JP7553222B2 - Yudane and its manufacturing method - Google Patents

Description

The present invention relates to a tangzhong used in the manufacture of bakery products or noodle skin products and a method for manufacturing the same. Furthermore, the present invention relates to bakery dough and bakery products using the tangzhong, and methods for manufacturing the same.

A method using tangzhan (also called the tangzhan method or tang kneading method) has been known as a method for giving bakery products such as bread a unique moist and chewy texture. For example, as described in Patent Documents 1 to 3, a method for producing bakery products using tangzhan involves kneading yeast-free cereal flour ingredients in the presence of high-temperature water to make tangzhan dough, which is then used to make bakery dough by various bread-making methods such as the straight dough method and sponge dough method, and then producing bakery products.

However, it is known that bakery dough containing tangzane becomes more sticky and less elastic depending on the amount of tangzane added. This means that the dough tends to stick to manufacturing equipment such as mixer bowls, making it difficult to work with. It is also difficult to achieve consistent mixing, which can lead to problems with product quality.

As a method for improving this problem, a method of adding gluten when mixing bakery dough is known, but although this improves the elasticity of the dough, it does not improve the adhesiveness (stickiness). Also, a method of adding tangdane in several portions during the mixing process of bakery dough is known (Patent Document 4), but this is not a sufficient means for improving adhesiveness.

Patent No. 3080368 JP 2000-262205 A JP 2002-034436 A JP 2017-163929 A

The present invention aims to improve production workability by suppressing the stickiness (stickiness) of bakery dough, which was a drawback, while maintaining the moist, chewy texture that is characteristic of the conventional Yudane production method. Specifically, the present invention aims to provide Yudane that is suitable for use in improving the workability of the Yudane production method, and a Yudane composition as a raw material for the Yudane. It also aims to provide bakery dough and bakery products that use the Yudane, as well as methods for producing them.

The inventors of the present invention have conducted extensive research to solve the above problems, and have discovered that when producing bakery products using the Yudane method, by using Yudane made from wheat flour and vegetable protein as the raw material for the Yudane, it is possible to suppress the stickiness (stickiness) of the bakery dough while maintaining the unique texture obtained by the Yudane method. As a result, it is possible to improve the long-standing problem of the Yudane method, that is, the sticking of the dough to the manufacturing machinery and the resulting decrease in workability, and it is possible to efficiently produce bakery products of stable quality.

The present invention was completed based on this series of findings and has the following embodiments.

(I) Composition for Yudane, Yudane, and its manufacturing method (I-1) A composition for Yudane containing wheat flour and vegetable protein added separately from wheat flour (hereinafter referred to as "external vegetable protein").
(I-2) The composition for soup stock according to (I-1), wherein the vegetable protein is at least one selected from the group consisting of wheat protein, soy protein, pea protein, and corn protein.
(I-3) A yu-dane containing wheat flour, vegetable protein added separately from wheat flour, and water.
(I-4) The soup stock according to (I-3), wherein the vegetable protein is at least one selected from the group consisting of wheat protein, soy protein, pea protein, and corn protein.
(I-5) A method for producing a yudan described in (I-3) or (I-4), comprising a step of kneading a yudan composition described in (I-1) or (I-2) in the presence of water at a temperature equal to or higher than the gelatinization onset temperature of wheat flour.

(II) Bakery dough and its manufacturing method (II-1) Bakery dough containing the tang described in (I-3) or (I-4), or the tang obtained by the manufacturing method described in (I-5).
(II-2) The bakery dough according to (II-1), further comprising starch and yeast.
(II-3) A method for producing bakery dough, comprising the steps of adding at least starch, yeast and water to the Tangzhong described in (I-3) or (I-4), or the Tangzhong obtained by the production method described in (I-5), and kneading the mixture; or, separately from the Tangzhong, kneading a composition containing at least starch, yeast and water to produce a sponge, and kneading the sponge with the Tangzhong.
(II-4) The bakery dough according to (II-1), or the method for producing the bakery dough according to (II-3), wherein the bakery dough is dough for at least one type of bakery product selected from the group consisting of bread, Western confectionery (e.g., cake, waffle, crepe, donut, pie, pizza, biscuit, etc.), and Japanese confectionery (e.g., dorayaki, etc.).

(III) Bakery products and their manufacturing methods (III-1) Bakery products obtained by heating the bakery dough described in (II-1) or (II-2), or the bakery dough obtained by the manufacturing method described in (II-3) or (II-4).
(III-2) A method for producing a bakery product, comprising a step of fermenting, as necessary, the bakery dough according to (II-1) or (II-2), or the bakery dough obtained by the production method according to (II-3) or (II-4), and then heating the bakery dough.
(III-3) The bakery product according to (III-1), which is at least one type of bakery product selected from the group consisting of bread, Western confectionery (e.g., cake, waffle, crepe, donut, pie, pizza, biscuit, etc.), and Japanese confectionery (e.g., dorayaki, etc.), or the method for producing the bakery product according to (III-2).

