# Model Mathematics

### Component: environment

$JCaM_DYAD_SL = k0B_off ⁢ CaM_DYAD - k0B_on ⁢ B_DYAD ⁢ CaM_SL$

$JCa2CaM_DYAD_SL = k2B_off ⁢ Ca2CaM_DYAD - k2B_on ⁢ B_DYAD ⁢ Ca2CaM_SL$

$JCa4CaM_DYAD_SL = k4B_off ⁢ Ca4CaM_DYAD - k4B_on ⁢ B_DYAD ⁢ Ca4CaM_SL$

### Component: JCaM_SL_CYT

$JCaM_SL_CYT = kSLCYT ⁢ CaM_SL - CaM_CYT$

### Component: JCa2CaM_SL_CYT

$JCa2CaM_SL_CYT = kSLCYT ⁢ Ca2CaM_SL - Ca2CaM_CYT$

### Component: JCa4CaM_SL_CYT

$JCa4CaM_SL_CYT = kSLCYT ⁢ Ca4CaM_SL - Ca4CaM_CYT$

### Component: Reaction_02

$Reaction_02 = k02 ⁢ Ca 2 ⁢ CaM - k20 ⁢ Ca2CaM$$k02 = k20 Kd02$$Kd02 = 0.0025 ⁢ 1.0 + K 0.94 - Mg 0.012 ⁢ 1.0 + K 8.1 + Mg 0.022 if Mg ≦ 1.0 0.0025 ⁢ 1.0 + K 0.94 + Mg - 1.0 0.06 - 1.0 0.012 ⁢ 1.0 + K 8.1 + 1.0 0.022 + Mg - 1.0 0.068 otherwise$

### Component: Reaction_24

$Reaction_24 = k24 ⁢ Ca 2 ⁢ Ca2CaM - k42 ⁢ Ca4CaM$$k24 = k42 Kd24$$Kd24 = 0.128 ⁢ 1.0 + K 0.64 + Mg 0.014 ⁢ 1.0 + K 13.0 - Mg 0.153 if Mg ≦ 1.0 0.128 ⁢ 1.0 + K 0.64 + Mg - 1.0 0.005 ⁢ 1.0 0.012 ⁢ 1.0 + K 13.0 + Mg - 1.0 0.15 - 1.0 0.153 otherwise$

### Component: Reaction_02B

$Reaction_02B = k02B ⁢ Ca 2 ⁢ CaMB - k20B ⁢ Ca2CaMB$$k02B = k02$

### Component: Reaction_24B

$Reaction_24B = k24B ⁢ Ca 2 ⁢ Ca2CaMB - k42B ⁢ Ca4CaMB$$k42B = k42$$k24B = k24$

### Component: Reaction_0B

$Reaction_0B = k0B_on ⁢ CaM ⁢ B - k0B_off ⁢ CaMB$

### Component: Reaction_2B

$Reaction_2B = k2B_on ⁢ Ca2CaM ⁢ B - k2B_off ⁢ Ca2CaMB$

### Component: Reaction_4B

$Reaction_4B = k4B_on ⁢ Ca4CaM ⁢ B - k4B_off ⁢ Ca4CaMB$

### Component: B

$B = Btot - CaMB + Ca2CaMB + Ca4CaMB$

### Component: CaM

$ddtime CaM = 1E-3 ⁢- Reaction_02 + Reaction_0B + Reaction_0CaN$

### Component: Ca2CaM

$ddtime Ca2CaM = 1E-3 ⁢ CaMKIItot ⁢ Reaction_CKt2a - Reaction_CKib2 + Reaction_02 - Reaction_24 + Reaction_2B + Reaction_2CaN$

### Component: Ca4CaM

$ddtime Ca4CaM = 1E-3 ⁢ CaMKIItot ⁢ Reaction_CKta - Reaction_CKib + Reaction_24 - Reaction_4CaN + Reaction_4B$

