Your search keyword '"E I Kuznetsova"' showing total 6 results

1. Adaptations of Malus domestica Borkh. (Rosaceae) Fruits Grown at Different Altitudes

Bookmark

Author

E. I. Kuznetsova, A. S. Voronkov, T. V. Ivanova, and T. Kh. Kumachova

Subjects

0106 biological sciences, 0301 basic medicine, chemistry.chemical_classification, Degree of unsaturation, Malus, Rosaceae, Plant physiology, Fatty acid, Apple tree, Plant Science, Biology, biology.organism_classification, 01 natural sciences, 03 medical and health sciences, Horticulture, 030104 developmental biology, Altitude, chemistry, 010606 plant biology & botany, Polyunsaturated fatty acid

Abstract

Cytophysiological adaptive features of apple fruits (Malus domestica Borkh.) were examined as a function of growth altitude—300, 500, 700, and 1200 m above sea level—in the mountains of the North Caucasus. The altitude-related conditions of apple tree cultivation differed by a range of growth-limiting factors, high irradiance and low temperature in particular. With the use of fruit skins of M. domestica, it was found for the first time that the number of cells containing phenolic substances in the outer cell layers and the amount of accumulated phenols increase with the altitude of tree growth. At higher elevation belts, the content of polyunsaturated fatty acids also increased, which accounted for the rise of the unsaturation index. Phenolic substances protect the fruit peripheral tissues by screening the cells from high doses of UV radiation and by exerting their powerful antioxidant effects. The increased degree of fatty acid unsaturation helps to retain the fluidity of cell membranes in the physiological range at low temperatures. Thus, apple fruits grown at high altitudes adapt to mountain conditions by a suite of structural and functional changes in the peripheral tissues, which facilitates the maintenance of homeostasis in the inner cell layers. The complex rearrangements in fruit tissues of M. domestica trees enable them to grow at high elevation belts under frequently changing conditions and to remain fully productive at various altitudes. more...

Published

2019

2. Fatty Acid Composition of Lipids from Leaves and Strobila of Cycas Revoluta (Cycas revoluta)

Bookmark

Author

R. A. Sidorov, A. V. Zhukov, E. I. Kuznetsova, V. P. Pchelkin, and Vladimir D. Tsydendambaev

Subjects

0106 biological sciences, 0301 basic medicine, chemistry.chemical_classification, biology, Chemistry, Sporangium, fungi, Fatty acid, Plant Science, biology.organism_classification, Cycas, 01 natural sciences, Sterol, Spore, 03 medical and health sciences, 030104 developmental biology, Cycas revoluta, Botany, lipids (amino acids, peptides, and proteins), Composition (visual arts), Sporophyll, 010606 plant biology & botany

Abstract

Fatty acid (FA) composition of lipids from leaves and differentiated fleshy strobila tissues and sporangia with spores of Cycas (Cycas revoluta Thumb.) after their step quantitative extraction from plant material was investigated. Quantitative content and qualitative composition of FAs of extractable and nonextractable leaf lipids were determined. It was established that flesh lipids of sporophylls are characterized by a high saturation level and contain a considerable proportion of saturated FAs with the usual chain length (C12–C18, 53–57%). At the same time, total amount of etherified FAs with a very long chain in lipids not extractable by the method of Zhukov and Vereshchagin exceeds several times that found in extractable lipids (~15 and ~4%, respectively). Neutral lipids of Cycas spores were represented by triacylglycerols, the lower-alkyl esters of FAs, free FAs, and sterol esters. more...

Published

2018

3. Cell ultrastructure and fatty acid composition of lipids in vegetative organs of Chenopodium album L. under salt stress conditions

Bookmark

Author

Vladimir D. Tsydendambaev, N. A. Myasoedov, E. I. Kuznetsova, Yu. V. Balnokin, Yu. V. Orlova, L. A. Khalilova, O. V. Maiorova, and T. V. Ivanova

Subjects

0106 biological sciences, 0301 basic medicine, biology, Osmotic concentration, Chenopodium, Membrane lipids, Plant physiology, Plant Science, biology.organism_classification, 01 natural sciences, Salinity, Chloroplast, 03 medical and health sciences, 030104 developmental biology, Biochemistry, Ultrastructure, Composition (visual arts), 010606 plant biology & botany

