[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

JP2545480B2 - Functional food material - Google Patents

Functional food material

Info

Publication number
JP2545480B2
JP2545480B2 JP2057438A JP5743890A JP2545480B2 JP 2545480 B2 JP2545480 B2 JP 2545480B2 JP 2057438 A JP2057438 A JP 2057438A JP 5743890 A JP5743890 A JP 5743890A JP 2545480 B2 JP2545480 B2 JP 2545480B2
Authority
JP
Japan
Prior art keywords
glyceride
royal jelly
fraction
acid
rats
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP2057438A
Other languages
Japanese (ja)
Other versions
JPH03259049A (en
Inventor
孝 野々垣
敏 三島
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
API KK
Original Assignee
API KK
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by API KK filed Critical API KK
Priority to JP2057438A priority Critical patent/JP2545480B2/en
Publication of JPH03259049A publication Critical patent/JPH03259049A/en
Application granted granted Critical
Publication of JP2545480B2 publication Critical patent/JP2545480B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Landscapes

  • Coloring Foods And Improving Nutritive Qualities (AREA)
  • Jellies, Jams, And Syrups (AREA)
  • Medicines Containing Material From Animals Or Micro-Organisms (AREA)

Description

【発明の詳細な説明】 [産業上の利用分野] 本発明は薬理作用を有する機能性食品素材に関するも
のである。
DETAILED DESCRIPTION OF THE INVENTION [Industrial application] The present invention relates to a functional food material having a pharmacological action.

[従来の技術] 近年、国民の健康意識の高揚とともに、食品に栄養源
としての価値以外の付加価値を見出し、機能性(例え
ば、薬理作用)を持たせたいわゆる機能性食品と呼ばれ
る素材が開発されている。その中でも脂質関連の機能性
食品として、レシチン、アイコサペンタエン酸、リノー
ル酸、γ−リノレン酸、γ−オリザノール、オクタコサ
ノール、植物ステロール等がある。
[Prior Art] In recent years, as the public's health awareness has been raised, foods have been found to have added value other than the value as a nutritional source, and a so-called functional food material having functionality (for example, pharmacological action) has been developed. Has been done. Among them, functional foods related to lipids include lecithin, eicosapentaenoic acid, linoleic acid, γ-linolenic acid, γ-oryzanol, octacosanol, plant sterols and the like.

又、働き蜂の分泌物であるローヤルゼリーは旧くから
滋養、強壮、老化抑制等の作用があるものとして注目さ
れている。ローヤルゼリー中には10−ヒドロキシデセン
酸、プテリン誘導体、R物質、ビタミン、ミネラル、ワ
ックス等が成分として含まれており、10−ヒドロキシデ
セン酸はその中でも薬理効果(保存性、殺菌性)のある
物質であることが確認されている。通常ローヤルゼリー
は生の状態のままか、又はローヤルゼリー中に含まれる
蛋白質を除去した脱タンパク型のローヤルゼリー、乾燥
ローヤルゼリー等の形態で使用されている。又、10−ヒ
ドロキシデセン酸成分のみを高度に精製した製品もある
が、限定された用途、例えば試薬用として用いられてい
るのみである。又、10−ヒドロキシデセン酸は何ら修飾
されることなくフリーの酸の状態で提供されているのが
現状である。
Also, royal jelly, which is a secretory of worker bees, has been attracting attention for a long time as it has effects such as nourishment, tonicity, and anti-aging. Royal jelly contains 10-hydroxydecenoic acid, pterin derivatives, R substances, vitamins, minerals, waxes, etc. as components, and 10-hydroxydecenoic acid has a pharmacological effect (preservation and bactericidal properties) among them. Has been confirmed. Usually, the royal jelly is used in the form of a raw protein, a deproteinized royal jelly obtained by removing the protein contained in the royal jelly, a dried royal jelly or the like. There are also products in which only the 10-hydroxydecenoic acid component is highly purified, but they are only used for limited applications, such as reagents. At present, 10-hydroxydecenoic acid is provided in a free acid state without any modification.

