Antioxidant metabolites of plant origin are able to regulate many physiological functions of the body and reduce the risk of developing chronic diseases caused by free radical oxidation. Vegetable plants are the most affordable source of essential antioxidant metabolites lack of which leads to a sharp decrease in resistance to environmental stresses. Amaranth (Amaranthus tricolor L.) is a promising food and medicinal plant. Variety Valentina (originated by V.K. Gins, P.F. Kononkov, M.S. Gins, All-Russian Research Institute of Breeding and Seed Production of Vegetable Crops) was successfully introduced and grown in several Russian regions. Our objective was to study the composition and content of low-molecular biologically active antioxidant metabolites that determine the nutritional and pharmacological value of amaranth leaves, and to assess the main antioxidant accumulation in plant organs under the conditions of the Moscow Region. For analysis, fresh and dried leaves (juvenile, those with a formed blade, and old ones), inflorescences, stems, veins, petioles and roots were used. Amaranthine, reduced ascorbic acid, and total antioxidant content was measured in water and ethanol extracts from fresh and dry leaves and plant organs. Also, simple phenols and oxybenzoic acids, flavonoids, condensed and polymeric polyphenols were assayed. Chlorogenic, gallic, ferulic acids and arbutin content was determined in aqueous extract by high performance liquid chromatography (HPLC). The metabolites were analyzed by gas chromatography-mass spectrometry (GC/MS). It was shown that actively photosynthesizing leaves with a fully formed blade predominantly accumulated ascorbic acid, while in the aging leaves its amount decreased. Veins, petioles and stems contained substantially less metabolites with antioxidant activity compared to leaves. In aqueous extracts, the main betacyanins were amaranthine and iso-amarantine. Chromatography of aqueous extracts from amaranth leaves showed the presence of highly active antioxidants, e.g. arbutin-glucoside hydroquinone and oxycinnamic acids including ferulic, chlorogenic, oxybenzoic (gallic) acids. In the tests, gallic acid concentration was 1.51 µg/100 ml, chlorogenic acid concentration was 2.05 µg/100 ml, ferulic acid concentration was 0.01 µg/100 ml, and arbutin concentration was 472.51 µg/100 ml. Water-extracted squalene (C 30 H 50), a powerful antioxidant usually isolated from amaranth seeds only, was first discovered in amaranth leaves. Ethanol extraction revealed a greater number of the colored components in the spectral range of the 350-700 nm, in addition, gallic, chlorogenic and ferulic acids were found. A total of 37 low-molecular metabolites were identified by gas chromatography-mass spectrometry. Our findings indicate that vegetable amaranth, as a promising reproducible source of antioxidants, can be used in functional foods and phytobiologicals.
Features of pollen grains, sculpture 2 species Rosaceae Juss. (Malus domestica Borkh and Pyrus communis L.) has been studied in detail using scanning electron microscopy method. The pollen material is picked up in Slovak Republic, was used in the study. Shape of the pollen grains is oblong-ellipsoidal. In terms of poles, the grain is round. The pollen grains Malus domestica and Pyrus communis has -3 colossus, the hole is long. A complex type of exine is characteristic of the studied species of Rosaceae. The average size of the poles axis of pollen grains is Malus domestica trees is in the range of 27.91-36.62 μm, the equatorial diameter is in the range of 13.28-17.17 μm. The average size of the pole axis of pollen poles of Pyrus communis trees is 38.83-56.83 μm, the equatorial diameter is 20.26-29.92 μm. The ratio of the pole axis to the equatorial (P/E) is the degree of elongation of the pollen grains (roundness).The pollen of Malus domestica breeds is more elongate compared with the pollen of Pyrus communis. Pollen of Malus domestica rocks are more elongated compared with the pollen of Pyrus communis (Р/Е is 14% more). The traits analysed could be useful for plant breeders or for gene bank curators at the first steps of identification of cultivars, since the analysis is simpler and less expensive than other methods.
