JP3748360B2 - Method for producing high-functional foods using maitake - Google Patents

Description

【００３１】
更に、この製造された飲料についてＣｕｓｈｍａｎらの方法に準拠してアンジオテンシン変換酵素の阻害作用活性（表ではＡＣＥ阻害率で表記）を測定したところ、いずれもアンジオテンシン変換酵素の阻害作用を発揮することが確認された。また、大豆由来のタンパク質飲料は非常に高いアンジオテンシン変換酵素の阻害作用を発揮することが確認された（下記表２参照）。
【表２】

【００３２】
尚、Ｃｕｓｈｍａｎらの方法とは、ウサギの肺より抽出したアンジオテンシン変換酵素を用い、このアンジオテンシン変換酵素の変換作用を阻害する力を試験管内で測定する方法で、馬尿酸残基−ヒスチジン−ロイシンがアンジオテンシン変換酵素によって分解された際に遊離する馬尿酸を測定するものである。
【００３３】
実験例３（豆乳飲料の製造）
大豆３ｋｇを十分吸水させた後、水１７ｋｇを加え摩砕して大豆溶液を得た。この大豆溶液を３分間沸騰させた後、濾布により絞って溶液を得、該溶液に糖度計でＢｒｉｘ＝８となるように加水し（加水に使用した水は約６ｋｇであった）、４５℃まで冷却して豆乳を得た。
【００３４】
更に、この豆乳に、凍結乾燥したマイタケの粉砕物（マイタケ粉末）２０ｇを加え、４５℃２時間反応させ（この反応の際のｐＨは６．９５であった）、続いて、沸騰水中で２０分間加熱殺菌して豆乳飲料とした。尚、製造された豆乳飲料は１８ｋｇであった。
【００３５】
この豆乳飲料は、風味，色調，味ともに良好なものであった。
【００３６】
また、この豆乳飲料を水で１０倍希釈し、Ｃｕｓｈｍａｎらの方法に準拠してアンジオテンシン変換酵素の阻害作用活性を測定したところ、８７．８％の阻害率であった。
【００３７】
実験例４（乳飲料の製造）
市販脱脂粉乳６００ｇを水６ｋｇに溶解した。更に、マイタケ乾燥粉末１０ｇより１ｋｇの水で抽出したエンドペプチダーゼ溶液６００ｇを加え、３７℃２時間反応させた後、沸騰させて酵素反応を停止させて乳飲料とした。
【００３８】
この乳飲料は、風味，色調，味ともに良好なものであった。
【００３９】
また、この乳飲料を水で１０倍希釈し、Ｃｕｓｈｍａｎらの方法に準拠してアンジオテンシン変換酵素の阻害作用活性を測定したところ、対照に比して６倍の高いアンジオテンシン変換酵素の阻害作用を発揮することが確認された（下記表３参照）。このことは、アンジオテンシン変換酵素の阻害作用活性に乏しい乳飲料に血圧上昇を抑制する機能を付加したものといえる。尚、対照は、マイタケのエンドペプチダーゼに換え、水を加えたものである。
【表３】

