celsius = 35
v_init=-70
global_ra=200.00 	// internal resistivity in ohm-cm 
Cm=1.5 //0.75		// specific membrane capacitance in uF/cm^2 
Cmy=0.075 		// capacitance in myelin 
Rm=40000		// specific membrane resistivity in ohm-cm^2  
Rn=50			// nodal resistivity 
Vleak=-46		// switched from -66, in order to give a proper resting potential
Vrest=-70		// resting potential -60 in control, -66 in Cs+

spinelimit=100      	// distance beyond which to modify for spines 
spinefactor=2.0     	// factor by which to change passive properties 

setgk = .036		// A-type potassium starting density, used in init_bday.hoc
setokslope = 0		// slope of A-type potassium conductance along individual oblique branches. set to 0 in all simulations

gkdr=0.040          	// delayed rectifier density 
gkap=setgk          	// proximal A-type potassium starting density 
gkad=setgk          	// distal A-type potassium  starting density 

dlimit=300	    	// cut-off for increase of A-type density 
dprox=50           	// distance to switch from proximal to distal type 
dslope=0.01         	// slope of A-type density 

okslope = setokslope	// oblique potassium channel gradient 
okmax = .5		// max potassium channel conductance  

ampaWeight = 0.00018 	// in uS; 0.00018 used in Jarsky et al 2005
nmdaWeight = 0.00018	// in uS

gnaSoma = 0.1
gnaSr = 0.03
gnaSlm = 0.03

// Inhibition parameters.
inhRev = -75

npyTau1 = 0.1
npyTau2 = 10
sstTau1 = 0.2 // from Maccaferri et al., 2000
sstTau2 = 18 // from Maccaferri et al., 2000
npyWeight = 0.001 // from Maccaferri et al., 2000
sstWeight = 0.001 // from Maccaferri et al 2000