The invention relates to a peptide isolate isolated from a biomass of protein-rich microalgae, characterized in that it comprises: soluble peptides with a molecular weight of between 1 and 20 kDa, a protein content expressed as N.6.25 of more than 95%, essentially arginine and glutamic acid.

The invention relates to a method for fractionating the components of a biomass of protein-rich microalgae of the genus Chlorella, characterized in that it comprises the following steps: providing a microalgal biomass produced by fermentation, optionally, washing the biomass so as to eliminate the interstitial soluble compounds, thermal permeabilization of the biomass at a temperature of between 50 and 150° C., preferably 100 and 150° C., for a duration of between 10 seconds and 5 minutes, preferably for a duration of between 5 seconds and 1 minute, separation between the biomass thus permeabilized and the soluble fraction by a centrifugation technique, more particularly multistage centrifugation, optionally, recovery and clarification of the soluble fraction obtained in this way by microfiltration so as to remove residual insoluble substances therefrom, separation of the preceding soluble fraction by precipitation, so as to obtain a peptide isolate and a peptide concentrate.

A flavor composition comprising at least one compound that modulates, increases and/or enhances the activity of a GPR120 fatty acid receptor that can be used to enhance the fatty acid taste and/or palatability of pet food products is described herein. Also disclosed herein are methods for identifying said compounds.

The present invention provides a pea isolate comprising, calculated by weight of dry matter: a. 0-10 wt.% of pea components having a molecular weight of at least 30 kDa; b. 0-70 wt.% galacto-oligosaccharides selected from raffinose, stachyose, verbascose and combinations thereof; c. 0.05-5 wt.% of 5′-inosine monophosphate (IMP); d. 0-1 wt.% of 5′-adenosine monophosphate (AMP); wherein the weight ratio IMP : AMP exceeds 1:1.

This pea isolate is a valuable flavouring material that can be isolated from pea whey - an effluent stream that is produced in the manufacture of pea protein isolates - by subjecting the pea whey to ultrafiltration and/or nanofiltration, and by subjecting the pea whey or the filtration permeate to enzymatic treatment with AMP deaminase.

Provided is a technology to enhance the saltiness of food. The saltiness of food is enhanced by adding the following ingredients (A) to (D): (A) potassium chloride; (B) arginine or a salt thereof; (C) lysine or a salt thereof; and (D) a nucleic acid-containing yeast extract.

Amino acids present in domains of an umami taste receptor are described herein, wherein the amino acids interact with at least one nucleotide derivative and/or at least one transmembrane compound that potentiates, modulates, increases, and/or enhances the activity of the umami receptor. Such compounds can be used in flavor compositions to enhance the umami taste and/or palatability of food products.

Provided herein is a process for increasing the dissolution rate of a sparingly water soluble flavor or taste modifying compound in water comprising: a. mixing the compound and a highly water soluble second compound in a water based solution to form a solution or dispersion of the compound; and b. drying the solution or dispersion to form a solution or solid dispersion of the compound wherein the compound has an increased dissolution rate in water as compared to the compound when dissolved in water alone.

The present invention relates to a shaped savoury composition comprising particles of puffed maize endosperm. The present invention also relates to a method of preparing such a composition and to the use of puffed maize endosperm in food products.

A flavor composition comprising at least one compound that modulates, increases and/or enhances the activity of a GPR120 fatty acid receptor that can be used to enhance the fatty acid taste and/or palatability of pet food products is described herein. Also disclosed herein are methods for identifying said compounds.

A flavor composition comprising at least one compound that modulates, increases and/or enhances the activity of a GPR120 fatty acid receptor that can be used to enhance the fatty acid taste and/or palatability of pet food products is described herein. Also disclosed herein are methods for identifying said compounds.