【００４０】
以上の実験例によれば、血圧上昇を抑制する成分を含有するタンパク質食品を容易に提供できることになる。また、タンパク質食品に、これまでに無い品質と健全性を持たせることを通じて積極的に健康的食生活の推進に役立つものとなる。
【００４１】
尚、本実施例のように食品に酵素作用を利用した場合、一般的にその酵素の由来及び毒性が注目される。しかし、本実施例によれば、酵素の由来が食用に使用されているマイタケであることから、安全性には全く問題がないといえ、当然ながら、作出された食品も安心して食することができる。また、食品に添加する酵素については、その原料や精製過程において不純物や複雑な工程等が問題となるが、本実施例では、マイタケそのもの、マイタケを乾燥したもの、水で抽出したものなどを使用できるため、容易にその活性を利用できることになる。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for producing a highly functional food using maitake.
[0002]
[Prior art and problems to be solved by the invention]
Maitake is known to have a diabetes-preventing action and an effect of improving immunity.
[0003]
By the way, maitake contains endopeptidase, but conventionally, the presence of this endopeptidase has been considered troublesome.
[0004]
For example, when trying to produce a maitake mushroom tea steamer, the protein contained in the egg is decomposed by the action of endopeptidase (called endopeptidase activity), so the protein does not coagulate (gelate). Only vivid liquid tea fumigation is possible and it is not a product. Similarly, tofu with maitake and yogurt with maitake are also endopeptidase degrading proteins, so that coagulation is inhibited and products are not produced.
[0005]
As described above, the endopeptidase activity of maitake is an obstacle to the use of foods (many foods such as tofu, yogurt, noodles, bread, etc.) that have a texture or shape due to protein. There was no way to effectively use this for food.
[0006]
The present invention is a method that makes effective use of the endopeptidase activity of this maitake, and it has been found through repeated experiments that when this endopeptidase is allowed to act on foods containing protein, the protein is decomposed and the effect of suppressing blood pressure rise is exerted. Thus, the present invention provides a method for producing a highly functional food using completely new maitake.
[0007]
[Means for Solving the Problems]
The gist of the present invention will be described.
[0008]
Addition of maitake (Grifola-frontosa) to foods containing protein, decompose this protein with endopeptidase contained in the maitake, and generate an ingredient that inhibits angiotensin converting enzyme involved in blood pressure increase by the decomposition, thereby suppressing blood pressure rise The present invention relates to a method for producing a highly functional food using maitake, which is characterized by producing a food having a function.
[0009]
In addition, endopeptidase is extracted from maitake (Grifola-frontosa), this endopeptidase is added to food containing the protein, the protein is decomposed by the endopeptidase, and the angiotensin converting enzyme involved in the increase in blood pressure is inhibited by the decomposition. The present invention relates to a method for producing a high-function food using maitake, characterized in that a food is produced by producing an ingredient and imparting an antihypertensive function.
[0010]
Furthermore, in the method for producing a highly functional food using the maitake according to any one of claims 1 and 2, the protein is decomposed by endopeptidase in a state where the pH of the food containing the protein is set to 6.5 to 9.0. The present invention relates to a method for producing a highly functional food using maitake.
[0011]
[Action and effect of the invention]
The present invention has been confirmed as a result of repeated experiments. Proteins contained in foods are degraded by endopeptidases contained in maitake to become oligopeptides (peptides in which several amino acids are connected), and these oligopeptides are present in the body. It is considered that the angiotensin converting enzyme suppresses the blood pressure increasing action (angiotensin 2 is produced from angiotensin 1 present in the body by the action of angiotensin converting enzyme and the blood pressure is increased by this angiotensin 2).
[0012]
Moreover, since it can be produced simply by adding maitake or endopeptidase extracted from maitake to food, it can easily impart health to the food.
[0013]
Since this invention is the above-mentioned structure, the highly functional food using the maitake excellent in the health and safety to which the blood pressure rise suppression function was provided can be manufactured easily.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Examples of the present invention will be described below.
[0015]
Endopeptidase was extracted from dried maitake, powdered maitake, or maitake to prevent loss of maitake endopeptidase activity in foods containing protein (which is preferably liquid for uniform reaction). A thing is added, a part of protein in food is decomposed | disassembled, and the component which inhibits the effect | action (it is called angiotensin converting enzyme activity) of an angiotensin converting enzyme is produced | generated.
[0016]
At this time, since the endopeptidase activity is the strongest at pH 6.5 to 9.0, the food should be adjusted to pH 6.5 to 9.0.
[0017]
The processed food is sterilized and sterilized by appropriate means after heating and filtration, after seasoning or after pH adjustment, to obtain a product.
[0018]
It is considered that the following actions are exhibited by the above steps.
[0019]
a By the action of a powerful endopeptidase (an enzyme that randomly cleaves proteins) contained in maitake, proteins contained in food are decomposed to produce oligopeptides.
[0020]
b The produced oligopeptide exerts an action of inhibiting angiotensin converting enzyme activity, thereby preventing the production of angiotensin 2 from angiotensin 1 in the body (angiotensin 1 is converted to angiotensin 2).
[0021]
c Since angiotensin 2 is prevented from being generated, an increase in blood pressure is suppressed.
[0022]
The peptidase includes an endopeptidase that cleaves the protein at random and an exopeptidase that cleaves peptide bonds sequentially from the end of the protein.
[0023]
In addition, it is known that oligopeptides are produced when a protein is cleaved by a peptidase, but not all oligopeptides inhibit angiotensin converting enzyme activity. In this example, since an endopeptidase contained in maitake is used, it is considered that the endopeptidase contained in this maitake can generate an oligopeptide that inhibits the action of angiotensin converting enzyme. The activity of endopeptidase contained in maitake is reduced to 41% by heat treatment at 70 ° C. for 10 minutes.
[0024]
Since this example is as described above, simply adding maitake or endopeptidase extracted from maitake to foods containing protein can provide a food having a function of suppressing an increase in blood pressure. It becomes the manufacturing method of high-functional foods using excellent maitake.
[0025]
In addition, maitake is generally manufactured and sold in the form of a tray pack, and chips and stone bumps are generated as surplus during molding and packaging. According to this embodiment, this surplus is produced. Effective utilization of minutes can also be achieved.
[0026]
Moreover, since maitake is originally a food, the high-performance food produced is highly safe.
[0027]
Hereinafter, experimental examples supporting the operational effects of the present embodiment will be described in detail.
[0028]
Experimental Example 1 (Endopeptidase extraction)
Extraction was carried out from a maitake freeze-dried powder using a pH 7.5 phosphate buffer solution, and ammonium sulfate fractionation was performed on this extract, and molecular sieves were further purified by gel filtration to extract and purify endopeptidase.
[0029]
Experimental Example 2 (Production of protein beverage)
Casein, rice protein, and soy protein were dissolved in water to a concentration of about 0.15% (w / v) to obtain a protein solution, and the pH of the protein solution was adjusted to 7.5. Subsequently, endopeptidase extracted from maitake was added to each protein solution and reacted at 40 ° C. for 1 hour. After the reaction, the protein beverage was sterilized by heating at 90 ° C.
[0030]
Although the produced protein beverage had a slight bitter taste, it became clear and preferred (see Table 1 below). The color tone was preferably colorless, and the flavor and taste were judged by the panelists.
[Table 1]