(IV) Uses of Tangzhong (IV-1) A method for producing bakery products or noodle skin products using the Tangzhong described in (I-3) or (I-4), or the Tangzhong obtained by the production method described in (I-5).
(IV-2) A method for reducing the stickiness of dough, comprising preparing dough using, as the yudane, the yudane described in (I-3) or (I-4), or the yudane obtained by the production method described in (I-5).

According to the present invention, by using vegetable protein in addition to wheat flour as one of the ingredients of Yudane, it is possible to suppress the stickiness (stickiness) of the dough, which is a conventional problem with the Yudane method, while maintaining the moist and chewy texture that is characteristic of the Yudane method. As a result, it is possible to improve the decrease in work efficiency caused by the dough sticking to the manufacturing equipment, etc., and the decrease in product quality caused by the dough not being mixed consistently due to the sticking and not being sufficiently formed. As a result, according to the present invention, it becomes possible to mass-produce stable products using the Yudane method.

(I) Composition for Tang Dian, Tang Dian, and its manufacturing method
(I-1) Tangzhong Composition The Tangzhong composition targeted by the present invention is a composition used for preparing Tangzhong. The Tangzhong composition is characterized by containing a vegetable protein in addition to wheat flour. The Tangzhong targeted by the present invention is an intermediate dough in which part of the starch in wheat flour is gelatinized, and is used in the Tangzhong manufacturing method, which is widely known as a method for manufacturing bakery products such as bread. The Tangzhong manufacturing method is a known method for manufacturing bakery products by first kneading wheat flour used as one of the raw materials for bakery products with water and the like at a desired temperature to produce Tangzhong (intermediate dough), and then kneading, fermenting, heating, etc., the obtained Tangzhong with the remaining raw materials (starch, yeast, auxiliary raw materials).

The vegetable protein (externally added vegetable protein) used in the present invention can be edible protein derived from a plant. To that extent, it is not particularly limited, but examples include wheat protein such as gluten; legume protein such as soybean protein and pea protein; and corn protein such as zein. Preferred examples include wheat protein, gluten, and soybean protein. Note that it is not necessarily necessary to use a purified product consisting of 100% protein as the vegetable protein, and a crude purified product containing protein can also be used. For example, soybean flour is a food material (vegetable protein-containing material) containing soybean protein at a ratio of about 35.5% by mass, and can also be suitably used in the present invention. Such vegetable protein-containing materials are commercially available, and examples of food materials containing gluten include "A-Glu G" (protein content 76% by mass) and "A-Glu SS" (protein content 83.2% by mass) (both manufactured by Glico Nutrition Foods Co., Ltd.); food materials containing soy protein include kinako (protein content 35.5% by mass), "Fresh Flower S55" (protein content 37.5% by mass), "Fresh RF" (protein content 46.3% by mass) (both manufactured by Showa Sangyo Co., Ltd.), and "Fujipro-F" (protein content 90.8% by mass) (both manufactured by Fuji Oil Co., Ltd.); and food materials containing pea protein include "PP-CS" (protein content 77% by mass) (both manufactured by Organo Foodtech Co., Ltd.), and the like, without limitation.

The wheat flour used in the yudan composition can be appropriately selected from strong flour, semi-strong flour, medium flour, weak flour, whole wheat flour, durum wheat flour, etc., depending on the type of bakery product to be produced.

In the Tangdane composition, the ratio of the externally added vegetable protein used in combination with wheat flour can be, for example, 65% by mass or less of the externally added vegetable protein relative to 100% by mass of wheat flour. Preferably, it is 50% by mass or less, and more preferably, it is 20% by mass or less. In addition, the amount of the externally added vegetable protein relative to 100% by mass of wheat flour can be, for example, 0.2% by mass or more. Preferably, it is 0.5% by mass or more, and more preferably, it is 2% by mass or more. Here, "% by mass" is expressed in baker's %. Baker's % is a unit notation commonly used in the field of bakery products, and represents the weight ratio of other ingredients when the total weight of starch (here, wheat flour) in the blended ingredients is taken as 100%.

The composition for tangzhong of the present invention may be composed of the wheat flour and the externally added vegetable protein, but may also contain secondary raw materials in addition to the above-mentioned components, as long as the effect of the present invention is not hindered. Examples of secondary raw materials include, but are not limited to, starches other than wheat flour, fats and oils (shortening, lard, margarine, butter, liquid oil, powdered fats and oils, etc.), salt, sugars (liquid or powdered sugars such as trehalose, glucose, fructose, lactose, sugar, maltose, isomaltose, etc.), sugar alcohols (liquid or powdered sugar alcohols such as sorbitol, maltitol, palatinit, reduced starch syrup, etc.), emulsifiers (lecithin, sucrose fatty acid esters, glycerin fatty acid esters, etc.), enzymes, seasonings (amino acids, nucleic acids, etc.), and flavorings. These secondary raw materials may be used alone or in combination of two or more. The composition for tangzhong of the present invention may contain starches other than wheat flour, but preferably does not contain rice flour.

