Single-Cell Sequencing of iPSC-Dopamine Neurons Reconstructs Disease Progression and Identifies HDAC4 as a Regulator of Parkinson Cell PhenotypesCharmaine Lang, Richard Wade‐Martins|Cell stem cell|2018Cited by 192
Physiological Characterisation of Human iPS-Derived Dopaminergic NeuronsElizabeth M. Hartfield, Richard Wade‐Martins|PLoS ONE|2014Cited by 148
Impairment of Macroautophagy in Dopamine Neurons Has Opposing Effects on Parkinsonian Pathology and BehaviorBenjamin H.M. Hunn, Richard Wade‐Martins|Cell Reports|2019Cited by 38
Calcium dysregulation combined with mitochondrial failure and electrophysiological maturity converge in Parkinson’s iPSC-dopamine neuronsDayne Beccano-Kelly, Richard Wade‐Martins|iScience|2023Cited by 35
SARM1 activation induces reversible mitochondrial dysfunction and can be prevented in human neurons by antisense oligonucleotidesAndrea Loreto, Richard Wade‐Martins|bioRxiv (Cold Spring Harbor Laboratory)|2024Cited by 5