Tallapaka, S. B., Karuturi, B. V. K., Yeapuri, P., Curran, S. M., Sonawane, Y. A., Phillips, J. A., . . . Vetro, J. A. (2019). Surface conjugation of EP67 to biodegradable nanoparticles increases the generation of long-lived mucosal and systemic memory T-cells by encapsulated protein vaccine after respiratory immunization and subsequent T-cell-mediated protection against respiratory infection. Int J Pharm.
シカゴスタイル引用形Tallapaka, Shailendra B., Bala V. K. Karuturi, Pravin Yeapuri, Stephen M. Curran, Yogesh A. Sonawane, Joy A. Phillips, D. David Smith, Sam D. Sanderson, , Joseph A. Vetro. "Surface Conjugation of EP67 to Biodegradable Nanoparticles Increases the Generation of Long-lived Mucosal and Systemic Memory T-cells By Encapsulated Protein Vaccine After Respiratory Immunization and Subsequent T-cell-mediated Protection against Respiratory Infection." Int J Pharm 2019.
MLA引用形式Tallapaka, Shailendra B., et al. "Surface Conjugation of EP67 to Biodegradable Nanoparticles Increases the Generation of Long-lived Mucosal and Systemic Memory T-cells By Encapsulated Protein Vaccine After Respiratory Immunization and Subsequent T-cell-mediated Protection against Respiratory Infection." Int J Pharm 2019.