Abstract: Processes for transesterifying wax esters. Implementations may include: providing a feedstock including wax esters, contacting the feedstock with a lipase, and catalytically transesterifying the wax esters in the feedstock with the lipase to form a transesterified product. An oxidative stability index (OSI) of the transesterified product may be greater than an OSI of the feedstock.

Abstract: The invention relates to a reduced-sugar fat-based confectionery composition and to a process for the manufacture of said fat-based confectionery composition. The invention also relates to the use of sucrose having a small particle size distribution D90 and bulking agents for reducing the sugar and/or calories in fat-based confectionery compositions. It also covers the fat-based compositions obtained from the process and the use of said fat-based composition in food products.

Abstract: A steviol glycoside composition with reduced surface tension. The reduced surface tension steviol glycoside composition includes an aqueous solution of a steviol glycoside and a surface tension reducing compound in an amount effective to reduce surface tension. Method for reducing surface tension in a steviol glycoside solution includes contacting a steviol glycoside and a surface tension reducing compound.

Abstract: Various aspects of the present invention relate to steviol glycoside extraction. A method of treating a Stevia extract that includes steviol glycosides and/or salts thereof, and malonated steviol glycosides and/or salts thereof, includes treating the Stevia extract at a pH greater than 10 to convert at least some of the malonated steviol glycosides and/or salts thereof to non-malonated steviol glycosides and/or salts thereof, to produce a modified Stevia extract. The method includes decreasing the pH of the modified Stevia extract to a pH of less than 9 to provide a pH-adjusted modified Stevia extract. The method also includes recovering the steviol glycosides and/or salts thereof from the pH-adjusted modified Stevia extract, the recovered steviol glycosides and/or salts thereof including the non-malonated steviol glycosides and/or salts thereof.

Abstract: Various embodiments disclosed relate to steviol glycoside malonic acid esters (SGMAs). The present invention provides one or more SGMAs or salts thereof, compositions including the one or more SGMAs or salts thereof, and methods of forming a composition that includes one or more steviol glycoside malonic acid esters (SGMAs) or salts thereof. A composition including one or more SGMAs or salts thereof can be a sweetener or a sweetened composition such as a beverage concentrate, a sweetened beverage, a carbonated soft drink, a solid food stuff, a pharmaceutical composition, a nutritional supplement, or a dental composition.

Abstract: A particulate solid fat composition comprising coconut oil is prepared by a method comprising heating a fat composition comprising coconut oil, cooling the melted fat composition with stirring to provide a substantially uniform solid fat composition, and chopping the solid fat by a food cutting device under chilling conditions at a temperature low enough to form a a substantially uniform particulate solid fat composition wherein at least 90% of the particles have a particle size of from 1.5 mm to 26 mm. The substantially uniform particulate solid fat composition is substantially compositionally uniform, or is substantially visually uniform, and/or is substantially uniform in color. This particulate solid fat composition is mixed with a hydrated plant protein composition under chilling conditions at a temperature low enough to maintain the particulate nature of the solid fat composition to form an animal meat mimic.

Abstract: The present invention relates to a method of producing a fabric impregnated with an aqueous binder composition of thinned starch and optionally non-thinned starch. In one aspect, such a method includes providing an aqueous binder composition; providing a fabric, applying an aqueous binder composition to the fabric; and drying the fabric. The invention also relates to the fabric obtained and the use thereof in bituminous membrane layer.

Abstract: It relates to a fat composition for use in a food item. The fat composition includes interesterified cottonseed stearin. It further provides a shortening, a filling, a flaked fat, a frying fat, or a food item including the fat composition. Methods of making food items including the composition and methods of making the composition are included.

Abstract: It provides a fat composition for use in a food item. The fat composition includes interesterified pequi oil. It provides for a shortening, a filling, a flaked fat, a frying fat, or a food item including the fat composition. It further provides methods of making food items including the fat composition and methods of making the fat composition.

Abstract: A batch fermentation process ferments a starch hydrolysate containing 80-98 weight percent of glucose based on total carbohydrate and 0.3-5% weight percent of isomaltose based on total carbohydrate to a fermentation product. A fermentation broth is formed containing a first portion of a total amount of the starch hydrolysate so that the fermentation broth has an initial glucose concentration of at least about 50 g/L. Fermentaion is carried out until the fermentation broth contains 30 g/L or less of glucose. An effective amount of at least one active enzyme that converts isomaltose into glucose is adding to the fermentation broth. Then the remaining portion of the total amount of starch hydrolysate is fed into the fermentation broth to maintain a glucose concentration of from about 5 to about 15 g/L in the fermentation broth throughout the feeding step. The final fermentation broth containing the fermentation product is then produced.

