Abstract: This invention disclosure relates to novel maize starch. The starch can be made from the newly developed waxy sugary-2 double-mutant maize that has low activity of Granule Bound Starch Synthase I (GBSSI), which results in low amylose level. The starch from newly developed waxy sugary-2 double-mutant is freeze-thaw stable and has high viscosity. In comparison with the starch of the existing waxy sugary-2 double-mutant maize, the new waxy sugary-2 double-mutant maize starch showed, inter alia, improved pasting profile, starch granule integrity, larger starch granule size, and higher viscosity.

Abstract: A method of reducing the amount propylene chlorohydrin produced in a reaction to make a hydroxypropylated/crosslinked starch comprising removing residual propylene oxide from alkaline slurry. The residual propylene oxide is removed by the dewatering the alkaline slurry or by washing the starch in slurry at a pH of around 10. The starch is then neutralized in an acid solution and recovered from the second slurry and may or may not be washed, depending on whether the slurry while at pH around 10 to make a hydroxypropylated/crosslinked starch having less than 1 ppm propylene chlorohydrin.

Abstract: A coated foodstuff is made using two starch components. One is a spray cooked agglomerated waxy corn starch as having a peak time to hydration viscosity of between about 5.5 and about 7.5 minutes. The snack has unique expansion and hardness properties compared to coatings made from other corn starches, in embodiments the snack has a coating that expands to between about 1.7 and about 2.6 mm, a hardness of between about 3000 and about 3750 grams, or a hardness-to-expansion ratio of about 1200:1 to about 2200:1 g/mm.

Abstract: A food product composition containing a dairy ingredient and having an aqueous phase comprised of a waxy cassava acetyl-substituted inhibited starch in an amount effective to thicken said aqueous phase, such as a yogurt, is provided. A method of making such a food product is also provided.

Abstract: A thermal-reversible gelling agent derived from the modified starch of a waxy corn variant having an endosperm genotype with one or two doses of the recessive amylose-extender gene (ae). The starch may be modified enzymatically, physically, or by acid hydrolysis. Such gelling agents exhibit properties that may be useful in thickening or providing otherwise unique textures to foods.

Abstract: Disclosed herein are methods of making high molecular weight, reduced viscosity starch pastes by enzymatic conversion. The methods provide a process for producing enzyme-thinned starch pastes that have improved molecular weight distributions, i.e., starch pastes having a more mid to high molecular weight content and less low molecular weight sugars than traditional enzyme converted pastes at similar solids and viscosity. In some embodiments, the methods utilize an enzyme capable of producing longer-chain oligosaccharides rather than low-molecular weight sugars. Other embodiments utilize a combination of enzymes to provide low viscosity pastes that are stabilized against setback and retrogradation. Furthermore, the methods may utilize a continuous starch enzyme cooker for the production of the high molecular weight, reduced viscosity starch pastes.

Abstract: This specification discloses suspensions and method for making the suspensions. The suspension comprises a suspension medium and is loaded with an insoluble solid. The suspension medium is an aqueous solution made at least one soluble polymer and at least one thixotropic gum. The suspension medium can be loaded with high levels of solids (more than 15% by weight of the medium). The resulting suspension is highly stable and has low viscosity. In embodiments the suspension exhibits no significant sedimentation for at least 3 months, and has a viscosity of less than about 20,000 cP. In an illustrative embodiment, the suspensions may be used to improve the properties of corrugating adhesives by adding to a corrugating adhesive a suspension that has suspension medium comprising polyvinyl alcohol and gellan and that suspends unmodified high amylose starch.

Abstract: A novel hybrid corn plant, designated A7882 is disclosed. The invention relates to the seeds of hybrid corn A7882, to the plants and plant parts of hybrid corn A7882, and to methods for producing a corn plant by crossing the hybrid corn A7882 with itself or another corn plant. The invention further relates to methods for producing a corn plant containing in its genetic material one or more transgenes and to the transgenic plants produced by that method and to methods for producing other hybrid corn plants derived from the hybrid corn plant A7882.

Abstract: A food product composition containing a dairy ingredient and having an aqueous phase comprised of a waxy cassava acetyl-substituted inhibited starch in an amount effective to thicken said aqueous phase, such as a yogurt, is provided. A method of making such a food product is also provided.

