:GABA release dependent on presynaptic voltage
NEURON {
POINT_PROCESS SACinhib
RANGE Vpre ,Vinf
GLOBAL tau ,Vtau ,e,maxves,gsingle ,newves
RANGE release,numves,g,s_inf,t1,i,g
RANGE locx,locy,local_v
NONSPECIFIC_CURRENT i
}
UNITS {
(nA) = (nanoamp)
(mV) = (millivolt)
(nS) = (nanomho)
}
PARAMETER {
:presynaptic
maxves=10 :TOTAL NUMBER OF VESICLES
newves=0.01 :REPLENISHMENT RATE - VESICLES
Vtau=30 (/ms) :STIMULUS DEPOLARIZATION RATE
:postsynaptic
gsingle=0.2 (nS)
tau=10 (ms)
e = -65 (mV)
locx=0 :location x
locy=0 :location y
}
ASSIGNED {
:presynaptic
Vinf (mV)
s_inf
t1
numves
release
:postsynaptic
v (mV)
i (nA)
local_v (mV)
}
STATE {
g (nS)
Vpre (mV)
}
BREAKPOINT {
SOLVE state METHOD euler
if (t>t1){ :EVERY 1 MS
releasefunc(Vpre)
t1=t1+1
}
i = (1e-3)*g * (v - e)
local_v=v
}
INITIAL {
:presynaptic
s_inf=0
release=0
numves=maxves
t1=0
Vinf=0
Vpre=Vinf
:postsynaptic
g =0
}
FUNCTION releasefunc(vpre){
LOCAL rand,addves
s_inf=vpre/100
release=0
FROM rand=0 TO numves-1 { :GOES OVER ALL RRP
if (scop_random()<s_inf){
release=release+1
}
}
if (release>0){ :RELEASE
numves=numves-release
if (numves<0){numves=0}
state_discontinuity( g, g+ release*gsingle)
}
addves=0 :REPLINISHMENT
FROM rand=0 TO maxves-numves-1 {
if (scop_random()<newves){addves=addves+1}
}
numves=numves+addves
}
DERIVATIVE state {
g'=-g/tau
Vpre'=(-Vpre+Vinf)/Vtau
}