NZ622308B2 - Enzyme-treated tea extract, and tea beverage - Google Patents

Abstract

The disclosure relates to a method for producing an enzyme-treated tea extract, comprising treating tea leaves with a cellulase, and subjecting the treated tea leaves to extraction, wherein the method further comprises subjecting tea leaves to extraction with water or an organic solvent, and separating the resulting tea extract liquid, to obtain the tea leaves to be treated with the cellulase, before the treatment of the tea leaves with the cellulase, wherein the tea leaves are subjected to extraction with the water or the organic solvent such that an extraction rate of soluble components to the tea extract liquid is 20 to 45%, and wherein a test solution shows a viscosity rate of 80% or more relative to an untreated pectin solution in the following test on the cellulase: the test solution contains 0.5 wt% pectin, and is prepared with an acetate buffer of pH 5.4; the cellulase is added to the test solution such that the cellulase is 1 wt% relative to the pectin in the solution; a reaction of the cellulase is carried out at 37°C for 16 hours; the resulting solution is treated at 90°C for 10 minutes to deactivate the enzyme; and then viscosity of the deactivated solution is measured with a tuning-fork vibration viscometer at 24.5°C to determine the viscosity rate relative to the untreated pectin solution. The disclose also relates to a beverage containing the extract produced above, which may optionally further comprise Matcha. ing the resulting tea extract liquid, to obtain the tea leaves to be treated with the cellulase, before the treatment of the tea leaves with the cellulase, wherein the tea leaves are subjected to extraction with the water or the organic solvent such that an extraction rate of soluble components to the tea extract liquid is 20 to 45%, and wherein a test solution shows a viscosity rate of 80% or more relative to an untreated pectin solution in the following test on the cellulase: the test solution contains 0.5 wt% pectin, and is prepared with an acetate buffer of pH 5.4; the cellulase is added to the test solution such that the cellulase is 1 wt% relative to the pectin in the solution; a reaction of the cellulase is carried out at 37°C for 16 hours; the resulting solution is treated at 90°C for 10 minutes to deactivate the enzyme; and then viscosity of the deactivated solution is measured with a tuning-fork vibration viscometer at 24.5°C to determine the viscosity rate relative to the untreated pectin solution. The disclose also relates to a beverage containing the extract produced above, which may optionally further comprise Matcha.

Description

- 1 .

DESCRIPTION ENZYME-TREATED TEA EXTRACT, AND TEA BEVERAGE TECHNICAL FIELD The present invention relates to a method for producing a novel tea extract having pleasant Kola: (rich body) specific to high-class teas, to a high- viscosity tea extract produced by the method, and to a tea beverage ed in a container, containing the high-viscosity extract.

BACKGROUND ART High-class green tea leaves, including Gyokuro, are known to have profound umami tastes (delicious tastes) or aromas as well as specific Koku that regular Senclia (middle grade green tea) does not have. Therefore, a method of enhancing umami tastes or aromas h tion of ive components from high-class tea leaves, and a method of extracting remaining effective components from the residue, have been sed, as follows.

One of the disclosed s involves a first step of ting flavors from high-class tea leaves h preparation of a slurry of Mata/2a (powdered green tea) With warm water and processing the slurry in a countercurrent contact apparatus (SCC) to collect the flavors; a second step of preparing a tea extract by subjecting tea leaves to extraction with warm water, removing solid components, treating the extract with charcoal, and filtering out the charcoal; and a third step of mixing the flavors prepared in the first step and the tea extract prepared in the second step, thereby producing a tea extract exhibiting a mild sweet taste of Matclza (Patent Literature 1).

Patent Literature 2 discloses a tasty extract which is produced through treatment of Senclza with combined enzymes of cellulase, pectinase, and phospholipase, and then extraction. Patent Literature 2 also ses decomposition of ns in the tea leaves with a combination of protopectinase _ 2 _ and protease to te amino acids that can reduces bitter and astringent taste of the extract.

Patent Literature 3 discloses a method for producing a soluble tea solid that has a preferred tea flavor and is free from unpleasant perceivable off-odor, the method involving treating a residual tea leaves after an tion process with a cellulase.