In the present invention, the term "starchy substance" refers to an edible raw material containing starch prepared in a powder form. Such starchy substances include cereal flours and starches. Examples of cereal flours include wheat flour (strong flour, weak flour, semi-strong flour, medium-strength flour, whole wheat flour, durum wheat flour, wheat germ, bran, etc.), rice flour (joshinko, joyoko, mochi flour, shiratamako, brown rice flour, etc.), barley flour, rye flour, corn flour, millet flour, barnyard millet flour, pigeon barley flour, buckwheat flour, etc. Examples of starches include unprocessed starches made from corn, glutinous corn, potato, kudzu, tapioca, sago, etc. Furthermore, processed starches made from such starches and subjected to physical and/or chemical treatments (enzyme treatment, moist heat treatment, gelatinization, hydroxypropylation, crosslinking, etc.) are also included in the starches.

(I-2) Yuzane and its manufacturing method The Yuzane of the present invention is manufactured by kneading the above-mentioned Yuzane composition, that is, a mixture of wheat flour, an externally added vegetable protein, and, if desired, a secondary raw material, under high temperature conditions in the presence of water (hereinafter, this process is also referred to as the "Yuzane manufacturing process"). Here, "kneading under high temperature conditions" means kneading under conditions in which the Yuzane reaches a high temperature at least once during kneading. As the temperature condition (high temperature condition) reached, a temperature condition above the temperature at which the starch in the wheat flour starts to gelatinize (gelatinization onset temperature) can be mentioned. Such a temperature condition varies depending on the amount of water, but can be, for example, 50°C or higher, preferably 55°C or higher. The upper limit of such a temperature is not limited as long as it does not hinder the gelatinization of starch, but can be, for example, about 100°C or lower, preferably about 95°C or lower, more preferably about 90°C or lower.

An example of a method for kneading under such high temperature conditions is a method in which the mixture of the raw materials is kneaded using warm to hot water as the water. The temperature of the warm to hot water is not particularly limited as long as it is equal to or higher than the gelatinization start temperature of the starch in the wheat flour as described above, but can be, for example, about 70 to 100°C, preferably about 80 to 100°C. The proportion of water used in the production of the yudan is, for example, 30 to 80% by mass, preferably 35 to 70% by mass, and more preferably 40 to 70% by mass, calculated as the moisture content in the yudan (100% by mass). In order to achieve such a moisture content, the moisture content relative to 100% by mass (baker's %) of wheat flour used in the yudan can be, for example, 50 to 600% by mass, preferably 60 to 300% by mass, more preferably 70 to 300% by mass, and particularly preferably 100 to 250% by mass, and can be appropriately adjusted within such ranges.

As another method for kneading the above-mentioned Tangdong composition, i.e., a mixture of wheat flour, externally added vegetable protein, and optionally the above-mentioned secondary raw materials, under high temperature conditions in the presence of water as described above, for example, water at room temperature can be used, and the mixture can be kneaded while being heated by any method such as steam, direct flame, microwave oven, or oven, so that the Tangdong reaches the above-mentioned high temperature state at least once during kneading. Note that room temperature here can be, for example, 20°C±15°C (5-35°C), preferably 15-25°C.

The kneading method (kneading method) is not particularly limited and can be carried out according to a standard method. Although not limited, a simple method is to knead using a mixer such as a high-speed mixer. By kneading in this way, it is preferable to adjust the kneading temperature of the Yudane to, for example, 50 to 80°C, preferably 60 to 70°C.

The ratio of the externally added vegetable protein to 100% by mass of wheat flour contained in the Yudane produced in this manner is as described above for the Yudane composition. The content of the externally added vegetable protein contained in 100 g of Yudane is not limited, but can be, for example, 15 g or less. It is preferably 8 g or less, and more preferably 6 g or less. The lower limit is not limited, but can be, for example, 0.05 g or more. It is preferably 0.1 g or more, and more preferably 1 g or more. If the content of the externally added vegetable protein contained in the Yudane is too high, the moist and chewy texture tends to decrease, resulting in a texture that is chewy.

The tangdong produced in this way may be used as it is as an ingredient for producing bakery dough, or may be divided into portions as necessary and stored at room temperature, refrigerated (including chilled refrigerated storage and partially refrigerated storage), or frozen. The tangdong covered by the present invention includes such room temperature tangdong, refrigerated tangdong, and frozen tangdong.

Methods for storing Yudane at room temperature include, but are not limited to, sealing the kneaded Yudane in an airtight film such as polyethylene and storing it at a temperature range of, for example, 15°C to 25°C. As a method for storing Yudane in the refrigerator, for example, sealing the kneaded Yudane in the airtight film and storing it at a temperature range of, for example, -3°C to 5°C. As a method for freezing Yudane, for example, sealing the kneaded Yudane in the airtight film and storing it at a temperature range of, for example, -40°C to -15°C. Yudane stored frozen in this way can be used by thawing as appropriate.

