JP2017225423A - Wheat bran processed article - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wheat bran processed article having flavor originally obtained by bran and reduced harshness and smell specific to the wheat bran.SOLUTION: There is provided a wheat bran processed article having percentage of a soluble protein based on total mass of proteins of 3 to 15%, preferably 5 to 14%, more preferably 7 to 13%, further preferably 8 to 13%, especially preferably 8 to 13%, and content of gelatinized starch of 1 to 10 mass%. There is provided a manufacturing method of the wheat bran processed article including a process for treating the wheat bran at 130 to 500°C, preferably 150 to 400°C, more preferably 160 to 300°C and further preferably 180 to 250°C with a heated steam.SELECTED DRAWING: None

Description

  The present invention relates to a processed wheat bran product. More specifically, the present invention relates to a processed wheat bran product, a method for producing the processed wheat bran product, a flour composition containing the processed wheat bran product, and a food containing the processed wheat bran product.

  Wheat bran is attracting attention as a food material rich in dietary fiber, minerals and vitamins, and the market for foods using wheat bran is expanding. However, wheat bran has a peculiar taste and smell, and foods using wheat bran are inferior in flavor and taste.

  Various techniques for processing wheat bran have been proposed. For example, Patent Documents 1 to 4 describe techniques for finely pulverizing, roasting, or wet heat treating wheat bran. Patent Document 5 describes a technique in which 100 parts by weight of wheat bran is heat-treated in the presence of 100 to 300 parts by weight of water and then dried.

JP 2001-204411 A JP 2013-243984 A Japanese Patent Laying-Open No. 2015-181463 JP-T-2006-501556 JP 2014-140366 A

However, the conventional method of finely pulverizing wheat bran has a weak effect of reducing unfavorable flavors such as agumi and odor, and may limit the amount that can be added to food. In the conventional method of roasting wheat bran, since unique flavors such as aroma and roasting odor are imparted, not only the sweetness and smell unique to wheat bran but also the preferred flavor inherent in wheat bran is masked. Conventional heat treatment conditions require a drying step after the heat treatment, which is not preferable from the viewpoint of production load and production cost, and may have an insufficient effect of improving the flavor.
Thus, the main object of the present invention is to provide a processed wheat bran product that has the original flavor of wheat bran and has reduced acupuncture and odor peculiar to wheat bran.

The present invention provides a processed wheat bran product, wherein the ratio of soluble protein to the total mass of protein is 3 to 15%, and the content of gelatinized starch is 1 to 10% by mass.
Moreover, this invention provides the manufacturing method of the wheat bran processed goods including the process of processing wheat bran with superheated steam.
Moreover, this invention provides the flour composition containing the said wheat bran processed product.
Moreover, this invention provides the foodstuff containing the said wheat bran processed product.

  ADVANTAGE OF THE INVENTION According to this invention, the processed wheat bran product which has the original flavor of wheat bran, and was reduced in the sweetness and smell peculiar to wheat bran can be provided.

  Hereinafter, modes for carrying out the present invention will be described. In addition, embodiment described below shows an example of embodiment of this invention, and, thereby, the range of this invention is not interpreted narrowly.

<Processed wheat bran>
In the processed wheat bran product according to this embodiment, the ratio of soluble protein to the total mass of protein is 3 to 15%. If the proportion of soluble protein is less than 3%, the processability may be inferior when a food containing a processed wheat bran product is produced. In addition, the roasting odor is strong and the wheat bran's original preferred flavor may not be felt. If the proportion of soluble protein is more than 15%, the wheat bran peculiar taste and smell may be strong and the flavor may be inferior. The ratio of the soluble protein to the total mass of the protein is preferably 14% or less, more preferably 13% or less, because it is possible to effectively reduce spider and odor. Moreover, 5% or more is preferable, 7% or more is more preferable, and 8% or more is preferable from a viewpoint of improving the processability at the time of manufacturing the foodstuff which mix | blended the processed wheat bran product, and maintaining the wheat bran original preferable flavor. More preferably, 9% or more is even more preferable.
The ratio of soluble protein can be calculated by dividing the amount of protein dissolved in 0.05 N acetic acid by the total amount of protein measured by the Kjeldahl method.

