JP2016082927A - Structured soybean protein material having strong meat-like eat texture - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a structured soybean protein material that has a good flavor and that has a strong meat-like eat texture.SOLUTION: We have obtained a structured soybean protein material having an increased meat-like eat texture than before and having a good flavor, by blending oat fibers; especially, by the use of an oat fiber having a long fiber length, the meat-like eat texture became more pronounced; and also, by the combined use of a divalent metal salt, the meat-like eat texture became more preferable.SELECTED DRAWING: None

Description

The present invention relates to a textured soy protein material having a strong meat-like texture.

A textured soy protein material produced mainly using a biaxial extruder is widely used because it is relatively inexpensive and exhibits a meat-like texture. Under such circumstances, there is a demand for a textured soy protein material that exhibits a stronger meat-like texture.
The bran portion of oats is called oat bran and is widely used as dietary fiber in the West. Patent document 1 exists as an application described about granulating oat bran with an extruder. However, this application does not disclose a textured soy protein material exhibiting a meat-like texture.

JP 2008-125492 A

An object of the present invention is to provide a textured soy protein material having a good flavor and a strong meat-like texture.

  The inventor has intensively studied to solve the problem. Under such circumstances, it has been found that when a textured soy protein material is prepared using oat fiber, a textured soy protein material exhibiting an unprecedented strong meat-like texture can be obtained. Furthermore, when a bivalent metal salt was used together, it discovered that meat-like food texture became stronger and completed this invention.

That is, the present invention includes (1) a structured soybean protein material containing oat fiber in a solid content of 5 to 50% by weight,
(2) The textured soybean protein material according to (1), wherein the average fiber length of the oat fiber is 20 to 1000 μm,
(3) The structured soy protein material according to (1) or (2), wherein the oat fiber content is 5 to 50% by weight based on the total amount of oat fiber and soy protein raw material,
(4) A method for producing a structured soy protein material, characterized in that oat fiber is blended in an amount of 5 to 50% by weight in the raw material solids,
(5) A method for imparting a meat-like texture to a textured soy protein material, comprising blending 5 to 50% by weight of oat fiber in the solid content of the raw material,
(6) The textured soy protein material according to any one of (1) to (3), further containing 0.01 to 1.5% by weight of a divalent metal in the solid content,
(7) The method for producing a textured soy protein material according to (4), further containing a divalent metal salt as a divalent metal in an amount corresponding to 0.01 to 1.5% by weight in the raw material solids,
(8) The method for imparting a meat-like texture to the textured soy protein material according to (5), further containing a divalent metal salt as a divalent metal in an amount corresponding to 0.01 to 1.5% by weight in the solid content of the raw material. ,
It is about.

  According to the present invention, a textured soy protein material having a good flavor and a strong meat-like texture can be obtained.

In the present invention, the meat-like texture particularly means that the texture and the crunch are close to meat.
The oats referred to in the present invention are also called oats, oats or oats.
The oat fiber referred to in the present invention is a so-called oat bran portion, that is, an insoluble fiber portion obtained by removing water-soluble components such as water-soluble fibers from the oat hull portion. A product rich in water-soluble dietary fiber called so-called oat bran or oat bran has a limited effect of developing a meat-like texture.
The textured soy protein material in the present invention is prepared by an extrusion molding machine such as an extruder using a soy protein raw material as a main raw material.

  The oat fiber in the present invention needs to be contained in an amount of 5 to 50% by weight in the solid content of the structured soybean protein material, and this amount is more preferably 7.5 to 45% by weight, and further preferably 10%. -40% by weight. If this amount is too large, organization may be inhibited, and an organized product may not be obtained. If it is too small, a meaty texture may be difficult to obtain.

