JP2017088804A - Manufacturing method of purified water soluble seed-based polysaccharide - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a manufacturing method of purified water soluble seed-based polysaccharide excellent in transparency efficiently and easily.SOLUTION: There is provided a manufacturing method of purified water soluble seed-based polysaccharide having (1) a process 1 for preparing a solution containing a purified water soluble seed-based polysaccharide raw material, water or a mixed solvent of water and alcohol and an alkaline compound, (2) a process 2 for preparing a paste liquid by heating and gelatinizing the solution and (3) a process 3 for conducting alcohol addition to the paste liquid and/or cooling.SELECTED DRAWING: None

Description

  The present invention relates to a method for producing a purified water-soluble seed-based polysaccharide.

  Conventionally, water-soluble seed-based polysaccharides such as tamarind seed gum, fenugreek gum, guar gum, sesbania gum, tara gum, locust bean gum, cassia gum, etc., are produced by extracting pulverized products of various children with hot water, hot water, etc. It is widely used as a paste for cosmetics or textile printing.

  Since these water-soluble seed-based polysaccharides contain impurities such as protein, fat, ash, and fiber in the raw material, there is a problem that the aqueous solution of the polysaccharide is inferior in transparency. For this reason, the impurities are removed at the time of commercialization to improve the transparency of the aqueous solution.

  As a method for producing a purified water-soluble polysaccharide having good transparency, for example, a production method by an alcohol precipitation method is known. In this method, after the raw material containing water-soluble polysaccharide is dispersed or dissolved, it is gelatinized by heating, and after removing the filter aid to remove impurities, alcohol is added to the filtrate to precipitate the polysaccharide. The precipitate is dried and pulverized.

  However, in this method, since it is necessary to lower the viscosity of the paste solution in order to filter the paste solution by adding a filter aid, only a paste solution having a low concentration of 0.5 to 2% can be used. Therefore, in order to obtain purified water-soluble polysaccharides, it is necessary to remove a large amount of water, and thus there is a problem that purified water-soluble polysaccharides cannot be produced at low cost. Moreover, since the filtration residue containing a filter aid is also produced | generated, there exists a problem that the filtration residue part must be processed as industrial waste.

  As a purification method for guar gum, a purification method in which guar gum split is treated with an acid, neutralized with an alkali, and dehydrated with an aqueous alcohol solution is disclosed (see Patent Document 1).

JP 1999-511507

  However, since the purification method described in Patent Document 1 uses a large amount of water, there is a problem that a large treatment facility is required to treat the generated waste water.

  Therefore, development of a production method capable of efficiently and easily producing a purified water-soluble polysaccharide having excellent transparency is desired.

  An object of this invention is to provide the manufacturing method which can manufacture the purified water-soluble seed type | system | group polysaccharide excellent in transparency efficiently and easily.

  As a result of intensive studies to achieve the above object, the present inventor has (1) a step of preparing a mixed solution containing a water-soluble seed-based polysaccharide raw material, water or a mixed solvent of water and alcohol, and an alkaline compound. 1. Production of a purified water-soluble seed-based polysaccharide comprising: (2) Step 2 for preparing a paste by heating and gelatinizing the mixed solution; and (3) Step 3 for adding and / or cooling alcohol to the paste. According to the method, a purified water-soluble seed-based polysaccharide with a small amount of impurities can be obtained, and the purified water-soluble seed-based polysaccharide has been found to have high transparency, leading to the completion of the present invention.

That is, this invention relates to the manufacturing method of the following purified water-soluble seed type | system | group polysaccharide.
1. A method for producing a purified water-soluble seed-based polysaccharide comprising:
(1) Step 1 of preparing a solution containing a water-soluble seed-based polysaccharide raw material, water or a mixed solvent of water and alcohol, and an alkaline compound,
(2) Step 2 for preparing a paste by heating and gelatinizing the solution, and (3) Step 3 for adding an alcohol to the paste and / or cooling the paste.
The manufacturing method characterized by having.
2. Item 2. The production method according to Item 1, wherein the water-soluble seed-based polysaccharide raw material is a galactose-containing polysaccharide.
3. Item 3. The production method according to Item 1 or 2, wherein the water-soluble seed-based polysaccharide raw material is at least one pulverized product selected from galactoxyloglucan and galactomannan.
4). Item 4. The method according to Item 3, wherein the galactoxyloglucan is tamarind seed gum, and the galactomannan is at least one selected from the group consisting of fenugreek gum, guar gum, sesbania gum, tara gum, locust bean gum and cassia gum. 5. Item 5. The production method according to any one of Items 1 to 4, wherein the alcohol is at least one selected from methanol, ethanol, and isopropanol.
6). Item 6. The production method according to any one of Items 1 to 5, wherein the alkaline compound is at least one selected from lithium hydroxide, sodium hydroxide, potassium hydroxide, magnesium hydroxide, and calcium hydroxide.
7). Item 7. The production method according to any one of Items 1 to 6, wherein the concentration of the alkaline compound in the paste is 1 to 20% by mass with the paste being 100% by mass.
8). Item 8. The method according to any one of Items 1 to 7, wherein the paste liquid has a pH of 10 or more.

  The method for producing the purified water-soluble seed polysaccharide of the present invention makes it easy to separate the water-soluble component and the insoluble component of the water-soluble seed polysaccharide raw material with an alkaline compound, and facilitates the addition of alcohol, cooling, etc. By this method, insoluble components can be easily removed. Therefore, for the purpose of removing insoluble components, in order to keep the viscosity of the solution or dispersion of the water-soluble seed polysaccharide material low, the concentration of the solution or dispersion of the water-soluble seed polysaccharide material is lowered, Eliminates the need to filter with a filter aid and removes insoluble components from a high-concentration mixed solution of water-soluble seed-based polysaccharide raw materials, so purified water-soluble seed-based polysaccharides with excellent transparency are efficient It can be manufactured easily and easily.

