// Created by libAntimony v2.13.0
function Constant_flux__reversible(v)
  v;
end

Constant_flux__reversible is "Constant flux (reversible)"

function function_4_r127(D, IP3_15)
  0.5*D*IP3_15;
end

function_4_r127 is "function_4_r127"

function function_4_r139(G, IP3_10, IP3_11, cytosol11)
  G*(IP3_11 + -IP3_10)*cytosol11;
end

function_4_r139 is "function_4_r139"

function function_4_r134(A, CaI_14, CaT_14, IP3_14, L, g_14, k1, store14)
  (1 + -g_14)*(A*(0.5*IP3_14)^4*(1/(k1 + 0.5*IP3_14)^4) + L)*(CaT_14 + -CaI_14)*store14;
end

function_4_r134 is "function_4_r134"

function function_4_r141(G, IP3_12, IP3_13, cytosol13)
  G*(IP3_13 + -IP3_12)*cytosol13;
end

function_4_r141 is "function_4_r141"

function function_4_r143(G, IP3_11, IP3_12, cytosol12)
  G*(IP3_12 + -IP3_11)*cytosol12;
end

function_4_r143 is "function_4_r143"

function function_4_r1(H, k_HR, k_d, k_r1, r_1)
  k_d*r_1 + k_HR*H*r_1 + k_r1*r_1;
end

function_4_r1 is "function_4_r1"

function function_4_r4(D, IP3_1)
  0.5*D*IP3_1;
end

function_4_r4 is "function_4_r4"

function function_4_r3(A, CaI_1, CaT_1, IP3_1, L, g_1, k1, store1)
  (1 + -g_1)*(A*(0.5*IP3_1)^4*(1/(k1 + 0.5*IP3_1)^4) + L)*(CaT_1 + -CaI_1)*store1;
end

function_4_r3 is "function_4_r3"

function function_4_r14(D, IP3_2)
  0.5*D*IP3_2;
end

function_4_r14 is "function_4_r14"

function function_4_r12(H, k_HR, k_d, k_r2, r_2)
  k_d*r_2 + k_HR*H*r_2 + k_r2*r_2;
end

function_4_r12 is "function_4_r12"

function function_4_r13(CaI_2, E, g_2)
  E*CaI_2^4*(1 + -g_2);
end

function_4_r13 is "function_4_r13"

function function_4_r9(A, CaI_2, CaT_2, IP3_2, L, g_2, k1, store2)
  (1 + -g_2)*(A*(0.5*IP3_2)^4*(1/(k1 + 0.5*IP3_2)^4) + L)*(CaT_2 + -CaI_2)*store2;
end

function_4_r9 is "function_4_r9"

function function_4_r0(CaI_1, H, k3, k_ip31, kcat, r_1)
  k_ip31*H*r_1*(1 + -(k3*(1/(CaI_1 + k3))))*(1/(kcat + r_1));
end

function_4_r0 is "function_4_r0"

function function_4_r5(B, CaI_1, cytosol1, k2)
  B*CaI_1^2*(1/(k2^2 + CaI_1^2))*cytosol1;
end

function_4_r5 is "function_4_r5"

function function_4_r6(CaI_1, E, g_1)
  E*CaI_1^4*(1 + -g_1);
end

function_4_r6 is "function_4_r6"

function function_4_r8(CaI_2, H, k3, k_ip32, kcat, r_2)
  k_ip32*H*r_2*(1 + -(k3*(1/(CaI_2 + k3))))*(1/(kcat + r_2));
end

function_4_r8 is "function_4_r8"

function function_4_r25(CaI_3, E, g_3)
  E*CaI_3^4*(1 + -g_3);
end

function_4_r25 is "function_4_r25"

function function_4_r19(A, CaI_3, CaT_3, IP3_3, L, g_3, k1, store3)
  (1 + -g_3)*(A*(0.5*IP3_3)^4*(1/(k1 + 0.5*IP3_3)^4) + L)*(CaT_3 + -CaI_3)*store3;
end

function_4_r19 is "function_4_r19"

function function_4_r15(B, CaI_2, cytosol2, k2)
  B*CaI_2^2*(1/(k2^2 + CaI_2^2))*cytosol2;
end

function_4_r15 is "function_4_r15"

function function_4_r16(G, IP3_1, IP3_2, cytosol1)
  G*(IP3_1 + -IP3_2)*cytosol1;
end

function_4_r16 is "function_4_r16"

function function_4_r18(CaI_3, H, k3, k_ip33, kcat, r_3)
  k_ip33*H*r_3*(1 + -(k3*(1/(CaI_3 + k3))))*(1/(kcat + r_3));
end

function_4_r18 is "function_4_r18"

function function_4_r21(H, k_HR, k_d, k_r3, r_3)
  k_d*r_3 + k_HR*H*r_3 + k_r3*r_3;
end

function_4_r21 is "function_4_r21"

function function_4_r23(D, IP3_3)
  0.5*D*IP3_3;
end

function_4_r23 is "function_4_r23"

function function_4_r30(D, IP3_4)
  0.5*D*IP3_4;
end

function_4_r30 is "function_4_r30"

function function_4_r33(CaI_4, E, g_4)
  E*CaI_4^4*(1 + -g_4);
end

function_4_r33 is "function_4_r33"

function function_4_r34(A, CaI_4, CaT_4, IP3_4, L, g_4, k1, store4)
  (1 + -g_4)*(A*(0.5*IP3_4)^4*(1/(k1 + 0.5*IP3_4)^4) + L)*(CaT_4 + -CaI_4)*store4;
end

function_4_r34 is "function_4_r34"

function function_4_r24(B, CaI_3, cytosol3, k2)
  B*CaI_3^2*(1/(k2^2 + CaI_3^2))*cytosol3;
end

function_4_r24 is "function_4_r24"

function function_4_r27(G, IP3_2, IP3_3, cytosol3)
  G*(IP3_3 + -IP3_2)*cytosol3;
end

function_4_r27 is "function_4_r27"

function function_4_r28(H, k_HR, k_d, k_r4, r_4)
  k_d*r_4 + k_HR*H*r_4 + k_r4*r_4;
end

function_4_r28 is "function_4_r28"

function function_4_r29(CaI_4, H, k3, k_ip34, kcat, r_4)
  k_ip34*H*r_4*(1 + -(k3*(1/(CaI_4 + k3))))*(1/(kcat + r_4));
end