### Component: CaMB

$ddtime CaMB = 1E-3 ⁢ Reaction_0B - Reaction_02B$

### Component: Ca2CaMB

$ddtime Ca2CaMB = 1E-3 ⁢ Reaction_02B + Reaction_2B - Reaction_24B$

### Component: Ca4CaMB

$ddtime Ca4CaMB = 1E-3 ⁢ Reaction_24B + Reaction_4B$

### Component: CaMKIIi

$CaMKIIi = Pi ⁢ CaMKIItot$

### Component: CaMKIIb2

$CaMKIIb2 = Pb2 ⁢ CaMKIItot$

### Component: CaMKIIb

$CaMKIIb = Pb ⁢ CaMKIItot$

### Component: CaMKIIt

$CaMKIIt = Pt ⁢ CaMKIItot$

### Component: CaMKIIt2

$CaMKIIt2 = Pt2 ⁢ CaMKIItot$

### Component: CaMKIIa

$CaMKIIa = Pa ⁢ CaMKIItot$

### Component: Pi

$Pi = 1.0 - Pb + Pb2 + Pt + Pt2 + Pa$

### Component: T

$T = Pb + Pt + Pt2 + Pa$

### Component: Reaction_CKbt

$kbt = 0.055 ⁢ T + 0.0074 ⁢ T 2.0 + 0.015 ⁢ T 3.0$$Reaction_CKbt = kbt ⁢ Pb - kPP1 ⁢ PP1tot ⁢ Pt KmPP1 + CaMKIItot ⁢ Pt$

### Component: Reaction_CKib2

$Reaction_CKib2 = kib2 ⁢ Ca2CaM ⁢ Pi - kb2i ⁢ Pb2$

### Component: Reaction_CKb2b

$Reaction_CKb2b = kb24 ⁢ Ca 2.0 ⁢ Pb2 - kb42 ⁢ Pb2$$kb24 = k24$$kb42 = k42 ⁢ 33.5E-3 5.0$

### Component: Reaction_CKib

$Reaction_CKib = kib ⁢ Ca4CaM ⁢ Pi - kbi ⁢ Pb$

### Component: Reaction_CKtt2

$Reaction_CKtt2 = kt42 ⁢ Pt - kt24 ⁢ Ca 2.0 ⁢ Pt2$$kt24 = k24$$kt42 = k42 ⁢ 33.5E-6 5.0$

### Component: Reaction_CKta

$Reaction_CKta = kta ⁢ Pt - kat ⁢ Ca4CaM ⁢ Pa$

### Component: Reaction_CKt2a

$Reaction_CKt2a = kt2a ⁢ Pt2 - kat2 ⁢ Ca2CaM ⁢ Pa$

### Component: Reaction_CKt2b2

$Reaction_CKt2b2 = kPP1 ⁢ PP1tot ⁢ Pt2 KmPP1 + CaMKIItot ⁢ Pt2$

### Component: Reaction_CKai

$Reaction_CKai = kPP1 ⁢ PP1tot ⁢ Pa KmPP1 + CaMKIItot ⁢ Pa$

### Component: Pb2

$ddtime Pb2 = 1E-3 ⁢ Reaction_CKt2b2 - Reaction_CKib2 + Reaction_CKb2b$

### Component: Pb

$ddtime Pb = 1E-3 ⁢ Reaction_CKib + Reaction_CKb2b - Reaction_CKbt$

### Component: Pt

$ddtime Pt = 1E-3 ⁢- Reaction_CKbt + Reaction_CKta + Reaction_CKtt2$

### Component: Pt2

$ddtime Pt2 = 1E-3 ⁢- Reaction_CKtt2 + Reaction_CKt2a + Reaction_CKt2b2$

### Component: Pa

$ddtime Pa = 1E-3 ⁢ Reaction_CKta + Reaction_CKt2a - Reaction_CKai$

### Component: Ca2CaN

$Ca2CaN = CaNtot - Ca4CaN + CaMCaN + Ca2CaMCaN + Ca4CaMCaN$

### Component: Reaction_Ca4CaN

$Reaction_Ca4CaN = kCaNCa_on ⁢ Ca 2 ⁢ Ca2CaN - kCaNCa_off ⁢ Ca4CaN$

### Component: Reaction_02CaN

$Reaction_02CaN = k02CaN ⁢ Ca 2 ⁢ CaMCaN - k20CaN ⁢ Ca2CaMCaN$$k02CaN = k02$$k20CaN = k20 160.0$