The biochemical compounds of red raspberry (Rubus idaeus L.) fruits cultivated with conventional growing technology and on a nutrient substrate were studied during 2019–2020 at the Federal Horticultural Research Center for Breeding, Agrotechnology and Nursery, Moscow, Russia. The antioxidant activity, phenolic compounds, and ash constituents of the fruits and the metabolites of the alcoholic extract of the raspberries were determined. The effect of growing technologies, i.e., conventional vs. nutrient substrate, on the accumulation of macro- and microelements in raspberry fruits was established. In red raspberries grown on nutrient substrate, the antioxidant activity decreased by 25 times (aqueous extract) and 1.5 times (alcoholic extract). The K and Na contents and Se contents of red raspberries grown on nutrient substrate were 1.5 and 3 times higher than those of raspberries of grown with conventional technology. Raspberries grown with conventional technology contained 2 times more Ca, Ni, and Mn and 7.4 times more Fe than raspberries grown on nutrient substrate. The total amount of elements in raspberries grown through soilless cultivation was 5.5% higher than that in berries grown conventionally. A total of 48 compounds were identified in the alcoholic extracts, and only 29 substances were found in berries grown on a nutrient substrate. Sugar and citric acid constituted the largest share of red raspberry components. Fructose and turanose disaccharide synthesis in raspberries grown on nutrient substrate was 20% higher than that in conventionally grown raspberries. A total of 48 organic compounds with different biological activities were identified. They included five substances with antimicrobial activity, three phenolic substances, eight organic acids, four sugar acids, nine amino acids, and 19 sugars and their derivatives. At the same time, 42 compounds were found in raspberries grown with traditional technology, and 21 compounds were identified in raspberry fruits grown on nutrient substrate. Three fatty acids, namely, ɑ-linoleic acid (polyunsaturated omega-6 fatty acid), palmitic acid, and stearic acid (saturated fatty acid), along with cinnamic acid, shikimic acid, and chrysin were found in berries grown conventionally.
Statistics show negative forecasts of the demographic indicators of the Russian population including their size and health. The human habitat which has been deteriorating in recent decades causes cardinal changes in the assortment and variety of food and significantly contributes to the reduction of their biological value. The depletion of food products (FP) of vegetable and animal origin in vital mineral elements, vitamins and other physiologically active components represents a serious long-term threat to human health and the national security. Industrial methods of enriching FP have certain limitations: a narrow set of micronutrients, their interaction among themselves and accessibility for not all groups of the population. One way to reduce the negative consequences is through the introduction and breeding of new for Russia species and varieties of agricultural plants and organize a mass production of functional foods (FF) that contribute to the prevention and/or suspension of the development of dangerous diseases and slowing down the aging process. The solution of this multifaceted problem lies in changing the consumption structure of foods and their chemical composition conditioned by both the assortment of grown plant species and cultivars of food plants, as well as the composition and quality of soils, fertilizers and the conditions for crop cultivation. Taking into account the prevailing demographic situation in the Russian Federation, it is necessary to create a comprehensive national program for the allocation of new high-content sources of FF ingredients based on traditional and underutilized crops, cultivars and forms of cereal, vegetable and fruit crops and their inclusion in agricultural production as well as existing and newly created technological processes in food industry. The advantages of creating and developing a national system of the functional food in Russia will be: the improvement of public health and life expectancy, the reduction of the Federal Compulsory Medical Insurance Fund expenditures and the development of business structures involved in the production of the FF.
A magnetic pulse treatment led to an increase in the Raspberry bushy dwarf Idaeovirus-free microplants’ output and their phenolic composition change. The greatest output of the virus-free raspberries microplants (80–82%) was marked after complex treatment with pulsed and rotating magnetic fields with a time-changing frequency from 3.2 to 51 Hz, as well as with a pulsed magnetic field with a frequency from 1 to 10 Hz. The pulsed and rotating magnetic fields’ complex effect resulted in the gallic and salicylic acid content increase by 14 % and 71%, respectively, compared to the untreated variant. The chlorogenic, salicylic and gallic acids’ active synthesis was observed 72 hours after the magnetic treatment with a frequency from 3.2 to 51 Hz. There was a tendency for the amount of the phenolcarbonic acid to decrease 14 days after the magnetic treatment, except for the variant with the pulsed and rotating field treatment.
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