  In this specification, “having the original flavor of wheat bran” and “the original flavor of wheat bran remain” means that the roasting odor is weak and the preferred flavor (taste, smell, etc.) of wheat bran is felt. Means. In the conventional wheat bran processing method, the strong roasting odor imparted by roasting sometimes masks the original flavor of wheat bran. On the other hand, the processed wheat bran product according to the present embodiment has a weak roasting odor and a preferable flavor derived from wheat bran.

In the processed wheat bran product according to this embodiment, the gelatinized starch content is 1 to 10% by mass relative to the total mass of the processed wheat bran product. By setting the content of gelatinized starch to 1% by mass or more, it is possible to reduce agitation and odor. When the gelatinized starch content is more than 10% by mass, the processability is inferior when a food containing a wheat bran processed product is produced.
The content of gelatinized starch can be determined by measuring the content of starch that is degraded by α-amylase in the whole processed wheat bran product. For example, it can be measured by AACC method 76-31.

  In the processed wheat bran product according to the present embodiment, the content of gelatinized starch is preferably 1.5% by mass or more because it can effectively reduce agumi. Moreover, since the processability at the time of manufacturing the foodstuff containing wheat bran processed goods becomes more favorable, 7 mass% or less is preferable, 6 mass% or less is more preferable, 5 mass% or less is further more preferable, 4.5 The mass% or less is still more preferable.

In the processed wheat bran product according to the present embodiment, the lipid content can be 4.0% by mass or more with respect to the total mass of the processed wheat bran product, and can also be 4.3% by mass or more. . In order to improve the flavor of the processed wheat bran product, it may be degreased to reduce the lipid content of the processed wheat bran product, but the processed wheat bran product according to this embodiment has a good flavor. Therefore, it is not necessary to perform a degreasing process. By making the lipid content of the processed wheat bran product 4.0% by mass or more with respect to the total mass of the processed wheat bran product, it is possible to reduce the load of the manufacturing process of the processed wheat bran product by degreasing In addition, the taste and texture of foods containing processed wheat bran products such as bread can be improved.
The lipid content is a value analyzed by the standard oil analysis test method (I) established by the Japan Oil Chemists' Society.

As will be described later, the processed wheat bran product according to the present embodiment is obtained by subjecting the wheat bran to a superheated steam treatment. When the water content of the wheat bran processed product after the superheated steam treatment exceeds 15% by mass, the moisture content of the processed wheat bran product is dried after the superheated steam treatment to prevent the growth of spoilage bacteria and enhance the storage stability. Is preferably reduced.
From the viewpoint of suppressing the production load and production cost by omitting the drying step, the water content of the processed wheat bran after the superheated steam treatment is preferably 15% by mass or less.
The moisture content can be measured by a heat drying method.

The processed wheat bran product according to the present embodiment is preferably in a powder form so as to be easily blended into food. The average particle diameter of the processed wheat bran product is preferably 20 to 500 μm, more preferably 30 to 300 μm. By setting it as such a range, the food texture of the wheat bran processed product becomes better. In addition, when the processed wheat bran product is mixed with other raw materials, unevenness is less likely to occur, so that the suitability for secondary processing is further improved.
The average particle diameter can be measured by a dry method using, for example, a laser diffraction / scattering particle size distribution measuring apparatus “Microtrack MT3300EXII” (manufactured by Nikkiso Co., Ltd.).

<Production method of processed wheat bran>
The processed wheat bran product according to one embodiment of the present invention described above can be obtained by the following production method.

  The wheat bran used as a raw material can be obtained from wheat according to a conventional method. There are no particular restrictions on the wheat producing region, variety, etc., and it can be freely selected.

  The method for producing a processed wheat bran product according to this embodiment includes a step of treating wheat bran with superheated steam. By using superheated steam, it is possible to reduce the taste and odor without imparting a roasting odor, and the processed wheat bran product has the original flavor of wheat bran. Further, by adopting the superheated steam treatment, it is possible to effectively reduce the acrid and odor in a shorter time than conventional wet heat treatment and saturated steam treatment.

  Further, by performing the superheated steam treatment, it is possible to keep the content of acrylamide in the processed wheat bran product lower than in the case of heating by roasting treatment or the like. Since acrylamide may adversely affect health, it is generally preferable that the acrylamide content in food is low.

