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JP5216629B2 - Container drink - Google Patents

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JP5216629B2
JP5216629B2 JP2009044498A JP2009044498A JP5216629B2 JP 5216629 B2 JP5216629 B2 JP 5216629B2 JP 2009044498 A JP2009044498 A JP 2009044498A JP 2009044498 A JP2009044498 A JP 2009044498A JP 5216629 B2 JP5216629 B2 JP 5216629B2
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container
extract
polymer catechins
mass
tea
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JP2010193831A (en
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幸司 花岡
英之 高津
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Kao Corp
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Description

本発明は、高濃度の非重合体カテキン類を含有し、かつ香味豊かで風味の良好な容器詰飲料に関する。   The present invention relates to a packaged beverage containing a high concentration of non-polymer catechins, rich in flavor and having a good flavor.

消費者の嗜好の多様化や健康志向の高揚により茶飲料の需要が拡大し、多種多様の商品が上市されている中で、複数の茶葉や穀物を原料とする混合茶飲料が注目されている。このような混合茶飲料は、例えば、緑茶葉と、麦類や玄米等の穀物を原料とし、焙煎した穀物と、緑茶葉を順に抽出用水に投入し抽出して製造することができる(特許文献1)。   As the demand for tea drinks is expanding due to diversification of consumer preferences and health-conscious enhancements, and a wide variety of products are on the market, mixed tea drinks made from multiple tea leaves and grains are drawing attention. . Such a mixed tea beverage can be produced by, for example, using green tea leaves and grains such as wheat and brown rice as raw materials, and sequentially adding the roasted grains and green tea leaves to extraction water (patent) Reference 1).

特開2003−310160号公報JP 2003-310160 A

しかしながら、従来の混合茶飲料においては、緑茶由来の渋味や苦味が強く感じられたり、穀物由来の焦げ臭が強く感じられることがあった。また、カテキン類を高濃度に配合すると、緑茶由来の渋味や苦味が増強されて穀物由来の香ばしさが弱められ風味が損なわれることがあった。このように、従来の混合茶飲料においては、緑茶由来の渋味や苦味と、穀物由来の香ばしさとのバランスが十分ではなく、改善の余地がある。   However, in conventional mixed tea beverages, green tea-derived astringency and bitterness may be strongly felt, and grain-derived burnt odor may be strongly felt. Further, when catechins are blended at a high concentration, the astringency and bitterness derived from green tea are enhanced, and the flavor derived from grains is weakened and the flavor may be impaired. Thus, in the conventional mixed tea beverage, the balance between the astringency and bitterness derived from green tea and the flavor derived from cereals is not sufficient, and there is room for improvement.

そこで本発明者らは、穀物の持ち味を十分に生かすべく、各原料に含まれる成分、呈味及び香味について検討したところ、緑茶抽出物及び穀物に含まれる特定成分を特定濃度に調整して含有せしめることで、香味豊かでかつ風味の良好な高濃度非重合体カテキン類含有容器詰飲料が得られることを見出した。   Therefore, the present inventors examined the ingredients, taste and flavor contained in each raw material in order to make full use of the taste of the grains, and contained the green tea extract and the specific ingredients contained in the grains adjusted to a specific concentration. It was found that a container-packed beverage containing high-concentration non-polymer catechins having a rich flavor and good flavor can be obtained by letting it squeeze.

すなわち、本発明は、次の成分(A)及び(B):
(A)非重合体カテキン類:0.05〜0.6質量%
(B)でんぷん
を含み、飲料100g当たりの(B)でんぷんの含有量が29〜160mgである、容器詰飲料を提供するものである。
That is, the present invention includes the following components (A) and (B):
(A) Non-polymer catechins: 0.05 to 0.6% by mass
(B) The container-packed drink which contains starch and whose content of (B) starch per 100g of drinks is 29-160 mg is provided.

本発明の容器詰飲料は、高濃度の非重合体カテキン類を含有しているにも拘らず、苦味、渋味が低減され、穀物由来の香味が豊かでかつ風味が良好である。   Although the packaged beverage of the present invention contains a high concentration of non-polymer catechins, the bitterness and astringency are reduced, the flavor derived from grains is rich, and the flavor is good.

本発明において「(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。   In the present invention, “(A) non-polymer catechins” refers to non-epimeric catechins such as catechin, gallocatechin, catechin gallate and gallocatechin gallate, epicatechin, epigallocatechin, epicatechin gallate and epigallocatechin gallate. In other words, the concentration of non-polymer catechins is defined based on the total amount of the above eight types.

