about
Alleviation of neuronal energy deficiency by mTOR inhibition as a treatment for mitochondria-related neurodegenerationProbing sporadic and familial Alzheimer's disease using induced pluripotent stem cellsNeuronal medium that supports basic synaptic functions and activity of human neurons in vitro.Predicting the functional states of human iPSC-derived neurons with single-cell RNA-seq and electrophysiologyGeneration of functional human serotonergic neurons from fibroblasts.Evaluating cell reprogramming, differentiation and conversion technologies in neuroscience.Transcriptional and epigenetic mechanisms of cellular reprogramming to induced pluripotency.How, when, and where new inhibitory neurons release neurotransmitters in the adult olfactory bulb.Early synapse formation in developing interneurons of the adult olfactory bulb.The different moods of human serotonergic neurons.Activation of adult-born neurons facilitates learning and memory.Adult neurogenesis promotes synaptic plasticity in the olfactory bulb.'Top-down' influences of ipsilateral or contralateral postero-temporal visual cortices on the extra-classical receptive fields of neurons in cat's striate cortex.Modulatory effect of substance P to the brain stem locomotor command in lampreys.Efficient Generation of CA3 Neurons from Human Pluripotent Stem Cells Enables Modeling of Hippocampal Connectivity In Vitro.Patch-Seq Protocol to Analyze the Electrophysiology, Morphology and Transcriptome of Whole Single Neurons Derived From Human Pluripotent Stem CellsReview: Synthetic scaffolds to control the biochemical, mechanical, and geometrical environment of stem cell-derived brain organoidsSurvival of syngeneic and allogeneic iPSC-derived neural precursors after spinal grafting in minipigsSingle-cell multimodal transcriptomics to study neuronal diversity in human stem cell-derived brain tissue and organoid modelsCorrigendum: Patch-Seq Protocol to Analyze the Electrophysiology, Morphology and Transcriptome of Whole Single Neurons Derived From Human Pluripotent Stem CellsGenetic predispositions of Parkinson's disease revealed in patient-derived brain cells
P50
Q28834138-746C86FC-697C-4544-8775-7603C509860DQ29615870-FC39BE35-A898-4FA3-85FD-8D0A1220043AQ35644670-33CE69A7-A257-4BD8-AE69-E38684965FEFQ37351739-538760FB-0F72-41BF-8C35-C2A65FF2111BQ38824722-3E082940-CA9C-4B15-ABD0-7D4E1C9B0A6FQ38838046-57D8EE80-F917-48E1-98EA-07179EE01393Q41044535-3C06B52C-C49F-49B5-B4F8-74605253C6EAQ42778323-C9E7D852-FA19-4710-818C-9DB6BF8A231BQ43231765-C87D434B-B3F5-420F-9F70-A7EB089C83DDQ46108843-D5506CF7-F8B9-4143-ABB8-39EAEBE41DD8Q48515606-CA793840-0602-4813-B918-1997AD4E5ADEQ48633851-3311767D-AA6A-4774-B377-0428305842F0Q48854055-CA062A3E-A856-412F-BA7E-991BA1D41659Q53879632-72ED8D86-0481-4CD2-9016-193AD9BE033DQ54220901-3191014C-0BBE-4720-A4FB-0841EBE72927Q58789949-83EFD0D0-FF18-4FEE-AEF9-40A64463AB98Q63741854-EA93167B-7ED3-4671-88A6-D9D126D34D0BQ88618417-27208B81-FFD6-4761-A957-89676CCA132BQ91925052-F5DC47AF-AA22-4352-8208-79CDBD9BB26DQ93061263-79597783-F81F-4B8D-A3AB-B05600C288F1Q94465937-9370AFFB-90CE-4B13-97A2-FF395C037E99
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Cedric Bardy
@ast
Cedric Bardy
@en
Cedric Bardy
@es
Cedric Bardy
@nl
type
label
Cedric Bardy
@ast
Cedric Bardy
@en
Cedric Bardy
@es
Cedric Bardy
@nl
prefLabel
Cedric Bardy
@ast
Cedric Bardy
@en
Cedric Bardy
@es
Cedric Bardy
@nl
P106
P31
P496
0000-0001-8321-0852