A method and use of nisin-permeabilized microbial cells as whole-cell catalysts for reducing the amount of a target substrate in a sample to one of more product are provided. Specifically, a method of reducing the amount of lactose in a dairy sample using nisin-permeabilized lactic acid bacterial cell catalysts, which have been permeabilized by incubating with a nisin producing microbial cell and/or culture medium derived therof. Further provided is a nisin producing microbial cell, derived from parent strain Lactococcus lactis subsp. lactis bv. diacetylactis SD96 (NCBI accession No. SRX6686433).

The invention concerns the use of formate for increasing the thickness of a fermented milk-based composition, wherein the fermented milk-based composition is fermented by S. thermophilus. Furthermore the use of formate in a starter culture for increasing the thickness of a fermented milk-based composition is concerned, wherein the fermented milk-based composition is fermented by S. thermophilus

The present invention relates to novel sucrose negative (Suc−) Streptococcus thermophilus strains, compositions comprising said strains, uses thereof, methods for obtaining such strains and methods for the preparation of fermented food products using such compositions.

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.

Disclosed are a yoghurt for regulating intestinal tract, preparation method therefor, and use thereof, where the yogurt is prepared from raw materials comprising the following parts by weight: 90-97 parts of raw milk, Lactobacillus gasseri of (0.7-5)×10.sup.8 CFU/100 g raw milk, Streptococcus thermophilus of (0.1-9)×10.sup.10 CFU/100 g raw milk, Lactobacillus bulgaricus of (0.1-9)×10.sup.10 CFU/100 g raw milk, Lactobacillus acidophilus of (0.5-7)×10.sup.8 CFU/100 g raw milk, Lactobacillus plantarum of (0.5-7)×10.sup.8 CFU/100 g raw milk, Lactobacillus paracasei of (0.1-9)×10.sup.7 CFU/100 g raw milk, and other probiotics, and prebiotics such as inulin. The yogurt may regulate the balance of intestinal flora and prevent constipation and gestational diabetes in overweight and/or obese pregnant women during the gestation period.

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.

A nutritional composition obtainable by fermenting a mixture comprising protein, carbohydrate and fat, wherein the major source of protein is potato protein, and wherein the mixture is fermented by lactic acid-producing bacteria.

An infant formula for preventing gastro-esophageal reflux is disclosed comprising whey protein and/or casein, a galactomannan thickener, and a fermented milk-derived product.

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.

Process for producing an ambient storage food product comprising providing a food product with a pH of between 3.4 and 4.4, subjecting the food product to a heat treatment to obtain a heat treated food product, adding aseptically to the heat treated food product one or more of ambient storage lactic acid bacteria strains to obtain an ambient storage food product, and storing the ambient storage food product at ambient temperature for a period of time, wherein the ambient storage lactic acid bacteria strain is selected from the group consisting of strains, (i) wherein the strain is capable of retaining viability at the end of 150 days at a temperature of 25#C, and (ii) wherein the pH at most decreases 0.8 units during the storage period, and (iii) wherein the strain is selected from the group consisting of Lactobacillus paracasei, Lactobacillus rhamnosus, Lactobacillus fermentum and Lactobacillus delbrueckii subsp. bulgaricus, and mutants and variants thereof.