(II) Bakery dough, bakery products and their manufacturing methods
(II-1) Bakery Dough and Its Manufacturing Method The above-mentioned Tangzhong of the present invention can be used as an ingredient for dough for manufacturing bakery products (referred to as "bakery dough" in the present invention).

The bakery dough of the present invention can be produced by kneading the tangzhong obtained by the above method, the raw materials for producing the bakery dough (hereinafter also referred to as "raw materials for dough production"), and water, if desired. Specifically, the bakery dough of the present invention can be produced by putting the tangzhong of the present invention, the raw materials for dough production, and water, if desired, into a mixer and kneading them (straight method). The bakery dough of the present invention can also be produced by kneading the raw materials for dough production and a part of the water separately from the tangzhong obtained by the above method, producing a sponge dough by fermenting it, and kneading this sponge dough together with the tangzhong of the present invention, the remaining raw material flour for dough production, and water (sponge method). Note that the method of producing the bakery dough of the present invention is not limited to these methods as long as the tangzhong obtained by the above method is used, and any of the known methods for producing bakery dough, such as a method using a liquid seed, a sweetened sponge method, an autolyse method, and a no-time method, can be used. The process of producing bakery dough by these methods is hereinafter also simply referred to as the "dough production process".

Raw materials for producing bakery dough (raw materials for producing dough) include, but are not limited to, starch and yeast (baker's yeast: fresh yeast, dry yeast, instant dry yeast, etc.).

When producing bakery dough, one type of starch may be used alone, or two or more types may be used in combination. When producing bakery dough, the starch preferably contains at least one type selected from cereal flours. More preferably, it contains wheat flour.

Depending on the type of bakery product, other ingredients may be added as necessary, such as salt or other salts (sodium chloride, potassium chloride, etc.); yeast food (inorganic food, organic food, enzyme-based food, etc.); leavenings (self-cultured leavenings, simple leavenings, sake leavenings, levain leavening, panettone leavening, yogurt leavening, sourdough leavening, etc.); fats and oils (solid or liquid fats (shortening, lard, margarine, butter, etc.), liquid oils (olive oil, vegetable oil, etc.), powdered fats and oils, folded fats, etc.); sugars (liquid or powdered sugars such as trehalose, glucose, fructose, lactose, sugar, maltose, isomaltose, honey, malt, etc.); sugar alcohols (sorbitol, maltitol, palatinitol, etc.); Other examples of suitable additives that can be used include liquid or granular sugar alcohols such as sugar alcohols in liquid or granular form, such as sugar syrup, reduced starch syrup, etc.; dairy products (milk, milk powders (including skim milk powder), creams, cheeses, yogurt, etc.); egg products; thickeners (thickening polysaccharides such as xanthan gum, guar gum, alginate esters, pectin, tamarind seed gum, carrageenan, locust bean gum, gum arabic, galactomannan, gellan gum, etc.; carboxymethylcellulose, hydroxypropylmethylcellulose, etc.); leavening agents (sodium bicarbonate, ammonium carbonate, baking powder, etc.); emulsifiers (lecithin, sucrose fatty acid esters, glycerin fatty acid esters, sorbitan fatty acid esters, etc.); enzymes; bread-making improvers; seasonings (amino acids, nucleic acids, etc.), preservatives, or flavorings. Depending on your preference, you can also add dried fruits (raisins, dates, etc.), nuts (cashew nuts, hazelnuts, macadamia nuts, chestnuts, walnuts, pecan nuts, pistachio nuts, coconuts, etc.), seeds (pumpkin seeds, sunflower seeds, poppy seeds, sesame seeds, etc.).

The proportion of the Tangdane of the present invention in bakery dough is not limited, but can be, for example, 2 to 50% by mass, preferably 5 to 40% by mass, and more preferably 7 to 30% by mass, based on 100% by mass of bakery dough. If this is expressed as the proportion of Tangdane when the total weight of starchy substances not derived from Tangdane contained in bakery dough is taken as 100% by mass, it can be, for example, 4 to 110% by mass, preferably 10 to 100% by mass, and more preferably 15 to 90% by mass, but is not limited.

The amounts of water and raw materials other than the yudane and starch used in making the dough can be appropriately determined by a person skilled in the art within the range in which bakery dough can be made according to the conditions of the conventionally known yudane manufacturing method.

(II-2) Bakery products and their manufacturing method Using the bakery dough thus produced, bakery products can be manufactured according to a standard method depending on the type of bakery product. The bakery products covered by the present invention are processed foods manufactured by heating, such as baking, steaming, steam-frying, deep-frying, and microwave cooking, using starch as the main raw material, and include, but are not limited to, Western confectionery such as bread, cake, waffles, crepes, donuts, pies, pizza, and biscuits, and Japanese confectionery such as dorayaki. Examples of bread include bread for meals (e.g., white bread, rye bread, French bread, dry tack, variety bread, roll bread, etc.), cooked bread (e.g., hot dog, hamburger, pizza pie, etc.), sweet bread (e.g., jam bread, sweet bean bread, cream bread, raisin bread, melon bread, sweet roll, croissant, brioche, Danish, cornet, etc.), steamed bread (e.g., meat bun, Chinese bun, bean bun, etc.), special bread (grissini, English muffin, naan, etc.), etc. Examples of cake include steamed cake, sponge cake, butter cake, roll cake, pancake, bussee, Baumkuchen, pound cake, cheesecake, snack cake, etc. In addition to the above, Western confectionery includes castella, cookies, and sable. In addition to the above, Japanese confectionery includes manju, taiyaki, and kaitenyaki.

