The present invention describes a method for producing a set-type yogurt snack, said method comprising allowing said yogurt snack to set in a mold or block and wherein said yogurt snack comprises at least 12% (w/w) protein and at least 35% (w/w) total solids.

Disclosed is a composition for promoting absorption of a poorly water-soluble phytochemical which can significantly improve the intake of a phytochemical into a body, especially a migration speed and/or a migration amount of the phytochemical into a blood. A polysaccharide-containing lactic acid bacterial product, which is produced by Lactobacillus delbrueckii ssp. bulgaricus OLL1251, can significantly enhance the intake of a phytochemical into a body, especially a migration speed and/or a migration amount of the phytochemical into a blood. Thus, the composition for promoting absorption of a phytochemical according to the present invention includes, as an active ingredient, the polysaccharide-containing lactic acid bacterial product. Furthermore, the composition for promoting absorption of a phytochemical is useful as a food additive composition. In addition, a food, or a beverage, or a food or beverage composition to which the composition for promoting absorption of a phytochemical is added can obtain an effect of promoting absorption of phytochemical.

The present invention relates to a lactic acid bacterium, in particular a strain of the Streptococcus genus, with reduced sensitivity to cos-type bacteriophages. The invention also relates to methods to engineer these lactic acid bacteria as well as their use to ferment milk.

The present invention is directed to a method of producing a Streptococcus thermophilus strain comprising the steps of a) Providing a mother strain in the form of Streptococcus thermophilus DSM32502, b) Growing a culture of the mother strain in the presence of a bacteriophage, to which the mother strain is not resistant, to obtain a number of mutant strains, which are resistant to the said bacteriophage, c) Measuring the acidification time of the bacteriophage-resistant mutant strains and the mother strain in a milk base and selecting at least one mutant strain with a reduced acidification time as compared to the mother strain to obtain a fast-acidifying mutant strain.

The invention relates to a lactose-positive, galactose-negative, Streptococcus thermophilus strain carrying a mutation in 2 or 3 genes selected from the group consisting of 1) a gene encoding a protein of the mannose-glucose-specific PTS and a glcK gene, 2) a gene encoding a protein of the mannose-glucose-specific PTS and a ccpA gene, and 3) a gene encoding a protein of the mannose-glucose-specific PTS, a glcK gene and a ccpA gene, wherein said strain, when used to ferment milk, provides a low lactose fermented milk and/or a fermented milk not undergoing acidification when stored at fermentation temperature.

The application is directed to a method to manufacture pasta-filata cheese based on cultures comprising or consisting of either 1) at least a galactose-positive Streptococcus thermophilus strain as defined herein or 2) at least a Streptococcus thermophilus strain and a Lactococcus lactis strain, and to a stretched curd or cheese produced by this method. The application is also directed to a culture or kit-of-part comprising or consisting of a) a galactose-positive Streptococcus thermophilus strain as defined herein, and b) Lactococcus strain(s) and/or Lactobacillus helveticus strain(s).

The present invention relates to novel S. thermophillus strains that are not attacked by common phagesand novel Streptococcus strains with improved stability against phage attacks, methods to obtain Streptococcus strains with improved phage resistance, their use in the manufacture of fermented milk-based products, and novel milk based products containing the strain.

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.

The present invention relates to novel strains of Streptococcus thermophilus, compositions comprising said strains and to methods for the preparation of such compositions.

The present invention relates to a method of producing a fermented milk product comprising adding lactic acid bacteria to milk, wherein the bacteria comprise Lactobacillus casei and at least one further strain of lactic acid bacteria of a species other than Lactobacillus casei, wherein the further strain has a deficiency in lactose metabolism but is capable of metabolizing one or several carbohydrates other than lactose present in the milk.