Kang, T. C. C. B. D. L. B. E. N. M. A. Y. W. J. Z. A. M. B. X. H. D. K. W. L. E. D. W. H. R. Y. (2018). Hysteresis control of epithelial-mesenchymal transition dynamics conveys a distinct program with enhanced metastatic ability. Nature Publishing Group (NPG).
Chicago Style (17th ed.) CitationKang, Toni CeliĆ -Terrassa; Caleb Bastian; Daniel Liu; Brian Ell; Nicole M. Aiello; Yong Wei; Jose Zamalloa; Andres M. Blanco; Xiang Hang; Dmitriy Kunisky; Wenyang Li; Elizabeth D. Williams; Herschel Rabitz; Yibin. Hysteresis Control of Epithelial-mesenchymal Transition Dynamics Conveys a Distinct Program with Enhanced Metastatic Ability. Nature Publishing Group (NPG), 2018.
MLA (9th ed.) CitationKang, Toni CeliĆ -Terrassa; Caleb Bastian; Daniel Liu; Brian Ell; Nicole M. Aiello; Yong Wei; Jose Zamalloa; Andres M. Blanco; Xiang Hang; Dmitriy Kunisky; Wenyang Li; Elizabeth D. Williams; Herschel Rabitz; Yibin. Hysteresis Control of Epithelial-mesenchymal Transition Dynamics Conveys a Distinct Program with Enhanced Metastatic Ability. Nature Publishing Group (NPG), 2018.