with slow-channel syndrome.
Academic Article
Focal caspase activation underlies the endplate myopathy in slow-channel syndrome.
Academic Article
Rapsyn mutations in myasthenic syndrome due to impaired receptor clustering.
Academic Article
Activation of apoptotic pathways at muscle fiber synapses is circumscribed and reversible in a slow-channel syndrome model.
Academic Article
Mutations in MUSK causing congenital myasthenic syndrome impair MuSK-Dok-7 interaction.
Academic Article
LG2 agrin mutation causing severe congenital myasthenic syndrome mimics functional characteristics of non-neural (z-) agrin.
Academic Article
Refractoriness to a second episode of experimental myasthenia gravis. Correlation with AChR concentration and morphologic appearance of the postsynaptic membrane.
Academic Article
Induction of the morphologic changes of both acute and chronic experimental myasthenia by monoclonal antibody directed against acetylcholine receptor.
Academic Article
Acute severe animal model of anti-muscle-specific kinase myasthenia: combined postsynaptic and presynaptic changes.
Academic Article
Desensitization of mutant acetylcholine receptors in transgenic mice reduces the amplitude of neuromuscular synaptic currents.
Search Criteria
Receptors Cholinergic