Squid axon (Hodgkin, Huxley 1952) (SNNAP)

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Accession:42044
The classic HH model of squid axon membrane implemented in SNNAP. Hodgkin, A.L., Huxley, A.F. (1952)
Reference:
1 . HODGKIN AL, HUXLEY AF (1952) A quantitative description of membrane current and its application to conduction and excitation in nerve. J Physiol 117:500-44 [PubMed]
Model Information (Click on a link to find other models with that property)
Model Type: Axon;
Brain Region(s)/Organism:
Cell Type(s): Squid axon; Hodgkin-Huxley neuron;
Channel(s): I Na,t; I K;
Gap Junctions:
Receptor(s):
Gene(s):
Transmitter(s):
Simulation Environment: SNNAP;
Model Concept(s): Action Potentials; Invertebrate;
Implementer(s): Av-Ron, Evyatar [eav-ron at uth.tmc.edu];
Search NeuronDB for information about:  I Na,t; I K;
		>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
		>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
		>>    modules name: m		>>
		>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
		>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>


		>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
m:		> 	Activation function (rate constant method)	>
		>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>


>----------------------->--------------------------------------->
>	1		>	     am				>
>			>	m= --------		  (1)   >
>			>	    am+bm			>
>			>					>
>----------------------->--------------------------------------->
>	2		>	dm/dt=am x (1-m) - bm x m  (2)  >
>	xxx.xx	>IV<	>					>
>----------------------->--------------------------------------->
	3		>   dm/dt=L[am x (1-m) - bm x m]  (3)   >
	-1.0	>IV<	>					>
	3.0	>1000 L<	>					>
>----------------------->--------------------------------------->



		>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
am:		> 	Rate parameter (1)				>	
		>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>

>----------------------->----------------------------------------------->
>	1		>	         			(1)	>
>	xxx.xx	>A<	>	am = A        				>
>----------------------->----------------------------------------------->
>	2		>		A (V+B)				>
>	xxx.xx	>A<	>	am = --------------------	(2)	>
>	xxx.xx	>B<	>	          (C-V)/D 			>
>	xxx.xx	>C<	>	     1 + e        			>
>	xxx.xx	>D<	>						>
>			>						>
>----------------------->----------------------------------------------->
	3		>		A (V+B)				>
	0.1	>.1 A<	>	am = --------------------	(3)	>
	35.0	>40 B<	>	          (C-V)/D 			>
	-35.0	>-40 C<	>	     1 - e        			>
	10.0	>10 D<	>						>
			>						>
>----------------------->----------------------------------------------->
>	4		>	          (A-V)/B 		(4)	>
>	xxx.xx	>A<	>	am = 1 + e        			>
>	xxx.xx	>B<	>						>
>			>						>
>----------------------->----------------------------------------------->
>	5		>	         (B-V)/C 		(5)	>
>	xxx.xx	>A<	>	am = A e        			>
>	xxx.xx	>B<	>						>
>	xxx.xx	>C<	>						>
>----------------------->----------------------------------------------->
>	6		>		A 				>
>	xxx.xx	>A<	>	am = --------------------	(6)	>
>	xxx.xx	>B<	>	          (B-V)/C 			>
>	xxx.xx	>C<	>	     1 + e        			>
>			>						>
>----------------------->----------------------------------------------->
>	7		>		A 				>
>	xxx.xx	>A<	>	am = --------------------	(7)	>
>	xxx.xx	>B<	>	          (B-V)/C 			>
>	xxx.xx	>C<	>	     1 - e        			>
>			>						>
>----------------------->----------------------------------------------->
>	8		>		1 				>
>	xxx.xx	>A<	>	am = --------------------	(8)	>
>	xxx.xx	>B<	>	          (A-V)/B 			>
>			>	     1 + e        			>
>			>						>
>----------------------->----------------------------------------------->
>	9		>		1 				>
>	xxx.xx	>A<	>	am = --------------------	(9)	>
>	xxx.xx	>B<	>	          (A-V)/B 			>
>			>	     1 - e        			>
>			>						>
>----------------------->----------------------------------------------->

		>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>
bm:		> 	Rate parameter (2)				>	
		>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>

>----------------------->----------------------------------------------->
>	1		>	         			(1)	>
>	xxx.xx	>A<	>	bm = A        				>
>----------------------->----------------------------------------------->
>	2		>		A (V+B)				>
>	xxx.xx	>A<	>	bm = --------------------	(2)	>
>	xxx.xx	>B<	>	          (C-V)/D 			>
>	xxx.xx	>C<	>	     1 + e        			>
>	xxx.xx	>D<	>						>
>			>						>
>----------------------->----------------------------------------------->
>	3		>		A (V+B)				>
>	xxx.xx	>A<	>	bm = --------------------	(3)	>
>	xxx.xx	>B<	>	          (C-V)/D 			>
>	xxx.xx	>C<	>	     1 - e        			>
>	xxx.xx	>D<	>						>
>			>						>
>----------------------->----------------------------------------------->
>	4		>	          (A-V)/B 		(4)	>
>	xxx.xx	>A<	>	bm = 1 + e        			>
>	xxx.xx	>B<	>						>
>			>						>
>----------------------->----------------------------------------------->
	5		>	         (B-V)/C 		(5)	>
	4.0	>4 A<	>	bm = A e        			>
	-60.0	>-60 B<	>						>
	18.0	>18 C<	>						>
>----------------------->----------------------------------------------->
>	6		>		A 				>
>	xxx.xx	>A<	>	bm = --------------------	(6)	>
>	xxx.xx	>B<	>	          (B-V)/C 			>
>	xxx.xx	>C<	>	     1 + e        			>
>			>						>
>----------------------->----------------------------------------------->
>	7		>		A 				>
>	xxx.xx	>A<	>	bm = --------------------	(7)	>
>	xxx.xx	>B<	>	          (B-V)/C 			>
>	xxx.xx	>C<	>	     1 - e        			>
>			>						>
>----------------------->----------------------------------------------->
>	8		>		1 				>
>	xxx.xx	>A<	>	bm = --------------------	(8)	>
>	xxx.xx	>B<	>	          (A-V)/B 			>
>			>	     1 + e        			>
>			>						>
>----------------------->----------------------------------------------->
>	9		>		1 				>
>	xxx.xx	>A<	>	bm = --------------------	(9)	>
>	xxx.xx	>B<	>	          (A-V)/B 			>
>			>	     1 - e        			>
>			>						>
>----------------------->----------------------------------------------->

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