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.

The object of the present invention is to provide an emulsion composition that maintains emulsion stability even after high temperature process such as sterilization (heat resistance), shows a small change in particle size distribution between before and after heating, and maintains emulsion stability even under conditions where transformation of an oil phase component (for example, solidification or crystallization of the oil phase component due to temperature drop, or melting of the oil phase component due to temperature rise) occurs (temperature drop resistance), wherein the composition is easily handled during the production process. The object is solved by an oil-in-water emulsion composition containing solid particles, a predefined surfactant, an oil phase component, and an aqueous phase component, wherein the oil phase component includes a predefined oil component and the solid particles are distributed along the interface between the oil phase component and the aqueous phase component.

Disclosed herein is a method for producing modified gum arabic, the method comprising: providing gum arabic; heating said gum arabic, resulting in heat-treated gum arabic; dissolving said heat-treated gum arabic in a solution; optionally, filtering said solution containing said dissolved gum arabic; and subjecting said solution containing said dissolved gum arabic to spray-drying. Further disclosed herein is a gum arabic from Acacia Senegal having (i) a weight average molecular weight (M.sub.w) of ≥3.8.Math.10.sup.6 Da, and/or (ii) a RMS-radius of gyration (R.sub.g) of ≥140 nm.

Disclosed herein is a method for producing modified gum arabic, the method comprising: providing gum arabic; heating said gum arabic, resulting in heat-treated gum arabic; dissolving said heat-treated gum arabic in a solution; optionally, filtering said solution containing said dissolved gum arabic; and subjecting said solution containing said dissolved gum arabic to spray-drying. Further disclosed herein is a gum arabic from Acacia Senegal having (i) a weight average molecular weight (M.sub.w) of ≥3.8.Math.10.sup.6 Da, and/or (ii) a RMS-radius of gyration (R.sub.g) of ≥140 nm.

The technology disclosed in this specification pertains to pulse protein-based emulsifiers comprising unhydrolyzed soluble pulse, or pea, or chickpea protein and a dissolved, unmodified amylopectin. Also disclosed in this specification are long term shelf stable egg-free emulsions and methods of their manufacture using the described pulse protein-based emulsifiers. Stability of the emulsion can be measured by reference to their small mean oil droplet size and reduced variability in mean oil droplet size over time.

The technology disclosed in this specification pertains to pulse protein-based emulsifiers comprising unhydrolyzed soluble pulse, or pea, or chickpea protein and a dissolved, unmodified amylopectin. Also disclosed in this specification are long term shelf stable egg-free emulsions and methods of their manufacture using the described pulse protein-based emulsifiers. Stability of the emulsion can be measured by reference to their small mean oil droplet size and reduced variability in mean oil droplet size over time.

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.

Provided is an edible oil/fat composition having a bacteriostatic effect in addition to the functions of conventional edible oils and fats. The problem is solved by the edible oil/fat composition characterized by containing 70% by mass or more of an edible oil/fat, 0.002-10% by mass of a lipophilic bacteriostatic agent, and 0.1-10% by mass of an emulsifier.