APA

Masson J., Dionne P., Salvatico C., Renner M., Specht C. G., Triller A. & Dahan M. (20140901). Mapping the energy and diffusion landscapes of membrane proteins at the cell surface using high-density single-molecule imaging and Bayesian inference: application to the multiscale dynamics of glycine receptors in the neuronal membrane. : Biophysical journal.

Chicago

Masson Jean-Baptiste, Dionne Patrice, Salvatico Charlotte, Renner Marianne, Specht Christian G, Triller Antoine and Dahan Maxime. 20140901. Mapping the energy and diffusion landscapes of membrane proteins at the cell surface using high-density single-molecule imaging and Bayesian inference: application to the multiscale dynamics of glycine receptors in the neuronal membrane. : Biophysical journal.

Harvard

Masson J., Dionne P., Salvatico C., Renner M., Specht C. G., Triller A. and Dahan M. (20140901). Mapping the energy and diffusion landscapes of membrane proteins at the cell surface using high-density single-molecule imaging and Bayesian inference: application to the multiscale dynamics of glycine receptors in the neuronal membrane. : Biophysical journal.

MLA

Masson Jean-Baptiste, Dionne Patrice, Salvatico Charlotte, Renner Marianne, Specht Christian G, Triller Antoine and Dahan Maxime. Mapping the energy and diffusion landscapes of membrane proteins at the cell surface using high-density single-molecule imaging and Bayesian inference: application to the multiscale dynamics of glycine receptors in the neuronal membrane. : Biophysical journal. 20140901.