; VisSim Block Diagram Format (VBDF)
; Copyright (C) 1989-1995 Visual Solutions
POa="Terry Dwyer"
PV=2.000
PS=0
PE=3
PP=0.005
PI=170
PX=0.005
PN=1e-006
PL=5
PT=1e-005
Pn=-12,6,20,"Times New Roman"
Pc=383
Po=1,50,664
Ppl=1
Ppp=0
Ppt=0
Ppf=1
Pe=0
PD=1024x768
Pf=0x0
Pr="stub"
Ps=995,0,0,680,0,0
Pd=17
PM=1,1,1,1
N.1="date"*0x81
N.2="label"*73x1<M>
n="Bibliography"
N.3="comment"*8x4*105x47<M>
C="
 The definitive reference is

 Hodgkin, A. L. and A. F. Huxley. (1952)  A quantitative description of membrane
 current and its application to conduction and excitation in nerve. J. Physiol. 117:
 500-544.

 The contemporary classic is

Hille, Bertil.  Ion Channels of Excitable Membranes. (1984)
"
N.4="label"*0x86
n="Hodgkin-Huxley Action Potential"
N.5="label"*2x84
n="Version 2.0"
N.6="Compound"*88x46<C>
n="Graph"
Ms=1993,0,0,1360,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.7="label"*78x0<M>
n="Graph"
N.8="Compound"*52x46<C>
n="Membrane Current"
Ms=1993,0,0,1360,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.9="label"*56x1<M>
n="Membrane Current"
N.10="Compound"*110x9<MC>
n="Membrane Notes"
Ms=1993,0,0,1360,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.11="label"*68x1<M>
n="Membrane Notes"
N.12="comment"*8x4*105x47<M>
C="
 Membrane potential is a function of the charge separation across the membrane and
 membrane capactance.  Charge separation is the integral over time of current flowing
 through the membrane.  Current is the sum of sodium (I Na+), potassium (I K+) and
 leak (I Leak) currents.

 The step function simulates a current pulse that moves the membrane charge to a new
 level.

 End
"
N.13="variable"*134x30<M>
n="I"
N.14="display"(-2.6079491215935)*128x22<M>
Oe=6
Ox=1
Ov=0
N.15="summingJunction"*97x27#5,1<M>
N.16="wirePositioner"*80x17<M>
N.17="variable"*14x17<M>
n="I_Na+"
N.18="display"(-0.034995112832752)*41x9<M>
Oe=6
Ox=1
Ov=0
N.19="wirePositioner"*79x29<M>
N.20="variable"*15x29<M>
n="I_K+"
N.21="display"(4.1770334706609)*41x22<M>
Oe=6
Ox=1
Ov=0
N.22="wirePositioner"*78x44<M>
N.23="variable"*12x44<M>
n="I_Leak"
N.24="display"(-6.7499874794217)*41x36<M>
Oe=6
Ox=1
Ov=0
N.25="label"*46x12<M>
n="uA / cm^2"
N.26="label"*46x25<M>
n="uA / cm^2"
N.27="label"*46x40<M>
n="uA / cm^2"
N.28="Compound"*3x47<C>
n="Units"
Ms=1993,0,0,1360,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.29="label"*73x1<M>
n="Units"
N.30="comment"*8x4*105x47<M>
C="
 Physical units in this model are

	Voltage		mv
	Current		uA / cm^2
	Charge		uC / cm^2
	Conductance	(uA / cm^2) / mv
	Capacitance	mv / (uC / cm^2)
	Time		msec
 End
"
N.31="plot"*0x4*71x39#1,0<M>
pt="Membrane Potential"
px="Time (msec)"
pax=0
pf=H
pf=F
pb=40,-100
pbx=3,0
pbY=0,0
pbX=0,0
pc=512
pm=10,0
pb.0=100,-200
pb.1=0,0
pb.2=0,0
pb.3=0,0
N.32="plot"*0x44*71x15#2,0<M>
pt="Conductances"
px="time (ms)"
pax=0
pf=H
pf=F
pb=30,0
pbx=3,0
pbY=0,0
pbX=0,0
pc=512
pm=10,0
pg=0,3pb.0=0,0
pb.1=30,0
pb.2=0,0
pb.3=0,0
N.33="variable"*4x1<M>
n="V"
N.34="variable"*0x60<M>
n="G_Na+"
N.35="variable"*16x60<M>
n="G_K+"
N.36="Compound"*61x50<C>
n="K+ Current"
Ms=1993,0,0,1360,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.37="label"*67x1<M>
n="K+ Current"
N.38="variable"*143x12<M>
n="I_K+"
N.39="display"(4.1770334706609)*139x14<MR>
Oe=6
Ox=1
Ov=0
N.40="label"*142x16<M>
n="uA / cm^2"
N.41="*"*128x11<M>
N.42="Compound"*61x52<C>
n="Leak Current"
Ms=1993,0,0,1360,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.43="label"*45x4<M>
n="Leak Current"
N.44="Compound"*12x4<MC>
n="Current Notes"
Ms=371,0,0,48,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.45="label"*62x1<M>
n="Membrane Notes"
N.46="comment"*8x4*105x47<M>
C="
 Each ion current is a function of membrane potential, equilibration potential and ion
 conductance.  Equilibration potentials are functions of intracellular and extracellular
 ion concentrations.  These potential are parameters is this model.

