Difference between revisions of "Translations:Amacrine Cell/9/en"

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Message definition (Amacrine Cell)
===Cellular Biophysics===
Amacrine cells are interesting biophysically in that they operate using both sodium-mediated action potentials and sodium-independent graded potential changes. This has been shown in inhibitory (i.e., GABAergic/glycinergic) amacrine cells<ref name="Bieda 1999">M. C. Bieda & D. R. Copenhagen (1999) [http://jn.physiology.org/content/81/6/3092.long Sodium Action Potentials Are Not Required for Light-Evoked Release of GABA or Glycine From Retinal Amacrine Cells] J. Neurophysiol. <strong>81</strong> (6): 3092-3095</ref>, which make up the majority of amacrine cells, though it is unclear if this holds for all amacrine cells.
Translation===Cellular Biophysics===
Amacrine cells are interesting biophysically in that they operate using both sodium-mediated action potentials and sodium-independent graded potential changes. This has been shown in inhibitory (i.e., GABAergic/glycinergic) amacrine cells<ref name="Bieda 1999">M. C. Bieda & D. R. Copenhagen (1999) [http://jn.physiology.org/content/81/6/3092.long Sodium Action Potentials Are Not Required for Light-Evoked Release of GABA or Glycine From Retinal Amacrine Cells] J. Neurophysiol. <strong>81</strong> (6): 3092-3095</ref>, which make up the majority of amacrine cells, though it is unclear if this holds for all amacrine cells.

Cellular Biophysics

Amacrine cells are interesting biophysically in that they operate using both sodium-mediated action potentials and sodium-independent graded potential changes. This has been shown in inhibitory (i.e., GABAergic/glycinergic) amacrine cells[1], which make up the majority of amacrine cells, though it is unclear if this holds for all amacrine cells.
  1. M. C. Bieda & D. R. Copenhagen (1999) Sodium Action Potentials Are Not Required for Light-Evoked Release of GABA or Glycine From Retinal Amacrine Cells J. Neurophysiol. 81 (6): 3092-3095