Cite
Side-Chain Lactam-Bridge Conformational Constraints Differentiate the Activities of Salmon and Human Calcitonins and Reveal a New Design Concept for Potent Calcitonin Analogues
MLA
Taylor, J. W., et al. “Side-Chain Lactam-Bridge Conformational Constraints Differentiate the Activities of Salmon and Human Calcitonins and Reveal a New Design Concept for Potent Calcitonin Analogues.” Journal of Medicinal Chemistry, vol. 45, no. 5, Feb. 2002, pp. 1108–21. EBSCOhost, https://doi.org/10.1021/jm010474o.
APA
Taylor, J. W., Jin, Q. K., Sbacchi, M., Wang, L., Belfiore, P., Garnier, M., Kazantzis, A., Kapurniotu, A., Zaratin, P. F., & Scheideler, M. A. (2002). Side-Chain Lactam-Bridge Conformational Constraints Differentiate the Activities of Salmon and Human Calcitonins and Reveal a New Design Concept for Potent Calcitonin Analogues. Journal of Medicinal Chemistry, 45(5), 1108–1121. https://doi.org/10.1021/jm010474o
Chicago
Taylor, J. W., Q. K. Jin, M. Sbacchi, L. Wang, P. Belfiore, M. Garnier, A. Kazantzis, A. Kapurniotu, P. F. Zaratin, and M. A. Scheideler. 2002. “Side-Chain Lactam-Bridge Conformational Constraints Differentiate the Activities of Salmon and Human Calcitonins and Reveal a New Design Concept for Potent Calcitonin Analogues.” Journal of Medicinal Chemistry 45 (5): 1108–21. doi:10.1021/jm010474o.