 End
"
N.47="variable"*75x22<M>
n="I_Leak"
N.48="label"*36x29<M>
n="     Leak Current's
Equilibrium Potential"
N.49="summingJunction"*86x35<M>
N.50="wirePositioner"*51x37<M>
N.51="variable"*44x26<M>
n="G_Leak"
N.52="display"(0.3)*37x23<MR>
Oe=6
Ox=1
Ov=0
N.53="variable"*62x35<M>
n="V"
N.54="display"(-89.430077822092)*74x32<M>
Oe=6
Ox=1
Ov=0
N.55="label"*33x14<M>
n="mv"
N.56="*"*65x21<M>
N.57="Compound"*24x46<C>
n="Membrane Voltange"
Ms=1993,0,0,1360,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.58="label"*60x1<M>
n="Membrane Voltage"
N.59="Compound"*11x2<MC>
n="Membrane Notes"
Ms=409,0,0,48,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.60="label"*68x1<M>
n="Membrane Notes"
N.61="comment"*8x4*105x47<M>
C="
 Membrane potential is a function of the charge separation across the membrane and
 membrane capactance.  Charge separation is the integral over time of current flowing
 through the membrane.  Current is the sum of sodium (I Na+), potassium (I K+) and
 leak (I Leak) currents.

 The step function simulates a current pulse that moves the membrane charge to a new
 level.

