Add to ORKGNon-starter lactic acid bacteria enter cheese as contaminants and influence cheese flavor development in a positive, neutral or negative manner. However, the diversity of these microbial contaminants, the substrates from which they derived energy, and the metabolic pathways they use to grow and influence cheese flavor development remain poorly characterised. This manuscript describes research that examines the genetic diversity of Lactobacillus casei isolates from different ecological niches, as well as the substrates and metabolic pathways that support the growth of non-starter lactic acid bacteria in ripening cheddar cheese
Lactobacillus plantarum and subspecies of Lactobacillus casei were isolated from good quality mature...
In long-ripened cheese, flavor formation occurs during ripening. The metabolism of lactic acid bacte...
End of Project ReportCheddar cheese is a complex microbial ecosystem. The internal cheese environme...
Cheese flavor development is directly connected to the metabolic activity of microorganisms used dur...
The non-starter microbiota of Cheddar cheese mostly comprises mesophilic lactobacilli, such as Lacto...
The non-starter microbiota of Cheddar cheese mostly comprises mesophilic lactobacilli, such as Lacto...
The non-starter microbiota of Cheddar cheese mostly comprises mesophilic lactobacilli, such as Lacto...
Cheese traits can be seen in the context of metabolic activity of lactic acid bacteria (LAB) and the...
Flavor development in bacterial-ripened cheese requires metabolism of milk components by lactic acid...
Abstract Cheese fermentation and flavour formation are the result of complex biochemical reactions d...
Flavor development in low-fat Cheddar cheese is typified by delayed or muted evolution of desirable ...
Autochthonous lactic acid bacteria (LAB) play a key role in the development of cheese flavor. As the...
Dairy farm management practices can modify milk microbiota and therefore modulate non-starter lactic...
This study investigated population dynamics of starter, adjunct, and nonstarter lactic acid bacteria...
The distinctive flavours in hard cheeses are attributed largely to the activity of nonstarter lactic...
Lactobacillus plantarum and subspecies of Lactobacillus casei were isolated from good quality mature...
In long-ripened cheese, flavor formation occurs during ripening. The metabolism of lactic acid bacte...
End of Project ReportCheddar cheese is a complex microbial ecosystem. The internal cheese environme...
Cheese flavor development is directly connected to the metabolic activity of microorganisms used dur...
The non-starter microbiota of Cheddar cheese mostly comprises mesophilic lactobacilli, such as Lacto...
The non-starter microbiota of Cheddar cheese mostly comprises mesophilic lactobacilli, such as Lacto...
The non-starter microbiota of Cheddar cheese mostly comprises mesophilic lactobacilli, such as Lacto...
Cheese traits can be seen in the context of metabolic activity of lactic acid bacteria (LAB) and the...
Flavor development in bacterial-ripened cheese requires metabolism of milk components by lactic acid...
Abstract Cheese fermentation and flavour formation are the result of complex biochemical reactions d...
Flavor development in low-fat Cheddar cheese is typified by delayed or muted evolution of desirable ...
Autochthonous lactic acid bacteria (LAB) play a key role in the development of cheese flavor. As the...
Dairy farm management practices can modify milk microbiota and therefore modulate non-starter lactic...
This study investigated population dynamics of starter, adjunct, and nonstarter lactic acid bacteria...
The distinctive flavours in hard cheeses are attributed largely to the activity of nonstarter lactic...
Lactobacillus plantarum and subspecies of Lactobacillus casei were isolated from good quality mature...
In long-ripened cheese, flavor formation occurs during ripening. The metabolism of lactic acid bacte...
End of Project ReportCheddar cheese is a complex microbial ecosystem. The internal cheese environme...