The amount of oat fiber is preferably 5 to 50% by weight, more preferably 7.5 to 45% by weight, based on the total amount of oat fiber and soy protein raw material. More desirably, it is 10 to 40% by weight.
Examples of the soy protein raw material to be used include defatted soybean, separated soybean protein, concentrated soybean protein, defatted soymilk powder, fat-containing soybean milk powder, and soybean powder, and more preferably defatted soybean and separated soybean protein. More preferably, it is defatted soybean. One or more of these soy protein materials can be appropriately selected and used.
The amount of the soy protein raw material is desirably 50 to 95% by weight, more desirably 55 to 92.5% by weight, and further desirably 60 to 90% in the solid content of the structured soy protein material. A preferable meat-like texture can be obtained by setting the amount of soy protein raw material to a desired amount and appropriately blending oat fiber.

  The average fiber length of the oat fiber used in the present invention is preferably 20 to 1000 μm. This is more desirably 30 to 500 μm, and further desirably 40 to 400 μm. A better meat-like texture can be obtained when the average fiber length is in the desired range.

  The average fiber length can be determined by measuring the fiber length of dietary fiber with a scanning electron microscope (TM-1000 manufactured by Hitachi, Ltd.). That is, 30 fibers in the field of view were randomly selected and the average was taken to obtain the average fiber length.

  In the present invention, in addition to the soy protein raw material and oat fiber, other raw materials can be appropriately used within the range not impeding the effects of the present invention. Specifically, other protein raw materials, seasonings, water and the like.

  The method for producing a textured soy protein material and the method for imparting a meat-like texture to the textured soy protein material according to the present invention are characterized by using oat fiber. The amount of use must be 5 to 50% by weight in the solid content of the structured soybean protein material, and this amount is more preferably 7.5 to 45% by weight, and further preferably 10 to 40% by weight. It is. If this amount is too large, organization may be inhibited, and an organized product may not be obtained. If it is too small, a meaty texture may be difficult to obtain.

  Moreover, it is desirable that the average fiber length of the oat fiber used is 20 to 1000 μm. This is more desirably 30 to 500 μm, and further desirably 40 to 400 μm. A better meat-like texture can be obtained when the average fiber length is in the desired range.

In the present invention, a textured soy protein material showing a better meat-like texture can be obtained by further containing a divalent metal salt as a raw material. 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 calcium salts include calcium sulfate, calcium lactate, calcium chloride, and calcium carbonate, more preferably calcium sulfate, calcium lactate, and calcium chloride, and more preferably calcium sulfate.
Examples of magnesium salts include magnesium chloride. It is not prohibited to use two or more calcium salts in combination, or to use one or more calcium salts and magnesium salt in combination.
By using a more preferred divalent metal salt, a textured soy protein material with a stronger meat-like texture can be obtained.

The amount of the divalent metal salt in the raw material of the textured soybean protein material is preferably a salt equivalent to 0.01 to 1.5% by weight, more preferably equivalent to 0.1 to 1.3% by weight as a divalent metal. More preferably, the salt is 0.2 to 1.3% by weight.
By setting the amount of the divalent metal salt to a preferable amount, it is possible to obtain a preferable meat-like texture without feeling the unpleasant taste derived from the divalent metal salt.

  The textured soybean protein material according to the present invention can be produced by an extrusion molding machine represented by an extruder. Although the extrusion molding machine to be used is not limited, it is desirable that a biaxial extruder can be used for more stable production.

  Manufacturing conditions by the extruder can be set as appropriate. In other words, in order to obtain a desired degree of expansion, it is possible to set by appropriately adjusting the number of rotations of the cylinder, the temperature, and the amount of water.

The textured soy protein material according to the present invention can be used for various foods by replacing part of the meat in foods using meat.
Examples are described below.

○ Examination 1 Examination Example 1 of various fiber materials, Comparative Examples 1 to 12
According to the formulation shown in Table 1, a textured soy protein composition was prepared using various fiber materials according to the preparation method described below.
The obtained textured soybean protein composition was evaluated according to the “sensory evaluation method for textured soybean protein composition” described below.
The results are shown in Table 2.