  The temperature of the superheated steam is preferably 130 to 500 ° C. By setting it as such a range, the sweetness and smell peculiar to wheat bran can be reduced effectively. Moreover, the secondary processing aptitude of the processed wheat bran product is improved, and the flavor of the food containing the processed wheat bran product becomes better.

  In order to effectively reduce agitation and odor, the temperature of the superheated steam is more preferably 150 ° C. or higher, more preferably 160 ° C. or higher, and still more preferably 180 ° C. or higher. Moreover, in order to suppress generation | occurrence | production of a roasting odor, the temperature of superheated steam is more preferably 400 ° C. or less, further preferably 300 ° C. or less, and further preferably 250 ° C. or less. Further, from the viewpoint of reducing the roasting odor, it is preferable to perform the treatment in a shorter time as the temperature of the superheated steam is higher. By setting the temperature of the superheated steam to 500 ° C. or less, it is not necessary to extremely shorten the processing time, so the burden required for adjusting the processing time is reduced.

  The amount of superheated steam is preferably 0.15 kg or more with respect to 1 kg of raw wheat bran, from the viewpoint of effectively suppressing agitation and odor. Further, the amount of superheated steam can be controlled by adjusting the amount of superheated steam per processing time or the processing time. From the viewpoint of effectively reducing agitation and odor, the amount of superheated steam per treatment time is preferably 1 kg / h or more.

  The treatment time with superheated steam is preferably 0.1 seconds or longer, and more preferably 30 seconds or longer. Thereby, control of a manufacturing process becomes easier and the quality of processed wheat bran products becomes more stable. In addition, the treatment time with superheated steam is preferably 15 minutes or less, more preferably 10 minutes or less, and even more preferably 5 minutes or less from the viewpoint of production load and production cost. Moreover, it is preferable to determine the processing time by superheated steam according to the temperature of superheated steam. When the temperature of the superheated steam exceeds 250 ° C., the treatment time is preferably 3 minutes or less, more preferably 1 minute or less in order to suppress the occurrence of roasting odor.

  The apparatus used for the superheated steam treatment is not particularly limited as long as it can be treated under the above-described conditions, and either an open system apparatus or a closed system apparatus may be used. Moreover, the apparatus which can spout superheated steam during the process of conveying wheat bran using a hollow conveyance chute can also be provided, and superheated steam processing can also be performed during conveyance.

  The method for producing a processed wheat bran product according to the present embodiment may include a step of adding water to the wheat bran before the treatment step with superheated steam or during the treatment step with superheated steam. Even when hydration is performed before or simultaneously with superheated steam treatment, a processed wheat bran product having a low taste and smell can be obtained while having the original flavor of wheat bran as in the case of not performing hydration. .

  The amount of water added in the hydration step is preferably 50% by mass or less, more preferably 30% by mass or less, still more preferably 20% by mass or less, and more preferably 10% by mass or less with respect to the wheat bran before the superheated steam treatment. Even more preferred. When the amount of water is large, it may be necessary to lengthen the treatment time with superheated steam or to provide a drying step after the superheated steam treatment step. On the other hand, when the amount of water added is 30% by weight or less based on wheat bran, it is not necessary to lengthen the treatment time with superheated steam or to provide a separate drying step, which is preferable from the viewpoint of manufacturing load and manufacturing cost. .

  The method for producing a processed wheat bran product according to the present embodiment may include a step of pulverizing the raw wheat bran before the step of processing with superheated steam. Moreover, the process of grind | pulverizing a wheat bran processed product may be included after the process processed with superheated steam, and the process of grind | pulverizing wheat bran before and after the process processed with superheated steam may be included. As described above, the pulverization treatment may be performed before the superheated steam treatment or may be performed after the superheated steam treatment, but is more preferably performed after the superheated steam treatment. This is because it is easy to adjust the average particle size of the processed wheat bran product to a suitable range. 20-500 micrometers is preferable and, as for the average particle diameter of the wheat bran processed product after a grinding | pulverization, 30-300 micrometers is more preferable.

  The method for pulverizing the processed wheat bran product is not particularly limited, and known methods such as roll pulverization, impact pulverization, and airflow pulverization can be used. Examples thereof include a pulperizer (manufactured by Dalton Co., Ltd.), a jet mill (manufactured by Seishin Enterprise Co., Ltd.), and the like. Further, an ACM pulverizer (manufactured by Hosokawa Micron Corporation), which is an impact type fine pulverizer with a built-in classifier, may be used.