 End
"
N.62="integrator"(80,0,0)*57x35<M>
N.63="display"(89.430077822092)*73x29<M>
Oe=6
Ox=1
Ov=0
N.64="variable"*84x35<M>
n="Q"
N.65="display"(89.430077822092)*92x32<M>
Oe=6
Ox=1
Ov=0
N.66="variable"*24x35<M>
n="I"
N.67="display"(-2.6079491215935)*44x29<M>
Oe=6
Ox=1
Ov=0
N.68="label"*77x31<M>
n="mv"
N.69="label"*49x33<M>
n="uA / cm^2"
N.70="label"*134x25<M>
n="uA / cm^2"
N.71="variable"*146x63<M>
n="% Inactivation"
N.72="variable"*124x63<M>
n="% Activation"
N.73="variable"*105x63<M>
n="G_Na+"
N.74="meter"(-100,100)*74x5*89x47#4,0<M>
n="Sodium Channel Behavior"
Tt=1
Tw=0,-1000,0,"Na Current"
Tw=1,0,40,"Na Conductance"
Tw=2,0,100,"% Activation"
Tw=3,0,100,"% Inactivation"
Tc=0,16777215
Tc=1,8421504
Tg=1,8
Tc=2,32768
Tc=3,255
Tl=16744448
TL=0
N.75="variable"*85x63<M>
n="I_Na+"
N.76="*"*106x41#4,1<M>
N.77="label"*4x56<M>
n="Off Rate: N Gate"
Ob=16777215
Og=8421504
Of=-19,0,700,0,0,0,34,"Arial"
N.78="summingJunction"*62x40<M>
N.79="*"*54x48<M>
N.80="const"(1)*91x31<M>
N.81="summingJunction"*100x31<M>
N.82="*"*49x29<M>
N.83="variable"*93x41<M>
n="N"
N.84="integrator"(0.317,3,0)*72x41<M>
N.85="variable"*70x41<M>
n="tau_N"
N.86="meter"(-100,100)*88x35*19x14<M>
n="tau_N"
Tt=1
Tw=0,0,6,"Rate"
Tc=0,255
N.87="1/X"*72x46<M>
N.88="summingJunction"*63x45<M>
N.89="const"(-1)*39x24<M>
N.90="summingJunction"*47x24<M>
N.91="/"*62x16<M>
N.92="exp"*33x26<M>
N.93="const"(10)*29x19<M>
N.94="variable"*51x8<M>
n="alpha_N"
N.95="summingJunction"*24x13<M>
N.96="const"(10.001)*9x13<M>
N.97="/"*36x14<M>
N.98="const"(8)*47x53<M>
N.99="/"*36x49<M>
N.100="const"(0.001)*5x50<M>
N.101="summingJunction"*20x48<M>
N.102="variable"*50x58<M>
n="beta_N"
N.103="const"(80)*25x53<M>
N.104="exp"*44x50<M>
N.105="variable"*4x13<M>
n="H_H_V"
N.106="label"*8x9<M>
n="On Rate: N Gate"
Ob=16777215
Og=8421504
Of=-19,0,700,0,0,0,34,"Arial"
N.107="display"(1.5119489929443)*68x39<MR>
Oe=6
Ox=1
Ov=0
N.108="display"(1.6253540696947)*94x10<MR>
Oe=6
Ox=1
Ov=0
N.109="meter"(-100,100)*62x19*72x31<MR>
n="Potassium Current"
Tt=1
Tw=0,0,1000,"uA/cm^2"
Tc=0,255
N.110="const"(36)*93x49<M>
N.111="/"*55x50<M>
N.112="variable"*11x12<M>
n="H_H_V"
N.113="display"(9.4300778220924)*27x12<M>
Oe=6
Ox=1
Ov=0
N.114="display"(-69.4)*37x34<M>
Oe=6
Ox=1
Ov=0
N.115="summingJunction"*26x36<M>
N.116="variable"*4x35<M>
n="H_H_Offset"
N.117="const"(10.6)*13x38<M>
N.118="const"(-12)*78x22<M>
N.119="variable"*63x19<M>
n="H_H_Offset"
N.120="summingJunction"*88x19<M>
N.121="display"(-92)*98x22<M>
Oe=6
Ox=1
Ov=0
N.122="display"(-89.430077822092)*79x8<MR>
Oe=6
Ox=1
Ov=0
N.123="variable"*86x10<M>
n="V"
N.124="summingJunction"*104x10<M>
N.125="label"*97x24<M>
n="Potassium Current's
Equilibrium Potential"
N.126="display"(0.44775103827056)*72x39<MR>
Oe=6
Ox=1
Ov=0
N.127="display"(80)*65x17<MR>
Oe=6
Ox=1
Ov=0
N.128="display"(0.1241234385093)*52x6<MR>
Oe=6
Ox=1
Ov=0
N.129="display"(0.5372745350114)*51x56<MR>
Oe=6
Ox=1
Ov=0
N.130="/"*52x15<M>
N.131="const"(10)*45x17<M>
N.132="label"*63x51<M>
n="uA / cm^2"
N.133="display"(0)*58x48<M>
Oe=6
Ox=1
Ov=0
N.134="wirePositioner"*81x57<M>
N.135="variable"*14x57<M>
n="Stimulus"
N.136="plot"*107x35*59x30#3,0<M>
px="Time (sec)"
pax=0
pf=H
pf=F
pb=100,-100
pbx=3,0
pbY=0,0
pbX=1,0
pc=512
pm=10,0
pb.0=0,-900
pb.1=900,0
pb.2=200,-100
pb.3=100,-400
N.137="variable"*95x39<M>
n="I_Na+"
N.138="variable"*95x49<M>
n="I_K+"
N.139="variable"*96x59<M>
n="I"
N.140="variable"*95x13<M>
n="G_K+"
N.141="plot"*19x28*92x24#1,0<M>
px="Time (sec)"
pax=0
pf=H
pf=F
pb=50,-100
pbx=3,0
pbY=0,0
pbX=0,0
pc=512
pm=10,0
pb.0=50,-90
pb.1=0,0
pb.2=0,0
pb.3=0,0
N.142="label"*131x38<M>
n="mv"
N.143="-X"*112x41<M>
N.144="/"*91x40<M>
N.145="label"*58x48<M>
n="Capacitance (1.0 mv / (uC / cm^2))"
N.146="slider"(1,10,0)*66x44<M>
N.147="display"(-89.430077822092)*123x36<M>
Oe=6
Ox=1
Ov=0
N.148="variable"*138x41<M>
n="V"
N.149="display"(-89.430077822092)*57x6<M>
Oe=6
Ox=1
Ov=0
N.150="display"(9.4300778220924)*93x10<M>
Oe=6
Ox=1
Ov=0
N.151="variable"*51x15<M>
n="H_H_Offset"
N.152="slider"(80,80,60)*30x15<M>
N.153="variable"*94x14<M>
n="H_H_V"
N.154="variable"*62x11<M>
n="V"
N.155="summingJunction"*77x13<M>
N.156="Compound"*3x51<C>
n="Bibliography"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.157="plot"*48x0*53x15#1,0
pt="Membrane Potential"
px="Time (msec)"