Abstract: The application relates to a composition comprising separately by weight: a) from about 25% to about 50% by weight of a native rice flour; b) from about 5% to about 15% by weight of a rice flour which has been heat-moisture treated; c) from about 10% to about 20% of a flour which has been thermally inhibited; and d) from about 15% to about 35% of a reduced protein pulse flour selected from the group consisting of pea flour, faba bean flour, lentil flour, chickpea flour, and mixtures thereof.

Abstract: Cationic and silicon substituents are introduced into polysaccharides thereby producing modified polysaccharides cationically substituted by quaternary ammonium groups and having a charge density of about 0.1 to about 2.5 meq/g, and further substituted by siliconate groups such that the modified polysaccharide has a silicon content of about 300 to about 5000 ppm. The modified polysaccharides have application in industrial, home care and personal care surface modifying formulations.

Abstract: A pet food composition comprising a meat based material comprised of meat or meat by-products, and an aqueous phase comprised of an acetyl-substituted waxy cassava inhibited starch in an amount effective to thicken said aqueous phase is provided. Also provided is a gravy for a pet food comprising an acetyl-substituted waxy cassava inhibited starch in an amount effective to thicken said composition and having a freeze/thaw stability greater than about 5 cycles as well as a method of feeding a canine or feline pet. Also provided is a gravy for a pet food comprised of a hydroxypropyl-substituted waxy cassava inhibited starch having less than about 2.5%, by weight of hydroxylpropyl substituents, in an amount effective to thicken said aqueous phase.

Abstract: A low protein yogurt composition is provided comprising water, at least one dairy ingredient and a crosslinked waxy starch, wherein the crosslinked waxy starch is crosslinked with phosphate groups and has a peak Brabender viscosity of from about 600 to about 1500 Brabender units, and the cross-linked waxy starch is present in an amount sufficient to add viscosity to the yogurt. The crosslinked waxy starch can also be stabilized by acetylation to obtain longer shelf life.

Abstract: This invention pertains to low swelling starches and their use as food texture modifiers. The invention further pertains to the method of using low swelling starches as fat substitutes in foods. The low swelling starches provide opacity, mouth-coating, and creaminess to foods.

Abstract: This invention disclosure relates to novel maize starch. The starch can be made from the newly developed waxy sugary-2 double-mutant maize that has low activity of Granule Bound Starch Synthase I (GBSSI), which results in low amylose level. The starch from newly developed waxy sugary-2 double-mutant is freeze-thaw stable and has high viscosity. In comparison with the starch of the existing waxy sugary-2 double-mutant maize, the new waxy sugary-2 double-mutant maize starch showed, inter alia, improved pasting profile, starch granule integrity, larger starch granule size, and higher viscosity.

Abstract: The application relates to a process comprising: treating a wastewater stream in a membrane bioreactor, treating the effluent from the previous step in a cationic on exchanger, and treating the effluent from the previous step in a nanomembrane filter.

Abstract: The present invention relates to physically modified sago starch which exhibits an increased onset of gelatinization temperature and controlled viscosity development, yet retains significant hot and cold viscosity, the process of making such starch, and the use thereof. Such starches are useful in a variety of products, particularly as viscosifiers.

Abstract: Cationic and silicon substituents are introduced into polysaccharides thereby producing modified polysaccharides cationically substituted by quaternary ammonium groups and having a charge density of about 0.1 to about 2.5 meq/g, and further substituted by siliconate groups such that the modified polysaccharide has a silicon content of about 300 to about 5000 ppm. The modified polysaccharides have application in industrial, home care and personal care surface modifying formulations.

Abstract: The present invention uses natural materials, namely corn protein concentrates, as bead materials, providing a greener solution to synthetic beads. The present invention further eliminates the need for solvents and other potentially environmentally dangerous chemicals by producing the beads directly from a corn protein concentrate cake.

Abstract: The application pertains to a process comprising a) acidifying a carbohydrate to a pH below 2; b) heating the mixture from step a) to a temperature from about 60° C. to about 100° C.; c) adding a catalyst to the mixture from step b) over a time from about 10 minutes to about 200 minutes; d) heating the mixture from step c) to a temperature from about 121° C. to about 140° C. and to a pressure of about 4.5 Kg/cm2 to about 5.3 Kg/cm2 over a time from about 15 minutes to about 90 minutes; and e) maintaining the mixture of step d) at a temperature from about 121° C. to about 140° C. and a pressure of about 4.5 Kg/cm2 to about 5.3 Kg/cm2 over a time from about 1 minute to about 300 minutes.