References
- Bormann J., Hamill O. P., Sackmann B. Mechanism of anion permeation through channels gated by glycine and y-amino-butyric-acid in mouse cultured spinal neurons. Journal of Physiology 1987; 385: 243–286
- Hyden H., Cupello A. Inhibition in the mammalian brain: a new theory of GABA mechanism of action. Acta Physiologka Scandinavka 1987; 130: 1–77, Suppl. 561
- Hyden H., Cupello A., Palm A. y-amino-butyric-acid stimulates chloride permeability across microdissected Deiters' neuronal membrane. Brain Research 1986; 379: 167–171
- Hyden H., Cupello A., Palm A. GABAA receptor complexes are present on both sides of a GABA-acceptive neuronal membrane. International Journal of Neuroscience 1987; 37: 19–26
- Hyden H., Lange P. W., Larsson S. S-100-glia regulation of GABA transport across the nerve cell membrane. Journal of Neurological Sciences 1980; 45: 303–316
- Rapallino M. V., Cupello A., Hyden H. GABAA receptors on the cytoplasmic side of the Deiters' neuron plasma membrane: mechanism and functional implications. International Journal of Neuroscience 1988a; 43: 69–73
- Rapallino M. V., Cupello A., Hyden H. Direct evidence for the presence of GABAA receptors on the cytoplasmic side of the Deiters' neuron membrane. Brain Research 1988b; 462: 350–353
- Rapallino M. V., Cupello A., Hyden H. The mechanism by which intracellular GABA increases CI” outward permeability across Deiters' neuron plasma membranes. International Journal of Neuroscience 1989; 45: 71–1A