py="mV"
pax=0
pf=H
pf=F
pb=40,-100
pbx=3,0
pbY=0,0
pbX=0,0
pc=512
pm=10,0
pg=4,0pb.0=0,0
pb.1=100,-200
pb.2=0,0
pb.3=0,0
N.158="variable"*39x6
n="V"
N.159="wirePositioner"*96x27<MR>
N.160="variable"*52x10<M>
n="RateTempEffect"
N.161="*"*73x8<M>
N.162="variable"*50x60<M>
n="RateTempEffect"
N.163="*"*73x58<M>
N.164="wirePositioner"*70x49<MR>
N.165="display"(3.8202161018186)*88x31<M>
Oe=6
Ox=1
Ov=0
N.166="const"(6.3)*29x35<M>
N.167="const"(10)*49x36<M>
N.168="const"(3)*67x33<M>
N.169="summingJunction"*38x33<M>
N.170="/"*56x34<M>
N.171="Compound"*114x46<C>
n="Temperature Effect"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.172="/"*57x14<M>
N.173="summingJunction"*39x13<M>
N.174="const"(1.1)*63x13<M>
N.175="const"(10)*33x18<M>
N.176="const"(6.3)*30x15<M>
N.177="display"(1.1233085794566)*85x11<M>
Oe=6
Ox=1
Ov=0
N.178="variable"*10x13<M>
n="Temperature"
N.179="variable"*11x33<M>
n="Temperature"
N.180="label"*65x30<M>
n="Q10"
N.181="label"*63x10<M>
n="Q10"
N.182="pow"(2)*72x13#2,1<M>
N.183="pow"(2)*74x33#2,1<M>
N.184="variable"*86x14<M>
n="G_TempEffect"
N.185="variable"*88x34<M>
n="RateTempEffect"
N.186="variable"*92x61<M>
n="G_TempEffect"
N.187="slider"(18.5,37,0)*33x3<M>
N.188="variable"*61x3<M>
n="Temperature"
N.189="Compound"*20x19#1,2<MC>
n="beta_N"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.190="Compound"*23x12#2,0<MCR>
n="tau_N"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.191="Compound"*20x6#1,1<MC>
n="alpha_N"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.192="*"*102x47#3,1<M>
N.193="variable"*61x13<M>
n="N_fourth"
N.194="Compound"*45x12#2,1<MC>
n="N_fourth"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.195="Compound"*80x13#1,1<MC>
n="G_K+"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.196="Compound"*115x8#0,1<MC>
n="Driving_Force_K+"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.197="variable"*2x71<M>
n="I_Na+"
N.198="variable"*5x75<M>
n="G_Na+"
N.199="variable"*4x103<M>
n="% Activation"
N.200="variable"*4x107<M>
n="% Inactivation"
N.201="variable"*11x95<M>
n="I_Na+"
N.202="meter"(-100,100)*24x94*105x16#4,0<M>
n="Sodium Channel Behavior"
Tt=0
Tw=0,0,1,"Na Current (uA/cm^2)"
Tw=1,0,1,"Na Conductance (mmho/cm^2)"
Tw=2,0,1,"% Activation Gates Open"
Tw=3,0,1,"% Inactivation Gates Closed"
Tc=0,16777215
Tc=1,8421504
Tc=2,32768
Tc=3,255
Tl=0
TL=0
N.203="meter"(-100,100)*20x70*105x16#4,0<M>
n="Sodium Channel Behavior"
Tt=0
Tw=0,0,1,"Na Current (uA/cm^2)"
Tw=1,0,1,"Na Conductance (mmho/cm^2)"
Tw=2,0,1,"% Activation Gates Open"
Tw=3,0,1,"% Inactivation Gates Closed"
Tc=0,16777215
Tc=1,8421504
Tc=2,32768
Tc=3,255
Tl=0
TL=0
N.204="Compound"*113x16#0,1<MC>
n="Driving_Force_Na+"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.205="display"(80)*83x42<MR>
Oe=6
Ox=1
Ov=0
N.206="label"*122x50<M>
n="Sodium's Current's
Equilibrium Potential"
N.207="summingJunction"*137x43<M>
N.208="variable"*125x43<M>
n="V"
N.209="display"(-89.430077822092)*118x41<MR>
Oe=6
Ox=1
Ov=0
N.210="display"(35)*123x48<M>
Oe=6
Ox=1
Ov=0
N.211="summingJunction"*112x44<M>
N.212="variable"*83x44<M>
n="H_H_Offset"
N.213="const"(115)*103x46<M>
N.214="Compound"*64x21#2,2<MC>
n="M_cubed"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.215="*"*71x51#3,1<M>
N.216="*"*80x58<M>
N.217="const"(100)*63x60<M>
N.218="variable"*62x53<M>
n="M"
N.219="integrator"(0.0528,1,0)*38x53<M>
N.220="*"*14x46<M>
N.221="summingJunction"*48x47<M>
N.222="const"(1)*42x47<M>
N.223="*"*32x60<M>
N.224="summingJunction"*22x47<M>
N.225="wirePositioner"*54x43<MR>
N.226="wirePositioner"*55x53<M>
N.227="wirePositioner"*88x62<M>
N.228="Compound"*59x46#2,2<MC>
n="H"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.229="summingJunction"*60x45<M>
N.230="*"*57x52<M>
N.231="const"(1)*96x36<M>
N.232="summingJunction"*103x36<M>
N.233="*"*79x37<M>
N.234="integrator"(0.658,2,0)*69x46<M>
N.235="*"*118x37<M>
N.236="const"(100)*109x41<M>
N.237="display"(0.47730106097337)*110x50<M>
Oe=6
Ox=1
Ov=0
N.238="wirePositioner"*102x32<MR>
N.239="wirePositioner"*97x46<M>
N.240="wirePositioner"*121x46<M>
N.241="wirePositioner"*127x29<M>
N.242="Compound"*100x30#3,1<MC>
n="G_Na+"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.243="*"*101x17#3,1<M>
N.244="variable"*100x14<M>
n="G_TempEffect"
N.245="*"*114x17<M>
