Karch, S. J. N. W. Z. L. U. D. J. D. A. J. B. R. M. S. H. M. V. F. N. J. C. O. H. C. C. C. M. (2018). Integrative system biology analyses of CRISPR-edited iPSC-derived neurons and human brains reveal deficiencies of presynaptic signaling in FTLD and PSP. Nature Publishing Group (NPG).
Chicago Style (17th ed.) CitationKarch, Shan Jiang; Natalie Wen; Zeran Li; Umber Dube; Jorge Del Aguila; John Budde; Rita Martinez; Simon Hsu; Maria V. Fernandez; Nigel J. Cairns; Oscar Harari; Carlos Cruchaga; Celeste M. Integrative System Biology Analyses of CRISPR-edited IPSC-derived Neurons and Human Brains Reveal Deficiencies of Presynaptic Signaling in FTLD and PSP. Nature Publishing Group (NPG), 2018.
MLA (9th ed.) CitationKarch, Shan Jiang; Natalie Wen; Zeran Li; Umber Dube; Jorge Del Aguila; John Budde; Rita Martinez; Simon Hsu; Maria V. Fernandez; Nigel J. Cairns; Oscar Harari; Carlos Cruchaga; Celeste M. Integrative System Biology Analyses of CRISPR-edited IPSC-derived Neurons and Human Brains Reveal Deficiencies of Presynaptic Signaling in FTLD and PSP. Nature Publishing Group (NPG), 2018.