  The method for adjusting the average particle size of the processed wheat bran product is not particularly limited, and a known method can be used. The average particle diameter may be adjusted by using a pulverizer usually used in roll-type pulverization, impact-type pulverization, airflow-type pulverization, etc., and the average particle diameter may be adjusted by classification after pulverization. When adjusting by classification after pulverization, it may be collected and collected by an airflow classifier with an arbitrarily set classification point. In addition, the average particle diameter may be adjusted by using a sieve having an average particle diameter within a specific range.

<Wheat flour composition containing processed wheat bran>
The flour composition which concerns on one Embodiment of this invention contains the wheat bran processed product which concerns on one Embodiment of this invention mentioned above. The flour composition according to the present embodiment preferably contains flour and / or other powdery raw materials in addition to the processed wheat bran product.

  Flour other than processed wheat bran can be selected according to the purpose, and examples thereof include wheat flour, rye flour, barley flour, rice flour, oat flour, buckwheat flour, barn flour, millet flour, and mash flour. .

  Other powdery raw materials can be selected according to the purpose, for example, starches, sugars, milk ingredients, egg ingredients, thickening polysaccharides, emulsifiers, enzyme preparations, salt, calcium carbonate and other inorganic salts, vitamins Class, yeast, yeast food, swelling agent, coloring agent, fragrance and the like.

  The flour composition according to the present embodiment is suitably used for breads, confectionery, noodles or skins. What is necessary is just to determine suitably the ratio of the said wheat bran processed product contained in the flour composition which concerns on this embodiment according to a use. The ratio of the processed wheat bran product is preferably 1 to 40% by mass and more preferably 5 to 30% by mass in the total amount of the wheat bran processed product and the flour other than the processed wheat bran product. By setting the content of the wheat bran processed product in the total amount of the wheat bran processed product and the flour other than the wheat bran processed product in such a range, the flour composition of the present embodiment and water And a foodstuff can be simply manufactured by mixing with other powder raw materials as needed. Moreover, the ratio of processed wheat bran can also be 40 mass% or more or 50 mass% or more in the whole quantity of a flour composition. The amount of processed wheat bran blended in food by mixing the flour composition of this embodiment and flour other than the processed wheat bran at a desired ratio, with the content of the processed wheat bran product in this range. Can be adjusted to a desired range.

<Food containing processed wheat bran>
The food according to one embodiment of the present invention includes the processed wheat bran product according to one embodiment of the present invention described above. The food has an original flavor of wheat bran and a small amount of sweetness and smell unique to wheat bran. The type of food is not particularly limited, but breads, confectionery, noodles and skins are preferred.

  Examples of breads include bread, roll bread, sweet bread, Danish pastry, variety red, cooking bread, steamed bread, and the like. Examples of confectionery include sponge cakes, butter cakes, biscuits, cookies, and crackers.

  Examples of the type of noodles include pasta, udon, somen, oyamugi, Chinese noodles, and Japanese soba noodles. Examples of the noodles include raw noodles, semi-dry noodles, dry noodles, boiled noodles, steamed noodles, frozen noodles, instant noodles, and LL noodles. Examples of the skin include gyoza skin, spring roll skin, wonton skin, and Shumai skin.

<Method for producing food containing processed wheat bran>
The manufacturing method of the foodstuff containing wheat bran processed goods includes the process of mix | blending the flour composition containing wheat bran processed goods or wheat bran processed goods. The production method according to the present embodiment is preferably a method for producing bread, confectionery, noodles or skins containing processed wheat bran products. In this case, it is preferable that the manufacturing process includes a step of preparing the dough by mixing the processed wheat bran and water.

  A dough blended with a raw material containing a large amount of gelatinized starch and water is easily sticky and has a poor secondary processability. The processed wheat bran product used in the production method of the present embodiment has a low gelatinized starch content of 1 to 10% by mass. For this reason, the dough prepared in the manufacturing method of this embodiment has little stickiness and is easy to process.