本発明において「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の割合」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数値である。   In the present invention, the “gallate form of non-polymer catechins” is a general term for catechin gallate, gallocatechin gallate, epicatechin gallate and epigallocatechin gallate. The “ratio of gallate body in non-polymer catechins” is the total mass of gallate bodies of these 4 types of non-polymer catechins expressed as a percentage of the total mass of 8 non-polymer catechins. It is a numerical value.

本発明の容器詰飲料は、(A)非重合体カテキン類を0.05〜0.6質量%含有するが、0.07〜0.5質量%、更に0.08〜0.4質量%、特に0.09〜0.3質量%含有することが好ましい。これにより、多量の非重合体カテキン類を容易に摂取しやすくなり、また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。
このように、本発明の容器詰飲料は、高濃度の非重合体カテキン類を含有するものであるが、このような容器詰飲料は、茶抽出物を配合し非重合体カテキン類濃度を調整して得ることができる。
The container-packed beverage of the present invention contains (A) 0.05 to 0.6% by mass of non-polymer catechins, but is 0.07 to 0.5% by mass, and further 0.08 to 0.4% by mass. In particular, the content is preferably 0.09 to 0.3% by mass. Thereby, a large amount of non-polymer catechins can be easily ingested, and the physiological effect of the non-polymer catechins can be sufficiently expected.
Thus, the container-packed beverage of the present invention contains a high concentration of non-polymer catechins, but such a container-packed beverage is blended with tea extract to adjust the concentration of non-polymer catechins. Can be obtained.

本発明の容器詰飲料に配合される茶抽出物としては、不発酵茶、半発酵茶及び発酵茶から選択される茶葉から熱水又は水溶性有機溶媒を用いてニーダー抽出やカラム抽出等により抽出したものが挙げられる。茶抽出物としては、非重合体カテキン類濃度の点から、緑茶抽出物が好ましい。   The tea extract blended in the container-packed beverage of the present invention is extracted from tea leaves selected from non-fermented tea, semi-fermented tea and fermented tea by kneader extraction or column extraction using hot water or a water-soluble organic solvent. The thing which was done is mentioned. The tea extract is preferably a green tea extract from the viewpoint of the concentration of non-polymer catechins.

茶抽出物として、茶葉から抽出した抽出物の代わりに、茶抽出物の濃縮物を配合してもよく、更に茶葉から抽出した抽出物と茶抽出物の濃縮物を併用してもよい。ここで、茶抽出物の濃縮物とは、茶葉から熱水又は水溶性有機溶媒により抽出した溶液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であり、その形態としては、固体、水溶液、スラリー状等の種々のものが挙げられる。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。
茶抽出物としては、固形分中に非重合体カテキン類を30〜60質量%、更に35〜60、特に40〜60質量%含有するものが好ましく、また(D)タンニンに対する(A)非重合体カテキン類の含有質量比[(A)/(D)]が0.8〜1.0、更に0.9〜1.0、特に0.95〜1.0であるものが好ましい。
As the tea extract, instead of the extract extracted from tea leaves, a concentrate of tea extract may be blended, and further, the extract extracted from tea leaves and the concentrate of tea extract may be used in combination. Here, the concentrate of tea extract is obtained by partially removing the solvent from a solution extracted from tea leaves with hot water or a water-soluble organic solvent to increase the concentration of non-polymer catechins. , Solid, aqueous solution, slurry, 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.
As the tea extract, those containing 30 to 60% by mass, more preferably 35 to 60%, particularly 40 to 60% by mass of non-polymer catechins in the solid content are preferable. It is preferable that the combined catechins have a mass ratio [(A) / (D)] of 0.8 to 1.0, more preferably 0.9 to 1.0, and particularly 0.95 to 1.0.

また、本発明の容器詰飲料は、(A)非重合体カテキン類中のガレート体の割合が15〜40質量%、更に20〜40質量%、特に25〜35質量%であることが、苦味及び渋味抑制の観点から好ましい。
容器詰飲料中の(A)非重合体カテキン類中のガレート体の割合を上記範囲内にするには、例えば、下記(i)又は(ii)の方法により処理した茶抽出物を配合すればよいが、苦味及び渋味抑制の観点から(ii)の方法で処理した茶抽出物を配合することが好ましい。
Moreover, the container-packed drink of this invention is bitterness that the ratio of the gallate body in (A) non-polymer catechins is 15-40 mass%, Furthermore, 20-40 mass%, Especially 25-35 mass%. And it is preferable from a viewpoint of astringency suppression.
In order to make the ratio of the gallate body in the (A) non-polymer catechins in the packaged beverage within the above range, for example, if a tea extract processed by the following method (i) or (ii) is blended Although it is good, it is preferable to mix | blend the tea extract processed by the method of (ii) from a viewpoint of bitterness and astringency suppression.

