//**********************       BASKET CELL         ****************************************

// extracted from
// Dentate gyrus network model 
// Santhakumar V, Aradi I, Soltesz I (2005) J Neurophysiol 93:437-53 
// https://senselab.med.yale.edu/ModelDB/showModel.cshtml?model=51781&file=\dentategyrusnet2005\DG500_M7.hoc

// ModelDB file along with publication:
// Yim MY, Hanuschkin A, Wolfart J (2015) Hippocampus 25:297-308.
// http://onlinelibrary.wiley.com/doi/10.1002/hipo.22373/abstract

// modified by 
// Abraham Nunes / 2022
// Man Yi Yim / 2015
// Alexander Hanuschkin / 2011

begintemplate BasketCell

ndend1=4
ndend2=4
ndend3=4
ndend4=4

public  pre_list, connect_pre, subsets, is_art, is_connected
public vbc2gc, vmc2gc, vhc2gc, vgc2bc, vbc2bc, vmc2bc, vhc2bc, vgc2mc, vbc2mc, vmc2mc, vhc2mc, vgc2hc, vmc2hc
public soma, bcdend1, bcdend2, bcdend3, bcdend4
public all, adend, bdend, cdend, ddend
create soma, bcdend1[ndend1], bcdend2[ndend2], bcdend3[ndend3], bcdend4[ndend4]
objref syn, pre_list


//to include steady state current injection
nst=1
objectvar stim[nst]

objref syn
proc init() {
	pre_list = new List()
	subsets()
	temp()
	synapse()
}

objref all, adend, bdend, cdend, ddend

proc subsets() { local i
	objref all, adend, bdend, cdend, ddend
	all = new SectionList()
		soma all.append()
		for i=0, 3 bcdend1 [i] all.append()
		for i=0, 3 bcdend2 [i] all.append()
		for i=0, 3 bcdend3 [i] all.append()
		for i=0, 3 bcdend4 [i] all.append()

	adend  = new SectionList()
		bcdend1 [0] adend.append()
		bcdend2 [0] adend.append()
		bcdend3 [0] adend.append()
		bcdend4 [0] adend.append()

	bdend  = new SectionList()
		bcdend1 [1] bdend.append()
		bcdend2 [1] bdend.append()
		bcdend3 [1] bdend.append()
		bcdend4 [1] bdend.append()

	cdend  = new SectionList()
		bcdend1 [2] cdend.append()
		bcdend2 [2] cdend.append()
		bcdend3 [2] cdend.append()
		bcdend4 [2] cdend.append()

	ddend  = new SectionList()
		bcdend1 [3] ddend.append()
		bcdend2 [3] ddend.append()
		bcdend3 [3] ddend.append()
		bcdend4 [3] ddend.append()
}

proc temp() {

	soma {nseg=1 L=20 diam=15} // changed L & diam
		
	bcdend1 [0] {nseg=1 L=75 diam=4}	// bcdend 1 and 2 are apical
	bcdend1 [1] {nseg=1 L=75 diam=3}
	bcdend1 [2] {nseg=1 L=75 diam=2}
 	bcdend1 [3] {nseg=1 L=75 diam=1}

	bcdend2 [0] {nseg=1 L=75 diam=4}
	bcdend2 [1] {nseg=1 L=75 diam=3}
	bcdend2 [2] {nseg=1 L=75 diam=2}
	bcdend2 [3] {nseg=1 L=75 diam=1}
 		 
	bcdend3 [0] {nseg=1 L=50 diam=4} 	// bcdend 3 and 4 are basal
	bcdend3 [1] {nseg=1 L=50 diam=3}
	bcdend3 [2] {nseg=1 L=50 diam=2}
	bcdend3 [3] {nseg=1 L=50 diam=1} 
	
	bcdend4 [0] {nseg=1 L=50 diam=4}
	bcdend4 [1] {nseg=1 L=50 diam=3}
	bcdend4 [2] {nseg=1 L=50 diam=2}
	bcdend4 [3] {nseg=1 L=50 diam=1} 	

    
	forsec all {
		insert ccanl
            catau_ccanl = 10
            caiinf_ccanl = 5.e-6
		insert ka
            gkabar_ka=0.00015
		insert nca  
            gncabar_nca=0.0008
		insert lca 
            glcabar_lca=0.005
		insert sk
            gskbar_sk=0.000002
		insert bk
            gkbar_bk=0.0002
	    insert ichan2
	        vshiftma_ichan2 = 43                           // value Yim et al. 2015
            vshiftmb_ichan2 = 15                           // value Yim et al. 2015
            vshiftha_ichan2 = 65                             // value Yim et al. 2015
            vshifthb_ichan2 = 12.5                          // value Yim et al. 2015
            vshiftnfa_ichan2 = 18                           // value Yim et al. 2015
            vshiftnfb_ichan2 = 43                           // value Yim et al. 2015
            vshiftnsa_ichan2 = 30                        // value Yim et al. 2015
            vshiftnsb_ichan2 = 55                         // value Yim et al. 2015
	}

	soma {insert ichan2  
	gnatbar_ichan2=0.12  // Santhakumar et al (2005) tab2
	gkfbar_ichan2=0.013  // Santhakumar et al (2005) tab2
	gl_ichan2 = 0.00018
	cm=1.4
	} 

