Lin, X.; Xu, T.; Hou, W.; Dong, X.; Sun, Y.
Cationic Surface Charge Engineering of Recombinant Transthyretin Remarkably Increases the Inhibitory Potency Against Amyloid β-Protein Fibrillogenesis. Molecules 2024, 29, 5023.
https://doi.org/10.3390/molecules29215023
AMA Style
Lin X, Xu T, Hou W, Dong X, Sun Y.
Cationic Surface Charge Engineering of Recombinant Transthyretin Remarkably Increases the Inhibitory Potency Against Amyloid β-Protein Fibrillogenesis. Molecules. 2024; 29(21):5023.
https://doi.org/10.3390/molecules29215023
Chicago/Turabian Style
Lin, Xiaoding, Ting Xu, Wenqi Hou, Xiaoyan Dong, and Yan Sun.
2024. "Cationic Surface Charge Engineering of Recombinant Transthyretin Remarkably Increases the Inhibitory Potency Against Amyloid β-Protein Fibrillogenesis" Molecules 29, no. 21: 5023.
https://doi.org/10.3390/molecules29215023
APA Style
Lin, X., Xu, T., Hou, W., Dong, X., & Sun, Y.
(2024). Cationic Surface Charge Engineering of Recombinant Transthyretin Remarkably Increases the Inhibitory Potency Against Amyloid β-Protein Fibrillogenesis. Molecules, 29(21), 5023.
https://doi.org/10.3390/molecules29215023