### Component: Reaction_24CaN

$Reaction_24CaN = k24CaN ⁢ Ca 2 ⁢ Ca2CaMCaN - k42CaN ⁢ Ca4CaMCaN$$k24CaN = k24$$k42CaN = k42 2508.0$

### Component: Reaction_0CaN

$Reaction_0CaN = kCaN0_on ⁢ CaM ⁢ Ca4CaN - kCaN0_off ⁢ CaMCaN$

### Component: Reaction_2CaN

$Reaction_2CaN = kCaN2_on ⁢ Ca2CaM ⁢ Ca4CaN - kCaN2_off ⁢ Ca2CaMCaN$

### Component: Reaction_4CaN

$Reaction_4CaN = kCaN4_on ⁢ Ca4CaM ⁢ Ca4CaN - kCaN4_off ⁢ Ca4CaMCaN$

### Component: Ca4CaN

$ddtime Ca4CaN = 1E-3 ⁢ Reaction_Ca4CaN - Reaction_0CaN + Reaction_2CaN + Reaction_4CaN$

### Component: CaMCaN

$ddtime CaMCaN = 1E-3 ⁢ Reaction_0CaN - Reaction_02CaN$

### Component: Ca2CaMCaN

$ddtime Ca2CaMCaN = 1E-3 ⁢ Reaction_2CaN + Reaction_02CaN - Reaction_24CaN$

### Component: Ca4CaMCaN

$ddtime Ca4CaMCaN = 1E-3 ⁢ Reaction_4CaN + Reaction_24CaN$

### Component: Reaction_02

$Reaction_02 = k02 ⁢ Ca 2 ⁢ CaM - k20 ⁢ Ca2CaM$$k02 = k20 Kd02$$Kd02 = 0.0025 ⁢ 1.0 + K 0.94 - Mg 0.012 ⁢ 1.0 + K 8.1 + Mg 0.022 if Mg ≦ 1.0 0.0025 ⁢ 1.0 + K 0.94 + Mg - 1.0 0.06 - 1.0 0.012 ⁢ 1.0 + K 8.1 + 1.0 0.022 + Mg - 1.0 0.068 otherwise$

### Component: Reaction_24

$Reaction_24 = k24 ⁢ Ca 2 ⁢ Ca2CaM - k42 ⁢ Ca4CaM$$k24 = k42 Kd24$$Kd24 = 0.128 ⁢ 1.0 + K 0.64 + Mg 0.014 ⁢ 1.0 + K 13.0 - Mg 0.153 if Mg ≦ 1.0 0.128 ⁢ 1.0 + K 0.64 + Mg - 1.0 0.005 ⁢ 1.0 0.012 ⁢ 1.0 + K 13.0 + Mg - 1.0 0.15 - 1.0 0.153 otherwise$