[発明が解決しようとする課題] ところが、生のローヤルゼリーは常温では腐敗し易
く、粘稠で特有の臭いがあるためそのままでは摂取し難
い。又、10−ヒドロキシデセン酸をフリーの状態で摂取
した場合は体内での吸収効率が悪いという問題がある。
さらに、従来のローヤルゼリー及びその加工品はいずれ
も疲労回復などを目的として、薬と同様な感覚でほとん
ど単独で摂取されていた。
[Problems to be Solved by the Invention] However, raw royal jelly easily rots at room temperature, is viscous, and has a peculiar odor, so it is difficult to take as it is. Further, when 10-hydroxydecenoic acid is taken in a free state, there is a problem that the absorption efficiency in the body is poor.
Further, the conventional royal jelly and the processed products thereof have been almost independently taken for the purpose of recovery from fatigue, etc., with the same sensation as drugs.

本発明は前記の問題点に鑑みてなされたものであっ
て、その目的は日常摂取する食品に混合した状態で保存
安定性が良く、自然な形態としての食品とともに摂取す
ることが可能で薬理作用を発揮する機能性食品素材を提
供することにある。
The present invention has been made in view of the above problems, and its purpose is to have good storage stability in a state of being mixed with foods that are ingested daily, and it is possible to ingest it together with foods in a natural form and pharmacological action. It is to provide functional food materials that exhibit

[課題を解決するための手段及び作用] 本願発明者らは、機能性食品の機能性とは別に食品加
工、保存にとって高い付加価値を併せもつ食品素材につ
いて研究を重ね、ローヤルゼリーの脂質画分を含む原料
に、グリセリンと酵素としてのリパーゼを加え、ローヤ
ルゼリーの脂質画分とグリセリンを反応させて合成され
たグリセライドを含有する機能性食品素材が前記の目的
を達成するものであることを見出した。
[Means and Actions for Solving the Problems] The inventors of the present application have conducted repeated research on food materials that have high added value for food processing and storage in addition to the functionality of functional foods, and have determined the lipid fraction of royal jelly. It was found that a functional food material containing glyceride synthesized by adding glycerin and lipase as an enzyme to a raw material containing the glycerol and reacting the lipid fraction of royal jelly with glycerin achieves the above object.

本発明の機能性食品素材が食品に添加する保存剤、殺
菌剤、乳化剤等として使用すると、そのもの自体がもつ
血圧及びコレステロール値を下げる薬理作用により、高
血圧症等の成分病の予防、疾病の治療への応用が期待で
きる。
When the functional food material of the present invention is used as a preservative, a bactericide, an emulsifier, etc. added to foods, it has a pharmacological action of lowering blood pressure and cholesterol level of itself, preventing component diseases such as hypertension, and treating diseases. Can be expected to be applied to.

原料として用いるローヤルゼリーは生、加工したもの
のいずれであってもよく、産地も限定されない。このロ
ーヤルゼリーをエタノール、クロロホルム、ヘキサン等
の有機溶剤又は水と混和した有機溶剤により処理して脂
質に富んだ画分を抽出し、抽出液をそのままあるいは適
当な濃度に濃縮する。有機溶剤として低級アルコールを
使用した場合は脂質成分の10−ヒドロキシデセン酸はフ
リーの酸の状態ではなく、使用したアルコールのエステ
ルとの混合物として抽出される。ローヤルゼリー1に対
して2倍量のエタノールで処理した後の濃縮物を分析し
たところ、10−ヒドロキシデセン酸2%、デカン酸0.3
%、ブドウ糖2%、ショ糖1.8%、ステロール(ステリ
ン)0.2%、ワックス0.32%(値はいずれも原料に対す
る百分率)等であった。ブドウ糖及びショ糖は脂質では
ないが、エタノールに溶解するため脂質とともに抽出さ
れる。
The royal jelly used as a raw material may be either raw or processed, and the production area is not limited. The royal jelly is treated with an organic solvent such as ethanol, chloroform, hexane or the like or an organic solvent mixed with water to extract a lipid-rich fraction, and the extract is concentrated as it is or to an appropriate concentration. When a lower alcohol is used as the organic solvent, the lipid component 10-hydroxydecenoic acid is not in the free acid state but is extracted as a mixture with the ester of the alcohol used. Analysis of the concentrate after treatment with twice the amount of ethanol as 1 part of royal jelly revealed that 10-hydroxydecenoic acid was 2% and decanoic acid was 0.3%.
%, Glucose 2%, sucrose 1.8%, sterol (sterine) 0.2%, wax 0.32% (all values are percentages relative to the raw material). Glucose and sucrose are not lipids, but they are extracted with lipids because they dissolve in ethanol.