  Hereinafter, the present invention will be described in detail.

The method for producing the purified water-soluble seed-based polysaccharide of the present invention comprises:
(1) Step 1 of preparing a solution containing a water-soluble seed-based polysaccharide raw material, water or a mixed solvent of water and alcohol, and an alkaline compound,
(2) Step 2 in which the solution is gelatinized by heating to prepare a paste, and (3) Step 3 in which alcohol is added to the paste and / or cooled.
It is a manufacturing method which has this.

1. Process 1
Step 1 is a step of (1) preparing a solution containing a water-soluble seed-based polysaccharide raw material, water or a mixed solvent of water and alcohol, and an alkaline compound.

(Water-soluble seed-based polysaccharide raw material)
The water-soluble seed-based polysaccharide material used in the present invention is not particularly limited as long as it is a water-soluble polysaccharide obtained from seeds, and examples thereof include galactose-containing polysaccharides. As the galactose-containing polysaccharide, a pulverized product is preferably used because it is easily dissolved in water or a mixed solvent of water and alcohol described later.

  Examples of the galactose-containing polysaccharide include galactoxyloglucan and galactomannan.

  As the galactoxyloglucan, tamarind seed gum is preferably used.

  As the galactomannan, fenugreek gum, guar gum, sesbania gum, tara gum, locust bean gum, and cassia gum can be used. These galactomannans may be used alone or in combination.

  The ratio (mass ratio) between galactose and mannose in the galactomannan is preferably about 1: 1 to 1: 5.

  The grade of a commercially available water-soluble seed-based polysaccharide raw material is not particularly limited, but is preferably a grade that is less contaminated with foreign matter, and is preferably a grade that sieves 99% or more of JIS standard sieve 350 μm (aperture 350 μm). By setting the particle size of the water-soluble seed-based polysaccharide raw material within the above range, it becomes easier to dissolve in water or a mixed solvent of water and alcohol, which will be described later, and it is possible to produce a purified water-soluble seed-based polysaccharide more efficiently. it can.

  The content of the water-soluble seed-based polysaccharide raw material is preferably 2 to 20% by mass, more preferably 3 to 15% by mass, and further preferably 4 to 12% by mass, with the solution as 100% by mass. By setting the content of the water-soluble seed-based polysaccharide raw material within the above range, operations such as heating and cooling can be easily performed, and the amount of the solution does not increase so much that the productivity is improved. .

(Water or a mixed solvent of water and alcohol)
In the production method of the present invention, water or a mixed solvent of water and alcohol (hereinafter also referred to as “water or mixed solvent”) is used. It does not specifically limit as alcohol used for a mixed solvent, For example, methanol, ethanol, isopropanol etc. are mentioned. Among these, methanol and ethanol are preferable. Moreover, the said alcohol may be used independently and may mix and use 2 or more types.

  The mass ratio of water and alcohol in the mixed solvent is preferably 99: 1 to 50:50. By setting the mass ratio of water and alcohol in the mixed solvent to the above range, the water-soluble component and the insoluble component in the water-soluble seed-based polysaccharide raw material can be more easily separated.

  In the production method of the present invention, the concentration of water or the mixed solvent in the solution is preferably 70 to 97% by mass, more preferably 75 to 92% by mass, and still more preferably 80 to 88% by mass, based on the solution as 100% by mass. . By setting the concentration of water or mixed solvent in the solution within the above range, operations such as heating and cooling can be easily performed, and the amount of the solution and the like does not increase so much that the productivity is excellent. Has the advantage of

(Alkaline compound)
The alkaline compound is not particularly limited as long as it can easily separate the insoluble component and the water-soluble component of the water-soluble seed polysaccharide raw material. Examples of the alkaline compound include lithium hydroxide, sodium hydroxide, potassium hydroxide, magnesium hydroxide, calcium hydroxide and the like. It is preferable to use an alkaline compound according to the intended purpose of the produced purified water-soluble seed-based polysaccharide. For example, it is preferable to use sodium hydroxide, potassium hydroxide or the like if used for food. The said alkaline compound may be used independently and may combine 2 or more types.

  The content of the alkaline compound in the solution is preferably 1 to 20% by mass, more preferably 3 to 15% by mass, and further preferably 4 to 12% by mass, based on the solution as 100% by mass. By setting the content of the alkaline compound in the above range, operations such as heating and cooling can be easily performed, and the water-soluble component and the insoluble component of the water-soluble seed-based polysaccharide raw material can be more easily separated. It can be carried out.

(Preparation of solution)
The method for preparing the solution is not particularly limited, and examples thereof include a method of mixing and stirring a water-soluble seed-based polysaccharide raw material, water or a mixed solvent of water and alcohol, and an alkaline compound by a widely known method. Can be mentioned.

  By the process 1 demonstrated above, the solution containing a water-soluble seed-type polysaccharide raw material, the mixed solvent of water or water and alcohol, and an alkaline compound is prepared.

