JP5399864B2 - Purified tea extract - Google Patents

Purified tea extract Download PDF

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JP5399864B2
JP5399864B2 JP2009257479A JP2009257479A JP5399864B2 JP 5399864 B2 JP5399864 B2 JP 5399864B2 JP 2009257479 A JP2009257479 A JP 2009257479A JP 2009257479 A JP2009257479 A JP 2009257479A JP 5399864 B2 JP5399864 B2 JP 5399864B2
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JP2010131008A (en
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裕子 内田
浩 橋本
栄造 丸山
悠子 久保
真由 山本
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Kao Corp
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Description

本発明は、カフェイン量を低減した精製茶抽出物及び容器詰飲料に関する。   The present invention relates to a purified tea extract and a packaged beverage with a reduced amount of caffeine.

飲料にカテキン類を高濃度に配合する技術として、緑茶抽出物の濃縮物等の茶抽出物(特許文献1〜3)を利用し、カテキン類を飲料に溶解状態で添加する方法が知られている。しかしながら、カテキン類を高濃度に配合する対象となる飲料の種類(例えば、茶系飲料や、炭酸飲料等の非茶系飲料)によっては、カフェイン及び緑茶由来の苦渋味が残存し、飲料の商品価値が大きく低下することがある。   As a technique for blending catechins in a beverage at a high concentration, a method of adding a catechin to a beverage in a dissolved state using a tea extract (Patent Documents 1 to 3) such as a concentrate of a green tea extract is known. Yes. However, depending on the type of beverage (for example, tea-based beverages and non-tea-based beverages such as carbonated beverages) to be mixed with catechins at a high concentration, the bitter and astringent taste derived from caffeine and green tea remains, Product value may be greatly reduced.

その苦渋味を改善する方法として、例えば、カテキン類とキナ酸との含有質量比を一定に制御する方法(特許文献4)、苦味抑制効果のあるサイクロデキストリンをカテキン類に対して一定量配合する方法(特許文献5)、茶葉からカテキン類を抽出して得られた茶葉抽出液を更に溶媒抽出することにより、苦味等の少ない高濃度カテキン類含有抽出液とする方法(特許文献6)などが提案されている。   As a method for improving the bitter and astringent taste, for example, a method for controlling the mass ratio of catechins and quinic acid to be constant (Patent Document 4), a cyclodextrin having a bitterness-inhibiting effect is blended in a certain amount with respect to catechins. A method (Patent Document 5), a method of extracting a tea leaf extract obtained by extracting catechins from tea leaves by further solvent extraction into a highly concentrated catechins-containing extract with little bitterness (Patent Document 6), etc. Proposed.

ところで、カテキン類はフラボノイド類に分類されるものであるが、その他のフラボノイド類についても飲食品に配合することで種々の効果を奏することが報告されている。例えば、フラボノール配糖体の一種であるイソクエルシトリンは、ペプチド含有飲料においてそのペプチド臭の発生を抑制するための酸化防止剤(特許文献7)、ビタミン含有飲料においてビタミンの分解を防止するためのビタミン安定剤(特許文献8)、又は血管内皮細胞の機能改善剤(特許文献9、非特許文献1、2)などとして機能し得ることが報告されている。   By the way, although catechins are classified into flavonoids, it has been reported that other flavonoids also have various effects when blended with food and drink. For example, isoquercitrin, which is a kind of flavonol glycoside, is an antioxidant for suppressing the generation of peptide odor in peptide-containing beverages (Patent Document 7), and for preventing vitamin degradation in vitamin-containing beverages. It has been reported that it can function as a vitamin stabilizer (Patent Document 8) or a vascular endothelial cell function improving agent (Patent Document 9, Non-Patent Documents 1 and 2).

特開2002−142677号公報JP 2002-142777 A 特開平8−298930号公報JP-A-8-298930 特開平8−109178号公報JP-A-8-109178 特開2003−169603号公報JP 2003-169603 A 特開2006−180711号公報JP 2006-180711 A 特開2007−159541号公報JP 2007-159541 A 特開2006−67874号公報JP 2006-67874 A 特開2007−125018号公報Japanese Patent Laid-Open No. 2007-125018 特開2008−255075号公報JP 2008-255075 A

薬と治療、Vol.36 No.10 2008年、p.919-930Medicine and Treatment, Vol.36 No.10 2008, p.919-930 薬と治療、Vol.36 No.10 2008年、p.931-939Medicine and Treatment, Vol.36 No.10 2008, p.931-939

上記特許文献4〜6においては、カテキン類の苦渋味そのものを低減することを目的とするが、本発明者らの検討によれば、高濃度のカテキン類を含有する容器詰飲料においては、苦渋味だけでなく飲用後のすっきりとした後味のキレも不十分となることが判明した。特に、カフェイン含量を低減した精製緑茶抽出物を配合したスポーツ飲料等の非茶系飲料においては、非茶系飲料に求められるすっきりとした後味のキレが感じられなかった。しかしながら、このような後味のキレの改善に有効な手段は未だ知られていない。   The above Patent Documents 4 to 6 aim to reduce the bitter and astringent taste of catechins themselves, but according to the study by the present inventors, in a packaged beverage containing a high concentration of catechins, It has been found that not only the taste but also the refreshing aftertaste after drinking is insufficient. In particular, in a non-tea beverage such as a sports beverage containing a purified green tea extract with a reduced caffeine content, the refreshing aftertaste required for a non-tea beverage was not felt. However, an effective means for improving the aftertaste sharpness has not been known yet.

本発明者らは、カフェイン含量を低減した精製緑茶抽出物を配合した容器詰飲料において後味のキレが感じられなくなる要因を究明すべく検討したところ、緑茶独特のまろやかさが増強されると後味のキレが弱められることがわかった。また、カフェイン含量を低減した精製緑茶抽出物に一定量のカフェインを配合して容器詰飲料を調製したところ、後味のキレが改善された。これらの結果から、精製茶抽出物中のカフェイン量の低減が後味のキレに影響を与えていることが確認された。そして、本発明者は、カフェイン含量を低減した精製茶抽出物に特定構造を有するフラボノール配糖体を配合することで、後味のキレが良く、かつ風味の良好な精製茶抽出物が得られることを見出した。更に、本発明者らは、このフラボノール配糖体が茶抽出物を配合した飲食品の風味改善に有効であることを見出した。   The inventors of the present invention have studied to find out a factor that makes the aftertaste crisp in a packaged beverage containing a purified green tea extract with a reduced caffeine content. It was found that the sharpness of the was weakened. Moreover, when a fixed amount of caffeine was blended with a purified green tea extract with a reduced caffeine content to prepare a packaged beverage, the aftertaste was improved. From these results, it was confirmed that the reduction in the amount of caffeine in the purified tea extract has an effect on the sharpness of the aftertaste. Then, the present inventor can obtain a purified tea extract having a good aftertaste and a good flavor by blending a purified tea extract with a reduced caffeine content with a flavonol glycoside having a specific structure. I found out. Furthermore, the present inventors have found that this flavonol glycoside is effective in improving the flavor of foods and drinks containing a tea extract.

すなわち、本発明は、次の成分(A)、(B)及び(C):
(A)非重合体カテキン類、
(B)カフェイン、及び
(C)下記一般式(1)で表されるフラボノール配糖体の少なくとも1種
を含有し、(A)非重合体カテキン類と、(B)カフェインとの含有質量比[(B)/(A)]が0.02以下である、精製茶抽出物を提供するものである。
That is, the present invention includes the following components (A), (B) and (C):
(A) non-polymer catechins,
Contains (B) caffeine, and (C) at least one flavonol glycoside represented by the following general formula (1), and contains (A) non-polymer catechins and (B) caffeine The present invention provides a purified tea extract having a mass ratio [(B) / (A)] of 0.02 or less.

本発明はまた、上記精製茶抽出物を配合してなる飲食品を提供するものである。   The present invention also provides a food or drink comprising the purified tea extract.

本発明は更に、次の成分(A)、(B)及び(C);
(A)非重合体カテキン類:0.05〜3質量%
(B)カフェイン、及び
(C)下記一般式(1)で表されるフラボノール配糖体の少なくとも1種:0.001〜0.2質量%
を含有し、成分(A)と成分(B)との含有質量比[(B)/(A)]が0.02以下である、容器詰飲料を提供するものである。
The present invention further comprises the following components (A), (B) and (C);
(A) Non-polymer catechins: 0.05 to 3% by mass
(B) Caffeine and (C) At least one flavonol glycoside represented by the following general formula (1): 0.001 to 0.2% by mass
And a contained mass ratio [(B) / (A)] of the component (A) and the component (B) is 0.02 or less.

本発明は更にまた、下記一般式(1)で表されるフラボノール配糖体を有効成分とする、茶抽出物の風味改善剤を提供するものである。   Furthermore, this invention provides the flavor improving agent of a tea extract which uses the flavonol glycoside represented by following General formula (1) as an active ingredient.

Figure 0005399864
Figure 0005399864

(式中、R1〜R7はそれぞれ独立に水素原子、水酸基又はメトキシ基を示し、Raはβ−グルコシル基又はβ−ラムノシル基を示し、Rbはα−ラムノシル基又は水素原子を示し、Rcはα−グルコシル基を示し、nは0〜10の整数を示す。) (In the formula, R 1 to R 7 each independently represents a hydrogen atom, a hydroxyl group or a methoxy group, R a represents a β-glucosyl group or β-rhamnosyl group, and R b represents an α-rhamnosyl group or a hydrogen atom. , R c represents an α-glucosyl group, and n represents an integer of 0 to 10.)

