/*--------------------------------------------------------------
	TEMPLATE FILE FOR BURSTING CORTICAL PYRAMIDAL CELL
	--------------------------------------------------

	One compartment model and currents derived from:

   Pospischil, M., Toledo-Rodriguez, M., Monier, C., Piwkowska, Z., 
   Bal, T., Fregnac, Y., Markram, H. and Destexhe, A.
   Minimal Hodgkin-Huxley type models for different classes of
   cortical and thalamic neurons.
   Biological Cybernetics 99: 427-441, 2008.

	- one compartment model
	- passive
	- HH Traub
	- IM
	- L-type calcium current


	Alain Destexhe, CNRS, 2008

--------------------------------------------------------------*/


print " "
print " << defining template for one-compartment sPYb cell >> "
print " "


begintemplate sPYb		// create a new template object
public soma

create soma[1]

proc init() { local v_potassium, v_sodium

  v_potassium = -100		// potassium reversal potential 
  v_sodium = 50			// sodium reversal potential 

  soma {
	Ra = 100		// geometry 
	nseg = 1
	diam = 96
	L = 96			// so that area is about 29000 um2
	cm = 1

	insert pas		// leak current 
	e_pas = -70
	g_pas = 1e-5		// idem TC cell

	// conversion with McC units: 
	// g(S/cm2) = g(nS)*1e-9/29000e-8
	//	    = g(nS) * 3.45e-6

	insert hh2		// Hodgin-Huxley INa and IK 
	ek = v_potassium
	ena = v_sodium
	vtraub_hh2 = -55	// Resting Vm, BJ was -55
	gnabar_hh2 = 0.05	// McCormick=15 muS, thal was 0.09
	gkbar_hh2 = 0.005	// spike duration of pyr cells

	insert im		// M current 
	taumax_im = 1000
	gkbar_im = 3e-5		// specific to LTS pyr cell

	insert cad		// calcium decay
	depth_cad = 1		// McCormick= 0.1 um
	taur_cad = 5		// McCormick=1 ms !!!
	cainf_cad = 2.4e-4	// McCormick=0
	kt_cad = 0		// no pump

	insert ical		// IL current (Reuveni et al. model, Nernst)
	cai = 2.4e-4 
	cao = 2 
	eca = 120 
	gcabar_ical = 1e-4


  }

  print " "
  print "<< sPYr: passive, INa, IK, Ca++, IT inserted >>"
  print " "

}
endtemplate sPYb