Nagy-Fazekas, D.; Fazekas, Z.; Taricska, N.; Stráner, P.; Karancsiné Menyhárd, D.; Perczel, A.
Inhibitor Design Strategy for Myostatin: Dynamics and Interaction Networks Define the Affinity and Release Mechanisms of the Inhibited Complexes. Molecules 2023, 28, 5655.
https://doi.org/10.3390/molecules28155655
AMA Style
Nagy-Fazekas D, Fazekas Z, Taricska N, Stráner P, Karancsiné Menyhárd D, Perczel A.
Inhibitor Design Strategy for Myostatin: Dynamics and Interaction Networks Define the Affinity and Release Mechanisms of the Inhibited Complexes. Molecules. 2023; 28(15):5655.
https://doi.org/10.3390/molecules28155655
Chicago/Turabian Style
Nagy-Fazekas, Dóra, Zsolt Fazekas, Nóra Taricska, Pál Stráner, Dóra Karancsiné Menyhárd, and András Perczel.
2023. "Inhibitor Design Strategy for Myostatin: Dynamics and Interaction Networks Define the Affinity and Release Mechanisms of the Inhibited Complexes" Molecules 28, no. 15: 5655.
https://doi.org/10.3390/molecules28155655
APA Style
Nagy-Fazekas, D., Fazekas, Z., Taricska, N., Stráner, P., Karancsiné Menyhárd, D., & Perczel, A.
(2023). Inhibitor Design Strategy for Myostatin: Dynamics and Interaction Networks Define the Affinity and Release Mechanisms of the Inhibited Complexes. Molecules, 28(15), 5655.
https://doi.org/10.3390/molecules28155655