### Component: Reaction_02B

$Reaction_02B = k02B ⁢ Ca 2 ⁢ CaMB - k20B ⁢ Ca2CaMB$$k02B = k02$

### Component: Reaction_24B

$Reaction_24B = k24B ⁢ Ca 2 ⁢ Ca2CaMB - k42B ⁢ Ca4CaMB$$k42B = k42$$k24B = k24$

### Component: Reaction_0B

$Reaction_0B = k0B_on ⁢ CaM ⁢ B - k0B_off ⁢ CaMB$

### Component: Reaction_2B

$Reaction_2B = k2B_on ⁢ Ca2CaM ⁢ B - k2B_off ⁢ Ca2CaMB$

### Component: Reaction_4B

$Reaction_4B = k4B_on ⁢ Ca4CaM ⁢ B - k4B_off ⁢ Ca4CaMB$

### Component: B

$B = Btot - CaMB + Ca2CaMB + Ca4CaMB$

### Component: CaM

$ddtime CaM = 1E-3 ⁢- Reaction_02 + Reaction_0B + Reaction_0CaN$

### Component: Ca2CaM

$ddtime Ca2CaM = 1E-3 ⁢ CaMKIItot ⁢ Reaction_CKt2a - Reaction_CKib2 + Reaction_02 - Reaction_24 + Reaction_2B + Reaction_2CaN$

### Component: Ca4CaM

$ddtime Ca4CaM = 1E-3 ⁢ CaMKIItot ⁢ Reaction_CKta - Reaction_CKib + Reaction_24 - Reaction_4CaN + Reaction_4B$

### Component: CaMB

$ddtime CaMB = 1E-3 ⁢ Reaction_0B - Reaction_02B$

### Component: Ca2CaMB

$ddtime Ca2CaMB = 1E-3 ⁢ Reaction_02B + Reaction_2B - Reaction_24B$

### Component: Ca4CaMB

$ddtime Ca4CaMB = 1E-3 ⁢ Reaction_24B + Reaction_4B$

### Component: CaMKIIi

$CaMKIIi = Pi ⁢ CaMKIItot$

### Component: CaMKIIb2

$CaMKIIb2 = Pb2 ⁢ CaMKIItot$

### Component: CaMKIIb

$CaMKIIb = Pb ⁢ CaMKIItot$

### Component: CaMKIIt

$CaMKIIt = Pt ⁢ CaMKIItot$

### Component: CaMKIIt2

$CaMKIIt2 = Pt2 ⁢ CaMKIItot$

### Component: CaMKIIa

$CaMKIIa = Pa ⁢ CaMKIItot$

### Component: Pi

$Pi = 1.0 - Pb + Pb2 + Pt + Pt2 + Pa$

### Component: T

$T = Pb + Pt + Pt2 + Pa$

### Component: Reaction_CKbt

$kbt = 0.055 ⁢ T + 0.0074 ⁢ T 2.0 + 0.015 ⁢ T 3.0$$Reaction_CKbt = kbt ⁢ Pb - kPP1 ⁢ PP1tot ⁢ Pt KmPP1 + CaMKIItot ⁢ Pt$

### Component: Reaction_CKib2

$Reaction_CKib2 = kib2 ⁢ Ca2CaM ⁢ Pi - kb2i ⁢ Pb2$

### Component: Reaction_CKb2b

$Reaction_CKb2b = kb24 ⁢ Ca 2.0 ⁢ Pb2 - kb42 ⁢ Pb2$$kb24 = k24$$kb42 = k42 ⁢ 33.5E-3 5.0$

### Component: Reaction_CKib

$Reaction_CKib = kib ⁢ Ca4CaM ⁢ Pi - kbi ⁢ Pb$

### Component: Reaction_CKtt2

$Reaction_CKtt2 = kt42 ⁢ Pt - kt24 ⁢ Ca 2.0 ⁢ Pt2$$kt24 = k24$$kt42 = k42 ⁢ 33.5E-6 5.0$