2. Process 2
Step 2 is a step in which the solution prepared in Step 1 is gelatinized by heating to prepare a paste liquid. The heating temperature in the heat gelatinization can be appropriately set in consideration of the quality of the water-soluble seed polysaccharide raw material and the concentration of the water-soluble seed polysaccharide raw material in the solution or dispersion. Specifically, the heating temperature is preferably 50 ° C. or higher, more preferably 60 ° C. or higher, and still more preferably 70 ° C. or higher. Moreover, since the upper limit of the said heating temperature can be manufactured using a high pressure reactor, it is not specifically limited. The upper limit of the heating temperature is preferably 120 ° C. By setting the heating temperature within the above range, it becomes easy to separate the water-soluble component and the insoluble component of the water-soluble seed-based polysaccharide raw material, and operations such as stirring during heating gelatinization and stirring during cooling are easy. Can be done.

  The heating time for the heat gelatinization is not particularly limited, and is preferably 30 minutes to 5 hours, more preferably 1 hour to 4 hours. By setting the heating time within the above range, the paste liquid can be sufficiently prepared.

  The heat gelatinization is preferably performed while stirring the solution. A uniform paste solution can be prepared by heating gelatinization while stirring the solution.

  The PH of the paste liquid prepared in step 2 is preferably 10 or more, and more preferably 11 or more. By setting the pH of the paste liquid in the above range, the water-soluble component and the insoluble component of the purified water-soluble seed polysaccharide can be easily separated without reducing the molecular weight of the purified water-soluble seed polysaccharide. it can. In addition, PH of the said paste liquid can be measured with PH test paper.

  The paste liquid is prepared by the process 2 demonstrated above.

3. Process 3
Step 3 is a step of adding alcohol to the paste prepared in Step 2 and / or a step of cooling the paste. By the step 3, the purified water-soluble seed polysaccharide is precipitated in the paste, and the paste becomes a dispersion (slurry) containing the precipitated purified water-soluble seed polysaccharide and insoluble components.

(Alcohol added)
By adding an alcohol to the paste liquid prepared in the above step 2, the purified water-soluble seed-based polysaccharide is precipitated in the paste liquid. Alcohol addition is effective when water or a mixed solvent of water and alcohol having a low alcohol concentration is used as the solvent in Step 2. That is, alcohol addition uses water or a mixed solvent of water and alcohol as a solvent in Step 2, and the content of the alcohol in the mixed solvent is less than 15% by mass with the mixed solvent being 100% by mass. It is effective in the case.

  The alcohol used for adding the alcohol is not particularly limited as long as it is compatible with water, and examples thereof include methanol, ethanol, isopropanol and the like. As the alcohol used for the alcohol addition, those according to the use of the purified water-soluble seed-based polysaccharide produced by the production method of the present invention can be appropriately selected. For example, when used for foods, food additives, cosmetics, quasi drugs, etc., it is preferable to use an alcohol suitable for the use, such as ethanol.

  The content of the alcohol in the paste liquid after addition of alcohol is preferably 30 to 70 mass%, more preferably 40 to 60 mass%, and further preferably 50 to 60 mass%, with the paste liquid after addition of alcohol being 100 mass%. preferable. By setting the content of the paste liquid after addition of alcohol within the above range, the purified water-soluble seed-based polysaccharide can be precipitated more efficiently in the paste liquid.

(cooling)
By cooling the paste prepared in the above step 2, the purified water-soluble seed-based polysaccharide is precipitated in the paste. Cooling is effective when a mixed solvent of water and alcohol having a high alcohol concentration is used as the solvent in Step 2. That is, cooling uses a mixed solvent of water and alcohol as a solvent in Step 2, and the alcohol content in the mixed solvent is preferably 15 to 60% by mass when the mixed solvent is 100% by mass, preferably 18 It is effective when it is ˜40 mass%.

  -5-40 degreeC is preferable and the cooling temperature of paste liquid has more preferable 10-30 degreeC. By setting the temperature of the paste liquid within the above range, the purified water-soluble seed-based polysaccharide can be precipitated more efficiently in the paste liquid.

  The supernatant liquid generated by the cooling can be reused when preparing the solution in step 1. That is, in the production method of the present invention, when only cooling is performed as Step 3, between the supernatant of the dispersion (slurry) produced in Step 3 and the solution prepared in Step 1, alcohol and an alkaline compound Since the mass ratio is the same, a solution can be prepared using the recovered supernatant in step 1 of the next production. By reusing the supernatant, the amount of alcohol and alkaline compound used in the production can be reduced, so that a purified water-soluble seed-based polysaccharide can be produced at a low cost.

  In the production method of the present invention, in step 3, the alcohol addition and the cooling may be performed either or both. In particular, in Step 2, when water or a mixed solvent of water and alcohol having a low alcohol concentration is used as the solvent, purification is performed more efficiently by cooling after adding the alcohol. A water-soluble seed-based polysaccharide can be produced.

  By the step 3 described above, a purified water-soluble seed-based polysaccharide can be produced.

(Neutralization process)
In the manufacturing method of this invention, you may have the neutralization process after the said process 3. FIG. By performing the neutralization step after step 3, the alkaline compound adhering to the precipitated purified water-soluble seed polysaccharide can be neutralized, and a purified water-soluble seed polysaccharide with higher purity can be prepared. it can.

  It does not specifically limit as an acid used at the said neutralization process, An inorganic acid, an organic acid, etc. can be used. When used for food applications, it is preferable to use an acid suitable for the application, such as citric acid.

  The neutralization step is preferably performed after step 3. By carrying out the neutralization step after step 3, the increase in the viscosity of the paste liquid after neutralization can be suppressed, so that stirring becomes easier. Further, if the supernatant produced in Step 3 is removed by performing the neutralization step after Step 3, the amount of salt produced by the neutralization is reduced, and the washing step is preferable in that simple washing is sufficient.

