JP2006288383A - Method for producing refined green tea extract - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for producing a refined green tea extract having extremely high concentration of non-polymeric catechins, and causing no turbidity during preparing packaged drink. <P>SOLUTION: This method for producing the refined green tea extract which contains 20-90 mass% of non-polymeric catechins based on the solid of the extract comprises dissolving a green tea extract in water or an organic solvent aqueous solution, adding 1-30 pt(s) mass of organic acid and its salt based on 100 pts.mass of the solid of the green tea extract to the product, and removing a produced insoluble matter from the product. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a method for producing a purified green tea extract containing a high concentration of non-polymer catechins and producing no turbidity when producing a packaged beverage from a green tea extract.

  Catechins are known to have an action to suppress cholesterol elevation, an action to inhibit α-amylase activity, and the like (see, for example, Patent Document 1 and Patent Document 2). In order to develop such physiological effects of catechins, it is necessary to drink 4-5 cups of tea per day for adults. For this reason, the technique of mix | blending catechins with high concentration in a drink is desired so that a large amount of catechins can be ingested more simply.

On the other hand, packaged beverages containing green tea extract have the problem of turbidity and orientation after long-term storage, and as a means to prevent this, acid acids such as organic acids, vitamin C, and lemon juice are added to the tea extract. After adjusting the pH to 2.5 to 5.0, the method of removing the tea cream in the black tea extract by centrifugation (Patent Document 1), and adding ascorbic acid to the green tea extract, cooling Then, after centrifugation, a method of filtering with diatomaceous earth (Patent Document 2) has been reported. However, depending on these means, in the green tea extract containing a high concentration of non-polymer catechins, the effect of suppressing the generation of turbidity at the time of preparing a packaged beverage was not sufficient.
JP-A 51-26253 JP-A-4-31348

  An object of the present invention is to provide a method for producing a purified green tea extract having a high concentration of non-polymer catechins and free of turbidity when a packaged beverage is prepared.

As a result of various studies on the cause of turbidity during preparation of packaged beverages, the present inventor has found that the turbidity is present in the lipid component contained in the green tea extract. Here, the lipid component is originally contained in green tea leaves. For example, phospholipids typified by lecithin, monogalactosyl diglyceride (MGDG), and glycolipids typified by digalactosyl diglyceride (DGDG) are the main components. It is an ingredient (tea industry technical research No. 53.P82-87.1977-12). As a result of further investigation, the cause of the turbidity is that the green tea extract is dissolved in water or an organic solvent aqueous solution, and if a certain amount of organic acid and its salt are added thereto, insoluble matter is formed and aggregated. It has been found that a purified green tea extract having a high concentration of non-polymer catechins and free of turbidity when a packaged beverage is prepared can be obtained by removing.

  That is, the present invention dissolves a green tea extract in water or an organic solvent aqueous solution, adds 1 to 50 parts by mass of an organic acid and a salt thereof to 100 parts by mass of the solid content of the green tea extract, and generates an insoluble matter. The present invention provides a method for producing a purified green tea extract containing 25 to 90% by mass of non-polymer catechins based on the solid content of the extract.

  When the purified green tea extract obtained by the method of the present invention is used, turbidity does not occur during preparation of a container-packed beverage. Therefore, it is particularly useful as a sports beverage, isotonic beverage or the like containing a high concentration of non-polymer catechins.

  The green tea extract used in the present invention contains one or more non-polymer catechins. Non-polymer catechins include non-epide catechins such as catechin, gallocatechin, catechin gallate, gallocatechin gallate and epicatechins such as epicatechin, epigallocatechin, epicatechin gallate, epigallocatechin gallate, etc. It is a general term.

  The gallate body ratio in the present invention is a value of 100 fraction with respect to the mass sum of non-polymer catechins consisting of 8 kinds of catechin gallate, gallocatechin gallate, epicatechin gallate and epigallocatechin gallate. .

  Examples of the green tea extract containing such non-polymer catechins include those obtained by drying or concentrating an extract obtained from green tea leaves.

More specifically, the tea leaves used here include tea leaves made from tea leaves obtained from the genus Camellia, for example, C. sinensis, C. assamica, and Yabuki species, or hybrids thereof. The tea leaves produced include green teas such as sencha, bancha, gyokuro, tencha, and kettle roasted tea.
An extraction method for obtaining a green tea extract from tea leaves can be performed by a method such as stirring extraction. Moreover, you may use together the method of extracting in so-called non-oxidative atmosphere, ventilating inert gas, such as boiling deaeration and nitrogen gas, and removing dissolved oxygen. The extract thus obtained is dried to obtain the green tea extract used in the present invention. Examples of the green tea extract include liquid, slurry, semi-solid, and solid state. From the viewpoint of dispersibility in ethanol, a slurry, semi-solid, or solid state is preferable.

