JP2008255231A - Simultaneous production method of fucoxanthine and fucoidan - Google Patents

Simultaneous production method of fucoxanthine and fucoidan Download PDF

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JP2008255231A
JP2008255231A JP2007099233A JP2007099233A JP2008255231A JP 2008255231 A JP2008255231 A JP 2008255231A JP 2007099233 A JP2007099233 A JP 2007099233A JP 2007099233 A JP2007099233 A JP 2007099233A JP 2008255231 A JP2008255231 A JP 2008255231A
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acid
fucoidan
extraction
ethanol
fucosanthin
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JP5140304B2 (en
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Keiichi Sadoyama
恵一 佐渡山
Takeshi Miyagi
健 宮城
Shinji Takeda
真治 武田
Takeshi Yasumoto
健 安元
Hideo Naoki
秀夫 直木
Takashi Kategari
崇 嘉手苅
Hiroshi Toyama
洋 當山
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KANEHIDE BIO KK
Tropical Technology Center Ltd
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Tropical Technology Center Ltd
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for simultaneously and efficiently producing fucoidan and fucoxanthine. <P>SOLUTION: The simultaneous production method of fucoxanthine and fucoidan comprises performing extraction treatment of previously crushed Cladosiphon okamuranus at 10-50°C with ethanol of practically 65-85 vol.% concentration in extraction, rendering the extraction liquid after solid-liquid separation to resin adsorption treatment, obtaining fucoxanthine from an eluate obtained by eluting the adsorbing resin with ethanol of 85-100 vol.% and extracting the extraction residue after solid-liquid separation with an organic acid on a condition within a range of pH2-pH6, and obtaining fucoidan from the extraction liquid. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

本発明は、オキナワモズクを原料として、フキコサンチンとフコイダンとを同時に抽出によって入手するフキコサンチンとフコイダンの製造方法に関する。   The present invention relates to a method for producing fucosanthin and fucoidan, which is obtained by simultaneously extracting fucosanthin and fucoidan using Okinawa mozuku as a raw material.

従来から、コンブ、ワカメ、オキナワモズクなどの海藻類にはフコイダンやフコキサンチンといった硫酸化多糖やカロテノイドが含まれており、そのうちのフコイダンは優れた抗コレステロール作用、血液清澄作用、抗血液凝固作用、抗腫瘍作用などの、またフコキサンチンもコレステロール低減作用、抗腫瘍作用、神経細胞保護効果などの種々の薬理効果を有することが知られている(例えば、特許文献1、2参照)。   Traditionally, seaweeds such as kombu, wakame and Okinawa mozuku contain sulfated polysaccharides and carotenoids such as fucoidan and fucoxanthin, of which fucoidan has excellent anticholesterol action, blood clarification action, anticoagulation action, It is known that fucoxanthin also has various pharmacological effects such as cholesterol reduction action, antitumor action, and nerve cell protection effect such as antitumor action (see, for example, Patent Documents 1 and 2).

従って、フコイダンやフコキサンチンは、このような優れた作用を有するため、これらの薬理作用を利用する医薬品だけでなく、天然の海藻類から得られる安全性の高い物質であるため、広く化粧品や健康食品などへの利用も検討されている。   Therefore, fucoidan and fucoxanthin are highly safe substances obtained from natural seaweeds as well as pharmaceuticals that use these pharmacological actions because they have such excellent actions. Use for foods is also being considered.

そして、従来からこのようなフコイダンやフコキサンチンを効率的に入手するために、種々の方法が試みられている。
例えば、フコイダンについては、海藻類から水や温水、塩酸を用いて抽出して高粘性のフコイダン含有溶液を得る方法(例えば、特許文献3参照)、モズクから60〜100℃の熱水を用いて抽出してフコイダンを含む熱水抽出物を得る方法(例えば、特許文献4参照)、養殖オキナワモズクから塩酸や硫酸などの無機酸を抽出剤として抽出するフコイダンの抽出方法(例えば、特許文献5参照)などが提案されている。また、フコキサンチンについては、海藻類の盤状体または糸状体を有機溶媒で抽出するフコキサンチンとフコステロールの取得方法(例えば、特許文献6参照)、遮光雰囲気下でエタノールを用いて海藻類を抽出するフコキサンチンの精製方法(例えば、特許文献7参照)などが提案されている。
Conventionally, various methods have been tried in order to efficiently obtain such fucoidan and fucoxanthin.
For example, for fucoidan, a method of obtaining a highly viscous fucoidan-containing solution by extraction from seaweed with water, warm water, or hydrochloric acid (see, for example, Patent Document 3), hot water of 60-100 ° C. from mozuku is used. A method for extracting a hot water extract containing fucoidan by extraction (for example, see Patent Document 4), and a method for extracting fucoidan by extracting an inorganic acid such as hydrochloric acid or sulfuric acid from cultured Okinawa mozuku as an extractant (for example, see Patent Document 5) ) Etc. have been proposed. As for fucoxanthin, a method for obtaining fucoxanthin and fucosterol by extracting a plate or filament of seaweed with an organic solvent (see, for example, Patent Document 6), and using seawater in a light-shielded atmosphere, A method for purifying fucoxanthin to be extracted (see, for example, Patent Document 7) has been proposed.

これらの方法は、その処理操作の中に加熱したり、塩酸などの強い酸で処理するという工程があるため、フコイダンまたはフコキサンチンの品質に悪影響があったり、製造装置の腐食の問題などがあった。また、いずれもフコイダンまたはフコキサンチンのいずれかのみを単独で、またはその他の成分とともに得ることを目的として検討されたものであり、そのための好ましい方法や条件を開示しているが、いずれも優れた薬理作用を有するフコイダンとフコキサンチンとを同一の処理工程の中で同時に効率よく製造する方法はまだ知られていない。   In these methods, there are processes such as heating or treatment with a strong acid such as hydrochloric acid in the processing operation, which has a negative effect on the quality of fucoidan or fucoxanthin, and there is a problem of corrosion of the production equipment. It was. In addition, both have been studied for the purpose of obtaining either fucoidan or fucoxanthin alone or in combination with other components, and preferred methods and conditions therefor have been disclosed. A method for efficiently and efficiently producing fucoidan and fucoxanthin having a pharmacological action simultaneously in the same treatment process is not yet known.