(Washing process)
The production method of the present invention may have a washing step after the step 3. By performing a washing step after step 3, insoluble components and the like attached to the purified water-soluble seed-based polysaccharide can be removed, and a purified water-soluble seed-based polysaccharide with higher purity can be prepared. In the washing step, the purified water-soluble seed-based polysaccharide precipitated in the above step 3 is filtered and obtained as a filtration residue by a conventionally known method such as suction filtration using filter paper, and then the filtration residue is filtered. It can be carried out by adding a volatile solvent such as alcohol, washing, and filtering again with filter paper to obtain a filtration residue.

  The solvent used in the washing step is not particularly limited as long as it has volatility, and examples thereof include alcohols such as methanol, ethanol, and isopropyl alcohol. From the viewpoint of excellent volatility, it is preferable to use methanol and ethanol. These solvents may be used alone or in combination of two or more.

(Purified water-soluble seed polysaccharide)
The purified water-soluble seed-based polysaccharide can be produced by the production method of the present invention described above. Examples of such purified water-soluble seed-based polysaccharides include purified tamarind seed gum and purified galactomannan (purified guar gum).

(Refined tamarind seed gum)
The refined tamarind seed gum produced by the production method of the present invention can be used for various applications. In the purified tamarind seed gum, the viscosity of a 1.5% aqueous solution measured with a B-type viscometer at 25 ° C. is preferably 100 to 800 mPa · s, and preferably 300 to 800 mPa · s. More preferred.

  The transmittance of a 1.5% aqueous solution of the purified tamarind seed gum measured under the conditions of a measurement wavelength of 440 nm, an optical path length of 10 mm, and 25 ° C. is preferably 40% or more, and more preferably 50% or more. By the transmittance | permeability of the said aqueous solution being the above-mentioned range, it will become the refined tamarind seed gum excellent in transparency.

  Although it does not specifically limit as a use of the said refine | purified tamarind seed gum, Since it has said characteristic, it can be used for various fields, such as a foodstuff, a food additive, cosmetics, a quasi-drug, an industrial paste.

  In the purified tamarind seed gum produced by the production method of the present invention, the characteristic plant odor possessed by the conventional purified tamarind seed gum is suppressed. Since the refined tamarind seed gum powder and the 1.5% aqueous solution are reduced to such an extent that almost no odor is observed, they can be suitably used in the field of food additives and the like.

(Refined galactomannan (refined guar gum))
The purified galactomannan (purified guar gum) produced by the production method of the present invention can be used for various applications. The purified guar gum preferably has a 1% aqueous solution viscosity of 100 to 5000 mPa · s, more preferably 1000 to 5000 mPa · s, measured at 25 ° C. using a B-type viscometer.

  The transmittance of a 1% aqueous solution of the purified guar gum measured under the conditions of a wavelength of 440 nm, an optical path length of 10 mm, and 25 ° C. is preferably 40% or more, and more preferably 50% or more. By the transmittance | permeability of the said aqueous solution being the above-mentioned range, it becomes the purified guar gum excellent in transparency.

  The use of the purified guar gum is not particularly limited. Since the purified guar gum has the above-mentioned characteristics, it can be used in various fields such as foods, food additives, cosmetics, quasi drugs, and industrial pastes.

  The said refined guar gum manufactured by the manufacturing method of this invention has suppressed the peculiar plant odor which the conventional refined guar gum has. Since the refined tamarind seed gum powder and 1% aqueous solution are reduced to such an extent that odor is hardly recognized, they can be suitably used in the field of food additives and the like.

  In addition, the manufacturing method of this invention is applicable also when starch is used as a raw material. A partially pregelatinized starch or a water-soluble starch can be obtained by treating starch seeds or pulverized lumps as raw materials in the same manner as in the production method of the present invention. Since this starch production method can generally reduce the amount of water used compared to a method of treating starch in an aqueous system, the wastewater treatment facility can be made smaller.

  Hereinafter, the present invention will be specifically described with reference to Examples and Comparative Examples. However, the present invention is not limited to the examples. In the following Examples and Comparative Examples, centrifugation was performed using a Haimac SCR20B manufactured by Hitachi. Moreover, the viscosity was measured using a Tokyo Keiki DVL-B viscometer. Furthermore, the transmittance was measured using a Hitachi U-2000 double beam spectrophotometer.

Example 1
40 g of caustic soda is added to 460 g of 31% aqueous methanol solution, 40 g of tamarind seed gum (Foodmaid TA-100 (trade name) manufactured by Shikibo Co., Ltd.) is added with stirring, and the mixture is stirred for 3 hours at a bath temperature of 60 ° C. Was prepared. While stirring the paste, it was cooled for about 30 minutes until the temperature of the paste became 39 ° C. or lower to obtain a precipitate. The dispersion containing the precipitate was centrifuged with a centrifuge at 2000 rpm for 2 minutes. 250 g of the supernatant was separated out, 200 g of 50% aqueous methanol solution was added to the precipitate, and the mixture was stirred and washed, followed by suction filtration using No. 2 filter paper. After adding 200 g of 50% aqueous methanol solution to the filtration residue and stirring and washing it, No. 2 again. Filtered off with suction using 2 filter papers. To the filtration residue, 200 g of a 50% methanol aqueous solution was added, and citric acid was added with stirring to neutralize the pH to 7.2. This dispersion was designated as No.1. Filtered off with suction using 2 filter papers. 200 g of methanol was added to the filtration residue and washed with stirring. Filtered off with suction using 2 filter papers. The filtration residue was spread on a vat, dried at 50 ° C., and pulverized with a universal pulverizer to obtain 33 g of purified tamarind seed gum.