For example, when the bakery product is bread, the dough fermentation process and the heating process are carried out after the dough production process. Specifically, for example, when bread is produced by the straight method, the dough production process is followed by the fermentation process (floor), the division process, the rounding process, the resting process (bench), the shaping process, the proofing oven (final fermentation), and the heating process. When bread is produced by the sponge method, sponge is made from a part of the ingredients, fermented (first fermentation), and then the fermented sponge and the remaining ingredients are added and kneaded, followed by the second fermentation (a relatively short fermentation process of about 30 minutes), followed by the division process, the rounding process, the resting process (bench), the shaping process, the proofing oven (final fermentation), and the heating process. The operations and conditions used in the conventional bread-making process are used for the operations and conditions used in the conventional bread-making process. The heating process can be carried out by baking, steaming, broiling, deep frying, microwave cooking, etc., depending on the type of bakery product.

(III) Use of Tangzhong (III-1) Use in the production of bakery products, etc. According to the Tangzhong of the present invention described above, the stickiness (stickiness) of the dough produced by the Tangzhong method is suppressed or reduced compared to the case of using a conventional Tangzhong prepared without adding a separate vegetable protein, and as a result, the poor production workability that has been a problem in the conventional Tangzhong method can be improved. These problems in the Tangzhong method and the improvement effect of the present invention against them are not limited to the bakery products described above, but are applicable to all processed foods produced using the Tangzhong method. For this reason, the Tangdong of the present invention can be used not only to produce bakery products, but also to produce various starchy products produced using the Tangdong method, such as udon, soba, Chinese noodles, pasta, somen, hiyamugi, gyoza skins and other skins, fresh noodles, dried noodles, semi-fresh noodles, boiled noodles, steamed noodles, LL (long life) noodles, frozen noodles, instant noodles and other noodle skins (JP Patent Publication No. 2013-223461, JP Patent Publication No. 2016-127814).

(III-2) Method for reducing stickiness of dough The present invention provides a method for reducing the stickiness of dough using Tangzhong in the Tangzhong production method.

This method can be carried out by using the above-mentioned Tangzhong of the present invention, that is, Tangzhong containing wheat flour and water as well as vegetable protein (externally added vegetable protein) as the Tangzhong used in the Tangzhong manufacturing method. The externally added vegetable protein can be at least one selected from the group consisting of wheat protein, soy protein, pea protein, and corn starch. Specifically, the Tangzhong can be produced through a process of kneading a composition containing wheat flour and the externally added vegetable protein in the presence of water at a temperature equal to or higher than the gelatinization onset temperature of wheat flour starch. In the Tangzhong, the content ratio of the externally added vegetable protein is as described in (I) above and can be incorporated herein. In addition, the type of wheat flour and auxiliary raw materials used in the production of the Tangzhong, as well as the production method thereof, are as described in (I) above and can be incorporated herein.

According to the method of the present invention, the stickiness (stickiness) is suppressed or reduced compared to dough prepared using Tangdane produced without adding any vegetable protein separately from wheat flour, and as a result, the problems of poor production workability and/or deterioration of product quality due to insufficient dough formation, which were problems in the conventional Tangdane production method, can be improved. The degree of stickiness (stickiness) of dough prepared using Tangdane can be evaluated from the adhesion of the dough prepared using Tangdane to the wall of a mixer bowl or the adhesion to fingers when checking the texture of the dough, as explained in the experimental example described below. If the adhesion to the wall of a mixer bowl and/or the adhesion to fingers when checking the texture of the dough is suppressed or reduced compared to dough prepared using a control Tangdane produced without adding any vegetable protein separately from wheat flour, the Tangdane used in the preparation of the dough has the effect of reducing the stickiness of the dough, and it can be judged to be a Tangdane that can be suitably used in the method of the present invention.

As mentioned above, in this specification, the terms "comprise" and "contain" include the meanings of "consist of" and "consist essentially of."

In the following, the present invention will be described using experimental examples to aid in understanding the configuration and effects of the present invention. However, the present invention is not limited by these experimental examples. The following experiments were carried out at room temperature (25±5° C.) and atmospheric pressure conditions unless otherwise specified. In addition, "%" means mass % unless otherwise specified.
It shall be so.

Experimental Example 1: Effect of Tangdane with Vegetable Proteins Various Tangdane containing vegetable proteins (wheat protein [gluten], soy protein) were used to make bread by the Tangdane method, and the workability (dough adhesiveness (stickiness)), dough formability (dough extensibility and elasticity), appearance (volume) and texture (softness, moistness) of baked bakery products were evaluated. These evaluations were performed by a panel of five experts who had experience in bread making and were trained in sensory evaluation tests of bakery products.

