Catalytic rate constant at low substrate concentration
Catalytic rate constant from Michaelis–Menten kinetics equation
Catalytic rate constant if dissociation rate constant is given
Catalytic rate constant if Michaelis constant is given
Catalytic rate constant if reverse and forward rate constant is given
Catalytic rate constant if substrate concentration is higher than Michaelis constant
Concentration of enzyme catalyst by enzyme conservation law
Concentration of enzyme catalyst in presence of inhibitor by enzyme conservation law
Concentration of enzyme-inhibitor complex by enzyme conservation law
Concentration of enzyme-substrate complex from enzyme conservation law
Concentration of enzyme-substrate complex in presence of inhibitor by enzyme conservation law
Dissociation rate constant from Michaelis–Menten kinetics equation
Dissociation rate constant if catalytic rate constant is given
Dissociation rate constant if concentration of enzyme and substrate are given
Dissociation rate constant in an enzymatic reaction mechanism
Enzyme catalyst concentration if forward, reverse, and catalytic rate constants are given
Enzyme concentration from Michaelis–Menten kinetics equation
Enzyme-substrate complex concentration if dissociation rate constant is given
Enzyme-substrate complex concentration if rate constant and initial rate is given
Enzyme-substrate complex Concentration in instantaneous chemical equilibrium
Forward rate constant if dissociation rate constant is given
Forward rate constant if Michaelis constant is given
Forward rate constant if reverse and catalytic rate constants are given
Forward rate constant in an enzymatic reaction mechanism
Inhibitor concentration if apparent initial enzyme concentration is given
Inhibitor concentration if apparent Michaelis–Menten constant is given
Inhibitor concentration if Enzyme substrate modifying factor is given
Inhibitor concentration if modifying factor of enzyme is given
Inhibitor concentration if modifying factor of enzyme-substrate complex is given
Inhibitor's dissociation constant if Michaelis–Menten constant is given
Initial concentration of enzyme from enzyme conservation law
Initial concentration of enzyme in presence of inhibitor by enzyme conservation law
Initial enzyme concentration if substrate concentration is higher than Michaelis constant
Initial enzyme concentration at low substrate concentration
Initial enzyme concentration if catalytic rate constant and dissociation rate constants are given
Initial enzyme concentration if dissociation rate constant is given
Initial enzyme concentration if rate constant and maximum rate is given
Initial enzyme concentration in an enzymatic reaction mechanism
Initial rate if the apparent value of the Michaelis–Menten constant is given
Initial rate of the system if rate constant and enzyme-substrate complex concentration is given
Initial reaction rate at low substrate concentration
Initial reaction rate at low substrate concentration in terms of maximum rate
Initial reaction rate if catalytic rate constant and dissociation rate constants are given
Initial reaction rate if catalytic rate constant and initial enzyme concentration is given
Initial reaction rate if dissociation rate constant is given
Initial reaction rate in Michaelis–Menten kinetics equation
Initial reaction rate of enzyme if modifying factor is given in Michaelis–Menten equation
Maximum rate if dissociation rate constant is given
Maximum rate if modifying factor is given in Michaelis–Menten equation
Maximum rate if rate constant and initial enzyme concentration is given
Maximum rate if substrate concentration is higher than Michaelis constant
Maximum rate if the apparent value of the Michaelis–Menten constant is given
Maximum rate of the system at low substrate concentration
Maximum rate of the system from Michaelis–Menten kinetics equation
Michaelis constant at low substrate concentration
Michaelis constant from Michaelis–Menten kinetics equation
Michaelis constant if catalytic rate constant and initial enzyme concentration is given
Michaelis constant if forward, reverse, and catalytic rate constants are given
Michaelis constant if maximum rate is given at low substrate concentration
Michaelis constant if modifying factor is given in Michaelis–Menten equation
Michaelis–Menten constant if apparent Michaelis–Menten constant is given
Modifying factor of enzyme in Michaelis–Menten equation
Modifying factor of the enzyme-substrate complex
Modifying factor of the enzyme-substrate complex in Michaelis–Menten equation
Rate constant if initial rate and enzyme-substrate complex concentration is given
Rate constant if maximum rate and initial enzyme concentration is given
Reverse rate constant if dissociation rate constant is given
Reverse rate constant if forward and catalytic rate constants are given
Reverse rate constant if Michaelis constant is given
Reverse rate constant in an enzymatic reaction mechanism
Substrate concentration from Michaelis–Menten kinetics equation
Substrate concentration if catalytic rate constant and dissociation rate constants are given
Substrate concentration if catalytic rate constant and initial enzyme concentration is given
Substrate concentration if dissociation rate constant is given
Substrate concentration if forward, reverse, and catalytic rate constants are given
Substrate concentration if maximum rate and dissociation rate constant is given
Substrate concentration if maximum rate is given at low concentration
Substrate concentration if Michaelis constant is very large than substrate concentration
Substrate concentration in an enzymatic reaction mechanism