(i)茶抽出物をタンナーゼ処理する方法(例えば、特開2004−321105号公報)。
(ii)茶抽出物をタンナーゼ処理し、次いで活性炭、酸性白土及び活性白土から選ばれる少なくとも1種の吸着剤と接触処理する方法。この場合、接触処理前に、必要によりタンナーゼ処理後の茶抽出物を、水又は水と水溶性有機溶媒(例えば、アルコール)との混合液で抽出してもよい(例えば、特開2004−147508号、国際公開第07/122817号パンフレット、国際公開第07/122818号パンフレット)。
(I) A method for tannase treatment of tea extract (for example, JP-A No. 2004-321105).
(Ii) A method in which the tea extract is tannase-treated and then contact-treated with at least one adsorbent selected from activated carbon, acid clay and activated clay. In this case, before the contact treatment, if necessary, the tea extract after the tannase treatment may be extracted with water or a mixed solution of water and a water-soluble organic solvent (for example, alcohol) (for example, Japanese Patent Application Laid-Open No. 2004-147508). No., WO 07/122817 pamphlet, WO 07/122818 pamphlet).

上記(i)及び(ii)の方法においては、タンナーゼ処理により茶抽出物中の非重合体カテキン類のガレート体が加水分解して(C)没食子酸を生成するが、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)没食子酸の含有質量比[(C)/(A)]は、苦味及び渋味抑制の観点から、0.003〜0.04、更に0.007〜0.03、特に0.009〜0.02であることが好ましい。   In the above methods (i) and (ii), the gallate body of non-polymer catechins in the tea extract is hydrolyzed by tannase treatment to produce (C) gallic acid. The content mass ratio [(C) / (A)] of (C) gallic acid to (A) non-polymer catechins in the range is 0.003 to 0.04, more preferably 0, from the viewpoint of bitterness and astringency control. 0.007 to 0.03, and particularly preferably 0.009 to 0.02.

また、本発明の容器詰飲料は所定量の(B)でんぷんを含有するが、このような容器詰飲料は穀物から得られる抽出物を配合し、その濃度を調整して得ることができる。
本発明の容器詰飲料中の(B)でんぷんの含有量は、飲料100g当たり29〜160mgであるが、香味の観点から、40〜130mg、更に50〜110mg、特に60〜90mgであることが好ましい。本発明の容器詰飲料中の(B)でんぷん量の測定方法としては、具体的には、(財)日本食品分析センターの栄養成分分析の分析試験を利用することができる。
Moreover, although the container-packed drink of this invention contains a predetermined amount of (B) starch, such a container-packed drink can mix | blend the extract obtained from a grain, and can obtain it by adjusting the density | concentration.
The content of the (B) starch in the container-packed beverage of the present invention is 29 to 160 mg per 100 g of beverage, but from the viewpoint of flavor, it is preferably 40 to 130 mg, more preferably 50 to 110 mg, and particularly preferably 60 to 90 mg. . As a method for measuring the amount of (B) starch in the packaged beverage of the present invention, specifically, an analytical test for nutritional component analysis of the Japan Food Analysis Center can be used.

本発明の容器詰飲料に配合される穀物抽出物は、穀物から水又は熱水で抽出することにより得ることができるが、抽出方法としては茶抽出物と同様の方法を採用できる。
また、抽出に使用する穀物は、焙煎したものでも、α化処理したものでも、発芽させたものであってもよい。更に、穀物として、粉砕装置により粉砕したものを使用してもよい。
The cereal extract blended in the container-packed beverage of the present invention can be obtained by extracting water from the cereal with water or hot water. As the extraction method, the same method as the tea extract can be employed.
In addition, the grain used for extraction may be roasted, pre-gelatinized, or germinated. Furthermore, you may use what was grind | pulverized with the grinder as a grain.

焙煎条件は穀物の種類により適宜選択することができるが、例えば、焙煎温度は好ましくは180〜350℃、特に好ましくは200〜300℃であり、また焙煎時間は好ましくは10〜120分、特に好ましくは15〜60分である。なお、焙煎には、回転式焙煎機等の公知の装置を使用することができる。   The roasting conditions can be appropriately selected depending on the type of grain. For example, the roasting temperature is preferably 180 to 350 ° C, particularly preferably 200 to 300 ° C, and the roasting time is preferably 10 to 120 minutes. Especially preferably, it is 15 to 60 minutes. For the roasting, a known device such as a rotary roasting machine can be used.

