JP2021097616A - Natto-like food - Google Patents

Abstract

To provide a natto-like food using a textured soybean protein composition even without using whole soybeans or coarsely split soybeans, the natto-like food having a texture comparable to one of natto made from the whole soybeans or coarsely split soybeans.SOLUTION: A natto-like food of this invention which has a texture comparable to one of natto made from whole soybeans or coarsely split soybeans even without using the whole soybeans or coarsely split soybeans is obtained by using a textured soybean protein composition that satisfies conditions that: the protein content based on dry weight is 50 wt.% or more; and (a) bivalent metal is contained in an amount of 0.01-5 wt.%, and/or (b) a content ratio of protein/dietary fiber is 4 or more based on weight.SELECTED DRAWING: None

Description

The present invention relates to a natto-like food made from a structured soybean protein composition.

Natto is a food that is eaten on a daily basis, and not only its flavor but also its granular texture is important. Natto is generally produced by inoculating and fermenting steamed soybeans obtained by washing, dipping, and pressure-steaming raw soybeans with natto bacteria. Whole soybeans and ground soybeans are usually used as raw materials for natto, but there are problems such as the need for a soybean washing process, the need to soak the soybeans for a long time, and the time required for production. .. Therefore, natto-like foods using soybean protein-based materials that do not use whole soybeans or ground soybeans have been developed. A typical example of a soybean protein-based material is a structured soybean protein composition.

As an application related to a method for producing a natto-like food using a structured soybean protein composition as a raw material, for example, Patent Document 1 exists. Here, the heat-denatured powdered or structured soybean protein composition obtained from whole soybeans or defatted soybeans is reconstituted with warm water or after reconstitution with hot water, and then inoculated with natto bacteria and fermented. Describes how to make natto.
Further, in Patent Document 2, amino acids, monosodium glutamate, nucleic acids or sugars are added as necessary when the structured soybean protein is rehydrated with water at 30 ° C. or lower, or after the water is reconstituted, and natto bacteria are added. It describes a method for producing natto, which is inoculated and fermented. In Patent Document 3, a raw material containing soybean protein as a main component, containing 5 to 40% by weight of sugar and 50 to 80% by weight of water is treated with a twin-screw extruder and steamed, and the obtained steamed raw material is obtained. It describes a method for producing natto-like foods, which is inoculated with natto bacteria and fermented.

Japanese Patent Application Laid-Open No. 50-160452 JP-A-61-242554 Japanese Patent Application Laid-Open No. 62-244363

The present invention provides a natto-like food using a structured soybean protein composition that has a texture comparable to that of natto made from whole soybeans or ground soybeans even when whole soybeans or ground soybeans are not used. The challenge is to provide.

Conventionally, techniques relating to natto-like foods using a structured soybean protein composition have been known (Patent Documents 1 to 3). However, although there are innumerable structured soybean protein compositions these days, when the applicant examined using a plurality of structured soybean protein compositions, the finished natto-like food was not always good. It became clear that it does not always have a granular texture.

Therefore, in the present invention, even if whole soybeans or ground soybeans are not used, natto using a structured soybean protein composition having a texture comparable to that of natto made from whole soybeans or ground soybeans. We made a diligent study on food. Under such circumstances, it was possible to find the most suitable structured soybean protein composition for natto-like foods from among many existing structured soybean protein compositions, and surprisingly, structured soybean protein having a specific composition. By using the white composition, it is possible to obtain a natto-like food using a structured soybean protein composition, which has a texture comparable to that of natto made from whole soybeans or ground soybeans, which has never been seen before. We found what we could do and completed the present invention.

That is, the present invention
(1) Natto-like food containing a structured soybean protein composition, however, the structured soybean protein composition has a protein content of 50% by weight or more per dry weight, and the following (a) and / Or, satisfy the condition of (b),
(A) Containing 0.01 to 5% by weight of divalent metal,
(B) The protein content / dietary fiber content ratio is 4 or more on a weight basis.
(2) The natto-like food according to (1), wherein the structured soybean protein composition further satisfies the following conditions (c).
(C) Containing 5 to 45% by weight of oat fiber (3) Before inoculation with Bacillus natto, a structured soybean protein composition having a water content of 40 to 80% by weight was applied at 100 ° C to 140 ° C for 1 minute or more. The method for producing a natto-like food according to (1) or (2), which comprises a heating step.
It is about.

