JWS Online

Model

Name

jenkinson1

Notes

The SBML for this model was obtained from the BioModels database (BioModels ID: BIOMD0000000399) Biomodels notes: Figure 1 and S1 of the reference publication has been reproduced here. The inconsistency between the y-axis measure of the curation figure and that of the paper is due to the units. In the papers, ERK_PP concentration dynamics is measured in mol/m3 and as the number of molecules. The plot shows the dynamics of ERK_PP for different values of EGF ranging from 0.0625ng/mL to 50ng/mL. In the model, EGF is presented as the number of molecules. EGF=5962molecules correspond to 50ng/mL, 596.2molecules correspond to 5ng/mL, 49.62 correspond to .5ng/mL, 12.405molecules correspond to 0.125ng/mL and 6.2025molecules correspond to 0.0625ng/mL. The simulated was done using Copasi v4.7 (Build 34). JWS Online curation: This model was curated by reproducing Figures 1A and 1B.

Substance units

None

Time units

None

Volume units

None

Area units

None

Length units

None

Reaction extent units

None

Manuscript information

Thermodynamically consistent model calibration in chemical kinetics.

Garrett Jenkinson
John Goutsias

BMC Syst Biol 2011; 5 (4): 64-338

PubMed: 21548948
PubMed Central: PMC3117730
DOI: 10.1186/1752-0509-5-64
ISSN: 1752-0509
URL: https://ncbi.nlm.nih.gov/pubmed/21548948

Abstract

BACKGROUND: The dynamics of biochemical reaction systems are constrained by the fundamental laws of thermodynamics, which impose well-defined relationships among the reaction rate constants characterizing these systems. Constructing biochemical reaction systems from experimental observations often leads to parameter values that do not satisfy the necessary thermodynamic constraints. This can result in models that are not physically realizable and may lead to inaccurate, or even erroneous, descriptions of cellular function.
RESULTS: We introduce a thermodynamically consistent model calibration (TCMC) method that can be effectively used to provide thermodynamically feasible values for the parameters of an open biochemical reaction system. The proposed method formulates the model calibration problem as a constrained optimization problem that takes thermodynamic constraints (and, if desired, additional non-thermodynamic constraints) into account. By calculating thermodynamically feasible values for the kinetic parameters of a well-known model of the EGF/ERK signaling cascade, we demonstrate the qualitative and quantitative significance of imposing thermodynamic constraints on these parameters and the effectiveness of our method for accomplishing this important task. MATLAB software, using the Systems Biology Toolbox 2.1, can be accessed from http://www.cis.jhu.edu/~goutsias/CSS lab/software.html. An SBML file containing the thermodynamically feasible EGF/ERK signaling cascade model can be found in the BioModels database.
CONCLUSIONS: TCMC is a simple and flexible method for obtaining physically plausible values for the kinetic parameters of open biochemical reaction systems. It can be effectively used to recalculate a thermodynamically consistent set of parameter values for existing thermodynamically infeasible biochemical reaction models of cellular function as well as to estimate thermodynamically feasible values for the parameters of new models. Furthermore, TCMC can provide dimensionality reduction, better estimation performance, and lower computational complexity, and can help to alleviate the problem of data overfitting.

Simulations using this model 1

Simulation
jenkinson2011_Fig1	SED-ML COMBINE Archive

Unit definitions 7

Unit definitions have no effect on the numerical analysis of the model. It remains the responsibility of the modeler to ensure the internal numerical consistency of the model. If units are provided, however, the consistency of the model units will be checked.