この濃縮物のままでも機能性食品素材として用いられ
るが、このものを修飾してグリセライドとしたものが特
に機能性食品素材として優れている。前記濃縮物から10
−ヒドロキシデセン酸等の脂質と糖との分離が必要な場
合は、濃縮物を50℃程度に加温すると脂質層と糖層に分
離するのでその状態で容易に分別される。又、10−ヒド
ロキシデセン酸等の炭素鎖10個の脂肪酸を高純度で得た
い場合には、シリカゲルクロマトグラフィーや順相、逆
相、イオン交換等の各液体クロマトグラフィーを利用し
た高速分取液体クロマトグラフィーにより精製すればよ
い。
The concentrate can be used as it is as a functional food material, but a glyceride obtained by modifying this concentrate is particularly excellent as a functional food material. 10 from the concentrate
-When it is necessary to separate a lipid such as hydroxydecenoic acid and a sugar from each other, when the concentrate is heated to about 50 ° C, the concentrate is separated into a lipid layer and a sugar layer, so that the concentrate is easily separated. If you want to obtain high-purity fatty acids with 10 carbon chains such as 10-hydroxydecenoic acid, you can use a high-speed preparative liquid that uses silica gel chromatography or liquid chromatography such as normal phase, reverse phase, or ion exchange. It may be purified by chromatography.

グリセライドとするには前記濃縮物又は精製したもの
を水分が0.005〜20%となるように調製し、これにリパ
ーゼを作用させる。リパーゼによるグリセライドの合成
に関しては従来より数多くの文献があり、詳しい説明は
省略する。目的とする生成物がモノグリセライド、ジグ
リセライド、トリグリセライドのいずれであるかによっ
て起源の異なるリパーゼが使用される。
To obtain glyceride, the concentrate or the purified product is prepared so that the water content is 0.005 to 20%, and lipase is allowed to act on it. There are many literatures on the synthesis of glyceride by lipase, and detailed description thereof will be omitted. Lipases of different origins are used depending on whether the desired product is monoglyceride, diglyceride or triglyceride.

例えば、カンジダ(Candida)属、コリネバクテリウ
ム(Corynebacterium)属、スタフィロコッカス(Staph
ylococcus)属、シュードモナス(Pseudomonas)属のリ
パーゼを用いた場合は特異性を示さないので、1,3位に
特異性をもたせたい場合にはアスペルギルス(Aspergil
lus)属、ムコール(Mucor)属、リゾプス(Rhizopus)
属のものが使用される。その他ゲオトリカム(Geotrich
um)属のリパーゼも使用しうる。これらは単独あるいは
任意に組み合わせて使用される。
For example, Candida genus, Corynebacterium genus, Staphylococcus (Staph)
ylococcus) and Pseudomonas lipase do not show specificity, so if you want to give specificity to the 1st and 3rd positions, Aspergil (Aspergil
genus lus, genus Mucor, Rhizopus
A genus is used. Other Geotricum
um) lipases may also be used. These may be used alone or in any combination.

反応は前記リパーゼをそのまま用いてもよいが、固定
化担体に結合させて反応の連続化を行うことがコスト面
からも好ましい。反応温度は通常20〜60℃の範囲で20〜
50時間反応させる。酵素量は500〜50000単位であるが、
基質使用量及び反応時間により適宜選択する。
In the reaction, the lipase may be used as it is, but it is preferable from the viewpoint of cost to carry out the reaction continuously by binding to the immobilized carrier. The reaction temperature is usually 20 to 60 ° C.
Incubate for 50 hours. The amount of enzyme is 500 to 50,000 units,
It is appropriately selected depending on the amount of substrate used and the reaction time.

