Plant polysaccharides with technical and physiologic traits attract researchers by their high physiological activity in regulation of the growth, development and protective reactions. Cell cultures allow to regulate chemical composition of synthesized substances by changing media composition and are widely used to enhance or change the biosynthesis of metabolites. The aim of this study was to investigate the influence of phytohormones 2,4-dichlorphenoxyacetic acid (2,4 –D) and abscisic acid (ABA) of culture medium on chemical composition of polysaccharides (PS), extracted from cells and extracellular liquid of wheat suspension culture. It was shown for the medium with ABA that monosaccharide composition of extracellular PS mainly represented by glucose (87%), whereas PS isolated from cells were rich for xylose and glucuronic acid. Monosaccharide composition of extracellular PS from media with 2,4-D showed 6-fold increase of arabinose, 8-fold ‒ of galactose, 5-fold ‒ of xylose and glucuronic acid, compared to extracellular PS from ABA medium. Composition of cellular PS from media with 2,4-D were mainly similar to ABA and differed by the increased amount of mannose (3-fold), and galacturonic acid (2,5-fold). Thus, regulative effect of the use of two different types of phytohormones was demonstrated on the biosynthesis of variously composed polysaccharides.
Polysaccharides were extracted from wheat suspension culture and cultivated cells. Gaz-liquid chromatography of wheat suspension culture allowed identifying the composition of polysaccharides that were found to contain arabinose, xylose, galactose, glucose, and a little amount of mannose and rhamnose. In dried cultivated cells the polysaccharide structure consisted mainly from arabinose, xylose, and galactose. It was found that the percentage of the amount of monosaccharides was positively correlated with the concentration of 2,4-D at the suspension media.
Degrading cells of wheat and barley callus have all known ultrastructural features, which are characteristic for apoptotic cells: intense vacuolization, increasing the size of the nucleus, cupped invaginations of plastids, mitochondria saving until the last stages of cell degradation and the formation of vesicles, similar to apoptotic bodies. It is the first showed that degrading cells in embryogenic callus are characterized with the destruction of the nuclear membrane and the allocated substances of fibrillar nature in the periplasmic space and on the surface of cells.
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