bioRxiv
An integrative systems biology and experimental approach identifies convergence of epithelial plasticity, metabolism, and autophagy to promote chemoresistance
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, Preprint
Xu, S; Ware, K; Ding, Y; Kim, SY; Sheth, M; Rao, S; Chan, W; Armstrong, A; Eward, W; Jolly, M; Somarelli, J
2018
Duke Scholars
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Xu, S., Ware, K., Ding, Y., Kim, S. Y., Sheth, M., Rao, S., … Somarelli, J. (2018). An integrative systems biology and experimental approach identifies convergence of epithelial plasticity, metabolism, and autophagy to promote chemoresistance. bioRxiv. https://doi.org/10.1101/365833
Xu, Shengnan, Kathryn Ware, Yuantong Ding, So Young Kim, Maya Sheth, Sneha Rao, Wesley Chan, et al. “An integrative systems biology and experimental approach identifies convergence of epithelial plasticity, metabolism, and autophagy to promote chemoresistance.” BioRxiv, 2018. https://doi.org/10.1101/365833.
Xu S, Ware K, Ding Y, Kim SY, Sheth M, Rao S, et al. An integrative systems biology and experimental approach identifies convergence of epithelial plasticity, metabolism, and autophagy to promote chemoresistance. bioRxiv. 2018.
Xu, Shengnan, et al. “An integrative systems biology and experimental approach identifies convergence of epithelial plasticity, metabolism, and autophagy to promote chemoresistance.” BioRxiv, 2018. Epmc, doi:10.1101/365833.
Xu S, Ware K, Ding Y, Kim SY, Sheth M, Rao S, Chan W, Armstrong A, Eward W, Jolly M, Somarelli J. An integrative systems biology and experimental approach identifies convergence of epithelial plasticity, metabolism, and autophagy to promote chemoresistance. bioRxiv. 2018.