This week I decided to make a subselection because my lists tend to be quite long!
- Leterrier et al (2015). Nanoscale Architecture of the Axon Initial Segment Reveals an Organized and Robust Scaffold. Self-explanatory!
- Chang and Minc (2014). Electrochemical Control of Cell and Tissue Polarity. Quite fascinating: electricity is also used as an intracellular signal and/or transport mechanism in cells.
- Leys and Mackie (1997). Electrical recording from a glass sponge. Exactly!
- Leys (2015). Elements of a ‘nervous system’ in sponges. Possibly a better place to start than the human brain?
- Adrian and Peachey (1973). Reconstruction of the action potential of frog sartorius muscle. A Hodgkin-Huxley model of the muscle's spike.
- Puthussery et al (2013). NaV1.1 Channels in Axon Initial Segments of Bipolar Cells Augment Input to Magnocellular Visual Pathways in the Primate Retina. Apparently there are spikes in the AIS of (some) bipolar cells.
- Schwarz et al (1995). Action potentials and membrane currents in the human node of Ranvier. Self-explanatory.
- Bialek (2015). Perspectives on theory at the interface of physics and biology. Not read yet, but looks good.
- Dunlap (1977). Localization of calcium channels in Paramecium caudatum. Spikes are initiated in the cilia (and not regenerated in the cell body). Kind of like initiation in axons?
- Holland et al (1997). Control of Phobic Behavioral Responses by Rhodopsin-Induced Photocurrents in Chlamydomonas. Spikes in Chlamydomonas, apparently quite similar to Paramecium.