Name	Definition
—	1.0 item
—	60.0 second
—	1e-12 litre
—	0.016666666666666666 second^(-1.0)
—	0.016666666666666666 item second^(-1.0)
—	0.016666666666666666 second^(-1.0) item^(-1.0)
—	1.6666666666666667e-14 litre item^(-1.0) second^(-1.0)

Compartments 3

Id	Name	Spatial dimensions	Size
c1	extracellular volume	3.0	1.0
c2	cytoplasm	3.0	1.0
c3	endosomal volume	3.0	0.0000043

Species 100

Id	Name	Initial quantity	Compartment	Fixed
EGF_EGFR_act	t_EGF_EGFR*	0.0	c2 (cytoplasm)	✔
ERK_PP	t_ERK_PP	0.0	c2 (cytoplasm)	✔
MEK_PP	t_MEK_PP	0.0	c2 (cytoplasm)	✔
Raf_act	t_Raf*	0.0	c2 (cytoplasm)	✔
Ras_GTP	t_Ras_GTP	0.0	c2 (cytoplasm)	✔
SHC_P_t	t_SHC_P_t	0.0	c2 (cytoplasm)	✔
x1	EGF	4962.0	c1 (extracellular volume)	✔
x10	EGF-EGFRi	0.0	c2 (cytoplasm)	✘
x11	EGF-EGFRi^2	0.0	c2 (cytoplasm)	✘
x12	Prot	81000.0	c2 (cytoplasm)	✘
x13	EGFideg	0.0	c3 (endosomal volume)	✘
x14	GAP	12000.0	c2 (cytoplasm)	✘
x15	EGF-EGFR*^2-GAP	0.0	c3 (endosomal volume)	✘
x16	EGFi	0.0	c2 (cytoplasm)	✘
x17	EGF-EGFRi*^2-GAP	0.0	c2 (cytoplasm)	✘
x18	EGF-EGFRi*^2-GAP-Grb2	0.0	c2 (cytoplasm)	✘
x19	EGF-EGFRi*^2-GAP-Grb2-Sos	0.0	c2 (cytoplasm)	✘
x2	EGFR	50000.0	c1 (extracellular volume)	✘
x20	EGF-EGFRi*^2-GAP-Grb2-Sos-Ras-GDP	0.0	c2 (cytoplasm)	✘
x21	EGF-EGFRi*^2-GAP-Grb2-Sos-Ras-GTP	0.0	c2 (cytoplasm)	✘
x22	Grb2	11000.0	c2 (cytoplasm)	✘
x23	EGF-EGFR*^2-GAP-Grb2	0.0	c2 (cytoplasm)	✘
x24	Sos	26300.0	c2 (cytoplasm)	✘
x25	EGF-EGFR*^2-GAP-Grb2-Sos	0.0	c2 (cytoplasm)	✘
x26	Ras-GDP	72000.0	c2 (cytoplasm)	✘
x27	EGF-EGFR*^2-GAP-Grb2-Sos-Ras-GDP	0.0	c2 (cytoplasm)	✘
x28	Ras-GTP	0.0	c2 (cytoplasm)	✘
x29	EGF-EGFR*^2-GAP-Grb2-Sos-Ras-GTP	0.0	c2 (cytoplasm)	✘
x3	EGF-EGFR	0.0	c2 (cytoplasm)	✘
x30	Grb2-Sos	40000.0	c2 (cytoplasm)	✘
x31	Shc	101000.0	c2 (cytoplasm)	✘
x32	EGF-EGFR*^2-GAP-Shc	0.0	c2 (cytoplasm)	✘
x33	EGF-EGFR^2-GAP-Shc	0.0	c2 (cytoplasm)	✘
x34	EGF-EGFR^2-GAP-Shc-Grb2	0.0	c2 (cytoplasm)	✘
x35	EGF-EGFR^2-GAP-Shc-Grb2-Sos	0.0	c2 (cytoplasm)	✘
x36	EGF-EGFR^2-GAP-Shc-Grb2-Sos-Ras-GDP	0.0	c2 (cytoplasm)	✘
x37	EGF-EGFR^2-GAP-Shc-Grb2-Sos-Ras-GTP	0.0	c2 (cytoplasm)	✘
x38	Shc*-Grb2-Sos	0.0	c2 (cytoplasm)	✘
x39	Shc*-Grb2	0.0	c2 (cytoplasm)	✘
x4	EGF-EGFR^2	0.0	c2 (cytoplasm)	✘
x40	Shc*	0.0	c2 (cytoplasm)	✘
x41	Raf	40000.0	c2 (cytoplasm)	✘
x42	Raf-Ras-GTP	0.0	c2 (cytoplasm)	✘
x43	Ras-GTP*	0.0	c2 (cytoplasm)	✘
