Liposomes can be used to entrap the enzymes and to obtain a catalytic complex useful for biotechnological and biomedical applications. Activity and properties of this complex depend on the properties of the enzyme itself and of the liposomial structure; therefore a deep knowledge of enzyme and lipid bilayer biophysics can allow us to design the liposome formulation rationally. In this review, we first report about the main physico-chemical properties of liposomes, then we show how these properties affect the kinetics of the processes catalyzed by enzyme loaded liposomes; finally, we review some interesting application of such a system
Trabajo presentado en el World Biotechnology Congress, celebrado en Boston (Estados Unidos) del 3 al...
This review attempts to provide an updated compilation of studies reported in the literature pertain...
Effective drug delivery requires the precise spatial and temporal delivery of therapeutic agents to ...
A mathematical model which describes the kinetic behaviour of enzyme- loaded liposomes containing a ...
Contact: villeneuve@cirad.frInternational audienceLipases (triacylglycerol ester hydrolases, EC 3.1....
Abstract Background We investigated the encapsulation mechanism of enzymes into liposomes. The exist...
To firmly immobilize enzyme on carrier surface without covalent attachment as well as improve enzyme...
This review attempts to provide an updated compilation of studies reported in the literature pertain...
Microbial lipases are highly appreciated as biocatalysts due to their peculiar characteristics such ...
AbstractMicrocompartmentalization is a crucial step in the origin of life. More than 30 years ago, O...
Encapsulation of active proteins in the hydrophilic core of vesicular liposomes is important for dev...
Liposomes are hollow particles which content is limited to a lipid membrane. They belong to a large ...
Studying the interactions between lipid membranes and various bioactive molecules (e.g., polyphenols...
Liposomes (lipid vesicles) with sizes of about 100-200nmcarrying surface-bound (immobilized) water-s...
Studying the interactions between lipid membranes and various bioactive molecules (e.g., polyphenols...
Trabajo presentado en el World Biotechnology Congress, celebrado en Boston (Estados Unidos) del 3 al...
This review attempts to provide an updated compilation of studies reported in the literature pertain...
Effective drug delivery requires the precise spatial and temporal delivery of therapeutic agents to ...
A mathematical model which describes the kinetic behaviour of enzyme- loaded liposomes containing a ...
Contact: villeneuve@cirad.frInternational audienceLipases (triacylglycerol ester hydrolases, EC 3.1....
Abstract Background We investigated the encapsulation mechanism of enzymes into liposomes. The exist...
To firmly immobilize enzyme on carrier surface without covalent attachment as well as improve enzyme...
This review attempts to provide an updated compilation of studies reported in the literature pertain...
Microbial lipases are highly appreciated as biocatalysts due to their peculiar characteristics such ...
AbstractMicrocompartmentalization is a crucial step in the origin of life. More than 30 years ago, O...
Encapsulation of active proteins in the hydrophilic core of vesicular liposomes is important for dev...
Liposomes are hollow particles which content is limited to a lipid membrane. They belong to a large ...
Studying the interactions between lipid membranes and various bioactive molecules (e.g., polyphenols...
Liposomes (lipid vesicles) with sizes of about 100-200nmcarrying surface-bound (immobilized) water-s...
Studying the interactions between lipid membranes and various bioactive molecules (e.g., polyphenols...
Trabajo presentado en el World Biotechnology Congress, celebrado en Boston (Estados Unidos) del 3 al...
This review attempts to provide an updated compilation of studies reported in the literature pertain...
Effective drug delivery requires the precise spatial and temporal delivery of therapeutic agents to ...