### Component: Reaction_CKta

$Reaction_CKta = kta ⁢ Pt - kat ⁢ Ca4CaM ⁢ Pa$

### Component: Reaction_CKt2a

$Reaction_CKt2a = kt2a ⁢ Pt2 - kat2 ⁢ Ca2CaM ⁢ Pa$

### Component: Reaction_CKt2b2

$Reaction_CKt2b2 = kPP1 ⁢ PP1tot ⁢ Pt2 KmPP1 + CaMKIItot ⁢ Pt2$

### Component: Reaction_CKai

$Reaction_CKai = kPP1 ⁢ PP1tot ⁢ Pa KmPP1 + CaMKIItot ⁢ Pa$

### Component: Pb2

$ddtime Pb2 = 1E-3 ⁢ Reaction_CKt2b2 - Reaction_CKib2 + Reaction_CKb2b$

### Component: Pb

$ddtime Pb = 1E-3 ⁢ Reaction_CKib + Reaction_CKb2b - Reaction_CKbt$

### Component: Pt

$ddtime Pt = 1E-3 ⁢- Reaction_CKbt + Reaction_CKta + Reaction_CKtt2$

### Component: Pt2

$ddtime Pt2 = 1E-3 ⁢- Reaction_CKtt2 + Reaction_CKt2a + Reaction_CKt2b2$

### Component: Pa

$ddtime Pa = 1E-3 ⁢ Reaction_CKta + Reaction_CKt2a - Reaction_CKai$

### Component: Ca2CaN

$Ca2CaN = CaNtot - Ca4CaN + CaMCaN + Ca2CaMCaN + Ca4CaMCaN$

### Component: Reaction_Ca4CaN

$Reaction_Ca4CaN = kCaNCa_on ⁢ Ca 2 ⁢ Ca2CaN - kCaNCa_off ⁢ Ca4CaN$

### Component: Reaction_02CaN

$Reaction_02CaN = k02CaN ⁢ Ca 2 ⁢ CaMCaN - k20CaN ⁢ Ca2CaMCaN$$k02CaN = k02$$k20CaN = k20 160.0$

### Component: Reaction_24CaN

$Reaction_24CaN = k24CaN ⁢ Ca 2 ⁢ Ca2CaMCaN - k42CaN ⁢ Ca4CaMCaN$$k24CaN = k24$$k42CaN = k42 2508.0$

### Component: Reaction_0CaN

$Reaction_0CaN = kCaN0_on ⁢ CaM ⁢ Ca4CaN - kCaN0_off ⁢ CaMCaN$

### Component: Reaction_2CaN

$Reaction_2CaN = kCaN2_on ⁢ Ca2CaM ⁢ Ca4CaN - kCaN2_off ⁢ Ca2CaMCaN$

### Component: Reaction_4CaN

$Reaction_4CaN = kCaN4_on ⁢ Ca4CaM ⁢ Ca4CaN - kCaN4_off ⁢ Ca4CaMCaN$

### Component: Ca4CaN

$ddtime Ca4CaN = 1E-3 ⁢ Reaction_Ca4CaN - Reaction_0CaN + Reaction_2CaN + Reaction_4CaN$

### Component: CaMCaN

$ddtime CaMCaN = 1E-3 ⁢ Reaction_0CaN - Reaction_02CaN$

### Component: Ca2CaMCaN

$ddtime Ca2CaMCaN = 1E-3 ⁢ Reaction_2CaN + Reaction_02CaN - Reaction_24CaN$

### Component: Ca4CaMCaN

$ddtime Ca4CaMCaN = 1E-3 ⁢ Reaction_4CaN + Reaction_24CaN$

### Component: Reaction_02

$Reaction_02 = k02 ⁢ Ca 2 ⁢ CaM - k20 ⁢ Ca2CaM$$k02 = k20 Kd02$$Kd02 = 0.0025 ⁢ 1.0 + K 0.94 - Mg 0.012 ⁢ 1.0 + K 8.1 + Mg 0.022 if Mg ≦ 1.0 0.0025 ⁢ 1.0 + K 0.94 + Mg - 1.0 0.06 - 1.0 0.012 ⁢ 1.0 + K 8.1 + 1.0 0.022 + Mg - 1.0 0.068 otherwise$

### Component: Reaction_24

$Reaction_24 = k24 ⁢ Ca 2 ⁢ Ca2CaM - k42 ⁢ Ca4CaM$$k24 = k42 Kd24$$Kd24 = 0.128 ⁢ 1.0 + K 0.64 + Mg 0.014 ⁢ 1.0 + K 13.0 - Mg 0.153 if Mg ≦ 1.0 0.128 ⁢ 1.0 + K 0.64 + Mg - 1.0 0.005 ⁢ 1.0 0.012 ⁢ 1.0 + K 13.0 + Mg - 1.0 0.15 - 1.0 0.153 otherwise$