The green tea extract used in the present invention, instead of drying the extract extracted from the tea leaves, using the concentrate of the tea extract, the concentrated extract of the extract from the tea leaves and the tea extract You may use together.
Here, the concentrate of tea extract is obtained by concentrating an extract extracted from tea leaves with hot water or a water-soluble organic solvent. For example, JP-A-59-219384 and JP-A-4-20589. No. 5, 260-907, JP-A-5-306279, and the like.
Specifically, as the green tea extract, commercially available crude catechin preparations such as “Polyphenone” manufactured by Tokyo Food Techno Co., “Theafuran” manufactured by ITO EN Co., Ltd., “Sunphenon” manufactured by Taiyo Kagaku Co., Ltd. may be used.

  As the green tea extract, it is particularly preferable to use an extract obtained by tannase-treating the green tea extract because a purified green tea extract with significantly reduced bitterness and astringency can be obtained. The tannase used here may be any as long as it has an activity of decomposing non-polymer catechins. Specifically, tannase obtained by culturing tannase-producing bacteria such as Aspergillus, Penicillium, Rhizopus and the like can be used. Of these, those derived from Aspergillus oryzae are particularly preferred. Powdered or solution tannase is added to the green tea extract so as to have a concentration of 25 Unit / L to 500 Unit / L, preferably 50 Unit / L to 150 Unit / L. The amount of tannase added is 0.1 Unit or more, preferably 0.2 Unit or more when converted to a solid content of 1 mg. Here, 1 Unit is defined as the amount of enzyme that hydrolyzes 1 micromole of an ester bond contained in tannic acid in 30 ° C. water. Thereafter, it is held at 5 ° C. to 50 ° C., preferably 10 ° C. to 40 ° C. until reaching a gallate body ratio of 10 to 70% by mass.

  Thereafter, the temperature is raised to 45 ° C. to 95 ° C., preferably 75 ° C. to 95 ° C. as soon as possible, and the reaction is stopped by deactivating tannase. By the deactivation treatment of the tannase, the subsequent decrease in the gallate body ratio can be prevented, and a green tea extract having the desired gallate body ratio can be obtained.

  In the tannase treatment of the present invention, the percentage of gallate body in the non-polymer catechins of the green tea extract obtained is controlled in the range of 10 to 70% by mass, preferably 30 to 60% by mass in terms of bitterness reduction and appearance. The That is, the tannase treatment carried out in the present invention controls the gallate body rate during tannase treatment, unlike the treatment method in which all gallate bodies contained in the conventional polymer catechins are hydrolyzed. The control of the gallate body rate by tannase treatment preferably determines the end point of the reaction based on the pH behavior of the green tea extract during the treatment. The pH is preferably 3 to 6, particularly 3.5 to 5.5. As a result, a tannase-treated green tea extract that maintains the amount of gallate body in the green tea extract in an arbitrary range can be obtained. Moreover, the fall of the gallate body rate after that can be prevented by the tannase deactivation process after a tannase process.

  As the green tea extract used in the present invention, a concentrate of tea extract containing 25 to 90% by mass, further 30 to 90% by mass, and further 35 to 90% by mass of non-polymer catechins by dry mass. It is preferable to use it.

  Furthermore, in the present invention, prior to the treatment of the present invention, it is preferable to use a green tea extract obtained by bringing a green tea extract into contact with activated carbon and acid clay or activated clay in a mixed solution of an organic solvent and water. . By using such a green tea extract, a purified green tea extract having a high non-polymer catechin concentration, a low caffeine content, and no turbidity when preparing a packaged beverage can be obtained.

A specific pretreatment method in which the green tea extract is brought into contact with activated carbon and acidic clay or activated clay in a mixed solution of an organic solvent and water is shown below.
As a mixed solution of the organic solvent and water used for the production of the pretreated green tea extract, the mass ratio of the organic solvent to water is 90/10 to 99/1 from the viewpoint of the extraction efficiency of catechins and the caffeine removal rate. Further, it is preferable to adjust in the range of 91/9 to 97/3, further 91/9 to 95/5, particularly 92/8 to 95/5.

  Examples of the organic solvent used in the pretreatment include ethanol, methanol, acetone, and ethyl acetate. Of these, hydrophilic organic solvents such as ethanol, methanol, and acetone are preferable, and ethanol is particularly preferable in consideration of use in foods.

  The method for dispersing the green tea extract in the mixed solution of the organic solvent and water in the pretreatment is not particularly limited, and the mass ratio of the organic solvent to water in the final treatment of the green tea extract is 90/10 to 99/1. If it is in the range.