特開2001−335480号公報JP 2001-335480 A 特開平10−151856号公報Japanese Patent Laid-Open No. 10-151856 特開昭61−57519号公報JP-A 61-57519 特開平10−70970号公報JP-A-10-70970 特開平10−165114号公報JP 10-165114 A 特開2004−35528号公報JP 2004-35528 A 特開2004−75634号公報JP 2004-75634 A

即ち、本発明は、このような従来の方法の課題を解決し、フコイダンとフコキサンチンとを同時に効率よく製造する方法を提供することをその目的とするものである。   That is, an object of the present invention is to solve the problems of the conventional method and provide a method for efficiently producing fucoidan and fucoxanthin simultaneously.

本発明者らは、フコイダンとともにフコキサンチンを含有する海藻類であるオキナワモズクに注目して、これらの成分を効率よく入手することのできる方法について鋭意検討を行い、本発明を完成した。   The present inventors paid attention to Okinawa mozuku, which is a seaweed containing fucoxanthin together with fucoidan, and conducted earnest studies on methods for obtaining these components efficiently, and completed the present invention.

即ち、本発明は以下の内容をその要旨とするものである。
(1)予め破砕処理を行ったオキナワモズクを、抽出時の実質濃度が65〜85容積%のエタノールで温度10〜50℃で抽出処理し、固液分離後の抽出液を樹脂吸着処理に付して、この吸着樹脂から濃度85〜100容積%のエタノールで溶出させた溶出液からフコキサンチンを得るとともに、固液分離後の抽出残渣を有機酸を用いてpH2〜6の範囲で抽出し、この抽出液からフコイダンを得ることを特徴とするフキコサンチンとフコイダンの同時製造方法。
(2)抽出時のエタノールの実質濃度が70〜80容積%、温度が20〜30℃であることを特徴とする、前記(1)記載のフキコサンチンとフコイダンの同時製造方法。
(3)樹脂吸着処理の吸着樹脂が、スチレン−ジビニルベンゼン共重合体であることを特徴とする、前記(1)または(2)に記載のフキコサンチンとフコイダンの同時製造方法。
(4)樹脂吸着処理した樹脂をカラムに充填し、溶出液として濃度85〜100容積%のエタノールを用いて溶出した溶出液からフキコサンチンを分離することを特徴とする、前記(1)ないし(3)のいずれかに記載のフキコサンチンとフコイダンの同時製造方法。
(5)固液分離後のエタノール抽出残渣に対して質量基準で1〜10倍量の有機酸を加えることを特徴とする、前記(1)に記載のフキコサンチンとフコイダンの同時製造方法。
(6)有機酸が、クエン酸、酢酸、プロピオン酸、酪酸、吉草酸、ステアリン酸、マロン酸、コハク酸、グルタル酸、アジピン酸、マレイン酸、フマル酸、グリコール酸、安息香酸からなる群から選択される少なくとも一つの化合物であることを特徴とする、前記(1)または(5)に記載のフキコサンチンとフコイダンの同時製造方法。
(7)有機酸による抽出の温度が25〜95℃であることを特徴とする、前記(1)、(5)または(6)に記載のフキコサンチンとフコイダンの同時製造方法。
That is, the gist of the present invention is as follows.
(1) Okinawa Mozuku, which had been previously crushed, was extracted at a temperature of 10 to 50 ° C. with ethanol having a substantial concentration during extraction of 65 to 85% by volume, and the extracted liquid after solid-liquid separation was subjected to a resin adsorption process. Then, fucoxanthin is obtained from the eluate eluted from this adsorption resin with ethanol at a concentration of 85 to 100% by volume, and the extraction residue after solid-liquid separation is extracted in the range of pH 2 to 6 using an organic acid, A method for simultaneously producing fucosanthin and fucoidan, wherein fucoidan is obtained from the extract.
(2) The method for simultaneous production of fucosanthin and fucoidan according to the above (1), wherein the concentration of ethanol at the time of extraction is 70 to 80% by volume and the temperature is 20 to 30 ° C.
(3) The simultaneous production method of fucosanthin and fucoidan according to (1) or (2) above, wherein the adsorption resin in the resin adsorption treatment is a styrene-divinylbenzene copolymer.
(4) The resin adsorbed resin is packed in a column, and fucosanthin is separated from the eluate eluted using ethanol having a concentration of 85 to 100% by volume as the eluent. ) A method for simultaneous production of fucosanthin and fucoidan according to any of the above.
(5) The method for simultaneous production of fucosanthin and fucoidan according to (1), wherein 1 to 10 times the amount of organic acid is added on a mass basis to the ethanol extraction residue after solid-liquid separation.
(6) The organic acid is selected from the group consisting of citric acid, acetic acid, propionic acid, butyric acid, valeric acid, stearic acid, malonic acid, succinic acid, glutaric acid, adipic acid, maleic acid, fumaric acid, glycolic acid, benzoic acid. The method for simultaneously producing fucosanthin and fucoidan according to the above (1) or (5), wherein the method is at least one compound selected.
(7) The method for simultaneously producing fucosanthin and fucoidan according to (1), (5) or (6) above, wherein the extraction temperature with an organic acid is 25 to 95 ° C.

