Provided herein are methods for producing a mung bean protein isolate having high functionality for a broad range of food applications. In some embodiments, the methods for producing the isolate comprise one or more steps selected from: (a) extracting one or more mung bean proteins from a mung bean protein source in an aqueous solution, for example, at a pH between about 6.5-10.0; (b) purifying protein from the extract using at least one of two methods: (i) precipitating protein from the extract at a pH near the isoelectric point of a globulin-rich fraction, for example a pH between about 5.0-6.0; and/or (ii) fractionating and concentrating protein from the extract using filtration such as microfiltration, ultrafiltration or ion-exchange chromatography; and (c) recovering purified protein isolate.

A topical flavor composition comprising at least one hydrophilic flavor compound and at least one lipophilic flavor compound, the flavor composition being a water-in-oil emulsion having a continuous non-aqueous phase and a disperse aqueous phase, the at least one lipophilic flavor compound being dissolved or dispersed in the continuous phase and the at least one hydrophilic flavor compound dissolved or dispersed in the disperse phase. The composition is useful for topical application to a wide variety of comestible products and allows highly versatile flavoring possibilities.

A topical flavor composition comprising at least one hydrophilic flavor compound and at least one lipophilic flavor compound, the flavor composition being a water-in-oil emulsion having a continuous non-aqueous phase and a disperse aqueous phase, the at least one lipophilic flavor compound being dissolved or dispersed in the continuous phase and the at least one hydrophilic flavor compound dissolved or dispersed in the disperse phase. The composition is useful for topical application to a wide variety of comestible products and allows highly versatile flavoring possibilities.

A two piece mold assembly is comprised of flexible material, suitable for baking wherein the two pieces are joined together in a vertical orientation or a stacked orientation and held together by an interlocking seal structure. Once joined together, the mold assembly defines an interior cavity defining a shape for a baked comestible product. A comestible substance is injected into the interior cavity through an aperture in the top of the mold assembly that is either defined by one or more of the two pieces. The interlocking seal prevents egression of injected liquid from extruding outside the mold assembly. After baking, the pieces of the mold can be peeled away from the comestible product at the interlocking seal structure.

A two piece mold assembly is comprised of flexible material, suitable for baking wherein the two pieces are joined together in a vertical orientation or a stacked orientation and held together by an interlocking seal structure. Once joined together, the mold assembly defines an interior cavity defining a shape for a baked comestible product. A comestible substance is injected into the interior cavity through an aperture in the top of the mold assembly that is either defined by one or more of the two pieces. The interlocking seal prevents egression of injected liquid from extruding outside the mold assembly. After baking, the pieces of the mold can be peeled away from the comestible product at the interlocking seal structure.

Embodiments herein include gluten-free baked products such as crackers, gluten-free flour formulations, and related methods. In an embodiment, a cracker flour substitute composition is included having a starch blend including a native starch with 20-30% amylose content, a cross-linked starch and a pre-gelatinized starch with 1-5% amylose content. The composition can include between 0 and 20 ppm gluten. In an embodiment, a shelf-stable baked cracker is included. The shelf-stable baked cracker can include a flour substitute composition including a starch blend having a native starch with 20-30% amylose content, a cross-linked starch, and a pre-gelatinized starch with 1-5% amylose content. The composition can include between 0 and 20 ppm gluten. Other embodiments are also included herein.

Embodiments herein include gluten-free baked products such as crackers, gluten-free flour formulations, and related methods. In an embodiment, a cracker flour substitute composition is included having a starch blend including a native starch with 20-30% amylose content, a cross-linked starch and a pre-gelatinized starch with 1-5% amylose content. The composition can include between 0 and 20 ppm gluten. In an embodiment, a shelf-stable baked cracker is included. The shelf-stable baked cracker can include a flour substitute composition including a starch blend having a native starch with 20-30% amylose content, a cross-linked starch, and a pre-gelatinized starch with 1-5% amylose content. The composition can include between 0 and 20 ppm gluten. Other embodiments are also included herein.

Embodiments herein include gluten-free baked products such as breads gluten-free flour formulations, and related methods. In an embodiment, a bread flour substitute composition is included having a starch blend and a hydrocolloid blend. The starch blend can include a native starch with 20-30% amylose content, a native waxy starch with 0-1% amylose content, and a cross-linked starch. The hydrocolloid blend can include hydroxypropyl methylcellulose (HPMC) and psyllium fiber. The composition can include between 0 and 20 ppm gluten. Other embodiments are also included herein.

Embodiments herein include gluten-free baked products such as breads gluten-free flour formulations, and related methods. In an embodiment, a bread flour substitute composition is included having a starch blend and a hydrocolloid blend. The starch blend can include a native starch with 20-30% amylose content, a native waxy starch with 0-1% amylose content, and a cross-linked starch. The hydrocolloid blend can include hydroxypropyl methylcellulose (HPMC) and psyllium fiber. The composition can include between 0 and 20 ppm gluten. Other embodiments are also included herein.

A two piece mold assembly is comprised of flexible material, suitable for baking wherein the two pieces are joined together in a vertical orientation or a stacked orientation and held together by an interlocking seal structure. Once joined together, the mold assembly defines an interior cavity defining a shape for a baked comestible product. A comestible substance is injected into the interior cavity through an aperture in the top of the mold assembly that is either defined by one or more of the two pieces. The interlocking seal prevents egression of injected liquid from extruding outside the mold assembly. After baking, the pieces of the mold can be peeled away from the comestible product at the interlocking seal structure.