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Trefely S, Huber K, Liu J, et al. Quantitative subcellular acyl-CoA analysis reveals distinct nuclear metabolism and isoleucine-dependent histone propionylation. Mol Cell. 2021;doi: 10.1016/j.molcel.2021.11.006.
Trefely, S., Huber, K., Liu, J., Noji, M., Stransky, S., Singh, J., Doan, M. T., Lovell, C. D., von Krusenstiern, E., Jiang, H., Bostwick, A., Pepper, H. L., Izzo, L., Zhao, S., Xu, J. P., Bedi, K. C., Rame, J. E., Bogner-Strauss, J. G., Mesaros, C., Sidoli, S., Wellen, K. E., & Snyder, N. W. (2021). Quantitative subcellular acyl-CoA analysis reveals distinct nuclear metabolism and isoleucine-dependent histone propionylation. Molecular cell, . https://doi.org/10.1016/j.molcel.2021.11.006
Trefely, Sophie, et al. "Quantitative subcellular acyl-CoA analysis reveals distinct nuclear metabolism and isoleucine-dependent histone propionylation." Molecular cell vol. (2021). doi: https://doi.org/10.1016/j.molcel.2021.11.006
Trefely S, Huber K, Liu J, Noji M, Stransky S, Singh J, Doan MT, Lovell CD, von Krusenstiern E, Jiang H, Bostwick A, Pepper HL, Izzo L, Zhao S, Xu JP, Bedi KC, Rame JE, Bogner-Strauss JG, Mesaros C, Sidoli S, Wellen KE, Snyder NW. Quantitative subcellular acyl-CoA analysis reveals distinct nuclear metabolism and isoleucine-dependent histone propionylation. Mol Cell. 2021 Nov 22; doi: 10.1016/j.molcel.2021.11.006. Epub 2021 Nov 22. PMID: 34856123.
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