RU2177015C1 - Antocyanic dye from vegetable stock - Google Patents

Abstract

FIELD: food industry. SUBSTANCE: antocyanic dye comprises, wt %: cyanidine glycosides, 0.1-8.6; pionidine glycosides, 0.08-6.45 pelargonidine glycosides, 0.05-4.3; organic matter and mineral salts, the balance. Pelargonidine glycosides: peonidine glycosides cyanidine glycosides ratios are 1: 1.5: 2, respectively. Relative optical density of dye is at maximum when it is exposed to light with wavelength of 505-515 nm. When exposed to medium having pH from 2.0 to 7.0, dye retains natural red light. Dye retains 80-100 % of its natural color density during all treatment operations, namely freezing, boiling, radiation by direct solar light within pH range of 2 to 4. Invention makes it possible to prepare dye having wide color range, high heat and photo resistance. EFFECT: improved properties of the antocyanic dye. 4 cl, 4 tbl

Description

 The invention relates to the food, cosmetic and pharmaceutical and textile industries and can be used in the production of alcoholic and non-alcoholic drinks, confectionery, dairy products, when staining tablet wafers, when coloring children's underwear, toys, etc.

 Known anthocyanin dyes obtained from the fruits of mulberry, grape, blackcurrant, chokeberry, stem rose, from the cellular tissues of carrot cultures [1, 2, 3].

 The disadvantage of these dyes is the low content of dyes, low thermal and photo stability, and a limited range of colors. At the same time, the raw materials for the production of anthocyanin dyes are, as follows from the above data, most often berries or squeezes obtained from them, i.e. seasonal, quickly deteriorating raw materials, which makes the process of dye production multi-stage and difficult in technical terms and expensive in financial terms.

 Closest to the proposed, adopted as a prototype, is a natural food coloring obtained from the stock rose petals [4]. This dye is an extract isolated from anthocyanin-containing raw materials, consisting of the following components: glycosides of cyanidin, pionidine, dolphinidine, petunidine and (or) malvidin.

 The disadvantage of this dye is its low stability when stored both in pure form and in products in which it is used, in addition, this dye has a limited color range of colors, which narrows the scope of its application.

 The objective of the invention is to obtain a natural anthocyanin red dye with a wide color gamut, high thermal and photo stability, the production of which can be carried out in any required quantity, regardless of season, seasonality and any other factors.

The problem was solved due to the fact that the composition of a natural dye containing cyanidine glycosides, pionidine glycosides, organic substances and mineral salts, additionally introduced pelargonidine glycosides in the following ratios of components, wt. %:
Cyanidin glycosides - 0.1 - 8.6
Pionidine Glycosides - 0.08 - 6.45
Pelargonidine glycosides - 0.05 - 4.3
Organic matter and mineral salts - Else
The presence of a dye in a solution, along with cyanidine and pionidine glycosides, of pelergonidine glycosides led to an expansion of the color gamut of the claimed dye, since it is known that cyanidin has a raspberry color, pionidine is pink, lilac, and pelargonidine is red. The combination of these three anthocyanins in the inventive dye allows you to get a dye with the richest range of shades of red. At the same time, the ratio of anthocyanins: pelagonidine glycosides: pionidine glycosides: cyanidine glycosides in the finished product should correspond to 1: 1.5: 2, which allows to obtain a dye with a number of physically valuable properties, namely, the claimed dye retains red color at pH no more than 7, it is heat-resistant, photostable and retains its properties for two years, while its relative optical density is maximum when exposed to light with a wavelength of 505-515 nm.

 The dye obtained in the following ratio of components is a transparent thick liquid of dark red color, completely soluble in water and aqueous solutions of ethyl alcohol, with a smell characteristic of the smell of the feedstock, sour taste. Mass fraction of solids not less than 20, mass fraction of coloring matter not less than 40 g / l. The inventive dye is an extract isolated from anthocyanin-containing plant materials. A variety of colors is provided by the presence of various types of anthocyanins, their various amounts and their relationship to each other. Chromatographic methods confirmed the presence of three basic anthocyanin compounds in the dye, namely cyanidin (raspberry color), pionidine (pink, purple color) and pelargonidine (scarlet color). Organic substances and mineral salts were also determined in the dye solution.