### Component: Reaction_02B

$Reaction_02B = k02B ⁢ Ca 2 ⁢ CaMB - k20B ⁢ Ca2CaMB$$k02B = k02$

### Component: Reaction_24B

$Reaction_24B = k24B ⁢ Ca 2 ⁢ Ca2CaMB - k42B ⁢ Ca4CaMB$$k42B = k42$$k24B = k24$

### Component: Reaction_0B

$Reaction_0B = k0B_on ⁢ CaM ⁢ B - k0B_off ⁢ CaMB$

### Component: Reaction_2B

$Reaction_2B = k2B_on ⁢ Ca2CaM ⁢ B - k2B_off ⁢ Ca2CaMB$

### Component: Reaction_4B

$Reaction_4B = k4B_on ⁢ Ca4CaM ⁢ B - k4B_off ⁢ Ca4CaMB$

### Component: B

$B = Btot - CaMB + Ca2CaMB + Ca4CaMB$

### Component: CaM

$ddtime CaM = 1E-3 ⁢- Reaction_02 + Reaction_0B + Reaction_0CaN$

### Component: Ca2CaM

$ddtime Ca2CaM = 1E-3 ⁢ CaMKIItot ⁢ Reaction_CKt2a - Reaction_CKib2 + Reaction_02 - Reaction_24 + Reaction_2B + Reaction_2CaN$

### Component: Ca4CaM

$ddtime Ca4CaM = 1E-3 ⁢ CaMKIItot ⁢ Reaction_CKta - Reaction_CKib + Reaction_24 - Reaction_4CaN + Reaction_4B$

### Component: CaMB

$ddtime CaMB = 1E-3 ⁢ Reaction_0B - Reaction_02B$

### Component: Ca2CaMB

$ddtime Ca2CaMB = 1E-3 ⁢ Reaction_02B + Reaction_2B - Reaction_24B$

### Component: Ca4CaMB

$ddtime Ca4CaMB = 1E-3 ⁢ Reaction_24B + Reaction_4B$

### Component: CaMKIIi

$CaMKIIi = Pi ⁢ CaMKIItot$

### Component: CaMKIIb2

$CaMKIIb2 = Pb2 ⁢ CaMKIItot$

### Component: CaMKIIb

$CaMKIIb = Pb ⁢ CaMKIItot$

### Component: CaMKIIt

$CaMKIIt = Pt ⁢ CaMKIItot$

### Component: CaMKIIt2

$CaMKIIt2 = Pt2 ⁢ CaMKIItot$

### Component: CaMKIIa

$CaMKIIa = Pa ⁢ CaMKIItot$

### Component: Pi

$Pi = 1.0 - Pb + Pb2 + Pt + Pt2 + Pa$

### Component: T

$T = Pb + Pt + Pt2 + Pa$

### Component: Reaction_CKbt

$kbt = 0.055 ⁢ T + 0.0074 ⁢ T 2.0 + 0.015 ⁢ T 3.0$$Reaction_CKbt = kbt ⁢ Pb - kPP1 ⁢ PP1tot ⁢ Pt KmPP1 + CaMKIItot ⁢ Pt$

### Component: Reaction_CKib2

$Reaction_CKib2 = kib2 ⁢ Ca2CaM ⁢ Pi - kb2i ⁢ Pb2$

### Component: Reaction_CKb2b

$Reaction_CKb2b = kb24 ⁢ Ca 2.0 ⁢ Pb2 - kb42 ⁢ Pb2$$kb24 = k24$$kb42 = k42 ⁢ 33.5E-3 5.0$

### Component: Reaction_CKib

$Reaction_CKib = kib ⁢ Ca4CaM ⁢ Pi - kbi ⁢ Pb$

### Component: Reaction_CKtt2

$Reaction_CKtt2 = kt42 ⁢ Pt - kt24 ⁢ Ca 2.0 ⁢ Pt2$$kt24 = k24$$kt42 = k42 ⁢ 33.5E-6 5.0$

