A mathematical model which describes the kinetic behaviour of enzyme- loaded liposomes containing a substrate transporter in the lipid bilayer is presented. The model accounts for the facilitated diffusion across the membrane and the chemical reaction in the aqueous core. Both steady-state and transient kinetics are analysed. The model allows to quantify the influence of transport phenomena on the catalytic properties of the microencapsulated enzyme and provides some directions for the design of an artificial vesicle in which a selective substrate carrier has been included
A new quantitative model is developed which describes the kinetics and mechanism of transport of a w...
Facilitated transport membranes are particularly promising in different separations, as they are pot...
A simplified mathematical model is presented to describe the kinetic behaviour of lipid vesicles des...
A model analysis of the process of carrier mediated membrane transport is presented, wherein the car...
Liposomes can be used to entrap the enzymes and to obtain a catalytic complex useful for biotechnolo...
The urea-urease system is a pH dependent enzymatic reaction that was proposed as a convenient model ...
An appreciable part of enzymes operating in vivo is associated with lipid membranes. The function of...
Transport phenomena occurring in biological membrane systems are not only correlated with difference...
The urease-catalyzed hydrolysis of urea can display feedback driven by base production (NH 3 ) resul...
93-99In this report, we have modelled a secondary active co-transporter (symport and antiport), bas...
Carrier-mediated transport in membranes as a globally nonreactive process is distinguished from film...
Facilitated transport is a process whereby the diffusion of a solute across a membrane is chemically...
AbstractA theoretical analysis of the lipid translocation in cellular bilayer membranes is presented...
Many in vivo enzymatic processes, such as those of the tissue factor pathway of blood coagulation, o...
AbstractAn analytical solution is obtained for the steady-state reaction rate of an intracellular en...
A new quantitative model is developed which describes the kinetics and mechanism of transport of a w...
Facilitated transport membranes are particularly promising in different separations, as they are pot...
A simplified mathematical model is presented to describe the kinetic behaviour of lipid vesicles des...
A model analysis of the process of carrier mediated membrane transport is presented, wherein the car...
Liposomes can be used to entrap the enzymes and to obtain a catalytic complex useful for biotechnolo...
The urea-urease system is a pH dependent enzymatic reaction that was proposed as a convenient model ...
An appreciable part of enzymes operating in vivo is associated with lipid membranes. The function of...
Transport phenomena occurring in biological membrane systems are not only correlated with difference...
The urease-catalyzed hydrolysis of urea can display feedback driven by base production (NH 3 ) resul...
93-99In this report, we have modelled a secondary active co-transporter (symport and antiport), bas...
Carrier-mediated transport in membranes as a globally nonreactive process is distinguished from film...
Facilitated transport is a process whereby the diffusion of a solute across a membrane is chemically...
AbstractA theoretical analysis of the lipid translocation in cellular bilayer membranes is presented...
Many in vivo enzymatic processes, such as those of the tissue factor pathway of blood coagulation, o...
AbstractAn analytical solution is obtained for the steady-state reaction rate of an intracellular en...
A new quantitative model is developed which describes the kinetics and mechanism of transport of a w...
Facilitated transport membranes are particularly promising in different separations, as they are pot...
A simplified mathematical model is presented to describe the kinetic behaviour of lipid vesicles des...