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S. Popov, G. Popova, R. Ovodova, O. Bushneva, Y. Ovodov (1999)
Effects of polysaccharides from Silene vulgaris on phagocytes.International journal of immunopharmacology, 21 9
T. Murashige, F. Skoog (1962)
A revised medium for rapid growth and bio assays with tobacco tissue culturesPhysiologia Plantarum, 15
E. Nothnagel (1997)
Proteoglycans and related components in plant cells.International review of cytology, 174
E. Günter, Y. Ovodov (2002)
Changes in cell wall polysaccharides of Silene vulgaris callus during culture.Phytochemistry, 59 7
P. Williams, C. Sayers, C. Viebke, C. Senan, J. Mazoyer, P. Boulenguer (2005)
Elucidation of the emulsification properties of sugar beet pectin.Journal of agricultural and food chemistry, 53 9
W. York, A. Darvill, M. McNeil, T. Stevenson, P. Albersheim (1986)
Isolation and characterization of plant cell walls and cell wall componentsMethods in Enzymology, 118
E. Günter, Y. Ovodov (2005)
Effect of calcium, phosphate and nitrogen on cell growth and biosynthesis of cell wall polysaccharides by Silene vulgaris cell culture.Journal of biotechnology, 117 4
A. Usov, M. Bilan, N. Klochkova (1995)
Polysaccharides of Algae. 48. Polysaccharide Composition of Several Calcareous Red Algae: Isolation of Alginate from Corallina pilulifera P. et R. (Rhodophyta, Corallinaceae), 38
K. Keegstra, K. Talmadge, W. Bauer, P. Albersheim (1973)
The Structure of Plant Cell Walls: III. A Model of the Walls of Suspension-cultured Sycamore Cells Based on the Interconnections of the Macromolecular Components.Plant physiology, 51 1
E. Günter, Y. Ovodov (2002)
An alternate carbon source for enhancing production of polysaccharides by Silene vulgaris callus.Carbohydrate research, 337 18
P. Albersheim, J. An, G. Freshour, M. Fuller, R. Guillén, K. Ham, M. Hahn, J. Huang, M. O’Neill, A. Whitcombe (1994)
Structure and function studies of plant cell wall polysaccharides.Biochemical Society transactions, 22 2
A. Kirby, A. Macdougall, V. Morris (2006)
Sugar Beet Pectin–Protein ComplexesFood Biophysics, 1
M. Dubois, K. Gilles, J. Hamilton, P. Rebers, F. Smith (1956)
Colorimetric Method for Determination of Sugars and Related SubstancesAnalytical Chemistry, 28
E. Günter, O. Kapustina, O. Popeyko, Y. Ovodov (2007)
Influence of ultraviolet-C on the compositions of cell-wall polysaccharides and carbohydrase activities of Silene vulgaris callus.Carbohydrate research, 342 2
Pectin-protein fraction SVC was isolated from the callus culture of the bladder campion (Silene vulgaris). The main components in it were residues of D-galacturonic acid, galactose, arabinose, rhamnose, and protein. Using ion-exchange chromatography, ultrafiltration, and acid and enzymatic hydrolysis, it was shown that SVC contained a mixture of molecules of linear pectin, branched pectin polysaccharide, and pectin-protein polymer. A fragment of the linear chain of galacturonan amounted to more than half of the entire carbohydrate silenan chain. The branched area of the macromolecule is represented by rhamnogalacturonan I. The pectin-protein polymer consisted mainly of protein and weakly branched pectin fragments with molecular mass of more than 300 kDa.
Applied Biochemistry and Microbiology – Springer Journals
Published: Jan 8, 2011
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