反応基質はローヤルゼリー中の脂肪酸及びそのエステ
ルと、グリセリン又は部分グリセライドとの混合物であ
る。ローヤルゼリーの有機溶剤抽出物を乾固してエキス
とし、そのものに熱を加えることにより脂肪酸を多く含
む画分が得られる。この画分に含まれる脂肪酸としては
10−ヒドロキシデセン酸、カプリン酸、その他少量のス
テアリン酸、オレイン酸、リノール酸等がある。又、ロ
ーヤルゼリーから脂質画分を抽出する際に有機溶剤とし
てメチルアルコール、エチルアルコール等の低級アルコ
ールを使用すると、前記脂肪酸がフリーの有機酸として
ではなく当該低級アルコールのエステルとして抽出され
るので、そのエステルを反応基質として用いる。部分グ
リセライドとしてはモノグリセライド、ジグリセライド
が使用され、化学的合成法によるか、トリグリセライド
を加水分解して得られたものを用いることができる。
The reaction substrate is a mixture of fatty acid and its ester in royal jelly and glycerin or partial glyceride. The organic solvent extract of royal jelly is dried to give an extract, and heat is applied to the extract to obtain a fraction containing a large amount of fatty acids. The fatty acids contained in this fraction
There are 10-hydroxydecenoic acid, capric acid, and a small amount of stearic acid, oleic acid, linoleic acid and the like. When a lower alcohol such as methyl alcohol or ethyl alcohol is used as an organic solvent when extracting a lipid fraction from royal jelly, the fatty acid is extracted not as a free organic acid but as an ester of the lower alcohol. Esters are used as reaction substrates. Monoglycerides and diglycerides are used as the partial glycerides, and those obtained by a chemical synthesis method or by hydrolyzing triglycerides can be used.

反応終了後、有機溶剤層を採る。これをゲル濾過によ
りトリグリセライド、ジグリセライド、モノグリセライ
ドに分別できるが、混合物の状態でも何ら問題はない。
又、グリセライド以外にローヤルゼリー中の脂質画分が
入ってもよい。
After the reaction is completed, the organic solvent layer is collected. This can be separated into triglyceride, diglyceride and monoglyceride by gel filtration, but there is no problem even in the state of a mixture.
In addition to glyceride, the lipid fraction in royal jelly may be added.

[実施例] 以下、実施例を挙げて本発明をより詳細に説明する
が、本発明はこれらの実施例に限定されるものではな
い。
[Examples] Hereinafter, the present invention will be described in more detail with reference to examples, but the present invention is not limited to these examples.

[実施例1] グリセリン1.5g、ヘキサン20gに水分1%を含むロー
ヤルゼリーの脂質画分2gを添加し、これにリパーゼとし
てパンクレアチンF(商品名、天野製薬(株)製)を10
000ユニット加え、30℃で40時間反応させた。その後ヘ
キサン層を分取し、高速液体クロマトグラフLC−8A
((株)島津製作所製)によりグリセライド画分と脂肪
酸画分とを分別した。グリセライド画分について分析し
た結果、全脂肪酸中の35%がグリセライドとなってい
た。
Example 1 Glycerin (1.5 g) and hexane (20 g) were added with a lipid fraction (2 g) of royal jelly containing 1% water, and pancreatin F (trade name, manufactured by Amano Pharmaceutical Co., Ltd.) as lipase was added to the mixture.
000 units were added and reacted at 30 ° C. for 40 hours. After that, the hexane layer was collected and the high performance liquid chromatograph LC-8A was used.
The glyceride fraction and the fatty acid fraction were separated by (manufactured by Shimadzu Corporation). Analysis of the glyceride fraction revealed that 35% of all fatty acids were glycerides.

次にグリセライド画分の溶媒を留去した残留物0.9gに
生理食塩水200mlを加えて懸濁させたものを検液とし
て、以下の薬理試験を行った。
Next, the following pharmacological test was carried out using 0.9 g of the residue obtained by distilling off the solvent of the glyceride fraction and suspending it with 200 ml of physiological saline as a test solution.

高血圧ラット(SHR)を1群20匹ずつに分け、検液を
毎日3回1mlずつ経口投与した。コントロールとしては
生理食塩水のみを投与し、又、比較としてローヤルゼリ
ー中の脂質画分及び10−ヒドロキシデセン酸(10−HDA
と略称)についても試験を行った。各群のラットの血圧
を1週間後、1カ月後、2カ月後に測定した結果を第1
表に示す。
Hypertensive rats (SHR) were divided into 20 groups each, and the test solution was orally administered 3 times daily at 1 ml each. As a control, only saline was administered, and as a comparison, the lipid fraction and 10-hydroxydecenoic acid (10-HDA) in royal jelly were compared.
Abbreviated) was also tested. The blood pressure of rats in each group was measured 1 week, 1 month, and 2 months later, and
Shown in the table.