function_4_r29 is "function_4_r29"

function function_4_r43(D, IP3_5)
  0.5*D*IP3_5;
end

function_4_r43 is "function_4_r43"

function function_4_r40(A, CaI_5, CaT_5, IP3_5, L, g_5, k1, store5)
  (1 + -g_5)*(A*(0.5*IP3_5)^4*(1/(k1 + 0.5*IP3_5)^4) + L)*(CaT_5 + -CaI_5)*store5;
end

function_4_r40 is "function_4_r40"

function function_4_r35(B, CaI_4, cytosol4, k2)
  B*CaI_4^2*(1/(k2^2 + CaI_4^2))*cytosol4;
end

function_4_r35 is "function_4_r35"

function function_4_r37(G, IP3_3, IP3_4, cytosol4)
  G*(IP3_4 + -IP3_3)*cytosol4;
end

function_4_r37 is "function_4_r37"

function function_4_r38(H, k_HR, k_d, k_r5, r_5)
  k_d*r_5 + k_HR*H*r_5 + k_r5*r_5;
end

function_4_r38 is "function_4_r38"

function function_4_r39(CaI_5, E, g_5)
  E*CaI_5^4*(1 + -g_5);
end

function_4_r39 is "function_4_r39"

function function_4_r42(CaI_5, H, k3, k_ip35, kcat, r_5)
  k_ip35*H*r_5*(1 + -(k3*(1/(CaI_5 + k3))))*(1/(kcat + r_5));
end

function_4_r42 is "function_4_r42"

function function_4_r55(CaI_6, H, k3, k_ip36, kcat, r_6)
  k_ip36*H*r_6*(1 + -(k3*(1/(CaI_6 + k3))))*(1/(kcat + r_6));
end

function_4_r55 is "function_4_r55"

function function_4_r54(D, IP3_6)
  0.5*D*IP3_6;
end

function_4_r54 is "function_4_r54"

function function_4_r64(B, CaI_7, cytosol7, k2)
  B*CaI_7^2*(1/(k2^2 + CaI_7^2))*cytosol7;
end

function_4_r64 is "function_4_r64"

function function_4_r57(G, IP3_5, IP3_6, cytosol6)
  G*(IP3_6 + -IP3_5)*cytosol6;
end

function_4_r57 is "function_4_r57"

function function_4_r58(CaI_7, E, g_7)
  E*CaI_7^4*(1 + -g_7);
end

function_4_r58 is "function_4_r58"

function function_4_r60(CaI_7, H, k3, k_ip37, kcat, r_7)
  k_ip37*H*r_7*(1 + -(k3*(1/(CaI_7 + k3))))*(1/(kcat + r_7));
end

function_4_r60 is "function_4_r60"

function function_4_r45(B, CaI_5, cytosol5, k2)
  B*CaI_5^2*(1/(k2^2 + CaI_5^2))*cytosol5;
end

function_4_r45 is "function_4_r45"

function function_4_r47(G, IP3_4, IP3_5, cytosol5)
  G*(IP3_5 + -IP3_4)*cytosol5;
end

function_4_r47 is "function_4_r47"

function function_4_r51(CaI_6, E, g_6)
  E*CaI_6^4*(1 + -g_6);
end

function_4_r51 is "function_4_r51"

function function_4_r53(H, k_HR, k_d, k_r6, r_6)
  k_d*r_6 + k_HR*H*r_6 + k_r6*r_6;
end

function_4_r53 is "function_4_r53"

function function_4_r62(D, IP3_7)
  0.5*D*IP3_7;
end

function_4_r62 is "function_4_r62"

function function_4_r63(H, k_HR, k_d, k_r7, r_7)
  k_d*r_7 + k_HR*H*r_7 + k_r7*r_7;
end

function_4_r63 is "function_4_r63"

function function_4_r68(D, IP3_8)
  0.5*D*IP3_8;
end

function_4_r68 is "function_4_r68"

function function_4_r71(H, k_HR, k_d, k_r8, r_8)
  k_d*r_8 + k_HR*H*r_8 + k_r8*r_8;
end

function_4_r71 is "function_4_r71"

function function_4_r70(CaI_8, E, g_8)
  E*CaI_8^4*(1 + -g_8);
end

function_4_r70 is "function_4_r70"

function function_4_r67(G, IP3_6, IP3_7, cytosol7)
  G*(IP3_7 + -IP3_6)*cytosol7;
end

function_4_r67 is "function_4_r67"

function function_4_r48(B, CaI_6, cytosol6, k2)
  B*CaI_6^2*(1/(k2^2 + CaI_6^2))*cytosol6;
end

function_4_r48 is "function_4_r48"

function function_4_r50(A, CaI_6, CaT_6, IP3_6, L, g_6, k1, store6)
  (1 + -g_6)*(A*(0.5*IP3_6)^4*(1/(k1 + 0.5*IP3_6)^4) + L)*(CaT_6 + -CaI_6)*store6;
end

function_4_r50 is "function_4_r50"

function function_4_r73(CaI_8, H, k3, k_ip38, kcat, r_8)
  k_ip38*H*r_8*(1 + -(k3*(1/(CaI_8 + k3))))*(1/(kcat + r_8));
end

function_4_r73 is "function_4_r73"

function function_4_r61(A, CaI_7, CaT_7, IP3_7, L, g_7, k1, store7)
  (1 + -g_7)*(A*(0.5*IP3_7)^4*(1/(k1 + 0.5*IP3_7)^4) + L)*(CaT_7 + -CaI_7)*store7;
end

function_4_r61 is "function_4_r61"

function function_4_r78(CaI_9, E, g_9)
  E*CaI_9^4*(1 + -g_9);
end

function_4_r78 is "function_4_r78"

function function_4_r81(CaI_9, H, k3, k_ip39, kcat, r_9)
  k_ip39*H*r_9*(1 + -(k3*(1/(CaI_9 + k3))))*(1/(kcat + r_9));
end

function_4_r81 is "function_4_r81"

function function_4_r72(A, CaI_8, CaT_8, IP3_8, L, g_8, k1, store8)
  (1 + -g_8)*(A*(0.5*IP3_8)^4*(1/(k1 + 0.5*IP3_8)^4) + L)*(CaT_8 + -CaI_8)*store8;
end

function_4_r72 is "function_4_r72"

function function_4_r75(B, CaI_8, cytosol8, k2)
  B*CaI_8^2*(1/(k2^2 + CaI_8^2))*cytosol8;
end