N.246="variable"*120x32<M>
n="G_Na+"
N.247="variable"*83x23<M>
n="M_cubed"
N.248="Compound"*39x46#2,0<MCR>
n="tau_H"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.249="variable"*88x25<M>
n="tau_H"
N.250="meter"(-100,100)*102x26*19x11<M>
n="tau_H"
Tt=1
Tw=0,0,1,"Rate"
Tc=0,255
N.251="1/X"*89x30<M>
N.252="summingJunction"*80x29<M>
N.253="display"(1.6863047281528)*83x23<MR>
Oe=6
Ox=1
Ov=0
N.254="Compound"*36x41#1,1<MC>
n="alpha_H"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.255="label"*21x8<M>
n="On Rate: H Gate"
Ob=16777215
Og=8421504
Of=-19,0,700,0,0,0,34,"Arial"
N.256="exp"*59x13<M>
N.257="const"(20)*43x16<M>
N.258="variable"*56x7<M>
n="alpha_H"
N.259="summingJunction"*34x11<M>
N.260="const"(0.001)*21x11<M>
N.261="/"*53x12<M>
N.262="const"(0.085)*60x17<M>
N.263="*"*69x13<M>
N.264="display"(0.52035545209256)*58x5<MR>
Oe=6
Ox=1
Ov=0
N.265="variable"*58x9<M>
n="RateTempEffect"
N.266="*"*82x7<M>
N.267="Compound"*36x53#1,1<MC>
n="beta_H"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.268="label"*24x53<M>
n="Off Rate: H Gate"
Ob=16777215
Og=8421504
Of=-19,0,700,0,0,0,34,"Arial"
N.269="const"(1)*58x50<M>
N.270="summingJunction"*65x46<M>
N.271="/"*49x45<M>
N.272="const"(30.001)*23x46<M>
N.273="summingJunction"*37x44<M>
N.274="variable"*67x54<M>
n="beta_H"
N.275="const"(10)*39x50<M>
N.276="exp"*54x46<M>
N.277="1/X"*77x47<M>
N.278="display"(0.072657176826184)*69x58<MR>
Oe=6
Ox=1
Ov=0
N.279="variable"*67x56<M>
n="RateTempEffect"
N.280="*"*91x54<M>
N.281="Compound"*40x21#2,0<MCR>
n="tau_M"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.282="summingJunction"*80x37<M>
N.283="1/X"*90x38<M>
N.284="variable"*90x33<M>
n="tau_M"
N.285="display"(0.038111402165788)*89x31<MR>
Oe=6
Ox=1
Ov=0
N.286="meter"(-100,100)*103x35*20x11<M>
n="Tau_M"
Tt=1
Tw=0,0,1,"Meter 1"
Tc=0,255
N.287="Compound"*36x15#1,1<MC>
n="alpha_M"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.288="/"*42x11<M>
N.289="const"(25.001)*9x10<M>
N.290="summingJunction"*23x10<M>
N.291="variable"*42x6<M>
n="alpha_M"
N.292="const"(10)*32x15<M>
N.293="exp"*43x17<M>
N.294="/"*56x12<M>
N.295="summingJunction"*50x20<M>
N.296="const"(1)*43x22<M>
N.297="label"*9x6<M>
n="On Rate: M Gate"
Ob=16777215
Og=8421504
Of=-19,0,700,0,0,0,34,"Arial"
N.298="display"(0.43433503620814)*44x4<MR>
Oe=6
Ox=1
Ov=0
N.299="*"*67x6<M>
N.300="variable"*42x8<M>
n="RateTempEffect"
N.301="Compound"*36x30#1,1<MC>
n="beta_M"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.302="exp"*60x46<M>
N.303="const"(18)*47x49<M>
N.304="variable"*61x53<M>
n="beta_M"
N.305="summingJunction"*37x44<M>
N.306="const"(0.001)*24x46<M>
N.307="/"*55x45<M>
N.308="*"*72x46<M>
N.309="const"(4)*68x48<M>
N.310="label"*25x52<M>
n="Off Rate: M Gate"
Ob=16777215
Og=8421504
Of=-19,0,700,0,0,0,34,"Arial"
N.311="display"(25.804531632877)*63x57<MR>
Oe=6
Ox=1
Ov=0
N.312="variable"*61x55<M>
n="RateTempEffect"
N.313="*"*82x53<M>
N.314="variable"*68x49<M>
n="% Inactivation"
N.315="variable"*86x19<M>
n="% Activation"
N.316="label"*121x36<M>
n="Na Conductance"
N.317="*"*139x30<M>
N.318="const"(120)*85x32<M>
N.319="variable"*14x48<M>
n="H_H_V"
N.320="variable"*69x46<M>
n="H"
N.321="variable"*14x23<M>
n="H_H_V"
N.322="variable"*146x31<M>
n="I_Na+"
N.323="Compound"*61x48<C>
n="Sodium Current"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.324="variable"*5x39<M>
n="V"
N.325="Compound"*38x23#0,1<MC>
n="Driving_Force_Leak"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.326="variable"*56x18<M>
n="G_TempEffect"
N.327="*"*67x24<M>
N.328="const"(0.3)*31x26<M>
N.329="*"*99x16<M>
N.330="integrator"(0,4,0)*80x24<M>
N.331="const"(1)*76x24<M>
N.332="summingJunction"*91x24<M>
N.333="variable"*107x21<MR>
n=": Trigger"
N.334="sign"*105x25<M>
N.335="sign"*106x32<M>
N.336="summingJunction"*91x30#3,1<M>
N.337="const"(1)*74x34<M>
N.338="integrator"(0,5,0)*79x34<M>
N.339="!="*119x27<M>
N.340="not"*136x28<M>
N.341="wirePositioner"*80x29<M>
N.342="label"*1x0
n="  An Inhibitory Current  "
Ob=0
Og=16777215
Of=-24,0,400,0,0,0,18,"Times New Roman"
N.343="slider"(-100,0,-1000)*9x35
N.344="variable"*144x17<M>
n="Stimulus"
N.345="label"*74x27<M>
n="Pulse On At"
N.346="label"*67x32<M>
n="Pulse Duration"
N.347="comment"*2x1*97x33<M>
C="Knowledge Objective.  The student should be able to:
	