Abstract

White goosefoot plants (Chenopodium album L. of the family Chenopodiaceae) grown at various NaCl concentrations (3–350 mM) in the nutrient solution were used to study the cell ultrastructure as well as the qualitative and quantitative composition of fatty acids in the lipids of vegetative organs. In addition, the biomass of Ch. album vegetative organs, the water content, and the concentrations of K+, Na+, and Cl– were determined. The growth rates of plants raised at NaCl concentrations up to 200–250 mM were the same as for the control plants grown at 3 mM NaCl; the growth parameters remained rather high even at NaCl concentrations of 300–350 mM. The water content in Ch. album organs remained high at all NaCl concentrations tested. Analysis of the ionic status of Ch. album revealed a comparatively high K+ content in plant organs. At low NaCl concentrations in the nutrient solution, K+ ions were the dominant contributors to the osmolarity (the total concentration of osmotically active substances) and, consequently, to the lowered cell water potential in leaves and roots. As the concentration of NaCl was increased, the plant organs accumulated larger amounts of Na+ and Cl–, and the contribution of these ion species to osmolarity became increasingly noticeable. At 300–350 mM NaCl the contribution of Na+ and Cl– to osmolarity was comparable to that of K+. An electron microscopy study of Ch. album cells revealed that, apart from the usual response to salinity manifested in typical ultrastructural changes of chloroplasts, mitochondria, and the cytosol, the salinity response comprised the enhanced formation of endocytic structures and exosomes and stimulation of autophagy. It is supposed that activation of these processes is related to the removal from the cytoplasm of toxic substances and the cell structures impaired by salt stress conditions. The qualitative and quantitative composition of fatty acids in the lipids of Ch. album organs was hardly affected by NaCl level. These findings are consistent with the high salt tolerance of Ch. album, manifested specifically in retention of growth functions under wide-range variations of NaCl concentration in the nutrient solution and in maintenance of K+, Na+, and Cl– content in organs at a constant level characteristic of untreated plants. more...

Published

2016

4. Distribution of unusual fatty acids in the mesocarp triacylglycerols of maturing sea buckthorn fruits

Bookmark

Author

A. G. Vereshchagin, V. P. Pchelkin, E. I. Kuznetsova, and Vladimir D. Tsydendambaev

Subjects

chemistry.chemical_classification, biology, Plant physiology, Hippophae rhamnoides, Plant Science, Metabolism, biology.organism_classification, Oleic acid, chemistry.chemical_compound, Enzyme, chemistry, Biosynthesis, Biochemistry, Glycerol, Composition (visual arts)

Abstract

The pattern of distribution of X-FAs among individual positional species of the X-triacylglycerols (X-TAGs) in the sea buckthorn (Hippophae rhamnoides L.) mesocarp oil by the 80th, 90th, and 105th day after pollination (DAP) was investigated. The X-FAs comprised oleic acid (O) as well as unusual FAs, viz. hexadecenoic (H), palmitolinoleic (Pl), and cis-vaccenic acid (V). During mesocarp growth, the number of X-TAG species decreased dramatically as a result of their metabolism, but their proportion in the total TAGs remained constant. H-TAGs predominating in the oil were similar to total TAGs in their composition and the pattern of their dynamics during maturation. As regards minor Pl-TAGs, there was a tendency for an increase in the level of species including palmitolinoleic acid in the middle (sn-2) position of their molecules. Throughout the entire process of fruit maturation, oleic acid was by 98.0–98.8% concentrated in the sn-2 position of O-TAGs. At the same time, cis-vaccenic acid, a Δ11-positional isomer of oleic acid, was predominantly incorporated in the side positions of V-TAGs, and its 98.1% concentration in these positions was achieved only by the 105th DAP. A virtually absolute selectivity of the distribution of oleic and cis-vaccenic acids in TAGs was found here for the first time. Discussed are the possible physicochemical and biochemical factors of a highly selective incorporation of these FAs in the sea buckthorn TAGs, the pathways of enzymatic biosynthesis of O- and V-TAGs, the metabolic role of discrimination of incorporation of some FA species in the glycerol residue of glycerolipids, and the causes for the disappearance of some TAG species during maturation. more...