function_4_r75 is "function_4_r75"

function function_4_r77(G, IP3_7, IP3_8, cytosol8)
  G*(IP3_8 + -IP3_7)*cytosol8;
end

function_4_r77 is "function_4_r77"

function function_4_r87(G, IP3_8, IP3_9, cytosol9)
  G*(IP3_9 + -IP3_8)*cytosol9;
end

function_4_r87 is "function_4_r87"

function function_4_r91(H, k_HR, k_d, k_r10, r_10)
  k_d*r_10 + k_HR*H*r_10 + k_r10*r_10;
end

function_4_r91 is "function_4_r91"

function function_4_r89(CaI_10, H, k3, k_ip310, kcat, r_10)
  k_ip310*H*r_10*(1 + -(k3*(1/(CaI_10 + k3))))*(1/(kcat + r_10));
end

function_4_r89 is "function_4_r89"

function function_4_r94(A, CaI_10, CaT_10, IP3_10, L, g_10, k1, store10)
  (1 + -g_10)*(A*(0.5*IP3_10)^4*(1/(k1 + 0.5*IP3_10)^4) + L)*(CaT_10 + -CaI_10)*store10;
end

function_4_r94 is "function_4_r94"

function function_4_r95(B, CaI_10, cytosol10, k2)
  B*CaI_10^2*(1/(k2^2 + CaI_10^2))*cytosol10;
end

function_4_r95 is "function_4_r95"

function function_4_r82(H, k_HR, k_d, k_r9, r_9)
  k_d*r_9 + k_HR*H*r_9 + k_r9*r_9;
end

function_4_r82 is "function_4_r82"

function function_4_r83(D, IP3_9)
  0.5*D*IP3_9;
end

function_4_r83 is "function_4_r83"

function function_4_r84(A, CaI_9, CaT_9, IP3_9, L, g_9, k1, store9)
  (1 + -g_9)*(A*(0.5*IP3_9)^4*(1/(k1 + 0.5*IP3_9)^4) + L)*(CaT_9 + -CaI_9)*store9;
end

function_4_r84 is "function_4_r84"

function function_4_r85(B, CaI_9, cytosol9, k2)
  B*CaI_9^2*(1/(k2^2 + CaI_9^2))*cytosol9;
end

function_4_r85 is "function_4_r85"

function function_4_r96(G, IP3_10, IP3_9, cytosol10)
  G*(IP3_10 + -IP3_9)*cytosol10;
end

function_4_r96 is "function_4_r96"

function function_4_r98(CaI_11, H, k3, k_ip311, kcat, r_11)
  k_ip311*H*r_11*(1 + -(k3*(1/(CaI_11 + k3))))*(1/(kcat + r_11));
end

function_4_r98 is "function_4_r98"

function function_4_r110(CaI_13, H, k3, k_ip313, kcat, r_13)
  k_ip313*H*r_13*(1 + -(k3*(1/(CaI_13 + k3))))*(1/(kcat + r_13));
end

function_4_r110 is "function_4_r110"

function function_4_r109(D, IP3_12)
  0.5*D*IP3_12;
end

function_4_r109 is "function_4_r109"

function function_4_r107(H, k_HR, k_d, k_r12, r_12)
  k_d*r_12 + k_HR*H*r_12 + k_r12*r_12;
end

function_4_r107 is "function_4_r107"

function function_4_r105(CaI_12, E, g_12)
  E*CaI_12^4*(1 + -g_12);
end

function_4_r105 is "function_4_r105"

function function_4_r92(CaI_10, E, g_10)
  E*CaI_10^4*(1 + -g_10);
end

function_4_r92 is "function_4_r92"

function function_4_r93(D, IP3_10)
  0.5*D*IP3_10;
end

function_4_r93 is "function_4_r93"

function function_4_r121(D, IP3_14)
  0.5*D*IP3_14;
end

function_4_r121 is "function_4_r121"

function function_4_r119(H, k_HR, k_d, k_r14, r_14)
  k_d*r_14 + k_HR*H*r_14 + k_r14*r_14;
end

function_4_r119 is "function_4_r119"

function function_4_r117(CaI_14, E, g_14)
  E*CaI_14^4*(1 + -g_14);
end

function_4_r117 is "function_4_r117"

function function_4_r99(CaI_11, E, g_11)
  E*CaI_11^4*(1 + -g_11);
end

function_4_r99 is "function_4_r99"

function function_4_r101(H, k_HR, k_d, k_r11, r_11)
  k_d*r_11 + k_HR*H*r_11 + k_r11*r_11;
end

function_4_r101 is "function_4_r101"

function function_4_r103(D, IP3_11)
  0.5*D*IP3_11;
end

function_4_r103 is "function_4_r103"

function function_4_r104(CaI_12, H, k3, k_ip312, kcat, r_12)
  k_ip312*H*r_12*(1 + -(k3*(1/(CaI_12 + k3))))*(1/(kcat + r_12));
end

function_4_r104 is "function_4_r104"

function function_4_r122(CaI_15, H, k3, k_ip315, kcat, r_15)
  k_ip315*H*r_15*(1 + -(k3*(1/(CaI_15 + k3))))*(1/(kcat + r_15));
end

function_4_r122 is "function_4_r122"

function function_4_r128(A, CaI_11, CaT_11, IP3_11, L, g_11, k1, store11)
  (1 + -g_11)*(A*(0.5*IP3_11)^4*(1/(k1 + 0.5*IP3_11)^4) + L)*(CaT_11 + -CaI_11)*store11;
end

function_4_r128 is "function_4_r128"

function function_4_r129(B, CaI_11, cytosol11, k2)
  B*CaI_11^2*(1/(k2^2 + CaI_11^2))*cytosol11;
end

function_4_r129 is "function_4_r129"

function function_4_r130(A, CaI_12, CaT_12, IP3_12, L, g_12, k1, store12)
  (1 + -g_12)*(A*(0.5*IP3_12)^4*(1/(k1 + 0.5*IP3_12)^4) + L)*(CaT_12 + -CaI_12)*store12;
end

function_4_r130 is "function_4_r130"

function function_4_r111(CaI_13, E, g_13)
  E*CaI_13^4*(1 + -g_13);
end

function_4_r111 is "function_4_r111"

function function_4_r113(H, k_HR, k_d, k_r13, r_13)
  k_d*r_13 + k_HR*H*r_13 + k_r13*r_13;
end