Many Mata/2a beverages packaged in a container have been developed which have Kola: and flavor of Mamba. A Matcba beverage preferably has a high Matclza content to exhibit strong Mamba flavor. Such a high Matcba content, however, increases the coarse texture or discordant flavor of Mata/1a.

Further, this may easily cause precipitation of Matcha powder, which may make people erstand that the beverage has a quality problem.

A known method of reducing Mamba precipitation is to use gellan gum or other stabilizers (Patent Literature 4). Another method is known which es grinding tea leaves into tea powder and further ng the tea powder to remove most of the grains of 1 pm or more, to produce a high-quality tea beverage that has a minimized coarse texture or dant flavor, a clean finish essential for green tea beverages, and mouth feel, Koku, and flavor specific to green tea, and that is stable without precipitation or turbidity after long-term e (Patent Literature 5). Unfortunately, in the method ing to Patent Literature 4, the stabilizer may adversely affect the flavor and taste of the beverage. The method in Patent Literature 5 may require an expensive apparatus for grinding the tea powder.

CITATION LIST PATENT LITERATURE Patent Literature 11 Japanese Unexamined Patent ation Publication No. 2007-167005 Patent Literature 23 Japanese Unexamined Patent Application Publication No. H1-800848 Patent Literature 3: Japanese Patent No. 3157539 Patent Literature 4: Japanese Unexamined Patent Application Publication No. 2001-29053 Patent Literature 5: W02004/110161 SUMMARY OF INVENTION TECHNICAL PROBLEM Such known methods of enhancing sweet taste or alleviating bitter taste or astringency of an extract from tea leaves or preparing a tea flavor without unpleasant odor can produce insufficient quality of tea ts that do not have Koku specific to ts from high-class tea leaves. Accordingly, the development of a method for preparing a tea extract having Koku specific to lass tea leaves, ng from regular Sencha, has been desired. [00 10] An object of the present ion is to provide a tea extract containing high concentrations of components giving Koku specific to tea leaves and having pleasant Koku specific to high-class tea leaves, and a method for producing the tea extract. Another object of the invention is to e a tea beverage packaged in a container, which has Koku specific to high-class tea leaves. The foregoing objects are to be read disjunctively with the object of at least providing the public with a useful alternative.

SOLUTION TO PROBLEM The present inventors, who have diligently studied to solve the problems, have found that Koku of teas can be enhanced by tically treating tea leaves with a cellulase exhibiting a low level of contamination activity of ase or other enzymes and that the tea leaves are preferably to be subjected to extraction With hot water, prior to the enzyme treatment; and have successfully prepared a novel tea extract having pleasant Koku. The present inventors also found that a mixture of Matcha and an enzyme-treated tea extract obtained by treating tea leaves with a ase exhibiting a low level of . 4 - contamination activity of pectinase or other enzymes allows production of a tea beverage being free from coarse texture or discordant flavor of Matcha, having Koku and flavor specific to , and barely precipitating; and have completed the present invention.

In particular, the present invention relates to the following aspects: 1. A method for producing an enzyme-treated tea extract, comprising ng tea leaves with a cellulase, and subjecting the treated tea leaves to extraction, wherein the method further comprises subjecting tea leaves to extraction with water or an organic solvent, and separating the resulting tea extract liquid, to obtain the tea leaves to be treated with the cellulase, before the treatment of the tea leaves with the cellulase, wherein the tea leaves are subjected to extraction with the water or the organic t such that an tion rate of soluble components to the tea extract liquid is 20 to 45%, and wherein a test solution shows a viscosity rate of 80% or more relative to an untreated pectin solution in the ing test on the cellulase: the test solution contains 0.5 wt% pectin, and is prepared with an acetate buffer of pH 5.4; the cellulase is added to the test solution such that the ase is 1 wt% relative to the pectin in the solution; a reaction of the cellulase is carried out at 37°C for 16 hours; the ing solution is treated at 90°C for 10 minutes to deactivate the enzyme; and then viscosity of the deactivated solution is measured with a tuning-fork Vibration viscometer at 245°C to determine the viscosity rate relative to the untreated pectin solution. 2. The method of 1, wherein the treatment of the tea leaves with the cellulase is d out at 35 to 55°C. 3. The method of 1 or 2, wherein the treatment of the tea leaves with the cellulase is carried out for 30 minutes to 20 hours. 4. The method of any one of 1 to 3, n the ent of the tea leaves with the cellulase is carried out at a pH of 4 to 6.

