RU2530637C1 - Method of producing fraction of phenol substances from shelf fungus - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: method of producing a fraction of phenol substances from shelf fungus includes grinding fungus, extracting the material with water, separating the aqueous extract from the extraction cake, boiling the extraction cake in an organic solvent, separating the organic extract, wherein before boiling the extraction cake is dried, the organic solvent used is ethyl acetate, the solvent is removed from the obtained extract under defined conditions.

EFFECT: method provides effective extraction of a fraction of phenol substances from shelf fungus, containing flavonoids, phenolcarboxylic acids, phenols with a simple structure, having marked biological activity.

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Description

The invention relates to the pharmaceutical industry, and in particular to the production of a fraction of biologically active phenolic substances from chaga.

Known methods for the isolation of phenolic substances from the fungus of the fungus, including the extraction of crushed mushroom with organic solvents: ethyl alcohol (Zheng Wei-Fa // Mycosystema. - 2008. - V.27. - P.575-581), methanol (Yu Jin Kim // J. Korean Soc. Appl. Biol. Chem. - 2011. - V.54. - P.287-294), hexane (Kahlos K. // Planta Medica. - 1984. - No. 50. - P.197-198 ) Compounds of phenolic nature were identified in the extracts: analogues of gispidine, flavonoids (apeginin, naringenin, morin, myricetin, robinetin, kempferol), phenol carboxylic acids (xanthurene, p-coumaric, β-, γ-resorcylic, gallic, lilac, cinnamon). These substances have high biological and therapeutic properties.

The disadvantage of these methods is to extract a small amount of phenolic substances and the complexity (multi-stage) of the extraction process.

A known method of isolating the fraction of phenolic substances from the fungus fungus (W. Mazurkiewicz [and others] // Acta Poloniae Pharmaceutica. - 2010. - V.67, I.4. - P.397-406). An aqueous fungus extract is obtained, which is then concentrated and dried. Then, the dry residue is hydrolyzed with hydrochloric acid, precipitate 1 is separated off, the remaining filtrate is evaporated to dryness and precipitate 2 is obtained. Precipitates 1 and 2 are treated with ethyl acetate and methanol, the resulting extracts are combined and the solvents are removed in vacuo to obtain a dry black residue. The separation of solids is carried out using column chromatography.

A known method of producing phenolic substances from the fungus of the fungus, including obtaining ethanol extracts of the fungus, their further concentration in vacuo, gel filtration and elution with methanol. Get two fractions of dark and yellow color, which are combined and then evaporated to dryness in a stream of nitrogen (Zheng Wei-Fa // Mycosystema. - 2008. - V.27. - P.575-581).

A known method of separating the fraction of phenolic substances from the fungus of the fungus (Sysoyeva M. A. Separation of aqueous extracts of the fungus using ethyl acetate. IV. The composition of the substances of phenolic and terpene nature, separated from the aqueous extraction of the fungus by ethyl acetate / Sysoeva MA [and others] / / Chemistry of plant raw materials. - 2008. - No. 4. - S.111-114). An aqueous extraction of the fungus is obtained, exhaustive extraction of the aqueous extracts with ethyl acetate is carried out. Next, the ethyl acetate extract is concentrated, melanin is separated and the extractives are separated according to a standard scheme.

A known method of isolating a fraction of phenolic substances from a fungus fungus (Zhao YX et al. // Chinese Herbal Medicines. - 2013. V.5 (1). - P.67-72). Chaga mushroom is cultivated on agar medium with potato dextrose for 7 days, and then on a rocking chair in 500 ml flasks for 14 days. Mushroom mycelium is filtered through a paper filter, washed with distilled water. 50 mg of mushroom mycelium is poured into 20 ml of distilled water, 7 ml of acetone, 5.5 mg of ammonium sulfate and extraction is carried out using ultrasound for 5 minutes. The top layer of the organic extract was selected and adjusted to volume with 30% ethyl alcohol. The amount of extractive phenolic substances was determined by the Folin-Ciocalteu method, their content was 37.8 mg / g.

The disadvantage of these methods is the difficulty in the isolation and analysis of phenolic substances from water extracts of chaga, which consists in the fact that these biologically active substances are in the colloidal system of water extraction of chaga in both free and melanin-bound state (Kalashnikova E.A. the composition and standardization of the raw material of chaga and the drug "Befungin": abstract of dissertation ... Dr. of Pharmaceutical Sciences / EA Kalashnikova. - Pyatigorsk, 2003. - 22 p.). In addition, these methods are characterized by the irrational use of raw materials, since about 20 ± 5% of the fungal substances go into the water and alcohol extracts of the fungus. At the same time, a significant part of the biologically active chaga compounds, which have hydrophobic properties, remain in the meal (pulp, pulp, and the remainder of the feed). In industry, meal is not used in the future. Moreover, it is known that 70% of phenolic substances remain in the chaga meal (Yumaeva L.R. Composition and properties of extracts from the chaga meal: abstract of diss. ... candidate of chemical sciences / LR Yumaev. - Kazan, 2009. - 16 s.). The composition of phenolic substances extracted from natural raw materials and cultured raw materials is significantly different.

The closest technical solution, taken as a prototype, is a method for producing alcohol extract from chaga (RF patent No. 2341277, A61K 36/06, B01D 11/02, 2007). The chopped chaga is extracted with water, and the aqueous extract is separated from the meal. Meal is poured with 70% ethyl alcohol and boiled for 1-3 hours. The resulting alcoholic extract is separated.

The disadvantage of this method is the extraction from the chaga of a complex complex of compounds, including phenolic substances, carbohydrates and melanin. This complicates the method of standardization of the obtained extracts, the allocation of individual biologically active substances from them.

