Abstract: Various aspects relate to a spread composition, methods of making the same, and food products including the same. A spread composition includes an oil phase. The oil phase includes a plant-based oil. The spread composition also includes plant-based oil bodies emulsified in the oil phase. The plant-based oil bodies are derived from the same one or more plants as the plant-based oil, a different one or more plants, or a combination thereof. The spread composition includes a continuous phase that includes the oil phase. At least some of the plant-based oil in the oil phase is not naturally present in the plant-based oil bodies.

Abstract: The present disclosure provides an engineered wood precursor mixture. The mixture includes a wood substrate(s) and a binder reaction mixture present in a range of from 3 to 25 parts per one hundred (100) parts of the dry weight of the wood substrate. The binder composition includes an aqueous portion. The aqueous portion includes a carbohydrate-containing component, including glucose, fructose, sucrose, or mixture thereof, in a range of from 2 wt % to 85 wt % based on a dry weight of the binder reaction mixture. The aqueous portion further includes 1 wt % to 33 wt % of a base based on a dry weight of the binder reaction mixture, wherein a pH of the aqueous portion is greater than 10. The binder composition further includes a partially non-dissolved polypeptide-containing component, in a range of from 20 wt % to 85 wt % based on the dry weight of the binder reaction mixture.

Abstract: Various embodiments disclosed relate to a composition including a fibrous material and a binder composition. The binder composition includes at least one carbohydrate and at least one branched (poly)amine comprising a plurality of primary amines, wherein the majority of the plurality of primary amines are attached to a methylene group. Various embodiments disclosed further relate to a composition including a reaction product and a fibrous material mixed therein. The reaction product includes at least one monosaccharide and at least one branched (poly)amine comprising a plurality of primary amines, wherein each of the plurality of primary amines is attached to a methylene group. In various embodiments, the composition is used to make an engineered wood product.

Abstract: The present invention relates to a nutritional composition comprising isolated and/or enlarged oleosomes and at least one nutritional ingredient other than isolated and/or enlarged oleosomes, wherein the isolated and/or enlarged oleosomes have an average globule diameter in a range of from 2.0 to 12.0 micron. The invention further relates to a process for preparing the nutritional composition and the process is comprising the blending of the isolated and/or enlarged oleosomes with the at least one other nutritional ingredient other than isolated and/or enlarged oleosomes, and characterized in that the isolated and/or enlarged oleosomes are in powder or liquid form.

Abstract: The present invention relates to a cocoa composition comprising at least 30 weight % sucrose and less than 5 weight % of milk solids, characterized in that it comprises 0.5-15 weight % of a plant-based protein other than soy protein, and 0.5-20 weight % of a bulking ingredient. Food products comprising the cocoa composition described are also provided, for example, bakery products, confectionary products, and dairy-alternative products.

Abstract: The present invention relates to a chocolate composition comprising at least 30 weight % of cocoa solids and less than 2 weight % of milk solids, based on the total weight of the chocolate composition, characterized in that it further comprises 0.5-15 weight % plant-based protein and 0.5-10 weight % of a plasticizer ingredient, wherein the chocolate composition is substantially free from soy protein.

Abstract: Described herein are soluble rice flour compositions having desirable chemical properties and solubility and viscosity functionality for use in food products such as, beverage mix, infant food, a medicinal product, an emulsion, convenience foods, or a snack-based filling. Such compositions can be used as a partial or complete replacement of maltodextrin and offer a more clean-label alternative.

Abstract: The present invention relates to a cocoa composition comprising less than 5 weight % of milk solids, characterized in that it comprises 0.5-15 weight % of a pea-based protein and 0.5-10 weight % of a plasticizer ingredient. Also provided are food products comprising the cocoa composition described, for example bakery products, confectionary products, and dairy-alternative products.

Abstract: A filling, coating or spread for use in food applications comprising a structured fat system, wherein the structured fat system comprises from 10 w/w % to 90 w/w % of a lipid and from 10 w/w % to 90 w/w % of an edible porous particle, wherein the lipid is present as a continuous phase in said structured fat system. The use of a structured fat system for reducing the trans- and saturated fat content of a filling, coating or spread, wherein the structured fat system comprises from 10 w/w % to 90 w/w % of a lipid and from 10 w/w % to 90 w/w % of an edible porous particle, wherein the lipid is present as a continuous phase in said structured fat system.

Abstract: Plasticizer compositions are prepared by reacting a vegetal oil with isopentyl alcohol to provide a glyceride/fatty ester composition comprising from about from about 40 to about 80% wt isopentyl fatty acid ester, and reacting the glyceride/fatty ester composition with acetic anhydride to form an acetylated glyceride/fatty ester composition. The vegetal oil may be epoxidized before the reaction with isopentyl alcohol, or the acetylated glyceride/fatty ester composition first prepared and then epoxidized. Epoxidized acetylated glyceride/fatty ester plasticizer compositions are also described. Alternatively, plasticizer compositions are prepared by preparing a C4-C10 fatty ester composition separately from acetylated glyceride composition and mixing the compositions in a weight ratio of 3:7 to 7:3. The C4-C10 fatty ester composition and the acetylated glyceride composition may be epoxidized either before or after mixing.