本発明で使用する穀物としては、でんぷん質を主体とし、かつ食用可能な植物の種子であれば特に限定されるものではないが、香味の観点から、イネ科植物、マメ科植物及びタデ科植物から選択される少なくとも1種が好ましい。イネ科植物としては、例えば、大麦、ハト麦等の麦類、玄米等の米類、キビ、アワ、ヒエ、トウモロコシ等の雑穀類が挙げられる。また、マメ科植物としては、例えば、大豆、黒大豆、インゲン、小豆等のインゲン連、ソラマメ、エンドウ等のソラマメ連等の豆類が挙げられる。更に、タデ科植物としては、例えば、ソバ、ダッタンソバ等のソバ類が挙げられる。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。なお、2種以上を併用する場合、その配合割合は目的に応じて適宜選択することができる。中でも、香味の観点から、麦類、米類及び雑穀類から選択される少なくとも1種が好ましく、特に大麦、ハト麦及び玄米から選択される少なくとも1種が好ましい。   The cereal used in the present invention is not particularly limited as long as it is mainly a starchy substance and is an edible plant seed, but from the viewpoint of flavor, a grass plant, a legume plant, and a capaceae plant. At least one selected from is preferred. Examples of gramineous plants include barley such as barley and pigeon, rice such as brown rice, and millet such as millet, millet, millet and corn. Examples of legumes include beans such as kidney beans such as soybeans, black soybeans, green beans and red beans, and broad beans such as broad beans and peas. Furthermore, examples of the aceae plant include buckwheat such as buckwheat and tartary buckwheat. These can be used alone or in combination of two or more. In addition, when using 2 or more types together, the mixture ratio can be suitably selected according to the objective. Among these, from the viewpoint of flavor, at least one selected from wheat, rice and millet is preferable, and at least one selected from barley, pigeon and brown rice is particularly preferable.

また、本発明の容器詰飲料には、風味調整及び健康機能強化のために、上記以外の茶原料の抽出物を配合してもよい。このような茶原料としては、例えば、生薬、ハーブ等が挙げられる。具体的には、明日葉、アマチャヅル、イチョウ葉、ウコン、延命草、柿の葉、ギムネマ・シルベスタ、グアバ葉、桑の葉、甜葉、どくだみ、杜仲、ハスの葉、バナバ、ハブ茶、ビワの葉、マテ、ルイボスティー、キヌア、大麦若葉、チンピ、カモミール、ハイビスカス、ペパーミント、レモングラス、レモンピール、レモンバーム、ローズヒップ、ローズマリー等が挙げられる。   Moreover, you may mix | blend the extract of tea raw materials other than the above with the container-packed drink of this invention for flavor adjustment and health function enhancement. Examples of such tea ingredients include herbal medicines and herbs. Specifically, tomorrow leaves, candy leaves, ginkgo leaves, turmeric, life-saving grass, bamboo leaves, Gymnema sylvestre, guava leaves, mulberry leaves, bamboo leaves, dodomi, Tochu, lotus leaves, banaba, hub tea, loquat Examples include leaves, mate, rooibos tea, quinoa, barley young leaves, chimpi, chamomile, hibiscus, peppermint, lemongrass, lemon peel, lemon balm, rosehip, rosemary and the like.

さらに、本発明の容器詰飲料には、茶原料由来の成分にあわせて、酸化防止剤、苦味抑制剤、ビタミン、香料、各種エステル類、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、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又は併用して配合してもよい。   Furthermore, in the packaged beverage of the present invention, in accordance with ingredients derived from tea ingredients, antioxidants, bitterness inhibitors, vitamins, fragrances, various esters, organic acids, organic acid salts, inorganic acids, inorganic acid salts, Additives such as inorganic salts, pigments, emulsifiers, preservatives, seasonings, sweeteners, acidulants, fruit juice extracts, vegetable extracts, nectar extracts, pH adjusters, quality stabilizers, etc. alone or in combination You may mix | blend.

本発明の容器詰飲料は、例えば、成分(A)及び(B)が所定濃度になるように、上記した茶抽出物と穀物抽出物を混合して調製することができるが、風味及び保存安定性の観点から、容器詰飲料のpH(25℃)は3〜8、更に4〜7、更に5〜7、特に5〜6であることが好ましい。
本発明の飲料は、外観上の商品価値、容器の材質の点で、ヘーズ値は40以下が望ましく、好ましくは20〜0.1、特に15〜0.3が好ましい。
The packaged beverage of the present invention can be prepared by mixing the tea extract and the cereal extract as described above so that the components (A) and (B) have a predetermined concentration. From the viewpoint of properties, the pH (25 ° C.) of the packaged beverage is preferably 3 to 8, more preferably 4 to 7, further 5 to 7, and particularly preferably 5 to 6.
In the beverage of the present invention, the haze value is desirably 40 or less, preferably 20 to 0.1, particularly preferably 15 to 0.3, in terms of the commercial value on appearance and the material of the container.