  In the pretreatment of the green tea extract, 10 to 40 parts by mass, particularly 10 to 30 parts by mass of the green tea extract is added to 100 parts by mass of the mixed solution of the organic solvent and water. It is preferable because it can be processed efficiently.

It is preferable that the required amount of water or organic solvent in the pretreatment is slowly dropped in a time of about 10 to 30 minutes. Moreover, in order to raise the extraction efficiency of catechins, it is preferable to add dropwise with stirring. It is more preferable to provide an aging time of about 10 to 120 minutes after the completion of the dropwise addition of water.
These treatments can be carried out at 10 to 60 ° C., preferably 10 to 50 ° C., more preferably 10 to 40 ° C.

The activated carbon used in the pretreatment is not particularly limited as long as it is generally used at an industrial level. For example, ZN-50 (made by Hokuetsu Carbon Co., Ltd.), Kuraray Coal GLC, Kuraray Coal PK-D, Kuraray Coal PW Commercially available products such as -D (manufactured by Kuraray Chemical Co., Ltd.), white birch AW50, white birch A, white birch M, white birch C (manufactured by Takeda Pharmaceutical Company Limited) can be used.
The pore volume of the activated carbon is preferably 0.01 to 0.8 mL / g, particularly preferably 0.1 to 0.7 mL / g. The specific surface area is preferably 800 to 1300 m ² / g, particularly preferably 900 to 1200 m ² / g. These physical property values are values based on the nitrogen adsorption method.

  The activated carbon is preferably added in an amount of 0.5 to 5 parts by mass, particularly 0.5 to 3 parts by mass with respect to 100 parts by mass of a mixed solution of an organic solvent and water. If the amount of activated carbon added is too small, the caffeine removal efficiency will deteriorate, and if it is too large, the cake resistance in the filtration step will increase, which is not preferable.

Both the acid clay and the activated clay used in the pretreatment contain SiO ₂ , Al ₂ O ₃ , Fe ₂ O ₃ , CaO, MgO, etc. as general chemical components, but SiO ₂ / Al ₂ O _{3 The} ratio is preferably 3-12, especially 4-9. The Fe ₂ O ₃ 2 to 5 wt%, the CaO 0 to 1.5 wt%, preferably from compositions containing MgO 1 to 7% by weight.
Activated clay is a naturally occurring acidic clay (montmorillonite clay) treated with a mineral acid such as sulfuric acid, and is a compound having a porous structure having a large specific surface area and adsorption capacity. It is known that when acid clay is further acid-treated, the specific surface area is changed to improve the decolorization ability and change physical properties.

The specific surface area of the acid clay or the activated clay varies depending on the degree of acid treatment, etc., but is preferably 50 to 350 m ² / g, and the pH (5% suspension) is 2.5 to 8, particularly 3.6 to 7. Are preferred. For example, as the acid clay, a commercially available product such as Mizuka Ace # 600 (manufactured by Mizusawa Chemical Co., Ltd.) can be used.

  The acid clay or the activated clay is preferably added in an amount of 2.5 to 25 parts by mass, particularly 2.5 to 15 parts by mass with respect to 100 parts by mass of a mixed solution of an organic solvent and water. If the amount of acid clay or activated clay added is too small, the caffeine removal efficiency will deteriorate, and if too much, the cake resistance in the filtration step will increase, which is not preferable.

  Moreover, the ratio of activated carbon and acidic clay or activated clay is preferably 1 to 10 with respect to the activated carbon 1 by mass ratio, and is preferably activated carbon: acid clay or activated clay = 1: 1 to 1: 6.

The green tea extract in the pretreatment may be in contact with activated carbon and acidic clay or activated clay in a state dispersed in the mixed solution of the organic solvent and water, and the order of addition of these components is not limited. For example, (1) A method of adding a green tea extract to a mixed solution of an organic solvent and water, contacting with activated carbon, and then contacting an acidic clay or an active clay, (2) adding a green tea extract to a mixed solution of an organic solvent and water, (3) A method in which an acid clay or an activated clay is added to a mixed solution of an organic solvent and water, a green tea extract is added thereto, and then an activated carbon is added. 4) A method in which activated carbon is added to a mixed solution of an organic solvent and water, a green tea extract is added thereto, and then acid clay or activated clay is added.
Filtration is preferably performed between the addition of each of these components and the addition of the next component. Further, the green tea extract may be added in two or more portions, and filtration may be performed during that time.