Published

2010

5. Distribution of unusual fatty acids in the triacylglycerols of sea buckthorn mesocarp oil

Bookmark

Author

E. I. Kuznetsova, V. P. Pchelkin, A. G. Vereshchagin, and Vladimir D. Tsydendambaev

Subjects

chemistry.chemical_classification, Degree of unsaturation, Vaccenic acid, Fatty acid, Plant Science, Palmitic acid, chemistry.chemical_compound, Oleic acid, Biochemistry, chemistry, Biosynthesis, Hexadecenoic Acid, Composition (visual arts), Food science

Abstract

The structure of unusual fatty acid (FA) components of triacylglycerols (TAGs) of mature sea buckthorn (Hippophae rhamnoides L.) mesocarp oil was determined by GLC and MS, and the positional-species composition (PSC) of these TAGs was estimated using the methods of TAG chemical deacylation, TLC, GLC, and computer calculation. It was shown that the unusual FAs comprised n-cis-Δ9-hexadecenoic, n-cis-Δ9,12-hexadecadienoic (palmitolinoleic), and n-cis-Δ11-octadecenoic (cis-vaccenic) acids. The hexadecenoic acid predominated in the oil, and in its distribution in TAGs, it was similar to the total FAs differing from them only in some prevalence in the triunsaturated TAGs and in the TAGs with a shorter acyl chain, as well as in the sn-2 position of TAGs. Palmitolinoleic (16:2) acid comprised only 5% of total FAs, and it was exclusively concentrated in the sn-2 position of TAGs. As regards its distribution between various positional types and forms of TAGs, the 16:2 acid was similar to oleate and total FAs. As compared to the total TAGs, the TAGs with 16:2 acid were characterized by a lower FA chain length as well as by a highest unsaturation. The TAGs with vaccenic acid (V-TAGs) considerably exceeded O-TAGs, i.e., the TAGs containing oleic acid, another 18:1 positional isomer, both in their content in the total TAGs and in their unsaturation. In the composition of positional types and fractions of various unsaturation, O-TAGs were similar to the total TAGs, while V-TAGs were characterized by a very unusual structure, viz., a very high triunsaturated TAG level and an extremely low concentration of 1,3-disaturated-2-monounsaturated TAGs. In addition, oleic acid, like most other unsaturated FAs, was incorporated predominantly in the sn-2 position of TAGs, while vaccenic acid, being also unsaturated, was nevertheless by 90% concentrated in the sn-1,3 positions of V-TAGs. Unusual FAs were related to each other in the mechanism of their biosynthesis. In fact, hexadecenoic acid biosynthesis produced by palmitic acid desaturation, was, on the one hand, further desaturated forming palmitolinoleic acid, and, on the other hand, converted to vaccenic acid via C2 elongation. more...

Published

2006

6. [Untitled]

Bookmark

Author

Vladimir D. Tsydendambaev, E. I. Kuznetsova, A. G. Vereshchagin, and V. P. Pchelkin

Subjects

Chromatography, food.ingredient, Chemistry, Silica gel, Sunflower oil, Plant Science, Sunflower, Lecithin, chemistry.chemical_compound, food, Enzymatic hydrolysis, Anhydrous, Native state, Organic chemistry, lipids (amino acids, peptides, and proteins), Composition (visual arts)

Abstract

To determine the positional-species composition (PSC) of the sunflower oil triacylglycerols (TAGs), these TAGs were separated in a native state by preparative TLC on alumina and subjected to a partial chemical deacylation with the Grignard reagent under anhydrous conditions. The rac-1,2-diacylglycerols (DAGs) formed in this reaction were identified by comparing their TLC mobilities with the respective standard separated from the products of enzymatic hydrolysis of lecithin. Subsequently, the DAGs as their borate complexes were isolated from the reaction mixture by preparative TLC on silica gel. The quantitative fatty acid composition of both the DAGs and the initial TAGs was determined by capillary GLC. The PSC of TAGs calculated from the data obtained using a computer program was consistent with the data on sunflower TAG composition reported by other researchers using an independent method. Thus, the technique developed here makes it possible to obtain reliable data on the concentration of all TAG positional species in the plant tissue. more...

Published

2001