The scripts in these subdirectories were contributed by Adam Strassberg to
demonstrate his GENESIS objects, "Napores" and "Kpores", which are
documented in Doc/Napores.doc and Doc/Kpores.doc.  These objects are used to
simulate a population of ion channel proteins (pores) embedded in a patch of
membrane over an isopotential region.  Each individual pore undergoes
standard Markov kinetics.  Further details are given in:

Strassberg, A. F., DeFelice, L. J. (1993) "Effects of single channel kinetics
upon transmembrane voltage dynamics" in Computation and Neural Systems,
109-113, F. H. Eeckman and J. M. Bower (eds.), Kluwer Academic Press.

Adam F. Strassberg and Louis J. DeFelice (1993) "Limitations of the
Hodgkin-Huxley Formalism: Effects of Single Channel Kinetics upon
Transmembrane Voltage Dynamics", Neural Computation, 5:6.

UnClamp - simulates the response of a space-clamped patch of squid giant
    axon membrane to a step current injection, using Napores and Kpores.

VClamp - simulates the response of a space-clamped patch of squid giant axon
    to a step change in membrane voltage, using Napores and Kpores.

ConClamp - simulates the continuous model with standard Hodgkin-Huxley
    channels for comparison with the two cases above.  The main simulation
    scripts are ConClamp.g and ConVclamp.g.

These example scripts have not been extensively tested, and the email addess
for Adam Strassberg is no longer valid.  Please send any comments,
suggestions or corrections to genesis@bbb.caltech.edu.