本発明によれば、後味のキレが良い高濃度非重合体カテキン類含有精製茶抽出物を提供することが可能になる。また、本発明によれば、高濃度で非重合体カテキン類を含有していても後味のキレが良い容器詰飲料とすることができる。したがって、本発明の容器詰飲料は、長期に亘って継続摂取することが可能であるから、非重合体カテキン類による生理効果を十分に期待できる。   ADVANTAGE OF THE INVENTION According to this invention, it becomes possible to provide the high concentration non-polymer catechin containing refined tea extract with a good aftertaste sharpness. Moreover, according to this invention, even if it contains non-polymer catechins in high concentration, it can be set as a container-packed drink with a good aftertaste. Therefore, since the container-packed drink of this invention can be ingested continuously over a long period of time, the physiological effect by non-polymer catechins can fully be expected.

先ず、本明細書で使用する用語について説明する。
「後味」とは、JIS Z 8144:2004に記載の「口内に残る感覚」をいう。
「(A)非重合体カテキン類」とは、カテキン、ガロカテキン、カテキンガレート及びガロカテキンガレート等の非エピ体カテキン類と、エピカテキン、エピガロカテキン、エピカテキンガレート及びエピガロカテキンガレート等のエピ体カテキン類を併せての総称であり、非重合体カテキン類の濃度は、上記8種の合計量に基づいて定義される。
「非重合体カテキン類のガレート体」とは、カテキンガレート、ガロカテキンガレート、エピカテキンガレート及びエピガロカテキンガレートを併せての総称である。また、「非重合体カテキン類中のガレート体率」とは、これら4種の非重合体カテキン類のガレート体の総和質量を、非重合体カテキン類8種の総和質量に対する百分率で表した値である。
First, terms used in this specification will be described.
“Aftertaste” refers to “feel remaining in the mouth” described in JIS Z 8144: 2004.
"(A) Non-polymer catechins" refers to non-epimeric catechins such as catechin, gallocatechin, catechin gallate, and gallocatechin gallate, and epicatechin, epigallocatechin, epicatechin gallate, and epigallocatechin gallate. The catechins are a collective term for the catechins, and the concentration of the non-polymer catechins is defined based on the total amount of the above eight types.
The “gallate form of non-polymer catechins” is a general term that includes catechin gallate, gallocatechin gallate, epicatechin gallate, and epigallocatechin gallate. The “gallate body ratio in non-polymer catechins” is a value representing the total mass of the gallate bodies of these four types of non-polymer catechins as a percentage of the total mass of the eight non-polymer catechins. It is.

(風味改善剤)
本発明の風味改善剤は、茶抽出物を摂取した後の異味を抑制し、キレの良い後味をもたらすものである。本発明の風味改善剤の有効成分は、下記一般式(1)で表される化合物であり、アグリコンがフラボノールである配糖体である。本発明においては、フラボノール配糖体を1種又は2種以上を組み合わせて用いることができる。中でも、フラボノール配糖体を2種以上併用することで、より一層キレの良い茶抽出物とすることができる。
(Flavor improver)
The flavor improving agent of the present invention suppresses the off-taste after ingesting the tea extract and provides a sharp aftertaste. The active ingredient of the flavor improving agent of the present invention is a compound represented by the following general formula (1), and is a glycoside whose aglycone is flavonol. In the present invention, flavonol glycosides can be used alone or in combination of two or more. Especially, it can be set as a tea extract with still better sharpness by using 2 or more types of flavonol glycosides together.

Figure 0005399864
Figure 0005399864

(式中、R1〜R7はそれぞれ独立に水素原子、水酸基又はメトキシ基を示し、Raはβ−グルコシル基又はβ−ラムノシル基を示し、Rbはα−ラムノシル基又は水素原子を示し、Rcはα−グルコシル基を示し、nは0〜10の整数を示す。) (In the formula, R 1 to R 7 each independently represents a hydrogen atom, a hydroxyl group or a methoxy group, R a represents a β-glucosyl group or β-rhamnosyl group, and R b represents an α-rhamnosyl group or a hydrogen atom. , R c represents an α-glucosyl group, and n represents an integer of 0 to 10.)

このようなフラボノール配糖体は、例えば、エンジュ、小豆等の豆類、ヤマモモ、ミカン等の柑橘類、ソバ、ドクダミ等の植物から抽出することにより得ることができるが、必要により当該抽出物を加水分解してもよい。
また、イソクエルシトリン(上記式(1)において、R1、R2、R4及びR6が水酸基、R3、R5及びR7が水素原子、Raがβ−グルコシル基、Rbが水素原子、Rcが水素原子である化合物)等のフラボノール化合物を澱粉の存在下に糖転移酵素を作用させて配糖化するか、又はルチン(上記式(1)において、R1、R2、R4及びR6が水酸基、R3、R5及びR7が水素原子、Raがβ−グルコシル基、Rbがα−ラムノシル基、Rcが水素原子である化合物)等のフラボノール化合物に部分加水分解酵素を作用させて糖鎖部に含まれるラムノシル基を除去した後、澱粉の存在下に糖転移酵素を作用させ配糖化して得ることができる。これら酵素処理物は、一般式(1)におけるRaに、Rcとしてグルコース1〜10個がα−1,4結合した各化合物又はそれらの混合物であり、例えば、酵素処理イソクエルシトリン、酵素処理ルチンとして商業的に入手することも可能である。中でも、水への溶解性、後味のキレ改善の観点から、上記酵素処理物が好適に使用される。
Such flavonol glycosides can be obtained, for example, by extracting from beans such as Enju and red beans, citrus fruits such as bayberry and mandarin orange, buckwheat and dokudami, but if necessary, the extract can be hydrolyzed. May be.
In addition, isoquercitrin (in the above formula (1), R 1 , R 2 , R 4 and R 6 are hydroxyl groups, R 3 , R 5 and R 7 are hydrogen atoms, R a is a β-glucosyl group, and R b is A flavonol compound such as a hydrogen atom or a compound in which R c is a hydrogen atom) is glycosylated by acting a glycosyltransferase in the presence of starch, or rutin (in the above formula (1), R 1 , R 2 , Compounds in which R 4 and R 6 are hydroxyl groups, R 3 , R 5 and R 7 are hydrogen atoms, R a is a β-glucosyl group, R b is an α-rhamnosyl group, and R c is a hydrogen atom) After removing the rhamnosyl group contained in the sugar chain part by acting a partial hydrolase, it can be obtained by glycosylation by acting a glycosyltransferase in the presence of starch. These enzyme-treated products are compounds in which 1 to 10 glucoses are α-1,4-linked as R c to R a in the general formula (1), or a mixture thereof. For example, enzyme-treated isoquercitrin, enzyme It can also be obtained commercially as treated rutin. Among these, the enzyme-treated product is preferably used from the viewpoint of improving solubility in water and sharpness of aftertaste.

本発明においては、上記一般式(1)で表されるフラボノール配糖体として下記のものが好適に使用される。
aはβ−グルコシル基又はβ−ラムノシル基を示すが、Raはβ−グルコシル基が好ましい。
bはα−ラムノシル基又は水素原子を示すが、Rbがα−ラムノシル基であるとき、nは1〜4が好ましく、これらの混合物であることが特に好ましい。また、Rbが水素原子であるとき、nは0〜7が好ましく、これらの混合物であることが特に好ましい。
ここで、Raにおける「β−グルコシル基」とはβ−グルコースの1位及び6位、又は1位、4位及び6位の水酸基の水素原子を除いた残基をいい、「β−ラムノシル基」とはβ−ラムノースの1位及び4位の水酸基の水素原子を除いた残基をいう。また、Rbにおける「α−ラムノシル基」とはα−ラムノースの1位の水酸基の水素原子を除いた残基をいい、Rcにおける「α−グルコシル基」とはα−グルコースの1位及び4位の水酸基又は1位の水酸基の水素原子を除いた残基をいう。
1〜R7はそれぞれ独立に水素原子、水酸基又はメトキシ基を示すが、R1〜R7のうち、R1〜R3の少なくとも1つと、R4及びR6が水酸基であり、かつ残基が水素原子であることが好ましく、R1、R2、R4及びR6が水酸基であるか、又はR1〜R3、R4及びR6が水酸基であり、かつ残基が水素原子であることが特に好ましい。
In the present invention, the following compounds are preferably used as the flavonol glycoside represented by the general formula (1).
R a represents a β-glucosyl group or a β-rhamnosyl group, and R a is preferably a β-glucosyl group.
R b represents an α-rhamnosyl group or a hydrogen atom. When R b is an α-rhamnosyl group, n is preferably 1 to 4, and a mixture thereof is particularly preferable. In addition, when R b is a hydrogen atom, n is preferably 0 to 7, and particularly preferably a mixture thereof.
Here, the “β-glucosyl group” in R a is a residue obtained by removing the hydrogen atoms of the 1-position and 6-position, or the 1-position, 4-position and 6-position hydroxyl group of β-glucose, and “β-rhamnosyl” The “group” refers to a residue obtained by removing the hydrogen atoms of the 1-position and 4-position hydroxyl group of β-rhamnose. The “α-rhamnosyl group” in R b refers to a residue obtained by removing the hydrogen atom of the hydroxyl group at the 1-position of α-rhamnose, and the “α-glucosyl group” in R c refers to the 1-position of α-glucose and It means a residue obtained by removing the hydrogen atom of the hydroxyl group at the 4-position or the hydroxyl group at the 1-position.
R 1 to R 7 each independently represent a hydrogen atom, a hydroxyl group or a methoxy group, and among R 1 to R 7 , at least one of R 1 to R 3 , R 4 and R 6 are hydroxyl groups, and the remaining The group is preferably a hydrogen atom, and R 1 , R 2 , R 4 and R 6 are hydroxyl groups, or R 1 to R 3 , R 4 and R 6 are hydroxyl groups, and the residue is a hydrogen atom. It is particularly preferred that

本発明の風味改善剤は、カフェイン含量を低減した茶抽出物の風味、特に後味のキレの改善に有効である。   The flavor improving agent of the present invention is effective in improving the flavor of a tea extract with a reduced caffeine content, particularly the sharpness of the aftertaste.