An object of the present invention is to develop a method for producing a fraction of phenolic substances, including flavonoids, phenolcarboxylic acids and phenols of simple structure, from chaga.

The problem is achieved by the method in which the crushed chaga is extracted with water, the resulting aqueous extract is separated from the chaga meal, the cake is dried, ethyl acetate is added to it at a mass ratio of 1:40, boiled for 1 h, the organic extract is separated, the solvent is removed to obtain a dry residue fractions of phenolic substances.

The technical result consists in obtaining a fraction of phenolic substances, including flavonoids, phenolcarboxylic acids and phenols of simple structure.

The essence of the method is as follows.

The chopped chaga is extracted with water. The aqueous extract is separated and used, for example, to produce melanin. In the pharmaceutical industry, Befungin is also obtained on the basis of an aqueous extract of chaga. During aqueous extraction, hydrophilic components pass from the feed to the extract, which allows the organic solvent to penetrate into the feed (meal) more easily and increase the availability of phenolic (hydrophobic) substances remaining in the meal for further extraction. The meal remaining after separation of the aqueous extract is pre-dried at room temperature to remove residual moisture. Ethyl acetate was added to a weighed portion of dried chaga meal in a weight ratio of 1:40. This ratio is optimal for extracting the maximum amount of extractive substances from raw materials. The choice of solvent is justified by its selectivity with respect to the phenolic substances of chaga meal, including flavonoids. The meal is boiled with an organic solvent for 1 hour. This time is sufficient to maximize the extraction of extractives from raw materials. Further boiling of raw materials is impractical. The resulting organic extract is separated, the solvent is removed and a dry residue of the phenolic fraction is obtained.

The invention is illustrated by the following examples of specific performance.

Example 1

We used the raw materials of LLC “KFH“ Centaur ”, lot 011209.

The chopped chaga was extracted with water, the aqueous extract was separated from the meal, the meal was dried at room temperature. 2 g of dried chaga meal was poured into 80 ml of ethyl acetate, boiled for 1 h. The extract was separated, the solvent was removed and 0.0131 ± 0.0008 g of phenolic substances were obtained. In the obtained fraction of phenolic substances, the presence of flavonoids and phenols of simple structure, the quantitative content of which was 4.81 ± 0.11 wt.% And 5.92 ± 0.03 wt.% From the extractives, respectively, was shown.

Example 2

Similar to example 1, but for extraction used raw materials IP Gordeev M.V., series 041010.

Received 0.0213 ± 0.0014 g of phenolic substances. In the obtained fraction of phenolic substances, the presence of flavonoids and simple phenols is shown, the quantitative content of which is respectively 6.26 ± 0.13 wt.% And 5.73 ± 0.07 wt.% Of the extractives.

The qualitative composition of phenolic substances in the obtained extracts was determined by thin layer chromatography on Sorbfil plates using solvent systems: for the separation of phenols of simple structure - No. 1 (benzene, Chromatography in thin layers / edited by E. Stahl. - M .: Mir, 1965. - 508 pp.), For the separation of phenolcarboxylic acids - No. 2 (benzene - methanol - acetic acid in a ratio of 90: 16: 8, Chromatography in thin layers / edited by E. Stahl. - M .: Mir, 1965. - 508 s.) And for the separation of flavonoids - No. 3 (chloroform - methanol - water in a ratio of 26: 14: 3, M. Anisimov. Qualitative and quantitative analysis of flavonoids grass buckwheat / Anisimov MM [et al.] // Proceedings of the Samara Scientific Center of the Russian Academy of Sciences -. 2010. - №1 (8) -. S.2011-2014). Identification of substances was carried out by comparing the distribution coefficients (R _f ) with taps and literature data. The results of chromatography are presented in the table.

Table Qualitative composition of the fraction of phenolic substances isolated from chaga Solvent system Distribution coefficient (R _f ) Attribution No. 1 * 0.80 not identified 0.70 not identified 0.08 phenol 0,03 resorcinol 0.00 catechol, hydroquinone No. 2 * 0.84 not identified 0.79 not identified 0.75 not identified 0.70 veratic acid 0.60 lilac, n-hydroxybenzoic acid 0.58 ferulic acid 0.23 gallic acid Number 3** 0.8 quercetin * - Chromatography in thin layers / ed. E. Stahl. - M.: Mir, 1965 .-- 508 p. ** - Anisimov M.M. Qualitative and quantitative analysis of flavonoids of buckwheat seed / Anisimov M.M. [et al.] // Bulletin of the Samara Scientific Center of the Russian Academy of Sciences. - 2010. - No. 1 (8). - From 2011-2014.

According to the data given in the table, the fraction of phenolic compounds isolated from chaga meal contains a number of biologically active substances of a phenolic nature: phenol carboxylic acids, phenols of simple structure, flavonoids. Unidentified compounds can also be attributed to phenolic substances by the specific color of spots on the chromatogram.

Thus, the proposed method allows to extract from chaga a fraction of phenolic substances, including flavonoids, phenol carboxylic acids, phenols of simple structure, with pronounced biological activity. The fraction of phenolic substances can be used to develop dietary supplements and drugs of various directions. The present invention can be used in an industrial environment for the integrated processing of raw chaga.

Claims (1)

A method of obtaining a fraction of phenolic substances from chaga, including grinding the fungus, extracting the raw materials with water, separating the aqueous extract from the meal, boiling the meal in an organic solvent for 1 h, separating the organic extract, characterized in that the meal is dried before boiling, as an organic solvent is used ethyl acetate in a mass ratio of meal: ethyl acetate 1:40, the solvent is removed from the obtained extract.