function_4_r113 is "function_4_r113"

function function_4_r115(D, IP3_13)
  0.5*D*IP3_13;
end

function_4_r115 is "function_4_r115"

function function_4_r116(CaI_14, H, k3, k_ip314, kcat, r_14)
  k_ip314*H*r_14*(1 + -(k3*(1/(CaI_14 + k3))))*(1/(kcat + r_14));
end

function_4_r116 is "function_4_r116"

function function_4_r123(CaI_15, E, g_15)
  E*CaI_15^4*(1 + -g_15);
end

function_4_r123 is "function_4_r123"

function function_4_r125(H, k_HR, k_d, k_r15, r_15)
  k_d*r_15 + k_HR*H*r_15 + k_r15*r_15;
end

function_4_r125 is "function_4_r125"

function function_4_r137(B, CaI_15, cytosol15, k2)
  B*CaI_15^2*(1/(k2^2 + CaI_15^2))*cytosol15;
end

function_4_r137 is "function_4_r137"

function function_4_r131(B, CaI_12, cytosol12, k2)
  B*CaI_12^2*(1/(k2^2 + CaI_12^2))*cytosol12;
end

function_4_r131 is "function_4_r131"

function function_4_r132(A, CaI_13, CaT_13, IP3_13, L, g_13, k1, store13)
  (1 + -g_13)*(A*(0.5*IP3_13)^4*(1/(k1 + 0.5*IP3_13)^4) + L)*(CaT_13 + -CaI_13)*store13;
end

function_4_r132 is "function_4_r132"

function function_4_r133(B, CaI_13, cytosol13, k2)
  B*CaI_13^2*(1/(k2^2 + CaI_13^2))*cytosol13;
end

function_4_r133 is "function_4_r133"

function function_4_r135(B, CaI_14, cytosol14, k2)
  B*CaI_14^2*(1/(k2^2 + CaI_14^2))*cytosol14;
end

function_4_r135 is "function_4_r135"

function function_4_r136(A, CaI_15, CaT_15, IP3_15, L, g_15, k1, store15)
  (1 + -g_15)*(A*(0.5*IP3_15)^4*(1/(k1 + 0.5*IP3_15)^4) + L)*(CaT_15 + -CaI_15)*store15;
end

function_4_r136 is "function_4_r136"

function function_4_r145(G, IP3_13, IP3_14, cytosol14)
  G*(IP3_14 + -IP3_13)*cytosol14;
end

function_4_r145 is "function_4_r145"

function function_4_r147(G, IP3_14, IP3_15, cytosol15)
  G*(IP3_15 + -IP3_14)*cytosol15;
end

function_4_r147 is "function_4_r147"


model *Verma2016___Ca_2___Signal_Propagation_Along_Hepatocyte_Cords()

  // Compartments and Species:
  compartment cytosol5, store5, cytosol4, cytosol1, cytosol6, store6, store1;
  compartment store3, cytosol3, cytosol7, store7, cytosol8, store8, cytosol2;
  compartment store2, cytosol9, store9, cytosol10, store10, cytosol11, store11;
  compartment cytosol13, store13, cytosol14, store14, cytosol15, store15;
  compartment store4, cytosol12, store12;
  species CaI_1 in cytosol1, g_1 in cytosol1, IP3_1 in cytosol1, r_1 in cytosol1;
  species CaT_1 in store1, g_2 in cytosol2, r_2 in cytosol2, CaI_2 in cytosol2;
  species IP3_2 in cytosol2, CaT_2 in store2, CaI_3 in cytosol3, IP3_3 in cytosol3;
  species g_3 in cytosol3, r_3 in cytosol3, CaT_3 in store3, CaI_4 in cytosol4;
  species IP3_4 in cytosol4, r_4 in cytosol4, g_4 in cytosol4, CaT_4 in store4;
  species r_5 in cytosol5, IP3_5 in cytosol5, g_5 in cytosol5, CaI_5 in cytosol5;
  species CaT_5 in store5, CaI_6 in cytosol6, g_6 in cytosol6, r_6 in cytosol6;
  species IP3_6 in cytosol6, CaT_6 in store6, CaI_7 in cytosol7, g_7 in cytosol7;
  species r_7 in cytosol7, IP3_7 in cytosol7, CaT_7 in store7, r_8 in cytosol8;
  species IP3_8 in cytosol8, g_8 in cytosol8, CaI_8 in cytosol8, CaT_8 in store8;
  species IP3_9 in cytosol9, CaI_9 in cytosol9, r_9 in cytosol9, g_9 in cytosol9;
  species CaT_9 in store9, r_10 in cytosol10, IP3_10 in cytosol10, g_10 in cytosol10;
  species CaI_10 in cytosol10, CaT_10 in store10, IP3_11 in cytosol11, g_11 in cytosol11;
  species CaI_11 in cytosol11, r_11 in cytosol11, IP3_12 in cytosol12, g_12 in cytosol12;
  species CaI_12 in cytosol12, r_12 in cytosol12, IP3_13 in cytosol13, g_13 in cytosol13;
  species CaI_13 in cytosol13, r_13 in cytosol13, IP3_14 in cytosol14, g_14 in cytosol14;
  species CaI_14 in cytosol14, r_14 in cytosol14, IP3_15 in cytosol15, g_15 in cytosol15;
  species CaI_15 in cytosol15, r_15 in cytosol15, CaT_11 in store11, CaT_12 in store12;
  species CaT_13 in store13, CaT_14 in store14, CaT_15 in store15;