The contact treatment of the green tea extract dispersion, the activated carbon, and the acid clay or activated clay in the pretreatment may be performed by any method such as a batch process or a continuous process using a column. In general, powdered activated carbon or the like is added and stirred, and after selectively adsorbing caffeine, it is continuously obtained using a method of obtaining a filtrate from which caffeine has been removed by filtration, or a column packed with granular activated carbon or the like. A method of selectively adsorbing caffeine by treatment is employed.
The dispersion liquid of the green tea extract after contacting with activated carbon and acidic clay or activated clay is distilled off by using a method such as vacuum distillation to remove the organic solvent from the system. The green tea extract before treatment with salts may be either liquid or solid, but when preparing a solid state, it may be pulverized by a method such as freeze drying or spray drying.

  In the present invention, the green tea extract or the green tea extract is dissolved in water or an organic solvent aqueous solution. Examples of the organic solvent used in the present invention include ethanol, methanol, acetone, and ethyl acetate. Of these, hydrophilic organic solvents such as ethanol, methanol, and acetone are preferable, and ethanol is particularly preferable in consideration of use in foods.

  The concentration of the organic solvent aqueous solution used is preferably 40% by weight or less of ethanol, more preferably 30% by weight or less, and particularly preferably 20% by weight or less. Of these, it is particularly preferable to use water.

  In the present invention, it is preferable to add 10 to 40 parts by mass, particularly 10 to 30 parts by mass of the green tea extract with respect to 100 parts by mass of water or an organic solvent aqueous solution in terms of the turbidity suppressing effect.

  In this invention, 1-50 mass parts of organic acids and its salt are then added with respect to 100 mass parts of solid content of a green tea extract. As an organic acid and its salt used here, alkali metal salt of hydroxycarboxylic acid is preferable. Examples of the alkali metal salt of hydroxycarboxylic acid include alkali metal salts such as gluconic acid and citric acid, and among them, alkali metal gluconate is particularly preferable. Examples of the alkali metal salt include sodium salt and potassium salt.

The addition amount of the organic acid and its salt is 1 to 50 parts by mass with respect to 100 parts by mass of the solid content of the green tea extract, and further 3 to 40 parts by mass from the viewpoint of the effect of removing the turbidity-causing component from the green tea extract. In particular, 5 to 30 parts by mass is preferable. The organic acid and its salt may be added as a solid, but may be added as a solution of water or an organic solvent. Considering the actual operation, it is easier to adjust the concentration by adding an organic acid and its salt as a solution before adding the solid or powder directly to the green tea extract in advance. Is preferable. The organic solvent used here is preferably the same as described above. That is, ethanol, methanol, acetone, ethyl acetate and the like can be mentioned. Of these, hydrophilic organic solvents such as ethanol, methanol and acetone are preferable, and ethanol is particularly preferable in consideration of use in foods. The addition temperature is preferably 0 to 30 ° C, particularly 5 to 15 ° C. Specifically, for example, water or an organic solvent is charged in a jacketed stirring tank, and then a solid or concentrated liquid of green tea extract is added. The jacket of the agitation tank is supplied with cold water or brine made of antifreeze and adjusted so that the desired temperature is obtained. Furthermore, the organic acid and its salt are added and dissolved as a solid substance, or dissolved in advance in a small amount of water or an organic solvent and added in the form of a solution. At this time, the order of charging into the stirring tank may be changed.
From the viewpoint of efficiently depositing insolubles and the stability of catechins, the pH is 2.0 to 7.0, preferably 3.0 to 6.0, and more preferably 3.5 to 7.0. Good to do.

  When an organic acid and a salt thereof are added, insoluble matter aggregates, so that the insoluble matter is removed. Examples of the insoluble matter removing means include filtration, centrifugation, and membrane separation. The filtering means is not particularly limited, and any of suction filtration, pressure filtration, and centrifugal filtration can be carried out, and centrifugal filtration is particularly preferable from the viewpoint of yield. Moreover, in order to improve the filtration rate at the time of filtration, it is preferable to use a filter aid by the precoat method or the body feed method. When filtering by the precoat method, a filter aid is added and dispersed in a small amount of water or an organic solvent in advance, and the slurry is filtered to form a precoat layer. Next, the solution of the green tea extract in a state where insolubles are aggregated by adding salt is filtered through a filtration device to which a precoat layer is added. When filtering by the body feed method, a filter aid is added and dispersed in the water or solvent solution of the green tea extract in a state where insolubles are aggregated by adding salt, and the slurry is filtered by a filtration device. In addition, both precoat and body feed may be used in combination. When carrying out centrifugal filtration, the filter aid used for the precoat and body feed is not particularly limited. For example, diatomaceous earth filter aid, pearlite filter aid, cellulosic filter aid or asbestos filter aid, Diatomaceous earth or cellulose filter aids are preferred from the standpoint of filtration speed and filtrate clarity. The type of the centrifugal filter may be, for example, a batch type, a continuous type, a vertical cylindrical type, or a horizontal cylindrical type, and a continuous type is preferable from the viewpoint of processing efficiency. In the case of centrifugation, the type of separator to be used is not particularly limited, but any of a separation plate type, a cylindrical type, and a decanter type can be used, and a separation plate type centrifuge is particularly preferable from the viewpoint of separation efficiency. When using a separator-type centrifuge, either a type capable of continuously discharging solid matter or a type capable of intermittent discharge can be used, but a type capable of intermittent discharge is preferred from the viewpoint of yield. Furthermore, although operating conditions depend on the properties of the insoluble matter, it is preferable to operate with a centrifugal force of 1000 to 15000 G. Moreover, in order to remove an insoluble matter reliably, it is preferable to implement on low temperature-normal temperature conditions, Preferably it is 0-30 degreeC, More preferably, it is effective if it carries out at 5-15 degreeC.