本発明の容器詰飲料を充填する容器としては、一般の飲料と同様に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化した紙容器、瓶等の通常の包装容器が挙げられる。特に好ましくは、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)である。   As a container for filling the container-packed beverage of the present invention, a molded container mainly composed of polyethylene terephthalate (so-called PET bottle), a metal can, a paper container combined with a metal foil or a plastic film, and a bottle as in the case of general beverages And usual packaging containers. Particularly preferred is a molded container (so-called PET bottle) mainly composed of polyethylene terephthalate.

また、本発明の容器詰飲料とは、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ものをいう。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 is stipulated in laws and regulations (Food Sanitation Law in Japan) that should be applied if it can be heat-sterilized after filling into a container such as a metal can. It can be manufactured under sterilization 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、没食子酸の測定
メンブランフィルター(0.8μm)でろ過し、次いで蒸留水で希釈した試料を、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測定した。移動相A液は酢酸を0.1mol/L含有する蒸留水溶液、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 gallic acid Octadecyl group was introduced using a high performance liquid chromatograph (model SCL-10AVP, manufactured by Shimadzu Corp.) after filtering with membrane filter (0.8μm) and then diluting with distilled water. A packed column for liquid chromatograph (L-column TM ODS, 4.6 mmφ × 250 mm: manufactured by Chemical Substance Evaluation Research Organization) was attached, and measurement was performed at a column temperature of 35 ° C. by a gradient method. The mobile phase A solution was a distilled aqueous solution containing 0.1 mol / L of acetic acid, the B solution was an acetonitrile solution containing 0.1 mol / L of acetic acid, the sample injection amount was 20 μL, and the UV detector wavelength was 280 nm. .

2.タンニンの測定
タンニン量の測定は酒石酸鉄法により、標準液として没食子酸エチルを用い、没食子酸の換算量として求めた(参考文献:「緑茶ポリフェノール」飲食料品用機能性素材有効利用技術シリーズNo.10、菓子総合技術センター、1991)。試料5mLを酒石酸鉄標準溶液5mLで発色させ、リン酸緩衝液で25mLに定溶し、540nmで吸光度を測定し、没食子酸エチルによる検量線からタンニン量を求めた。
酒石酸鉄標準液の調製:硫酸第一鉄・7水和物100mg、酒石酸ナトリウム・カリウム(ロッシェル塩)500mgを蒸留水で100mLとした。
リン酸緩衝液の調製:1/15mol/Lリン酸水素二ナトリウム溶液と1/15mol/Lリン酸二水素ナトリウム溶液を混合しpH7.5に調整した。
2. Measurement of tannin The amount of tannin was determined by the iron tartrate method, using ethyl gallate as the standard solution, and as a converted amount of gallic acid (Reference: “Green Tea Polyphenol” Functional Material Effective Utilization Technology Series No. 10. Confectionery Technical Center, 1991). 5 mL of a sample was developed with 5 mL of iron tartrate standard solution, dissolved in 25 mL with a phosphate buffer, the absorbance was measured at 540 nm, and the amount of tannin was determined from a calibration curve with ethyl gallate.
Preparation of iron tartrate standard solution: 100 mg of ferrous sulfate heptahydrate and 500 mg of sodium / potassium tartrate (Rochelle salt) were made up to 100 mL with distilled water.
Preparation of phosphate buffer: 1/15 mol / L disodium hydrogen phosphate solution and 1/15 mol / L sodium dihydrogen phosphate solution were mixed and adjusted to pH 7.5.

3.でんぷんの測定
容器詰飲料1mLを50%エタノール水溶液100mLに添加して、再沈殿させ、低分子糖を除去し、続けて、その沈殿物質を加熱して糊化させ、グルコアミラーゼ処理して、ブドウ糖量を測定した後、下記式よりでんぷん量を求めた。
でんぷん量(g/100g)=ブドウ糖量(g/100g)×0.9
3. Measurement of starch Add 1 mL of container-packed beverage to 100 mL of 50% ethanol aqueous solution, re-precipitate, remove low-molecular sugars, and then heat the gelatinized precipitate to gelatinize, glucoamylase treatment, glucose After measuring the amount, the amount of starch was determined from the following formula.
Starch amount (g / 100 g) = glucose amount (g / 100 g) × 0.9

4.風味の評価
(1)苦味の評価
硫酸キニーネ法(等価濃度試験法)による苦味の評価
硫酸キニーネ2水和物を表1に記載の苦味強度に対応した濃度に調整した。各容器詰飲料を試飲した後、苦味標準溶液のうちどのサンプルと苦味の強さが等しいか評価パネラー4名によって確認を行い、その後協議により最終スコアを決定した。
4). Evaluation of flavor (1) Evaluation of bitterness Evaluation of bitterness by quinine sulfate method (equivalent concentration test method) Quinine sulfate dihydrate was adjusted to a concentration corresponding to the bitterness intensity shown in Table 1. After tasting each of the packaged beverages, it was confirmed by the evaluation panelists that 4 samples of the bitterness standard solution had the same bitterness intensity, and the final score was determined by consultation.