  // Reactions:
  r0:  -> IP3_1; cytosol1*function_4_r0(CaI_1, H, k3, r0_k_ip31, kcat, r_1);
  r1: r_1 -> ; cytosol1*function_4_r1(H, k_HR, k_d, k_r1, r_1);
  r3: CaT_1 -> CaI_1; function_4_r3(A, CaI_1, CaT_1, IP3_1, L, g_1, k1, store1);
  r4: IP3_1 -> ; cytosol1*function_4_r4(D, IP3_1);
  r5: CaI_1 -> CaT_1; function_4_r5(B, CaI_1, cytosol1, k2);
  r6:  -> g_1; cytosol1*function_4_r6(CaI_1, E, g_1);
  r7: g_1 -> ; cytosol1*Constant_flux__reversible(F);
  r2:  -> r_1; cytosol1*Constant_flux__reversible(k_r1);
  r8:  -> IP3_2; cytosol2*function_4_r8(CaI_2, H, k3, r8_k_ip32, kcat, r_2);
  r10: g_2 -> ; cytosol2*Constant_flux__reversible(F);
  r11:  -> r_2; cytosol2*Constant_flux__reversible(k_r2);
  r12: r_2 -> ; cytosol2*function_4_r12(H, k_HR, k_d, k_r2, r_2);
  r13:  -> g_2; cytosol2*function_4_r13(CaI_2, E, g_2);
  r14: IP3_2 -> ; cytosol2*function_4_r14(D, IP3_2);
  r9: CaT_2 -> CaI_2; function_4_r9(A, CaI_2, CaT_2, IP3_2, L, g_2, k1, store2);
  r15: CaI_2 -> CaT_2; function_4_r15(B, CaI_2, cytosol2, k2);
  r16: IP3_1 -> IP3_2; function_4_r16(G, IP3_1, IP3_2, cytosol1);
  r18:  -> IP3_3; cytosol3*function_4_r18(CaI_3, H, k3, r18_k_ip33, kcat, r_3);
  r20:  -> r_3; cytosol3*Constant_flux__reversible(k_r3);
  r21: r_3 -> ; cytosol3*function_4_r21(H, k_HR, k_d, k_r3, r_3);
  r22: g_3 -> ; cytosol3*Constant_flux__reversible(F);
  r23: IP3_3 -> ; cytosol3*function_4_r23(D, IP3_3);
  r25:  -> g_3; cytosol3*function_4_r25(CaI_3, E, g_3);
  r19: CaT_3 -> CaI_3; function_4_r19(A, CaI_3, CaT_3, IP3_3, L, g_3, k1, store3);
  r24: CaI_3 -> CaT_3; function_4_r24(B, CaI_3, cytosol3, k2);
  r27: IP3_3 -> IP3_2; function_4_r27(G, IP3_2, IP3_3, cytosol3);
  r28: r_4 -> ; cytosol4*function_4_r28(H, k_HR, k_d, k_r4, r_4);
  r29:  -> IP3_4; cytosol4*function_4_r29(CaI_4, H, k3, r29_k_ip34, kcat, r_4);
  r30: IP3_4 -> ; cytosol4*function_4_r30(D, IP3_4);
  r31: g_4 -> ; cytosol4*Constant_flux__reversible(F);
  r32:  -> r_4; cytosol4*Constant_flux__reversible(k_r4);
  r33:  -> g_4; cytosol4*function_4_r33(CaI_4, E, g_4);
  r34: CaT_4 -> CaI_4; function_4_r34(A, CaI_4, CaT_4, IP3_4, L, g_4, k1, store4);
  r35: CaI_4 -> CaT_4; function_4_r35(B, CaI_4, cytosol4, k2);
  r37: IP3_4 -> IP3_3; function_4_r37(G, IP3_3, IP3_4, cytosol4);
  r38: r_5 -> ; cytosol5*function_4_r38(H, k_HR, k_d, k_r5, r_5);
  r39:  -> g_5; cytosol5*function_4_r39(CaI_5, E, g_5);
  r41: g_5 -> ; cytosol5*Constant_flux__reversible(F);
  r42:  -> IP3_5; cytosol5*function_4_r42(CaI_5, H, k3, r42_k_ip35, kcat, r_5);
  r43: IP3_5 -> ; cytosol5*function_4_r43(D, IP3_5);
  r44:  -> r_5; cytosol5*Constant_flux__reversible(k_r5);
  r40: CaT_5 -> CaI_5; function_4_r40(A, CaI_5, CaT_5, IP3_5, L, g_5, k1, store5);
  r45: CaI_5 -> CaT_5; function_4_r45(B, CaI_5, cytosol5, k2);
  r47: IP3_5 -> IP3_4; function_4_r47(G, IP3_4, IP3_5, cytosol5);
  r49: g_6 -> ; cytosol6*Constant_flux__reversible(F);
  r51:  -> g_6; cytosol6*function_4_r51(CaI_6, E, g_6);
  r52:  -> r_6; cytosol6*Constant_flux__reversible(k_r6);
  r53: r_6 -> ; cytosol6*function_4_r53(H, k_HR, k_d, k_r6, r_6);
  r54: IP3_6 -> ; cytosol6*function_4_r54(D, IP3_6);
  r55:  -> IP3_6; cytosol6*function_4_r55(CaI_6, H, k3, r55_k_ip36, kcat, r_6);
  r48: CaI_6 -> CaT_6; function_4_r48(B, CaI_6, cytosol6, k2);
  r50: CaT_6 -> CaI_6; function_4_r50(A, CaI_6, CaT_6, IP3_6, L, g_6, k1, store6);
  r57: IP3_6 -> IP3_5; function_4_r57(G, IP3_5, IP3_6, cytosol6);
  r58:  -> g_7; cytosol7*function_4_r58(CaI_7, E, g_7);
  r59:  -> r_7; cytosol7*Constant_flux__reversible(k_r7);
  r60:  -> IP3_7; cytosol7*function_4_r60(CaI_7, H, k3, r60_k_ip37, kcat, r_7);
  r62: IP3_7 -> ; cytosol7*function_4_r62(D, IP3_7);
  r63: r_7 -> ; cytosol7*function_4_r63(H, k_HR, k_d, k_r7, r_7);
  r65: g_7 -> ; cytosol7*Constant_flux__reversible(F);
  r61: CaT_7 -> CaI_7; function_4_r61(A, CaI_7, CaT_7, IP3_7, L, g_7, k1, store7);
  r64: CaI_7 -> CaT_7; function_4_r64(B, CaI_7, cytosol7, k2);
  r67: IP3_7 -> IP3_6; function_4_r67(G, IP3_6, IP3_7, cytosol7);
  r68: IP3_8 -> ; cytosol8*function_4_r68(D, IP3_8);
  r69: g_8 -> ; cytosol8*Constant_flux__reversible(F);
  r70:  -> g_8; cytosol8*function_4_r70(CaI_8, E, g_8);
  r71: r_8 -> ; cytosol8*function_4_r71(H, k_HR, k_d, k_r8, r_8);
  r73:  -> IP3_8; cytosol8*function_4_r73(CaI_8, H, k3, r73_k_ip38, kcat, r_8);
  r74:  -> r_8; cytosol8*Constant_flux__reversible(k_r8);
  r72: CaT_8 -> CaI_8; function_4_r72(A, CaI_8, CaT_8, IP3_8, L, g_8, k1, store8);