(1) Yudane Manufacturing Process Yudane was manufactured according to the recipe shown in Table 1 using wheat protein gluten [gluten 1: product name "A Glu G" manufactured by Glico Nutrition Foods Co., Ltd. (protein content: 76%), and gluten 2: product name "A Glu SS" manufactured by Glico Nutrition Foods Co., Ltd. (protein content: 83.2%)] as the vegetable protein, and soy protein (product name "Fujipro-F" manufactured by Fuji Oil Co., Ltd., protein content: 90.8%).

Wheat flour (strong flour or weak flour) and gluten 1, gluten 2 or soy protein were placed in a mixer bowl in the above proportions, and hot water (98°C) was added and mixed and kneaded for 3 minutes to prepare a tangdao with a kneading temperature of 65°C. Each of the resulting tangdao was transferred to a tray and allowed to cool to room temperature. After cooling, the tangdao was divided into 300g portions in plastic bags and frozen in a -25°C freezer.

(2) Bread-making process (straight method)
Using each of the Tangzhong prepared above (Comparative Examples A to B, Examples A to D), breads (Reference Example, Comparative Examples 1 to 3, Examples 1 to 4) were produced according to the recipes in Table 2. The Tangzhong products were thawed before use.

Specifically, all the ingredients except shortening were added to a mixer bowl in the proportions shown in Table 2 above, and mixed and kneaded (low-speed mixing for 4 minutes + medium-speed mixing for 6 minutes). The shortening was added, and the mixture was further kneaded (low-speed mixing for 3 minutes + medium-speed mixing for 4 minutes) to prepare a bakery dough with a kneading temperature of 27°C. The low-speed mixing was performed at a rotation speed of 150 rpm, and the medium-speed mixing was performed at a rotation speed of 250 rpm. The obtained bakery dough was fermented for 60 minutes as floor time (temperature 28°C, relative humidity 80%), then divided into 80 g portions, rolled, and rested at room temperature for 20 minutes as bench time, and then formed into rolls. This was fermented for 60 minutes in the proofing room (temperature 38°C, relative humidity 85%), and then baked at 200°C for 10 minutes to produce roll-shaped bakery products (roll bread).

(3) Evaluation For the various roll breads (Reference Example, Comparative Examples 1 to 3, Examples 1 to 4) produced by the above method, a panel of five experts evaluated the workability (dough adhesiveness (stickiness)), dough formability (dough extensibility and elasticity), appearance (volume) and texture (chewy, moist) of the baked bakery products based on the criteria shown in Table 3. In the workability evaluation, the "adhesion to fingers when checking the dough texture" was evaluated based on the adhesion of the dough to the fingers when a part of the bakery dough was torn off and stretched with both hands to spread it into a film. The dough formability (dough extensibility and elasticity) was evaluated based on the stretchiness (thinness of the dough) and resistance of the dough when the bakery dough was spread into a film during the above "dough texture confirmation". The stickiness of the dough, dough formability (extensibility and elasticity) and the volume of the baked bakery products have the following relationship. If the dough is too sticky, it will stick to the manufacturing equipment and will not mix well. As a result, if the dough is not formed properly and the gluten is not connected, the dough will appear to be very stretchy (excessively extensible), but will have very little elasticity. For this reason, dough formability must be evaluated in terms of both extensibility and elasticity. If the dough is not formed properly and the gluten is not connected, it will be like a balloon with many holes in the membrane, making it difficult to achieve volume after baking. When using Yudane, the volume and texture of baked baked products have the following relationship: If the volume is small, the texture will be "not moist or will tend to be hard": if the volume is standard, the texture will be "chewy and moist" because the dough is formed properly; if the volume is large, the texture will be "dry and pliable".

The results of evaluation of a reference example (bread made by a normal method without using yudan) based on the evaluation criteria in Table 3 above are shown in Table 4 below. Comparative Examples 1 to 3 and Examples 1 to 4 were evaluated in comparison with the results of this reference example. The tackiness (stickiness) of the dough, which relates to workability, was evaluated comprehensively based on both the presence or absence of the dough adhering to the mixer bowl wall and the adhesion to the fingers when checking the texture of the dough. The results are shown in Table 4. The numerical values shown in Table 4 are scores determined through consultation by a panel of five experts who had agreed on and standardized the evaluation criteria.