・オート麦ファイバーはＪ.ＲＥＴＴＥＮＭＡＩＥＲ＆ＳｏＨＮＥ ＧＭＢＨ+ＣＯ. ＫＧ.社（以下ＪＲＳ社）製「ＶＩＴＡＣＥＬ ＨＦ２００」を使用した。
・脱脂大豆は不二製油株式会社製製品を使用した。
・脱脂オカラは不二製油株式会社製製品を使用した。
・オレンジファイバーはＪＲＳ社製「ＶＩＴＡＣＥＬ ＯＦ４０５」を使用した。
・小麦ファイバーはＪＲＳ社製「ＷＦ６００」を使用した。
・サトウキビファイバーはＪＲＳ社製「ＳＦ６０１」を使用した。
・粉末セルロースはＪＲＳ社製「ＶＩＴＡＰＵＲ 」を使用した。
・ポテトファイバーはＪＲＳ社製「ＶＩＴＡＣＥＬ ＫＦ２００-Ｓ」を使用した。
・エンドウファイバーはＪＲＳ社製「ＶＩＴＡＣＥＬ ＥＦ１００」を使用した。
・アップルファイバーはＪＲＳ社製「ＶＩＴＡＣＥＬ ＡＦ４００-３０」を使用した。
・小麦ブランはパイオニア企画社製「ブラン」を使用した。
・オート麦ブランはＫ.Ｉ.テックインターナショナル社製「オートブランＰＴ」を使用した。 Table 1 Formulation

-As the oat fiber, "VITACEL HF200" manufactured by J.RETTENMAIER & SoHNE GMBH + CO. KG. (Hereinafter JRS) was used.
・ Fuji Oil Co., Ltd. products were used as defatted soybeans.
-The product made from Fuji Oil Co., Ltd. was used for degreasing Okara.
-Orange fiber used "VITACEL OF405" by JRS.
-The wheat fiber used "WF600" by JRS.
-Sugar cane fiber used "SF601" by JRS.
-The powder cellulose used "VITAPUR" by JRS.
-The potato fiber used "VITACEL KF200-S" by JRS.
-The pea fiber used "VITACEL EF100" by JRS.
-Apple fiber used "VITACEL AF400-30" by JRS.
-Wheat bran used "Bran" manufactured by Pioneer Planning.
-“Auto Blanc PT” manufactured by KI Tech International Co., Ltd. was used as the oat bran.

<Method for preparing textured soybean protein material>
1 Raw materials were powder mixed according to the formulation.
2 Organized using a biaxial extruder manufactured by Kowa Kogyo Co., Ltd.
The amount of water added was adjusted so that the structure extruded from the die swelled, and the water content in the raw material was adjusted between about 20 to 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 to 50 kg / cm ^2.
3 The obtained expanded product was cut with a cutter immediately after the die exit so as to have a length of about 20 mm.
4 Drying was performed with hot air at 80 ° C. in an ESPEC PV-221 dryer manufactured by Tabai Co., Ltd. so that the water content was 4 to 8 wt%.

<Sensory evaluation method of structured soybean protein composition>
The prepared textured soy protein composition was rehydrated and then subjected to sensory evaluation according to the following criteria in comparison with a control of 100% defatted soybeans prepared under the same conditions by five panelists.
・ Taste rating 10 points Remarkably better than control.
9 points Greater than control.
8 points (evaluated as intermediate between 9 and 7 points)
7 points A little better than the control.
6 points (evaluated as intermediate between 7 and 5 points)
5 points Evaluated as equivalent to control.
4 points (evaluated as intermediate between 5 and 3 points)
3 points Slightly inferior to control.
2 points (evaluated as intermediate between 3 points and 1 point)
One point is much worse than control.
A score of 6 or more was considered acceptable.
・ Meat-like texture evaluation 10 points It is significantly better than the control.
9 points Greater than control.
8 points (evaluated as intermediate between 9 and 7 points)
7 points A little better than the control.
6 points (evaluated as intermediate between 7 and 5 points)
5 points Evaluated as equivalent to control.
4 points (evaluated as intermediate between 5 and 3 points)
3 points Slightly inferior to control.
2 points (evaluated as intermediate between 3 points and 1 point)
One point is much worse than control.
A score of 6 or more was considered acceptable.
Those that scored 6 or more in both items were considered as the final pass.

