Brown, S. T., Holla, M. R., Land, M. A., Yang, S., McDonald, A. J., St-Pierre, F., & Raman, I. M. High-speed voltage imaging of action potentials in molecular layer interneurons reveals sensory-driven synchrony that augments movement. Elsevier.
Chicago Style (17th ed.) CitationBrown, Spencer T., Meghana R. Holla, Michelle A. Land, Shuyuan Yang, Alex J. McDonald, François St-Pierre, and Indira M. Raman. High-speed Voltage Imaging of Action Potentials in Molecular Layer Interneurons Reveals Sensory-driven Synchrony That Augments Movement. Elsevier.
MLA (9th ed.) CitationBrown, Spencer T., et al. High-speed Voltage Imaging of Action Potentials in Molecular Layer Interneurons Reveals Sensory-driven Synchrony That Augments Movement. Elsevier.
Warning: These citations may not always be 100% accurate.