  What is necessary is just to determine the ratio of the wheat bran processed product mix | blended suitably according to the kind of foodstuff. In order to ingest dietary fiber, minerals, vitamins and the like contained in the processed wheat bran product, 5% by mass or more of the total amount of the powder raw material of the food is preferable. The processed wheat bran product of the present embodiment has a good flavor and good processability during food production, and therefore can be contained in an amount of 10% by mass or more in the total amount of the powdered raw material of the food, 20% by mass or more, 30 mass% or more, 40 mass% or more, 50 mass% or more can also be contained.

  Hereinafter, the present invention will be described in more detail based on examples. In addition, the Example demonstrated below shows an example of the typical Example of this invention, and this invention is not limited to a following Example.

<Test Example 1>
[Manufacture of processed wheat bran products]
As a raw material, wheat bran obtained from Hokkaido medium wheat was used. The water content of the wheat bran before the superheated steam treatment was 13.9% by mass.
After weighing 50 g of wheat bran and using a steam oven QF-5100CB-R (L) (Naomoto Kogyo Co., Ltd.) under superheated steam treatment under the conditions shown in Table 1 below, the ultracentrifuge crusher ZM 200 ( The wheat bran processed products of Examples 1 to 10 and Comparative Examples 2 and 3 were obtained. The processed wheat bran product of Comparative Example 1 was not subjected to superheated steam treatment, but only pulverized. As Reference Example 1, 50 g of wheat bran was roasted on a hot plate at 200 ° C. for 10 minutes, and then roasted wheat bran prepared by pulverization was used. The average particle diameter of each processed wheat bran product was 200 to 400 μm.

[Analysis of processed wheat bran products]
About the obtained wheat bran processed product, the water content, the ratio of soluble protein, the content of gelatinized starch, the content of acrylamide and the content of lipid were measured by the following procedure.

(Moisture content)
10 g of a sample (processed wheat bran product) was weighed in an aluminum container and dried at 130 ° C. for 1 hour by a blow dryer. The weight of the sample after drying was measured, and the amount of water contained in the sample was calculated by subtracting the weight of the sample after drying from the sample before drying.

(Percentage of soluble protein)
(I) Measurement of soluble crude protein content of processed wheat bran product A sample of 2 g was weighed into a 100 ml Erlenmeyer flask, added with 40 ml of 0.05 N acetic acid, and shaken at 25 ° C. for 60 minutes to prepare a suspension. The suspension was transferred to a centrifuge tube and centrifuged at 5000 rpm for 5 minutes, followed by suction filtration, and the filtrate was collected. The Erlenmeyer flask was washed with 40 ml of 0.05 N acetic acid, transferred to a centrifuge tube in the same manner as the suspension, centrifuged and suction filtered, and the filtrate was collected. The filtrates were combined and made up to 100 ml. 25 ml of the obtained liquid was put into a Kjeldahl tube, and 1 tablet of a decomposition accelerator (FOSS) and 15 ml of concentrated sulfuric acid were added.
Using a Keltec decomposition furnace (FOSS), the temperature was gradually raised from 250 ° C., and the decomposition treatment was performed for 90 minutes after reaching 420 ° C. Thereafter, the decomposed liquid was distilled and titrated using a Keltech distillation system, and the availability crude protein content of the sample was determined by the following formula.
Soluble crude protein content (%) = 0.14 × (TB) × F × N × (100 / S) × (1/25)
In the formula, T = amount of 0.1 N sulfuric acid required for titration (ml)
B = Amount of 0.1N sulfuric acid required for titration of blank (ml)
F = titer of 0.1 N sulfuric acid used for titration N = nitrogen protein conversion factor (5.70)
S = Weighed sample (g)
(II) Measurement of total crude protein content of processed wheat bran product Weigh 0.5 g of the sample into the same Kjeldahl tube used in (I) above, and promote the same decomposition as used in (I) above One tablet and 15 ml of concentrated sulfuric acid were added. After performing the decomposition treatment at 420 ° C. for 2 hours and 30 minutes, the decomposed liquid was distilled and titrated using the same Keltech distillation titration system used in the above (I), and the following formula was used. The total crude protein content was determined.
Total crude protein content (%) = 0.14 × (TB) × F × N / S
In the formula, T = amount of 0.1 N sulfuric acid required for titration (ml)
B = Amount of 0.1N sulfuric acid required for titration of blank (ml)
F = titer of 0.1 N sulfuric acid used for titration N = nitrogen protein conversion factor (5.70)
S = Weighed sample (g)
(III) Calculation of Soluble Protein Soluble protein was calculated from the soluble crude protein content of the sample obtained in (I) above and the total crude protein content of the sample obtained in (II) above by the following formula.
Soluble protein (%) = (soluble crude protein content / total crude protein content) × 100

(Content of gelatinized starch)
Analysis was performed using a STAR DAMAGE ASSAY KIT (Megazyme) according to the protocol of the kit.