. An enzyme-treated tea extract prepared by the method of any one of 1 to 4. . 5 - 6. The enzyme-treated tea extract of 5, wherein its viscosity, when its Brix is adjusted to 0.8, is 1.0 mPa-s or higher. 7. A tea ge packaged in a container, comprising the -treated tea extract of 5 or 6. 8. The tea ge of 7, r sing Matcha. 9. The tea beverage of 8, wherein the content of the Matcha in the tea beverage is 0.01 to 1.0 wt%.

. The tea beverage of 8 or 9, wherein the beverage is obtained by mixing the Matcha directly with the enzyme—treated tea extract, or mixing the Matcha in a form of aqueous suspension with the extract.

ADVANTAGEOUS EFFECTS OF ION An enzyme-treated tea extract of the present invention would probably has a higher content of a substance generating Koku (probably tea pectin) than other conventional extracts. Beverages or foods containing such a tea extract can have enhanced , and Koku. A tea beverage packaged in a container, Which has pleasant Koku specific to Gyokuro or other high-class tea leaves can be provided by addition of the enzyme-treated tea extract of the present invention to a tea beverage.

A Matcha beverage containing Matcha and the enzyme-treated tea extract prepared by the method of the present invention can be a tea beverage which is free from coarse texture or discordant flavor of Matcha, has Koku and flavor specific to Matcha, and barely precipitates.

Without being bound by theory, extraction of tea leaves with hot-water before enzyme treatment can achieve a certain level of removal of enzyme activity inhibitors (e.g., catechins), and would probably increase the efficiency of enzyme treatment and extraction.

BRIEF DESCRIPTION OF DRAWINGS _ 6 . is a graph illustrating the viscosities of pectin solutions treated With different cellulases. is a graph illustrating the relation between the pie-extraction rate and the viscosity of each tea extract. is a graph illustrating the viscosities of different tea extract DESCRIPTION OF EMBODIMENTS The present invention will now be described in detail.

(Tea leaves) es of the preferred tea leaves used in the present invention include, but should not be limited to, steamed non-fermented teas (green teas), such as Sencba, Bancha, Hojz'cba, Gyokuro, Kabusecba, and Tencba; non‘ ted teas including Kamajrjcba, such as 03931211100123, Aoyagjcha, and Chinese teas; semi-fermented teas, such as ha, Tekkannon teas, and oolong teas; and fermented teas, such as black teas, Aura-1731261152, and pu-erh teas. Non'fermented teas (green teas) and semi-fermented teas for which umami or Koku is essential are particularly preferred. The tea leaves may be used without pretreatment or after grinding to improve the extraction ncy and enzyme reaction efficiency.

(Cellulase) ase is an enzyme that hydrolyzes a 8'1,4’glycoside bond in a cellulose molecule to generate cellobiose. Most of the cellulases applicable to food ts have low purity and contain contaminant enzymes, such as hemicellulase and pectinase. The present inventors have found that the use of a cellulase exhibiting a low level of contaminant pectinase activity leads to efficient production of the d tea extract. A cellulase exhibiting a low level of contaminant pectinase activity, preferably a ase exhibiting substantially no pectinase ty is used. Any enzyme preparation other than cellulases . 7 _ that has cellulase ty and a low level of contaminant pectinase activity can be used. The t invention uses a cellulase having a titer of 50 units/g or more, preferably 100 units/g or more, more preferably 200 units/g or more, and having pectinase activity as less as possible.

The cellulase activity of one unit is defined as followsl one unit is the amount of cellulase that acts on sodium carboxymethyl cellulose at 37°C and causes a reducing capacity corresponding to glucose of 1 umol per minute during early reaction stage.

