This method for producing fermented milk comprises: a starter inoculation step for inoculating a raw material milk with a starter to obtain a fermented milk base material; a fermentation step for fermenting the fermented milk base material to obtain a fermented milk; and a lactic acid bacteria addition step for adding lactic acid bacteria to the fermented milk.

The present invention relates to compositions for use and formulation as weight management products and in particular fermented dairy foodstuffs. The compositions generally comprise two or more of the following components: a) a microbiome modifying component; b) a satiety modifying component; and c) a metabolic modifying component and at least one of the following: d) Streptococcus thermophilus CBS 139100 and Lactobacillus delbrueckii subsp. bulgaricus CBS 139099 microbial strains or mutant strains or fragments or fractions thereof; e) a combination of Streptococcus thermophilus and Lactobacillus delbrueckii subsp. bulgaricus microbial strains which together, or individually, are capable of secreting polysaccharides having high levels of galactosamine and no or low levels of rhamnose and glucuronic acid when grown on a dairy substrate; or f) polysaccharides formed of: i) 15-25% galactosamine; ii) 45-60% galactose; and iii) 20-30% glucose. The compositions may also be useful in the management or treatment of obesity, elevated cholesterol, diabetes, hypertension or heart disease.

The present invention provides methods of producing a fermented milk product comprising a step wherein milk is fermented, wherein: (a) the fermentation is initiated by a starter culture, which starter culture comprises lactic acid bacteria capable of metabolizing one or several carbohydrates present in the milk, (b) the fermentation is terminated by a decrease of the concentration of the one or several carbohydrates during fermentation, and (c) the decrease is at least also caused by the metabolic activity of the lactic acid bacteria. The invention further provides respective methods comprising a step, wherein at least part of the whey is separated from the fermented milk product.

The invention relates to a dry compositions for lactic acid bacteria and in particular to a dry composition comprising from 10.sup.9 to 10.sup.13 cfu/g of the composition of lactic acid bacteria cells, wherein the composition is characterized by that it also comprises following amounts of protective agents (all amounts of protective agents below are given relative to 1 g of lactic acid bacteria cells in the composition): from 6 to 9 g of trehalose, from 0.1 to 1 g of inulin and from 0.5 to 3 g of hydrolyzed casein, and by that it does not comprise a salt of alginic acid. The composition has an improved storage stability of the cell of interest. Comparison experiments have been made between compositions with and without alginate and it has been found that there is substantially no difference between compositions with or without alginate with regard to stability. Further, the invention relates to a method for preparing a dry lactic acid bacteria composition.

The invention relates to the use of a Streptococcus thermophilus strain with a deficiency in glucose metabolism for improving growth of a Lactobacillus strain in a process for producing a fermented milk product.

A novel co-fermented food product formed from oats and dairy is described herein. The co-fermented food product includes a grain ingredient, a dairy ingredient, and a bacterial culture. The novel co-fermented food product includes a set of metabolites derived from the co-fermentation of the oat ingredient and the dairy ingredient by the bacterial culture.

Processes for producing a nutritional supplement that contains sulforaphane, and supplements formed thereby. Such a process includes combining a cruciferous vegetable, for example, broccoli sprouts, with strains of Bifidobacterium, Lactobacillus, and Streptococcus to form a mixture, causing the mixture to undergo lactic acid fermentation, transform a glucosinolate within the cruciferous vegetable to sulforaphane, and yield a fermented mixture that contains sulforaphane, and then producing from the fermented mixture a supplement that can be ingested by an individual.

The present invention relates to a Streptococcus thermophilus strain, wherein the strain is galactose-fermenting, wherein the strain carries a mutation in the DNA sequence of the glcK gene encoding a glucokinase protein, wherein the mutation inactivates the glucokinase protein or has a negative effect on expression of the gene, and wherein the strain carries a mutation in the promoter region of the GalK gene encoding a galactokinase protein.

The present invention relates to mutants of lactic acid bacteria which are resistant to the antibiotic ampicillin and which were found to give an increased texture when grown in milk while maintaining the other growth properties of the parent strain. The present invention, furthermore, relates to compositions comprising such mutants, and to dairy products fermented with the lactic acid bacteria resistant to ampicillin.

Provided is a method for manufacturing a fermented milk product, including sequentially performing a first step of mixing raw material milk and lactic acid bacteria to obtain a mixed liquid, and a second step of fermenting the mixed liquid, characterized by performing a step of adding a Paenibacillus-derived protease to the raw material milk and/or the mixed liquid (protease addition step) before the second step is completed. According to this manufacturing method, the hardness of the fermented milk product can be adjusted to a desired value while original smoothness of the fermented milk product is maintained.