(Acrylamide content)
(I) Preparation of test solution 10 g of a sample was weighed into a 100 ml volumetric flask, 20 μl of a 100 mg / l internal standard solution (manufactured by CIL) was added, and the volume was adjusted with water. 20 ml was loaded onto a diatomaceous earth column (manufactured by Agilent) and allowed to stand at room temperature for 30 minutes, and then 150 ml of ethyl acetate was added and recovered in a 300 ml eggplant-shaped flask. After adding 0.1 ml of 10% diethylene glycol / methanol solution, the solution was concentrated under reduced pressure, and then dried under a nitrogen stream. After dissolution by adding 40 ml of water, acrylamide was adsorbed on a solid phase extraction column Sep-Pak AC-2 (manufactured by Waters) and eluted with 5 mL of methanol. To the eluate, 0.1 ml of 10% diethylene glycol / methanol solution was added and dried under a stream of nitrogen, and 1 ml of methanol was added to the residue and dissolved. Add 0.1 ml of 5% xanthydrol / methanol solution and 0.1 ml of 0.3 mol / l hydrochloric acid / methanol solution, derivatize at 40 ° C. for 2 hours, then dry to dryness under a nitrogen stream, 5 ml of water, After 2 ml and 2 g of sodium chloride were added and shaken for 2 minutes, the ethyl acetate layer was separated. 1 g of anhydrous sodium sulfate was added and dehydrated to obtain a test solution.
(II) GC-MS analysis The test solution prepared in (I) and the derivatized standard solution are subjected to GC-MS, the peak area is obtained from the obtained chromatogram, and the calibration curve is obtained from the analysis result of the standard solution. Quantified by the internal standard method.
Device: GCMS-QP2010Plus (manufactured by Shimadzu Corporation)
Column: DB-5MS (manufactured by Agilent)
Column oven temperature rising condition: 40 ° C. (2 min) → 20 ° C./min→320° C. (15 min)
Carrier gas: High purity helium injection volume: 2 μl
Inlet temperature: 250 ° C
Injection mode: Splitless high-pressure injection method (200 kpa)
Control mode: constant linear velocity (1 ml / min)
Interface temperature: 240 ° C
Ion source temperature: 230 ° C
Ionization method: EI
Measured ion: acrylamide derivatized quantitative ion m / z 251.10
Qualitative ion m / z 234.15
Acrylamide-13C3 derivatized quantitative ion m / z 254.15
Qualitative ion m / z 237.10
Detector voltage: Relative value analysis time from tuning result: 21 min

(Lipid content)
Established by the Japan Oil Chemists' Society Analysis was performed according to the standard oil analysis method (I) acid decomposition method.

[Evaluation of processed wheat bran]
In accordance with the following evaluation criteria, 10 expert panelists evaluated the effects of reducing the taste and odor, and the strength of roasting odors. The average value was calculated, and the value rounded to the first decimal place was used as the evaluation score. .
(Egumi and odor reduction effect)
0: Extremely strong agumi and odor 1: Very little effect of reducing agglutination and odor, very strong agglutination and odor 2: A little effect of agitation and odor reduction, but strong agitation and odor 3: Agulation Smell and odor intensity is within the allowable range. 4: Sperm and odor are reduced, Sperm and odor are weak. 5: Sperm and odor are effectively reduced. Almost unseen (strength of roasting odor)
0: The roasting odor is not felt at all 1: The roasting odor is hardly felt 2: The roasting odor is slightly felt 3: The roasting odor is slightly felt 4: The roasting odor is felt strongly 5: Roasting odor The odor is very strong

  Furthermore, the strength of the sweetness and odor of the processed wheat bran product and the strength of the roasting odor were comprehensively evaluated and evaluated in four stages A to D. C or higher was accepted.