表４に示すように、従来の湯種（植物性たん白質非外添：比較例Ａ）を用いて、ストレート法により製造したベーカリー生地（比較例１）は、参考例と比較して、粘着性（べたつき）が強くて、製造工程での作業性は悪く、また伸展性が強い一方で弾力性は弱く、生地形成が充分になされていない状態であった。しかし、この生地から製造されたパンは、湯種製法の特徴である食感（もっちり、しっとり感）を充分に備えていた。また、従来の湯種（植物性たん白質非外添）に加えて、小麦たん白であるグルテンを別添加して製造したベーカリー生地（比較例２）は、上記比較例１よりは改善されているものの、依然として粘着性（べたつき）が強く、製造工程での作業性はよくなく、また伸展性と弾力性のバランスが悪く、生地形成状態が不均一で、べたつく部分が残されていた。しかし、この生地から製造したパンも、湯種製法の特徴である食感（もっちり、しっとり感）を充分に備えていた。また、湯種の調製に使用する小麦粉として薄力粉を用いて製造したベーカリー生地（比較例３）は、強力粉を用いたベーカリー生地（比較例１）と同様に粘着性（べたつき）が強く、湯種製法の特徴である食感を備えていたが、もっちり、しっとり感は、比較例１よりもやや劣っていた。

As shown in Table 4, the bakery dough (Comparative Example 1) produced by the straight method using the conventional Yudane (no external addition of vegetable protein: Comparative Example A) was more sticky (sticky) than the reference example, and the workability in the production process was poor. Also, while the extensibility was strong, the elasticity was weak, and the dough formation was insufficient. However, the bread produced from this dough had a sufficient texture (chewy, moist) that is characteristic of the Yudane method. Also, the bakery dough (Comparative Example 2) produced by separately adding gluten, which is wheat protein, in addition to the conventional Yudane (no external addition of vegetable protein) was improved from the above Comparative Example 1, but still had a strong stickiness (stickiness), poor workability in the production process, a poor balance between extensibility and elasticity, and the dough formation state was uneven, with sticky parts remaining. However, the bread produced from this dough also had a sufficient texture (chewy, moist) that is characteristic of the Yudane method. In addition, the bakery dough produced using weak flour as the wheat flour used to prepare the Yudane (Comparative Example 3) was very sticky (sticky) like the bakery dough produced using strong flour (Comparative Example 1) and had the texture characteristic of the Yudane method, but the chewy and moist texture was slightly inferior to that of Comparative Example 1.

In contrast, bakery dough (Examples 1-4) made by the straight method using Yudane prepared by blending externally added vegetable proteins (wheat protein, soy protein) showed significantly less viscousness (stickiness) than Comparative Examples 1-3, and it was confirmed that workability was greatly improved. In addition, the extensibility and elasticity were also close to the standard (reference example), which confirmed that mixing was sufficient and dough formation was performed to the same extent as under standard conditions. Moreover, bread made from this dough fully possessed the texture (chewy and moist) that is characteristic of the Yudane method.

From the above, it was confirmed that by using Yudane containing externally added vegetable protein in the Yudane manufacturing method, the unique texture (chewy, moist) of the Yudane manufacturing method is maintained while the previous problem of the adhesiveness (stickiness) of the bakery dough is suppressed, improving manufacturing workability. In this experiment, similar results were obtained when wheat protein gluten and soy protein were used as externally added vegetable proteins, so it is thought that other vegetable proteins such as pea protein and corn zein can also be used in a similar way.

On the other hand, when bread was produced using the same Yudane method, but with Yudane containing milk protein, which is equivalent to animal protein, instead of vegetable protein as the externally added protein, the stickiness (stickiness) of bakery dough, which is a drawback of Yudane, was not suppressed. From this, it can be said that the effect of suppressing the stickiness (stickiness) of bakery dough in the Yudane method of the present invention is a unique effect obtained by using Yudane with added vegetable protein as the externally added protein.

Experimental Example 2: Amount of vegetable protein in YudaneThe amount of added vegetable protein in Yudane used in the Yudane manufacturing method was investigated, and its effect on workability (dough adhesiveness (stickiness)), dough formability (dough extensibility and elasticity), appearance (volume) and texture (chewy, moist) of baked bakery products were investigated. Each evaluation was performed by a panel of five experts based on the same criteria as in Experimental Example 1.

(1) Tangzhong manufacturing process Using gluten (wheat protein) as the vegetable protein, Tangzhong was manufactured according to the recipe shown in Table 5. In Table 5, Comparative Example D is Tangzhong having the same recipe as Comparative Example A described above, and Example I is Tangzhong having the same recipe as Example A described above (see Table 1).

The wheat flour and gluten were placed in a mixer bowl in the above ratio, and then hot water (98°C) was added and mixed and kneaded for 3 minutes to prepare a tangdong with a kneading temperature of 65°C. The resulting tangdong was transferred to a tray and allowed to cool to room temperature. The tangdong was then divided into 300g portions in plastic bags and frozen in a -25°C freezer.

(2) Bread-making process (straight method)
Using each of the Tang Dynasties prepared above, roll breads (Comparative Examples 4 to 5, Example 1, Examples 5 to 11) were produced in the same manner as in Experimental Example 1 according to the recipes in Table 6. The Tang Dynasties were used after thawing the frozen products.

