93-99In this report, we have modelled a secondary active co-transporter (symport and antiport), based on the classical kinetics model. Michaelis-Menten model of enzyme kinetics for a single substrate, single intermediate enzyme catalyzed reaction was proposed more than a hundred years ago. However, no single model for the kinetics of co-transport of molecules across a membrane is available in the literature. We have made several simplifying assumptions and have followed the basic Michaelis-Menten approach. The results have been simulated using GNU Octave. The results will be useful in general kinetic simulations and modelling
An appreciable part of enzymes operating in vivo is associated with lipid membranes. The function of...
Epithelial membrane transporter kinetics portray an irrefutable role in solute transport in and out ...
No presente trabalho, nós desenvolvemos um modelo de mecânica estatística para a dinâmica do cotrans...
A model analysis of the process of carrier mediated membrane transport is presented, wherein the car...
With high-resolution structures available for many ion-coupled (secondary active) transporters, a ma...
AbstractThe purpose of this work is to contribute to the understanding of the fundamental kinetic pr...
Many in vivo enzymatic processes, such as those of the tissue factor pathway of blood coagulation, o...
Living cells must communicate with the external environment, exchanging information in terms of mole...
A mathematical model which describes the kinetic behaviour of enzyme- loaded liposomes containing a ...
A computational approach has been presented for modeling simultaneous diffusion and metabolism in bi...
A physical model is described for the simultaneous enzymatic bioconversion of a nonelectrolyte solut...
Abstract: The solution phase transport and direct electrode kinetics of electro-enzymes are describe...
Pure Michaelis-Menten enzymes have been studied (i.e., enzymes with a hyperbolic (S, V) behavior in ...
The specific consumption rate of substrate, as well as the associated specific growth rate, is an es...
In the previous chapters of this book, several types of membrane reactors have been introduced for s...
An appreciable part of enzymes operating in vivo is associated with lipid membranes. The function of...
Epithelial membrane transporter kinetics portray an irrefutable role in solute transport in and out ...
No presente trabalho, nós desenvolvemos um modelo de mecânica estatística para a dinâmica do cotrans...
A model analysis of the process of carrier mediated membrane transport is presented, wherein the car...
With high-resolution structures available for many ion-coupled (secondary active) transporters, a ma...
AbstractThe purpose of this work is to contribute to the understanding of the fundamental kinetic pr...
Many in vivo enzymatic processes, such as those of the tissue factor pathway of blood coagulation, o...
Living cells must communicate with the external environment, exchanging information in terms of mole...
A mathematical model which describes the kinetic behaviour of enzyme- loaded liposomes containing a ...
A computational approach has been presented for modeling simultaneous diffusion and metabolism in bi...
A physical model is described for the simultaneous enzymatic bioconversion of a nonelectrolyte solut...
Abstract: The solution phase transport and direct electrode kinetics of electro-enzymes are describe...
Pure Michaelis-Menten enzymes have been studied (i.e., enzymes with a hyperbolic (S, V) behavior in ...
The specific consumption rate of substrate, as well as the associated specific growth rate, is an es...
In the previous chapters of this book, several types of membrane reactors have been introduced for s...
An appreciable part of enzymes operating in vivo is associated with lipid membranes. The function of...
Epithelial membrane transporter kinetics portray an irrefutable role in solute transport in and out ...
No presente trabalho, nós desenvolvemos um modelo de mecânica estatística para a dinâmica do cotrans...