	Explain how inhibitory synaptic inputs increase the threshold for an AP
	when they act by opening potassium or chloride channels.

Application Objective:  The objectives are met when the student can:

	1.  Plot the relationship between the conductance of the IPSP and
	the AP threshold.

	2. Explain why an IPSP, whose equilibrium potential is equal to the 
	resting membrane potential, can be inhibitory.

	3.  Explain how an IPSP whose equilibrium potential is negative to the 
	resting membrane potential is more effective than one whose 
	equilibrium potential is merely equal to the resting membrane potential.

"
N.348="variable"*63x70<MR>
n="Stimulus@359"
N.349="Compound"*3x5<C>
n="Objectives"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.350="comment"*2x2*98x34<M>
C="
				Help Window

   Blue windows contain additional information and can be opened by double-clicking on them.
	For instance, double-click (or right click) on the objectives window
	 and you can read this lesson's objectives.

	To exit, double-click (or right click) somewhere on the yellow background.
 
   Sliders can be changed in two ways:
	Double-click on the clear window to be able to directly enter values.
	Drag the slider under the clear window to change the value in that clear window.
		(\"Drag\" means:				)
		(	1.  Put the pointer on the slider		)
		(	2.  Hold down the left button on the mouse 	)
		(	3.  Move the mouse to the right or the left.	)"
N.351="Compound"*3x11<C>
n="Double-Click Here
   To Get Help"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.352="comment"*3x1*96x33<M>
C="			Structure of this Window
   Two plots are given on the right of the screen.
	The top plot shows the membrane potential during the simulation.
	The bottom plot shows the sodium current and the IPSP current.

   Two wire diagram appear in the lower left corner.
	The upper diagram  implements an IPSP, giving a slider to allow 
	     the student to vary the conductance of the IPSP,
	     and a second slider to vary the equilibrium potential of the IPSP.
	The lower diagram implements a one-pulse stimulator, with the slider 		     generating the amplitude of the stimulus.