[Production conditions]
Mixing: low speed mixing for 4 minutes → medium speed mixing for 6 minutes → fat addition → low speed mixing for 3 minutes → medium speed mixing for 4 minutes Kneading temperature: 27°C
Floor time (28℃, rh80%): 60 minutes Divided weight: 80g
Bench time: 20 minutes Forming: Roll forming Proofing (38℃, rh85%): 60 minutes Baking: 200℃, 10 minutes

(3) Evaluation As in Experimental Example 1, the various roll breads (Comparative Examples 4-5, Examples 5-11) produced by the above method were evaluated by a panel of five experts on workability (dough adhesiveness (stickiness)), dough formability (dough extensibility and elasticity), appearance (volume) of baked bakery products, and texture (chewy, moist) based on the criteria listed in Table 3. The results are shown in Table 7. The numerical values shown in Table 7 are scores determined through consultation among the five experts.

As shown in Table 7, the bakery dough (Comparative Examples 4 and 5) made by the Yudane method (straight method) using conventional Yudane (no external vegetable protein added) was more sticky (sticky) than the Reference Example, making it difficult to work with during the manufacturing process, and while it had strong extensibility, it had weak elasticity, meaning that the dough was not fully formed. However, the bread made from this dough had a sufficient texture (chewy and moist) that is characteristic of the Yudane method.

In contrast, the bakery dough (Examples 5 to 11) made by the Yudane method (straight method) using the Yudane prepared by blending externally added vegetable protein (wheat protein) was significantly less sticky (sticky) than Comparative Examples 4 and 5, and it was confirmed that the workability was greatly improved. In addition, the extensibility and elasticity were close to the standard (reference example), and it was confirmed that the dough formation was performed to the same extent as in the standard state. Moreover, the bread made from this dough had a sufficient texture (chewy and moist) that is characteristic of the Yudane method. In addition, from the results of this experiment, it was confirmed that the effect of the present invention is exhibited when the Yudane contains externally added vegetable protein. In addition, although not limited, it was confirmed that the effect of the present invention is more suitably exhibited when the content of externally added vegetable protein contained in 100 g of Yudane is 0.09 g or more.

Claims (10)

A yudan containing wheat flour , bean-derived protein and water, in which the ratio of the bean- derived protein per 100 parts by mass of the yudan is 0.09 to 3.75 parts by mass (however, this does not include yudan prepared by mixing wheat flour, gluten, sucrose, acetic acid and water and subjecting the mixture to heat treatment). The method for producing tangdane includes a step of kneading a tangdane composition containing wheat flour and vegetable protein (external vegetable protein) added separately from the wheat flour in the presence of water at a temperature equal to or higher than the gelatinization onset temperature of the wheat flour, to prepare tangdane having a ratio of externally added vegetable protein of 0.09 to 3.75 parts by mass per 100 parts by mass of tangdane (excluding the step of mixing wheat flour, gluten, sucrose, acetic acid and water and heat treating). A bakery dough comprising the tangdane described in claim 1. The bakery dough according to claim 3, further comprising starch and yeast. A process for preparing a yudan composition containing wheat flour and a vegetable protein (externally added vegetable protein) added separately from the wheat flour by kneading the composition in the presence of water at a temperature equal to or higher than the gelatinization onset temperature of the wheat flour, thereby preparing a yudan having a ratio of the externally added vegetable protein of 0.09 to 3.75 parts by mass per 100 parts by mass of the yudan (excluding the process for mixing wheat flour, gluten, sucrose, acetic acid and water and performing a heat treatment);
A method for producing bakery dough, comprising a step of preparing bakery dough using the tangdane obtained in the above step . A bakery product obtained by heating the bakery dough described in claim 4. A process for preparing a yudan composition containing wheat flour and a vegetable protein (externally added vegetable protein) added separately from the wheat flour by kneading the composition in the presence of water at a temperature equal to or higher than the gelatinization onset temperature of the wheat flour, thereby preparing a yudan having a ratio of the externally added vegetable protein of 0.09 to 3.75 parts by mass per 100 parts by mass of the yudan (excluding the process for mixing wheat flour, gluten, sucrose, acetic acid and water and performing a heat treatment);
A step of preparing bakery dough using the tangzhong obtained in the above step; and
The method for producing a bakery product further comprises a step of fermenting the bakery dough obtained in the above step , if necessary, and then heating the same. A method for using the Tangzhong described in claim 1 in the manufacture of bakery products or noodle skin products. A method for reducing the stickiness of dough, comprising preparing dough using the Tangzhong described in claim 1 as the Tangzhong in a Tangzhong production method. A process for preparing a yudan composition containing wheat flour and a vegetable protein (externally added vegetable protein) added separately from the wheat flour by kneading the composition in the presence of water at a temperature equal to or higher than the gelatinization onset temperature of the wheat flour, thereby preparing a yudan having a ratio of the externally added vegetable protein of 0.09 to 3.75 parts by mass per 100 parts by mass of the yudan (excluding the process for mixing wheat flour, gluten, sucrose, acetic acid and water and performing a heat treatment);
and a step of producing a noodle skin using the tang obtained in the step.
A method for producing a noodle skin product.