  r75: CaI_8 -> CaT_8; function_4_r75(B, CaI_8, cytosol8, k2);
  r77: IP3_8 -> IP3_7; function_4_r77(G, IP3_7, IP3_8, cytosol8);
  r78:  -> g_9; cytosol9*function_4_r78(CaI_9, E, g_9);
  r79: g_9 -> ; cytosol9*Constant_flux__reversible(F);
  r80:  -> r_9; cytosol9*Constant_flux__reversible(k_r9);
  r81:  -> IP3_9; cytosol9*function_4_r81(CaI_9, H, k3, r81_k_ip39, kcat, r_9);
  r82: r_9 -> ; cytosol9*function_4_r82(H, k_HR, k_d, k_r9, r_9);
  r83: IP3_9 -> ; cytosol9*function_4_r83(D, IP3_9);
  r84: CaT_9 -> CaI_9; function_4_r84(A, CaI_9, CaT_9, IP3_9, L, g_9, k1, store9);
  r85: CaI_9 -> CaT_9; function_4_r85(B, CaI_9, cytosol9, k2);
  r87: IP3_9 -> IP3_8; function_4_r87(G, IP3_8, IP3_9, cytosol9);
  r88:  -> r_10; cytosol10*Constant_flux__reversible(k_r10);
  r89:  -> IP3_10; cytosol10*function_4_r89(CaI_10, H, k3, r89_k_ip310, kcat, r_10);
  r90: g_10 -> ; cytosol10*Constant_flux__reversible(F);
  r91: r_10 -> ; cytosol10*function_4_r91(H, k_HR, k_d, k_r10, r_10);
  r92:  -> g_10; cytosol10*function_4_r92(CaI_10, E, g_10);
  r93: IP3_10 -> ; cytosol10*function_4_r93(D, IP3_10);
  r94: CaT_10 -> CaI_10; function_4_r94(A, CaI_10, CaT_10, IP3_10, L, g_10, k1, store10);
  r95: CaI_10 -> CaT_10; function_4_r95(B, CaI_10, cytosol10, k2);
  r96: IP3_10 -> IP3_9; function_4_r96(G, IP3_10, IP3_9, cytosol10);
  r98:  -> IP3_11; cytosol11*function_4_r98(CaI_11, H, k3, r98_k_ip311, kcat, r_11);
  r99:  -> g_11; cytosol11*function_4_r99(CaI_11, E, g_11);
  r100: g_11 -> ; cytosol11*Constant_flux__reversible(F);
  r101: r_11 -> ; cytosol11*function_4_r101(H, k_HR, k_d, k_r11, r_11);
  r102:  -> r_11; cytosol11*Constant_flux__reversible(k_r11);
  r103: IP3_11 -> ; cytosol11*function_4_r103(D, IP3_11);
  r104:  -> IP3_12; cytosol12*function_4_r104(CaI_12, H, k3, r104_k_ip312, kcat, r_12);
  r105:  -> g_12; cytosol12*function_4_r105(CaI_12, E, g_12);
  r106: g_12 -> ; cytosol12*Constant_flux__reversible(F);
  r107: r_12 -> ; cytosol12*function_4_r107(H, k_HR, k_d, k_r12, r_12);
  r108:  -> r_12; cytosol12*Constant_flux__reversible(k_r12);
  r109: IP3_12 -> ; cytosol12*function_4_r109(D, IP3_12);
  r110:  -> IP3_13; cytosol13*function_4_r110(CaI_13, H, k3, r110_k_ip313, kcat, r_13);
  r111:  -> g_13; cytosol13*function_4_r111(CaI_13, E, g_13);
  r112: g_13 -> ; cytosol13*Constant_flux__reversible(F);
  r113: r_13 -> ; cytosol13*function_4_r113(H, k_HR, k_d, k_r13, r_13);
  r114:  -> r_13; cytosol13*Constant_flux__reversible(k_r13);
  r115: IP3_13 -> ; cytosol13*function_4_r115(D, IP3_13);
  r116:  -> IP3_14; cytosol14*function_4_r116(CaI_14, H, k3, r116_k_ip314, kcat, r_14);
  r117:  -> g_14; cytosol14*function_4_r117(CaI_14, E, g_14);
  r118: g_14 -> ; cytosol14*Constant_flux__reversible(F);
  r119: r_14 -> ; cytosol14*function_4_r119(H, k_HR, k_d, k_r14, r_14);
  r120:  -> r_14; cytosol14*Constant_flux__reversible(k_r14);
  r121: IP3_14 -> ; cytosol14*function_4_r121(D, IP3_14);
  r122:  -> IP3_15; cytosol15*function_4_r122(CaI_15, H, k3, r122_k_ip315, kcat, r_15);
  r123:  -> g_15; cytosol15*function_4_r123(CaI_15, E, g_15);
  r124: g_15 -> ; cytosol15*Constant_flux__reversible(F);
  r125: r_15 -> ; cytosol15*function_4_r125(H, k_HR, k_d, r125_k_r15, r_15);
  r126:  -> r_15; cytosol15*Constant_flux__reversible(r126_v);
  r127: IP3_15 -> ; cytosol15*function_4_r127(D, IP3_15);
  r128: CaT_11 -> CaI_11; function_4_r128(A, CaI_11, CaT_11, IP3_11, L, g_11, k1, store11);
  r129: CaI_11 -> CaT_11; function_4_r129(B, CaI_11, cytosol11, k2);
  r130: CaT_12 -> CaI_12; function_4_r130(A, CaI_12, CaT_12, IP3_12, L, g_12, k1, store12);
  r131: CaI_12 -> CaT_12; function_4_r131(B, CaI_12, cytosol12, k2);
  r132: CaT_13 -> CaI_13; function_4_r132(A, CaI_13, CaT_13, IP3_13, L, g_13, k1, store13);
  r133: CaI_13 -> CaT_13; function_4_r133(B, CaI_13, cytosol13, k2);
  r134: CaT_14 -> CaI_14; function_4_r134(A, CaI_14, CaT_14, IP3_14, L, g_14, k1, store14);
  r135: CaI_14 -> CaT_14; function_4_r135(B, CaI_14, cytosol14, k2);
  r136: CaT_15 -> CaI_15; function_4_r136(A, CaI_15, CaT_15, IP3_15, L, g_15, k1, store15);
  r137: CaI_15 -> CaT_15; function_4_r137(B, CaI_15, cytosol15, k2);
  r139: IP3_11 -> IP3_10; function_4_r139(G, IP3_10, IP3_11, cytosol11);
  r141: IP3_13 -> IP3_12; function_4_r141(G, IP3_12, IP3_13, cytosol13);
  r143: IP3_12 -> IP3_11; function_4_r143(G, IP3_11, IP3_12, cytosol12);
  r145: IP3_14 -> IP3_13; function_4_r145(G, IP3_13, IP3_14, cytosol14);
  r147: IP3_15 -> IP3_14; function_4_r147(G, IP3_14, IP3_15, cytosol15);