第1表から明らかなように、コントロールのラット群
は高血圧ラットに通常みられるように、成長とともに血
圧が上昇した。又、10−ヒドロキシデセン酸を含む検液
を投与されたラット群は投与1週間後の血圧は最初とほ
ぼ同じで、1ヵ月後、2ヵ月後では血圧が若干低下し
た。すなわち、10−ヒドロキシデセン酸では血圧上昇抑
制効果はあるが、血圧を低下させる効果はわずかであっ
た。一方、ローヤルゼリー中の脂質画分及びそのグリセ
ライドを含む検液が投与されたラット群では投与1週間
後で血圧が大幅に低下し、投与1ヵ月後ではさらに大幅
に低下し、その後はほぼ一定の状態に保持された。又、
試験後のラットの生存率も高かった。すなわち、ローヤ
ルゼリー中の脂質画分及びそのグリセライドには速やか
に血圧を低下させる作用があり、グリセライドはローヤ
ルゼリー中の脂質画分よりも効果が大きいことが確認さ
れた。
As is apparent from Table 1, the control group of rats had an increase in blood pressure with growth, as is commonly seen in hypertensive rats. Further, in the group of rats administered with the test solution containing 10-hydroxydecenoic acid, the blood pressure one week after administration was almost the same as that at the beginning, and the blood pressure slightly decreased after one month and two months. That is, 10-hydroxydecenoic acid had an effect of suppressing an increase in blood pressure, but had a slight effect of decreasing blood pressure. On the other hand, in the group of rats to which the lipid fraction in royal jelly and the test solution containing the glyceride were administered, the blood pressure was significantly decreased one week after the administration, and the blood pressure was further significantly decreased one month after the administration, and thereafter it was almost constant. Held in a state. or,
The survival rate of the rats after the test was also high. That is, it was confirmed that the lipid fraction in royal jelly and its glyceride have an action of rapidly lowering blood pressure, and glyceride is more effective than the lipid fraction in royal jelly.

[実施例2] グリセリン2g、ヘキサン20gに水分0.5%を含有するロ
ーヤルゼリーの脂質画分2gを加え、これにリパーゼF
(商品名、天野製薬(株)製)及び精製リパーゼ(シグ
マ社製)をそれぞれ5000単位ずつ添加し、30℃で40時間
反応させた。その後ヘキサン層を採り、以下、実施例1
と同様な操作でグリセリン画分を得た。この画分には全
脂肪酸の38%が含まれていた。
[Example 2] 2 g of glycerin and 20 g of hexane were added with 2 g of a lipid fraction of royal jelly containing 0.5% of water, and lipase F was added thereto.
(Trade name, manufactured by Amano Pharmaceutical Co., Ltd.) and purified lipase (manufactured by Sigma) were added at 5000 units each, and reacted at 30 ° C. for 40 hours. After that, a hexane layer was collected, and hereinafter, Example 1 was used.
A glycerin fraction was obtained by the same procedure as in. This fraction contained 38% of all fatty acids.

前記のグリセライド画分を市販の清涼飲料水に0.1%
添加して微生物の繁殖試験をしたところ、無添加のもの
は液の濁りが増して沈澱を生じ、且つカビ醗酵臭が生じ
たのに対して、本発明のグリセライド画分を添加したも
のは開封前と全く変化がなく、微生物試験においてもカ
ビ、酵母の繁殖は検出されなかった。
0.1% of the glyceride fraction in commercial soft drinks
When the microorganisms were added and subjected to a breeding test, the ones without addition had increased turbidity of the liquid to cause precipitation, and a mold fermentation odor was produced, whereas the ones to which the glyceride fraction of the present invention was added were unsealed. There was no change from before, and no mold or yeast reproduction was detected in the microbial test.

さらに添加量を5%まで増やし、味及び経時変化を調
べたが全く変化はなく、実用に供しうる製品であること
が確認された。
Furthermore, the addition amount was increased to 5% and the taste and the change with time were examined, but there was no change at all, and it was confirmed that the product could be put to practical use.

