Serine synthesis pathway regulates cardiac differentiation from human pluripotent stem cells
Tomohiko Umei(Keio University Hospital), Masaki Ieda(University of Tsukuba), Tomomi Matsuura(Keio University), Otoya Sekine(Keio University), Seitaro Nomura(The University of Tokyo), Yoshikazu Kishino(Keio University), Taijun Moriwaki(Fujita Health University), Kotaro Haga(Fujita Health University), Keiichi Fukuda(Keio University Hospital), Takako Hishiki(Keio University), Manami Katoh(The University of Tokyo), Shugo Tohyama(Fujita Health University), Yuika Morita-Umei(Fujita Health University), Hidenori Tani(Fujita Health University), Masashi Nakamura(Fujita Health University), Masatoshi Ohno(Fujita Health University), Y Soma(Fujita Health University)
Cited by 4
Related Papers
Mitochondrial dysfunction associated with increased oxidative stress and α-synuclein accumulation in PARK2 iPSC-derived neurons and postmortem brain tissue
|Molecular Brain|2012|392
Cardiac Innervation and Sudden Cardiac Death
|Circulation Research|2015|391
HIF-1α-PDK1 axis-induced active glycolysis plays an essential role in macrophage migratory capacity
|Nature Communications|2016|385
Cardiomyocyte gene programs encoding morphological and functional signatures in cardiac hypertrophy and failure
|Nature Communications|2018|284
Macrophage hypoxia signaling regulates cardiac fibrosis via Oncostatin M
|Nature Communications|2019|152