Abstract: The present invention relates to a sweetener composition and a process for preparing a sweetener composition. In particular, the present invention relates to a sweetener composition comprising a crystalline carbohydrate and a bulking agent for replacing all or part of the sugar in a food product. The bulking agent can be selected from soluble and insoluble fibres.

Abstract: A system for editing of a target sequence at a locus of a host cell is disclosed. The system has a nucleic acid molecule comprising a nucleic acid segment comprising a targeting RNA sequence and an RNA segment that binds a protein. The system also has a nucleic acid molecule comprising a nucleic acid segment encoding a polypeptide with endonuclease activity fused to a protein that binds the RNA segment. The system also comprises a double stranded DNA molecule comprising DNA comprising at least one nucleotide sequence that is capable of binding to the target sequence at the locus.

Abstract: A process is disclosed for obtaining citrus fiber from citrus peel. Citrus fiber is obtained having a c* close packing concentration value of less than 3.8 wt % anhydrous base. The citrus fiber can be used in food products, feed products, beverages, personal care products, pharmaceutical products or detergent products.

Abstract: Described herein are reconstituted soluble tapioca flour compositions having desirable chemical properties and solubility and viscosity functionality for use in food products such as, beverage mix, infant food, a medicinal product, an emulsion, convenience foods, or a snack-based filling. Such compositions can be used as a partial or complete replacement of maltodextrin and offer a more clean-label alternative.

Abstract: A turkey collagen hydrolysate composition is prepared from turkey collagen sources, wherein the composition has: a protein concentration of from about 80 wt % to 100 wt %; a protein molecular weight distribution wherein from about 80% to 100% of the protein in the turkey collagen hydrolysate composition has a molecular weight of from about 500 to about 15,000 Daltons; a protein solubility of from about 97% to 100% at a pH selected from the group consisting of pH 7.0, pH 3.4, pH 5, and all of pH 7.0, pH 5, and pH 3.4; and a protein amino acid content of 3 to 25 glycine (g/100 g sample), 0.5 to 15 hydroxyproline (g/100 g sample), 1 to 18 proline (g/100 g sample), 0.02 to 4 taurine (g/100 g sample), and 0.05 to 3 tryptophan (g/100 g sample). Methods of preparing turkey collagen hydrolysate compositions are described.

Abstract: The current invention relates to a process for in-creasing the yield of an isolated oleosome composition and the process is comprising blending of a processed fiber fraction of an oleosome source with at least one other fraction of an oleosome source. The invention relates to an isolated oleosome composition characterized in that it has a fiber content of from 0.5 to 15%, a particle size of the solids from 2 to 200 micron, and an oil content of 20 to 95% on total dry matter of which at least 60% is present as oleosomes. The invention relates to food and feed products, pharmaceutical products, personal care products, nutritional compositions and industrial products comprising the isolated oleosomes composition. The invention relates to the use of a fiber fraction of an oleosome source to increase the yield of the isolated oleosome composition.

Abstract: The present invention relates to a non-dairy creamer including a triglyceride composition. The triglyceride composition includes triglycerides having a specific fatty acid profile. The triglyceride composition has a trans fatty acid value of from about 0 wt % to about 1 wt % by weight of the total fatty acid content, an oxidative stability index of greater than about 15 h at a temperature of 120° C. and an airflow rate of 20 L/h, a saturated fatty acid content of from about 55 wt % to about 65 wt % by weight of the total fatty acid content, a slip melting point of from about 22° C. to about 40° C., and a total volatile aldehyde content of from about 1 wt % to about 5 wt % by weight of the triglyceride composition.

Abstract: A fermentation process includes contacting a starch hydrolysate with a glucoamylase with agitation. And allowing for settling to form a multi-phase solution. A first phase of the multi-phase solution includes a saccharide component comprising about 30 wt % to about 80 wt % (e.g., 30 wt % to 70 wt %, 30 wt % to 60 wt %) based on a total carbohydrate present. The method further includes draining the first phase to isolate the first phase from a second phase to form a fermentation broth comprising a first portion of the first phase. The method further includes fermenting the fermentation broth until a concentration of glucose in the fermentation broth is 40 g/L or less. The method includes adding a second portion of the first phase to the fermentation broth to maintain a concentration of glucose in a range of from about 1 g/L to about 20 g/L in the fermentation broth.

Abstract: A characteristic of edible oil may be evaluated using a spectrometer. For example, optical reflectance data may be obtained from edible oil in situ in a frying apparatus housing the edible oil, the reflectance data corresponding to a specified range of infra-red wavelengths. A model profile corresponding to the characteristic being assessed may be obtained, such as from a repository housing a secured library of such profiles. The model profile may define a regression vector for use in transforming the reflectance data to generate a value corresponding to the characteristic being assessed. A criterion may be applied to the value to establish a simplified representation of the characteristic for presentation to a user for assessment of oil quality.

Abstract: A glucose in solid form containing a matrix phase and a plurality of carbohydrate crystals within said matrix phase, the matrix phase containing amorphous glucose and water, wherein the carbohydrate crystals comprise glucose and optionally one or more other carbohydrate(s), and optionally wherein the glucose in solid form is coated with a dry powder coating. The glucose in solid form may comprise at least 50 wt % dry substance (DS) glucose and may comprise one or more other carbohydrate(s) besides glucose. A method for manufacturing solidified glucose is also provided.