 The inventive dye was tested for toxicity in an animal experiment. The test results showed that the dye does not contain toxic compounds and does not change the general condition of the experimental animals. In addition, the inventive dye is an extract of plant materials, contains biologically active compounds extracted from the feedstock. The presence of biologically active compounds increases the quality of the claimed dye.

Example 1
From the anthocyanin-containing vegetative mass of corn a dye of the following composition was obtained, wt.%:
Cyanidin Glycosides - 4.4
Pionidine Glycosides - 3.3
Pelargonidine glycosides - 2.2
Flavonols - 0.9
organic acids, including citric acid, malic acid, fumaric acid, succinic acid, etc. - 32
Dietary fiber - 0.9
Polysaccharides, including
sucrose, fructose, manose, ribose, etc. - 56.29
Vitamins, mineral salts - 0.01
The obtained dye was tested for the resistance of the acidity of the medium to various adverse factors, such as freezing for 30 days, boiling for 3 hours, and irradiation with direct sunlight for 3 months. The pH of the dye solutions ranged from 2.0 to 10.0. In addition, the absorption spectrum of the visible part of the spectrum was studied on a spectrophotometer. The results of the studies are presented in table. 1. As can be seen from the data presented, the inventive dye has the following properties:
- its relative optical density is maximum at a wavelength of 515 nm;
- retains its natural red color when exposed to a medium with a pH from 2.0 to 7.0;
- resistant to freezing, i.e. retains 95% of its natural color density when frozen for 30 days;
- retains 90% of its natural color density when boiled for 3 hours;
- retains 98% of its natural color density when exposed to direct sunlight for 3 months.

Example 2
From the anthocyanin-containing vegetative mass of corn a dye of the following composition was obtained, wt.%:
Cyanidin Glycosides - 0.1
Pionidine Glycosides - 0.08
Pelargonidine glycosides - 0.05
Flavonols - 0.9
Organic acids, including citric acid, malic acid, fumaric acid, succinic acid, etc. - 37.67
Dietary fiber - 0.9
Polysaccharides, including sucrose, fructose, manose, ribose, etc. - 60.29
Vitamins, mineral salts - 0.01
The obtained dye was tested for the resistance of the acidity of the medium to various adverse factors, such as freezing for 30 days, boiling for 3 hours, and irradiation with direct sunlight for 3 months. The pH of the dye solutions ranged from 2.0 to 10.0. In addition, the absorption spectrum of the visible part of the spectrum was studied on a spectrophotometer. The results of the studies are presented in table. 1. As can be seen from the data presented, the inventive dye has the following properties:
- its relative optical density is maximum at a wavelength of 512 nm;
- retains its natural red color when exposed to a medium with a pH from 2.0 to 7.0;
- resistant to freezing, i.e. retains 80% of its natural color density when frozen for 30 days;
- retains 80% of its natural color density when boiled for 3 hours;
- retains 80% of its natural color density when exposed to direct sunlight for 3 months.

Example 3
From the anthocyanin-containing vegetative mass of corn a dye of the following composition was obtained, wt.%:
Cyanidin Glycosides - 8.6
Pionidine Glycosides - 6.45
Pelargonidine Glycosides - 4.3
Flavonols - 0.9
Organic acids, including citric acid, malic acid, fumaric acid, succinic acid, etc. - 27
Dietary fiber - 0.9
Polysaccharides, including sucrose, fructose, manose, ribose, etc. - 51.84
Vitamins, mineral salts - 0.01
The obtained dye was tested for the resistance of the acidity of the medium to various adverse factors, such as freezing for 30 days, boiling for 3 hours, and irradiation with direct sunlight for 3 months. The pH of the dye solutions ranged from 2.0 to 10.0. In addition, the absorption spectrum of the visible part of the spectrum was studied on a spectrophotometer. The results of the studies are presented in table. 1. As can be seen from the data presented, the inventive dye has the following properties:
- its relative optical density is maximum at a wavelength of 513 nm;
- retains its natural red color when exposed to a medium with a pH from 2.0 to 7.0;
- resistant to freezing, i.e. retains 90% of its natural color density when frozen for 30 days;
- retains 95% of its natural color density when boiled for 3 hours;
- retains 100% of its natural color density when exposed to direct sunlight for 3 months.