  Blue windows offer additional information.
	The current window gives the structure of this lesson plan
	The \"Objectives\" window list the knowledge and application objectives.
	The \"Help\" window explains how to manipulate the variables in this window.
	The \"Bibliography\" window lists important citations.
	The \"Units\" window lists the units of measurement.
	"
N.353="Compound"*3x8<C>
n="Structure of this Window"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.354="const"(0.1)*83x32<M>
N.355="const"(0.5)*74x29<M>
N.356="plot"*48x15*52x23#2,0
pt="Membrane Currents"
px="Time (msec)"
py="uA/cm^2"
pax=0
pf=H
pf=F
pb=800,-1200
pbx=3,0
pbY=0,0
pbX=0,0
pc=512
pm=10,0
pg=5,0pb.0=0,0
pb.1=800,-100
pb.2=0,0
pb.3=0,0
N.357="variable"*34x19
n="I_Na+"
N.358="Compound"*26x21#0,1<MC>
n="G_Leak"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.359="variable"*63x38<MR>
n="G_TempEffect"
N.360="*"*67x41<M>
N.361="label"*43x48<M>
n="     Leak Current's
Equilibrium Potential"
N.362="summingJunction"*93x54<M>
N.363="wirePositioner"*58x56<M>
N.364="variable"*69x54<M>
n="V"
N.365="display"(-89.430077822092)*81x51<M>
Oe=6
Ox=1
Ov=0
N.366="display"(-80)*44x53<M>
Oe=6
Ox=1
Ov=0
N.367="*"*100x62<M>
N.368="variable"*114x63<M>
n="I_IPSP"
N.369="Compound"*64x65#1,1<MC>
n="IPSP_Driving_Force"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.370="variable"*49x65<M>
n="V_IPSP"
N.371="Compound"*76x60#1,1<MC>
n="G_IPSP"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.372="slider"(0,10,0)*5x19
N.373="variable"*15x64<M>
n="I_IPSP"
N.374="wirePositioner"*84x64<M>
N.375="display"(0)*55x59<M>
Oe=6
Ox=1
Ov=0
N.376="label"*59x62<M>
n="uA / cm^2"
N.377="display"(0)*96x56<M>
Oe=6
Ox=1
Ov=0
N.378="slider"(-80,-80,-100)*2x27
N.379="Compound"*6x39#1,1<CR>
n="Stimulator"
Ms=2048,0,0,3840,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
N.380="label"*2x17
n="IPSP Conductance"
N.381="label"*2x23
n="IPSP Equilibrium
     Potential"
N.382="variable"*117x22<MR>
n="Driving_Force_Na+"
N.383="Compound"*25x25#2,1<C>
n="I_IPSP"
Ms=0,0,0,0,0,0
Ml=0
Mr=0
Mh=0
Mp=0
Mw=""
G.6=7,31,32,33,34,35,71,72,73,74,75,197,198,199,200,201,202,203,
G.8=9,10,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,70,132,133,134,135,136,137,138,139,373,374,375,376,
G.10=11,12,
I.13.i1=15.o1
I.14.i1=15.o1
I.15.i1=16.o1
I.15.i2=19.o1
I.15.i3=22.o1
I.15.i4=134.o1
I.15.i5=374.o1
I.16.i1=17.o1
I.18.i1=17.o1
I.19.i1=20.o1
I.21.i1=20.o1
I.22.i1=23.o1
I.24.i1=23.o1
G.28=29,30,
I.31.i1=33.o1
I.32.i1=34.o1
I.32.i2=35.o1
G.36=37,38,39,40,41,105,108,109,140,189,190,191,193,194,195,196,
I.38.i1=41.o1
I.39.i1=38.o1
I.41.i1=196.o1
I.41.i2=195.o1
G.42=43,44,47,55,56,112,113,141,324,325,358,
G.44=45,46,
I.47.i1=56.o1
I.49.i1=53.o1
f49.2.i=-
I.49.i2=50.o1
I.50.i1=115.o1
I.51.i1=328.o1
I.52.i1=51.o1
I.54.i1=53.o1
I.56.i1=358.o1
I.56.i2=325.o1
G.57=58,59,62,63,64,65,66,67,68,69,142,143,144,145,146,147,148,149,150,151,152,153,154,155,
G.59=60,61,
I.62.i1=66.o1
I.63.i1=62.o1
I.64.i1=62.o1
I.65.i1=64.o1
I.67.i1=66.o1
I.74.i1=75.o1
I.74.i2=73.o1
I.74.i3=72.o1
I.74.i4=71.o1
I.76.i1=83.o1
I.76.i2=83.o1
I.76.i3=83.o1
I.76.i4=83.o1
I.78.i1=82.o1
f78.2.i=-
I.78.i2=79.o1
I.79.i1=83.o1
I.79.i2=194.i2
I.81.i1=80.o1
f81.2.i=-
I.81.i2=83.o1
I.82.i1=159.o1
I.82.i2=194.i1
I.83.i1=84.o1
I.84.i1=78.o1
I.85.i1=87.o1
I.86.i1=85.o1
I.87.i1=88.o1
I.88.i1=190.i1
I.88.i2=190.i2
I.90.i1=89.o1
I.90.i2=92.o1
I.91.i1=130.o1
I.91.i2=90.o1
I.92.i1=97.o1
I.94.i1=91.o1
I.95.i1=96.o1
I.95.i2=191.i1
I.97.i1=95.o1
I.97.i2=93.o1
I.99.i1=101.o1
I.99.i2=103.o1
I.101.i1=189.i1
I.101.i2=100.o1
I.102.i1=111.o1
I.104.i1=99.o1
I.107.i1=85.o1
I.108.i1=140.o1
I.109.i1=41.o1
I.111.i1=104.o1
I.111.i2=98.o1
I.113.i1=112.o1
I.114.i1=115.o1
f115.1.i=-
I.115.i1=116.o1
I.115.i2=117.o1
f120.1.i=-
I.120.i1=119.o1
I.120.i2=118.o1
I.121.i1=120.o1
I.122.i1=123.o1
I.124.i1=123.o1
f124.2.i=-
I.124.i2=120.o1
I.126.i1=83.o1
I.127.i1=119.o1
I.128.i1=161.o1
I.129.i1=163.o1
I.130.i1=97.o1
I.130.i2=131.o1
I.133.i1=135.o1
I.134.i1=135.o1
I.136.i1=137.o1
I.136.i2=138.o1
I.136.i3=139.o1
I.140.i1=195.o1
I.141.i1=324.o1
I.143.i1=144.o1
I.144.i1=62.o1
I.144.i2=146.o1
I.147.i1=143.o1
I.148.i1=143.o1
I.149.i1=154.o1
I.150.i1=155.o1
I.151.i1=152.o1
I.153.i1=155.o1
f155.1.i=-
I.155.i1=154.o1
f155.2.i=-
I.155.i2=151.o1
G.156=2,3,
I.157.i1=158.o1
I.159.i1=81.o1
I.161.i1=94.o1
I.161.i2=160.o1
I.163.i1=102.o1
I.163.i2=162.o1
I.164.i1=163.o1
I.165.i1=183.o1
I.169.i1=179.o1
f169.2.i=-
I.169.i2=166.o1
I.170.i1=169.o1
I.170.i2=167.o1
G.171=165,166,167,168,169,170,172,173,174,175,176,177,178,179,180,181,182,183,184,185,187,188,
I.172.i1=173.o1
I.172.i2=175.o1
I.173.i1=178.o1
