The present invention discloses a native rapeseed protein isolate comprising 40 to 65% cruciferins and 35 to 60% napins and having a solubility of at least 88% when measured over a pH range from 3 to 10 at a temperature of 23±2° C.; wherein the native rapeseed protein isolate comprises from 5% to 65% on dry matter of 12S rapeseed protein where the presence of 12S is verified by Blue Native PAGE.

The present invention discloses a native rapeseed protein isolate comprising 40 to 65% cruciferins and 35 to 60% napins and having a solubility of at least 88% when measured over a pH range from 3 to 10 at a temperature of 23±2° C.; wherein the native rapeseed protein isolate comprises from 5% to 65% on dry matter of 12S rapeseed protein where the presence of 12S is verified by Blue Native PAGE.

The present invention relates to a method for preparing a monoglyceride hydrate product, which product may be used as an emulsifier in various food and non-food applications. The present invention further relates to the monoglyceride hydrate product obtainable by said method. The invention further relates to a monoglyceride hydrate product, comprising monoglycerides, with saturated fatty acid residues, water and non-hydrogenated monoglycerides and/or diglycerides having unsaturated fatty acid residues.

The present invention relates to a process for forming a functionalised dietary fibre comprising admixing an enzyme and an aqueous suspension of dietary fibre, wherein said dietary fibre is at a D.sub.50 particle size distribution of less than 30 microns after degradation by the enzyme and comprises less than 25 wt. % soluble fibres and at least 40% wt. % cellulose; denaturing said enzyme to form a functionalised, amphiphilic dietary fibre with adsorbed enzyme. The present invention further relates to a Pickering particle comprising a functionalised dietary fibre and denatured enzyme and the use of the functionalised dietary fibre and denatured enzyme according to present invention or the Pickering particle according to the present invention to stabilize an emulsion.

The present invention relates to a process for forming a functionalised dietary fibre comprising admixing an enzyme and an aqueous suspension of dietary fibre, wherein said dietary fibre is at a D.sub.50 particle size distribution of less than 30 microns after degradation by the enzyme and comprises less than 25 wt. % soluble fibres and at least 40% wt. % cellulose; denaturing said enzyme to form a functionalised, amphiphilic dietary fibre with adsorbed enzyme. The present invention further relates to a Pickering particle comprising a functionalised dietary fibre and denatured enzyme and the use of the functionalised dietary fibre and denatured enzyme according to present invention or the Pickering particle according to the present invention to stabilize an emulsion.

Embodiments of a method and supplement for preventing and/or treating gastrointestinal distress, including ulcer conditions, in animals such as humans are disclosed. The supplement is in a tablet or capsule form and comprises mastic gum and an emulsifying agent such as lecithin. The supplement may also comprise B vitamins, one or more prebiotics or probiotics, and one or more minerals as well as, pH buffers and flavoring. A disclosed method of preventing and/or treating gastrointestinal distress comprises orally dosing an animal such as a human with the supplement at least once daily.

The present invention concerns the field of processed cheese compositions, and, more particularly, relates to reduced salt processed cheese compositions. The present invention derives from the surprising finding that potassium lactate can be used in the manufacture of processed cheese compositions with reduced sodium content, without detrimental consequences on the taste of the final product. A processed cheese composition according to the invention imparts to the final product an improved flavour perception, as well as strengthening salty, savoury and cheesy taste. An additional surprising finding of the method of the invention is that the use of potassium lactate according to the invention has beneficial consequences on the safety and shelf life of the final product. The use of potassium lactate, in particular potassium lactate in the form of a fermentation product in accordance with the invention, also obviates the need to incorporate artificial flavorings and flavor enhancers, which results in a product with an improved label.

The technology disclosed in this specification pertains to a heat-moisture treated fava bean protein concentrates having between 50% and 73% and a denaturation enthalpy from about 5.5 and 6.5 J/g. This is limited degree of denaturation. The disclosed heat-moisture treated fava bean protein concentrates are useful as emulsifiers, and good solubility in water, and reduced flavor.

The technology disclosed in this specification pertains to a heat-moisture treated fava bean protein concentrates having between 50% and 73% and a denaturation enthalpy from about 5.5 and 6.5 J/g. This is limited degree of denaturation. The disclosed heat-moisture treated fava bean protein concentrates are useful as emulsifiers, and good solubility in water, and reduced flavor.

The invention relates to separated, decompacted, cellulose-based fibres acquired from a vegetable raw material, wherein the separated, decompacted, cellulose-based fibres have an aspect ratio after soaking in water of longitudinal diameter to transverse diameter of 1:1 to 1000:1 and a water-binding capacity of >200 wt. % and a water retention capacity of >50%, and a method for acquiring and producing these separated, decompacted cellulose-based fibres. The purification method involves incubation of the vegetable material with an aqueous decomposition solution containing at least one dissolved amino acid and/or peptide with 2-50 amino acids to decompose the compacted cellulose-based fibres.