The invention relates to a method of producing a frozen confection product, the method comprising the steps of: providing an ingredient mix free from added sugar or comprises below 0.2% wt, the composition comprising 3-17 wt. % fat, 3-17 wt. % milk solids non-fat, and 1-10 wt. % protein comprising casein and whey, the ingredient mix having a pH of 6.1-6.4; homogenising the ingredient mix and subsequently pasteurizing the composition at a temperature of 80°-100° C. for a period of 0.5-3 min to form agglomerated protein comprising casein and whey, adding 3-25 wt. % of sugar to the ingredient mix; and freezing while optionally aerating the ingredient mix, to form a frozen confection product. The invention also relates to a product obtained with the method.

The invention relates to compositions and methods for stabilizing and enhancing the viscosity of semisolid compositions, and to the production of stabilized alcohol-containing semisolid food products. More specifically, embodiments of the invention relate to novel stabilizers for semisolid compositions, to alcohol-containing semisolid food compositions comprising them, and to processes for the preparation and use thereof. Further, the invention in embodiments thereof provides non-liquid food products containing a high alcohol content, which are stable at room temperature and do not necessitate the use of gelling agents or other chemical stabilizers.

The present invention relates to a whipping agent comprising protein and emulsifier for aerated food products, such as for sorbet and sherbet applications. The present invention also relates to whipped food products such as sorbets and sherbets comprising this whipping agent and a method for making the same. The present invention also relates to complexes between a protein and an emulsifier, use thereof and a method for producing the complexes.

The present invention relates to a whipping agent comprising protein and emulsifier for aerated food products, such as for sorbet and sherbet applications. The present invention also relates to whipped food products such as sorbets and sherbets comprising this whipping agent and a method for making the same. The present invention also relates to complexes between a protein and an emulsifier, use thereof and a method for producing the complexes.

The present invention is directed to an extruded food product constituent composed of a gelling food product constituent extrudate and method of extruding a gelling food product constituent extrudate used as an ingredient of a food product normally using a gelling gum, like guar gum, xanthan gum or carrageenan as an ingredient. The gelling food product extrudate is composed of cold-water soluble gelling pregelatinized starch formed of starch in a starch-containing admixture modified by extrusion at extrusion pressures greater than 2000 PSI that gels when mixed with water, which preferably also modifies additional starch or starches in the admixture into a plurality of different molecular weight polymers of a cold-water soluble gellant that polymerize forming a gel when mixed with water, preferably forming a hydrocolloid gel, which more preferably is a self-gelling gel, which even more preferably is a thermo-reversible gel crosslinked by one or more proteins freed by or modified during extrusion. Preferred admixtures configured to produce gelling extrudates include admixtures composed of cereal grains, including sorghum, wheat, oats, barley and/or corn, and/or legumes, including chick pea, yellow pea, pea and/or lentils with legume containing admixtures producing gelling extrudates that form thicker gels whose viscosity increases over time that are well suited for use in non-dairy dairy substitutes like non-dairy butter, non-dairy creamers, non-dairy whipped cream, non-dairy yogurt, non-dairy cream cheese, non-dairy cheese, and non-dairy ice cream.

The present invention discloses a soluble native rapeseed protein isolate having improved color, a method for preparing a soluble native rapeseed protein isolate having improved color and use of said rapeseed protein isolate in a food product.

The present invention provides peptoid polymers capable of reducing or inhibiting the formation of ice crystals at sub 0° C. temperatures. Also provided are peptoid-peptide hybrids comprising the peptoid polymers provided herein. The peptoid polymers and peptoid-peptide hybrids provided herein are useful for making cryoprotectant solutions. The peptoid polymers, peptoid-peptide hybrids, and cryoprotectant solutions provided herein are useful for making antifreeze solutions, frozen food products, and cosmetic care products. Also provided herein are methods for preserving a tissue, an organ, a cell, or a biological macromolecule using the compositions described herein.

The present invention provides peptoid polymers capable of reducing or inhibiting the formation of ice crystals at sub 0° C. temperatures. Also provided are peptoid-peptide hybrids comprising the peptoid polymers provided herein. The peptoid polymers and peptoid-peptide hybrids provided herein are useful for making cryoprotectant solutions. The peptoid polymers, peptoid-peptide hybrids, and cryoprotectant solutions provided herein are useful for making antifreeze solutions, frozen food products, and cosmetic care products. Also provided herein are methods for preserving a tissue, an organ, a cell, or a biological macromolecule using the compositions described herein.

The invention relates to a method of producing a plant-based oil-in-water emulsion comprising the steps of providing an ingredient composition which is free from dairy protein, said composition comprising 1.5 to 5 wt. %, preferably 2 to 5 wt. % proteins, wherein the protein consist of plant protein only, 0.5 to 10.5 wt %, preferably 1.5 to 7.5 wt % of oil, and having a pH of 5.3-6.7, preferably 5.6-6.6, optionally adding divalent cations to provide a concentration of 1-5 mM free divalent cations in the ingredient composition, optionally adding monovalent cations to provide a concentration of 1-20 mM free monovalent cations in the ingredient composition and homogenizing and subsequently heat treating the ingredient composition to a temperature of 80°-100° C. for a period of 0.5-15 min or an ultra high temperature (UHT) heat treatment above 135° C. for 3 to 30 s to form agglomerated proteins comprising plant proteins and oil, and shearing the composition during or after the heat treatment to reduce the size of the agglomerated proteins, the agglomerates having a size of 5 to 50 microns as measured by D(4,3) mean diameter as measured by laser diffraction after the shearing. The invention also relates to a plant-based oil-in-water emulsion obtained by the method, and a use of the plant-based oil-in-water emulsion for the use in food and beverage products.

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.