Figure 0005216629
Figure 0005216629

(2)香味の評価
各容器詰飲料を評価パネラー4名が試飲した後、香味について下記の基準で評価し、その後協議により最終スコアを決定した。
1:香ばしさを十分感じる。
2:香ばしさを感じる。
3:香ばしさをやや弱く感じる。
4:香ばしさが弱く感じる。
5:香ばしさがない。
(2) Evaluation of flavor After four panelists evaluated each of the packaged beverages, the flavor was evaluated according to the following criteria, and then the final score was determined by consultation.
1: Fully scented.
2: Feels fragrant.
3: The fragrance feels slightly weak.
4: The fragrance feels weak.
5: There is no fragrance.

(3)総合評価
各容器詰飲料について、評価パネラー4名により上記苦味及び香味の評価に基づいて下記の基準で総合評価し、その後協議により最終スコアを決定した。
A:苦味が弱く、焙煎穀物の香ばしさが十分感じられ風味が良好である。
B:苦味がやや強く、焙煎穀物の香ばしさがやや弱く感じられる。
C:苦味が強く感じられ、焙煎穀物の香ばしさが弱い。
D:苦味及び/又は雑味が強く感じられる。
(3) Comprehensive evaluation About each container-packed drink, four evaluation panelists evaluated comprehensively on the following reference | standard based on the evaluation of the said bitterness and flavor, and decided the final score by consultation after that.
A: The bitterness is weak, the flavor of roasted grains is sufficiently felt and the flavor is good.
B: The bitterness is slightly strong, and the fragrance of the roasted cereal is slightly weak.
C: The bitterness is felt strongly and the fragrance of roasted grains is weak.
D: Bitterness and / or miscellaneous taste is strongly felt.

製造例1
緑茶抽出物A
タンナーゼ(タンナーゼKTFH、キッコーマン社製、500U/g)を粗製緑茶抽出物(非重合体カテキン類濃度30質量%)に対して1.1質量%となる濃度で添加し、55分間保持し、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(pH5.2)。次いで、70℃、6.7kpaの条件下で、減圧濃縮により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粗製緑茶抽出物を得た。次いで、得られた粉末状の粗製緑茶抽出物を、エタノールと水の混合溶媒(水:エタノール=40:60)で非重合体カテキン類を抽出した後、抽出液100質量部に対して8質量部の活性炭を添加して接触処理した。そして、0.2μmメンブランフィルターにより濾過して、緑茶抽出物Aを得た。緑茶抽出物Aは、固形分中の非重合体カテキン類濃度が45質量%であり、(D)タンニンと(A)非重合体カテキン類との含有質量比[(A)/(D)]が0.99であった。
Production Example 1
Green tea extract A
Tannase (Tannase KTFH, manufactured by Kikkoman Corporation, 500 U / g) was added at a concentration of 1.1% by mass with respect to the crude green tea extract (non-polymer catechins concentration of 30% by mass), held for 55 minutes, 90 The solution was heated to 0 ° C. and held for 2 minutes to deactivate the enzyme and stop the reaction (pH 5.2). Subsequently, the concentrate was subjected to a concentration treatment to a Brix concentration of 20% by concentration under reduced pressure at 70 ° C. and 6.7 kpa, and further spray-dried to obtain a powdery tannase-treated crude green tea extract. Next, after extracting the non-polymer catechins from the obtained powdery crude green tea extract with a mixed solvent of ethanol and water (water: ethanol = 40: 60), 8 masses with respect to 100 mass parts of the extract. Part of activated carbon was added and contact-treated. And it filtered with a 0.2 micrometer membrane filter, and the green tea extract A was obtained. The green tea extract A has a non-polymer catechin concentration in the solid content of 45% by mass, and the content mass ratio of (D) tannin and (A) non-polymer catechins [(A) / (D)]. Was 0.99.