本発明のフキコサンチンとフコイダンの同時製造方法によれば、一連の一つの製造工程によって、オキナワモズクを原料として、これから簡便な操作で、かつ効率よくフコイダンとともにフコキサンチンを同時に得ることができる。
また、本発明の方法によれば、その工程中で加熱処理を行うことがないのでフコキサンチンの加熱による分解や劣化がなく、また、フコイダンがフコキサンチンを抽出後の残渣から得られたものであるので、従来のものに比べて色相の良好な、淡茶白色のものが得られる。
According to the method for simultaneously producing fucosanthin and fucoidan according to the present invention, fucoxanthin can be obtained simultaneously with fucoidan by a simple operation and efficiently using Okinawa mozuku as a raw material by one series of production steps.
In addition, according to the method of the present invention, since no heat treatment is performed in the process, fucoxanthin is not decomposed or deteriorated by heating, and fucoidan is obtained from the residue after extracting fucoxanthin. As a result, a light brown white product having a better hue than the conventional one can be obtained.

本発明のフキコサンチンとフコイダンの同時製造方法の工程の概略を図1に示す。以下、図1によって本発明を説明する。
原料のオキナワモズクをまず破砕処理し、これにエタノールを加えて抽出処理を行う。このエタノールによる抽出処理は、オキナワモズクに作用するエタノールの実質濃度が65〜85容積%、好ましくは70〜80容積%であることが必要である。原料に生オキナワモズクや湿潤オキナワモズクを使用する場合は、この中の水分による希釈を考慮する必要があり、この場合には一般的に抽出用のエタノールとしては85〜100容積%の濃度のものを用い、これがオキナワモズク中の水分で希釈されて、抽出処理の際のエタノールの実質濃度が65〜85容積%となるように調整する。
FIG. 1 shows an outline of the steps of the method for simultaneous production of fucosanthin and fucoidan according to the present invention. Hereinafter, the present invention will be described with reference to FIG.
The raw Okinawa mozuku is first crushed, and ethanol is added to it for extraction. This extraction treatment with ethanol requires that the substantial concentration of ethanol acting on Okinawa mozuku be 65 to 85% by volume, preferably 70 to 80% by volume. When using raw Okinawa moist and moist Okinawa mozuku as raw materials, it is necessary to consider dilution with water in this, and in this case, ethanol for extraction generally has a concentration of 85 to 100% by volume. This is diluted with water in Okinawa Mozuku and adjusted so that the actual concentration of ethanol during the extraction process is 65 to 85% by volume.

このエタノールの実質濃度が65容積%未満の場合には、フコキサンチンの抽出溶媒への溶解性が低くなるため抽出液中にフコキサンチンが十分に抽出されず、フコキサンチンの収率が低下する。更に、抽出液の中に溶解して流出するフコイダン成分が増加して、抽出残渣から得られるフコイダンの量が減少してしまう。また、抽出液へフコイダンが混入するため、抽出液からフコキサンチンを得る場合にフコキサンチンの精製に支障をきたす。エタノールの実質濃度が85容積%を超える場合には、抽出液への不純物のクロロフィルの溶解量が増加してしまい、フコキサンチンの精製が困難となるという問題がある。   When the substantial concentration of ethanol is less than 65% by volume, fucoxanthin is not sufficiently extracted in the extract because the solubility of fucoxanthin in the extraction solvent is low, and the yield of fucoxanthin decreases. Furthermore, the fucoidan component that dissolves and flows out in the extract increases, and the amount of fucoidan obtained from the extraction residue decreases. Moreover, since fucoidan is mixed in the extract, it interferes with the purification of fucoxanthin when obtaining fucoxanthin from the extract. If the actual concentration of ethanol exceeds 85% by volume, the amount of impurity chlorophyll dissolved in the extract increases, which makes it difficult to purify fucoxanthin.

また、抽出処理の温度は10〜50℃であり、好ましくは15〜35℃、より好ましくは20〜30℃の室温である。抽出温度が10℃未満の場合には、抽出溶媒へのフコキサンチンの溶解性が低下し、フコキサンチンの収率が減少し、また50℃を超える場合には加熱によるフコキサンチンの分解と抽出溶媒に使用するエタノールの揮発による抽出溶媒濃度の低下が起こり、フコキサンチンの収率が減少し、いずれも好ましくない。   Moreover, the temperature of an extraction process is 10-50 degreeC, Preferably it is 15-35 degreeC, More preferably, it is room temperature of 20-30 degreeC. When the extraction temperature is less than 10 ° C, the fucoxanthin solubility in the extraction solvent decreases, and the fucoxanthin yield decreases, and when it exceeds 50 ° C, the fucoxanthin is decomposed by heating and the extraction solvent. The concentration of the extraction solvent is reduced due to volatilization of ethanol used in the above, and the yield of fucoxanthin is reduced.

この抽出処理は、原料のオキナワモズクが1質量部に対してエタノールが1〜6質量部、好ましくは2〜5質量部の割合で、オキナワモズクにエタノールを加えて、これを緩やかに攪拌して抽出処理する。処理時間は0.5〜24時間であり、好ましくは1〜3時間である。   This extraction treatment is performed by adding ethanol to Okinawa mozuku at a ratio of 1 to 6 parts by mass, preferably 2 to 5 parts by mass of ethanol with respect to 1 part by mass of raw material Okinawa mozuku, and stirring this gently. Extraction process. The treatment time is 0.5 to 24 hours, preferably 1 to 3 hours.

抽出処理が終わったオキナワモズクとエタノールの混合物を固液分離装置によって、エタノール抽出液とオキナワモズクの抽出残渣とに分離する。固液分離装置としては、一般的に使用されている種々のタイプのろ過装置や遠心分離機が使用できる。   The mixture of Okinawa mozuku and ethanol after the extraction treatment is separated into an ethanol extract and an Okinawa mozuku extraction residue by a solid-liquid separator. As the solid-liquid separator, various types of commonly used filtration devices and centrifuges can be used.