Although Patent Document 1 describes "a method for producing natto using a heat-denatured powdered or structured soybean protein composition", the composition of the structured soybean protein composition used. Is not disclosed, and the texture of the final natto is not disclosed. Patent Document 2 describes a method for producing natto using structured soybean protein as a raw material of defatted soybean or defatted soybean powder, but does not disclose the composition of the structured soybean protein composition used. In addition, natto-like foods obtained from structured soybean protein made from defatted soybeans do not necessarily have a granular texture comparable to that of natto using whole soybeans or ground soybeans.
Further, in Patent Document 3, the structured soybean protein composition used is "a biaxial extruder containing a raw material containing soy protein as a main component and containing 5 to 40% by weight of sugar and 50 to 80% by weight of water. Although there is a description that it was "treated with", it is a structured soy protein suitable for natto-like foods, such as the fact that it is necessary to contain divalent metal and the protein content / dietary fiber content ratio as in the present invention. There was no disclosure of the conditions of the composition, and Cited Document 3 did not serve as a reference in completing the present invention.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide a natto-like food having a texture comparable to that of natto made from whole soybeans or ground soybeans even when whole soybeans or ground soybeans are not used.

(Natto-like food)
Generally, natto is made by steaming whole soybeans or ground soybeans as they are, inoculating them with natto bacteria, and then fermenting them. In the present invention, the natto-like food is obtained by inoculating a structured soybean protein composition with natto bacteria and fermenting it, and is a soy protein fermented food capable of obtaining a granular texture comparable to that of natto. Means that.

(Structural soy protein composition)
The structured soybean protein composition in the present invention is prepared by using an extrusion molding machine such as an extruder using a soybean protein raw material as a main raw material. The extrusion molding machine to be used is not limited, but it is desirable to use a twin-screw extruder because more stable production can be performed. The manufacturing conditions by the extruder can be set as appropriate. That is, it can be set by appropriately adjusting the rotation speed, temperature, and amount of water of the cylinder in order to obtain the desired degree of swelling.
Examples of the soybean protein raw material to be used include defatted soybean, isolated soybean protein, concentrated soybean protein, defatted soymilk powder, greasy soymilk powder, and soybean powder, and more preferably defatted soybean and isolated soybean protein. , More preferably defatted soybeans. From these soybean protein raw materials, one or more can be appropriately selected and used.

The structured soybean protein composition used in the present invention needs to have a protein content of 50% by weight or more per dry weight. It can be preferably 52% by weight or more, 53% by weight or more, 54% by weight or more, 55% by weight or more, and the like. The upper limit may be 85% by weight or less, 83% by weight or less, 80% by weight or less, 78% by weight or less, 76% by weight or less, or the like. With a predetermined protein content, it is possible to obtain a natto-like food using a structured soybean protein composition having a good texture even when whole soybeans or ground soybeans are not used.

In addition, the structured soybean protein composition used in the present invention needs to satisfy the following (a) and / or (b).
(A) Contains 0.01 to 5% by weight of divalent metal (b) The protein content / dietary fiber content ratio is 4 or more on a weight basis.

(Divalent metal)
In the present invention, by incorporating a divalent metal salt as a raw material in the structured soybean protein composition, a natto-like food having a better texture can be obtained. Here, examples of the divalent metal salt include calcium salts and magnesium salts, and it is desirable to use calcium salts in terms of flavor.
Examples of the calcium salt include calcium sulfate, calcium lactate, calcium chloride, and calcium carbonate, more preferably calcium sulfate, calcium lactate, and calcium chloride, and even more preferably calcium sulfate.
Examples of the magnesium salt include magnesium chloride. It should be noted that it does not hinder the combined use of two or more kinds of calcium salts, or the combined use of one or more kinds of calcium salts and magnesium salts.
By using a more preferable divalent metal salt in the structured soybean protein composition, a natto-like food having a good granular texture can be obtained.

As for the amount of the divalent metal salt in the structured soybean protein composition, a salt equivalent to 0.01 to 5% by weight of the divalent metal is required as a raw material to be blended as an attachment, and more preferably 0. .1 to 4% by weight of salt, more preferably 0.15 to 3% by weight.
By setting the amount of the divalent metal salt to a preferable amount, it is possible to obtain a natto-like food having a preferable flavor and texture without feeling the unpleasant taste derived from the divalent metal salt.

(Protein content / Dietary fiber content ratio)
The structured soybean protein composition used in the present invention has a protein content / dietary fiber content ratio of 4 or more on a weight basis, and more preferably 4.1 or more, 4.2 or more, or 4.5. The above is preferable. The upper limit is preferably 20 or less, 18 or less, 17 or less, or 15 or less.