[実施例3] 実施例1で得たグリセライド画分、ローヤルゼリー中
の脂質画分及びこれらを1:1で混合したものの3種類の
検液について、検液20%、コレステロール2%、胆汁酸
0.5%を含む餌をそれぞれ調製してラットにあたえ、4
週間後の血清コレステロール値を測定した。比較として
やし油及びとうもろこし油を用いた。なお、ラットは1
群20匹を用いた。結果を第2表に示す。
[Example 3] Regarding the glyceride fraction obtained in Example 1, the lipid fraction in royal jelly and three types of test solutions in which these were mixed 1: 1, test solution 20%, cholesterol 2%, bile acid
Prepare a diet containing 0.5% each and give it to rats. 4
Serum cholesterol levels were measured after a week. For comparison, coconut oil and corn oil were used. 1 rat
A group of 20 animals was used. The results are shown in Table 2.

第2表から明らかなように本発明のグリセライド画分
を含む検液を使用した場合は、コレステロール値を大幅
に低下させる顕著な効果が見られた。ラットはすべての
群で試験終了時も生存していた。
As is clear from Table 2, when the test solution containing the glyceride fraction of the present invention was used, a remarkable effect of significantly lowering the cholesterol level was observed. Rats survived at the end of the study in all groups.

[実施例4] 実施例2で得たグリセライド画分について以下の試験
を行った。1群20匹のラットを用い、4日間絶食させた
後、グリセライド画分を経口投与し、その後のラットの
行動について1時間毎に観察した。比較としてやし油、
とうもろこし油についてグリセライド画分の脂肪酸と同
量(相当量)を投与したラット群についても調べた。
[Example 4] The following test was performed on the glyceride fraction obtained in Example 2. Using 20 rats per group, after fasting for 4 days, the glyceride fraction was orally administered, and the behavior of the rats thereafter was observed every hour. Coconut oil, as a comparison
A group of rats that received the same amount (equivalent amount) as the fatty acid in the glyceride fraction for corn oil was also examined.

本発明のグリセライド画分を投与されたラットは1時
間後には動きが活発化したが、やし油あるいはとうもろ
こし油を投与されたラットは動きが鈍かった。又、3時
間後には比較例のラットでも動きが見られたが、グリセ
ライド画分のラットと比べると劣っていた。このように
脂質画分のグリセライドは油脂に比べ吸収が速く、栄養
素として優れていることが確認された。
The rats to which the glyceride fraction of the present invention was administered became active after 1 hour, while the rats to which coconut oil or corn oil had been administered showed slow movement. Also, after 3 hours, movement was observed in the rats of Comparative Examples, but it was inferior to the rats of the glyceride fraction. As described above, it was confirmed that glyceride in the lipid fraction was absorbed faster than fats and oils and was excellent as a nutrient.

[発明の効果] 以上詳述したように本発明の食品素材を食品に添加し
た場合、保存性が増すとともに、血圧及びコレステロー
ル値を下げる効果があるので成分病特に高血圧症の予防
及び治療に有効である。又、吸収が速いので速やかな栄
養源となり、経口栄養剤としても使用できるなど機能性
食品素材としてその効果は特筆に値するものがあり、幅
広い用途に用いられうる。又、使用される原料が天然物
由来のものであり、安全性にも優れている。
[Effects of the Invention] As described in detail above, when the food material of the present invention is added to foods, it is effective in preventing and treating component diseases, particularly hypertension, as it has the effect of lowering blood pressure and cholesterol levels as well as increasing preservability. Is. Further, since it is rapidly absorbed, it serves as a quick nutritional source and can be used as an oral nutritional supplement. In addition, the raw materials used are derived from natural products and are excellent in safety.

Claims (2)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】ローヤルゼリーの脂質画分を含む原料に、
グリセリンと酵素としてのリパーゼを加え、ローヤルゼ
リーの脂質画分とグリセリンを反応させて合成されたグ
リセライドを含有する機能性食品素材。
1. A raw material containing a lipid fraction of royal jelly,
A functional food material containing glyceride synthesized by adding glycerin and lipase as an enzyme, and reacting the lipid fraction of royal jelly with glycerin.
【請求項2】前記グリセライドは、10−ヒドロキシデセ
ン酸のグリセライドを含有するものである特許請求の範
囲第1項に記載の機能性食品素材。
2. The functional food material according to claim 1, wherein the glyceride contains glyceride of 10-hydroxydecenoic acid.
JP2057438A 1990-03-08 1990-03-08 Functional food material Expired - Fee Related JP2545480B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2057438A JP2545480B2 (en) 1990-03-08 1990-03-08 Functional food material