### Component: Reaction_CKta

$Reaction_CKta = kta ⁢ Pt - kat ⁢ Ca4CaM ⁢ Pa$

### Component: Reaction_CKt2a

$Reaction_CKt2a = kt2a ⁢ Pt2 - kat2 ⁢ Ca2CaM ⁢ Pa$

### Component: Reaction_CKt2b2

$Reaction_CKt2b2 = kPP1 ⁢ PP1tot ⁢ Pt2 KmPP1 + CaMKIItot ⁢ Pt2$

### Component: Reaction_CKai

$Reaction_CKai = kPP1 ⁢ PP1tot ⁢ Pa KmPP1 + CaMKIItot ⁢ Pa$

### Component: Pb2

$ddtime Pb2 = 1E-3 ⁢ Reaction_CKt2b2 - Reaction_CKib2 + Reaction_CKb2b$

### Component: Pb

$ddtime Pb = 1E-3 ⁢ Reaction_CKib + Reaction_CKb2b - Reaction_CKbt$

### Component: Pt

$ddtime Pt = 1E-3 ⁢- Reaction_CKbt + Reaction_CKta + Reaction_CKtt2$

### Component: Pt2

$ddtime Pt2 = 1E-3 ⁢- Reaction_CKtt2 + Reaction_CKt2a + Reaction_CKt2b2$

### Component: Pa

$ddtime Pa = 1E-3 ⁢ Reaction_CKta + Reaction_CKt2a - Reaction_CKai$

### Component: Ca2CaN

$Ca2CaN = CaNtot - Ca4CaN + CaMCaN + Ca2CaMCaN + Ca4CaMCaN$

### Component: Reaction_Ca4CaN

$Reaction_Ca4CaN = kCaNCa_on ⁢ Ca 2 ⁢ Ca2CaN - kCaNCa_off ⁢ Ca4CaN$

### Component: Reaction_02CaN

$Reaction_02CaN = k02CaN ⁢ Ca 2 ⁢ CaMCaN - k20CaN ⁢ Ca2CaMCaN$$k02CaN = k02$$k20CaN = k20 160.0$

### Component: Reaction_24CaN

$Reaction_24CaN = k24CaN ⁢ Ca 2 ⁢ Ca2CaMCaN - k42CaN ⁢ Ca4CaMCaN$$k24CaN = k24$$k42CaN = k42 2508.0$

### Component: Reaction_0CaN

$Reaction_0CaN = kCaN0_on ⁢ CaM ⁢ Ca4CaN - kCaN0_off ⁢ CaMCaN$

### Component: Reaction_2CaN

$Reaction_2CaN = kCaN2_on ⁢ Ca2CaM ⁢ Ca4CaN - kCaN2_off ⁢ Ca2CaMCaN$

### Component: Reaction_4CaN

$Reaction_4CaN = kCaN4_on ⁢ Ca4CaM ⁢ Ca4CaN - kCaN4_off ⁢ Ca4CaMCaN$

### Component: Ca4CaN

$ddtime Ca4CaN = 1E-3 ⁢ Reaction_Ca4CaN - Reaction_0CaN + Reaction_2CaN + Reaction_4CaN$

### Component: CaMCaN

$ddtime CaMCaN = 1E-3 ⁢ Reaction_0CaN - Reaction_02CaN$

### Component: Ca2CaMCaN

$ddtime Ca2CaMCaN = 1E-3 ⁢ Reaction_2CaN + Reaction_02CaN - Reaction_24CaN$

### Component: Ca4CaMCaN

$ddtime Ca4CaMCaN = 1E-3 ⁢ Reaction_4CaN + Reaction_24CaN$

### Component: model_parameters

Source
Derived from workspace Saucerman, Bers, 2008 at changeset ecfeff9a57db.
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