  The physical properties of the obtained purified tamarind seed gum were measured. The product had an ash content of 1.0% and a protein content of 0.07%. The viscosity of the 1.5% aqueous solution is 728 mPa · s (25 ° C., No. 2 spindle, 30 rpm), and the transmittance of the 1.5% aqueous solution is 67% (measurement wavelength 440 nm, optical path length 10 mm, 25 ° C.). Met. Moreover, the odors of the powder and the 1.5% aqueous solution were almost odorless.

(Example 2)
Add 250 g of 31% aqueous methanol solution and 20 g of caustic soda to 250 g of the supernatant obtained by centrifugation in Example 1, and add 40 g of tamarind seed gum (Foodmaid TA-100 (trade name) manufactured by Shikibo Co., Ltd.) while stirring. In addition, the paste was prepared by stirring at a bath temperature of 70 ° C. for 2 hours. While stirring the paste, it was cooled for about 30 minutes until the temperature of the paste became 39 ° C. or lower to obtain a precipitate. The dispersion containing the precipitate was centrifuged using a centrifuge at 2000 rpm for 2 minutes. After adding 200 g of 50% methanol aqueous solution to the precipitate and stirring and washing, Filtered off with suction using 2 filter papers. After adding 200 g of 50% methanol aqueous solution to the filtration residue and stirring and washing, No. again. Filtered off with suction using 2 filter papers. To the filtration residue, 200 g of a 50% methanol aqueous solution was added, and citric acid was added while stirring to neutralize the pH to 7.0. This dispersion was designated as No.1. Filtered off with suction using 2 filter papers. 200 g of methanol was added to the filtration residue and washed with stirring. Filtered off with suction using 2 filter papers. The filtration residue was spread on a vat, dried at 50 ° C., and pulverized with a universal pulverizer to obtain 31 g of purified tamarind seed gum.

  When the physical properties of the obtained purified tamarind seed gum were measured, the product had an ash content of 1.1% and a protein content of 0.08%. The viscosity of the 1.5% aqueous solution is 630 mPa · s (25 ° C., No. 2 spindle, 30 rpm), and the transmittance of the 1.5% aqueous solution is 59% (measurement wavelength 440 nm, optical path length 10 mm, 25 ° C.). Met. The odors of the powder and the 1.5% aqueous solution were almost odorless.

Example 3
Add 30 g of caustic soda to 370 g of 32% ethanol aqueous solution, add 30 g of tamarind seed gum (Foodmaid TA-100 (trade name) manufactured by Shikibo Co., Ltd.) with stirring, and stir at a bath temperature of 70 ° C. for 1.5 hours. A paste liquid was prepared. While stirring the paste, it was cooled for about 30 minutes until the temperature of the paste became 39 ° C. or lower to obtain a precipitate. The dispersion containing the precipitate was centrifuged with a centrifuge at 2000 rpm for 2 minutes. After adding 200 g of 50% ethanol aqueous solution to the precipitate and stirring and washing, Filtered off with suction using 2 filter papers. After adding 200 g of 50% ethanol aqueous solution to the filtration residue and washing with stirring, No. 5 was again applied. Filtered off with suction using 2 filter papers. 200 g of 50% ethanol aqueous solution was added to the filtration residue, and citric acid was added while stirring to neutralize the pH to 7.0. This dispersion was designated as No.1. Filtered off with suction using 2 filter papers. 200 g of ethanol was added to the filtration residue and washed with stirring. Filtered off with suction using 2 filter papers. The filtration residue was spread on a vat, dried at 50 ° C., and pulverized with a universal pulverizer to obtain 20 g of purified tamarind seed gum powder.

  The physical properties of the obtained purified tamarind seed gum were measured. The product had an ash content of 1.1% and a protein content of 0.06%. The viscosity of the 1.5% aqueous solution is 663 mPa · s (25 ° C., No. 2 spindle, 30 rpm), and the transmittance of the 1.5% aqueous solution is 64% (measurement wavelength 440 nm, optical path length 10 mm, 25 ° C.). Met. Further, the odors of the powder and the 1.5% aqueous solution were almost odorless.

Example 4
40 g of caustic soda is added to 460 g of 32% methanol aqueous solution, and 60 g of tamarind seed gum (Foodmaid TA-100 (trade name) manufactured by Shikibo Co., Ltd.) is added with stirring, and the mixture is stirred for 1 hour at a bath temperature of 70 ° C. Was prepared. While stirring the paste, it was cooled for about 30 minutes until the temperature of the paste became 39 ° C. or lower to obtain a precipitate. The dispersion containing this precipitate was allowed to stand overnight, and then the supernatant was removed. After adding 200 g of 50% methanol aqueous solution to the remaining precipitate and stirring and washing, Filtered off with suction using 2 filter papers. After adding 200 g of 50% methanol aqueous solution to the filtration residue and stirring and washing, No. again. Filtered off with suction using 2 filter papers. To the filtration residue, 200 g of a 50% methanol aqueous solution was added, and citric acid was added while stirring to neutralize the pH to 7.1. This dispersion was designated as No.1. Filtered off with suction using 2 filter papers. The filtration residue was spread on a vat, dried at 60 ° C., and pulverized with a universal pulverizer to obtain 35 g of purified tamarind seed gum powder.

