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MLA

Richter, Hans, et al. “DNA-Encoded Library-Derived DDR1 Inhibitor Prevents Fibrosis and Renal Function Loss in a Genetic Mouse Model of Alport Syndrome.” ACS Chemical Biology, vol. 14, no. 1, Jan. 2019, pp. 37–49. EBSCOhost, https://doi.org/10.1021/acschembio.8b00866.

APA

Richter, H., Satz, A. L., Bedoucha, M., Buettelmann, B., Petersen, A. C., Harmeier, A., Hermosilla, R., Hochstrasser, R., Burger, D., Gsell, B., Gasser, R., Huber, S., Hug, M. N., Kocer, B., Kuhn, B., Ritter, M., Rudolph, M. G., Weibel, F., Molina-David, J., & Kim, J.-J. (2019). DNA-Encoded Library-Derived DDR1 Inhibitor Prevents Fibrosis and Renal Function Loss in a Genetic Mouse Model of Alport Syndrome. ACS Chemical Biology, 14(1), 37–49. https://doi.org/10.1021/acschembio.8b00866

Chicago

Richter, Hans, Alexander L. Satz, Marc Bedoucha, Bernd Buettelmann, Ann C. Petersen, Anja Harmeier, Ricardo Hermosilla, et al. 2019. “DNA-Encoded Library-Derived DDR1 Inhibitor Prevents Fibrosis and Renal Function Loss in a Genetic Mouse Model of Alport Syndrome.” ACS Chemical Biology 14 (1): 37–49. doi:10.1021/acschembio.8b00866.

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DNA-Encoded Library-Derived DDR1 Inhibitor Prevents Fibrosis and Renal Function Loss in a Genetic Mouse Model of Alport Syndrome.

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Chicago

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