x44	Phosphotase1	40000.0	c2 (cytoplasm)	✘
x45	Raf*	0.0	c2 (cytoplasm)	✘
x46	Raf*-P'ase	0.0	c2 (cytoplasm)	✘
x47	MEK	22000000.0	c2 (cytoplasm)	✘
x48	MEK-Raf*	0.0	c2 (cytoplasm)	✘
x49	MEK-P	0.0	c2 (cytoplasm)	✘
x5	EGF-EGFR*^2	0.0	c2 (cytoplasm)	✘
x50	MEK-P-Raf*	0.0	c2 (cytoplasm)	✘
x51	MEK-PP	0.0	c2 (cytoplasm)	✘
x52	MEK-PP-P'ase2	0.0	c2 (cytoplasm)	✘
x53	Phosphatase2	40000.0	c2 (cytoplasm)	✘
x54	MEK-P-P'ase2	0.0	c2 (cytoplasm)	✘
x55	ERK	21000000.0	c2 (cytoplasm)	✘
x56	ERK-MEK-PP	0.0	c2 (cytoplasm)	✘
x57	ERK-P	0.0	c2 (cytoplasm)	✘
x58	ERK-P-MEK-PP	0.0	c2 (cytoplasm)	✘
x59	ERK-PP	0.0	c2 (cytoplasm)	✘
x6	EGFRi	0.0	c2 (cytoplasm)	✘
x60	Phosphotase3	10000000.0	c2 (cytoplasm)	✘
x61	ERK-PP-P'ase3	0.0	c2 (cytoplasm)	✘
x62	ERK-P-P'ase3	0.0	c2 (cytoplasm)	✘
x63	EGF-EGFRi*^2-GAP-Shc	0.0	c2 (cytoplasm)	✘
x64	EGF-EGFRi^2-GAP-Shc	0.0	c2 (cytoplasm)	✘
x65	EGF-EGFRi^2-GAP-Shc-Grb2	0.0	c2 (cytoplasm)	✘
x66	EGF-EGFRi^2-GAP-Shc-Grb2-Sos	0.0	c2 (cytoplasm)	✘
x67	EGF-EGFRi^2-GAP-Shc-Grb2-Sos-Ras-GDP	0.0	c2 (cytoplasm)	✘
x68	EGF-EGFRi^2-GAP-Shc-Grb2-Sos-Ras-GTP	0.0	c2 (cytoplasm)	✘
x69	Rasi-GTP	0.0	c2 (cytoplasm)	✘
x7	EGF-EGFR*^2-GAP-Grb2-Prot	0.0	c2 (cytoplasm)	✘
x70	Rafi-Rasi-GTP	0.0	c2 (cytoplasm)	✘
x71	Rasi-GTP*	0.0	c2 (cytoplasm)	✘
x72	Rafi*	0.0	c2 (cytoplasm)	✘
x73	Rafi*-P'ase	0.0	c2 (cytoplasm)	✘
x74	MEKi-Rafi*	0.0	c2 (cytoplasm)	✘
x75	MEKi-P	0.0	c2 (cytoplasm)	✘
x76	MEKi-P-Rafi*	0.0	c2 (cytoplasm)	✘
x77	MEKi-PP	0.0	c2 (cytoplasm)	✘
x78	MEKi-PP-P'ase2i	0.0	c2 (cytoplasm)	✘
x79	MEKi-P-P'ase2i	0.0	c2 (cytoplasm)	✘
x8	EGF-EGFRi*^2	0.0	c2 (cytoplasm)	✘
x80	ERKi-MEKi-PP	0.0	c2 (cytoplasm)	✘
x81	ERKi-P	0.0	c2 (cytoplasm)	✘
x82	ERKi-P-MEKi-PP	0.0	c2 (cytoplasm)	✘
x83	ERKi-PP	0.0	c2 (cytoplasm)	✘
x84	ERKi-PP-P'ase3i	0.0	c2 (cytoplasm)	✘
x85	ERKi-P-P'ase3i	0.0	c2 (cytoplasm)	✘
x86	EGFRideg	0.0	c2 (cytoplasm)	✘
x87	EGF-EGFRi*^2deg	0.0	c2 (cytoplasm)	✘
x88	EGF-EGFR*^2-GAP-Grb2-Sos-Prot	0.0	c2 (cytoplasm)	✘
x89	EGF-EGFR*^2-GAP-Grb2-Sos-Ras-GDP-Prot	0.0	c2 (cytoplasm)	✘
x9	Proti	0.0	c2 (cytoplasm)	✘
x90	EGF-EGFR*^2-GAP-Grb2-Sos-Ras-GTP-Prot	0.0	c2 (cytoplasm)	✘
x91	EGF-EGFR^2-GAP-Shc-Grb2-Prot	0.0	c2 (cytoplasm)	✘
x92	EGF-EGFR^2-GAP-Shc-Grb2-Sos-Prot	0.0	c2 (cytoplasm)	✘
x93	EGF-EGFR^2-GAP-Shc-Grb2-Sos-Ras-GDP-Prot	0.0	c2 (cytoplasm)	✘
x94	EGF-EGFR^2-GAP-Shc-Grb2-Sos-Ras-GTP-Prot	0.0	c2 (cytoplasm)	✘