次に、固液分離後の抽出液を樹脂吸着処理に付して、樹脂にフコキサンチンを選択的に吸着させ、フコキサンチンの精製を行う。また、抽出液中のフコキサンチンの濃度が非常に希薄であるので、この樹脂吸着処理によって比較的容易に濃縮、精製することができ、加熱したり減圧下に濃縮する必要がない。固液分離後の抽出液には、不純物としてクロロフィルが混入し、抽出に使用するエタノール濃度が高くなるほどその混入量が増加してくる。樹脂吸着処理によって、フコキサンチンを選択的に樹脂に吸着させ、クロロフィルを分離除去する。   Next, the extract after solid-liquid separation is subjected to a resin adsorption treatment, and fucoxanthin is selectively adsorbed on the resin to purify fucoxanthin. Moreover, since the concentration of fucoxanthin in the extract is very dilute, it can be concentrated and purified relatively easily by this resin adsorption treatment, and it is not necessary to heat or concentrate under reduced pressure. Chlorophyll is mixed as an impurity in the extracted liquid after solid-liquid separation, and the amount of mixing increases as the ethanol concentration used for extraction increases. By the resin adsorption treatment, fucoxanthin is selectively adsorbed on the resin and chlorophyll is separated and removed.

この樹脂吸着処理はフコキサンチンを選択的に効率よく吸着する必要がある。この目的のためには、樹脂としてはスチレンージビニルベンゼン共重合体のものが好ましい。このような吸着樹脂としては、例えば、商品名として、Dianion HP20(三菱化学(株)製)が好ましく使用することができる。このほかにも、Dianion HP21、Dianion SP207、Dianion SP825(いずれも三菱化学(株)製)、Amberlite XAD1180、Amberlite XAD1600(いずれもロームアンドハース(株)製)、Amberchrom CG161(トーソーハース(株)製)なども使用することができる。   This resin adsorption treatment needs to selectively and efficiently adsorb fucoxanthin. For this purpose, the resin is preferably a styrene-divinylbenzene copolymer. As such an adsorbent resin, for example, Dianion HP20 (manufactured by Mitsubishi Chemical Corporation) can be preferably used as a trade name. In addition, Dianion HP21, Dianion SP207, Dianion SP825 (all manufactured by Mitsubishi Chemical Corporation), Amberlite XAD1180, Amberlite XAD1600 (all manufactured by Rohm and Haas Corporation), Amberchrom CG161 (Tosohers Corporation) ) Etc. can also be used.

次いで、この樹脂に吸着したフコキサンチンをエタノールによって溶出させ、精製フコキサンチンを得る。溶出液は、その濃度が85〜100容積%、好ましくは95容積%のエタノールを用いる。溶出操作は容器中に樹脂とエタノールを入れて攪拌するバッチ法でもよいが、より好ましくはカラムに樹脂を充填し、ここに溶出液のエタノールをカラムの上部から流入させ、流出する溶出液を分取することが好ましい。この方法によって、フコキサンチンの濃度の高い画分を選択的に採取することができる。このようにして精製されたフコキサンチンを得ることができる。   Subsequently, fucoxanthin adsorbed on the resin is eluted with ethanol to obtain purified fucoxanthin. The eluent is ethanol having a concentration of 85 to 100% by volume, preferably 95% by volume. The elution operation may be a batch method in which a resin and ethanol are placed in a container and stirred, but more preferably, the column is filled with the resin, and ethanol in the eluate is introduced into the column from the top of the column to separate out the eluted eluate. It is preferable to take. By this method, a fraction having a high fucoxanthin concentration can be selectively collected. Thus purified fucoxanthin can be obtained.

このようにして得られた精製フコキサンチン抽出液は、その保存安定性や取り扱い性の点から、これを食用油に加えて、フコキサンチン成分を油に分配したものとすることが好ましい。この場合には、抽出液のエタノール濃度が50容積%前後のものが最も効率よく食用油に移行し、溶解する。食用油としては、サフラワー油、ひまわり油、ツバキ油、オリーブ油などが使用できる。これらの食用油にエタノール濃度を50容積%前後に調整したフコキサンチン抽出液を加え、1時間から一晩放置してフコキサンチンを食用油に移行させる。   The purified fucoxanthin extract thus obtained is preferably one obtained by adding the fucoxanthin component to the oil by adding it to the edible oil from the viewpoint of storage stability and handleability. In this case, an extract having an ethanol concentration of around 50% by volume is most efficiently transferred to edible oil and dissolved. As edible oil, safflower oil, sunflower oil, camellia oil, olive oil and the like can be used. To these edible oils, a fucoxanthin extract whose ethanol concentration is adjusted to around 50% by volume is added, and left for 1 hour to overnight to transfer fucoxanthin to the edible oil.

一方、エタノール抽出処理による固液分離後の抽出残渣は、更に抽出剤としての有機酸と一定量の水と混合し、pHが2〜6の範囲内となる条件で再度抽出処理を行う。この場合の抽出残渣と有機酸との混合比率は、質量比で抽出残渣が1000部に対し有機酸が1〜100部であり、好ましくは抽出残渣が1000部に対し有機酸が5〜30部である。抽出残渣が1000部に対して有機酸の使用量が1部未満となると、単位時間あたりの抽出効率が著しく低下するため、また、有機酸の使用量が100部を超えると、不純物量が多くなったりフコイダンの抽出効率が低下する場合があるため好ましくない。   On the other hand, the extraction residue after the solid-liquid separation by the ethanol extraction treatment is further mixed with an organic acid as an extracting agent and a certain amount of water, and subjected to the extraction treatment again under the condition that the pH is in the range of 2-6. In this case, the mixing ratio of the extraction residue to the organic acid is 1 to 100 parts of organic acid with respect to 1000 parts of extraction residue in mass ratio, preferably 5 to 30 parts of organic acid with respect to 1000 parts of extraction residue. It is. If the amount of organic acid used is less than 1 part with respect to 1000 parts of extraction residue, the extraction efficiency per unit time will be significantly reduced. If the amount of organic acid used exceeds 100 parts, the amount of impurities will be large. Or the extraction efficiency of fucoidan may be reduced.

