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Poly(GR) in C9ORF72-Related ALS/FTD Compromises Mitochondrial Function and Increases Oxidative Stress and DNA Damage in iPSC-Derived Motor Neurons

GGGGCC repeat expansions in C9ORF72 are the most common genetic cause of both ALS and FTD. To uncover underlying pathogenic mechanisms, we found DNA damage was greater, in an age-dependent manner, in motor neurons differentiated from iPSCs of multiple C9ORF72 patients than control neurons. Ectopic e...

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Detalhes bibliográficos
Publicado no:	Neuron
Main Authors:	Lopez-Gonzalez, Rodrigo, Lu, Yubing, Gendron, Tania F., Karydas, Anna, Tran, Helene, Yang, Dejun, Petrucelli, Leonard, Miller, Bruce L., Almeida, Sandra, Gao, Fen-Biao
Formato:	Artigo
Idioma:	Inglês
Publicado em:	2016
Assuntos:	Article
Acesso em linha:	https://ncbi.nlm.nih.gov/pmc/articles/PMC5111366/ https://ncbi.nlm.nih.gov/pubmed/27720481 https://ncbi.nlm.nih.govhttp://dx.doi.org/10.1016/j.neuron.2016.09.015
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Poly(GR) in C9ORF72-Related ALS/FTD Compromises Mitochondrial Function and Increases Oxidative Stress and DNA Damage in iPSC-Derived Motor Neurons

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