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2057438A JP2545480B2 (en) 1990-03-08 1990-03-08 Functional food material

Publications (2)

Publication Number Publication Date
JPH03259049A JPH03259049A (en) 1991-11-19
JP2545480B2 true JP2545480B2 (en) 1996-10-16

Family

ID=13055661

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2057438A Expired - Fee Related JP2545480B2 (en) 1990-03-08 1990-03-08 Functional food material

Country Status (1)

Country Link
JP (1) JP2545480B2 (en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0967252A (en) * 1995-09-05 1997-03-11 Zenkoku Royal Jelly Kosei Torihiki Kiyougikai Angiotensin-converting enzyme inhibitor and insulin-like-acting agent containing trans-10-hydroxy-decenoic acid included in royal jelly as active ingredient
JP3693754B2 (en) * 1996-05-28 2005-09-07 アピ株式会社 Tyrosinase activity inhibitor
JP2001172190A (en) * 1999-12-15 2001-06-26 Pola Chem Ind Inc Lactic acid accumulation inhibitor
JP2005139150A (en) * 2003-11-10 2005-06-02 Api Co Ltd Estrogenic agent, method for producing the same, prophylactic agent for osteoporosis and food and beverage
JP5329064B2 (en) * 2007-09-03 2013-10-30 株式会社クヰンビーガーデン Anticholesterol
JP2013091606A (en) * 2011-10-24 2013-05-16 Akitaya Honten:Kk Serum cholesterol level-reducing agent and method for reducing serum cholesterol level

Family Cites Families (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS584905B2 (en) * 1980-08-07 1983-01-28 小牧 久時 Method for producing health food ingredients using royal jelly as the main ingredient
JPH01215268A (en) * 1988-02-22 1989-08-29 Morinaga & Co Ltd Production of transparent royal jelly drink

Also Published As

Publication number Publication date
JPH03259049A (en) 1991-11-19

Similar Documents

Publication Publication Date Title
US6248909B1 (en) Triglyceride and composition comprising the same
US7767427B2 (en) Production method of oil or fat containing polyunsaturated fatty acid-containing triglyceride
JP3946163B2 (en) Method for preparing materials with high content of long-chain polyunsaturated fatty acids
EP2175030B1 (en) Method for producing diacylglycerol-rich fat and/or oil
TWI343418B (en) Process for production of transesterified oils/fats or triglycerides
US6022718A (en) Method of producing capsaicin analogues
TWI340165B (en) Process for preparing an oil containing one or more long-chain polyunsaturated fatty acids derived from biomass; foodstuff or nutritional, cosmetic or pharmaceutical composition containing it
JP5678180B2 (en) Composition containing eicosapentaenoic acid suitable for highly purified
KR102373368B1 (en) Preparation method of palmitoleic acid-enriched triglyceride using an enzyme
JP3098561B2 (en) Serum triglyceride concentration lowering agent
JP4283351B2 (en) Production method and use of novel oil and fat composition
JP2545480B2 (en) Functional food material
TW200522939A (en) Composition having action preventing or alleviating symptoms or diseases due to aging of blood vessels
CA2577676A1 (en) Process for production of microbial fat/oil containing discretional amount of diacylglycerol and said fat/oil
JP2002171993A (en) Method of manufacturing fatty acid ester of sterol for foods
JPH02501622A (en) Method for producing cis-9-octadecenoic acid composition
JPH0730352B2 (en) Enzymatic purification of fats and oils
JPH06287594A (en) Production of triglyceride containing docosahexaenoic acid
CN114480518A (en) Method for preparing medium-long carbon chain triglyceride by enzyme method
WO2011067666A1 (en) Processes to generate compositions of enriched fatty acids
JP2004248671A (en) Method for purification of conjugated linoleic acid isomer and application of the same
JP4850153B2 (en) Novel triglyceride and composition containing the same
KR101949741B1 (en) Manufacturing method of monogalactosyldiacylglycerol containing high phenolic acid content
JP2007089522A (en) Method for producing fatty acid composition containing specific highly unsaturated fatty acid in concentrated state
JPH08163990A (en) Oil-and-fat-containing alga and production of oil-and-fat derived therefrom

Legal Events

Date Code Title Description
R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

LAPS Cancellation because of no payment of annual fees