Optimization and scaling of patient-derived brain organoids uncovers deep phenotypes of disease

bioRxiv

Shah K, Bedi R, Ramkumar P, Tong Z, Rash B, Stanton B, Sorokin J, Apaydin C, Batarse A, Bergamaschi J, Blattner R, Brown S, Bosshardt A, Castrillo C, Dang B, Drusinksy S, Enriquez L, Grayson D, Hilliard J, Hsu P-K, Johnson C, Jones R, Lash A, Lee C-Y, Li K, McKay A, Mount E, Nicola J, Oumzil I, Paek J, Pascoe D, Piepho A, Poust S, Quang D, Schultz M, Sims J, Taylor P, Treiman G, Wueseke O, Young N, Pollen A, Flanzer D, Chao D, Skibinski G, Kato S, Escola GS. Optimization and scaling of patient-derived brain organoids uncovers deep phenotypes of disease. bioRxiv. 2020.

2020

https://researcherprofiles.org/profile/474657646

Shah K, Bedi R, Ramkumar P, Tong Z, Rash B, Stanton B, Sorokin J, Apaydin C, Batarse A, Bergamaschi J, Blattner R, Brown S, Bosshardt A, Castrillo C, Dang B, Drusinksy S, Enriquez L, Grayson D, Hilliard J, Hsu P-K, Johnson C, Jones R, Lash A, Lee C-Y, Li K, McKay A, Mount E, Nicola J, Oumzil I, Paek J, Pascoe D, Piepho A, Poust S, Quang D, Schultz M, Sims J, Taylor P, Treiman G, Wueseke O, Young N, Pollen A, Flanzer D, Chao D, Skibinski G, Kato S, Escola GS

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Optimization and scaling of patient-derived brain organoids uncovers deep phenotypes of disease