- Shinar et al (2007) – Input-output robustness in simple bacterial signaling systems. Some good systems biology; certainly relevant to neuroscience too.
- Agrawal et al (2016) - Learning to Poke by Poking. Somehow related to subjective physics.
- Jaffe (2003) - The propagation speeds of calcium action potentials are remarkably invariant. I don't quite understand why! The author suggests AP speed is limited by calcium toxicity (ie buffering/extrusion speed).
- Burr and Seifriz (1955) - Response of the Slime Mold to Electric Stimulus. Yes, slime molds spike! Really cool; is there spike propagation across the thing? (Remember slime molds are intelligent!)
- Moreton-Amos-1979 - Electrical Recording from the Contractile Ciliate Zoothamnium Geniculatum Ayrton. Another spiking protozoan.
- Bingley-1966 - Further investigations into membrane potentials in amoebae. Amoebae too??
- Wood-1970 - Electrophysiological studies of the protozoan, Stentor coeruleus. Pretty cool one with a contractile stalk.
- Adolph and Berger (2006) - Motor development. Think about it: when we talk about “unsupervised learning” and about learning to walk or any other kind of human learning, are we actually talking about the same concept of learning?
- Conti and Palmieri (1968) - Nerve Fiber Behaviour in Heavy Water under Voltage-Clamp. Changing the solvent to manipulate electrical properties.
- Halter and Clark (1991) - A distributed-parameter model of the myelinated nerve fiber. Pretty good model with detailed geometrical aspects (periaxonal space, para/juxtanodal regions).