Kandiyil, V.V.K.; Kang, E.; Coates, E.; Kamthunzi, P.; Tegha, G.; Hosseinipour, M.; Wu, D.; Zou, F.; De Paris, K.
BCG Vaccination Potentially Modulates the Transcriptome of Infant CD4 T Cells in Addition to Age-Dependent Immune Ontogeny-Associated Changes. Vaccines 2025, 13, 706.
https://doi.org/10.3390/vaccines13070706
AMA Style
Kandiyil VVK, Kang E, Coates E, Kamthunzi P, Tegha G, Hosseinipour M, Wu D, Zou F, De Paris K.
BCG Vaccination Potentially Modulates the Transcriptome of Infant CD4 T Cells in Addition to Age-Dependent Immune Ontogeny-Associated Changes. Vaccines. 2025; 13(7):706.
https://doi.org/10.3390/vaccines13070706
Chicago/Turabian Style
Kandiyil, Vidya Vijayan Karuvan, Eunchong Kang, Emily Coates, Portia Kamthunzi, Gerald Tegha, Mina Hosseinipour, Di Wu, Fei Zou, and Kristina De Paris.
2025. "BCG Vaccination Potentially Modulates the Transcriptome of Infant CD4 T Cells in Addition to Age-Dependent Immune Ontogeny-Associated Changes" Vaccines 13, no. 7: 706.
https://doi.org/10.3390/vaccines13070706
APA Style
Kandiyil, V. V. K., Kang, E., Coates, E., Kamthunzi, P., Tegha, G., Hosseinipour, M., Wu, D., Zou, F., & De Paris, K.
(2025). BCG Vaccination Potentially Modulates the Transcriptome of Infant CD4 T Cells in Addition to Age-Dependent Immune Ontogeny-Associated Changes. Vaccines, 13(7), 706.
https://doi.org/10.3390/vaccines13070706
