A flavour composition comprising a compound according to the formula (I) or edible salts thereof, ##STR00001##
wherein
R.sub.1 is an alkyl residue containing 6 to 20 carbon atoms, or an alkene residue containing from 9 to 25 carbon atoms with 1 to 6 double bonds, R.sub.1 together with the carbonyl group to which it is attached is a residue of a carboxylic acid, and NR.sub.2R.sub.3, in which R.sub.3 is H or together with R.sub.2 and the N-atom to which they are attached, a 5-membered ring, is a residue of an amino acid, in particular a proteinogenic amino acid, ornithine, gamma-aminobutyric acid or beta alanine, or a 1-amino cycloalkyl carboxylic acid.

The present invention provides stabilized amorphous calcium carbonate (ACC) formulations, comprising ACC and a non-aqueous liquid carrier in which the ACC is dispersed. The present invention further provides cosmetic and pharmaceutical compositions comprising ACC.

The present invention relates to an instant foamable beverage creamer comprising vegetable intact protein, for instance oat and/or rice protein, vegetable oil or fat, carbohydrates, and a hydrolyzed plant protein with a defined degree of hydrolysis which provides an excellent foam layer on a beverage.

Provided herein are methods for producing a mung bean protein isolate having high functionality for a broad range of food applications. In some embodiments, the methods for producing the isolate comprise one or more steps selected from: (a) extracting one or more mung bean proteins from a mung bean protein source in an aqueous solution, for example, at a pH between about 6.5-10.0; (b) purifying protein from the extract using at least one of two methods: (i) precipitating protein from the extract at a pH near the isoelectric point of a globulin-rich fraction, for example a pH between about 5.0-6.0; and/or (ii) fractionating and concentrating protein from the extract using filtration such as microfiltration, ultrafiltration or ion-exchange chromatography; and (c) recovering purified protein isolate.

Provided herein are methods for producing a mung bean protein isolate having high functionality for a broad range of food applications. In some embodiments, the methods for producing the isolate comprise one or more steps selected from: (a) extracting one or more mung bean proteins from a mung bean protein source in an aqueous solution, for example, at a pH between about 6.5-10.0; (b) purifying protein from the extract using at least one of two methods: (i) precipitating protein from the extract at a pH near the isoelectric point of a globulin-rich fraction, for example a pH between about 5.0-6.0; and/or (ii) fractionating and concentrating protein from the extract using filtration such as microfiltration, ultrafiltration or ion-exchange chromatography; and (c) recovering purified protein isolate.

A substance which adds body to a food product, and a body-adding agent for food products that uses the substance are provided. More specifically, the body adding agent for food products is characterized by having as an active component a peptide, or a salt thereof, that is characterized in that the γ-glutamyl bond number is 2-4 and the peptide chain length is the γ-glutamyl bond number +1 to +2, a food product manufacturing method that uses the peptide, and a method for adding body to a food product, characterized by adding the peptide are provided.

A particulate frozen dairy product comprising beads which remain free-flowing when at a temperature of about −12° C. or less. The beads comprise of a dairy product selected from the group consisting of frozen neat cream and frozen anhydrous milk fat. Included is a method of shipping a frozen dairy product. The method comprises cryogenically freezing a neat cream to form a plurality of frozen beads, and shipping the frozen beads while maintaining said frozen beads at a temperature less than −12° C. such that the frozen beads remain free-flowing during shipping. Further, the frozen beads are ideal for shipping, storage and use in that they lend themselves to multiple packaging options and easy proportioning for recipes.

A device for producing a foamed-food-product comprises a container which stores a liquid-food-product and is filled with filling gas at a pressure higher than atmospheric pressure, the filling gas containing argon or nitrogen as a main component; an agitator provided at the bottom of the inside of the container; a driving unit detachably connected to the bottom of the container to rotate the agitator, agitate the liquid-food-product in the container by the rotation of the agitator, and mix the filling gas in the liquid-food-product; and a dispenser mounted to the container and having a discharge outlet and a gas filling inlet for injecting the filling gas into the container, the dispenser causing the liquid-food-product having the filling gas mixed therein to be discharged from the discharge outlet by pressure in the container, so that the liquid-food-product foams while being discharged from the discharge outlet and is made into the foamed-food-product.

A device for producing a foamed-food-product comprises a container which stores a liquid-food-product and is filled with filling gas at a pressure higher than atmospheric pressure, the filling gas containing argon or nitrogen as a main component; an agitator provided at the bottom of the inside of the container; a driving unit detachably connected to the bottom of the container to rotate the agitator, agitate the liquid-food-product in the container by the rotation of the agitator, and mix the filling gas in the liquid-food-product; and a dispenser mounted to the container and having a discharge outlet and a gas filling inlet for injecting the filling gas into the container, the dispenser causing the liquid-food-product having the filling gas mixed therein to be discharged from the discharge outlet by pressure in the container, so that the liquid-food-product foams while being discharged from the discharge outlet and is made into the foamed-food-product.

A smooth, shelf-stable aseptically thermally processed food product, as well as methods of making same using a shear sensitive thickener, are disclosed.