  // Events:
  event_1: at 0 after time >= 200: H = 1.8;

  // Species initializations:
  CaI_1 = 0.2;
  g_1 = 0.25;
  IP3_1 = 0.1;
  r_1 = 0.5;
  CaT_1 = 500;
  g_2 = 0.25;
  r_2 = 0.5;
  CaI_2 = 0.2;
  IP3_2 = 0.1;
  CaT_2 = 500;
  CaI_3 = 0.2;
  IP3_3 = 0.1;
  g_3 = 0.25;
  r_3 = 0.5;
  CaT_3 = 500;
  CaI_4 = 0.2;
  IP3_4 = 0.1;
  r_4 = 0.5;
  g_4 = 0.25;
  CaT_4 = 500;
  r_5 = 0.5;
  IP3_5 = 0.1;
  g_5 = 0.25;
  CaI_5 = 0.2;
  CaT_5 = 500;
  CaI_6 = 0.2;
  g_6 = 0.25;
  r_6 = 0.5;
  IP3_6 = 0.1;
  CaT_6 = 500;
  CaI_7 = 0.2;
  g_7 = 0.25;
  r_7 = 0.5;
  IP3_7 = 0.1;
  CaT_7 = 500;
  r_8 = 0.5;
  IP3_8 = 0.1;
  g_8 = 0.25;
  CaI_8 = 0.2;
  CaT_8 = 500;
  IP3_9 = 0.1;
  CaI_9 = 0.2;
  r_9 = 0.5;
  g_9 = 0.25;
  CaT_9 = 500;
  r_10 = 0.5;
  IP3_10 = 0.1;
  g_10 = 0.25;
  CaI_10 = 0.2;
  CaT_10 = 500;
  IP3_11 = 0.1;
  g_11 = 0.25;
  CaI_11 = 0.2;
  r_11 = 0.5;
  IP3_12 = 0.1;
  g_12 = 0.25;
  CaI_12 = 0.2;
  r_12 = 0.5;
  IP3_13 = 0.1;
  g_13 = 0.25;
  CaI_13 = 0.2;
  r_13 = 0.5;
  IP3_14 = 0.1;
  g_14 = 0.25;
  CaI_14 = 0.2;
  r_14 = 0.5;
  IP3_15 = 0.1;
  g_15 = 0.25;
  CaI_15 = 0.2;
  r_15 = 0.5;
  CaT_11 = 500;
  CaT_12 = 500;
  CaT_13 = 500;
  CaT_14 = 500;
  CaT_15 = 500;

  // Compartment initializations:
  cytosol5 = 1;
  store5 = 1;
  cytosol4 = 1;
  cytosol1 = 1;
  cytosol6 = 1;
  store6 = 1;
  store1 = 1;
  store3 = 1;
  cytosol3 = 1;
  cytosol7 = 1;
  store7 = 1;
  cytosol8 = 1;
  store8 = 1;
  cytosol2 = 1;
  store2 = 1;
  cytosol9 = 1;
  store9 = 1;
  cytosol10 = 1;
  store10 = 1;
  cytosol11 = 1;
  store11 = 1;
  cytosol13 = 1;
  store13 = 1;
  cytosol14 = 1;
  store14 = 1;
  cytosol15 = 1;
  store15 = 1;
  store4 = 1;
  cytosol12 = 1;
  store12 = 1;

  // Variable initializations:
  H = 0.00018;
  k_d = 0.34;
  k_HR = 1;
  kcat = 0.45;
  k3 = 1;
  D = 1.6;
  E = 1;
  F = 0.01;
  A = 0.2;
  k1 = 0.5;
  L = 0.00015;
  B = 0.082;
  k2 = 0.15;
  k_r1 = 1;
  G = 0.9;
  k_r2 = 1.5;
  k_r = 2;
  k_r3 = 1.928571;
  k_r4 = 1.357143;
  k_r5 = 1.857143;
  k_r6 = 1.785714;
  k_r7 = 1.571429;
  k_r8 = 1.714286;
  k_r9 = 1.142857;
  k_r10 = 1.642857;
  k_r11 = 1.428571;
  k_r12 = 2;
  k_r13 = 1.214286;
  k_r14 = 1.071429;
  r0_k_ip31 = 0.785714;
  r8_k_ip32 = 0.885714;
  r18_k_ip33 = 0.757143;
  r29_k_ip34 = 0.857143;
  r42_k_ip35 = 0.842857;
  r55_k_ip36 = 0.814286;
  r60_k_ip37 = 0.742857;
  r73_k_ip38 = 0.828571;
  r81_k_ip39 = 0.771429;
  r89_k_ip310 = 0.728571;
  r98_k_ip311 = 0.714286;
  r104_k_ip312 = 0.871429;
  r110_k_ip313 = 0.9;
  r116_k_ip314 = 0.7;
  r122_k_ip315 = 0.8;
  r125_k_r15 = 1.28571;
  r126_v = 1.28571;

  // Other declarations:
  var H;
  const cytosol5, store5, cytosol4, cytosol1, cytosol6, store6, store1, store3;
  const cytosol3, cytosol7, store7, cytosol8, store8, cytosol2, store2, cytosol9;
  const store9, cytosol10, store10, cytosol11, store11, cytosol13, store13;
  const cytosol14, store14, cytosol15, store15, store4, cytosol12, store12;
  const k_d, k_HR, kcat, k3, D, E, F, A, k1, L, B, k2, k_r1, G, k_r2, k_r;
  const k_r3, k_r4, k_r5, k_r6, k_r7, k_r8, k_r9, k_r10, k_r11, k_r12, k_r13;
  const k_r14;