The ase activity of the lase to be used in the present invention should meet the following criteria1 when the following test is performed on the celllase, a test solution obtained as a result of the following ents shows a ve rate of ity relative to viscosity of an untreated pectin solution (Viscosity rate), which is 80% or more, ably 85% or more, more preferably 90% or more, more preferably 95% or more. A higher relative viscosity rate leads to a lower level of pectinase activity.

The testing process: the test solution contains 0.5 wt% pectin, and is prepared with an acetate buffer of pH 5.4; the cellulase is added to the test solution such that the cellulase is 1 wt% relative to the pectin in the solution; a reaction of the cellulase is carried out at 37°C for 16 hours; the resulting solution is treated at 90°C for 10 s to deactivate the enzyme; and then viscosity of the deactivated solution is measured with a tuning-fork vibration viscometer at 245°C to determine the Viscosity rate relative to the untreated pectin on (the test solution before the treatment with the cellulase).

Examples of the preferred cellulases ting a low level of contaminant pectinase activity include cellulases derived from genus Trichoderma, such as cellulase T "Amano" 4 (Amano Enzyme Inc.) and Sumizyme C (SHINNIHON CHEMICALS Corporation).

(Production of enzyme-treated tea extract) . 8 - To produce the 'treated tea extract of the present invention, tea leaves are treated with any of the above-described cellulases exhibiting a low level of pectinase activity, and the resulting tea leaves are subjected to extraction. The extraction may be performed subsequent to, or concurrent with the cellulase treatment. Preferably, the exctraction is performed concurrent with the cellulase treatment.

For the cellulase treatment, pure water is poured on tea , they are sufficiently mixed, and the tea leaves are subjected to enzyme reaction. A cellulase exhibiting a low level of inant pectinase activity, preferably a cellulase exhibiting substantially no pectinase activity is used. The enzyme treatment may be med under any condition that allows the cellulase to act.

The volume of pure water to be added is, butshould not be limited to, preferably 18-18 times, more preferably 15 times the weight of the tea . The treating temperature is preferably 35'55°C, more preferably 40°C. The treating time is preferably in the range of 30 minutes to 20 hours. The cellulase is added in an amount of preferably 0.1-8.0 wt% of the weight of the tea leaves.

The cellulase may be added at once or several times. The pH of the enzyme may be adjusted to the optimum pH, which is generally 4-6, during the cellulase treatment. The pH may be adjusted with acids or alkalis as pH adjustors.

Examples of the acids used include inorganic acids, such as hydrochloric acid and phosphoric acid; and organic acids, such as citric acid, acetic acid, and ascorbic acid. c acids, especially ascorbic acid are preferably used.

Cellulase treatment is finished by heating the reaction solution as necessary to deactivate the cellulase. Such cellulase ent generally involves the concurrent extraction of an enzyme-treated tea t.

After the cellulase treatment and extraction, the tea leaves and the tea extract can be separated with a separator, e.g., Screw Decanter (SAITO SEPARATOR LIMITED) by liquid separation to provide an enzyme-treated . 9 - tea extract. The enzyme-treated tea extract can be optionally concentrated.

The resulting enzyme-treated tea extract can be a tea beverage as it is, and is preferably added to water or a tea beverage as a taste enhancer, by taking advantage of its rich taste. The enzyme'treated tea extract may be used in a liquid state or powdered form prepared by freeze drying or spray .

(Pretreatment for tea leaves) Before the cellulase treatment of tea leaves, tea leaves are optionally subjected to extraction with water or an organic solvent such as alcohol (in this specification, this ent is also referred to as “pm-extraction”), and the resulting tea extract liquid is separated. In this specification, the term “tea t liquid” refers to thus obtained extract liquid.

