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.

A method for preparing an inhibited starch, wherein it comprises the steps of a) providing a slurry containing a granular starch obtained from a starch containing raw material, b) alkalizing the slurry by adding ammonia or by adding one or more compounds having the ability to release or produce ammonia in the slurry, c) adjusting the p H of the slurry to a value above 10.0, preferably up to 12.0, and d) adding at least one oxidant to the slurry for a reaction with said ammonia; or wherein steps b) and c) are replaced with the step of alkalizing the slurry directly to a p H between 0.0 and 12.0, and the step of adding chloramine or dichloramine to the slurry, and wherein step d) is omitted; or wherein step c) is replaced with the step of adjusting the p H of the sluny to a value of between 7.0 and 10.0, and wherein step d) is followed by a step of adjusting the p H of the sluny to a value above 10.0, preferably up to 12.0, is disclosed, as well as an inhibited starch made with said method, use of the inhibited starch as an 1 ingredient in a food product, and a food product containing said inhibited starch.

A method for preparing an inhibited starch, wherein it comprises the steps of a) providing a slurry containing a granular starch obtained from a starch containing raw material, b) alkalizing the slurry by adding ammonia or by adding one or more compounds having the ability to release or produce ammonia in the slurry, c) adjusting the p H of the slurry to a value above 10.0, preferably up to 12.0, and d) adding at least one oxidant to the slurry for a reaction with said ammonia; or wherein steps b) and c) are replaced with the step of alkalizing the slurry directly to a p H between 0.0 and 12.0, and the step of adding chloramine or dichloramine to the slurry, and wherein step d) is omitted; or wherein step c) is replaced with the step of adjusting the p H of the sluny to a value of between 7.0 and 10.0, and wherein step d) is followed by a step of adjusting the p H of the sluny to a value above 10.0, preferably up to 12.0, is disclosed, as well as an inhibited starch made with said method, use of the inhibited starch as an 1 ingredient in a food product, and a food product containing said inhibited starch.

The present invention relates to a process for preparing stabilized buckwheat starches comprising a specific heat treatment. The present invention also relates to stabilized buckwheat starches obtainable by said process, as well as the use of said stabilized buckwheat starches for the preparation of a food product.

The present invention relates to thermally inhibited starch and starchy flours produced by heat treatment of native starch that is pre-dried where necessary to a dry matter content of more than or equal to 95% by weight, preferably 98% by weight, particularly preferably 99% by weight, wherein said starch, pre-dried where necessary, is treated in the presence of at least 0.1% by volume of oxygen at a product temperature in excess of 100° C. in a vibrating spiral conveyor.

The present invention relates to thermally inhibited starch and starchy flours produced by heat treatment of native starch that is pre-dried where necessary to a dry matter content of more than or equal to 95% by weight, preferably 98% by weight, particularly preferably 99% by weight, wherein said starch, pre-dried where necessary, is treated in the presence of at least 0.1% by volume of oxygen at a product temperature in excess of 100° C. in a vibrating spiral conveyor.

Provided herein are a glucan kinase polypeptide, an isolated polynucleotide, and a method for processing starch. The glucan kinase polypeptide comprises an isolated polypeptide including a sequence selected from the group consisting of SEQ ID NO: 2, SEQ ID NO:22, fragments thereof, variants thereof, and combinations thereof. The isolated polynucleotide comprises a nucleotide sequence selected from the group consisting of SEQ ID NO: 1, SEQ ID NO: 21, a fragment thereof, a variant thereof, and a combination thereof. The method for processing starch comprises providing a glucan dikinase; exposing a starch to the glucan dikinase; and collecting the starch that has been exposed to the glucan dikinase.

Provided herein are a glucan kinase polypeptide, an isolated polynucleotide, and a method for processing starch. The glucan kinase polypeptide comprises an isolated polypeptide including a sequence selected from the group consisting of SEQ ID NO: 2, SEQ ID NO:22, fragments thereof, variants thereof, and combinations thereof. The isolated polynucleotide comprises a nucleotide sequence selected from the group consisting of SEQ ID NO: 1, SEQ ID NO: 21, a fragment thereof, a variant thereof, and a combination thereof. The method for processing starch comprises providing a glucan dikinase; exposing a starch to the glucan dikinase; and collecting the starch that has been exposed to the glucan dikinase.

A composition and method of making a label friendly starch blend includes a composition having greater than 50 weight percent of a heat moisture treated (HMT) potato starch and less than 50 weight percent of a native tapioca starch. In an example, the starch blend includes between about 60 and about 70 weight percent of the HMT potato starch and between about 30 and about 40 weight percent of the native tapioca starch. The starch blends disclosed herein can be suitable for use in a variety of food products, including, but not limited to, tomato-based sauces, cheese sauces, Asian-style sauces, and gravies, particularly for use in freezer meals. The food products containing the starch blends disclosed herein exhibit favorable properties after being cooked, stored in the freezer and then heated prior to consumption. Observations included favorable viscosity, favorable texture and an absence of syneresis.

To inexpensively and easily provide a modified starch having a novel property.

A modified starch of which a particle diameter distribution waveform exhibits a single peak, wherein a 10 mass % paste liquid of the modified starch has an RVA peak viscosity that is 5% or less of the RVA peak viscosity of an unmodified starch serving as a raw material, and the difference between the maximum particle diameter and the minimum particle diameter is 2 μm or less. The modified starch is suitable for use as a food additive, a food texture improvement agent, a base material for powderization, a binder additive, a paper-making additive, a building material additive, etc.