A viscoelastic composition includes a gel matrix comprising hydrated hydrocolloid gel and cross-linked protein, at least one gluten-free flour source, a starch, and a leavener. In some embodiments, the gel matrix imparts gluten-like properties to a gluten-free viscoelastic composition.

A food composition for the preparation of a naturally leavened bakery product free of gluten or components thereof containing a starchy ingredient free of gluten or components thereof, a legume flour and partially hydrolysed guar gum having a molecular weight of between 500,000 Da and 1,000,000 Da is disclosed. The composition is free of cellulose derivatives; the legume flour may be chickpea flour, bean flour, faba bean flour, pea flour, lentil flour, preferably chickpea flour; the starchy ingredient free of gluten may be corn starch, rice flour, potato starch, pea starch, cassava starch, sorghum starch and mixtures thereof.

A confectionary mix may include: 20 to 60 mass % of a rice flour containing 40 mass % or more of a brown rice flour; and 10 to 50 mass % of a processed starch. The processed starch may be one or more of a crosslinked starch, an etherified crosslinked starch, and an acetylated starch. A method for producing a confectionary may include preparing a dough using the confectionary mix.

A method of extending the shelf life of a baked bread product containing wheat flour, includes providing for addition to a dough mix containing at least a portion of the wheat flour in the baked bread product recipe, an integrated shelf life extender composition which comprises in weight percent based on the total weight of the shelf life extender composition: a) about 10 wt. % to about 80 wt. % of at least one fat composition; b) about 1 wt. % to about 10 wt. % of at least one hydrocolloid adsorbent; c) about 1 wt. % to about 5 wt. % of at least one glyceride; d) about 1 wt. % to about 5 wt. % of at least one dough strengthener; e) about 1 wt. % to about 10 wt. % of at least one flavour component.

The integrated shelf life extender composition is added to the dough mix in an amount of about 0.5 wt. % to about 2 wt. %, based on the total weight of the baked bread product recipe. The dough mix containing the shelf life extender composition is thereafter incorporated into the baked bread product recipe in a particular embodiment, the baked bread product is white bread.

The process for producing low-gluten or gluten-free cooking dough for food purposes includes making a dough composition including, by weight relative to the total percentage by weight thereof: between 88.5 and 95% of dittany starch, between 0.1 and 0.5% of salt, between 40 and 65% of water, yeasts, between 3 and 5% of sugar, between 1.5 and 4% of pea protein, and between 0.2 and 3.6% of at least one thickener. The dough composition is kneaded in a closed chamber depressurized beforehand. Carbon dioxide CO2 is injected into the chamber at a pressure of between 25 and 550 mbar for 10 to 50 minutes simultaneously to the kneading step, so as to obtain a low-gluten or gluten-free cooking dough.

The present invention is directed to compositions comprising inter alia, protein, Fabaceae flour and polysaccharide and use thereof, such as egg substitute compositions.

The present invention relates to a method for the production of an edible object, comprising providing an edible powder composition and at least one edible liquid, wherein the edible powder composition comprises a water soluble protein, a hydrocolloid and a plasticizer, and subjecting said composition to powder bed printing by depositing the edible liquid by spraying it onto the powder and thereby obtaining the edible object. Also food products obtainable with the method of the invention, particularly, a pasta, a cake object and a protein bar are disclosed.

The present invention relates to a process for making an anhydrous fatty preparation to be incorporated in a product selected from a bakery product, a personal care product, cosmetics, dermocosmetics, soaps, varnishes, paints or snacks, preferably a bakery product, wherein said fatty preparation does not comprise fats with a saturated fat content higher than 35% by weight, nor trans fats, nor animal-derived products, nor totally or partially hydrogenated oils or fats, nor interesterified or transesterified fats, nor palm or coconut-derived oils or fats. The present invention further relates to a anhydrous fatty preparation and to a bakery product, a personal care product, cosmetics, dermocosmetics, soaps, varnishes, paints or snacks, preferably a bakery product comprising the same.

An efficient and high-quality preparation method of lyophilized vegetable noodles is disclosed, which uses high gluten wheat flour and vegetable powder as major raw materials, adds modified starch, edible salt, an emulsifier, edible colloid, a water retaining agent, edible oil, a flavoring agent, a colorant, maltodextrin and wheat gluten, and conducts rising, dough pressing, cooking, high temperature steam gelatinization, rinsing, ultrasonic treatment and infrared lyophilization to obtain convenient and instant lyophilized vegetable noodles. The lyophilized noodles processed by adopting the method have moisture content of 5%-8%, shortened drying time by more than 10 h than ordinary lyophilization, merit factor of more than 90%, easy brewing, smooth and pliable taste, strong aroma, yellowish color, long shelf life and low production power consumption. The method is an efficient preparation method of high-quality lyophilized vegetable noodles having high product yield, long shelf life, low energy consumption and applicability for industrial production.

A dough composition and manufacturing process suitable for a ketogenic diet, a low carbohydrate diet, a sugar-restricted diet, and/or a gluten-restricted diet. The dough composition comprises psyllium powder of 4% wt.; gum of 2% wt. to 4% wt.; pea protein of between 16-20% wt.; pea fibre of between 18-49% wt.; and chickpea flour of between 0-27% wt. Another dough composition comprises cauliflower powder of between 0-8% wt.; psyllium powder of between 5-10% wt.; flax meal of between 0-10% wt.; pea protein of between 15-36% wt.; pea fibre of between 18-46.5% wt.; and oat flour of between 0-25% wt. Finally, another dough composition comprises psyllium powder of 10% wt.; cauliflower powder of between 0-12.5% wt.; pea protein of between 18-31.5% wt.; pea fibre of between 22-42% wt.; baking powder of between 1-3.25% wt.; and salt of between 0.75-1.7% wt.