  When the physical properties of the obtained purified tamarind seed gum were measured, the product had an ash content of 1.3% and a protein content of 0.08%. The viscosity of the 1.5% aqueous solution is 633 mPa · s (25 ° C., N0.2 spindle, 30 rpm), and the transmittance of the 1.5% aqueous solution is 58% (measurement wavelength 440 nm, optical path length 10 mm, 25 ° C.). Met. Further, the odors of the powder and the 1.5% aqueous solution were almost odorless.

(Example 5)
Add 50 g of caustic soda to 450 g of 30% aqueous methanol solution, add 50 g of tamarind seed gum (Foodmaid TA-100 (trade name) manufactured by Shikibo Co., Ltd.) while stirring, and stir for 2 hours at a bath temperature of 70 ° C. Was prepared. While stirring the paste, it was cooled for about 30 minutes until the temperature of the paste became 39 ° C. or lower to obtain a precipitate. The dispersion containing the precipitate was centrifuged with a centrifuge at 2000 rpm for 2 minutes. After adding 200 g of 50% methanol aqueous solution to the precipitate and stirring and washing, Filtered off with suction using 2 filter papers. After adding 200 g of 50% methanol aqueous solution to the filtration residue and stirring and washing, No. again. Filtered off with suction using 2 filter papers. To the filtration residue, 200 g of a 50% methanol aqueous solution was added, and citric acid was added while stirring to neutralize the pH to 7.1. This dispersion was designated as No.1. Filtered off with suction using 2 filter papers. Add 200 g of methanol to the filtration residue and stir. Filtered off with suction using 2 filter papers. The filtration residue was spread on a vat, dried at 50 ° C., and pulverized with a universal pulverizer to obtain 35 g of purified tamarind seed gum powder.

  The physical properties of the obtained purified tamarind seed gum were measured. As a result, the product had an ash content of 1.0% and a protein content of 0.05%. The viscosity of the 1.5% aqueous solution is 786 mPa · s (25 ° C., N0.2 spindle, 30 rpm), and the transmittance of the 1.5% aqueous solution is 67% (measurement wavelength 440 nm, optical path length 10 mm, 25 ° C.). Met. Further, the odors of the powder and the 1.5% aqueous solution were almost odorless.

Example 6
50 g of caustic soda was added to 450 g of 31% methanol aqueous solution, 50 g of tamarind seed gum (tamarind kernel powder) was added with stirring, and the mixture was stirred at a bath temperature of 80 ° C. for 2 hours to prepare a paste solution. While stirring the paste, it was cooled for about 30 minutes until the temperature of the paste became 39 ° C. or lower to obtain a precipitate. The dispersion containing the precipitate was centrifuged with a centrifuge at 2000 rpm for 2 minutes. After adding 200 g of 50% methanol aqueous solution to the precipitate and stirring and washing, Filtered off with suction using 2 filter papers. After adding 200 g of 50% methanol aqueous solution to the filtration residue and stirring and washing, No. again. Filtered off with suction using 2 filter papers. To the filtration residue, 200 g of a 50% methanol aqueous solution was added, and citric acid was added with stirring to neutralize the pH to 7.2. This dispersion was designated as No.1. Filtered off with suction using 2 filter papers. 200 g of methanol was added to the filtration residue and washed with stirring. Filtered off with suction using 2 filter papers. The filtration residue was spread on a vat, dried at 50 ° C., and pulverized with a universal pulverizer to obtain 35 g of purified tamarind seed gum powder.

  The physical properties of the obtained purified tamarind seed gum were measured. As a result, the product had an ash content of 1.0% and a protein content of 0.11%. The viscosity of the 1.5% aqueous solution is 566 mPa · s (25 ° C., N0.2 spindle, 30 rpm), and the transmittance of the 1.5% aqueous solution is 54% (measurement wavelength 440 nm, optical path length 10 mm, 25 ° C.). Met. Further, the odors of the powder and the 1.5% aqueous solution were almost odorless.

(Example 7)
24 g of caustic soda was added to 376 g of 20% aqueous methanol solution, 24 g of guar gum was added with stirring, and the mixture was stirred at a bath temperature of 85 ° C. for 4 hours to prepare a paste solution. While stirring the paste, the solution was cooled to a temperature of 10 ° C. or lower to obtain a precipitate. The dispersion containing the precipitate was centrifuged with a centrifuge at 3000 rpm for 2 minutes. After adding 200 g of 30% aqueous methanol solution to the precipitate and stirring and washing at 5000 rpm for 10 minutes using a homogenizer, Filtered off with suction using 2 filter papers. After adding 200 g of a 30% aqueous methanol solution to the filtration residue and stirring and washing, the No. again. Filtered off with suction using 2 filter papers. To the filtration residue, 200 g of a 50% methanol aqueous solution was added, and citric acid was added while stirring to neutralize the pH to 7.1. This dispersion was designated as No.1. Filtered off with suction using 2 filter papers. 200 g of methanol was added to the filtration residue and washed with stirring. Filtered off with suction using 2 filter papers. The filtration residue was spread on a vat, dried at 50 ° C., and pulverized with a universal pulverizer to obtain 18 g of purified guar gum powder.

  When the physical properties of the obtained purified guar gum were measured, the viscosity of the 1% aqueous solution was 2015 mPa · s (25 ° C., No. 3 spindle, 30 rpm), and the transmittance of the 1% aqueous solution was 64% (measurement wavelength 440 nm, optical path) 10 mm long and 25 ° C.). The odors of the powder and 1% aqueous solution were almost odorless.

