Physiological and Biochemical Role of Brassinosteroids and Their Structure-Activity Relationship in the Green Alga Chlorella vulgaris Beijerinck (Chlorophyceae)

Abstract.

This paper studies the influence of the 7-oxalactone type of brassinosteroids (BRs) and 6-ketone upon the biological activity of the alga Chlorella vulgaris (Chlorophyceae). The results of the study indicate significant differences in the growth and metabolism of C. vulgaris cells caused by the different chemical structures of the BRs used. The most significant differences in the stimulation of the growth of the biomass and metabolites contained in it were caused by structural differences in the B ring of BRs. It was found that in C. vulgaris 7-oxalactone type of BRs [brassinolide (BL) and its derivatives] are more active than 6-ketone type of BRs [castasterone (CS) and its derivatives]. It was found that BRs used within the range of concentration of 10⁻¹² to 10⁻⁸ m stimulate two- to threefold the growth and division of C. vulgaris cells. The most stimulating influence upon the number of the algal cells and the phosphorus, chlorophyll, and monosaccharides contained in the alga, as well as the intensity of the photosynthesis, and sugar and glycolate excretion was demonstrated by BL at a concentration 10⁻⁸ m in the 36th h of cultivation. HomoCS was characterized by the lowest biological activity. In turn, after the 48th h an inhibition of the rate of growth and development of the alga takes place. In the range from 10⁻⁷ to 10⁻⁶ m the inhibition of growth and development of the alga was manifested by BRs. During the further toxic activity of BRs the cells of C. vulgaris undergo complete degradation. In turn, in concentrations lower than 10⁻¹² m, BRs do not exert any biologically significant influence upon C. vulgaris cells.

On the basis of the study, the biological activity of BRs was arranged in the following order: BL > 24-epiBL > homoBL > CS > 24-epiCS > homoCS.