Table 2 Results

As described in Table 2, when oat fiber is used, compared to the case of using other fiber materials, and compared to the control, the taste and texture of meat and texture such as texture are good. there were.

○ Examination 2 Examination Examples 2 to 4 of average fiber length of oat fiber
As shown in Table 3, the textured soybean protein material was prepared using oat fibers having various average fiber lengths. The preparation conditions were as described in Study 1. The obtained textured soybean protein material was subjected to sensory evaluation in the same manner as in Study 1. The results are shown in Table 4.

・オート麦ファイバーＡはＪＲＳ社製「ＨＦ６００」を使用した。
・オート麦ファイバーＢはＪＲＳ社製「ＨＦ１０１」を使用した。
・オート麦ファイバーＣはＪＲＳ社製「ＨＦ６００/３０」を使用した。 Table 3 Formulation

-Oat fiber A used "HF600" by JRS.
-Oat fiber B used "HF101" by JRS.
-Oat fiber C used "HF600 / 30" by JRS.

Table 4 Results

Discussion As shown in Table 4, a good meat-like texture was shown regardless of the average fiber length of the oat fiber, but the longer the average fiber length, the better the meat-like texture.

○ Examination 3 Examination example 5-6 of mixing ratio of oat fiber
With the formulation shown in Table 5, the amount of oat fiber in the total amount of oat fiber and defatted soybean was changed to prepare a textured soybean protein material.
The preparation method was as described in Study 1.
The obtained textured soybean protein material was subjected to sensory evaluation by the method described in Study 1. The results are shown in Table 6.

Table 5 Formulation

Table 6 Results

Discussion It has been clarified that the amount of oat fiber added has a positive effect on the flavor and texture of the resulting textured soy protein material.

Examination 4 Examples 7 to 30 for verifying effects of divalent metal salt, Comparative Example 13
According to the formulation shown in Table 7, various divalent metal salts were added, and the synergistic effect with the addition of oat fiber in the textured soybean protein material was verified.
The preparation method was as described in Study 1.
The obtained textured soybean protein material was subjected to sensory evaluation by the method described in Study 1. The results are shown in Table 8.

・オート麦ファイバーは繊維長２５０μｍのものを使用した。 Table 7 Formulation

-Oat fiber with a fiber length of 250 μm was used.

Table 8 Results

Discussion By adding a divalent metal salt in addition to the addition of oat fiber, the texture of the resulting textured soy protein material was further improved. Especially the food texture of Examples 9-13 and 16-20 is preferable, and the most preferable thing was evaluated as Examples 10-12 and 17-19.
In addition, the improvement of meat-like texture was hardly seen only by adding a bivalent metal salt to defatted soybean.

Claims (8)

A textured soy protein material containing oat fiber in a solid content of 5 to 50% by weight. The textured soybean protein material according to claim 1, wherein the oat fiber has an average fiber length of 20 to 1000 µm. The textured soybean protein material according to claim 1 or 2, wherein the content of oat fiber is 5 to 50% by weight based on the total amount of oat fiber and soybean protein raw material. A method for producing a textured soy protein material, wherein oat fiber is blended in an amount of 5 to 50% by weight in the solid content of the raw material. A method for imparting a meat-like texture to a textured soy protein material, comprising blending oat fiber in an amount of 5 to 50% by weight in a raw material solid content. Furthermore, the textured soybean protein raw material of any one of Claims 1-3 which contains 0.01 to 1.5 weight% of divalent metals in solid content. Furthermore, the manufacturing method of the textured soybean protein raw material of Claim 4 which makes 0.01-1.5 weight% equivalent amount in a raw material solid content contain bivalent metal salt as bivalent metal. The method for imparting a meat-like texture to a textured soy protein material according to claim 5, wherein a divalent metal salt is further contained as a divalent metal in an amount corresponding to 0.01 to 1.5% by weight in the solid content of the raw material.