For extraction, the tea leaves are ably immersed in an extraction solvent in a weight that is preferably about 15 times or more, more preferably about 15-150 times, more preferably about 80-40 times the weight of the tea leaves, for elution of soluble components. In such a case, the extraction solvent may be heated preliminarily or after the ion of the tea leaves. The extraction solvent is preferably pure water or a mixture of pure water and any appropriate organic solvent such as ethanol. The hardness of the extraction t can be appropriately ed by addition of minerals thereto. The extraction temperature is, but should not be limited to, typically 50'95°C, preferably (SO-80°C, most preferably 70°C. The conditions for the extraction, including extraction temperature, are preferably determined such that the tion rate of soluble components in the resulting extract is 20-45%, preferably 30-40% or more, especially 40%. The extraction rate of soluble components is determined by the equation: (Brix of t)><(weight of extract eight of tea leaves [gl). The pre-extraction may be performed once or more. The resulting tea extract liquid may be used as a tea beverage as it is.

Alternatively, a mixture of the tea extract liquid and the enzyme-treated tea extract of the invention may be used as a tea beverage.

The cellulase treatment and extraction and the pretreatment of tea leaves may use any additional component that does not impair the advantageous effects of the invention, and should not use pectinase (including pectinase itself and other enzymes exhibiting pectinase activity) in such an amount that the invention may be adversely affected.

(Viscosity) The -treated tea extract manufactured through the method according to the present invention is characterized by its pleasant Koku and high ity. The enzyme-treated tea extract manufactured through the method according to the present ion generally shows a Viscosity of 1.0 mPa-s or higher, preferably 1.10 mPa-s or higher, more preferably 1.15 mPa's or higher, When the Brix is adjusted to 0.3. It generally shows a viscosity up to 2.0 mPa's, gh no upper limit is defined. The Viscosity can be measured with a tuning-fork ion viscometer, such as type SV'A (available from A & D Company, Limited). The Brix may be adjusted by, for example, addition or removal by distillation of water so as not to cause alteration of non-volatile constituents in the composition. t being bound by theory, it is postulated that the Koku of the tea beverage of the present invention can be attributed to tea pectin. The tea pectin is acidic polysaccharide present in tea leaves, and is mainly composed of galacturonic acid. The viscosity of the enzyme-treated tea extract, Which has a correlation with the density of the pectin, can be used as an indicator of the Koku of the -treated tea extract. [0033} The Viscosity, having a correlation With the concentration of the pectin, can also be used as an tor for ion of an enzyme exhibiting low pectinase activity, as described above.

(Packaged beverage) -11..

The enzyme-treated tea extract prepared by the method according to the present invention can be provided in the form of tea beverage packaged in a container which has pleasant [(01:11, as it is or as a mixture with a ge.

Examples of the ner include glass bottles, PET bottles, and metal cans, which are usually used.

The amounts of the -treated tea extract in the tea beverage is, should not be limited to, typically 0.01 to 5.0 wt%, 0.1 to 1.0 wt%, and more preferably 0.2 to 0.3 wt%, as calculated for the amount of the extract whose Brix is ed to 0.3.

(Matclza beverages) The term "Matcba beverages" herein refers to tea beverages containing . The enzyme-treated tea extract of the present invention can be mixed with Matcba to provide non-sedimentable tea beverages having Koku and flavor attributed to original characteristics of the Mata/2a, without coarse texture or discordant flavor of the . Without being bound by theory, it is considered that the mixture containing the extract ates adsorption of the Mata/23 on tongues and suppresses unpleasant coarse texture and discordant flavor. It should be understood that such a postulation should not limit the present invention.

The term “Mata/2a” refers to powdered Tencba which is one of green tea.

Any known Matcba can be used in the present invention. The content of Matcba in the Mata/2a beverage of the present invention is, should not be limited to, typically 0.01 to 5.0 wt%, 0.01 to 1.0 wt%, or 0.05 to 0.8 wt%, and more preferably 0.1 to 0.2 wt%.

The tea beverage 1a beverage) of the t invention, which contains the enzyme-treated tea extract and Mamba, can be prepared by mixing the enzyme-treated tea extract with Mamba. The tea ge of the present invention can also contain, in addition to these ingredients, a tea extract liquid. - 12 _ For the preparation of a tea beverage containing a tea extract liquid, the mixing of the enzyme-treated tea t and the Matclia may be carried out in the tea extract . Alternatively, after the mixing, the resulting mixture may further be mixed with the tea t liquid. The Mata/1a may be directly mixed with the enzyme-treated tea extract, or mixed in a form of aqueous suspension with the extract. The aqueous suspension of Matcba may be prepared by homogenizing Matcha in water using, for example, a homogenizer. Any known means may be used for mixing these ingredients, and there is not limitation.

