Add to ORKG<p>Destabilization of UHT milk during its shelf life is mainly promoted by the residual proteolytic activity attributed to the psychrotrophic bacterial proteases and native milk proteases. In this study, we built skim UHT milk-based model systems to which either the major bacterial protease (AprX from Pseudomonas fluorescens), or the major native milk protease (plasmin) was added, to allow a direct comparison between the destabilization of skim UHT milk by both categories of enzymes. The physical and chemical properties were studied during 6 weeks. Our results showed AprX induced compact gels when almost all the κ-casein was hydrolyzed and the degree of hydrolysis (DH) exceeded 1.3%. Plasmin induced soft gels when around 60% of both β- and ...
This study aimed to investigate the effect of different activity levels of a thermoresistant proteas...
During growth in raw milk, many psychrotrophic bacteria produce proteases that can retain activity f...
During growth in raw milk, many psychrotrophic bacteria produce proteases that can retain activity f...
Destabilization of UHT milk during its shelf life is mainly promoted by the residual proteolytic act...
Destabilizations of casein micelles can be observed after modifications of physico-chemical conditio...
Destabilisation of ultra high temperature (UHT) treated milk has been linked to residual proteolytic...
Fat separation is a limiting factor for the shelf life of UHT milk. It may be promoted by the proteo...
Casein micelle is a colloidal structure containing different casein molecules and calcium phosphate....
UHT milk made from milk contaminated by Pseudomonas LBSA1 destabilised during storage. Sedimentation...
The demand for ultra-high-temperature (UHT) processed milk is increasing worldwide. Meanwhile, the p...
Proteolysis of UHT milk during storage at room temperature is a major factor limiting its shelf-life...
Abstract Background ...
Among the incriminating factors in the destabilisation of ultra-hightemperature (UHT) milk during st...
Proteolysis of UHT milk during storage at room temperature is a major factor limiting its shelf-life...
The negative effects of proteases produced by psychrotrophic bacteria on dairy products, especially ...
This study aimed to investigate the effect of different activity levels of a thermoresistant proteas...
During growth in raw milk, many psychrotrophic bacteria produce proteases that can retain activity f...
During growth in raw milk, many psychrotrophic bacteria produce proteases that can retain activity f...
Destabilization of UHT milk during its shelf life is mainly promoted by the residual proteolytic act...
Destabilizations of casein micelles can be observed after modifications of physico-chemical conditio...
Destabilisation of ultra high temperature (UHT) treated milk has been linked to residual proteolytic...
Fat separation is a limiting factor for the shelf life of UHT milk. It may be promoted by the proteo...
Casein micelle is a colloidal structure containing different casein molecules and calcium phosphate....
UHT milk made from milk contaminated by Pseudomonas LBSA1 destabilised during storage. Sedimentation...
The demand for ultra-high-temperature (UHT) processed milk is increasing worldwide. Meanwhile, the p...
Proteolysis of UHT milk during storage at room temperature is a major factor limiting its shelf-life...
Abstract Background ...
Among the incriminating factors in the destabilisation of ultra-hightemperature (UHT) milk during st...
Proteolysis of UHT milk during storage at room temperature is a major factor limiting its shelf-life...
The negative effects of proteases produced by psychrotrophic bacteria on dairy products, especially ...
This study aimed to investigate the effect of different activity levels of a thermoresistant proteas...
During growth in raw milk, many psychrotrophic bacteria produce proteases that can retain activity f...
During growth in raw milk, many psychrotrophic bacteria produce proteases that can retain activity f...