(Example 8)
18 g of caustic soda was added to 584 g of 18% ethanol aqueous solution, 18 g of guar gum was added with stirring, and the mixture was stirred at 120 ° C. for 2 hours with a high-pressure reactor to prepare a paste solution. While stirring the paste, the solution was cooled to a temperature of 10 ° C. or lower to obtain a precipitate. The dispersion containing the precipitate was centrifuged with a centrifuge at 3000 rpm for 2 minutes. After adding 200 g of 20% ethanol aqueous solution to the precipitate and stirring and washing, Filtered off with suction using 2 filter papers. After adding 200 g of 20% ethanol aqueous solution to the filtration residue and stirring and washing, no. Filtered off with suction using 2 filter papers. 200 g of 50% ethanol aqueous solution was added to the filtration residue, and citric acid was added while stirring to neutralize the pH to 7.0. This dispersion was designated as No.1. Filtered off with suction using 2 filter papers. 200 g of ethanol was added to the filtration residue and washed with stirring. Filtered off with suction using 2 filter papers. The filtration residue was spread on a vat, dried at 50 ° C., and pulverized with a universal pulverizer to obtain 13 g of purified guar gum powder.

  When the physical properties of the purified guar gum obtained were measured, the viscosity of the 1% aqueous solution was 2423 mPa · s (25 ° C., No. 3 spindle, 30 rpm), and the transmittance of the 1% aqueous solution was 62% (measurement wavelength 440 nm, optical path) 10 mm long and 25 ° C.). The odors of the powder and 1% aqueous solution were almost odorless.

Example 9
24 g of caustic soda was added to 376 g of 20% aqueous methanol solution, 24 g of locust bean gum was added with stirring, and the mixture was stirred at a bath temperature of 85 ° C. for 4 hours to prepare a paste solution. While stirring the paste, the solution was cooled to a temperature of 10 ° C. or lower to obtain a precipitate. The dispersion containing the precipitate was centrifuged with a centrifuge at 3000 rpm for 2 minutes. After adding 200 g of 30% methanol aqueous solution to the precipitate and stirring and washing, Filtered off with suction using 2 filter papers. After adding 200 g of a 30% aqueous methanol solution to the filtration residue and stirring and washing, the No. again. Filtered off with suction using 2 filter papers. To the filtration residue, 200 g of a 50% methanol aqueous solution was added, and citric acid was added while stirring to neutralize the pH to 7.0. This dispersion was designated as No.1. Filtered off with suction using 2 filter papers. 200 g of methanol was added to the filtration residue and washed with stirring. Filtered off with suction using 2 filter papers. The filtration residue was spread on a vat, dried at 50 ° C., and pulverized with a universal pulverizer to obtain 16 g of purified locust bean gum powder.

  When the physical properties of the obtained purified locust bean gum were measured, the viscosity of the 1% aqueous solution was 2457 mPa · s (25 ° C., No. 3 spindle, 30 rpm), and the transmittance of the 1% aqueous solution was 61% (measurement wavelength: 440 nm). The optical path length was 10 mm and 25 ° C.). The odors of the powder and 1% aqueous solution were almost odorless.

(Example 10)
24 g of caustic soda was added to 376 g of 20% aqueous methanol solution, 24 g of locust bean gum was added with stirring, and the mixture was stirred at a bath temperature of 85 ° C. for 4 hours to prepare a paste solution. While stirring the paste, the solution was cooled to a temperature of 10 ° C. or lower to obtain a precipitate. The dispersion containing the precipitate was centrifuged with a centrifuge at 3000 rpm for 2 minutes. After adding 200 g of 30% aqueous methanol solution to the precipitate and stirring and washing at 5000 rpm for 10 minutes using a homogenizer, Filtered off with suction using 2 filter papers. After adding 200 g of a 30% aqueous methanol solution to the filtration residue and stirring and washing, the No. again. Filtered off with suction using 2 filter papers. To the filtration residue, 200 g of a 50% methanol aqueous solution was added, and citric acid was added with stirring to neutralize the pH to 7.2. This dispersion was designated as No.1. Filtered off with suction using 2 filter papers. 200 g of methanol was added to the filtration residue and washed with stirring. Filtered off with suction using 2 filter papers. The filtration residue was spread on a vat, dried at 50 ° C., and pulverized with a universal pulverizer to obtain 15 g of purified locust bean gum powder.

  When the physical properties of the purified locust bean gum obtained were measured, the viscosity of the 1% aqueous solution was 2260 mPa · s (25 ° C., No. 3 spindle, 30 rpm), and the transmittance of the 1% aqueous solution was 62% (measurement wavelength: 440 nm). The optical path length was 10 mm and 25 ° C.). The odor of the powder and 1% aqueous solution was almost odorless.

Example 11
40 g of caustic soda is added to 460 g of 31% aqueous methanol solution, 40 g of tamarind seed gum (Foodmaid TA-100 (trade name) manufactured by Shikibo Co., Ltd.) is added with stirring, and the mixture is stirred for 3 hours at a bath temperature of 60 ° C. Was prepared. While stirring the paste, 70 g of 50% citric acid was added to neutralize the pH to 7.1. Since this paste became a bowl and no precipitate was deposited even after cooling, 300 g of 50% aqueous methanol solution was added to cause alcohol precipitation, and the mixture was stirred for 10 minutes at 8000 rpm using a homogenizer to obtain a precipitate. . The precipitate was filtered off with suction using No. 2 filter paper. After adding 200 g of 50% aqueous methanol solution to the filtration residue and stirring and washing it, No. 2 again. Filtered off with suction using 2 filter papers. To the filtration residue, 200 g of a 50% aqueous methanol solution was added and washed with stirring. Filtered off with suction using 2 filter papers. 200 g of methanol was added to the filtration residue and washed with stirring. Filtered off with suction using 2 filter papers. The filtration residue was spread on a vat, dried at 50 ° C., and pulverized with a universal pulverizer to obtain 43 g of purified tamarind seed gum.

