Several approaches for determining an enzyme’s kinetic parameter Km (Michaelis constant) from progress curves have been developed in recent decades. In the present article, we compare different approaches on a set of experimental measurements of lactonase activity of paraoxonase 1 (PON1): (1) a differential-equation-based Michaelis–Menten (MM) reaction model in the program Dynafit; (2) an integrated MM rate equation, based on an approximation of the Lambert W function, in the program GraphPad Prism; (3) various techniques based on initial rates; and (4) the novel program “iFIT”, based on a method that removes data points outside the area of maximum curvature from the progress curve, before analysis with the integrated MM rate equation. We c...
There are several advantages to the use of progress curves to analyze the kinetic properties of enzy...
For some time now, there has been growing interest in pre-steady-state (PSS) kinetic parameters for ...
We describe a new data-processing method for the kinetic quantification of substrates of enzyme-cata...
Several approaches for determining an enzyme’s kinetic parameter K$_m$ (Michaelis constant) from pro...
Although paraoxonase-1 (PON1) activity has been demonstrated to be a reliable biomarker of various d...
The area where progress curve exhibits maximum curvature contains the most information about kinetic...
With computer-based data-fitting methods becoming a standard tool in biochemistry, progress curve an...
With computer-based data-fitting methods becoming a standard tool in biochemistry, progress curve an...
Most methods for studying the kinetic properties of an enzyme involve the determination of initial v...
Abstract In the chapters dealing with enzyme reactions, the authors of all Biochemistry textbooks an...
When the progress curve for an enzyme catalyzed reaction follows the integrated Michaelis-Menten equ...
The Michaelis–Menten equation is usually expressed in terms of kcat and Km values: v = kcat[S]/(Km +...
The statistical implications of the direct linear plot for enzyme kinetic data, described in the pre...
Progress curves of enzyme-catalysed reactions are described by equations of a type that precludes di...
A novel method of estimating enzyme kinetic parameters is presented using the Lambert ω function cou...
There are several advantages to the use of progress curves to analyze the kinetic properties of enzy...
For some time now, there has been growing interest in pre-steady-state (PSS) kinetic parameters for ...
We describe a new data-processing method for the kinetic quantification of substrates of enzyme-cata...
Several approaches for determining an enzyme’s kinetic parameter K$_m$ (Michaelis constant) from pro...
Although paraoxonase-1 (PON1) activity has been demonstrated to be a reliable biomarker of various d...
The area where progress curve exhibits maximum curvature contains the most information about kinetic...
With computer-based data-fitting methods becoming a standard tool in biochemistry, progress curve an...
With computer-based data-fitting methods becoming a standard tool in biochemistry, progress curve an...
Most methods for studying the kinetic properties of an enzyme involve the determination of initial v...
Abstract In the chapters dealing with enzyme reactions, the authors of all Biochemistry textbooks an...
When the progress curve for an enzyme catalyzed reaction follows the integrated Michaelis-Menten equ...
The Michaelis–Menten equation is usually expressed in terms of kcat and Km values: v = kcat[S]/(Km +...
The statistical implications of the direct linear plot for enzyme kinetic data, described in the pre...
Progress curves of enzyme-catalysed reactions are described by equations of a type that precludes di...
A novel method of estimating enzyme kinetic parameters is presented using the Lambert ω function cou...
There are several advantages to the use of progress curves to analyze the kinetic properties of enzy...
For some time now, there has been growing interest in pre-steady-state (PSS) kinetic parameters for ...
We describe a new data-processing method for the kinetic quantification of substrates of enzyme-cata...