  The purified green tea extract from which insolubles have been removed is distilled off using a method such as vacuum distillation to remove the organic solvent from the system as necessary. The green tea extract after treatment may be either liquid or solid, but when preparing a solid state, it may be pulverized by a method such as freeze drying or spray drying. The conditions for the concentration are preferably, when the solvent is ethanol, for example, a degree of vacuum of 1 to 100 kPa and a temperature of 30 to 100 ° C. from the viewpoint of preventing quality deterioration due to the thermal history of the purified product. Moreover, when performing spray drying, for example, it is not particularly limited as long as the solvent and water can be distilled off. However, for example, when the solvent is ethanol, a temperature of 100 to 200 ° C. is preferable.

  In the purified green tea extract obtained by the present invention, it is preferred that the composition of the non-polymer catechins contained is essentially unchanged from that before the treatment with salts. The yield of non-polymer catechins in the mixed solution of the organic solvent and water before and after the treatment with salts is preferably 70% by mass or more, particularly preferably 80% by mass or more.

  The purified green tea extract obtained by the present invention preferably contains 25 to 90% by mass, further 30 to 90% by mass, further 35 to 90% by mass, and further 40 to 70% by mass of non-polymer catechins. Moreover, it is preferable to contain 40-90 mass% of non-polymer catechins in the solid content of refined green tea extract, 50-90 mass%, and also 60-90 mass%.

The concentration of caffeine in the purified green tea extract obtained by the treatment according to the present invention using the green tea extract is non-polymer catechins / caffeine (mass ratio) = 25 to 200 with respect to the non-polymer catechins. Further, 30 to 150, particularly 30 to 100 is preferable.

  In the purified green tea extract obtained by the present invention, the proportion of gallate bodies composed of catechin gallate, epicatechin gallate, gallocatechin gallate and epigallocatechin gallate in all non-polymer catechins is 10 to 70% by mass. In particular, 30 to 60% by mass is preferable from the viewpoint of the effectiveness of physiological effects of non-polymer catechins and the reduction of bitterness.

  The obtained purified green tea extract is free from contaminants (amino acids, organic acids, saccharides) other than non-polymer catechins in the raw green tea extract, and maintains a high concentration of non-polymer catechins, and Hue is good and there is almost no flavor of green tea. Therefore, the container-packed drinks containing the purified green tea extract are particularly useful as non-tea drinks such as sports drinks and isotonic drinks.

In the packaged beverage of the present invention, (A) non-polymer catechins dissolved in water are preferably contained in an amount of 0.03 to 1.0% by mass, more preferably 0.04 to 0.5. % By weight, more preferably 0.06 to 0.4% by weight, still more preferably 0.07 to 0.4% by weight, particularly preferably 0.08 to 0.3% by weight, and even more preferably 0.09 to 0%. .3% by mass, most preferably 0.1 to 0.3% by mass. When the content of non-polymer catechins is within this range, a large amount of non-polymer catechins can be easily taken, which is preferable from the viewpoint of the color tone immediately after preparation of the beverage. The density | concentration of the said non-polymer catechin can be adjusted with the compounding quantity of a green tea extract.
Further, the daily intake amount for adults for promoting accumulation fat burning promotion, dietary fat burning promotion and liver β-oxidation gene expression promotion is 300 mg or more, preferably 450 mg or more as non-polymer catechins, Preferably it is 500 mg or more.
Therefore, in the case of the packaged beverage of the present invention, the amount per day of the packaged beverage of the present invention is 300 mg or more, preferably 450 mg or more, more preferably 500 mg or more, from the viewpoint of securing the daily intake for adults. Is good.