The tea beverage prepared as described above may contain optional ingredients that are usually formulated in beverages, as riate. Examples of the optional ingredient include sugars, ners, acidulants, edible dyes, vitamins, flavors, antioxidants, pH adjusters.

The tea beverage (Matcha beverage) of the present invention, which contains the enzyme-treated tea extract and Matcha, is suitable for beverages packaged in a container, which are generally preserved for long times, since precipitation of Mata/2a is suppressed.

EXAMPLES The present invention will now be described in more detail with reference to the following examples, but should not be limited thereto. ence Example 1) A test on containing 0.5 wt% pectin (product namei Pectin - free), ble from NACALAI TESQUE, INC.) was prepared with an acetate buffer of pH 5.4. Commercially available ase enzymes for food additive use (product name3 Cellulase A "Amano" 3 (available from Amano Enzyme Inc), product namei Cellulase T "Amano" 4 (available from Amano Enzyme Inc), product namei Cellulosin AC (available from HBI Enzymes Inc), product namei osin T3 (available from HBI Enzymes Inc), and product namei Sumizyme C (available from SHINNIHON CHEMICALS Corporation)) were each added to . 13 . the aliquot of the test solution such that cellulase was 1 wt% relative to the pectin in the aliquot of the test solution. The reaction was carried out at 87°C for 16 hours, the solution was treated at 90°C for 10 minutes, to deactivate the enzyme. The viscosity is measured with a tuning-fork ion viscometer SV- A (available from A & D Company, Limited) at 245°C. The result, shown in Fig. 1, demonstrates that Cellulase T "Amano" 4 and me C (providing a relative viscosity rate 97 % and 100 %, respectively) provides substantially no variation in viscosity after pectin digestion, and exhibits substantially no pectinase activity. Cellulosin T3 (providing a relative viscosity rate 88 %) was also found to be available for the present invention with negligible contamination. The ase enzyme used in Examples of the present invention was ase T "Amano" 4. The titer of Cellulase T "Amano" 4 was 280 units/g.

(Example 1) Ground Senclia leaves of 5 g were subjected to 3-minuite-extraction with hot water of 500g once (the extraction rate of the soluble entsi 20%) or twice (the extraction rate of the soluble components3 40%), and then subjected to solid-liquid separation to obtain separated tea leaves. Cellulase T "Amano" 4 (Amano Enzyme Inc.) in a proportion of 1 wt% of the weight of the tea leaves and pure water in an amount 15 times the weight of the tea leaves were added to each of the two sets of separated tea leaves. rbic acid in a proportion of about 0.5 wt% of the weight of the tea leaves were added to each of the resulting mixtures to adjust the pH to 4.6. The on was d out at 37°C for 16 hours, and the mixtures were treated at 90°C for 10 minutes to deactivate the enzyme, and to terminate the reaction. The es were subjected to a solid- liquid separation to obtain enzyme-treated tea extracts. The viscosity of the enzyme-treated tea extracts was ed with a tuning-fork Vibration viscometer SV'A (A & D Company, Limited). The viscosity was also measured _ 14 . of control extracts ed through the same processes except that the enzyme was not added. The results, shown in Fig. 2, demonstrate that the tea extracts which were obtained by subjecting the tea leaves to the pre-extraction such that the extraction rate of the soluble components was 20% or higher exhibit a significantly higher viscosity. It is considered that these results demonstrate that the use of a cellulase ting ntially no pectinase activity enables hydrolysis and extraction of tea pectin. Further, it is considered that, if tea leaves are subjected to extraction with hot water before enzyme treatment to remove a certain amount of enzyme activity inhibitors (such as catechins), the efficiency in hydrolysis by a cellulase and extraction of tea pectin will be improved.

