Shah, R.; Budhraja, R.; Radenkovic, S.; Preston, G.; King, A.T.; Sabry, S.; Bleukx, C.; Shammas, I.; Young, L.; Chandran, J.;
et al. Network Hypoactivity in ALG13-CDG: Disrupted Developmental Pathways and E/I Imbalance as Early Drivers of Neurological Features in CDG. Cells 2026, 15, 147.
https://doi.org/10.3390/cells15020147
AMA Style
Shah R, Budhraja R, Radenkovic S, Preston G, King AT, Sabry S, Bleukx C, Shammas I, Young L, Chandran J,
et al. Network Hypoactivity in ALG13-CDG: Disrupted Developmental Pathways and E/I Imbalance as Early Drivers of Neurological Features in CDG. Cells. 2026; 15(2):147.
https://doi.org/10.3390/cells15020147
Chicago/Turabian Style
Shah, Rameen, Rohit Budhraja, Silvia Radenkovic, Graeme Preston, Alexia Tyler King, Sahar Sabry, Charlotte Bleukx, Ibrahim Shammas, Lyndsay Young, Jisha Chandran,
and et al. 2026. "Network Hypoactivity in ALG13-CDG: Disrupted Developmental Pathways and E/I Imbalance as Early Drivers of Neurological Features in CDG" Cells 15, no. 2: 147.
https://doi.org/10.3390/cells15020147
APA Style
Shah, R., Budhraja, R., Radenkovic, S., Preston, G., King, A. T., Sabry, S., Bleukx, C., Shammas, I., Young, L., Chandran, J., Byeon, S. K., Hrstka, R., Smith, D. Y., IV, Staff, N. P., Drake, R., Sloan, S. A., Pandey, A., Morava, E., & Kozicz, T.
(2026). Network Hypoactivity in ALG13-CDG: Disrupted Developmental Pathways and E/I Imbalance as Early Drivers of Neurological Features in CDG. Cells, 15(2), 147.
https://doi.org/10.3390/cells15020147