抽出剤としての有機酸は、クエン酸、酢酸、プロピオン酸、酪酸、吉草酸、ステアリン酸、マロン酸、コハク酸、グルタル酸、アジピン酸、マレイン酸、フマル酸、グリコール酸、安息香酸からなる群から選択される少なくとも一つの化合物であるが、この中でもクエン酸が特に好ましい。   Organic acids as extractants are the group consisting of citric acid, acetic acid, propionic acid, butyric acid, valeric acid, stearic acid, malonic acid, succinic acid, glutaric acid, adipic acid, maleic acid, fumaric acid, glycolic acid, benzoic acid At least one compound selected from the group consisting of citric acid.

有機酸による抽出は、pHが2〜6の範囲内で行うことが必要であり、好ましくはpHが2〜4の範囲である。抽出温度は25〜95℃であり、好ましくは85〜95℃である。このような条件で抽出を行うことによってフコイダンを高い効率で得ることができる。   The extraction with an organic acid needs to be performed within a pH range of 2 to 6, and preferably has a pH range of 2 to 4. Extraction temperature is 25-95 degreeC, Preferably it is 85-95 degreeC. By performing extraction under such conditions, fucoidan can be obtained with high efficiency.

本発明で原料として使用するオキナワモズクは養殖および天然オキナワモズクが使用できるが、いずれも収穫後、保存性を良好にするため塩蔵したり、冷蔵してあることが多い。このため、一般に使用前に前処理として、塩抜きしたり、解凍することが好ましい。具体的には、水道水を用いて表面の塩を洗い流した後、一例として、1000リットルの容器内に、250Kgの割合でオキナワモズクを収容した状態で、水を流しながら0.5〜5時間浸漬するのが好ましい。   The Okinawa mozuku used as a raw material in the present invention can be aquacultured or natural Okinawa mozuku, and both of them are often salted or refrigerated after harvest to improve the storage stability. For this reason, it is generally preferable to remove salt or thaw as a pretreatment before use. Specifically, after rinsing the salt on the surface with tap water, as an example, in a 1000 liter container, Okinawa mozuku is contained at a rate of 250 Kg while flowing water for 0.5 to 5 hours. It is preferable to immerse.

また、抽出効率を上げるために、オキナワモズクを小片に破砕するのが好ましい。この小片の大きさについても特に制限されるものではないが、具体的に、カッターミキサー等を用いて、長さ(長辺)を0.1〜50mmの範囲内の値とするのが好ましく、0.5〜30mmの範囲内の値とするのがより好ましく、1〜5mmの範囲内の値とするのがさらに好ましい。   In order to increase the extraction efficiency, it is preferable to crush the Okinawa mozuku into small pieces. The size of the small piece is not particularly limited, but specifically, it is preferable to set the length (long side) to a value within the range of 0.1 to 50 mm using a cutter mixer or the like. A value in the range of 0.5 to 30 mm is more preferable, and a value in the range of 1 to 5 mm is more preferable.

本発明の方法でのオキナワモズクのエタノールによる抽出処理は、抽出容器内にて撹拌することが好ましい。具体的には、撹拌翼を用いて、5〜200rpmの回転数で撹拌することが好ましく、10〜100rpmの回転数で撹拌することがより好ましく、20〜80rpmの回転数で撹拌することがさらに好ましい。この理由は、撹拌翼の回転数が5rpm未満となると、抽出効率が著しく低下する場合があるためであり、一方、撹拌翼の回転数が200rpmを超えると、気泡を巻き込みやすくなり、逆に抽出効率が低下したり、製造設備が大掛かりとなる場合があるためである。   The extraction treatment of Okinawa mozuku with ethanol in the method of the present invention is preferably stirred in an extraction vessel. Specifically, it is preferable to stir at a rotation speed of 5 to 200 rpm using a stirring blade, more preferably stirring at a rotation speed of 10 to 100 rpm, and further stirring at a rotation speed of 20 to 80 rpm. preferable. The reason for this is that when the rotation speed of the stirring blade is less than 5 rpm, the extraction efficiency may be remarkably lowered. On the other hand, when the rotation speed of the stirring blade exceeds 200 rpm, it becomes easy to entrain bubbles, and on the contrary, extraction is performed. This is because the efficiency may be reduced and the manufacturing equipment may become large.

以上のような本発明のフキコサンチンとフコイダンの同時製造方法によって、フコイダンとともに医薬をはじめ種々の用途に有用なフコキサンチンを一つの製造プロセスで効率よく取得することができる。また、本発明の方法によれば、フコキサンチンの製造工程では80℃以上のような高い温度の加熱処理がないので、得られるフコキサンチンの加熱による劣化や分解がない。更に、本発明の方法で得られるフコイダンは、その製造過程でフコキサンチンが除かれたものであり、従来の方法で得られるフコイダンが濃い茶色であるのに比べて製品の色が薄く、淡茶白色をしており、保湿剤や化粧品などの用途への利用にも有利である。   By the simultaneous production method of fucosantin and fucoidan of the present invention as described above, fucoxanthin useful for various uses including pharmaceuticals can be efficiently obtained together with fucoidan in one production process. Moreover, according to the method of the present invention, since there is no heat treatment at a high temperature of 80 ° C. or higher in the production process of fucoxanthin, there is no deterioration or decomposition due to heating of the obtained fucoxanthin. Further, the fucoidan obtained by the method of the present invention is obtained by removing fucoxanthin in the production process, and the color of the product is lighter than the fucoidan obtained by the conventional method is dark brown, and light brown It is white and is advantageous for use in applications such as moisturizers and cosmetics.

次に、本発明を実施例によって更に詳しく説明するが、本発明はこれらの実施例に限定されるものではない。また、実施例中の「%」及び「部」は、いずれも特に注記しない限り質量基準である。   EXAMPLES Next, although an Example demonstrates this invention further in detail, this invention is not limited to these Examples. Further, “%” and “part” in the examples are based on mass unless otherwise noted.

