Deng, S.; Shao, H.; Shang, H.; Pang, L.; Chen, X.; Cao, J.; Wang, Y.; Zhao, Z.
Development of a Cationic Polymeric Micellar Structure with Endosomal Escape Capability Enables Enhanced Intramuscular Transfection of mRNA-LNPs. Vaccines 2025, 13, 25.
https://doi.org/10.3390/vaccines13010025
AMA Style
Deng S, Shao H, Shang H, Pang L, Chen X, Cao J, Wang Y, Zhao Z.
Development of a Cationic Polymeric Micellar Structure with Endosomal Escape Capability Enables Enhanced Intramuscular Transfection of mRNA-LNPs. Vaccines. 2025; 13(1):25.
https://doi.org/10.3390/vaccines13010025
Chicago/Turabian Style
Deng, Siyuan, Han Shao, Hongtao Shang, Lingjin Pang, Xiaomeng Chen, Jingyi Cao, Yi Wang, and Zhao Zhao.
2025. "Development of a Cationic Polymeric Micellar Structure with Endosomal Escape Capability Enables Enhanced Intramuscular Transfection of mRNA-LNPs" Vaccines 13, no. 1: 25.
https://doi.org/10.3390/vaccines13010025
APA Style
Deng, S., Shao, H., Shang, H., Pang, L., Chen, X., Cao, J., Wang, Y., & Zhao, Z.
(2025). Development of a Cationic Polymeric Micellar Structure with Endosomal Escape Capability Enables Enhanced Intramuscular Transfection of mRNA-LNPs. Vaccines, 13(1), 25.
https://doi.org/10.3390/vaccines13010025