[0031]
Furthermore, when the inhibitory activity of the angiotensin converting enzyme (expressed as ACE inhibition rate in the table) was measured for this manufactured beverage in accordance with the method of Cushman et al., All of them exhibited the inhibitory activity of the angiotensin converting enzyme. confirmed. Moreover, it was confirmed that the protein drink derived from soybean exhibits a very high inhibitory action on angiotensin converting enzyme (see Table 2 below).
[Table 2]

[0032]
The method of Cushman et al. Is a method in which the angiotensin converting enzyme extracted from the lungs of rabbits is used to measure the ability to inhibit the converting action of this angiotensin converting enzyme in a test tube, and the hippuric acid residue-histidine-leucine is This is to measure hippuric acid released when it is decomposed by angiotensin converting enzyme.
[0033]
Experimental Example 3 (Production of soy milk beverage)
After fully absorbing 3 kg of soybean, 17 kg of water was added and ground to obtain a soybean solution. The soybean solution was boiled for 3 minutes, and then squeezed with a filter cloth to obtain a solution. The solution was hydrated with Brix = 8 using a saccharimeter (the water used for the addition was about 6 kg). Soy milk was obtained by cooling to ° C.
[0034]
Furthermore, 20 g of freeze-dried maitake pulverized maitake (maitake powder) was added to this soymilk and reacted at 45 ° C. for 2 hours (the pH during this reaction was 6.95), followed by 20 in boiling water. It was sterilized by heating for a minute to obtain a soy milk drink. In addition, the produced soymilk drink was 18 kg.
[0035]
This soy milk drink had good flavor, color and taste.
[0036]
Moreover, when this soymilk drink was diluted 10 times with water and the inhibitory activity of angiotensin converting enzyme was measured according to the method of Cushman et al., The inhibition rate was 87.8%.
[0037]
Experimental Example 4 (Production of milk drink)
600 g of commercially available skim milk powder was dissolved in 6 kg of water. Furthermore, after adding 600 g of endopeptidase solution extracted with 10 kg of water from 10 g of dried maitake powder, the mixture was reacted at 37 ° C. for 2 hours, and then boiled to stop the enzymatic reaction to obtain a milk beverage.
[0038]
This milk beverage was good in flavor, color and taste.
[0039]
In addition, when this milk beverage was diluted 10 times with water and the inhibitory activity of angiotensin converting enzyme was measured according to the method of Cushman et al., The inhibitory activity of angiotensin converting enzyme was 6 times higher than that of the control. (See Table 3 below). This can be said to be the addition of a function of suppressing an increase in blood pressure to a milk beverage lacking in the inhibitory activity of angiotensin converting enzyme. The control was obtained by adding water instead of maitake endopeptidase.
[Table 3]

[0040]
According to the above experimental examples, a protein food containing a component that suppresses an increase in blood pressure can be easily provided. In addition, protein foods will be useful in promoting healthy eating habits by providing unprecedented quality and soundness.
[0041]
In addition, when an enzyme action is used for food as in this embodiment, the origin and toxicity of the enzyme are generally noted. However, according to this example, since the origin of the enzyme is maitake, which is used for food, it can be said that there is no problem in safety, and naturally, the produced food can be eaten with peace of mind. it can. In addition, impurities and complex processes in the raw materials and purification process are problematic for enzymes added to food. In this example, maitake itself, dried maitake, or extracted with water are used. Therefore, the activity can be easily used.

Claims (3)

Addition of maitake (Grifola-frontosa) to foods containing protein, this protein is decomposed by endopeptidase contained in the maitake, and an ingredient that inhibits angiotensin converting enzyme involved in blood pressure increase is generated by the decomposition, thereby suppressing blood pressure increase A method for producing a high-functional food using maitake, characterized by producing a food with a function. Extracting endopeptidase from maitake (Grifola-frontosa), adding this endopeptidase to food containing protein, degrading the protein with the endopeptidase, and inhibiting the angiotensin converting enzyme involved in the increase in blood pressure by the decomposition A method for producing a high-function food using maitake, characterized by producing a food that is produced and imparted with a blood pressure increase-suppressing function. The method for producing a highly functional food using the maitake according to any one of claims 1 and 2, wherein the protein is degraded by endopeptidase in a state where the pH of the food containing the protein is set to 6.5 to 9.0. A method for producing a highly functional food using maitake.