(1) オキナワモズクの抽出
湿潤状態の破砕処理したオキナワ生モズク(産地:沖縄県宮古島産)の50g(内訳、モズク:5g、含有水:45g)を用い、これに表1に示すように95容積%エタノールまたは水を添加して、種々のエタノール濃度となるエタノールとオキナワモズクの混合物を調製した。ただし、試験10に関しては、50g生モズクを40℃で24時間通風乾燥した藻体を用い、99.5容積%のエタノールを使用して抽出した。この混合物を室温で2時間、回転数200rpmのプロペラ攪拌機で攪拌して抽出処理を行った。抽出処理の終了後、これを毎分6000回転の遠心分離機に10分間かけて、さらにこれを減圧濾過(ろ紙保留粒子径1μm)して抽出液と固形分残渣に分離した。
(1) Extraction of Okinawa Mozuku Using 50 g (breakdown, Mozuku: 5 g, water content: 45 g) of Okinawa raw mozuku (produced in Miyakojima, Okinawa Prefecture) that has been crushed in a wet state, as shown in Table 1, 95 Volume% ethanol or water was added to prepare a mixture of ethanol and Okinawa mozuku with various ethanol concentrations. However, for test 10, 50 g fresh mozuku was extracted by using 99.5 vol% ethanol using alga bodies dried by ventilation at 40 ° C for 24 hours. This mixture was stirred for 2 hours at room temperature with a propeller stirrer having a rotation speed of 200 rpm to perform extraction treatment. After completion of the extraction treatment, this was passed through a centrifuge at 6000 rpm for 10 minutes, and further filtered under reduced pressure (filter paper retained particle size 1 μm) to separate the extract into a solid residue.

Figure 2008255231
Figure 2008255231

(2) フコキサンチンの精製と定量
固液分離後の抽出液をエタノール濃度50容積%に調製した後、吸着樹脂(Diaion HP20、三菱化学(株)製)を添加し、室温で1時間攪拌して吸着処理を行った。吸着樹脂を回収し洗浄した後、これをカラムに充填し、溶出液として99.5容積%のエタノールを用いて溶出し、溶出液中のフコキサンチンの定量を行った。
フコキサンチンの定量は、以下の条件で高速液体クロマトグラフによって行った。なお、フコキサンチン標準品としては、NMRにより純度検定したフコキサンチンを用いた。
(2) Purification and quantification of fucoxanthin After the solid-liquid separation, the extract is adjusted to 50% by volume of ethanol, adsorbed resin (Diaion HP20, manufactured by Mitsubishi Chemical Corporation) is added, and the mixture is stirred at room temperature for 1 hour. The adsorption treatment was performed. After the adsorbed resin was collected and washed, it was packed in a column and eluted with 99.5% by volume of ethanol as an eluent, and fucoxanthin in the eluate was quantified.
Quantification of fucoxanthin was performed by high performance liquid chromatography under the following conditions. In addition, as a fucoxanthin standard product, fucoxanthin subjected to purity test by NMR was used.

<測定機器および測定条件>
機 種 : Waters社製高速液体クロマトグラフ装置
測定波長: 450nm
カラム : Gemini 5μ、C18/10A、150×4.60mm
カラム温度: 30℃
移動相及び分析時間: 80%→100%MeOHの直線勾配、30分
流 速 : 1.0mL/mL
<Measurement equipment and measurement conditions>
Model: High-performance liquid chromatograph manufactured by Waters Measurement wavelength: 450 nm
Column: Gemini 5μ, C18 / 10A, 150 × 4.60mm
Column temperature: 30 ° C
Mobile phase and analysis time: 80% → 100% MeOH linear gradient, 30 minutes Flow rate: 1.0 mL / mL

(3) フコイダンの抽出と定量
オキナワモズクをエタノール抽出した後固液分離で得られた固形分残渣10〜15gに、30mMのクエン酸溶液100mLを加え、pHが2〜3の範囲で95℃で1持間攪拌して抽出処理を行った。この混合物を6000rpmで15分間の遠心分離にかけ、次いで減圧濾過し、得られたろ液を脱塩し、凍結乾燥後秤量した。フコイダンの分析はアントロン硫酸法によりフコース量を定量した。
以上によって得られた種々のエタノール濃度におけるフコキサンチンの収量と収率を表2に、フコイダンの収量と収率を表3に示す。また、これをグラフに表したものを図2に示す。
(3) Extraction and quantification of fucoidan 100 mL of 30 mM citric acid solution was added to 10-15 g of solid residue obtained by ethanol extraction of Okinawa mozuku and then at a temperature of 95 ° C. in the range of 2-3. The extraction process was performed with stirring for one hour. The mixture was centrifuged at 6000 rpm for 15 minutes and then filtered under reduced pressure. The resulting filtrate was desalted, lyophilized and weighed. For the analysis of fucoidan, the amount of fucose was quantified by anthrone sulfate method.
The yield and yield of fucoxanthin at various ethanol concentrations obtained as described above are shown in Table 2, and the yield and yield of fucoidan are shown in Table 3. Moreover, what represented this in the graph is shown in FIG.

Figure 2008255231
Figure 2008255231

Figure 2008255231
Figure 2008255231

(4) クロロフィル
固液分離後のエタノール抽出液の中のクロロフィルの溶解量は、分光光度計で660nmにおける吸光度を測定して、得られた吸光度の値からクロロフィルの溶解量の相対的な値を評価した。その結果を表4及び図3に示す。
(4) The amount of chlorophyll dissolved in the ethanol extract after chlorophyll solid-liquid separation is determined by measuring the absorbance at 660 nm with a spectrophotometer, and calculating the relative value of the amount of chlorophyll dissolved from the obtained absorbance value. evaluated. The results are shown in Table 4 and FIG.