Initial assignments 0

Initial assignments are expressions that are evaluated at time=0. It is not recommended to create initial assignments for all model entities. Restrict the use of initial assignments to cases where a value is expressed in terms of values or sizes of other model entities. Note that it is not permitted to have both an initial assignment and an assignment rule for a single model entity.

Definition

Reactions 125

Id	Name	Reaction Equation and Kinetic Law
v1	v1	x1 + x2 = x3 k1 * x1 * x2 - kr1 * x3
v10	v10	x6 + x16 = x10 k10 * x6 * x16 - kr10 * x10
v100	v100	x60 + x81 = x85 k58 * x60 * x81 - kr58 * x85
v101	v101	x85 = x55 + x60 k59 * x85
v102	v102	x15 = x17 k6 * x15 - kr6 * x17
v103	v103	x32 = x63 k6 * x32 - kr6 * x63
v104	v104	x33 = x64 k6 * x33 - kr6 * x64
v105	v105	x25 = x19 k6 * x25 - kr6 * x19
v106	v106	x25 + x12 = x88 k4 * x25 * x12 - kr4 * x88
v107	v107	x88 = x9 + x19 k5 * x88
v108	v108	x27 = x20 k6 * x27 - kr6 * x20
v109	v109	x27 + x12 = x89 k4 * x27 * x12 - kr4 * x89
v11	v11	{2.0}x10 = x11 k2 * x10 * x10 - kr2 * x11
v110	v110	x89 = x9 + x20 k5 * x89
v111	v111	x29 = x21 k6 * x29 - kr6 * x21
v112	v112	x29 + x12 = x90 k4 * x29 * x12 - kr4 * x90
v113	v113	x90 = x9 + x21 k5 * x90
v114	v114	x34 = x65 k6 * x34 - kr6 * x65
v115	v115	x34 + x12 = x91 k4 * x34 * x12 - kr4 * x91
v116	v116	x91 = x9 + x65 k5 * x91
v117	v117	x35 = x66 k6 * x35 - kr6 * x66
v118	v118	x35 + x12 = x92 k4 * x35 * x12 - kr4 * x92
v119	v119	x92 = x9 + x66 k5 * x92
v12	v12	x11 = x8 k3 * x11 - kr3 * x8
v120	v120	x36 = x67 k6 * x36 - kr6 * x67
v121	v121	x36 + x12 = x93 k4 * x36 * x12 - kr4 * x93
v122	v122	x93 = x9 + x67 k5 * x93
v123	v123	x37 = x68 k6 * x37 - kr6 * x68
v124	v124	x37 + x12 = x94 k4 * x37 * x12 - kr4 * x94
v125	v125	x94 = x68 + x9 k5 * x94
v13	v13	∅ > x2 k13
v14	v14	x8 + x14 = x17 k14 * x8 * x14 - kr14 * x17
v15	v15	x9 > x12 k15 * x9
v16	v16	x22 + x15 = x23 k16 * x22 * x15 - kr16 * x23
v17	v17	x24 + x23 = x25 k17 * x24 * x23 - kr17 * x25
v18	v18	x26 + x25 = x27 k18 * x26 * x25 - kr18 * x27
v19	v19	x27 = x28 + x25 k19 * x27 - kr19 * x28 * x25
