Anthocyanins red pigments that give color a wide range of fruits, berries and flowers. In the food industry it is widely known as a dye a food additive E163. To extract from natural vegetable raw materials traditionally used ethanol or acidified water, but in same technologies it’s unacceptable. In order to expand the use of anthocyanins as colorants and antioxidants were explored extracting pigments alcohols with different structures of the carbon skeleton, and the position and number of hydroxyl groups. For the isolation anthocyanins raw materials were extracted sequentially twice with t = 60 C for 1.5 hours. The evaluation was performed using extracts of classical spectrophotometric methods and modern express chromaticity. Color black currant extracts depends on the length of the carbon skeleton and position of the hydroxyl group, with the alcohols of normal structure have higher alcohols compared to the isomeric structure of the optical density and index of the red color component. This is due to the different ability to form hydrogen bonds when allocating anthocyanins and other intermolecular interactions. During storage blackcurrant extracts are significant structural changes recoverable pigments, which leads to a significant change in color. In this variation, the stronger the higher the length of the carbon skeleton and branched molecules extractant. Extraction polyols (ethyleneglycol, glycerol) are less effective than the corresponding monohydric alcohols. However these extracts saved significantly higher because of their reducing ability at interacting with polyphenolic compounds.

anthocyanins, extraction, aliphatic alcohols, chromaticity

1. Bolotov V.M., Nechaev A.P., Sarafanova L.A. Pishchevye krasiteli: klassifikatsiya, svoistva [Food Dyes: classification, properties, analysis, application]. Sent0Petersburg, GIORD, 2008. 240 p. (In Russ.).

2. Kharlamova O.A., Kafka B.V. Natural’nye pishchevye krasiteli [Natural food dyes]. Moscow, Nauka, 1989. 191 p. (In Russ.).

3. Odin A.P., Khairutdinova A.D., Bolotov B.M. Sposob polucheniya antotsianovogo krasitelya iz rastitel’nogo syr’ya [A method for producing anthocyanins pigment from plants]. Patent RF, no. 2228344, 2004. (In Russ.).

4. Baidicheva O.V. et alColorimetry a new method of quality control of food products. Pishchevaya promyshlennost’. [Food industry], 2008, no. 5, pp. 20-22. (In Russ.).

5. Bolotov V.M. Study of chromaticity characteristics of water using the method of computer colorimetry. Vestnik VGUIT. [Bulletin of of Voronezh State University of Engineering Technology], 2013, no. 4, pp. 154-156. (In Russ.)