(精製茶抽出物)
本発明の精製茶抽出物は、カフェイン量が顕著に低減されていることを特徴するものである。具体的には、(B)カフェインの含有量は、(A)非重合体カテキン類に対する質量比[(B)/(A)]で0.02以下であるが、好ましくは0.015以下、より好ましくは0.01以下、更に好ましくは0.008以下、特に好ましくは0.005以下、殊更好ましくは0.003以下である。なお、本発明の精製緑茶抽出物は、実質的にカフェインを含有しなくてもよく、質量比[(B)/(A)]が0であってもよい。ここで、本発明において「実質的に含有しない」とは、後掲の実施例の「カフェインの測定」においてカフェイン量が検出限界以下であることをいう。
(Purified tea extract)
The purified tea extract of the present invention is characterized in that the amount of caffeine is significantly reduced. Specifically, the content of (B) caffeine is 0.02 or less in mass ratio [(B) / (A)] to (A) non-polymer catechins, preferably 0.015 or less. More preferably, it is 0.01 or less, More preferably, it is 0.008 or less, Most preferably, it is 0.005 or less, Most preferably, it is 0.003 or less. In addition, the refined green tea extract of the present invention may not substantially contain caffeine, and the mass ratio [(B) / (A)] may be 0. Here, in the present invention, “substantially does not contain” means that the amount of caffeine is below the detection limit in “Measurement of caffeine” in the examples described later.

本発明の精製茶抽出物は、非重合体カテキン類による生理効果発現の観点から、固形分中の(A)非重合体カテキン類の濃度が60〜90質量%、更に70〜85質量%、特に75〜80質量%であることが好ましい。ここで、本明細書において「固形分」とは、試料を105℃の電気恒温乾燥機で3時間乾燥して得た乾燥残分をいう。
また、本発明の精製茶抽出物は、非重合体カテキン類中のガレート体率が0.001〜70質量%であることが好ましく、非重合体カテキン類による生理効果発現及び苦味低減の点から、下限が10質量%、特に20質量%であることが好ましく、他方上限は60質量%、より好ましくは50質量%、更に45質量%、特に40質量%、殊更30質量%であることが好ましい。
The purified tea extract of the present invention has a concentration of (A) non-polymer catechins in the solid content of 60 to 90% by mass, more preferably 70 to 85% by mass, from the viewpoint of expression of physiological effects by non-polymer catechins. It is especially preferable that it is 75-80 mass%. Here, the “solid content” in this specification refers to a dry residue obtained by drying a sample with an electric constant temperature dryer at 105 ° C. for 3 hours.
The purified tea extract of the present invention preferably has a gallate content in the non-polymer catechins of 0.001 to 70% by mass, from the viewpoint of the physiological effect expression and bitterness reduction by the non-polymer catechins. The lower limit is preferably 10% by weight, in particular 20% by weight, while the upper limit is preferably 60% by weight, more preferably 50% by weight, further 45% by weight, in particular 40% by weight, in particular 30% by weight. .

質量比[(B)/(A)]が上記範囲内にある精製茶抽出物とするには、茶抽出物を精製して茶抽出物中の(B)カフェイン量を低減する必要がある。その精製方法として、例えば、下記(i)〜(iv)のいずれかの方法、あるいは2以上の組み合わせが挙げられる。
(i)茶抽出物を水、又は水と水溶性有機溶媒(例えば、エタノール)との混合物(以下、「有機溶媒水溶液」という)に分散させ、生じた沈殿を除去した後、溶媒を留去する方法。
(ii)茶抽出物をタンナーゼ処理し、更に活性炭、酸性白土及び活性白土から選択される少なくとも1種の吸着剤と接触させる方法(例えば、特開2007−282568号公報)
(iii)茶抽出物を合成吸着剤に吸着させた後、該合成吸着剤に有機溶媒水溶液を接触させて非重合体カテキン類を脱離させる方法(例えば、特開2006−160656号公報)。
(iv)茶抽出物を合成吸着剤に吸着させた後、該合成吸着剤に有機溶媒水溶液又は塩基性水溶液(例えば、水酸化ナトリウム水溶液)を接触させて非重合体カテキン類を脱離させ、次いで得られた脱離液を活性炭と接触させる方法(例えば、特開2008−079609号公報)。
In order to obtain a purified tea extract having a mass ratio [(B) / (A)] within the above range, it is necessary to purify the tea extract to reduce the amount of (B) caffeine in the tea extract. . Examples of the purification method include any of the following methods (i) to (iv), or a combination of two or more.
(I) The tea extract is dispersed in water or a mixture of water and a water-soluble organic solvent (for example, ethanol) (hereinafter referred to as “organic solvent aqueous solution”), the resulting precipitate is removed, and then the solvent is distilled off. how to.
(Ii) A method in which a tea extract is treated with tannase and further contacted with at least one adsorbent selected from activated carbon, acid clay, and activated clay (for example, JP-A-2007-282568)
(Iii) A method in which a tea extract is adsorbed on a synthetic adsorbent and then an organic solvent aqueous solution is brought into contact with the synthetic adsorbent to desorb non-polymer catechins (for example, JP-A-2006-160656).
(Iv) After adsorbing the tea extract to the synthetic adsorbent, the synthetic adsorbent is contacted with an organic solvent aqueous solution or a basic aqueous solution (for example, sodium hydroxide aqueous solution) to desorb non-polymer catechins, Next, a method of bringing the obtained desorbing liquid into contact with activated carbon (for example, JP 2008-079609).

上記(i)、(iii)及び(iv)の方法においても、茶抽出物としてタンナーゼ処理したものを使用することが可能であり、また精製後においてタンナーゼ処理することもできる。ここで、「タンナーゼ処理」とは、緑茶抽出物を、タンナーゼ活性を有する酵素と接触させることをいう。なお、タンナーゼ処理における具体的な操作方法は公知の方法を採用することが可能であり、例えば、特開2004−321105号公報に記載の方法が例示される。また、本発明においては、異なる精製方法により調製された2種以上の茶抽出物の精製物を混合して使用してもよい。   In the above methods (i), (iii) and (iv), it is possible to use a tea extract that has been tannase-treated, and it can also be tannase-treated after purification. Here, “tannase treatment” refers to bringing a green tea extract into contact with an enzyme having tannase activity. In addition, a well-known method can be employ | adopted for the specific operation method in a tannase process, For example, the method as described in Unexamined-Japanese-Patent No. 2004-321105 is illustrated. In the present invention, two or more kinds of purified tea extracts prepared by different purification methods may be mixed and used.

精製に使用する茶抽出物としては、茶葉から得られた抽出物が挙げられる。その他のカフェイン含有植物抽出物、例えばコーヒー等のカフェイン含有抽出物や、それと茶抽出物との混合物等も用いることができる。ここで、茶抽出物とは、茶葉から抽出した茶抽出物であって、濃縮や精製操作が行われていないものをいう。
抽出に使用する茶葉としては、Camellia属、例えばC.sinensis及びC.assamica、やぶきた種又はそれらの雑種等から得られる茶葉から製茶された茶葉が挙げられる。製茶された茶葉には、煎茶、番茶、玉露、てん茶、釜炒り茶等の緑茶類、烏龍茶に代表される半発酵茶、紅茶に代表される発酵茶がある。また、超臨界状態の二酸化炭素接触処理を施した茶葉を用いてもよい。
本発明で用いる茶抽出物としては、非重合体カテキン類の含有量の点から、緑茶抽出物が好ましい。
Examples of the tea extract used for purification include an extract obtained from tea leaves. Other caffeine-containing plant extracts, for example, caffeine-containing extracts such as coffee, mixtures thereof with tea extracts, and the like can also be used. Here, the tea extract refers to a tea extract extracted from tea leaves that has not been concentrated or purified.
Examples of tea leaves used for extraction include tea leaves made from tea leaves obtained from the genus Camellia, for example, C. sinensis and C. assamica, Yabuki species, or hybrids thereof. The tea leaves produced include green teas such as sencha, bancha, gyokuro, tencha, roasted tea, semi-fermented tea typified by oolong tea, and fermented tea typified by black tea. Moreover, you may use the tea leaf which gave the carbon dioxide contact process of the supercritical state.
The tea extract used in the present invention is preferably a green tea extract from the viewpoint of the content of non-polymer catechins.

