The present invention is in the field of dairy technology. It relates to methods for producing fermented milk products, characterized the bacterium Lactobacillus rhamnosus DSM 33515 or mutants obtainable therefrom is used. Lactobacillus rhamnosus bacteria DSM 33515 has low post-acidification in fermented milk products and can provide antimicrobial effects. The invention also provides Lactobacillus rhamnosus DSM 33515 or mutants obtainable therefrom as well as related compositions.

Provided is a method for providing a spoonable acidified dairy product, comprising the steps of: a) providing an alpha-glucan composition comprising essentially linear isomalto/malto-polysaccharides (IMMPs) wherein the content of α(1.fwdarw.6) glycosidic linkages is at least 70%; b) supplementing a milk product with said alpha-glucan composition; and c) acidifying the supplemented milk product to a pH below 5, preferably to a pH of about 4.6. Also provided are products obtainable by such a method. Also provided is the use of IMMPs with a content of α(1.fwdarw.6) glycosidic linkages of at least 70% to improve the stability and/or sensory properties of acidified dairy products.

The present invention relates to a method of producing an ideal whey protein concentrate. The whey protein concentrate has a pH in the range of 6.8-7.5 and 70-90% of the total proteins of the concentrate are whey proteins and 10-30% of the total proteins of the concentrate are caseins. The present invention relates also to an ideal whey protein concentrate and its uses in in reducing the total milk protein content and/or in increasing the whey protein content of a spoonable acidified milk product. In addition, the present invention relates to a method of producing a spoonable acidified milk product having high whey protein content but a reduced total milk protein content. The present invention relates also to a spoonable acidified milk product having high whey protein content but a reduced total milk protein content.

The present invention relates to a method of producing an ideal whey protein concentrate. The whey protein concentrate has a pH in the range of 6.8-7.5 and 70-90% of the total proteins of the concentrate are whey proteins and 10-30% of the total proteins of the concentrate are caseins. The present invention relates also to an ideal whey protein concentrate and its uses in in reducing the total milk protein content and/or in increasing the whey protein content of a spoonable acidified milk product. In addition, the present invention relates to a method of producing a spoonable acidified milk product having high whey protein content but a reduced total milk protein content. The present invention relates also to a spoonable acidified milk product having high whey protein content but a reduced total milk protein content.

The present disclosure relates to processes for producing antihypertensive peptide compositions from milk compositions. It also relates to peptide compositions producible by the processes, as well as dosage forms, food products, supplements, powdered milk formula and beverages containing the peptide compositions, and to therapeutic methods and uses of the peptide compositions.

Methods of production of edible filamentous fungal biomat formulations are provided as standalone protein sources and/or protein ingredients in foodstuffs as well as a one-time use or repeated use self-contained biomat reactor comprising a container with at least one compartment and placed within the compartment(s), a feedstock, a fungal inoculum, a gas-permeable membrane, and optionally a liquid nutrient medium.

The present invention relates to a starter culture comprising at least two Streptococcus thermophilus strains, wherein a first and a second Streptococcus thermophilus strain are chosen from RGP group 1, RGP group 2, RGP group 3 and RGP group 4, with the proviso that the first and second Streptococcus thermophilus strains do not belong to the same RGP group.

Disclosed are processes for producing high protein, Greek yogurt products. Such processes can include a step of concentrating a skim milk product to produce a protein-enriched milk fraction, which then can be combined with one or more additional milk fractions to form a yogurt base. The yogurt base is inoculated with a yogurt culture and fermented, and at least a portion of the acid whey is removed from the fermented product using a ceramic ultrafiltration membrane system to form the Greek yogurt product.

Disclosed are processes for producing high protein, Greek yogurt products. Such processes can include a step of concentrating a skim milk product to produce a protein-enriched milk fraction, which then can be combined with one or more additional milk fractions to form a yogurt base. The yogurt base is inoculated with a yogurt culture and fermented, and at least a portion of the acid whey is removed from the fermented product using a ceramic ultrafiltration membrane system to form the Greek yogurt product.

A probiotic formulation is provided including one or more bacteria, bacterial strains or bacterial species of the genus Veillonella, genus Faecalibacterium, genus Phascolarctobacteria, genus Oscillospira, genus Ruminococcus, genus Bacteroides, genus Blautia, family Christensenellaceae, genus Dialister, or phylum cyanobacteria.