Example 4
From anthocyanin-containing plant materials: stem-rose petals, cranberry berries, a dye of the following composition was obtained, wt.%:
Cyanidin Glycosides - 8.6
Pionidine Glycosides - 0.08
Pelargonidine Glycosides - 3.6
Flavonols - 4.5
Organic acids, including citric acid, malic acid, fumaric acid, succinic acid, etc. - 25
Dietary fiber - 0.5
Polysaccharides, including sucrose, fructose, manose, ribose, etc. - 57.67
Vitamins, mineral salts - 0.05
The obtained dye was tested for the resistance of the acidity of the medium to various adverse factors, such as freezing for 30 days, boiling for 3 hours, and irradiation with direct sunlight for 3 months. At the same time, the pH of the dye solutions varied in the range from 2.0 to 4.0. In addition, the absorption spectrum of the visible part of the spectrum was studied on a spectrophotometer. The results of the studies are presented in table. 1. As can be seen from the data presented, the inventive dye has the following properties:
- its relative optical density is maximum at a wavelength of 525 nm;
- retains its natural red color when exposed to a medium with a pH from 2.0 to 4.0;
- resistant to freezing, i.e. retains 40% of its natural color density when frozen for 30 days;
- retains 35% of its natural color density when boiled for 3 hours;
- retains 50% of its natural color density when exposed to direct sunlight for 3 months.

Example 5
From the anthocyanin-containing plant material: grapes and strawberries, a dye of the following composition was obtained, wt.%:
Cyanidin Glycosides - 0.1
Pionidine Glycosides - 0.05
Pelargonidine glycosides - 9.0
Flavonols - 4.5
Organic acids, including citric acid, malic acid, fumaric acid, succinic acid, etc. - 38.5
Dietary fiber - 0.4
Polysaccharides, including sucrose, fructose, manose, ribose, etc. - 47.4
Vitamins, mineral salts - 0.05
The obtained dye was tested for the resistance of the acidity of the medium to various adverse factors, such as freezing for 30 days, boiling for 3 hours, and irradiation with direct sunlight for 3 months. The pH of the dye solutions was varied in the range from 2.0 to 5.0. In addition, the absorption spectrum of the visible part of the spectrum was studied on a spectrophotometer. The results of the studies are presented in table. 1. As can be seen from the data presented, the inventive dye has the following properties:
- its relative optical density is maximum at a wavelength of 540 nm;
- retains its natural red color when exposed to a medium with a pH from 2.0 to 5.0;
- resistant to freezing, i.e. retains 30% of its natural color density when frozen for 30 days;
- retains 25% of its natural color density when boiled for 3 hours;
- retains 60% of its natural color density when exposed to direct sunlight for 3 months.

Example 6
From anthocyanin-containing plant materials: strawberries, a dye of the following composition was obtained, wt.%:
Cyanidin Glycosides - 0.15
Pionidine Glycosides - 0.1
Pelargonidine glycosides - 0.05
Flavonols - 3
Organic acids, including citric acid, malic acid, fumaric acid, succinic acid, etc. - 25
Dietary fiber - 0.32
Polysaccharides, including sucrose, fructose, manose, ribose, etc. - 71.33
Vitamins, mineral salts - 0.05
The obtained dye was tested for the resistance of the acidity of the medium to various adverse factors, such as freezing for 30 days, boiling for 3 hours, and irradiation with direct sunlight for 3 months. The pH of the dye solutions was varied in the range from 2.0 to 6.0. In addition, the absorption spectrum of the visible part of the spectrum was studied on a spectrophotometer. The results of the studies are presented in table. 1. As can be seen from the data presented, the inventive dye has the following properties:
- its relative optical density is maximum at a wavelength of 516 nm;
- retains its natural red color when exposed to a medium with a pH from 2.0 to 6.0;
- resistant to freezing, i.e. retains 90% of its natural color density when frozen for 30 days;
- retains 50% of its natural color density when boiled for 3 hours;
- retains 60% of its natural color density when exposed to direct sunlight for 3 months.

