Omotuyi, I. O., Nash, O., Ajiboye, O. B., Iwegbulam, C. G., Oyinloye, E. B., Oyedeji, O. A., . . . Okaiyeto, K. (2020). Atomistic simulation reveals structural mechanisms underlying D614G spike glycoprotein‐enhanced fitness in SARS‐COV‐2. J Comput Chem.
Styl cytowania ChicagoOmotuyi, I. Olaposi, Oyekanmi Nash, O. Basiru Ajiboye, C. Gift Iwegbulam, E. Babatunji Oyinloye, O. Abimbola Oyedeji, Z. Abimbola Kashim, i Kunle Okaiyeto. "Atomistic Simulation Reveals Structural Mechanisms Underlying D614G Spike Glycoprotein‐enhanced Fitness in SARS‐COV‐2." J Comput Chem 2020.
Styl cytowania MLAOmotuyi, I. Olaposi, et al. "Atomistic Simulation Reveals Structural Mechanisms Underlying D614G Spike Glycoprotein‐enhanced Fitness in SARS‐COV‐2." J Comput Chem 2020.