抽出方法としては、攪拌抽出、ドリップ抽出等の従来の方法を採用することができる。得られた茶抽出物は、そのまま、乾燥又は濃縮して上記精製方法に使用できる。   As the extraction method, conventional methods such as stirring extraction and drip extraction can be employed. The obtained tea extract can be dried or concentrated as it is and used in the above purification method.

また、本発明においては、茶抽出物の換わりに茶抽出物の濃縮物を水又は有機溶媒に溶解又は希釈したものを使用しても、茶抽出物に茶抽出物の濃縮物を配合したものを使用してもよい。ここで、茶抽出物の濃縮物とは、茶抽出物から溶媒を一部除去して非重合体カテキン類濃度を高めたものをいい、例えば、特開昭59−219384号公報、特開平4−20589号公報、特開平5−260907号公報、特開平5−306279号公報等に記載の方法により調製することができる。茶抽出物の濃縮物としては市販品を使用してもよく、例えば、三井農林社製の「ポリフェノン」、伊藤園社製の「テアフラン」、太陽化学社製の「サンフェノン」等の緑茶抽出物の濃縮物が挙げられる。   In the present invention, the tea extract concentrate is blended with the tea extract even if the tea extract concentrate is dissolved or diluted in water or an organic solvent instead of the tea extract. May be used. Here, the concentrate of tea extract refers to a product obtained by partially removing the solvent from the tea extract to increase the concentration of non-polymer catechins. For example, JP-A-59-219384 and JP-A-4 -20589, JP-A-5-260907, JP-A-5-306279, and the like. Commercially available products may be used as the concentrate of the tea extract, such as “Polyphenone” manufactured by Mitsui Norinsha, “Theafuran” manufactured by ITO EN, and “Sunphenon” manufactured by Taiyo Kagaku. A concentrate is mentioned.

本発明の精製茶抽出物は、後味のキレを増強するために、上記した風味改善剤の有効成分である(C)一般式(1)で表されるフラボノール配糖体を含有する。本発明の精製茶抽出物中の(C)フラボノール配糖体の含有量は、(A)非重合体カテキン類に対する含有質量比[(C)/(A)]として、下限が0.001、更に0.0015、更に0.002、更に0.003、更に0.005、特に0.008、殊更0.01であることが好ましく、他方上限は0.8、更に0.5、更に0.4、更に0.1、特に0.06、殊更0.04であることが好ましい。これにより、より一層キレの良い精製茶抽出物とすることができる。
なお、本発明の精製茶抽出物の固形分中の(C)フラボノール配糖体の含有量は特に限定されないが、より一層の後味のキレ改善の観点から、その下限が0.3、更に0.4質量%、特に0.5質量%、殊更0.6質量%であることが好ましく、他方上限は7質量%、更に6質量%、更に5質量%、特に4.5質量%であることが好ましい。
The purified tea extract of the present invention contains (C) a flavonol glycoside represented by the general formula (1), which is an active ingredient of the above-described flavor improving agent, in order to enhance the aftertaste sharpness. The content of (C) flavonol glycoside in the purified tea extract of the present invention is (A) the mass ratio of non-polymer catechins [(C) / (A)], the lower limit is 0.001, Further, it is preferably 0.0015, further 0.002, further 0.003, further 0.005, especially 0.008, especially 0.01, while the upper limit is 0.8, further 0.5, and further preferably 0.00. 4, more preferably 0.1, especially 0.06, especially 0.04. Thereby, it can be set as the refined tea extract with much more sharpness.
In addition, the content of the (C) flavonol glycoside in the solid content of the purified tea extract of the present invention is not particularly limited, but from the viewpoint of further improving the aftertaste sharpness, the lower limit is 0.3, and further 0 0.4% by weight, in particular 0.5% by weight, in particular 0.6% by weight, while the upper limit is 7% by weight, in addition 6% by weight, in addition 5% by weight, in particular 4.5% by weight. Is preferred.

なお、質量比[(B)/(A)]及び[(C)/(A)]が上記範囲内にある精製茶抽出物とするには、上記精製方法により得られた茶抽出物又はその濃縮物の精製物に、質量比[(C)/(A)]が上記範囲内となるように(C)フラボノール配糖体を配合するか、あるいは質量比[(C)/(A)]が上記範囲内となるように(C)フラボノール配糖体を配合した茶抽出物又はその濃縮物を、上記(i)〜(iv)の手段により精製する方法が挙げられる。   In order to obtain a purified tea extract having a mass ratio [(B) / (A)] and [(C) / (A)] within the above range, the tea extract obtained by the above purification method or its (C) Flavonol glycoside is added to the purified product of the concentrate so that the mass ratio [(C) / (A)] is within the above range, or the mass ratio [(C) / (A)]. (C) The tea extract which mix | blended the flavonol glycoside so that it may become in the said range, or its concentrate is refine | purified by the means of said (i)-(iv).

(容器詰飲料、飲食品)
本発明の精製茶抽出物は、喉越しが爽快で後味のキレが良く、かつ風味が良好であるため、そのまま飲食品に配合して使用することができる。その場合、減圧濃縮、薄膜濃縮などの方法により溶媒を除去してもよい。また、精製緑茶抽出物の製品形態として粉体が望ましい場合は、噴霧乾燥や凍結乾燥等の方法により粉体化することができる。
(Packed beverages, food and drink)
The purified tea extract of the present invention is refreshing over the throat, has a good aftertaste, and has a good flavor, so it can be used as it is in food and drink. In that case, the solvent may be removed by a method such as vacuum concentration or thin film concentration. Moreover, when powder is desirable as a product form of the purified green tea extract, it can be pulverized by a method such as spray drying or freeze drying.

飲食品中における本発明の精製茶抽出物の含有量はその種類により適宜選択することが可能であるが、一般的には0.1〜20質量%、特に0.1〜10質量%であることが好ましい。   The content of the purified tea extract of the present invention in foods and drinks can be appropriately selected depending on the type, but is generally 0.1 to 20% by mass, particularly 0.1 to 10% by mass. It is preferable.

本発明の飲料としては、例えば、茶飲料、非茶系飲料が挙げられる。茶飲料としては、例えば、緑茶飲料、烏龍茶飲料、紅茶飲料が挙げられる。また、非茶系飲料としては、清涼飲料(例えば、果汁ジュース、野菜ジュース、スポーツ飲料、アイソトニック飲料)、コーヒー飲料、栄養ドリンク剤、美容ドリンク剤等の非アルコール飲料、ビール、ワイン、清酒、梅酒、発泡酒、ウィスキー、ブランデー、焼酎、ラム、ジン、リキュール類等のアルコール飲料が挙げられる。
また、食品としては、例えば、菓子類(例えば、パン、ケーキ、クッキー、ビスケット等の焼菓子、チューインガム、チョコレート、キャンデー)、デザート類(例えば、ゼリー、ヨーグルト、アイスクリーム)、レトルト食品、調味料(例えば、ソース、スープ、ドレッシング、マヨネーズ、クリーム)が挙げられる。なお、飲食品の形態は特に限定されず、摂取しやすい形態であれば、固形、粉末、液体、ゲル状、スラリー状等のいずれであってもよい。中でも、本発明の飲食品としては、飲料、特に容器詰飲料が好ましい。
Examples of the beverage of the present invention include tea beverages and non-tea beverages. Examples of tea beverages include green tea beverages, oolong tea beverages, and black tea beverages. Non-tea beverages include soft drinks (eg fruit juice, vegetable juice, sports drinks, isotonic drinks), non-alcoholic drinks such as coffee drinks, nutrition drinks, beauty drinks, beer, wine, sake, plum wine. , Alcoholic beverages such as sparkling liquor, whiskey, brandy, shochu, rum, gin, liqueur and the like.
Examples of food include confectionery (for example, baked confectionery such as bread, cake, cookies, biscuits, chewing gum, chocolate, candy), dessert (for example, jelly, yogurt, ice cream), retort food, seasoning (For example, sauce, soup, dressing, mayonnaise, cream). In addition, the form of food / beverage products is not specifically limited, As long as it is a form which is easy to ingest, any of solid, powder, liquid, gel form, slurry form, etc. may be sufficient. Especially, as a food-drinks of this invention, a drink, especially a container-packed drink are preferable.

また、本発明の容器詰飲料は、上記精製緑茶抽出物を配合し(A)非重合体カテキン類及び(B)カフェインの各濃度を調整するか、あるいは上記精製方法により得られた茶抽出物又はその濃縮物の精製物と(C)フラボノール配糖体とを配合し(A)非重合体カテキン類及び(C)フラボノール配糖体の各濃度を上記範囲内に調整して得ることができる。   Moreover, the container-packed drink of this invention mix | blends the said refined green tea extract, adjusts each density | concentration of (A) non-polymer catechins and (B) caffeine, or the tea extraction obtained by the said purification method Or (C) flavonol glycoside and (A) non-polymer catechins and (C) flavonol glycosides are adjusted within the above ranges. it can.