  // Unit definitions:
  unit length = 1e-6 metre;
  unit area = (1e-6 metre)^2;
  unit volume = 1e-15 litre;
  unit substance = item;

  // Display Names:
  CaI_1 is "cytosolic Ca2+_CaI_1";
  g_1 is "total IP3R_g_1";
  IP3_1 is "cytosolic IP3_IP3_1";
  r_1 is "total receptor levels _r_1";
  CaT_1 is "total intracellular store Ca2+ content_CaT_1";
  g_2 is "total IP3R_g_2";
  r_2 is "total receptor levels _r_2";
  CaI_2 is "cytosolic Ca2+_CaI_2";
  IP3_2 is "cytosolic IP3_IP3_2";
  CaT_2 is "total intracellular store Ca2+ content_CaT_2";
  CaI_3 is "cytosolic Ca2+_CaI_3";
  IP3_3 is "cytosolic IP3_IP3_3";
  g_3 is "total IP3R_g_3";
  r_3 is "total receptor levels _r_3";
  CaT_3 is "total intracellular store Ca2+ content_CaT_3";
  CaI_4 is "cytosolic Ca2+_CaI_4";
  IP3_4 is "cytosolic IP3_IP3_4";
  r_4 is "total receptor levels _r_4";
  g_4 is "total IP3R_g_4";
  CaT_4 is "total intracellular store Ca2+ content_CaT_4";
  r_5 is "total receptor levels _r_5";
  IP3_5 is "cytosolic IP3_IP3_5";
  g_5 is "total IP3R_g_5";
  CaI_5 is "cytosolic Ca2+_CaI_5";
  CaT_5 is "total intracellular store Ca2+ content_CaT_5";
  CaI_6 is "cytosolic Ca2+_CaI_6";
  g_6 is "total IP3R_g_6";
  r_6 is "total receptor levels _r_6";
  IP3_6 is "cytosolic IP3_IP3_6";
  CaT_6 is "total intracellular store Ca2+ content_CaT_6";
  CaI_7 is "cytosolic Ca2+_CaI_7";
  g_7 is "total IP3R_g_7";
  r_7 is "total receptor levels_ r_7";
  IP3_7 is "cytosolic IP3_IP3_7";
  CaT_7 is "total intracellular store Ca2+ content_CaT_7";
  r_8 is "total receptor levels _r_8";
  IP3_8 is "cytosolic IP3_IP3_8";
  g_8 is "total IP3R_g_8";
  CaI_8 is "cytosolic Ca2+_CaI_8";
  CaT_8 is "total intracellular store Ca2+ content_CaT_8";
  IP3_9 is "cytosolic IP3_IP3_9";
  CaI_9 is "cytosolic Ca2+_CaI_9";
  r_9 is "total receptor levels _r_9";
  g_9 is "total IP3R_g_9";
  CaT_9 is "total intracellular store Ca2+ content_CaT_9";
  r_10 is "total receptor levels _r_10";
  IP3_10 is "cytosolic IP3_IP3_10";
  g_10 is "total IP3R_g_10";
  CaI_10 is "cytosolic Ca2+_CaI_10";
  CaT_10 is "total intracellular store Ca2+ content_CaT_10";
  IP3_11 is "cytosolic IP3_IP3_11";
  g_11 is "total IP3R_g_11";
  CaI_11 is "cytosolic Ca2+_CaI_11";
  r_11 is "total receptor levels _r_11";
  IP3_12 is "cytosolic IP3_IP3_12";
  g_12 is "total IP3R_g_12";
  CaI_12 is "cytosolic Ca2+_CaI_12";
  r_12 is "total receptor levels _r_12";
  IP3_13 is "cytosolic IP3_IP3_13";
  g_13 is "total IP3R_g_13";
  CaI_13 is "cytosolic Ca2+_CaI_13";
  r_13 is "total receptor levels _r_13";
  IP3_14 is "cytosolic IP3_IP3_14";
  g_14 is "total IP3R_g_14";
  CaI_14 is "cytosolic Ca2+_CaI_14";
  r_14 is "total receptor levels _r_14";
  IP3_15 is "cytosolic IP3_IP3_15";
  g_15 is "total IP3R_g_15";
  CaI_15 is "cytosolic Ca2+_CaI_15";
  r_15 is "total receptor levels _r_15";
  CaT_11 is "total intracellular store Ca2+ content_CaT_11";
  CaT_12 is "total intracellular store Ca2+ content_CaT_12";
  CaT_13 is "total intracellular store Ca2+ content_CaT_13";
  CaT_14 is "total intracellular store Ca2+ content_CaT_14";
  CaT_15 is "total intracellular store Ca2+ content_CaT_15";

  // CV terms:
  CaI_1 identity "http://identifiers.org/kegg.compound/C00076"
  g_1 identity "http://identifiers.org/uniprot/P29995"
  r_1 identity "http://identifiers.org/uniprot/P30560"
  CaT_1 identity "http://identifiers.org/kegg.compound/C00076"
  CaT_1 identity "http://identifiers.org/ensembl/NewID"
end

Verma2016___Ca_2___Signal_Propagation_Along_Hepatocyte_Cords is "Verma2016 - Ca(2+) Signal Propagation Along Hepatocyte Cords"

Verma2016___Ca_2___Signal_Propagation_Along_Hepatocyte_Cords class "http://identifiers.org/go/GO:0019722",
                                                                   "http://identifiers.org/biomodels.db/MODEL1603110003",
                                                                   "http://identifiers.org/taxonomy/9606"
Verma2016___Ca_2___Signal_Propagation_Along_Hepatocyte_Cords class "http://identifiers.org/bto/BTO:0000575"
Verma2016___Ca_2___Signal_Propagation_Along_Hepatocyte_Cords description "http://identifiers.org/taxonomy/9606",
                                                                         "http://identifiers.org/bto/BTO:0000575",
                                                                         "http://identifiers.org/pubmed/27076052"
Verma2016___Ca_2___Signal_Propagation_Along_Hepatocyte_Cords model_entity_is "http://identifiers.org/biomodels.db/MODEL1603110003",
                                                                             "http://identifiers.org/biomodels.db/BIOMD0000000834"
Verma2016___Ca_2___Signal_Propagation_Along_Hepatocyte_Cords property "http://identifiers.org/go/GO:0019722"
Verma2016___Ca_2___Signal_Propagation_Along_Hepatocyte_Cords property "http://identifiers.org/biomodels.db/MODEL1603110003"
