The model contains one compartment called "compartment". There are four species named S1, S2, S3 and S and three parameters named k1, k2 and k3. The model contains two reactions defined as:
Reaction | Rate |
S1 + S2 → S3 | k1 · S1 · S2 · compartment |
S3 → S1 + S2 | k2 · S3 · compartment |
The model contains one rule:
Type | Variable | Formula |
Assignment | S4 | 3 · S2 |
Note that in this case the initial value of species S4 has not been declared and must be calculated using the assignmentRule.
The initial conditions are as follows:
Value | Units | |
Initial amount of S1 | 1 × 10−5 |mole | |Initial amount of S2 | 1.5 \x 10-5 |mole | |Initial amount of S3 | 1 \x 10-5 |mole | |Initial amount of S4 | undeclared |mole | |Value of parameter k1 | 1.5 \x 10^5 |litre mole−1^ second−1^ | |Value of parameter k2 | 50 |second−1^ | |Value of parameter k3 | 1.5 |dimensionless | |Volume of compartment "compartment" | 1$ | litre |
The species values are given as amounts of substance to make it easier to use the model in a discrete stochastic simulator, but (as per usual SBML principles) their symbols represent their values in concentration units where they appear in expressions.