  The results of Test Example 1 are shown in Table 1 below.

  In the processed wheat bran products of Examples 1 to 10 having a soluble protein ratio of 7.5 to 14%, the taste and odor were reduced. The processed wheat bran product of Comparative Example 1 that was not subjected to superheated steam treatment was very strong in the taste and odor. The processed wheat bran products of Comparative Examples 2 and 3 were subjected to superheated steam treatment, but the proportion of soluble protein was more than 15%, and the taste and odor were felt very strongly. The roasted bran of Reference Example 1 had a very strong roasting odor, and the wheat bran's original preferred flavor was not felt. From these results, it was confirmed that if the proportion of soluble protein is 15% or less, the scum and odor are reduced.

  In Example 10 where the proportion of soluble protein was 7.5%, the effect of reducing agitation and odor was good, but the roasting odor was felt somewhat strong. From the viewpoint of suppressing the application of roasting odor and maintaining the original preferable flavor of wheat bran, it was suggested that the proportion of soluble protein is preferably 8% or more.

<Test Example 2>
The wheat bran before the superheated steam treatment was mixed with the amount of water shown in Table 2 below, and then a wheat bran processed product was produced in the same manner as in Test Example 1 under the conditions shown in Table 2 below. Evaluation was performed. The results of Test Example 2 are shown in Table 2 below. However, in Examples 17, 20, 22, 23, and Comparative Example 4, the water content after superheated steam was 20.5 mass%, 26.4 mass%, 17.3 mass%, and 35.7 mass%, respectively. %, 43.0% by mass, and more than 15% by mass, the processed wheat bran product was dried with a blow dryer at 50 ° C., and then various analyzes were performed. As shown in Table 2, the moisture content after drying was 10.8% by mass in Example 17, 5.2% by mass in Example 20, 4.5% by mass in Example 22, and 5 in Example 23. % By mass and Comparative Example 4 were 5.6% by mass.

  The processed wheat bran products of Examples 11 to 23, in which the gelatinized starch content was 1.5 to 8.1% by mass, showed almost no taste and odor. Moreover, the roasting odor was weak and the original flavor of wheat bran was felt. Comparative Example 4 in which the content of gelatinized starch was 11% by mass was an acceptable score for roasting odor, and the roasting odor was not felt at all. However, as shown in Test Example 4 and Test Example 5 described later, the processed wheat bran product in which the gelatinized starch content exceeds 10% by mass was inferior in secondary processing suitability. From these results, it was confirmed that the content of gelatinized starch is preferably 10% by mass or less.

<Test Example 3>
In this test, wheat bran obtained from Hokkaido medium strength wheat, Hokkaido strong wheat, North American thin wheat and North American strong wheat was used as a raw material. Wheat bran processed products of Examples 24-27 were produced in the same manner as in Test Example 1 under the conditions shown in Table 3 below. The processed wheat bran products of Comparative Examples 5 to 8 were not subjected to superheated steam treatment, but were only pulverized. The obtained processed wheat bran product was evaluated in the same manner as in Test Example 1. The results of Test Example 3 are shown in Table 3 below.

  From the results of Examples 24 to 27, it is confirmed that regardless of the type of wheat, the egg bran and odor are effectively reduced, and there is no roasting odor, and a processed wheat bran product having the original flavor of wheat bran is obtained. It was.

<Test Example 4>
Using the wheat bran processed product of Example 4, Example 17, Example 18, Example 19, Example 20, Example 22, and Comparative Example 4, processed wheat bran product in the following steps A to E A bread containing was prepared.

A. 90 parts by weight of strong flour (King Star, Showa Sangyo Co., Ltd.), 10 parts by weight of wheat bran processed product, 2 parts by weight of yeast, 1.5 parts by weight of salt, 3 parts by weight of granulated sugar, and 76 parts by weight of water Put it in. The amount of water was finely adjusted while observing the state of the dough, and mixing was carried out using a mixer for 2 minutes at low speed and for 2 minutes at medium speed.
2 parts by weight of shortening was added to B. A, and further mixed for 2 minutes at medium to low speed. The temperature of the dough was set to 27 ± 0.5 ° C.
C. B dough was fermented for 90 minutes at 28 ° C. and 80% humidity, then punched and further fermented for 30 minutes.
After the DC fabric was divided into 500 g and rounded, the bench time was 25 minutes under the conditions of 28 ° C. and humidity 80%.
The ED dough was formed into a roll and packed in a mold, and the proof was taken for 40 minutes under the conditions of 38 ° C. and 80% humidity, and then baked at 205 ° C. for 30 minutes.