 The results are shown in table. 1, indicate that the inventive dye is resistant to adverse factors, such as freezing, boiling and exposure to direct sunlight. The most optimal dye compositions in examples 1-3.

1. The use of dye in the confectionery industry
To study the possibility of using natural dye in the confectionery industry, experiments were carried out to study the possibility of using dye in the production of candy caramel, lipstick, jelly marmalade and cream. The results of this experiment are presented in table. 2.

 Studies have shown that the dye can be used in the manufacture of confectionery such as caramel, lipstick, marmalade, cream, in order to give the product a pleasant pink color. Color saturation depends on the component composition and the ratio of anthocyanins in the dye. Natural dye can be recommended for widespread use in the confectionery industry.

2. The use of dye in the production of soft drinks
The results of studying the possibilities of using natural dye in the production of soft drinks are presented in table. 3.

 As the results of the experiment showed, the color of a soft drink depends on the amount of the dye solution added. Color saturation depends on the component composition and the ratio of anthocyanins in the dye. Varying the component composition, you can change the color of the finished drink. Natural dye can be recommended for widespread use in the non-alcoholic industry.

3. The use of dye in the alcohol industry
The possibility of using natural dye in the alcohol industry in the production of vodka, wine drinks, liquors, tinctures was studied. The results of studying the possibilities of using natural dye in the production of alcoholic beverages are presented in table. 4.

 As the results of the experiment showed, the color of an alcoholic beverage and its color saturation depend on the component composition and the ratio of anthocyanins in the dye. Varying the component composition, you can change the color of the finished drink. Natural dye can be recommended for widespread use in the alcohol industry.

4. The use of dye in the production of ice cream
Conducted a study of the possibilities of using dye in the preparation of ice cream. The experimental results showed that the dye can be used in the production of two varieties of blackberry and blackcurrant ice cream. In the production of blackcurrant ice cream, it is necessary to mix the dye with the main component (creamy ice cream white, without filler) in a ratio of 1: 1 - the color is saturated pink, warm tones, and when mixed in the ratio of 1:20 - the color is lilac, pink, cold tones, typical for blackberry ice cream.

Sources of information
1. British patent application N 8612587, 1986

 2. RF patent N 2057153, 1996

 3. Food ingredients. Raw materials and additives N 1, 2000

Claims (3)

1. Anthocyanin dye from plant materials containing cyanidin glycosides, pionidine glycosides, organic substances and mineral salts, characterized in that it additionally contains pelargonidine glycosides in the following ratio of dye components, wt.%:
Cyanidin glycosides - 0.1-8.6
Pionidine glycosides - 0.08-6.45
Pelargonidine glycosides - 0.05-4.3
Organic matter and mineral salts - Else
2. The anthocyanin dye from plant materials according to claim 1, characterized in that the content of anthocyanins in it corresponds to the following ratio, namely pelargonidine glycosides: pionidine glycosides: cyanidine glycosides should be correlated as 1: 1.5: 2, respectively, and its relative optical the density is maximum when exposed to light with a wavelength of 505-515 nm.  3. Anthocyanin dye from plant materials according to claim 1 or 2, characterized in that it retains a natural red color when exposed to a pH of 2.0 to 7.0.  4. Anthocyanin dye from plant materials according to claim 1 or 2, characterized in that it retains 80-100% of its natural color density during all treatments, namely freezing, boiling, irradiation with direct sunlight in the pH range from 2 to 4.

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