  The content mass ratio of non-polymer catechins and caffeine in the packaged beverage of the present invention is preferably 25 to 200, more preferably 30 to 150, and particularly preferably 30 to 100. Moreover, the gallo body ratio and the gallate body ratio are preferably the same as the range of the purified green tea extract.

  The container-packed beverage of the present invention is preferably mixed with a bitter and astringent taste suppressant because it is easy to drink. The bitter and astringent taste inhibitor to be used is not particularly limited, but cyclodextrin is preferred. As the cyclodextrin, α-, β-, γ-cyclodextrin and branched α-, β-, γ-cyclodextrin can be used. The cyclodextrin is contained in the beverage in an amount of 0.005 to 0.5% by mass, preferably 0.01 to 0.3% by mass. The packaged beverage of the present invention includes antioxidants, fragrances, various esters, organic acids, organic acid salts, inorganic acids, inorganic acid salts, inorganic salts, pigments, emulsifiers, preservatives, seasonings, sweeteners, Additives such as acidulants, gums, emulsifiers, oils, vitamins, amino acids, fruit juice extracts, vegetable extracts, nectar extracts, pH adjusters and quality stabilizers can be used alone or in combination.

  The container used for the container-packed beverage of the present invention is a molded container (so-called PET bottle) mainly composed of polyethylene terephthalate, a metal can, a paper container combined with a metal foil or a plastic film, and a bottle as in the case of general beverages. Etc. can be provided in the usual form. The term “packaged beverage” as used herein means a beverage that can be drunk without dilution.

  The container-packed beverage of the present invention is manufactured under the sterilization conditions stipulated in the Food Sanitation Law when it can be sterilized by heating after filling into a container like a metal can, for example, a PET bottle, a paper container, etc. For those that cannot be retort sterilized, a sterilization condition equivalent to the above, for example, a high temperature and short time sterilization using a plate heat exchanger or the like, followed by cooling to a certain temperature and filling the container is adopted. Moreover, you may mix | blend another component with the filled container under aseptic conditions. Furthermore, after sterilization by heating under acidic conditions, the pH may be returned to neutrality under aseptic conditions, or after sterilization by heating under neutral conditions, the pH may be returned to acidic conditions under aseptic conditions.

Measurement of catechins The purified green tea extract was diluted with distilled water, filtered through a filter (0.8 μm), and then used for high performance liquid chromatograph (SCL-10AVP) manufactured by Shimadzu Corporation for octadecyl group-introduced liquid chromatograph. Packed column L-column TM ODS (4.6 mmφ × 250 mm: manufactured by Chemical Substances Evaluation and Research Institute) was attached, and the column temperature was 35 ° C. and the gradient method using liquid A and liquid B was performed. The mobile phase A solution was a distilled aqueous solution containing 0.1 mol / L of acetic acid, the B solution was an acetonitrile solution containing 0.1 mol / L of acetic acid, the sample injection amount was 20 μL, and the UV detector wavelength was 280 nm. .

Measurement of caffeine (analytical instrument)
Uses HPLC (Hitachi, Ltd.) equipment.
Plotter: D-2500, Detector: L-4200
Pump: L-7100, Autosampler: L-7200
Column: lnertsil ODS-2, inner diameter 2.1 mm x length 250 mm
(Analysis conditions)
Sample injection volume: 10 μL, flow rate: 1.0 mL / min
UV absorption photometer detection wavelength: 280nm
Eluent A: 0.1M acetic acid aqueous solution, eluent B: 0.1M acetic acid acetonitrile solution concentration gradient condition (volume%)
Time Eluent A Eluent B
0 minutes 97% 3%
5 minutes 97% 3%
37 minutes 80% 20%
43 minutes 80% 20%
43.5 minutes 0% 100%
48.5 minutes 0% 100%
49 minutes 97% 3%
62 minutes 97% 3%
(Caffeine retention time)
Caffeine: 27.2 minutes From the area% obtained here, the mass% was obtained using a standard substance.

Turbidity measurement Turbidity was measured with a 2100P type (manufactured by Hack), and the value [unit: NTU] obtained here was used as an index of separation clarity.
Hue evaluation (analytical instrument)
A UV MINI 1240 (manufactured by Shimadzu Corporation) apparatus is used.
The value at an absorbance of 450 nm was measured with a spectrophotometer. In the measurement, the purified green tea extract was diluted with ion-exchanged water so that the catechin concentration was 100 mg%, and the absorbance was measured using the sample to obtain a hue index.
Visual evaluation of stability The purified green tea extract was diluted with ion-exchanged water to a catechin concentration of 100 mg%, and the evaluation sample contained in a 50 mL vial was observed on the illuminator and visually judged. .

