Add to ORKGEnzymes are often dried for stability reasons and to facilitate handling. However, they are often susceptible to inactivation during drying. It is generally known that temperature and moisturecontent influence the enzymeinactivation kinetics. However, the coupledeffect of both variables on enzymeinactivation over a broad temperature–moisturecontent range is still not well understood. Therefore, the inactivation of ß-galactosidase in maltodextrin matrix is investigated using a newly developed method. An improved kinetic modelling approach is introduced, to predict the inactivation over a large range of temperature–moisture values. The model assumes a two-step inactivation mechanism involving reversible unfolding and irreversible inactivation...
Heat induced enzyme inactivation or protein denaturation is now well documented, due to progresses i...
The stability of ß-galactosidase entrapped in Ca-alginate–K-k-carrageenan gels under operation condi...
Thermal inactivation of a keratinase produced by Purpureocillium lilacinum LPSC #876 was kinetically...
Enzymes are often dried for stability reasons and to facilitate handling. However, they are often su...
ABSTRACT For optimization of biochemical processes in food and pharmaceutical industries, the evalua...
A comprehensive experimental study of the drying of enzymes (E) and gin seng (GS) biomaterials provi...
In this study, β-galactosidase was utilized as a model enzyme to investigate the mechanism of enzyme...
<p>The kinetics of heat inactivation of the extracellular proteinase from <em>Pseudomona...
The kinetics of heat inactivation of the extracellular proteinase from Pseudomonas fluorescens 22F w...
Enzymes typically have a critical instability, which dominates both formulation and process developm...
In the production of solid enzyme products, the granules are dried in a fluidised bed dryer prior to...
An approximate model was developed for nonlinear diffusion with a power-function variation of the di...
When kept in aqueous solution at ambient temperature many proteins undergo denaturation over a rela...
The thermal inactivation kinetics of freeze-dried á-amylase in a solid matrix was studied at water c...
The broad objective of this study was to gain a better understanding of the effects of formulation a...
Heat induced enzyme inactivation or protein denaturation is now well documented, due to progresses i...
The stability of ß-galactosidase entrapped in Ca-alginate–K-k-carrageenan gels under operation condi...
Thermal inactivation of a keratinase produced by Purpureocillium lilacinum LPSC #876 was kinetically...
Enzymes are often dried for stability reasons and to facilitate handling. However, they are often su...
ABSTRACT For optimization of biochemical processes in food and pharmaceutical industries, the evalua...
A comprehensive experimental study of the drying of enzymes (E) and gin seng (GS) biomaterials provi...
In this study, β-galactosidase was utilized as a model enzyme to investigate the mechanism of enzyme...
<p>The kinetics of heat inactivation of the extracellular proteinase from <em>Pseudomona...
The kinetics of heat inactivation of the extracellular proteinase from Pseudomonas fluorescens 22F w...
Enzymes typically have a critical instability, which dominates both formulation and process developm...
In the production of solid enzyme products, the granules are dried in a fluidised bed dryer prior to...
An approximate model was developed for nonlinear diffusion with a power-function variation of the di...
When kept in aqueous solution at ambient temperature many proteins undergo denaturation over a rela...
The thermal inactivation kinetics of freeze-dried á-amylase in a solid matrix was studied at water c...
The broad objective of this study was to gain a better understanding of the effects of formulation a...
Heat induced enzyme inactivation or protein denaturation is now well documented, due to progresses i...
The stability of ß-galactosidase entrapped in Ca-alginate–K-k-carrageenan gels under operation condi...
Thermal inactivation of a keratinase produced by Purpureocillium lilacinum LPSC #876 was kinetically...