(Example 2) Sena/2a tea leaves of 5 g were subjected to extraction with hot water such that the extraction rate of the soluble components was 40%, and subjected to solid-liquid separation to obtain separated tea leaves. The separated tea leaves were subjected to the enzyme reaction, as in Example 1, to obtain an enzyme- treated tea extract. Tea extract liquids were ed from Gyokaro, Tenclza, and Sanchez as controls. The enzyme-treated tea extract and the tea extract liquids were each adjusted to have a Brix of 0.3, and were subjected to measurement of the ity with a tuning-fork vibration eter SV'A (A & D y, Limited). The results, shown in Fig. 8, demonstrate that the -treated tea extract of the present ion shows a higher Viscosity (1.19 mPa-s) than that of usual tea extract liquids. It is considered that these results rate that tea pectin was extracted at a high efficiency.

(Example 3) Sensory evaluation was conducted in terms of umami, bitter and astringent taste, and Koku, of an enzyme'treated tea extract prepared as in Example 1 and a usual tea extract liquids prepared as in Example 1 except that .15- the enzyme treatment did not take place. The evaluation criteria are shown below.

Prabkail Table 1 Scoring criteria for umami, bitter and astringent taste, and Koku Score 5 Considerably strongly perceived Score 4 Strongly perceived Score 3 Perceived Score 2 Weakly perceived Score 1 Slightly perceived Score 0 Not perceived The results of the y evaluation are shown in Table 2. The enzyme-treated tea extract is or .to the usual extract in Koku, thus ting pleasant Koku. In terms of umami and bitter and astringent taste, the enzyme-treated tea extract was at the same level as the usual extract.

[Table 2] Table 2 Umami, Bitter and Astringent Taste, and Koku Bitter and Astringent Taste Tea extract liquid 3 Enzyme-treated tea 3 3 extract (Example 4) Matclza beverage The enzyme-treated tea extract provided in the present invention was mixed with Ma tclza to produce Ma tcba beverages.

In specific, Sandra leaves of 7 g were subjected to extraction with hot water of 200 ml (at 90 °C) for five minutes, and subjected to solid‘liquid separation to obtain a tea extract liquid to be used as a beverage base (hereinafter referred to as "base extract liquid"). The Mata/2a was suspended in 80-fold (on weight basis) water, and the suspension was treated with a homogenizer under a pressure of 15 MPa (without centrifugal ent) to e a homogenenized Mata/2a suspension. The base extract liquid was mixed with the homogenized Matcba suspension such that the contents of the a in final tea beverages were 0.01, 0.2, 0.5, and 1.0 wt%, and with an enzyme-treated tea t prepared as in e 1 such that the contents of the enzyme-treated tea extract (having a viscosity of 1.19, which was measured at a Brix adjusted to 0.3 with a tuning’fork vibration viscometer SV'A (A & D Company, Limited)) in the final tea beverages were 0.01, 0.2, and,0.5 wt%, as calculated for the amount of the t whose Brix is adjusted to 0.3. The mixtures were each diluted with water into 1000 ml and the diluted solution was subjected to retort sterilization. The resulting tea beverages were subjected to y evaluation in terms of Koku, coarse e, and discordant flavor which were rated in six grades by five panelists. Scoring criteria for the evaluation are shown below. . 1’7 ..

[Table 3] Table 3 Scoring criteria for Kola: Score 5 Considerably strongly perceived Score 4. Strongly perceived Score 3 Perceived Score 2 Weakly perceived Score 1 Slightly perceived Score 0 Not ved [Table 4] Table 4 Scoring criteria for coarse texture and discordant flavor Score 5 Considerably strongly perceived Score 4 Strongly perceived Score 3 Perceived Score 2 Weakly ved Score 1 Slightly perceived Score 0 Not perceived The average values of the sensory evaluation are shown in Tables 5 and 6. on of the ‘treated tea extract increased Koku while reducing the coarse texture and discordant flavor. Such a trend becomes more noticeable with an increase in the amount of the enzyme‘treated tea extract.