  As shown in Table 1, while dissolving a green tea extract in water or an organic solvent aqueous solution, a certain amount of an organic acid and a salt thereof are added thereto, and insoluble matter is removed to prepare a containerized beverage. A purified green tea extract with no turbidity can be produced.

(Example 1)
* 1: Purified green tea extract A
200 g of green tea extract (Polyphenon HG, manufactured by Tokyo Food Techno Co., Ltd.) was dispersed in 800 g of 95% ethanol aqueous solution at room temperature and 250 rpm stirring condition, and after adding 100 g of acid clay Mizuka Ace # 600 (manufactured by Mizusawa Chemical Co., Ltd.), about 10 Stirring was continued for a minute. Then, it filtered with No. 2 filter paper. Thereafter, 20 g of activated carbon was added and filtered again with No. 2 filter paper. Next, re-filtration was performed with a 0.2 μm membrane filter. Finally, 200 g of ion-exchanged water was added to the filtrate, ethanol was distilled off at 40 ° C. and 0.0272 kg / cm ² , and the concentration of catechins was adjusted with ion-exchanged water to obtain a caffeine-reduced green tea extract. .
22% by mass of non-polymer catechins before treatment with salts Non-polymer catechins / caffeine mass ratio before treatment with salts = 33.0
51% by mass of gallate body before treatment with salts
To 100 g of the caffeine-reduced green tea extract obtained by this operation, 4 g of potassium gluconate was added, brought into contact with the insoluble matter, and cooled to 5 ° C. After cooling, the insoluble matter was removed by centrifugation to obtain the desired product.

(Example 2)
* 2: Purified green tea extract B
200 g of green tea extract (Polyphenon HG, manufactured by Tokyo Food Techno Co., Ltd.) was dispersed in 800 g of 95% ethanol aqueous solution at room temperature and 250 rpm stirring condition, and after adding 100 g of acid clay Mizuka Ace # 600 (manufactured by Mizusawa Chemical Co., Ltd.), about 10 Stirring was continued for a minute. Then, it filtered with No. 2 filter paper. Thereafter, 20 g of activated carbon was added and filtered again with No. 2 filter paper. Next, re-filtration was performed with a 0.2 μm membrane filter. Finally, 200 g of ion-exchanged water was added to the filtrate, ethanol was distilled off at 40 ° C. and 0.0272 kg / cm ² , and the concentration of catechins was adjusted with ion-exchanged water to obtain a caffeine-reduced green tea extract. .
22% by mass of non-polymer catechins before treatment with salts Non-polymer catechins / caffeine mass ratio before treatment with salts = 33.0
51% by mass of gallate body before treatment with salts
15.6 g of trisodium citrate was added to 100 g of caffeine-reduced green tea extract obtained by this operation, brought into contact with insoluble matter, and cooled to 10 ° C. After cooling, the insoluble matter was removed by centrifugation to obtain the desired product.

(Comparative Example 1)
Purified green tea extract C
200 g of green tea extract (Polyphenon HG, manufactured by Tokyo Food Techno Co., Ltd.) was dispersed in 800 g of 95% ethanol aqueous solution at room temperature and 250 rpm stirring condition, and after adding 100 g of acid clay Mizuka Ace # 600 (manufactured by Mizusawa Chemical Co., Ltd.), about 10 Stirring was continued for a minute. Then, it filtered with No. 2 filter paper. Thereafter, 20 g of activated carbon was added and filtered again with No. 2 filter paper. Next, re-filtration was performed with a 0.2 μm membrane filter. Finally, 200 g of ion-exchanged water was added to the filtrate, ethanol was distilled off at 40 ° C. and 0.0272 kg / cm ² , and the concentration of catechins was adjusted with ion-exchanged water to obtain a caffeine-reduced green tea extract. .
22% by mass of non-polymer catechins before treatment with salts Non-polymer catechins / caffeine mass ratio before treatment with salts = 33.0
51% by mass of gallate body before treatment with salts
To 100 g of the caffeine-reduced green tea extract obtained by this operation, 0.15 g of magnesium chloride was added, brought into contact with the insoluble matter, and cooled to 5 ° C. After cooling, a solid-liquid separation operation was performed by centrifugation to obtain a product.

