Tag Archives: extract

1293-1303 Z. Shakiryanova, R. Khegay, U. Gayibov, A. Saparbekova, Z. Konarbayeva, A. Latif and O. Smirnova
Isolation and study of a bioactive extract enriched with anthocyanin from red grape pomace (Cabernet Sauvignon)
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Isolation and study of a bioactive extract enriched with anthocyanin from red grape pomace (Cabernet Sauvignon)

Z. Shakiryanova¹, R. Khegay¹, U. Gayibov², A. Saparbekova¹, Z. Konarbayeva¹, A. Latif¹ and O. Smirnova³

¹M.Auezov South Kazakhstan University, Faculty of Chemical Engineering,
and Biotechnology Department of Biotechnology, Tauke khan avenue 5, KZ160000 Shymkent, Kazakhstan
²Academy of Sciences of Uzbekistan, Institute of Bioorganic Chemistry,
M. Ulugbek street 83, UZ100125 Tashkent, Uzbekistan
³HSE University, HSE Campus in St. Petersburg, School of Arts and Humanities, Department of Foreign Languages, 3 Kantemirovskaya Str., RU194100 Saint Petersburg, Russia
*Correspondence: zulya_sun@mail.ru

Abstract:

Grape pomace is a natural product rich in dietary fibers, polyphenols and anthocyanidins. By their chemical composition, secondary products from grape processing are valuable raw materials for obtaining a variety of new products. Recently, in food biotechnology, fermented and unfermented grape pomace have undergone a deeper study of the role of additives in dry powders or extracts. The quality and biological value of natural food products are determined by their chemical composition and a whole complex of integral organoleptic properties that depend on this composition. Natural anthocyanin dyes not only give color to vegetable raw materials, but also have a well-known physiological activity, in particular, coloring and antioxidant. Purified natural dyes have recently been increasingly used to improve the consumer properties of food products, in biologically active additives, in pharmaceutical preparations for the treatment and prevention of various diseases. At the same time, the composition of anthocyanins, even for the same variety of plant raw materials, is complex and variable; it depends on climatic conditions, on the maturity of berries, root crops, and the quality of agricultural work. Anthocyanins easily undergo a number of transformations depending on the conditions of extraction and analysis.

The originality and novelty of the isolation and production of biologically active extracts with antiradical properties from by-products of local wineries in ecologically safe areas of southern Kazakhstan lies in the fact that natural environmental conditions: high temperatures and low humidity which contribute to the formation of biologically active substances with increased concentrations. Current research was aimed at the deep study of extracts from grape pomace rich – anthocyanins.

Red grape pomaces of Vitis vinifera L. Cabernet Sauvignon were extracted using a solvent-based (SE) method with concentrations of 70% v/v and solid/liquid ratios of 1:10, followed by incubation at three different temperatures of 30 °C, 40 °C, and 50 °C for 1 h, 2 h, 3 h, and 4 h. All solvent extracts showed higher amounts of anthocyanin pigments. The maximum yield was obtained by using the optimal time of extraction (2 h at 50 °C), with the highest total anthocyanin recovery obtained by means of 70% ethanol. The anti-radical and toxic effects of the obtained extract (anthocyanin) were studied.

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1120-1130 L. Tomsone and Z. Krūma
Stability of rapeseed oil with horseradish Amorica rusticana L. and lovage Levisticum officinale L. extracts under medium temperature accelerated storage conditions
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Stability of rapeseed oil with horseradish Amorica rusticana L. and lovage Levisticum officinale L. extracts under medium temperature accelerated storage conditions

L. Tomsone* and Z. Krūma

Latvia University of Agriculture, Faculty of Food Technology, Department of Food Technology, Liela iela 2, LV-3001, Jelgava, Latvia *Correspondence: lolita.tomsone@llu.lv

Abstract:

This study examined the antioxidant activity of horseradish leaves and lovage leaves and stems extracts added to crude rapeseed oil, under medium temperature accelerated storage conditions. To evaluate efficiency of plant extracts they were added to oil in different concentrations (0.25, 0.5, 1.0 and 1.5%). As a control rapeseed oil without extracts where analysed. For comparison 0.01% butylatedhydroxytoluene (BHT) were added to oil. Efficiency of extracts in oil where tested at +60 ± 1°C in the dark for 22 days. For all samples peroxide value, acid value and 2,2-diphenyl-1-picrylhydrozyl (DPPH˙) activity were determined. In all steps of the experiments for samples with extract peroxide value was significantly (P < 0.05) lower comparing to the control. The control sample without extract reached 15meq O2 kg-1 oil (maximal allowed value in Latvian legislation) in 3 days. The best results showed the horseradish leaves extract (1%) and the lovage leave extract (1.5%) reaching this value in 8.3 days and 7 days, respectively. DPPH˙ activity of the oil was compared after 3 days (when blank sample reached maximal allowed a peroxide value) and it shown that for all samples it was higher compared to the control sample. The highest activity showed the samples with horseradish leave extracts. A acid value in oil samples changed slightly. Lovage leave as stem and horseradish leave extracts could be successfully used for retarding of oxidation of rapeseed oil and in further experiments their activity in meat products will be tested.

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