本発明の容器詰飲料中の(A)非重合体カテキン類の含有量は0.05〜3質量%であるが、風味及び生理効果の観点から、その下限は0.08質量%、更に0.12質量%、更に0.2質量%、より更に0.3質量%、特に0.4質量%であることが好ましく、他方上限は2.5質量%、更に2質量%、更に1.5質量%、より更に1.1質量%、特に0.8質量%であることが好ましい。   The content of (A) non-polymer catechins in the packaged beverage of the present invention is 0.05 to 3% by mass, but from the viewpoint of flavor and physiological effect, the lower limit is 0.08% by mass, and further 0 .12% by weight, more preferably 0.2% by weight, still more preferably 0.3% by weight, especially 0.4% by weight, while the upper limit is 2.5% by weight, further 2% by weight, and further 1.5%. It is preferable that it is 1.1 mass%, still more preferably 0.8 mass%.

また、本発明の容器詰飲料は、苦渋味抑制の点から、非重合体カテキン類中のガレート体率の下限が10質量%、特に20質量%であることが好ましく、他方上限は60質量%、より好ましくは50質量%、更に45質量%、特に40質量%、殊更30質量%であることが好ましい。   Further, in the packaged beverage of the present invention, the lower limit of the gallate body ratio in the non-polymer catechins is preferably 10% by mass, particularly 20% by mass, and the other upper limit is 60% by mass from the viewpoint of suppressing bitterness and astringency. More preferably, it is 50% by mass, further 45% by mass, especially 40% by mass, especially 30% by mass.

本発明の容器詰飲料中の(B)カフェイン含有量は、(A)非重合体カテキン類に対する質量比[(B)/(A)]として0.02以下であるが、好ましくは0.015以下、より好ましくは0.01以下、更に好ましくは0.008以下、特に好ましくは0.005以下、殊更好ましくは0.003以下である。なお、本発明の容器詰飲料は実質的にカフェインを含有しなくてもよく、上記質量比[(B)/(A)]が0であってもよい。   The (B) caffeine content in the packaged beverage of the present invention is 0.02 or less as a mass ratio [(B) / (A)] to (A) non-polymer catechins, It is 015 or less, more preferably 0.01 or less, still more preferably 0.008 or less, particularly preferably 0.005 or less, and still more preferably 0.003 or less. In addition, the container-packed drink of this invention does not need to contain caffeine substantially, and the said mass ratio [(B) / (A)] may be 0.

また、本発明の容器詰飲料中の(C)フラボノール配糖体の含有量は0.001〜0.2質量%であるが、より一層の後味のキレ改善の観点から、その下限は0.0011質量%、更に0.0012質量%、特に0.0013質量%であることが好ましく、他方上限は0.1質量%、更に0.05質量%、更に0.01質量%、特に0.008質量%であることが好ましい。
また、本発明の容器詰飲料中の(A)非重合体カテキン類に対する(C)フラボノール配糖体の質量比[(C)/(A)]は、より一層の後味のキレ改善の観点から、その下限が0.001、更に0.0015、更に0.002、特に0.003であることが好ましく、他方上限は0.8、更に0.4、更に0.1、特に0.04であることが好ましい。
Moreover, although content of (C) flavonol glycoside in the container-packed drink of this invention is 0.001-0.2 mass%, the lower limit is 0.00 from a viewpoint of the sharp improvement of the further aftertaste. It is preferably 0011% by weight, more preferably 0.0012% by weight, in particular 0.0013% by weight, while the upper limit is 0.1% by weight, further 0.05% by weight, further 0.01% by weight, in particular 0.008%. It is preferable that it is mass%.
In addition, the mass ratio [(C) / (A)] of (C) flavonol glycoside to (A) non-polymer catechins in the packaged beverage of the present invention is from the viewpoint of further improving the aftertaste sharpness. The lower limit is preferably 0.001, more preferably 0.0015, further 0.002, and particularly preferably 0.003, while the upper limit is 0.8, further 0.4, further 0.1, especially 0.04. Preferably there is.

本発明の容器詰飲料は、成分(D)として甘味料を含有することができる。これにより、飲用後の異味をより確実にマスキングすることができる。
(D)甘味料としては、天然から得られる炭水化物、グリセロール類、人工甘味料が例示され、これらは単独で又は2種以上を組み合わせて使用することができる。
炭水化物としては、例えば、単糖、オリゴ糖、複合多糖、糖アルコールが例示され、ブドウ糖、ショ糖、果糖、ブドウ糖果糖液糖、果糖ブドウ糖液糖及びエリスリトールから選ばれる1種以上を含有することが好ましい。グリセロール類としては、グリセロール等の多価アルコールが例示される。人工甘味料としては、例えば、アスパルテーム、スクラロース、サッカリンなどの高甘度甘味料が例示される。
中でも、スクラロースは、甘みの立ち上がりが速く、しかもその甘みが安定して持続するという味質を有するため、非重合体カテキン類由来の苦味が立ち上がる前にスクラロースの甘みにより飲用初期の異味だけなく飲用後の喉越しを効果的に改善することができる。
The container-packed drink of this invention can contain a sweetener as a component (D). Thereby, the taste after drinking can be masked more reliably.
Examples of (D) sweeteners include carbohydrates obtained from nature, glycerols, and artificial sweeteners, and these can be used alone or in combination of two or more.
Examples of the carbohydrate include monosaccharides, oligosaccharides, complex polysaccharides, and sugar alcohols, and include at least one selected from glucose, sucrose, fructose, glucose fructose liquid sugar, fructose glucose liquid sugar, and erythritol. preferable. Examples of glycerols include polyhydric alcohols such as glycerol. Examples of the artificial sweetener include high sweetness sweeteners such as aspartame, sucralose, and saccharin.
Above all, sucralose has a taste that fast sweetness rises and the sweetness is stable and lasts, so before the bitterness derived from non-polymer catechins rises, the sweetness of sucralose drinks not only the initial taste of drinking It is possible to effectively improve the later throat.

なお、(D)甘味料の含有量は甘味料の種類に応じて適宜決定することが可能であるが、本発明の容器詰飲料中に合計0.0001〜20質量%であることが好ましい。例えば、(D)甘味料としてスクラロースを使用する場合、本発明の容器詰飲料中のスクラロースの含有量は、後味のキレ改善の観点から、その下限が0.001質量%、更に0.003質量%、更に0.007質量%、特に0.01質量%であることが好ましく、他方上限が1質量%、更に0.5質量%、更に0.1質量%、特に0.05質量%であることが好ましい。
また、(D)甘味料としてスクラロースを含有する場合、(A)非重合体カテキン類に対する(D)甘味料(スクラロース)の含有質量比[(D)/(A)]は、後味のキレ改善の観点から、その下限が0.01、更に0.03、更に0.05、特に0.1であることが好ましく、他方上限が1、更に0.8、更に0.5、特に0.3であることが好ましい。
In addition, although content of (D) sweetener can be suitably determined according to the kind of sweetener, it is preferable that it is 0.0001-20 mass% in total in the container-packed drink of this invention. For example, when (S) sucralose is used as a sweetener, the lower limit of the content of sucralose in the container-packed beverage of the present invention is 0.001% by mass, and further 0.003% by mass, from the viewpoint of improving aftertaste sharpness. %, More preferably 0.007% by weight, especially 0.01% by weight, while the upper limit is 1% by weight, further 0.5% by weight, further 0.1% by weight, in particular 0.05% by weight. It is preferable.
In addition, when (D) sucralose is included as a sweetener, (A) the mass ratio of (D) sweetener (sucralose) to non-polymer catechins [(D) / (A)] improves sharpness of aftertaste. From this viewpoint, the lower limit is preferably 0.01, more preferably 0.03, further 0.05, and particularly preferably 0.1, while the upper limit is 1, further 0.8, further 0.5, especially 0.3. It is preferable that

本発明の容器詰飲料には、必要により、酸化防止剤、香料、有機酸類、有機酸塩類、無機酸類、無機酸塩類、無機塩類、色素類、乳化剤、保存料、調味料、甘味料、酸味料、ガム、油、ビタミン、アミノ酸、果汁エキス類、野菜エキス類、花蜜エキス類、pH調整剤、品質安定剤等の添加剤を単独で、あるいは併用して配合してもよい。   In the case of the packaged beverage of the present invention, an antioxidant, a fragrance, an organic acid, an organic acid salt, an inorganic acid, an inorganic acid salt, an inorganic salt, a pigment, an emulsifier, a preservative, a seasoning, a sweetener, and an acidity are necessary. Additives such as ingredients, gums, oils, vitamins, amino acids, fruit juice extracts, vegetable extracts, nectar extracts, pH adjusters and quality stabilizers may be used alone or in combination.

本発明の容器詰飲料のpH(20℃)は、風味及び非重合体カテキン類の安定性の観点から、2〜7、更に2.5〜6.5、特に3〜6であることが好ましい。pHを調整するには、有機酸類、無機酸類、酸味料、pH調整剤等を用いることができる。   The pH (20 ° C.) of the packaged beverage of the present invention is preferably 2 to 7, more preferably 2.5 to 6.5, and particularly preferably 3 to 6 from the viewpoints of flavor and stability of non-polymer catechins. . In order to adjust the pH, organic acids, inorganic acids, acidulants, pH adjusters and the like can be used.