v2	v2	{2.0}x3 = x4 k2 * x3 * x3 - kr2 * x4
v20	v20	x25 + x43 = x29 k20 * x25 * x43 - kr20 * x29
v21	v21	x29 = x25 + x26 k21 * x29 - kr21 * x25 * x26
v22	v22	x31 + x15 = x32 k22 * x31 * x15 - kr22 * x32
v23	v23	x32 = x33 k23 * x32 - kr23 * x33
v24	v24	x22 + x33 = x34 k24 * x22 * x33 - kr24 * x34
v25	v25	x24 + x34 = x35 k25 * x24 * x34 - kr25 * x35
v26	v26	x26 + x35 = x36 k18 * x26 * x35 - kr18 * x36
v27	v27	x36 = x35 + x28 k19 * x36 - kr19 * x35 * x28
v28	v28	x28 + x41 = x42 k28 * x28 * x41 - kr28 * x42
v29	v29	x42 = x43 + x45 k29 * x42 - kr29 * x43 * x45
v3	v3	x4 = x5 k3 * x4 - kr3 * x5
v30	v30	x35 + x43 = x37 k20 * x35 * x43 - kr20 * x37
v31	v31	x37 = x35 + x26 k21 * x37 - kr21 * x35 * x26
v32	v32	x35 = x15 + x38 k32 * x35 - kr32 * x15 * x38
v33	v33	x38 = x40 + x30 k33 * x38 - kr33 * x40 * x30
v34	v34	x25 = x15 + x30 k34 * x25 - kr34 * x15 * x30
v35	v35	x30 = x24 + x22 k35 * x30 - kr35 * x24 * x22
v36	v36	x40 > x31 Vm36 * x40 / (Km36 + x40)
v37	v37	x33 = x15 + x40 k37 * x33 - kr37 * x15 * x40
v38	v38	x22 + x40 = x39 k24 * x22 * x40 - kr24 * x39
v39	v39	x34 = x15 + x39 k37 * x34 - kr37 * x15 * x39
v4	v4	x23 + x12 = x7 k4 * x23 * x12 - kr4 * x7
v40	v40	x24 + x39 = x38 k40 * x24 * x39 - kr40 * x38
v41	v41	x30 + x33 = x35 k41 * x30 * x33 - kr41 * x35
v42	v42	x44 + x45 = x46 k42 * x44 * x45 - kr42 * x46
v43	v43	x46 = x41 + x44 k43 * x46
v44	v44	x47 + x45 = x48 k44 * x47 * x45 - kr44 * x48
v45	v45	x48 = x49 + x45 k45 * x48
v46	v46	x49 + x45 = x50 k44 * x49 * x45 - kr44 * x50
v47	v47	x50 = x51 + x45 k47 * x50
v48	v48	x51 + x53 = x52 k48 * x51 * x53 - kr48 * x52
v49	v49	x52 = x49 + x53 k49 * x52
v5	v5	x7 = x18 + x9 k5 * x7
v50	v50	x53 + x49 = x54 k50 * x53 * x49 - kr50 * x54
v51	v51	x54 = x47 + x53 k49 * x54
v52	v52	x55 + x51 = x56 k52 * x55 * x51 - kr52 * x56
v53	v53	x56 = x51 + x57 k53 * x56
v54	v54	x51 + x57 = x58 k52 * x51 * x57 - kr52 * x58
v55	v55	x58 = x59 + x51 k55 * x58
v56	v56	x59 + x60 = x61 k56 * x59 * x60 - kr56 * x61
v57	v57	x61 = x57 + x60 k57 * x61
v58	v58	x60 + x57 = x62 k58 * x60 * x57 - kr58 * x62
