Nam, Y., Baskoylu, S. N., Gazgalis, D., Orfali, R., Cui, M., Hart, A. C., & Zhang, M. (2018). A V-to-F substitution in SK2 channels causes Ca2+ hypersensitivity and improves locomotion in a C. elegans ALS model. Nature Portfolio.
Cita Chicago Style (17a ed.)Nam, Young-Woo, Saba N. Baskoylu, Dimitris Gazgalis, Razan Orfali, Meng Cui, Anne C. Hart, y Miao Zhang. A V-to-F Substitution in SK2 Channels Causes Ca2+ Hypersensitivity and Improves Locomotion in a C. Elegans ALS Model. Nature Portfolio, 2018.
Cita MLA (8a ed.)Nam, Young-Woo, et al. A V-to-F Substitution in SK2 Channels Causes Ca2+ Hypersensitivity and Improves Locomotion in a C. Elegans ALS Model. Nature Portfolio, 2018.
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