Abstract: Methods and systems for producing alkyl hydroxyalkanoates from hydroxycarboxylic acid recovery bottoms. The methods generally comprise the steps of obtaining a hydroxycarboxylic acid recovery bottom, adding a mono-alcohol to the hydroxycarboxylic acid recovery bottom to obtain a first mixture, heating the first mixture, optionally in the presence of a catalyst to form a reaction product, distilling the reaction product, and recovering an alkyl hydroxyalkanoate fraction.

Abstract: Yeast cells are genetically modified to disrupt a native metabolic pathway from dihydroxyacetone to glycerol. In certain aspects, the yeast cell is of the genera Kluyveromyces, Candida or Issatchenkia. In other aspects, the yeast cell is capable of producing at least one organic acid, such as lactate. The yeast cells produce significantly less glycerol than the wild-type strains, and usually produce greater yields of desired fermentation products. Yeast cells of the invention often grow well when cultivated, despite their curtailed glycerol production.

Abstract: The present disclosure provides an engineered microorganism capable of producing malonic acid, malonate, esters of malonic acid, or mixtures thereof. The engineered microorganism includes a malonate-semialdehyde dehydrogenase that is heterologous to a native form of the engineered microorganism and comprises at least 90% sequence identity to any one of SEQ ID Nos: 7, 9, 11, 13, 15, 17, 19, 21, 23, 27, 29, and 31, wherein the engineered microorganism is capable of producing about 9 g/L to about 250 g/L of malonic acid, malonate, esters of malonic acid, or mixtures thereof.

Abstract: The present invention relates to a method of for extracting oil from an oil-containing phospholipid composition, comprising the steps of: (a) Providing the oil-containing phospholipid composition, said composition comprising phospholipids and oil, the oil being in an amount of between and 80 wt % relative to the total weight of the oil composition; (b) Admixing water with the oil-containing phospholipid composition to obtain an aqueous composition, wherein the weight ratio of composition to water is between 6.0:1.0 and 1.3:1.0; (c) Separating the aqueous composition into an oil-rich fraction and an oil-depleted fraction, the oil-depleted fraction comprising water and phospholipids; and (d) removing the separated oil-rich fraction to obtain an aqueous, oil-depleted fraction comprising phospholipids; (e) optionally drying the aqueous, oil-depleted fraction to obtain a dried oil-depleted fraction comprising phospholipids.

Abstract: The present invention relates to a composition comprising glucose oligosaccharide and a process for making such. The present invention further relates to a composition comprising glucose oligosaccharide for use in the treatment of an animal. The present invention further relates to the use of a composition comprising glucose oligosaccharide to improve the growth performance of an animal. The present invention further relates to the use of a composition comprising glucose oligosaccharide to improve the immune system modulation of an animal.

Abstract: The present application provides genetically modified yeast cell comprising an active succinate fermentation pathway, as well as methods of using these cells to produce succinate.

Abstract: The present invention relates to the field of processing pea protein compositions. The present invention particularly relates to a method for preparing a high solubility pea protein composition and a product prepared thereby. The method of the present invention includes a step of subjecting a pea protein composition to high pressure homogenization. The method of the present invention significantly improves the solubility of pea protein compositions. The present invention further provides a pea protein composition prepared by the method, the pea protein composition having better solubility.

Abstract: Sampling of food products and/or surfaces can be efficiently carried out by providing an apparatus comprising a bag construction incorporating a sample collection material secured to an inside surface of the bag. The bag is of a size large enough to permit inversion of the bag to expose the sample collection material for collection of samples from surfaces, followed by re-inversion to enclose the sample collection material. Methods for sampling food products and/or surfaces for detection of pathogens, microbial contaminants and/or constituents in products or on surfaces are additionally contemplated.

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/vv % 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: This disclosure describes clubroot (CR) resistant plants; in particular, CR resistant Brassica plants, including B. napus. CR resistant plants include all or part of at least one genomic sequence of a B. napus parent genome that confers clubroot resistance. The genomic sequence may be a genomic sequence from chromosome N03, chromosome N04, and/or chromosome N08.