Natalia Mikhailovna Ageyeva scite author profile

Natalia Mikhailovna Ageyeva

5Publications

10Citation Statements Received

27Citation Statements Given

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Affiliations

North-Caucasian Zonal Research Institute of Horticulture and Viticulture

Publications

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Toxins and Mechanisms of Their Interaction in Fruit Wines

Gnetko¹,

Nerovnykh²,

Гишева³

et al. 2019

IJITEE

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The purpose of the work was to ensure the environmental safety of fruit wines based on studying the content of secondary metabolites of mold fungi – mycotoxins – and their properties in them. The study objects included different varieties of apples that were damaged in a different way. The whole apples that were not damaged by pests and diseases were used as a reference group. To define the content of patulin and aflatoxins A and G, thin layer chromatography and high-performance liquid chromatography were used. In order to define the mass concentrations of amino acids, the method of liquid ion-exchange eluent chromatography was used. The analysis of wine materials produced from apples that had various types of damage has showed that they contained mycotoxins, namely, aflatoxins A and G and patulin. It has been determined that the degree of contamination of the apples surface with mold fungi depends on the type of the fruit damage. The content of toxins increases in the following sequence: mechanically damaged apples < pest damaged apples < apples damaged by diseases. All objects were characterized by a considerable content of patulin. An attempt has been made to define possible areas for the patulin synthesis with mold fungi. The impact of mold fungi on the composition of amino acids in fruit materials has been studied. The difference in the concentration of amino acids in low alcoholic and highly alcoholic environments has been revealed. It has been defined that the reason for obtaining fermented juices with a depleted amino acid composition is the use of the fruits damaged with rot. The increase in the content of certain amino acids in fermented alcoholized juices indicates the inhibitory effect of the alcoholic medium on the metabolic processes of mold fungi and a decrease in their enzymatic activity. The mechanism of the interaction between patulin and amino acids of fruit materials has been explained.

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Effect of grape variety, place of growth, and processing technology on the physical and chemical indicators of grape pomace

Tikhonova

Ageyeva

Biryukova

et al. 2020

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Introduction. Any waste can become a raw material for new products. Therefore, waste should be considered as secondary material resources. Grape pomace is the basic waste of wine industry, and research in its chemical composition may allow for a more effective recycling of food industry waste. Study objects and methods. The research featured sweet and fermented pomace of white and red grapes, namely “Chardonnay”, “Sauvignon Blanc”, “Riesling”, “Pinot Blanc”, “Traminer Pink”, “Viognier”, “Morava” “Pinot Noir”, “Roesler”, “Cabernet Sauvignon”, “Merlot”, “Saperavi”, and “Rebo”. They were obtained in the production of wines at wineries in the Krasnodar region. Mass concentrations of organic acids and cations of alkaline and alkaline-earth elements were determined in extracts by capillary electrophoresis. The data was converted to dry matter. Moisture content was calculated as a percentage of the change in the mass of grape pomace. Results and discussion. The moisture content of sweet pomace varied from 49.33 ± 2.04 to 70.35 ± 0.60%, and in fermented pomace – from 47.49 ± 0.02 to 64.24 ± 0.60%. The varieties were studied for mass concentrations of tartaric, malic, succinic, citric, and lactic acids. Tartaric and malic acids proved to be the most abundant ones. The pomace of Riesling grapes had the greatest amount of tartaric acid (104.47 ± 4.16 g/kg). The “Chardonnay” variety proved rich in malic acid (19.40 ± 2.67 g/kg), while the “Morava” pomace had the biggest amount of citric acid (12.61 ± 1.12) and succinic acid (11.72 ± 1.23). The research also defined concentrations of alkaline and alkaline-earth elements. Their content ranged from 41.04 to 3.29 g/kg. Potassium appeared to be the main cation in the pomace samples. The share of potassium in the total mineralization of pomace was up to 94%. The “Riesling” variety grown near Novorossiysk had the largest amount of potassium (36.46 ± 4.65 g/kg). The samples demonstrated a significant correlation between the content of tartaric acid and potassium. Conclusion. The research revealed a significant variation in the concentration of the organic acids and cations of alkaline and alkalineearth metals, depending on the grape variety, the place of its growth, and processing. The grape pomace samples differed moisture content. It depended on the volume of the liquid fraction, i.e. wort or wine material selected during pressing.

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Study of phenolic compounds and lipids of grape pomace

et al. 2021

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The article is devoted to the research of the makeup of phenolic compounds and fatty acids of grape pomace. The phenolic compounds were identified in skin and seed extracts and in extracts of skin-and-seed mixtures; the fatty acids – in grape oil generated by direct pressing. It was established that anthocyanins were present mainly in the skins. Low concentrations of ten components of the anthocyanin complex were identified in the Saperavi seeds. Maximum amounts of anthocyanins were found in the Saperavi skins. The concentration of quercetin distinguished by a PP-vitamin activity was by 1.5 to 2.0 times higher in the skin-andseed mixtures, especially of Roesler grapes, than in the skin itself. Maximum amounts of flavan-3-ols, hydroxy-cinnamic and hydroxybenzoic acids and oligomeric procyanidins, as well as the highest antioxidant activity were observed in the skin-and-seed mixture. The highest value of the correlation factor was observed in cases of interaction of antioxidant activity and concentration of procyanidins (r = 0.83), antioxidant activity and concentration of anthocyanins (r = 0.78), and antioxidant activity and concentration of flavan-3-ols (r = 0.75). Among the flavan-3-ols, it was (+)-D-Catechin that prevailed in grape seeds, with its concentration in the Pinot Noir extract (OAO APF Fanagoria) reaching 468 mg/dm3. Maximum concentration of Epigallocatechin-gallate was observed in the Saperavi and Pinot Noir seeds. As regards the concentration of hydroxy-cinnamic acids in the seeds, n-coumaric acid (Ancellotta, Saperavi) stood apart among the others; gallic acid (Saperavi, Ancellotta) came forward among the hydroxy-benzoic acids. In the reviewed samples of grape seeds, procyanidins of groups В1 , В2 and В3 distinguished by high antioxidant activity prevailed. Prevalence of linoleic and oleic acids was established for grape oil extracted from the seeds of such red grape varieties as Cabernet Sauvignon, Pinot Noir and Saperavi. Maximum concentrations of oleic acid were found in the Pinot Noir and Riesling seeds. Palmitic and stearic acids were also available in rather high concentrations in the grape oil.

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Features of Changes in the Physical, Chemical and Biochemical Composition of Table Wine Materials Depending on the Agrotechnical Methods of Grape Growing

Yakimenko¹,

Ageyeva²,

Petrov³

et al. 2019

Scientific Works of NCFSCHVW

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Organic Acids of Grape Pomace

Tikhonova¹,

Ageyeva²,

Abakumova³

et al. 2020

Fruit growing and viticulture of South Russia

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