(Oat fiber)
Further, in the present invention, it is preferable to include oat fiber in the structured soybean protein composition. The oats referred to in the present invention are also known as oats, oats or embaku. The oat fiber referred to in the present invention is an insoluble fiber portion obtained by removing water-soluble components such as water-soluble fibers from the so-called bran portion of oat, that is, the exodermis portion of oat. The oat fiber in the present invention is preferably contained in the structured soybean protein composition in an amount of 5 to 45% by weight per dry weight, and this amount is more preferably 7.5 to 40% by weight. It is more preferably 10 to 35% by weight, and most preferably 12.5 to 30% by weight.

In addition, other raw materials can be added to the structured soybean protein composition as long as the effects of the present invention are not impaired. Specifically, other proteins such as fats and oils, starch, baking soda, organic acids, sugars, caramel, flavoring materials, amino acids, nucleic acids, fragrances, metals (excluding divalent metals), pH regulators, gluten, egg whites, and casein. , Other known additives and the like can be added.

The method for producing a natto-like food according to the present invention will be described below.

(Example of manufacturing mode of natto-like food)
In the present invention, as a preferred embodiment, a structured soybean protein composition having a water content in a predetermined range is heated, and then natto bacteria are inoculated and fermented so that whole soybeans or ground soybeans are not used. In addition, it is possible to obtain a natto-like food having a good granular texture comparable to that of general natto using whole soybeans and ground soybeans.

(Water content of structured soybean protein composition)
As the structured soybean protein composition to be used, it is preferable to use one having a water content of 40 to 80% by weight. It is more preferable to use a structured soybean protein composition having a water content of 45 to 78.5% by weight, more preferably 50 to 77% by weight. For this, a wet tissue soybean protein composition having a water content in the above range may be used, or a dry tissue soybean protein composition may be hydrated to obtain a water content in the above range. You can also use the one. When the water content is in an appropriate range, a natto-like food having a good granular texture can be obtained.

(Heating conditions)
In the present invention, it is preferable to heat the tissue-structured soybean protein composition having the above-mentioned water content in a predetermined range in a temperature range of 100 ° C. to 140 ° C. for 1 minute or more before inoculating Bacillus natto. More preferably, the lower limit can be 105 ° C or higher, 110 ° C or higher, 115 ° C or higher, 120 ° C or higher, and the upper limit can be 135 ° C or lower, 130 ° C or lower, or the like. .. The heating time is more preferably 2 minutes or more, still more preferably 5 minutes or more.
When heating, it is desirable to put the tissue soybean protein composition in a bag or container and heat it in a sealed state so that the water content of the tissue soybean protein composition does not change from the above-mentioned predetermined range. .. For heating, any of a convection oven, a pan, a pressure heating container (retort sterilizer, pressure cooker, etc.) and the like can be used.

(Natto bacteria)
After heating the structured soybean protein composition having the above-mentioned water content in the predetermined range, natto bacteria are inoculated. As the natto bacterium used in the present invention, any natto bacterium commonly used in the production of natto in Japan can be used. Here, Bacillus natto is used as a variant of Bacillus subtilis (B. subtilis var.natto, B. subtilis (natto)) or as a closely related species of Bacillus subtilis (B. natto). As a bacterium that has been classified. A typical example is Bacillus subtilis var. Natto, but any bacterium that produces the flavor of natto when fermented soybeans can be used in the present invention. It is also possible to inoculate natto bacteria by using commercially available natto and mixing natto grains into the raw material.

(fermentation)
After inoculating Bacillus natto, it ferments. Fermentation of natto-like foods can be carried out by maintaining the temperature in the normal natto fermentation temperature range of substantially 37 to 53 ° C., preferably in the temperature range of 40 to 50 ° C. The predetermined time (fermentation time) for maintaining the fermentation temperature range is not particularly limited, but may be 10 to 24 hours, preferably 14 to 20 hours.

Examples of the present invention will be described below. The present invention is not limited to the examples. Hereinafter, "%" means "% by weight" unless otherwise specified, and "part" means "part by weight" unless otherwise specified.

A textured soybean protein composition was prepared according to the preparation method described later using various raw materials according to the formulation shown in Table 1.
The obtained various structured soybean protein compositions were prepared for natto-like foods according to "Preparation of natto-like foods 1" described below, and then evaluated according to "Sensory evaluation method for natto-like foods". The evaluation results are shown in Table 1.