Figure 2008255231
Figure 2008255231

表2および表3の結果からわかるように、オキナワモズクの抽出溶媒であるエタノールの実質濃度が65容積%未満であると、目的物質のひとつであるフコキサンチンの収量と収率が大幅に低下してしまう。また、エタノール濃度が85容積%を超える場合には、不純物であるクロロフィルの量が急激に増加してしまい好ましくない。エタノール濃度が65〜85容積%でオキナワモズクを抽出処理し、抽出液をHP20樹脂での樹脂吸着処理に付し、抽出残渣のモズクをクエン酸で抽出することによって、不純物の混入が少なく高純度のフコキサンチンとフコイダンの両方を効率よく抽出によって得ることができる。   As can be seen from the results in Table 2 and Table 3, when the real concentration of ethanol, which is the extraction solvent for Okinawa mozuku, is less than 65% by volume, the yield and yield of fucoxanthin, one of the target substances, are greatly reduced. End up. On the other hand, when the ethanol concentration exceeds 85% by volume, the amount of chlorophyll which is an impurity increases rapidly, which is not preferable. Extraction of Okinawa Mozuku at an ethanol concentration of 65 to 85% by volume, subjecting the extract to resin adsorption treatment with HP20 resin, and extraction mozuku of the extraction residue with citric acid, resulting in high purity with less impurities Both fucoxanthin and fucoidan can be efficiently extracted.

図1に従った本発明の方法の製造実施例を示す。
塩蔵された500Kgのオキナワモズク(産地:今帰仁)を、流水で3回洗浄し、表面の塩分を取り除いた後、1、000リットルの容器内に収容し、さらに水を流しながら1時間水道水に浸漬した。次いで、容器からオキナワモズクを取り出し、カッターミキサーを用いて、オキナワモズクの長さ(長辺)を約2mmに裁断した。この小片化した湿潤状態のオキナワモズクを用いて、以下の抽出条件で抽出を行いフコキサンチンとフコイダンを製造した。
Fig. 2 shows a manufacturing example of the method of the invention according to Fig. 1;
Salted 500 kg Okinawa Mozuku (source: Nakijin) was washed 3 times with running water to remove the surface salt, and then stored in a 1,000 liter container, and further drained into tap water for 1 hour. Soaked. Next, Okinawa mozuku was taken out from the container, and the length (long side) of Okinawa mozuku was cut to about 2 mm using a cutter mixer. Extraction was carried out under the following extraction conditions using the fragmented wet Okinawa mozuku to produce fucoxanthin and fucoidan.

抽出容器として、内容積が2500リットル、攪拌機付きのステンレス製の容器を用い、これに上記の破砕処理した湿潤状態のオキナワモズク400kgと濃度85容積%の精製エタノール1600Lを投入し、室温で約2時間攪拌して抽出処理を行った。抽出処理後の混合物を3500Gで連続遠心分離にかけ、抽出液約1900リットル(エタノール濃度約70容積%)と固形物残渣約60〜80kgとに分離した。   As an extraction vessel, a stainless steel vessel with an internal volume of 2500 liters and a stirrer was used, and 400 kg of wet Okinawa mozuku that had been crushed and 1600 L of purified ethanol having a concentration of 85% by volume were added thereto, and about 2 at room temperature. The extraction process was performed with stirring for a period of time. The mixture after the extraction treatment was subjected to continuous centrifugation at 3500 G to separate the extract into about 1900 liters (ethanol concentration about 70% by volume) and solid residue about 60 to 80 kg.

得られた抽出液1900リットルを精密ろ過にかけ、これに吸着樹脂としてDianion HP20(三菱化学(株)製)を12リットル加えて、室温で約1時間の間攪拌し、樹脂吸着処理を行った。終了後、混合物をろ過して、吸着樹脂と廃エタノールに分離した。廃エタノールは、これを精留塔で濃縮精製して抽出溶媒として再利用した。一方、吸着樹脂は、これをカラム(直径200mm×高さ800mm)に充填し、まず60Lの精製水で洗浄し、次に濃度95容積%の精製エタノール16Lをカラムの頂部から導入して、吸着物を溶出させた。溶出液を10Lの分液ロートに採取した。   1900 liters of the obtained extract was subjected to microfiltration, and 12 liters of Dianion HP20 (manufactured by Mitsubishi Chemical Corp.) was added thereto as an adsorption resin, followed by stirring at room temperature for about 1 hour to perform resin adsorption treatment. After completion, the mixture was filtered and separated into adsorption resin and waste ethanol. Waste ethanol was concentrated and purified in a rectification column and reused as an extraction solvent. On the other hand, the adsorption resin is packed in a column (diameter 200 mm × height 800 mm), washed with 60 L of purified water, and then introduced with 16 L of purified ethanol having a concentration of 95% by volume from the top of the column. The product was eluted. The eluate was collected in a 10 L separatory funnel.

この溶出液に水を加えてエタノール濃度が50容積%となるように調整し、さらにここにサフラワー油1.0Lと0.025%のビタミンEを加えて十分に攪拌した後一晩放置した。その後、2層に分かれた下層を廃棄し、上層を回収した。この回収した上層はフコキサンチンを約1%含むサフラワー油であった。   Water was added to the eluate to adjust the ethanol concentration to 50% by volume, 1.0 L safflower oil and 0.025% vitamin E were added thereto, and the mixture was sufficiently stirred and allowed to stand overnight. . Thereafter, the lower layer divided into two layers was discarded, and the upper layer was recovered. The collected upper layer was safflower oil containing about 1% fucoxanthin.

