This directory contains scripts for various cell models which have been
implemented with GENESIS.  (Additional contributions are welcome!)  Most of
these models are in the form of ".p" file, which may be used by the cell
reader to create the cell, a file of functions to create the prototype
channels which are used in the cell, and a "userprefs.g" file which may be
used to read the cell into Neurokit.  Other models may consist of scripts
which define functions for creating the cells.

NOTE:  some of the scripts in these directories have not yet been converted
from GENESIS 1 syntax to GENESIS2.

Currently, it contains the subdirectories:

Aplysia_Ink_MN (and the tar file Aplysia_Ink_MN.tar)

This simulation of the Aplysia ink motor neuron (L14) cell, contributed by
Chris Butson, is modeled after the description by J. H. Byrne, J Neurophys,
Vol. 43, pp. 630-650 and 650-669.  The simulation consists of Ink_sim.g (main
simulation script), ink_channels.g (ion channel descriptions) and ink_motor.p
(cell description file).

corticalcells

This contains reduced neocortical pyramidal cells suitable for use in network
models.  The passive cell model parameter files layer5.p and layer2.p describe
the reduced neocortical pyramidal cell models of Bush and Sejnowski (1993).
The files layer5BDK.p and layer2BDK.p use the layer5.p and layer2.p
morphologies to implement smaller versions of the Bernander et al.  (1991)
models.  These use active channel model descriptions taken from Bernander,
Douglas and Koch (1992).  With these channels, the firing patterns under
current clamp are very close to those of the larger models, with the spike
adaptation typical of regular-firing pyramidal cells.  The channels are
defined and described in the file BDKchan.g.  A userprefs.g file is included
for use with Neurokit.


THALMODES

This is a GENESIS model created by Pratik Mukherjee of slow oscillatory
bursting in a thalamic relay cell.  It is based upon the one by McCormick et
al. (1991).  This has recently been converted to GENESIS 2 by Lauren Jones.
The old GENESIS 1 version is in THALMODES.gen1.

mitral_granule

The large (10 MB) tar file "jneurophys.jun93.tar" extracts to the directory
"jneurophys.jun93".  This directory contains simulations and figures from
the publication:

'Exploring parameter space in detailed single neuron models:
simulations of the mitral and granule cells of the olfactory bulb'
Upinder S. Bhalla and James M. Bower
Division of Biology, California Institute of Technology.
Journal of Neurophysiology Vol 69 No. 6, June 1993 pp 1948-1965

There are 4 basic mitral cell models, and a few variations on them with the
electrode leak removed or TTX and TEA applied. There are 3 basic granule
cell models, plus the usual variations, plus 2 more to illustrate that
paramter searches can give multiple solutions.  The ".p" cell parameter
files to create the cells may be found in mit_classes and gran_classes.  The
channels are created from the prototypes in bulbchan.g.  A GENESIS 2 version
of this file exists in the GENESIS distribution as
Scripts/neurokit/prototypes/newbulbchan.g.

granule

This directory contains a hippocampal granule cell model implemented by Erik
De Schutter.  This was used in his model of Ca diffusion in the hippocampus
granule cell, which was described in:

E. De Schutter and J.M. Bower: Sensitivity of synaptic plasticity to the
Ca2+-permeability of NMDA-channels: a model of long term potentiation in
hippocampal neurons.  Neural Computation 5: 681-694 (1993).

traub94

This contains scripts to create and test a GENESIS 2 implementation of the
1994 Traub et al. 64 compartment CA3 pyramidal cell [Journal of Physiology,
Vol.  481.1, p. 79 (1994)].  This implementation was contributed by Pulin
Sampat.  It is also archived in archives/traub94.tar.Z.

traub95

This is a version of Traub's 51-compartment hippocampal interneuron,
contributed by Eliot Menschik.  This, and the traub94 model pyramidal
cell were used in the paper contained in the file
menschik_finkel_1998.pdf (viewable with xpdf or acroread).

Additional directories in the GENESIS distribution which contain cell models:

"Scripts/traub91" contains a tutorial based upon a GENESIS simulation
of the hippocampal pyramidal cell model of Traub, et. al. [R.D.Traub, R. K.
S.  Wong, R. Miles, and H. Michelson, Journal of Neurophysiology, Vol. 66,
p.  635 (1991)] This paper should be consulted while using the tutorial.
The channels which are used by the "CA3.p" and "userprefs.g" file may be
found in prototypes/traub91proto.g.  The file
"Scripts/neurokit/prototypes/traub91chan.g" is similar, except that it uses
longer descriptive names for the channels.

"Scripts/burster" contains a tutorial on bursting molluscan neurons
and the effects of the various types of ionic channels which are commonly
found.  The cell which is modeled is a "generic burster", loosely modeled
after the Aplysia R15 cell, although it contains channel models taken from
measurements on bursting neurons in Tritonia as well as Aplysia.  Most of
the channels are described in the review paper by David J. Adams, Stephen J.
Smith and Stuart H. Thompson (Ann. Rev. Neurosci. 3, p.141 (1980).  Further
details of the tutorial and the channel models are given in Chapter 7
of "The Book of GENESIS".

"Scripts/piriform" contains an interactive tutorial version of the Wilson
and Bower piriform cortex model.  This model uses a simplified 5 compartment
pyramidal cell and the two types of inhibitory interneurons.

"Scripts/purkinje" contains a tutorial version of the de Schutter and Bower
Purkinje cell simulation.  (De Schutter, E. and Bower, J. M. (1994) An active
membrane model of the cerebellar Purkinje cell: II. Simulation of synaptic
responses. J. Neurophysiol., 71: 401-419.)