Eze, S.C.; Nnemolisa, S.C.; Onyesoro, J.C.; Ilori, T.D.; Uche, V.S.; Madueke, A.C.; Oluyemi, W.M.; Adewumi, A.T.; Mosebi, S.; Okagu, I.U.
Revisiting BACE-1: How Machine Learning and Molecular Dynamics Unveiled Potential Anti-Alzheimer’s Activity of a Cysteinyl Sulfoxide Derivative. Biophysica 2026, 6, 47.
https://doi.org/10.3390/biophysica6030047
AMA Style
Eze SC, Nnemolisa SC, Onyesoro JC, Ilori TD, Uche VS, Madueke AC, Oluyemi WM, Adewumi AT, Mosebi S, Okagu IU.
Revisiting BACE-1: How Machine Learning and Molecular Dynamics Unveiled Potential Anti-Alzheimer’s Activity of a Cysteinyl Sulfoxide Derivative. Biophysica. 2026; 6(3):47.
https://doi.org/10.3390/biophysica6030047
Chicago/Turabian Style
Eze, Shadrach C., Stephen C. Nnemolisa, Joy C. Onyesoro, Toluwalope D. Ilori, Victor S. Uche, Augustine C. Madueke, Wande M. Oluyemi, Adeniyi T. Adewumi, Salerwe Mosebi, and Innocent U. Okagu.
2026. "Revisiting BACE-1: How Machine Learning and Molecular Dynamics Unveiled Potential Anti-Alzheimer’s Activity of a Cysteinyl Sulfoxide Derivative" Biophysica 6, no. 3: 47.
https://doi.org/10.3390/biophysica6030047
APA Style
Eze, S. C., Nnemolisa, S. C., Onyesoro, J. C., Ilori, T. D., Uche, V. S., Madueke, A. C., Oluyemi, W. M., Adewumi, A. T., Mosebi, S., & Okagu, I. U.
(2026). Revisiting BACE-1: How Machine Learning and Molecular Dynamics Unveiled Potential Anti-Alzheimer’s Activity of a Cysteinyl Sulfoxide Derivative. Biophysica, 6(3), 47.
https://doi.org/10.3390/biophysica6030047