(Comparative Example 2)
Purified green tea extract D
200 g of green tea extract (Polyphenon HG, manufactured by Tokyo Food Techno Co., Ltd.) was dispersed in 800 g of 95% ethanol aqueous solution at room temperature and 250 rpm stirring condition, and after adding 100 g of acid clay Mizuka Ace # 600 (manufactured by Mizusawa Chemical Co., Ltd.), about 10 Stirring was continued for a minute. Then, it filtered with No. 2 filter paper. Thereafter, 20 g of activated carbon was added and filtered again with No. 2 filter paper. Next, re-filtration was performed with a 0.2 μm membrane filter. Finally, 200 g of ion-exchanged water was added to the filtrate, ethanol was distilled off at 40 ° C. and 0.0272 kg / cm ² , and the concentration of catechins was adjusted with ion-exchanged water to obtain a caffeine-reduced green tea extract. .
22% by mass of non-polymer catechins before treatment with salts Non-polymer catechins / caffeine mass ratio before treatment with salts = 33.0
51% by mass of gallate body before treatment with salts
To 100 g of the caffeine-reduced green tea extract obtained by this operation, 10 g of citric acid was added, brought into contact with the insoluble matter, and mixed at 25 ° C. After mixing, solid-liquid separation was performed by centrifugation to obtain a product.

<The manufacturing method of the container-packed drink of Examples 1-2 and Comparative Examples 1-2>
The purified green tea extract shown in Table 1 was blended and made up with ion-exchanged water to prepare a blended solution. A sterilization process based on the Food Sanitation Law and hot-pack filling were performed to obtain a packaged beverage.

  After the heat storage test (55 ° C., 2 weeks), visual judgment was made.

  As is apparent from the results in Table 2, by using the present invention product from which caffeine has been selectively removed by treating the green tea extract according to the present invention, a container-packed beverage free from the occurrence of cages is obtained. Can do.

(Example 3)
(1) 90 kg of hot water at 84 ° C. was added to 6000 g of green tea leaves and extracted for 60 minutes, followed by filtration with No. 2 filter paper to obtain 66 kg (pH 5.4) of “green tea extract”. (Non-polymer catechin concentration in green tea extract = 0.9 mass%, gallate body ratio in green tea extract = 52.2 mass%)
This green tea extract was set at a temperature of 25 ° C., tannase (Kikkoman Tannase KTFH) was added at a concentration of 200 ppm with respect to the green tea extract and held for 130 minutes, resulting in a gallate body ratio of 40.2% by mass. The solution was heated to 90 ° C. to deactivate the enzyme and stop the reaction (pH 4.9). The reaction solution was concentrated to a Brix concentration of 25 using a reverse osmosis membrane (NTR-759HR manufactured by Nitto Denko) to obtain 8 kg of a liquid “concentrate of tannase-treated green tea extract”. The obtained green tea extract had a non-polymer catechin content of 6.9% by mass, a gallate body ratio of 40.1% by mass, and a pH of an aqueous solution dissolved in a solid content concentration of 2% by mass = 5.0.
(2) Further, 4.5 kg of the obtained concentrated liquid was spray-dried to obtain 400 g of a powdered “tannase-treated green tea extract”. The obtained green tea extract had a non-polymer catechin content of 33.2% by mass, a gallate body ratio of 40.1% by mass, and a pH of the aqueous solution when dissolved in a solid content concentration of 2% by mass = 5.0. .
(3) Using the obtained green tea extract, the same purification treatment as in Example 2 was performed to obtain a purified green tea extract having no turbidity, good hue, and reduced bitterness.
Content of non-polymer catechins after treatment = 20.2% by mass
Non-polymer catechin concentration in solid content after treatment = 66% by mass
Turbidity after treatment = 1.2
Non-polymer catechins / caffeine mass ratio after treatment = 33.0
Galate body ratio after treatment = 39.3 mass%
(4) Using the obtained purified green tea extract, a packaged beverage was obtained in the same manner as the beverage 1 of the present invention. Even if this beverage was stored for a long period of time, the appearance did not change and the bitterness was reduced.

Claims (6)

  The green tea extract is dissolved in water or an organic solvent aqueous solution, the organic acid and its salt are added in an amount of 1 to 50 parts by mass with respect to 100 parts by mass of the solid content of the green tea extract, and the insoluble matter produced is removed. The manufacturing method of the refined green tea extract containing 25-90 mass% of non-polymer catechins with respect to solid content.   The process according to claim 1, wherein the organic solvent is ethanol.   The production method according to claim 1 or 2, wherein the operation of adding an organic acid and a salt thereof to the green tea extract solution and the operation of removing insoluble matters are performed at 0 to 30 ° C.   The method according to any one of claims 1 to 3, wherein the organic acid and a salt thereof are hydroxycarboxylic acid alkali metal salts.   The method according to any one of claims 1 to 4, wherein the green tea extract is obtained by bringing the green tea extract into contact with activated carbon and acidic clay or activated clay in a mixed solution of an organic solvent and water.   The method according to any one of claims 1 to 5, wherein the green tea extract is obtained by tannase treatment of the green tea extract.