	forsec adend {insert ichan2
	gnatbar_ichan2=0.12  // Santhakumar et al (2005) tab2
	gkfbar_ichan2=0.013
	gl_ichan2 = 0.00018
	cm=1.4
	}		
	forsec	bdend {insert ichan2
	gnatbar_ichan2=0.0
	gkfbar_ichan2=0.00
	gl_ichan2 = 0.00018
	cm=1.4}
		
	forsec 	cdend {insert ichan2
	gnatbar_ichan2=0.0
	gkfbar_ichan2=0.00
	gl_ichan2 = 0.00018
	cm=1.4}

	forsec	ddend {insert ichan2
	gnatbar_ichan2=0.0
	gkfbar_ichan2=0.00
	gl_ichan2 = 0.00018
	cm=1.4}


	connect bcdend1[0](0), soma(1)
	connect bcdend2[0](0), soma(1)
	connect bcdend3[0](0), soma(0)
	connect bcdend4[0](0), soma(0)
	for i=1,3 {
	connect bcdend1[i](0), bcdend1[i-1](1)
	}
	for i=1,3 {
	connect bcdend2[i](0), bcdend2[i-1](1)
	}
	for i=1,3 {
	connect bcdend3[i](0), bcdend3[i-1](1)
	}
	for i=1,3 {
	connect bcdend4[i](0), bcdend4[i-1](1)
	}


	forsec all {Ra=100}
	forsec all {	ena 	= 	50 	// ena was unified from enat=55 (BC, HIPP, MC) and enat=45 (GC) in Santhakumar et al. (2005) <ah>
		    	ek 	= 	-90  	// simplified ekf=eks=ek=esk; note the eK was erroneously reported as -105mV in the Yim et al. 2015 <ah>
		 	el_ichan2 =	-60.06 
			cao_ccanl =	2 }   
}


//Defining Synapses on to Basket Cells
proc synapse() {
	bcdend1 [3] syn = new Exp2Syn(0.5)	//PP(AMPA) syn to apical dist dend Dingledine '95
	syn.tau1 = 2	syn.tau2 = 6.3	syn.e = 0 
	pre_list.append(syn)

	bcdend2 [3] syn = new Exp2Syn(0.5)	//PP(AMPA) syn to apical dist dend Dingledine '95
	syn.tau1 = 2	syn.tau2 = 6.3	syn.e = 0  
	pre_list.append(syn)

	bcdend1 [0] syn = new Exp2Syn(0.5)	//GC(AMPA) syn to prox dend Geiger '97
	syn.tau1 = .3	syn.tau2 = .6	syn.e = 0
	pre_list.append(syn)

	bcdend2 [0] syn = new Exp2Syn(0.5)	//GC(AMPA) syn to prox dend Geiger '97
	syn.tau1 = .3	syn.tau2 = .6	syn.e = 0
	pre_list.append(syn)

	bcdend3 [0] syn = new Exp2Syn(0.5)	//GC(AMPA) syn to prox dend Geiger '97
	syn.tau1 = .3	syn.tau2 = .6	syn.e = 0
	pre_list.append(syn)

	bcdend4 [0] syn = new Exp2Syn(0.5)	//GC(AMPA) syn to prox dend Geiger '97
	syn.tau1 = .3	syn.tau2 = .6	syn.e = 0
	pre_list.append(syn)

	bcdend1 [1] syn = new Exp2Syn(0.5)	//MC(AMPA) syn to apical IML dend
	syn.tau1 = 0.9	syn.tau2 = 3.6	syn.e = 0 // *** Estimated based on CA3>BC min stim Dingledine '95
	pre_list.append(syn)

	bcdend2 [1] syn = new Exp2Syn(0.5)	//MC(AMPA) syn to apical IML dend
	syn.tau1 = 0.9	syn.tau2 = 3.6	syn.e = 0 // *** Estimated based on CA3>BC min stim Dingledine '95
	pre_list.append(syn)

	bcdend1 [1] syn = new Exp2Syn(0.5)	//BC(GABA) syn to apical IML dend Bartos
	syn.tau1 = 0.16		syn.tau2 = 1.8	syn.e = -70
	pre_list.append(syn)

	bcdend2 [1] syn = new Exp2Syn(0.5)	//BC(GABA) syn to apical IML dend Bartos
	syn.tau1 = 0.16		syn.tau2 = 1.8	syn.e = -70
	pre_list.append(syn)

	bcdend1 [3] syn = new Exp2Syn(0.5)	//HIPP(GABA) syn to apical distal dend 
	syn.tau1 = 0.4	syn.tau2 = 5.8	syn.e = -70 // *** Estimated as HIPP>GC
	pre_list.append(syn)

	bcdend2 [3] syn = new Exp2Syn(0.5)	//HIPP(GABA) syn to apical distal dend 
	syn.tau1 = 0.4	syn.tau2 = 5.8	syn.e = -70 // *** Estimated as HIPP>GC
	pre_list.append(syn)

// Total of 12 synapses 	0,1 PP; 	2-5 GC; 	6,7 MC; 	8,9 BC; 	10,11 HIPP 
	}

proc connect_pre() {  
	soma $o2 = new NetCon (&v(1), $o1)
	}

func is_art() { return 0 }

endtemplate BasketCell