一方、エタノール抽出後の遠心分離で得られた固形物残渣約60〜80kgに約2倍量の水を加え、更にクエン酸によってpHを3前後に調整し、90℃で約40分間攪拌して抽出した。次いで、中和した後この混合物を3500Gで連続遠心分離にかけ、更に限外ろ過にかけて脱塩し、その後殺菌、濃縮して、粗フコイダンのエキス或いはスプレードライしてエキス末を得た。   On the other hand, about twice the amount of water is added to about 60-80 kg of solid residue obtained by centrifugation after ethanol extraction, and the pH is adjusted to around 3 with citric acid, followed by stirring at 90 ° C. for about 40 minutes. Extracted. Next, after neutralization, the mixture was subjected to continuous centrifugation at 3500 G, further desalted by ultrafiltration, then sterilized and concentrated, and crude fucoidan extract or spray dried to obtain an extract powder.

本発明の方法によれば、オキナワモズクからフコイダンとフコキサンチンを容易に、かつ効率よく、一つの工程で抽出によって得ることができる。フコイダンとフコキサンチンは、抗コレステロール作用、血液清澄作用、抗血液凝固作用などがあり医薬品だけでなく健康食品や化粧品などにも有用である。従って、本発明の方法はこのような医薬品などに有用なフコイダンとフコキサンチンを入手する方法として有用なものである。   According to the method of the present invention, fucoidan and fucoxanthin can be obtained easily and efficiently from Okinawa mozuku in one step. Fucoidan and fucoxanthin have anticholesterol action, blood clarification action, anticoagulation action and the like, and are useful not only for pharmaceuticals but also for health foods and cosmetics. Therefore, the method of the present invention is useful as a method for obtaining fucoidan and fucoxanthin useful for such pharmaceuticals.

図1は本発明の方法の概要を示すフローチャートである。FIG. 1 is a flowchart showing an outline of the method of the present invention. 図2は実施例1で得られたフコキサンチントコイダンの収率を示すグラフである。FIG. 2 is a graph showing the yield of fucoxanthin tocoidan obtained in Example 1. 図3は実施例1においてクロロフィルの溶解量に対応するOD660nmにおける吸光度を示すグラフである。FIG. 3 is a graph showing the absorbance at OD 660 nm corresponding to the dissolved amount of chlorophyll in Example 1.

Claims (7)

予め破砕処理を行ったオキナワモズクを、抽出時の実質濃度が65〜85容積%のエタノールで温度10〜50℃で抽出処理し、固液分離後の抽出液を樹脂吸着処理に付し、この吸着樹脂から濃度85〜100容積%のエタノールで溶出させた溶出液からフコキサンチンを得るとともに、固液分離後の抽出残渣を有機酸を用いてpH2〜6の範囲で抽出し、この抽出液からフコイダンを得ることを特徴とするフキコサンチンとフコイダンの同時製造方法。   Okinawa mozuku that had been previously crushed was extracted at a temperature of 10 to 50 ° C. with ethanol having a substantial concentration during extraction of 65 to 85% by volume, and the extracted liquid after solid-liquid separation was subjected to resin adsorption treatment. Fucoxanthin is obtained from the eluate eluted from the adsorbent resin with ethanol at a concentration of 85 to 100% by volume, and the extraction residue after solid-liquid separation is extracted in the range of pH 2 to 6 using an organic acid. A method for simultaneously producing fucosanthin and fucoidan, wherein fucoidan is obtained. 抽出時のエタノールの実質濃度が70〜80容積%、温度が20〜30℃であることを特徴とする、請求項1に記載のフキコサンチンとフコイダンの同時製造方法。   The method for simultaneously producing fucosanthin and fucoidan according to claim 1, wherein the substantial concentration of ethanol during extraction is 70 to 80% by volume and the temperature is 20 to 30 ° C. 樹脂吸着処理の吸着樹脂が、スチレン−ジビニルベンゼン共重合体であることを特徴とする、請求項1または2に記載のフキコサンチンとフコイダンの同時製造方法。   The method for simultaneously producing fucosanthin and fucoidan according to claim 1 or 2, wherein the adsorption resin for the resin adsorption treatment is a styrene-divinylbenzene copolymer. 樹脂吸着処理した樹脂をカラムに充填し、溶出液として濃度85〜100容積%のエタノールを用いて溶出した溶出液からフキコサンチンを分離することを特徴とする、請求項1ないし3のいずれかに記載のフキコサンチンとフコイダンの同時製造方法。   4. The resin adsorbed resin is packed in a column, and fucosanthin is separated from the eluate eluted with ethanol having a concentration of 85 to 100% by volume as an eluent. Manufacturing method of fucosanthin and fucoidan. 固液分離後のエタノール抽出残渣に対して質量基準で1〜10倍量の有機酸を加えることを特徴とする、請求項1に記載のフキコサンチンとフコイダンの同時製造方法。   The method for simultaneously producing fucosanthin and fucoidan according to claim 1, wherein 1 to 10 times the amount of organic acid is added on a mass basis to the ethanol extraction residue after solid-liquid separation. 有機酸が、クエン酸、酢酸、プロピオン酸、酪酸、吉草酸、ステアリン酸、マロン酸、コハク酸、グルタル酸、アジピン酸、マレイン酸、フマル酸、グリコール酸、安息香酸からなる群から選択される少なくとも一つの化合物であることを特徴とする、請求項1または5に記載のフキコサンチンとフコイダンの同時製造方法。   The organic acid is selected from the group consisting of citric acid, acetic acid, propionic acid, butyric acid, valeric acid, stearic acid, malonic acid, succinic acid, glutaric acid, adipic acid, maleic acid, fumaric acid, glycolic acid, benzoic acid The method for simultaneous production of fucosanthin and fucoidan according to claim 1 or 5, characterized in that it is at least one compound. 有機酸による抽出の温度が25〜95℃であることを特徴とする、請求項1、5または6のいずれかに記載のフキコサンチンとフコイダンの同時製造方法。
The method for simultaneous production of fucosanthin and fucoidan according to any one of claims 1, 5 and 6, wherein the extraction temperature with an organic acid is 25 to 95 ° C.
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