Reciprocal discoidin domain receptor signaling strengthens integrin adhesion to connect adjacent tissues.
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Park, K; Jayadev, R; Payne, SG; Kenny-Ganzert, IW; Chi, Q; Costa, DS; Ramos-Lewis, W; Thendral, SB; Sherwood, DR
May 16, 2023
Duke Scholars
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Park, K., Jayadev, R., Payne, S. G., Kenny-Ganzert, I. W., Chi, Q., Costa, D. S., … Sherwood, D. R. (2023). Reciprocal discoidin domain receptor signaling strengthens integrin adhesion to connect adjacent tissues. https://doi.org/10.1101/2023.03.14.532639
Park, Kieop, Ranjay Jayadev, Sara G. Payne, Isabel W. Kenny-Ganzert, Qiuyi Chi, Daniel S. Costa, William Ramos-Lewis, Siddharthan Balachandar Thendral, and David R. Sherwood. “Reciprocal discoidin domain receptor signaling strengthens integrin adhesion to connect adjacent tissues.,” May 16, 2023. https://doi.org/10.1101/2023.03.14.532639.
Park K, Jayadev R, Payne SG, Kenny-Ganzert IW, Chi Q, Costa DS, et al. Reciprocal discoidin domain receptor signaling strengthens integrin adhesion to connect adjacent tissues. 2023.
Park, Kieop, et al. Reciprocal discoidin domain receptor signaling strengthens integrin adhesion to connect adjacent tissues. 16 May 2023. Pubmed, doi:10.1101/2023.03.14.532639.
Park K, Jayadev R, Payne SG, Kenny-Ganzert IW, Chi Q, Costa DS, Ramos-Lewis W, Thendral SB, Sherwood DR. Reciprocal discoidin domain receptor signaling strengthens integrin adhesion to connect adjacent tissues. 2023.