bioRxiv
Human Erbb2-induced Erk Activity Robustly Stimulates Cycling and Functional Remodeling of Rat and Human Cardiomyocytes
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Strash, N; DeLuca, S; Janer Carattini, G; Heo, SC; Gorsuch, R; Bursac, N
2020
Duke Scholars
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Strash, N., DeLuca, S., Janer Carattini, G., Heo, S. C., Gorsuch, R., & Bursac, N. (2020). Human Erbb2-induced Erk Activity Robustly Stimulates Cycling and Functional Remodeling of Rat and Human Cardiomyocytes. bioRxiv. https://doi.org/10.1101/2020.12.15.422603
Strash, Nicholas, Sophia DeLuca, Geovanni Janer Carattini, Soon Chul Heo, Ryne Gorsuch, and Nenad Bursac. “Human Erbb2-induced Erk Activity Robustly Stimulates Cycling and Functional Remodeling of Rat and Human Cardiomyocytes.” BioRxiv, 2020. https://doi.org/10.1101/2020.12.15.422603.
Strash N, DeLuca S, Janer Carattini G, Heo SC, Gorsuch R, Bursac N. Human Erbb2-induced Erk Activity Robustly Stimulates Cycling and Functional Remodeling of Rat and Human Cardiomyocytes. bioRxiv. 2020.
Strash, Nicholas, et al. “Human Erbb2-induced Erk Activity Robustly Stimulates Cycling and Functional Remodeling of Rat and Human Cardiomyocytes.” BioRxiv, 2020. Epmc, doi:10.1101/2020.12.15.422603.
Strash N, DeLuca S, Janer Carattini G, Heo SC, Gorsuch R, Bursac N. Human Erbb2-induced Erk Activity Robustly Stimulates Cycling and Functional Remodeling of Rat and Human Cardiomyocytes. bioRxiv. 2020.