本発明の容器詰飲料は、ポリエチレンテレフタレートを主成分とする成形容器(いわゆるPETボトル)、金属缶、金属箔やプラスチックフィルムと複合された紙容器、瓶等の通常の包装容器に充填して提供することができる。   The container-packed beverage of the present invention is provided by filling a normal packaging container such as 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, or a bottle. can do.

また、本発明の容器詰飲料は、例えば、金属缶のような容器に充填後、加熱殺菌できる場合にあっては適用されるべき法規(日本にあっては食品衛生法)に定められた殺菌条件で製造できる。PETボトル、紙容器のようにレトルト殺菌できないものについては、あらかじめ上記と同等の殺菌条件、例えばプレート式熱交換器などで高温短時間殺菌後、一定の温度迄冷却して容器に充填する等の方法が採用できる。また無菌下で、充填された容器に別の成分を配合して充填してもよい。さらに、酸性下で加熱殺菌後、無菌下でpHを中性に戻すことや、中性下で加熱殺菌後、無菌下でpHを酸性に戻すなどの操作も可能である。   In addition, the container-packed beverage of the present invention can be sterilized as stipulated by laws and regulations (Food Sanitation Law in Japan) if it can be heat-sterilized after filling into a container such as a metal can. Can be manufactured under certain conditions. For PET bottles and paper containers that cannot be sterilized by retort, sterilize under the same conditions as above, for example, after sterilizing at high temperature and short time with a plate heat exchanger, etc. The method can be 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 can be returned to neutrality under aseptic conditions, or after sterilization by heating under neutral conditions, the pH can be returned to acidic conditions under aseptic conditions.

(1)非重合体カテキン類及びカフェインの測定
試料溶液をフィルター(0.45μm)で濾過し、高速液体クロマトグラフ(型式SCL−10AVP、島津製作所製)を用い、オクタデシル基導入液体クロマトグラフ用パックドカラムL−カラムTM ODS(4.6mmφ×250mm:財団法人 化学物質評価研究機構製)を装着し、カラム温度35℃でグラジエント法により分析した。移動相A液は酢酸を0.1mol/L含有する蒸留水溶液、移動相B液は酢酸を0.1mol/L含有するアセトニトリル溶液とし、試料注入量は20μL、UV検出器波長は280nmの条件で行った。
(1) Measurement of non-polymer catechins and caffeine The sample solution is filtered with a filter (0.45 μm) and used for an octadecyl group-introduced liquid chromatograph using a high performance liquid chromatograph (model SCL-10AVP, manufactured by Shimadzu Corporation). A packed column L-column TM ODS (4.6 mmφ × 250 mm: manufactured by Chemical Substance Evaluation Research Organization) was attached, and analysis was performed at a column temperature of 35 ° C. by a gradient method. The mobile phase A solution is a distilled aqueous solution containing 0.1 mol / L of acetic acid, the mobile phase B solution is an acetonitrile solution containing 0.1 mol / L of acetic acid, the sample injection volume is 20 μL, and the UV detector wavelength is 280 nm. went.

(2)フラボノール配糖体の測定
試料溶液をフィルター(0.45μm)で濾過し、高速液体クロマトグラフ(型式Waters2695、WATERS製)を用い、カラムはShimpach VP ODS(150×4.6mmI.D.)を装着し、カラム温度40℃でグラディエント法により行った。移動相C液はリン酸を0.05%含有する蒸留水溶液、移動相D液はメタノール溶液とし、流速は1mL/L、試料注入量は10μL、UV検出器波長は368nmの条件で行った。なお、グラディエントの条件は、以下のとおりである。
(2) Measurement of flavonol glycoside The sample solution was filtered with a filter (0.45 μm), and a high-performance liquid chromatograph (model Waters 2695, manufactured by WATERS) was used, and the column was Shimpach VP ODS (150 × 4.6 mm ID). And a gradient method at a column temperature of 40 ° C. The mobile phase C solution was a distilled aqueous solution containing 0.05% phosphoric acid, the mobile phase D solution was a methanol solution, the flow rate was 1 mL / L, the sample injection amount was 10 μL, and the UV detector wavelength was 368 nm. The gradient conditions are as follows.

時間(分) C液濃度(体積%) D液濃度(体積%)
0 95% 5%
20 80% 20%
40 30% 70%
41 0% 100%
46 0% 100%
47 95% 5%
60 95% 5%
Time (min) Concentration of liquid C (volume%) Concentration of liquid D (volume%)
0 95% 5%
20 80% 20%
40 30% 70%
4 10% 100%
460% 100%
47 95% 5%
60 95% 5%

(3)後味のキレの評価
実施例1〜4、比較例1〜2及び参考例1で得られた精製茶抽出物40mLを50mLの耐圧製ガラス容器に入れた。そこにアスコルビン酸ナトリウムを0.1質量%添加し、5質量%炭酸水素ナトリウム水溶液でpHを6.4に調整し、窒素置換を行い、オートクレーブで121℃、10分間加熱滅菌した。このようにして調製された容器詰茶系飲料、実施例11〜19及び比較例11〜12で得られた容器詰非茶系飲料の後味のキレについて、専門パネル4名による官能試験を行った。官能試験は、飲用直後の後味のキレを下記の基準で評価し、パネルの評点の平均値をもって評価値とした。
(3) Evaluation of aftertaste sharpness 40 mL of the purified tea extract obtained in Examples 1 to 4, Comparative Examples 1 to 2 and Reference Example 1 was placed in a 50 mL pressure-resistant glass container. Thereto was added 0.1% by mass of sodium ascorbate, pH was adjusted to 6.4 with a 5% by mass aqueous sodium hydrogen carbonate solution, nitrogen substitution was performed, and the mixture was sterilized by heating at 121 ° C. for 10 minutes in an autoclave. A sensory test was conducted by four specialist panels on the aftertaste of the container-packed tea beverages prepared in this way, Examples 11-19 and Comparative Examples 11-12, and the container-packed non-tea beverages. . In the sensory test, the aftertaste sharpness immediately after drinking was evaluated according to the following criteria, and the average value of the panel scores was used as the evaluation value.

評点5:後味にキレを強く感じる。
4:後味にキレを感じる。
3:後味にキレをやや弱く感じる。
2:後味にキレを弱く感じる。
1:後味にキレがない。
Score 5: Sharply felt aftertaste.
4: Feels sharp aftertaste.
3: Feels slightly weak aftertaste.
2: Feels weak in aftertaste.
1: There is no sharpness in the aftertaste.

製造例1
緑茶葉(ケニア産、大葉種)3kgに88℃の熱水45kgを添加し、60分間攪拌バッチ抽出したのち、100メッシュ金網で粗ろ過後、抽出物中の微粉を除去するために遠心分離操作を行い、「緑茶抽出物」37.2kg(pH5.4)を得た。得られた緑茶抽出物は、非重合体カテキン類濃度が0.89質量%、非重合体カテキン類中のガレート体率が52.3質量%、カフェイン濃度が0.17質量%であった。
この緑茶抽出物を温度15℃に保持し、タンナーゼ(タンナーゼKTFH、Industrial Grade、500U/g以上、キッコーマン社製)を緑茶抽出物に対して430ppmとなる濃度で添加し、55分間保持し、ガレート体率が30.5質量%になったところで、90℃に溶液を加熱して、2分間保持し酵素を失活させ、反応を止めた(pH5.1)。次いで、70℃、6.7kPaの条件下で、減圧濃縮でBrix濃度20%まで濃縮処理を行い、更に噴霧乾燥して粉末状の「タンナーゼ処理した緑茶抽出物」0.9kgを得た。得られた緑茶抽出物は、非重合体カテキン類濃度が27.8質量%、非重合体カテキン類中のガレート体率が30.3質量%、カフェイン濃度が6.74質量%であった。「タンナーゼ処理した緑茶抽出物」285gを、イオン交換水8550gに25℃で30分間攪拌溶解した(タンナーゼ処理液)。
Production Example 1
Add 45 kg of hot water of 88 ° C to 3 kg of green tea leaves (Kenya, large leaf), extract with stirring batch for 60 minutes, then roughly filter with 100 mesh wire mesh, then centrifuge to remove fine powder in the extract To obtain 37.2 kg of “green tea extract” (pH 5.4). The resulting green tea extract had a non-polymer catechin concentration of 0.89% by mass, a gallate content in the non-polymer catechins of 52.3% by mass, and a caffeine concentration of 0.17% by mass. .
This green tea extract is kept at a temperature of 15 ° C., tannase (Tannase KTFH, Industrial Grade, 500 U / g or more, manufactured by Kikkoman) is added at a concentration of 430 ppm with respect to the green tea extract, held for 55 minutes, and gallate When the volume ratio reached 30.5% by mass, the solution was heated to 90 ° C. and held for 2 minutes to inactivate the enzyme, thereby stopping the reaction (pH 5.1). Subsequently, concentration treatment was performed under reduced pressure concentration to a Brix concentration of 20% under conditions of 70 ° C. and 6.7 kPa, and spray drying was performed to obtain 0.9 kg of a powdered “tannase-treated green tea extract”. The obtained green tea extract had a non-polymer catechin concentration of 27.8% by mass, a gallate content in the non-polymer catechins of 30.3% by mass, and a caffeine concentration of 6.74% by mass. . 285 g of “tannase-treated green tea extract” was dissolved in 8550 g of ion-exchanged water with stirring at 25 ° C. for 30 minutes (tannase-treated solution).

