/* Copyright (c) 2015 EPFL-BBP, All rights reserved. THIS SOFTWARE IS PROVIDED BY THE BLUE BRAIN PROJECT ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE BLUE BRAIN PROJECT BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/4.0/legalcode or send a letter to Creative Commons, 171 Second Street, Suite 300, San Francisco, California, 94105, USA. */ /* * @file biophys.hoc * @brief Biophysics * @author Etay Hay, Werner Van Geit @ BBP * @date 2015 */ begintemplate cADpyr229_biophys public biophys, distribute proc distribute(){local x localobj sl strdef stmp,distfunc,mech sl = $o1 mech = $s2 distfunc = $s3 sprint(distfunc,"%%s %s(%%f) = %s",mech, distfunc) forsec sl for(x) { sprint (stmp,distfunc,secname(),x,distance(x)) execute(stmp) } } proc biophys() { forsec $o1.basal { insert Ih } forsec $o1.apical { insert Im insert NaTs2_t insert SKv3_1 insert Ih } forsec $o1.somatic { insert Ca_HVA insert SKv3_1 insert SK_E2 insert Ca_LVAst insert Ih insert NaTs2_t insert CaDynamics_E2 } forsec $o1.axonal { insert Ca_HVA insert SKv3_1 insert SK_E2 insert CaDynamics_E2 insert Nap_Et2 insert K_Pst insert K_Tst insert Ca_LVAst insert NaTa_t } forsec $o1.all { insert pas } forsec $o1.all { e_pas = -75 } forsec $o1.all { Ra = 100 } forsec $o1.all { cm = 1 } forsec $o1.all { g_pas = 3e-5 } forsec $o1.apical { ena = 50 } forsec $o1.apical { ek = -85 } forsec $o1.apical { cm = 2 } forsec $o1.axonal { ena = 50 } forsec $o1.axonal { ek = -85 } forsec $o1.basal { cm = 2 } forsec $o1.somatic { ena = 50 } forsec $o1.somatic { ek = -85 } distribute($o1.basal,"gIhbar_Ih","(0.0 * %g + 1.0)*0.000080") distribute($o1.apical,"gNaTs2_tbar_NaTs2_t","(0.0 * %g + 1.0)*0.012009") distribute($o1.apical,"gSKv3_1bar_SKv3_1","(0.0 * %g + 1.0)*0.000513") distribute($o1.apical,"gIhbar_Ih","(-0.869600 + 2.087000*exp((%g-0.000000)*0.003100))*0.000080") distribute($o1.apical,"gImbar_Im","(0.0 * %g + 1.0)*0.000740") distribute($o1.axonal,"gNaTa_tbar_NaTa_t","(0.0 * %g + 1.0)*3.429725") distribute($o1.axonal,"gK_Tstbar_K_Tst","(0.0 * %g + 1.0)*0.001035") distribute($o1.axonal,"gamma_CaDynamics_E2","(0.0 * %g + 1.0)*0.016713") distribute($o1.axonal,"gNap_Et2bar_Nap_Et2","(0.0 * %g + 1.0)*0.009803") distribute($o1.axonal,"gSK_E2bar_SK_E2","(0.0 * %g + 1.0)*0.008085") distribute($o1.axonal,"gCa_HVAbar_Ca_HVA","(0.0 * %g + 1.0)*0.000306") distribute($o1.axonal,"gK_Pstbar_K_Pst","(0.0 * %g + 1.0)*0.959296") distribute($o1.axonal,"gSKv3_1bar_SKv3_1","(0.0 * %g + 1.0)*0.094971") distribute($o1.axonal,"decay_CaDynamics_E2","(0.0 * %g + 1.0)*384.114655") distribute($o1.axonal,"gCa_LVAstbar_Ca_LVAst","(0.0 * %g + 1.0)*0.000050") distribute($o1.somatic,"gamma_CaDynamics_E2","(0.0 * %g + 1.0)*0.000533") distribute($o1.somatic,"gSKv3_1bar_SKv3_1","(0.0 * %g + 1.0)*0.102517") distribute($o1.somatic,"gSK_E2bar_SK_E2","(0.0 * %g + 1.0)*0.099433") distribute($o1.somatic,"gCa_HVAbar_Ca_HVA","(0.0 * %g + 1.0)*0.000374") distribute($o1.somatic,"gNaTs2_tbar_NaTs2_t","(0.0 * %g + 1.0)*0.926705") distribute($o1.somatic,"gIhbar_Ih","(0.0 * %g + 1.0)*0.000080") distribute($o1.somatic,"decay_CaDynamics_E2","(0.0 * %g + 1.0)*342.544232") distribute($o1.somatic,"gCa_LVAstbar_Ca_LVAst","(0.0 * %g + 1.0)*0.000778") } endtemplate cADpyr229_biophys