v59	v59	x62 = x55 + x60 k59 * x62
v6	v6	x2 = x6 k6 * x2 - kr6 * x6
v60	v60	x6 > x86 k60 * x6
v61	v61	x16 > x13 k61 * x16
v62	v62	x8 > x87 k60 * x8
v63	v63	x17 + x22 = x18 k16 * x17 * x22 - kr16 * x18
v64	v64	x24 + x18 = x19 k17 * x24 * x18 - kr17 * x19
v65	v65	x26 + x19 = x20 k18 * x26 * x19 - kr18 * x20
v66	v66	x20 = x69 + x19 k19 * x20 - kr19 * x69 * x19
v67	v67	x71 + x19 = x21 k20 * x71 * x19 - kr20 * x21
v68	v68	x21 = x19 + x26 k21 * x21 - kr21 * x19 * x26
v69	v69	x31 + x17 = x63 k22 * x31 * x17 - kr22 * x63
v7	v7	x5 > x8 k7 * x5
v70	v70	x63 = x64 k23 * x63 - kr23 * x64
v71	v71	x22 + x64 = x65 k24 * x22 * x64 - kr24 * x65
v72	v72	x24 + x65 = x66 k25 * x24 * x65 - kr25 * x66
v73	v73	x26 + x66 = x67 k18 * x26 * x66 - kr18 * x67
v74	v74	x67 = x66 + x69 k19 * x67 - kr19 * x66 * x69
v75	v75	x69 + x41 = x70 k28 * x69 * x41 - kr28 * x70
v76	v76	x70 = x71 + x72 k29 * x70 - kr29 * x71 * x72
v77	v77	x71 + x66 = x68 k20 * x71 * x66 - kr20 * x68
v78	v78	x68 = x66 + x26 k21 * x68 - kr21 * x66 * x26
v79	v79	x66 = x17 + x38 k32 * x66 - kr32 * x17 * x38
v8	v8	x5 + x14 = x15 k8 * x5 * x14 - kr8 * x15
v80	v80	x19 = x17 + x30 k34 * x19 - kr34 * x17 * x30
v81	v81	x64 = x17 + x40 k37 * x64 - kr37 * x17 * x40
v82	v82	x65 = x17 + x39 k37 * x65 - kr37 * x17 * x39
v83	v83	x30 + x64 = x66 k41 * x30 * x64 - kr41 * x66
v84	v84	x44 + x72 = x73 k42 * x44 * x72 - kr42 * x73
v85	v85	x73 = x41 + x44 k43 * x73
v86	v86	x47 + x72 = x74 k44 * x47 * x72 - kr44 * x74
v87	v87	x74 = x75 + x72 k45 * x74
v88	v88	x72 + x75 = x76 k44 * x72 * x75 - kr44 * x76
v89	v89	x76 = x72 + x77 k47 * x76
v9	v9	x23 > x18 k7 * x23
v90	v90	x77 + x53 = x78 k48 * x77 * x53 - kr48 * x78
v91	v91	x78 = x75 + x53 k49 * x78
v92	v92	x53 + x75 = x79 k50 * x53 * x75 - kr50 * x79
v93	v93	x79 = x47 + x53 k49 * x79
v94	v94	x55 + x77 = x80 k52 * x55 * x77 - kr52 * x80
v95	v95	x80 = x81 + x77 k53 * x80
v96	v96	x77 + x81 = x82 k52 * x77 * x81 - kr52 * x82
v97	v97	x82 = x83 + x77 k55 * x82
v98	v98	x83 + x60 = x84 k56 * x83 * x60 - kr56 * x84
v99	v99	x84 = x81 + x60 k57 * x84