次いで、ステンレスカラム1(内径110mm×高さ230mm、容積2185mL)に合成吸着剤(セパビーズSP−70、三菱化学(株)製)を2209mL充填した。ステンレスカラム2(内径38mm×高さ770mm、容積877.4mL)にイオン交換樹脂(ダイアイオンSK1BH、三菱化学(株)製)を852mL充填した。予め両カラム共にSV=5(h-1)で95%(v/v)エタノールを4倍容積量(対充填樹脂)通液後、水を10倍容積量(対充填樹脂)通液して洗浄した。その後、得られたタンナーゼ処理液8835g(4倍容積対合成吸着剤)をSV=1(h-1)でカラム1に通液し透過液を廃棄した。次いで、SV=2(h-1)で2209mL(1倍容積対合成吸着剤)の水で洗浄した。水洗後、0.1質量%水酸化ナトリウム水溶液(pH12.4)をSV=5(h-1)で13256mL通液した(6倍容積対合成吸着剤)。溶出液は連続でカラム2に通液して、脱イオンを行い、緑茶抽出物13080g(pH3.3)を得た。この緑茶抽出物は、非重合体カテキン類濃度が0.38質量%、非重合体カテキン類中のガレート体率が28.6質量%、カフェイン濃度が0質量%であった。茶抽出物の固形分中の非重合体カテキン類濃度が69.0質量%であった。更に40℃、2.6kPa条件で減圧濃縮して非重合体カテキン類濃度6質量%(濁度208NTU)まで濃縮した。次いで、0.8μmのセルロースアセテート膜(ADVANTEC:C080A090C)を通過させ、懸濁物と固液分離して「樹脂処理品1」(濁度1.5NTU)を得た。 Next, 2209 mL of a synthetic adsorbent (Separbeads SP-70, manufactured by Mitsubishi Chemical Corporation) was packed in the stainless steel column 1 (inner diameter 110 mm × height 230 mm, volume 2185 mL). Stainless steel column 2 (inner diameter 38 mm × height 770 mm, volume 877.4 mL) was charged with 852 mL of ion exchange resin (Diaion SK1BH, manufactured by Mitsubishi Chemical Corporation). In both columns, SV = 5 (h −1 ) and 95% (v / v) ethanol through 4 times volume (vs. packed resin), and then 10 times volume (vs. filled resin) of water. Washed. Thereafter, 8835 g of the tannase treatment solution (4 volumes vs. synthetic adsorbent) was passed through the column 1 at SV = 1 (h −1 ), and the permeate was discarded. It was then washed with 2209 mL (1 volume vs. synthetic adsorbent) of water at SV = 2 (h −1 ). After washing with water, 13256 mL of 0.1 mass% sodium hydroxide aqueous solution (pH 12.4) was passed through at SV = 5 (h −1 ) (6 times volume vs. synthetic adsorbent). The eluate was continuously passed through column 2 for deionization to obtain 13080 g (pH 3.3) of green tea extract. This green tea extract had a non-polymer catechin concentration of 0.38% by mass, a gallate content in the non-polymer catechins of 28.6% by mass, and a caffeine concentration of 0% by mass. The concentration of non-polymer catechins in the solid content of the tea extract was 69.0% by mass. Furthermore, it concentrated under reduced pressure on 40 degreeC and 2.6 kPa conditions, and concentrated to the non-polymer catechin density | concentration of 6 mass% (turbidity 208NTU). Subsequently, it passed through a 0.8 μm cellulose acetate membrane (ADVANTEC: C080A090C), and was subjected to solid-liquid separation from the suspension to obtain “resin-treated product 1” (turbidity 1.5 NTU).

次いで、ステンレスカラム3(内径22mm×高さ145mm、容積55.1mL)に粒状活性炭(太閤SGP、フタムラ化学(株)製)を6.5g充填した。「樹脂処理品1」を非重合体カテキン類濃度4質量%で且つエタノール濃度20質量%となるように調製し、その267gをSV=2(h-1)でカラム3に通液した(活性炭の量は非重合体カテキン類の量に対して0.6)。続けて0.2μmメンブランフィルターによってろ過を行った。最後にイオン交換水50gを添加して、40℃、2.7kPaの条件でエタノールを留去し、その後、水分量を調整して緑茶抽出物(2.1NTU)を得た。この精製処理後の緑茶抽出物は、非重合体カテキン類濃度が13.7質量%、非重合体カテキン類中のガレート体率が23.5質量%、カフェイン濃度が0質量%、固形分中の非重合体カテキン類濃度が79.6質量%であった。この緑茶抽出物の精製物を「非重合体カテキン類A」とした。 Next, 6.5 g of granular activated carbon (Taiko SGP, manufactured by Futamura Chemical Co., Ltd.) was packed in the stainless steel column 3 (inner diameter 22 mm × height 145 mm, volume 55.1 mL). “Resin treatment product 1” was prepared so that the concentration of non-polymer catechins was 4% by mass and the ethanol concentration was 20% by mass, and 267 g thereof was passed through column 3 at SV = 2 (h −1 ) (activated carbon Is 0.6) relative to the amount of non-polymer catechins. Subsequently, filtration was performed with a 0.2 μm membrane filter. Finally, 50 g of ion-exchanged water was added, ethanol was distilled off under conditions of 40 ° C. and 2.7 kPa, and then the water content was adjusted to obtain a green tea extract (2.1 NTU). The green tea extract after the purification treatment has a non-polymer catechin concentration of 13.7% by mass, a gallate content in the non-polymer catechins of 23.5% by mass, a caffeine concentration of 0% by mass, and a solid content. The concentration of non-polymer catechins in the mixture was 79.6% by mass. The purified product of this green tea extract was designated as “Non-polymer catechins A”.

製造例2
緑茶抽出物の濃縮物としてポリフェノンHG(三井農林(株)製)100gを95.0質量%エタノール水溶液900gに分散させ、30分熟成し、2号濾紙及び孔径0.2μmの濾紙で濾過し、イオン交換水200mLを加えて減圧濃縮を行った。このうち75.0gをステンレス容器に投入し、イオン交換水で全量を1,000gとし、5質量%重曹水溶液3.0gを添加してpH5.5に調整した。次いで、22℃、150r/minの攪拌条件下で、イオン交換水1.07g中にタンナーゼ(タンナーゼKTFH、Industrial Grade、500U/g以上、キッコーマン社製)0.27g(非重合体カテキン類に対して2.4%)を溶解した液を添加し、55分後にpHが4.24に低下した時点で酵素反応を終了した。次いで95℃の温浴にステンレス容器を浸漬し、90℃、10分間保持して酵素活性を完全に失活した後、25℃まで冷却した後に濃縮処理を行い、緑茶抽出物を得た。精製処理後の緑茶抽出物は、非重合体カテキン類が15.0質量%、カフェイン/非重合体カテキン類が0.017、非重合体カテキン類中のガレート体率が44%、固形分中の非重合体カテキン類濃度が61.6質量%であった。この緑茶抽出物の精製物を「非重合体カテキン類B」とした。
Production Example 2
As a green tea extract concentrate, 100 g of polyphenone HG (manufactured by Mitsui Norin Co., Ltd.) was dispersed in 900 g of a 95.0 mass% ethanol aqueous solution, aged for 30 minutes, filtered through No. 2 filter paper and 0.2 μm pore size filter paper, 200 mL of ion-exchanged water was added and concentrated under reduced pressure. Of these, 75.0 g was put into a stainless steel container, and the total amount was adjusted to 1,000 g with ion-exchanged water, and adjusted to pH 5.5 by adding 3.0 g of a 5 mass% sodium bicarbonate aqueous solution. Subsequently, under stirring conditions of 22 ° C. and 150 r / min, 0.27 g of tannase (tannase KTFH, Industrial Grade, 500 U / g or more, manufactured by Kikkoman) in 1.07 g of ion-exchanged water (based on non-polymer catechins) 2.4%) was added, and the enzyme reaction was terminated when the pH dropped to 4.24 55 minutes later. Next, the stainless steel container was immersed in a warm bath at 95 ° C. and kept at 90 ° C. for 10 minutes to completely deactivate the enzyme activity. After cooling to 25 ° C., concentration treatment was performed to obtain a green tea extract. The green tea extract after the purification treatment is 15.0% by mass of non-polymer catechins, 0.017 of caffeine / non-polymer catechins, 44% gallate content in non-polymer catechins, solid content The concentration of non-polymer catechins in the mixture was 61.6% by mass. The purified product of this green tea extract was designated as “non-polymer catechins B”.

実施例1
「非重合体カテキン類A」の非重合体カテキン類濃度が0.175質量%となるようにイオン交換水で希釈した後、この溶液に質量比[(C)/(A)]が表1に示す割合になるようにフラボノール配糖体含有製剤(サンメリンAO−3000、酵素処理イソクエルシトリン15%、三栄源エフ・エフ・アイ(株)製)を添加した。そして、得られた精製緑茶抽出物について、成分分析及び官能試験を行った。その結果を表1に示す。
Example 1
After dilution with ion-exchanged water so that the concentration of the non-polymer catechins of “non-polymer catechins A” is 0.175% by mass, the mass ratio [(C) / (A)] is shown in Table 1. A flavonol glycoside-containing preparation (Sammelin AO-3000, enzyme-treated isoquercitrin 15%, manufactured by San-Ei Gen FFI Co., Ltd.) was added so that the ratio shown in FIG. And the component analysis and the sensory test were done about the obtained refined green tea extract. The results are shown in Table 1.