[Table 5] Table 5 Kola: Enzyme-treated tea extract (%) Matcba (%) 0.01 0.2 0.01 1.0 2.1 0.2 2.3 3.3 0.5 3.1 4.1 1.0 3.7 4.8 [Table 6] Table 6 Coarse Texture, Discordant Flavor Enzyme-treated tea extract (%) Matclia (%) 0.01 0.2 0.5 0.01 0.2 3.7 2.4 2.0 0.5 4.4 3.0 2.4 1.0 5.0 4.0 8.3 The beverages prepared in Example 4 were left to stand for five s, and then subjected to Visual evaluation of sedimentation of Matclza in four grades. Scoring criteria for the evaluation are shown below.

[Table 7] Table 7 Scoring criteria for sedimentation Sedimentation of Mata/2a after standing for five minutes +++ erable ntation ++ Sedimentation + Slight sedimentation Non sedimentation . 19 - The s are shown in Table 8. The addition of the enzyme-treated tea extract reduces the sedimentation. Such a trend becomes more noticeable with an increase in the amount of the enzyme-treated tea extract.

[Table 8] Table 8 Sedimentation Level Enzyme-treated tea extract (%) Matcba (%) 0.01 0.2 0.5 0.01 + + 0.2 +++ ++ + 0.5 +++ ++ ++ +++ ++ ++ INDUSTRIAL APPLICABILITY From the studies described above, an enzyme-treated tea extract has been completed which is postulated to have tea pectin at a high concentration and exhibit pleasant Koku.

The enzyme-treated tea extract can be added to, for example, tea beverages packaged in a ner, to impart pleasant Kola: to the beverages.

The enzyme-treated tea extract in the form of powder can facilitate the addition of pleasant Koku to the tea beverages, and considerably se viscosity of the tea beverage, and thus, can allow the production of a tea beverage aimed at ng a risk for aspiration. .20.

Claims (11)

WHAT IS CLAIMED IS

1. A method for producing an enzyme-treated tea extract, comprising treating tea leaves with a cellulase, and subjecting the treated tea leaves to extraction, wherein the method further comprises subjecting tea leaves to extraction with water or an organic solvent, and separating the resulting tea extract liquid, to obtain the tea leaves to be treated with the cellulase, before the treatment of the tea leaves with the cellulase, wherein the tea leaves are subjected to extraction with the water or the organic solvent such that an extraction rate of soluble components to the tea extract liquid is 20 to 45%, wherein a test on shows a ity rate of 80% or more relative to an untreated pectin solution in the ing test on the cellulasei the test solution contains 0.5 wt% pectin, and is prepared with an acetate buffer of pH 5.4; the cellulase is added to the test solution such that the ase is 1 wt% relative to the pectin in the solution; a reaction of the ase is carried out at 37°C for 16 hours; the resulting solution is treated at 90°C for 10 minutes to deactivate the enzyme; and then viscosity of the deactivated solution is measured with a -fork vibration viscometer at 245°C to determine the viscosity rate relative to the untreated pectin solution.

2. The method of claim 1, wherein the treatment of the tea leaves with the cellulase is carried out at 35 to 55°C.

3. The method of claim 1 or 2, wherein the treatment of the tea leaves with the cellulase is carried out for 30 minutes to 20 hours.

4. The method of any one of claims 1 to 3, wherein the ent of the tea leaves with the ase is carried out at a pH of 4 to 6.

5. An enzyme-treated tea extract prepared by the method of any one of claims 1 to

6. The enzyme-treated tea extract of claim 5, wherein its viscosity, when its Brix is ed to 0.3, is 1.0 mPa-s or higher.

7. A tea beverage packaged in a container, comprising the enzyme-treated tea t of claim 5 or 6.

8. The tea beverage of claim ’7, further comprising Matcha.

9. The tea beverage of claim 8, wherein the content of the Matcha in the tea beverage is 0.01 to 1.0 wt%.

10. The tea beverage of claim 8 or 9, wherein the beverage is obtained by mixing the Mamba directly with the enzyme-treated tea extract, or mixing the Matcha in a form of aqueous suspension with the extract.

11. The method of claim 1, substantially as herein described with reference to any one of the Examples and/or