(Preparation method of structured soybean protein composition)
1. 1. The raw materials were powder-mixed according to the raw material composition of the formulation shown in Table 1.
2. It was organized using a twin-screw extruder manufactured by Kowa Kogyo Co., Ltd. The amount of water added was adjusted by adjusting the valve so that the tissue extruded from the die swelled, and the water content in the raw material was adjusted between about 20 and 60% by weight.
The screw rotation speed was 200 rpm.
The tip barrel temperature was 160-180 ° C. The pressure of the tip barrel was varied between ^{5-50 kg / cm 2.}
3. 3. The obtained swelling is cut with a cutter immediately after the die outlet so that the length is about 5 to 10 mm, and the moisture content is about 7% in a dryer (ESPEC PV-221 dryer manufactured by Tabai Co., Ltd.). The dried soybean protein composition was prepared.

Examination 1 Preparation of natto-like food 1 (Examination of compounding conditions of structured soybean protein composition)
To 20 g of the various structured soybean protein compositions shown in Table 1, 40 g of water at 25 ° C. was added and reconstituted with water. Various structured soybean protein compositions after reconstitution with water were placed in a bag, sealed, and heated at 121 ° C. for 20 minutes using a retort device (“RCS-4CRTGN” manufactured by Nisaka Seisakusho Co., Ltd.). Miyagino Natto Mfg. Co., Ltd.'s Miyagino Natto Bacteria was diluted 4-fold with water at 25 ° C to various structured soy protein compositions after heating, and 60 g of the above-mentioned structured soy protein reconstituted product was inoculated with 0.6 g each. Mixed with a spatula. This mixture was fermented at 40 ° C. for 16 hours using a constant temperature device to obtain a natto-like food. At this time, the water content of the various tissue soybean protein compositions before inoculation with Bacillus natto is the water content including the amount of water added to the various tissue soybean protein compositions in all of the compositions A to F. It was 69% by weight.

(Sensory evaluation method for natto-like foods)
The natto-like foods of Examples and Comparative Examples were compared with commercially available natto made from whole soybeans, and the granular texture was evaluated by sensory evaluation. The sensory evaluation was conducted by blind tasting with 10 panelists and evaluated according to the following criteria.
The panelists in this evaluation were 10 skilled panelists who had been engaged in food research for some time.
Granular texture: When natto-like food was eaten, it was evaluated as a good texture when it was not inferior to whole soybean natto, was not too soft, and had a granular texture.

<Granular texture>
5 points: Very good (granular texture is strongly felt)
4 points: Good (good grainy texture)
3 points: acceptable 2 points: slightly defective (slightly soft)
1 point: Defective (too soft or pasty, different from granular)

Regarding the texture, the average value of the scores of each panelist was calculated. And from the average value
A: 4.5 points or more B: 3.5 points or more and less than 4.5 points C: 2.5 points or more and less than 3.5 points D: 1.5 points or more and less than 2.5 points E: less than 1.5 points Evaluation was performed on a scale of 5 to, and those with a texture evaluation of C or higher were regarded as acceptable quality.

・脱脂大豆には、不二製油株式会社製の製品を使用した。
・粉末状大豆蛋白には、不二製油株式会社製の分離大豆たん白「フジプロR」を使用した。
・オート麦ファイバーには、Ｊ.ＲＥＴＴＥＮＭＡＩＥＲ＆ＳｏＨＮＥ ＧＭＢＨ+ＣＯ. ＫＧ.社（以下ＪＲＳ社）製「ＶＩＴＡＣＥＬ ＨＦ２００」を使用した。
・植物油脂には、不二製油株式会社製「パームエース １０」を使用した。
・カラメルには、池田糖化工業株式会社製「カラメル ＢＦ−２００」を使用した。
・でん粉には、三和澱粉工業株式会社製「ＮＯＮ−ＧＭＯコーンスターチＹ」を使用した。 Table 1. Formulation and evaluation results

-For defatted soybeans, products manufactured by Fuji Oil Co., Ltd. were used.
-For the powdered soybean protein, the isolated soybean protein "Fujipro R" manufactured by Fuji Oil Co., Ltd. was used.
-For the oat fiber, "VITACEL HF200" manufactured by J. RETTENMAIER & SoHNE GMBH + CO. KG. (Hereinafter referred to as JRS) was used.
-For vegetable oils and fats, "Palm Ace 10" manufactured by Fuji Oil Co., Ltd. was used.
-For the caramel, "Caramel BF-200" manufactured by Ikeda Saccharification Industry Co., Ltd. was used.
-For the starch, "NON-GMO cornstarch Y" manufactured by Sanwa Cornstarch Co., Ltd. was used.