  All of the breads containing the processed wheat bran product were of good quality without any taste or odor, and the original preferred flavor of the bran. On the other hand, the breads containing the processed wheat bran products of Example 18, Example 20 and Example 22 were within the allowable range, but the dough tended to be slightly sticky when the dough was rounded or molded. . When Example 18 is compared with Example 20, this tendency is more strongly recognized in the bread containing the processed wheat bran product of Example 18, and when Example 20 is compared with Example 22, This tendency was strongly observed in bread containing processed wheat bran. Moreover, the bread containing the processed wheat bran product of Comparative Example 4 had a strong stickiness during mixing, and a lot of dough was observed to adhere to the mixer. In addition, when the dough was rounded or formed, the dough had a strong stickiness.

<Test Example 5>
Using the wheat bran processed product of Example 4, Example 17, Example 18, Example 19, Example 20, Example 22, and Comparative Example 4, the processed wheat bran product in the following steps AC Was produced.

A. Medium strength flour (from Mennochi, Showa Sangyo Co., Ltd.) 76 parts by weight, Wheat bran processed product 10 parts by weight, Processed starch (SF-1500, Showa Sangyo Co., Ltd.) 10 parts by weight, Powdered gluten 4 parts by mass (A, manufactured by Glico Nutrition Foods Co., Ltd.) was placed in a horizontal pin mixer. 35 parts by mass of water in which 4% of sodium chloride was dissolved was added and mixed for 15 minutes to produce a dough.
The dough of B.A was rolled with a roll noodle machine to make noodles.
B. Noodles were boiled for 15 minutes in 2 L of boiling water.

  The udon containing the processed wheat bran product was a product of good quality that was completely free of scum and odor, and felt the original preferred flavor of the bran. On the other hand, although the udon dough containing the processed wheat bran products of Example 18, Example 20 and Example 22 was within an acceptable range, the dough tends to be slightly sticky when rolled with a roll noodle machine. It was. When Example 18 and Example 20 are compared, this tendency is more strongly recognized in the udon dough containing the processed wheat bran product of Example 18, and when Example 20 and Example 22 are compared, Example 22 is compared. This tendency was strongly observed in the udon dough containing processed wheat bran. Moreover, when the udon dough containing the processed wheat bran product of Comparative Example 4 was rolled with a roll noodle machine, the dough was sticky and the dough was often adhered to the roll.

  From the results of Test Example 4 and Test Example 5, it was confirmed that the content of the gelatinized starch in the processed wheat bran product was 11% by mass, the suitability for secondary processing was inferior. Further, the content of the gelatinized starch is preferably 6.8% by mass or less, more preferably 5.9% by mass or less, and further preferably 4.0% by mass or less, so that the suitability for secondary processing is good. It was confirmed that

  When the processed wheat bran product of Example 18 and the processed wheat bran product of Example 20 were compared, the content of gelatinized starch was similar, but the proportion of soluble protein was 5.5% in Example 18. Example 20 was 9.4%, and Example 18 was less. Moreover, in Test Example 4 and Test Example 5, it was confirmed that Example 18 had a tendency for the dough to be more sticky than Example 20. From these results, it was suggested that when the content of gelatinized starch is similar, the suitability for secondary processing tends to be inferior as the proportion of soluble protein decreases. Moreover, it was suggested that the soluble protein ratio is preferably 5% or more from the viewpoint of suitability for secondary processing.

Claims (5)

  A processed wheat bran product, wherein the ratio of soluble protein to the total mass of protein is 3 to 15%, and the content of gelatinized starch is 1 to 10% by mass.   A method for producing a processed wheat bran product comprising a step of treating wheat bran with superheated steam.   The method for producing a processed wheat bran product according to claim 2, wherein the temperature of the superheated steam is 130 to 500 ° C.   A flour composition comprising the processed wheat bran product according to claim 1. A food comprising the processed wheat bran according to claim 1.