Parameters 0 90

Global parameters

Id	Value
C	0.0
Km36	771977800000000.0
RT	50000.0
Vm36	615.0325
k1	0.002372521
k10	3803.728
k11	0.000480156
k12	31.71871
k13	0.4545611
k14	0.0000006370566
k15	46468.78
k16	0.0004021305
k17	0.0003099213
k18	0.004463938
k19	349.772
k2	0.000480156
k20	0.0000517656
k21	0.4722901
k22	0.0001445554
k23	420.3359
k24	0.007178843
k25	0.0006871213
k28	0.000009826084
k29	931.1092
k3	31.71871
k32	14.19908
k33	10.96212
k34	0.2467995
k35	1.836058
k37	29.34687
k4	0.00003047285
k40	0.00007409959
k41	0.001522817
k42	0.009688174
k43	51.60945
k44	0.001406622
k45	6340.081
k47	1632.425
k48	0.0006874119
k49	10.73099
k5	0.0
k50	0.0005464454
k52	0.003826571
k53	62181.84
k55	1120.398
k56	0.004700229
k57	19.75184
k58	0.0001714511
k59	6.409354
k6	0.0004123214
k60	0.08693199
k61	0.006499143
k7	0.003011324
k8	0.0005174108
kr1	0.1146248
kr10	171.6947
kr11	0.5100538
kr12	2.220991
kr14	196.6479
kr16	0.4509308
kr17	2.524092
kr18	11.1361
kr19	0.00000584737
kr2	0.5100538
kr20	12.816
kr21	0.00001714441
kr22	0.6220457
kr23	17.39321
kr24	563.2135
kr25	1.218132
kr28	0.9683624
kr29	0.0001096614
kr3	2.220991
kr32	0.0000554527
kr33	0.00001788597
kr34	0.0001283286
kr35	0.0003866434
kr37	0.000005477036
kr4	0.1230832
kr40	2.748877
kr41	44.60169
kr42	1.870396
kr44	0.5985189
kr48	1489.015
kr50	9.954943
kr52	19.85279
kr56	1.229629
kr58	0.1138168
kr6	0.294324
kr8	0.9058936

Local parameters

Id	Value	Reaction

Rules 0 0 8

Assignment rules

Definition
k5 = piecewise(1.55, lt((RT / (kr1 / (k1 * x1) + 1.0)), 3100.0), 0.2, gt((RT / (kr1 / (k1 * x1) + 1.0)), 100000.0), (RT / (kr1 / (k1 * x1) + 1.0)) * -1.350000e-05 + 1.55)
C = RT / (kr1 / (k1 * x1) + 1.0)
EGF_EGFR_act = x5 + x7 + x15 + x23 + x25 + x27 + x29 + x32 + x33 + x34 + x35 + x36 + x37 + x88 + x89 + x90 + x91 + x92 + x93 + x94 + x8 + x11 + x17 + x18 + x19 + x20 + x21 + x63 + x64 + x65 + x66 + x67 + x68
SHC_P_t = x33 + x34 + x35 + x36 + x37 + x38 + x39 + x40 + x91 + x92 + x93 + x94 + x64 + x65 + x66 + x67 + x68
Raf_act = x45 + x46 + x48 + x50 + x72 + x73 + x74 + x76
ERK_PP = x59 + x83
MEK_PP = x51 + x77
Ras_GTP = x42 + x28 + x70 + x69

Rate rules

Definition

Algebraic rules

Definition

Function definitions 0

Definition

Events 0

Trigger	Assignments