about
Increased Excitability of Both Principal Neurons and Interneurons during Associative LearningThe M1 muscarinic agonist CI-1017 facilitates trace eyeblink conditioning in aging rabbits and increases the excitability of CA1 pyramidal neurons.Positive emotional learning is regulated in the medial prefrontal cortex by GluN2B-containing NMDA receptors.Galantamine facilitates acquisition of hippocampus-dependent trace eyeblink conditioning in aged rabbitsAging-Related Hyperexcitability in CA3 Pyramidal Neurons Is Mediated by Enhanced A-Type K+ Channel Function and Expression.Increasing SK2 channel activity impairs associative learningPharmacological and molecular enhancement of learning in aging and Alzheimer's disease.Learning, aging and intrinsic neuronal plasticity.Alterations in intrinsic neuronal excitability during normal aging.Learning-related postburst afterhyperpolarization reduction in CA1 pyramidal neurons is mediated by protein kinase ACREB overexpression in dorsal CA1 ameliorates long-term memory deficits in aged rats.Surface L-type Ca2+ channel expression levels are increased in aged hippocampus.Cellular mechanisms for altered learning in aging.Metrifonate decreases sI(AHP) in CA1 pyramidal neurons in vitro.Age-related enhancement of the slow outward calcium-activated potassium current in hippocampal CA1 pyramidal neurons in vitro.Galantamine increases excitability of CA1 hippocampal pyramidal neurons.Metrifonate increases neuronal excitability in CA1 pyramidal neurons from both young and aging rabbit hippocampus.CREB, cellular excitability, and cognition: Implications for aging.Pairing-specific long-term depression of Purkinje cell excitatory postsynaptic potentials results from a classical conditioning procedure in the rabbit cerebellar slice.Conditioning-specific modification of the rabbit's unconditioned nictitating membrane response.
P50
Q26866239-5BE540CE-0C69-4C31-B302-CD1C6A6C7200Q33886397-2F067088-7B05-48A9-BFE4-EAB971F9C376Q35194637-B0DAEBD7-21C4-4E6A-AF99-003B12DCB0F3Q35541457-FC0E1254-5024-46E6-83E7-AE36AA3B9095Q36084414-3BBD86B2-8B00-4EBD-A6FD-63C70F1387EFQ36178852-641D897E-165E-41AD-B297-90074F8AAEF5Q36386872-C7B9E86F-2929-479E-9890-27FA4C96C69FQ36581808-8AD1B0B1-E6D1-437C-B146-DD1767E0E302Q36828246-73D4C005-09E8-4E29-B017-865B466D3CBEQ37083603-0B55B3AB-746D-49CB-B3C0-BC461DB28532Q37559498-74435FF2-FF1B-488F-95CC-7175214086E1Q37625596-D4874902-5682-41FF-A6CA-9C77B35562FDQ38092677-A59EBD73-1BAF-46D2-B270-90A8CB461FFAQ43518016-8622250C-E936-4A5B-B61B-6A4504167596Q44102456-DE8056A0-2668-4C31-A727-93B8163A5BE1Q46768577-D6AC40EB-E644-4B8C-A11D-BF58FD774756Q48280980-E7DB7BFF-2A07-4531-B6EC-70C38D4EA573Q48593529-A11B513C-A960-4F5E-B561-07BE61501B81Q49072784-0BB8BA77-C52D-469B-9CC6-81275194E7A4Q52018887-CCA79B77-A80E-4927-BFA3-DBB22D38356F
P50
description
researcher
@en
wetenschapper
@nl
name
M M Oh
@en
M M Oh
@nl
type
label
M M Oh
@en
M M Oh
@nl
prefLabel
M M Oh
@en
M M Oh
@nl
P106
P31
P496
0000-0002-6702-5785