Abstract Background We investigated the encapsulation mechanism of enzymes into liposomes. The existing protocols to achieve high encapsulation efficiencies are basically optimized for chemically stable molecules. Enzymes, however, are fragile and encapsulation requires in addition the preservation of their functionality. Using acetylcholinesterase as a model, we found that most protocols lead to a rapid denaturation of the enzyme with loss in the functionality and therefore inappropriate for such an application. The most appropriate method is based on lipid film hydration but had a very low efficiency. Results To improve it and to propose a standard procedure for enzyme encapsulation, we separate each step and we studied the effect of each...
Liposomes can be used to entrap the enzymes and to obtain a catalytic complex useful for biotechnolo...
Enzymes are protein catalysts that have many useful functions in industrial and technological applic...
The immobilization of biomacromolecules such as proteins, enzymes and DNA in various inert matrices ...
Encapsulation of active proteins in the hydrophilic core of vesicular liposomes is important for dev...
This research highlights the capacity of a newly introduced centrifugation process to form liposomes...
In recent years, there has been an upsurge of interest in enzyme treatment of textile fibres. Enzy...
To firmly immobilize enzyme on carrier surface without covalent attachment as well as improve enzyme...
Enzymes are always considered as great gifts from nature since they are holding brilliant properties...
Uses of enzymes for therapeutic purpose or for biosensing require a well-controlled nanoenvironnemen...
Includes bibliographical references.The purpose is to design and evaluate the liposomal formulations...
Recent achievements of membrane protein science allow easy protein modification by genetic engineeri...
Recently a new supercritical assisted process was proposed in the literature for the production of l...
Water molecules play a number of critical roles in enzyme catalysis, including mass transfer of subs...
Protein cages are hollow protein shells with a nanometric cavity that can be filled with useful mate...
Encapsulating biological materials in lipid vesicles is of interest for mimicking cells; however, ex...
Liposomes can be used to entrap the enzymes and to obtain a catalytic complex useful for biotechnolo...
Enzymes are protein catalysts that have many useful functions in industrial and technological applic...
The immobilization of biomacromolecules such as proteins, enzymes and DNA in various inert matrices ...
Encapsulation of active proteins in the hydrophilic core of vesicular liposomes is important for dev...
This research highlights the capacity of a newly introduced centrifugation process to form liposomes...
In recent years, there has been an upsurge of interest in enzyme treatment of textile fibres. Enzy...
To firmly immobilize enzyme on carrier surface without covalent attachment as well as improve enzyme...
Enzymes are always considered as great gifts from nature since they are holding brilliant properties...
Uses of enzymes for therapeutic purpose or for biosensing require a well-controlled nanoenvironnemen...
Includes bibliographical references.The purpose is to design and evaluate the liposomal formulations...
Recent achievements of membrane protein science allow easy protein modification by genetic engineeri...
Recently a new supercritical assisted process was proposed in the literature for the production of l...
Water molecules play a number of critical roles in enzyme catalysis, including mass transfer of subs...
Protein cages are hollow protein shells with a nanometric cavity that can be filled with useful mate...
Encapsulating biological materials in lipid vesicles is of interest for mimicking cells; however, ex...
Liposomes can be used to entrap the enzymes and to obtain a catalytic complex useful for biotechnolo...
Enzymes are protein catalysts that have many useful functions in industrial and technological applic...
The immobilization of biomacromolecules such as proteins, enzymes and DNA in various inert matrices ...