  The physical properties of the obtained purified tamarind seed gum were measured. As a result, the product had an ash content of 14.1% and a protein content of 0.08%. The viscosity of the 1.5% aqueous solution is 254 mPa · s (25 ° C., No. 2 spindle, 30 rpm), and the transmittance of the 1.5% aqueous solution is 49% (measurement wavelength 440 nm, optical path length 10 mm, 25 ° C.). Met. Further, the odor of the powder and the 1.5% aqueous solution was almost odorless, but it was a product having a little ash and a low viscosity.

(Comparative Example 1)
To 500 g of 30% aqueous methanol solution, 50 g of tamarind seed gum (tamarind kernel powder) was added while stirring, and stirred at a bath temperature of 80 ° C. for 2 hours to prepare a paste solution. While stirring the paste, 200 g of a 50% methanol aqueous solution was added and cooled for about 30 minutes until the temperature of the paste became 39 ° C. or lower to obtain a precipitate. The dispersion containing the precipitate was centrifuged with a centrifuge at 2000 rpm for 2 minutes. After adding 200 g of 50% methanol aqueous solution to the precipitate and stirring and washing, Filtered off with suction using 2 filter papers. After adding 200 g of 50% methanol aqueous solution to the filtration residue and stirring and washing, No. again. Filtered off with suction using 2 filter papers. To the filtration residue, 200 g of 50% aqueous methanol solution was added and washed with stirring. This dispersion was designated as No.1. Filtered off with suction using 2 filter papers. 200 g of methanol was added to the filtration residue and washed with stirring. Filtered off with suction using 2 filter papers. The filtration residue was spread on a vat, dried at 50 ° C., and pulverized with a universal pulverizer to obtain 28 g of purified tamarind seed gum powder.

  The physical properties of the obtained purified tamarind seed gum were measured. As a result, the product had an ash content of 0.4% and a protein content of 1.85%. The viscosity of the 1.5% aqueous solution is 760 mPa · s (25 ° C., N0.2 spindle, 30 rpm), and the transmittance of the 1.5% aqueous solution is 8% (measurement wavelength 440 nm, optical path length 10 mm, 25 ° C.). Met. Further, the odors of the powder and the 1.5% aqueous solution remained considerably odors derived from the raw materials.

(Comparative Example 2)
2 g of caustic soda was added to 200 g of 50% isopropyl alcohol aqueous solution, 20 g of tamarind seed gum (Foodmaid TA-100 (trade name) manufactured by Shikibo Co., Ltd.) was added with stirring, and the mixture was stirred at a bath temperature of 85 ° C. for 30 minutes. After 30 minutes, the dispersion was adjusted to pH 6.5 with hydrochloric acid, and then the dispersion was separated by filtration using a sieve of JIS standard sieve 88 μm (aperture 88 μm). After adding 100 g of 50% isopropyl alcohol aqueous solution to the sieve residue and stirring and washing for 10 minutes, no. Filtered off with suction using 2 filter papers. The filtration residue was spread on a vat, dried at 60 ° C., and pulverized with a universal pulverizer to obtain 17 g of purified tamarind seed gum powder.

  The physical properties of the obtained purified tamarind seed gum were measured. As a result, the product had an ash content of 2.0% and a protein content of 0.07%. The viscosity of the 1.5% aqueous solution is 375 mPa · s (25 ° C., No. 2 spindle, 30 rpm), and the transmittance of the 1.5% aqueous solution is 35% (measurement wavelength 440 nm, optical path length 10 mm, 25 ° C.). Met. Further, the odor of the powder and the aqueous solution was only slightly recognized.

Claims (8)

A method for producing a purified water-soluble seed-based polysaccharide comprising:
(1) Step 1 of preparing a solution containing a water-soluble seed-based polysaccharide raw material, water or a mixed solvent of water and alcohol, and an alkaline compound,
(2) Step 2 for preparing a paste by heating and gelatinizing the solution, and (3) Step 3 for adding an alcohol to the paste and / or cooling the paste.
The manufacturing method characterized by having.   The manufacturing method of Claim 1 whose said water-soluble seed type | system | group polysaccharide raw material is a galactose containing polysaccharide.   The production method according to claim 1 or 2, wherein the water-soluble seed-based polysaccharide raw material is at least one pulverized product selected from galactoxyloglucan and galactomannan.   The production according to claim 3, wherein the galactoxyloglucan is tamarind seed gum, and the galactomannan is at least one selected from the group consisting of fenugreek gum, guar gum, sesbania gum, tara gum, locust bean gum and cassia gum. Method.   The manufacturing method in any one of Claims 1-4 whose said alcohol is at least 1 sort (s) selected from methanol, ethanol, and isopropanol.   The manufacturing method according to any one of claims 1 to 5, wherein the alkaline compound is at least one selected from lithium hydroxide, sodium hydroxide, potassium hydroxide, magnesium hydroxide, and calcium hydroxide.   The manufacturing method according to claim 1, wherein the concentration of the alkaline compound in the solution is 1 to 20% by mass, where the solution is 100% by mass.   The manufacturing method according to claim 1, wherein the paste liquid has a pH of 10 or more.