製造例2
緑茶抽出物B
粗製緑茶抽出物(非重合体カテキン類濃度30質量%)をタンナーゼ処理を行わなかったこと以外は、製造例1と同様の方法で緑茶抽出物Bを得た。緑茶抽出物Bは、固形分中の非重合体カテキン類濃度が45質量%であり、(D)タンニンと(A)非重合体カテキン類との含有質量比[(A)/(D)]が0.89であった。
Production Example 2
Green tea extract B
Green tea extract B was obtained in the same manner as in Production Example 1, except that the crude green tea extract (non-polymer catechins concentration: 30% by mass) was not subjected to tannase treatment. Green tea extract B has a non-polymer catechin concentration in the solid content of 45% by mass, and a content mass ratio of (D) tannin and (A) non-polymer catechins [(A) / (D)]. Was 0.89.

製造例3
穀物抽出物A
穀物原料に対して20質量倍の90℃のイオン交換水を2L容器に投入した。次いで、湯温を90℃に維持したイオン交換水に、穀物原料[焙煎大麦(FL36、丸紅食品製)95質量%、ハト麦粉砕物(三井農林製)2.5質量%、玄米(玄米T、丸紅食品製)2.5質量%]50g及び重曹1gを投入し、250rpmで30秒間攪拌し、5分間隔で30秒攪拌する操作を30分間行った。次いで、抽出物を20メッシュ及び80メッシュの篩で粗ろ過し、ろ液を25℃以下に冷却した。そして、抽出物を22号ろ紙にてろ過して穀物抽出物Aを得た。
Production Example 3
Cereal extract A
Ion exchange water at 90 ° C., which is 20 times the mass of the grain raw material, was put into a 2 L container. Next, in ion-exchanged water maintained at a temperature of 90 ° C., cereal raw materials [roasted barley (FL36, manufactured by Marubeni Foods) 95% by mass, pigeon pulverized product (Mitsui Norin) 2.5% by mass, brown rice (brown rice T, manufactured by Marubeni Foods Co., Ltd.) 2.5% by mass] and 1 g of sodium bicarbonate were added, stirred for 30 seconds at 250 rpm, and stirred for 30 seconds at 5 minute intervals for 30 minutes. Subsequently, the extract was roughly filtered with a 20 mesh and 80 mesh sieve, and the filtrate was cooled to 25 ° C. or lower. And the extract was filtered with No. 22 filter paper, and the grain extract A was obtained.

製造例4
穀物抽出物B
穀物原料を焙煎大麦(FL36、丸紅食品製)のみに変更したこと以外は、製造例3と同様の方法で穀物抽出物Bを得た。
Production Example 4
Cereal extract B
Grain extract B was obtained in the same manner as in Production Example 3 except that the grain raw material was changed to roasted barley (FL36, Marubeni Foods) only.

製造例4
穀物抽出物C
穀物原料を、焙煎大麦(FL36、丸紅食品製)90質量%及びハト麦粉砕物(三井農林製)10質量%に変更したこと以外は、製造例3と同様の方法で穀物抽出物Cを得た。
Production Example 4
Cereal extract C
Grain extract C was prepared in the same manner as in Production Example 3 except that the raw material of the grain was changed to 90% by mass of roasted barley (FL36, manufactured by Marubeni Foods) and 10% by mass of ground wheat (produced by Mitsui Norin). Obtained.

製造例5
穀物抽出物D
穀物原料[焙煎大麦(FL36、丸紅食品製)100質量%]25gをカラム型抽出機に投入し、更に90℃のイオン交換水550gを投入して10分間保持した。次いで、90℃のイオン交換水をカラム抽出機上部から連続的にスプレーノズルを用いて流量0.49L/分で投入し、同時にカラム抽出機下部より抽出物1500gを抜き出した。得られた抽出物を25℃以下に冷却した後、2号ろ紙にてろ過した。上記と同一の抽出操作を3回実施し、3回分を合わせたものを穀物抽出物Dとした。
Production Example 5
Cereal extract D
25 g of cereal raw material [roasted barley (FL36, manufactured by Marubeni Foods Co., Ltd., 100% by mass)] was charged into a column type extractor, and 550 g of ion-exchanged water at 90 ° C. was charged for 10 minutes. Subsequently, 90 ° C. ion-exchanged water was continuously added from the upper part of the column extractor at a flow rate of 0.49 L / min using a spray nozzle, and at the same time, 1500 g of extract was extracted from the lower part of the column extractor. The obtained extract was cooled to 25 ° C. or lower and filtered through No. 2 filter paper. The same extraction operation as described above was carried out three times, and the combination of the three was designated as a grain extract D.