From the results in Table 1, the protein content per dry weight is 50% by weight or more, and (a) contains 0.01 to 5% by weight of divalent metal, and / or (b) protein content /. Examples 1 to 4 using the structured soybean protein compositions A to D satisfying the condition that the dietary fiber content ratio is 4 or more on a weight basis were evaluated as B or more and passed. Further, in Example 1 containing 20% by weight of oat fiber, it was evaluated as A and was a natto-like food having a better texture.

Examination 2 Preparation of natto-like food 2 (examination of heating temperature conditions)
To 20 g of the structured soybean protein composition A obtained in Study 1, 40 g of water at 25 ° C. was added and reconstituted with water. The various structured soybean protein compositions after reconstitution with water were placed in a bag, sealed, and heated under the conditions shown in Table 2. The various structured soybean protein compositions after heating were inoculated with Bacillus natto in the same manner as in Study 1 and mixed. This mixture was fermented at 40 ° C. for 16 hours using a constant temperature device to obtain a natto-like food. For condition 1, steam and heat using a combination oven (manufactured by RATIONAL, "Clima Plus Combi"), and for conditions 2 to 3, use a retort device (manufactured by Hisaka Seisakusho, "RCS-4CRTGN"). It was heated. At this time, the water content of the structured soybean protein composition A after water addition was 69% by weight.
In addition, the obtained natto-like food was subjected to sensory evaluation in the same manner as in Study 1, and the evaluation results are shown in Table 2.

１００℃、１分以上の加熱条件である条件１〜３（実施例１，５，６）では、評価結果がＣ以上であり、合格であった。また、加熱温度がより高い条件３（実施例１）では、評価結果がＡであり、より良好な粒状の食感を有する納豆様食品を得ることができた。 Table 2. Heating conditions and evaluation results

Under conditions 1 to 3 (Examples 1, 5 and 6), which are heating conditions of 100 ° C. for 1 minute or more, the evaluation result was C or higher, and the result was acceptable. Further, under the condition 3 (Example 1) in which the heating temperature was higher, the evaluation result was A, and a natto-like food having a better granular texture could be obtained.

Discussion From the results in Table 1, the protein content per dry weight is 50% by weight or more, (a) contains 0.01 to 5% by weight of divalent metal, and / or (b) protein content. / By using a structured soybean protein composition that satisfies the condition that the dietary fiber content ratio is 4 or more on a weight basis, whole soybeans or ground soybeans can be produced even if whole soybeans or ground soybeans are not used. We were able to obtain a natto-like food with a good granular texture comparable to that of natto as a raw material. Further, by satisfying the condition that the structured soybean protein composition contains (c) 5 to 45% by weight of oat fiber, a natto-like food having a better texture could be obtained.
In addition, from the results in Table 2, it is preferable to include a step of heating the structured soybean protein composition having a water content of 40 to 80% by weight at 100 ° C. to 140 ° C. for 1 minute or more before inoculation with Bacillus natto. We were able to produce a natto-like food with a pleasant texture.
From the above results, in the present invention, the protein content per dry weight is 50% by weight or more, (a) contains 0.01 to 5% by weight of divalent metal, and / or (b) natto. By using a structured soybean protein composition that satisfies the condition that the white matter content / dietary fiber content ratio is 4 or more on a weight basis, whole soybeans or soybeans are used even if whole soybeans or soybeans are not used. We have found that we can provide natto-like foods that have a texture comparable to that of natto made from soybeans.

Claims (3)

Natto-like food containing a structured soy protein composition. However, the structured soybean protein composition has a protein content of 50% by weight or more per dry weight, and satisfies the following conditions (a) and / or (b).
(A) Contains 0.01 to 5% by weight of divalent metal (b) The protein content / dietary fiber content ratio is 4 or more on a weight basis. The natto-like food according to claim 1, wherein the structured soybean protein composition further satisfies the following conditions (c).
(C) Contains 5 to 45% by weight of oat fiber The natto-like food according to claim 1 or 2, which comprises a step of heating a structured soybean protein composition having a water content of 40 to 80% by weight at 100 ° C. to 140 ° C. for 1 minute or more before inoculation with Bacillus natto. Manufacturing method.