f173.2.i=-
I.173.i2=176.o1
I.177.i1=182.o1
I.182.i1=174.o1
I.182.i2=172.o1
I.183.i1=168.o1
I.183.i2=170.o1
I.184.i1=182.o1
I.185.i1=183.o1
I.188.i1=187.o1
G.189=77,98,99,100,101,102,103,104,111,129,162,163,164,
I.189.o1=164.o1
I.189.o2=163.o1
I.189.i1=105.o1
G.190=85,86,87,88,107,
I.190.i1=191.o1
I.190.i2=189.o1
G.191=89,90,91,92,93,94,95,96,97,106,128,130,131,160,161,
I.191.o1=161.o1
I.191.i1=105.o1
I.192.i1=195.i1
I.192.i2=110.o1
I.192.i3=186.o1
I.193.i1=194.o1
G.194=76,78,79,80,81,82,83,84,126,159,
I.194.o1=76.o1
I.194.i1=191.o1
I.194.i2=189.o2
G.195=110,186,192,
I.195.o1=192.o1
I.195.i1=193.o1
G.196=118,119,120,121,122,123,124,125,127,
I.196.o1=124.o1
I.202.i1=201.o1
I.202.i3=199.o1
I.202.i4=200.o1
I.203.i1=197.o1
G.204=205,206,207,208,209,210,211,212,213,
I.204.o1=207.o1
I.205.i1=212.o1
I.207.i1=208.o1
f207.2.i=-
I.207.i2=211.o1
I.209.i1=208.o1
I.210.i1=211.o1
f211.1.i=-
I.211.i1=212.o1
I.211.i2=213.o1
G.214=215,216,217,218,219,220,221,222,223,224,225,226,227,
I.214.o1=216.o1
I.214.o2=227.o1
I.214.i1=287.o1
I.214.i2=301.o1
I.215.i1=218.o1
I.215.i2=218.o1
I.215.i3=218.o1
I.216.i1=215.o1
I.216.i2=217.o1
I.218.i1=226.o1
I.219.i1=224.o1
I.220.i1=225.o1
I.220.i2=214.i1
I.221.i1=222.o1
f221.2.i=-
I.221.i2=226.o1
I.223.i1=226.o1
I.223.i2=214.i2
I.224.i1=220.o1
f224.2.i=-
I.224.i2=223.o1
I.225.i1=221.o1
I.226.i1=219.o1
I.227.i1=215.o1
G.228=229,230,231,232,233,234,235,236,237,238,239,240,241,
I.228.o1=241.o1
I.228.o2=235.o1
I.228.i1=254.o1
I.228.i2=267.o1
I.229.i1=233.o1
f229.2.i=-
I.229.i2=230.o1
I.230.i1=239.o1
I.230.i2=228.i2
I.232.i1=231.o1
f232.2.i=-
I.232.i2=239.o1
I.233.i1=238.o1
I.233.i2=228.i1
I.234.i1=229.o1
I.235.i1=232.o1
I.235.i2=236.o1
I.237.i1=239.o1
I.238.i1=232.o1
I.239.i1=234.o1
I.240.i1=239.o1
I.241.i1=240.o1
G.242=243,244,245,
I.242.o1=245.o1
I.242.i1=247.o1
I.242.i2=318.o1
I.242.i3=320.o1
I.243.i1=242.i1
I.243.i2=242.i2
I.243.i3=242.i3
I.245.i1=244.o1
I.245.i2=243.o1
I.246.i1=242.o1
I.247.i1=214.o2
G.248=249,250,251,252,253,
I.248.i1=254.o1
I.248.i2=267.o1
I.249.i1=251.o1
I.250.i1=251.o1
I.251.i1=252.o1
I.252.i1=248.i1
I.252.i2=248.i2
I.253.i1=249.o1
G.254=255,256,257,258,259,260,261,262,263,264,265,266,
I.254.o1=266.o1
I.254.i1=319.o1
I.256.i1=261.o1
I.258.i1=263.o1
I.259.i1=260.o1
I.259.i2=254.i1
I.261.i1=259.o1
I.261.i2=257.o1
I.263.i1=256.o1
I.263.i2=262.o1
I.264.i1=266.o1
I.266.i1=258.o1
I.266.i2=265.o1
G.267=268,269,270,271,272,273,274,275,276,277,278,279,280,
I.267.o1=280.o1
I.267.i1=319.o1
I.270.i1=276.o1
I.270.i2=269.o1
I.271.i1=273.o1
I.271.i2=275.o1
I.273.i1=267.i1
I.273.i2=272.o1
I.274.i1=277.o1
I.276.i1=271.o1
I.277.i1=270.o1
I.278.i1=280.o1
I.280.i1=274.o1
I.280.i2=279.o1
G.281=282,283,284,285,286,
I.281.i1=287.o1
I.281.i2=301.o1
I.282.i1=281.i1
I.282.i2=281.i2
I.283.i1=282.o1
I.284.i1=283.o1
I.285.i1=284.o1
I.286.i1=284.o1
G.287=288,289,290,291,292,293,294,295,296,297,298,299,300,
I.287.o1=299.o1
I.287.i1=321.o1
I.288.i1=290.o1
I.288.i2=292.o1
I.290.i1=289.o1
I.290.i2=287.i1
I.291.i1=294.o1
I.293.i1=288.o1
I.294.i1=288.o1
I.294.i2=295.o1
I.295.i1=293.o1
f295.2.i=-
I.295.i2=296.o1
I.298.i1=299.o1
I.299.i1=291.o1
I.299.i2=300.o1
G.301=302,303,304,305,306,307,308,309,310,311,312,313,
I.301.o1=313.o1
I.301.i1=321.o1
I.302.i1=307.o1
I.304.i1=308.o1
I.305.i1=301.i1
I.305.i2=306.o1
I.307.i1=305.o1
I.307.i2=303.o1
I.308.i1=302.o1
I.308.i2=309.o1
I.311.i1=313.o1
I.313.i1=304.o1
I.313.i2=312.o1
I.314.i1=228.o2
I.315.i1=214.o1
I.317.i1=382.o1
I.317.i2=246.o1
I.320.i1=228.o1
I.322.i1=317.o1
G.323=204,214,228,242,246,247,248,254,267,281,287,301,314,315,316,317,318,319,320,321,322,382,
G.325=48,49,50,53,54,114,115,116,117,
I.325.o1=49.o1
I.327.i1=326.o1
I.327.i2=51.o1
I.329.i1=379.i1
I.329.i2=333.o1
I.330.i1=331.o1
I.332.i1=330.o1
f332.2.i=-
I.332.i2=341.o1
I.333.i1=340.o1
I.334.i1=332.o1
I.335.i1=336.o1
I.336.i1=341.o1
I.336.i2=354.o1
f336.3.i=-
I.336.i3=338.o1
I.338.i1=337.o1
I.339.i1=334.o1
I.339.i2=335.o1
I.340.i1=339.o1
I.341.i1=355.o1
I.344.i1=329.o1
G.349=347,348,
G.351=350,
G.353=352,
I.356.i1=357.o1
I.356.i2=383.o1
G.358=328,51,52,326,327,
I.358.o1=327.o1
I.360.i1=359.o1
I.360.i2=371.i1
I.362.i1=364.o1
f362.2.i=-
I.362.i2=363.o1
I.363.i1=369.i1
I.365.i1=364.o1
I.366.i1=369.i1
I.367.i1=371.o1
I.367.i2=369.o1
I.368.i1=367.o1
G.369=361,362,363,364,365,366,
I.369.o1=362.o1
I.369.i1=370.o1
I.370.i1=383.i2
G.371=359,360,
I.371.o1=360.o1
I.371.i1=383.i1
I.374.i1=373.o1
I.375.i1=373.o1
I.377.i1=367.o1
G.379=344,345,346,329,330,331,332,333,334,335,336,337,338,339,340,341,354,355,
I.379.o1=329.o1
I.379.i1=343.o1
I.382.i1=204.o1
G.383=367,368,369,370,371,377,
I.383.o1=368.o1
I.383.i1=372.o1
I.383.i2=378.o1