実施例2
フラボノール配糖体含有製剤(サンメリンAO−3000、酵素処理イソクエルシトリン15%、三栄源エフ・エフ・アイ(株)製)の配合量を変更したこと以外は、実施例1と同様の操作により精製緑茶抽出物を調製した。そして、得られた精製緑茶抽出物について、成分分析及び官能試験を行った。その結果を表1に示す。
Example 2
By the same operation as in Example 1, except that the blending amount of the flavonol glycoside-containing preparation (Sammelin AO-3000, enzyme-treated isoquercitrin 15%, Saneigen FFI Co., Ltd.) was changed. A purified green tea extract was prepared. And the component analysis and the sensory test were done about the obtained refined green tea extract. The results are shown in Table 1.

実施例3
フラボノール配糖体含有製剤の種類(αGルチン、酵素処理ルチン42%、東洋精糖(株)製)、及びその配合量を変更したこと以外は、実施例1と同様の操作により精製緑茶抽出物を調製した。そして、得られた精製緑茶抽出物について、成分分析及び官能試験を行った。その結果を表1に示す。
Example 3
The purified green tea extract was prepared in the same manner as in Example 1, except that the type of flavonol glycoside-containing preparation (αG rutin, 42% enzyme-treated rutin, manufactured by Toyo Seika Co., Ltd.) and the blending amount thereof were changed. Prepared. And the component analysis and the sensory test were done about the obtained refined green tea extract. The results are shown in Table 1.

実施例4
「非重合体カテキン類B」と、「非重合体カテキン類A」を非重合体カテキン類濃度がそれぞれ0.0875質量%となるように混合し、イオン交換水で希釈した。次に、この溶液に質量比[(C)/(A)]が表1に示す割合となるようにフラボノール配糖体含有製剤(サンメリンAO−3000、酵素処理イソクエルシトリン15%、三栄源エフ・エフ・アイ(株)製)を添加した。そして、得られた精製緑茶抽出物について、成分分析及び官能試験を行った。その結果を表1に示す。
Example 4
“Non-polymer catechins B” and “non-polymer catechins A” were mixed so that the concentration of non-polymer catechins was 0.0875 mass%, respectively, and diluted with ion-exchanged water. Next, a flavonol glycoside-containing preparation (Sammelin AO-3000, enzyme-treated isoquercitrin 15%, San-Eigen F so that the mass ratio [(C) / (A)] is in the ratio shown in Table 1) -F eye Co., Ltd.) was added. And the component analysis and the sensory test were done about the obtained refined green tea extract. The results are shown in Table 1.

比較例1
非重合体カテキン類Aの非重合体カテキン類濃度が0.175質量%となるようにイオン交換水で希釈し、得られた精製緑茶抽出物について、成分分析及び官能試験を行った。その結果を表1に示す。
Comparative Example 1
The non-polymer catechins A were diluted with ion-exchanged water so that the concentration of the non-polymer catechins was 0.175% by mass, and component analysis and sensory tests were performed on the purified green tea extract obtained. The results are shown in Table 1.

比較例2
フラボノール配糖体含有製剤をヘスペリジン糖付加物含有製剤(林原ヘスペリジンS、酵素処理ヘスペリジン75%、株式会社 林原生物化学研究所製)に換え、その配合量を0.01質量%としたこと以外は、実施例1と同様の操作により精製緑茶抽出物を調製した。そして、得られた精製緑茶抽出物について、成分分析及び官能試験を行った。その結果を表1に示す。
Comparative Example 2
The flavonol glycoside-containing preparation was replaced with a hesperidin sugar adduct-containing preparation (Hayashibara Hesperidin S, enzyme-treated hesperidin 75%, manufactured by Hayashibara Biochemical Laboratories Co., Ltd.), and the blending amount was 0.01% by mass. A purified green tea extract was prepared in the same manner as in Example 1. And the component analysis and the sensory test were done about the obtained refined green tea extract. The results are shown in Table 1.

参考例1
フラボノール配糖体含有製剤をカフェインに変更したこと以外は、実施例1と同様の操作により精製緑茶抽出物を調製した。そして、得られた精製緑茶抽出物について、成分分析及び官能試験を行った。その結果を表1に示す。
Reference example 1
A purified green tea extract was prepared in the same manner as in Example 1 except that the flavonol glycoside-containing preparation was changed to caffeine. And the component analysis and the sensory test were done about the obtained refined green tea extract. The results are shown in Table 1.

Figure 0005399864
Figure 0005399864

表1から、「非重合体カテキン類A」の後味のキレが感じられなくなる要因がカフェイン含量の低減に起因することが確認された(比較例1及び参考例1)。そして、カフェイン含量を低減した精製茶抽出物に、ヘスペリジン糖付加物を配合しても後味のキレは全く改善されないが(比較例2)、本発明の風味改善剤を配合することで後味のキレが顕著に改善されることがわかった(実施例1〜4)。   From Table 1, it was confirmed that the cause that the aftertending sharpness of “non-polymer catechins A” is not felt is due to the reduction of the caffeine content (Comparative Example 1 and Reference Example 1). And even if hesperidin sugar adduct is added to the purified tea extract with a reduced caffeine content, the aftertaste is not improved at all (Comparative Example 2), but by adding the flavor improver of the present invention, the aftertaste is improved. It was found that sharpness was remarkably improved (Examples 1 to 4).

実施例11〜19及び比較例11〜12
表2に示す割合の各成分を配合し、次いで超高温短時間殺菌(UHT殺菌、98℃、30秒)して透明PETボトルに充填し容器詰飲料を調製した。次いで、得られた容器詰飲料について、成分分析及び官能試験を行った。その結果を表2に示す。
Examples 11-19 and Comparative Examples 11-12
Each component of the ratio shown in Table 2 was mix | blended, then, ultrahigh temperature sterilization for a short time (UHT sterilization, 98 degreeC, 30 second) was filled in the transparent PET bottle, and the container-packed drink was prepared. Subsequently, component analysis and a sensory test were performed about the obtained container-packed drink. The results are shown in Table 2.

Figure 0005399864
Figure 0005399864

表2から、非重合体カテキン類及びフラボノール配糖体の各濃度を一定に制御することで、高濃度の非重合体カテキン類を含有するにも拘わらず、後味のキレが改善されることが確認された。また、甘味料としてスクラロースを含有せしめることで、後味のキレが顕著に改善されることが分かった。   From Table 2, by controlling each concentration of non-polymer catechins and flavonol glycosides to be constant, sharpness of aftertaste can be improved despite containing a high concentration of non-polymer catechins. confirmed. Moreover, it turned out that the sharpness of aftertaste is remarkably improved by containing sucralose as a sweetener.

Claims (5)

次の成分(A)、(B)及び(C);
(A)非重合体カテキン類:0.05〜3質量%
(B)カフェイン、及び
(C)下記一般式(1);
Figure 0005399864
(式中、R1〜R7はそれぞれ独立に水素原子、水酸基又はメトキシ基を示し、Raはβ−グルコシル基又はβ−ラムノシル基を示し、Rbはα−ラムノシル基又は水素原子を示し、Rcはα−グルコシル基を示し、nは0〜10の整数を示す。)
で表されるフラボノール配糖体の少なくとも1種:0.001〜0.2質量%
を含有し、
成分(A)と成分(B)との含有質量比[(B)/(A)]が0.02以下である、容器詰飲料。
The following components (A) , (B) and (C);
(A) Non-polymer catechins: 0.05 to 3% by mass
(B) caffeine, and (C) the following general formula (1);
Figure 0005399864
(In the formula, R 1 to R 7 each independently represents a hydrogen atom, a hydroxyl group or a methoxy group, R a represents a β-glucosyl group or β-rhamnosyl group, and R b represents an α-rhamnosyl group or a hydrogen atom. , R c represents an α-glucosyl group, and n represents an integer of 0 to 10.)
At least one flavonol glycoside represented by the formula: 0.001 to 0.2% by mass
Containing
Container-packed drink whose content mass ratio [(B) / (A)] of a component (A) and a component (B) is 0.02 or less.
成分(A)と成分(C)との含有質量比[(C)/(A)]が0.001〜0.8である、請求項記載の容器詰飲料。 Component (A) and the content mass ratio of the component (C) [(C) / (A)] is 0.001 to 0.8, according to claim 1 packaged beverage according. 成分(D)として甘味料を含有する、請求項又は記載の容器詰飲料。 The container-packed drink of Claim 1 or 2 containing a sweetener as a component (D). 成分(D)がスクラロースである、請求項記載の容器詰飲料。 The container-packed drink of Claim 3 whose component (D) is sucralose. 成分(A)と成分(D)との含有質量比[(D)/(A)]が0.01〜1である、請求項記載の容器詰飲料。 The container-packed drink of Claim 4 whose containing mass ratio [(D) / (A)] of a component (A) and a component (D) is 0.01-1.
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