実施例1〜5及び比較例1〜3
表2に示す成分を配合し、イオン交換水にて全量を2500gに希釈して茶飲料を得た。次いで、得られた茶飲料を殺菌温度138℃、殺菌保持時間30秒相当の殺菌条件で殺菌し、86℃でPETボトルに充填してキャッフ゜にて密閉した。次いで、流水にて冷却して容器詰飲料を得た。
Examples 1-5 and Comparative Examples 1-3
The ingredients shown in Table 2 were blended, and the total amount was diluted to 2500 g with ion-exchanged water to obtain a tea beverage. Next, the obtained tea beverage was sterilized under a sterilization condition corresponding to a sterilization temperature of 138 ° C. and a sterilization holding time of 30 seconds, filled into a PET bottle at 86 ° C., and sealed with a cap. Subsequently, it cooled with running water and the container-packed drink was obtained.

Figure 0005216629
Figure 0005216629

実施例1〜4の容器詰飲料は、苦味が低減されており、しかも焙煎穀物の香味が豊かで風味が良好であった。また、実施例5の容器詰飲料は、香味は良好であったが、ガレート体率が高いため苦味及び渋味が感じられた。
一方、比較例1の容器詰飲料はでんぷんを含まない例であるが、香ばしさは全く感じられず、苦味のみが強く感じられた。また、比較例2は、高濃度のでんぷんを含む例であるが、苦味が低減されかつ香ばしさが感じられるものの、焦げ臭及び雑味が強く感じられた。さらに、比較例3は非重合体カテキン類濃度の高い例であるが、苦味が強く、焙煎穀物の香ばしさを十分感じられなかった。
以上の結果から、本発明において、非重合体カテキン類濃度及びでんぷん濃度を特定範囲内に制御することの意義が確認された。
In the container-packed beverages of Examples 1 to 4, the bitterness was reduced, and the flavor of the roasted grains was rich and the flavor was good. Moreover, although the container-packed drink of Example 5 had favorable flavor, since the gallate body ratio was high, bitterness and astringency were felt.
On the other hand, the packaged beverage of Comparative Example 1 is an example that does not contain starch, but no fragrance was felt at all, and only bitterness was felt strongly. Moreover, although the comparative example 2 is an example containing a high concentration starch, although the bitter taste was reduced and the fragrance was felt, the burning smell and miscellaneous taste were strongly felt. Furthermore, although the comparative example 3 is an example with a high non-polymer catechin density | concentration, the bitterness was strong and the flavor of roasted grain was not fully felt.
From the above results, in the present invention, the significance of controlling the non-polymer catechins concentration and the starch concentration within a specific range was confirmed.

Claims (7)

次の成分(A)及び(B):
(A)非重合体カテキン類:0.05〜0.6質量%
(B)穀物抽出物由来のでんぷん
を含み、飲料100g当たりの(B)穀物抽出物由来のでんぷんの含有量が29〜90mgである、容器詰飲料。
The following components (A) and (B):
(A) Non-polymer catechins: 0.05 to 0.6% by mass
(B) include starch derived from cereal extracts, (B) is. 29 to 90 mg amount of starch derived from the grain extract per beverage 100 g, packaged beverage.
(A)非重合体カテキン類中のガレート体の割合が15〜40質量%である、請求項1記載の容器詰飲料。   (A) The container-packed drink of Claim 1 whose ratio of the gallate body in non-polymer catechins is 15-40 mass%. 成分(C)として没食子酸を更に含有し、(A)非重合体カテキン類に対する(C)没食子酸の含有質量比[(C)/(A)]が0.003〜0.04である、請求項1又は2記載の容器詰飲料。   The component (C) further contains gallic acid, and (A) the content mass ratio [(C) / (A)] of (C) gallic acid to non-polymer catechins is 0.003 to 0.04. The container-packed drink of Claim 1 or 2. 固形分中に非重合体カテキン類を30〜60質量%含有する緑茶抽出物を配合したものである、請求項1〜3のいずれか1項に記載の容器詰飲料。   The container-packed drink of any one of Claims 1-3 which mix | blends the green tea extract which contains 30-60 mass% of non-polymer catechins in solid content. (D)タンニンに対する(A)非重合体カテキン類の含有質量比[(A)/(D)]が0.8〜1.0である緑茶抽出物を配合したものである、請求項1〜4のいずれか1項に記載の容器詰飲料。   (D) The green tea extract whose blending mass ratio [(A) / (D)] of (A) non-polymer catechins to tannin is 0.8 to 1.0 is blended. The container-packed drink of any one of 4. 穀物抽出物を配合したものである、請求項1〜5のいずれか1項に記載の容器詰飲料。   The container-packed drink of any one of Claims 1-5 which mix | blends a grain extract. 穀物抽出物が麦類、米類及び雑穀類から選択される少なくとも1種の穀物から抽出したものである、請求項6記載の容器詰飲料。   The packaged beverage according to claim 6, wherein the cereal extract is extracted from at least one cereal selected from wheat, rice, and millet.
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