A quantity of whipped topping, at least one quantity of instant pudding powder, a first quantity of vanilla wafers, a second quantity of vanilla wafers, and a quantity of sliced bananas are used as the main ingredients in a method to make the flavored banana pudding. First, the at least one quantity of instant pudding powder (caramel, vanilla, pumpkin spice, red velvet, white chocolate, and/or banana cream) is mixed into the quantity of whipped topping in order to form a flavored pudding mixture. Then, the flavored pudding mixture is cooled for a specific period of time in order to form a cooled pudding mixture. Once the cooled pudding mixture is completed, the first quantity of vanilla wafers, the quantity of sliced bananas, and the second quantity of vanilla wafers can be selectively layered onto each other and the cooled pudding mixture in order to create the flavored banana pudding.

A quantity of whipped topping, at least one quantity of instant pudding powder, a first quantity of vanilla wafers, a second quantity of vanilla wafers, and a quantity of sliced bananas are used as the main ingredients in a method to make the flavored banana pudding. First, the at least one quantity of instant pudding powder (caramel, vanilla, pumpkin spice, red velvet, white chocolate, and/or banana cream) is mixed into the quantity of whipped topping in order to form a flavored pudding mixture. Then, the flavored pudding mixture is cooled for a specific period of time in order to form a cooled pudding mixture. Once the cooled pudding mixture is completed, the first quantity of vanilla wafers, the quantity of sliced bananas, and the second quantity of vanilla wafers can be selectively layered onto each other and the cooled pudding mixture in order to create the flavored banana pudding.

This dispersion composition contains a water-based medium and a carboxymethyl cellulose having a carboxymethyl substitution degree of 0.20 or more and a cellulose-I crystallinity index of 50% or more, a water-based medium is easily dispersed even by low mixing power, and has a high viscosity.

Improved thermally inhibited starch is disclosed and methods of making such starch are disclosed. In some embodiments a thermally inhibited starch has improved whiteness and flavor. In some embodiments a method for making a thermally inhibited starch includes providing adding a buffer and an acid to a starch to obtain a pH adjusted starch having an acidic pH and thermally inhibiting the pH adjusted starch. The technology further pertains to methods of making the thermally inhibited starch in batch, continuous, continuous-like process or combinations thereof.

Improved thermally inhibited starch is disclosed and methods of making such starch are disclosed. In some embodiments a thermally inhibited starch has improved whiteness and flavor. In some embodiments a method for making a thermally inhibited starch includes providing adding a buffer and an acid to a starch to obtain a pH adjusted starch having an acidic pH and thermally inhibiting the pH adjusted starch. The technology further pertains to methods of making the thermally inhibited starch in batch, continuous, continuous-like process or combinations thereof.

The present invention relates to a nutritional formulation of yoghurt type, a cream, a dessert cream, an iced dessert or sorbet and a cheese and containing a pea protein isolate, characterized in that the pea protein isolate: contains between 0.5 and 2% of free amino acids, has a viscosity: from 13 to 1610.sup.3 Pa.Math.s. at a shear rate of 10 s.sup.1, from 10 to 1410.sup.3 Pa.Math.s. at shear rate of 40 s.sup.1, and from 9.8 to 1410.sup.3 Pa.Math.s. at a shear rate of 600 s.sup.1, has a solubility: from 30 to 40% in pH zones from 4 to 5 from 40 to 70% in pH zones from 6 to 8.

The invention also relates to the use of this nutritional formulation as a single protein source or as a food supplement, intended for infants, children and/or adults.

An object of the present invention is to provide a protein-containing food having a smooth, grittiness-free texture without aggregation or roughness of the protein, even after severe sterilization such as retort sterilization.

The object of the present invention is achieved by a protein aggregation inhibitor comprising welan gum.

A moringa extract containing a benzyl glucosinolate in a content of 6% by mass or more, calculated as a dry solid content of the extract, wherein the extract does not substantially contain an alkaloid. The moringa extract of the present invention for solving a first aspect is useful in the field of foodstuff or the like. Also, the PPAR activator of the present invention for solving a second aspect has excellent PPAR activation action, and has no disadvantages in side effects, so that it can be ingested for long term, which can be preferably used in foodstuff and the like. Therefore, the PPAR activator of the present invention for solving a second aspect can be expected to be used as a food, a supplement or a medicament not only for prevention of disease such as insulin resistance, hyperinsulinism, Type 2 diabetes, hypertension, hyperlipidemia, arterial sclerosis and obesity, but also for fatigue recovery or endurance improvement by improving basal metabolism. In addition, a benzyl glucosinolate-containing composition for solving a third aspect is useful in the field of foodstuff or the like.

A moringa extract containing a benzyl glucosinolate in a content of 6% by mass or more, calculated as a dry solid content of the extract, wherein the extract does not substantially contain an alkaloid. The moringa extract of the present invention for solving a first aspect is useful in the field of foodstuff or the like. Also, the PPAR activator of the present invention for solving a second aspect has excellent PPAR activation action, and has no disadvantages in side effects, so that it can be ingested for long term, which can be preferably used in foodstuff and the like. Therefore, the PPAR activator of the present invention for solving a second aspect can be expected to be used as a food, a supplement or a medicament not only for prevention of disease such as insulin resistance, hyperinsulinism, Type 2 diabetes, hypertension, hyperlipidemia, arterial sclerosis and obesity, but also for fatigue recovery or endurance improvement by improving basal metabolism. In addition, a benzyl glucosinolate-containing composition for solving a third aspect is useful in the field of foodstuff or the like.

The present invention relates to a method for producing a flavour composition comprising providing a slurry of yeast cell walls and contacting the slurry of yeast cell walls with a glucanase and with an endoprotease, followed by separating a liquid fraction by solid/liquid separation to provide the liquid flavour composition.