One of the targets of modern plant physiology is to identify tools for improving seed germination and plant growth under unfavorable environmental conditions. Seeds of Brassica oleracea rubrum were pretreated with melatonin at concentrations: 1, 10, and 100 microM using a hydropriming method. Air-dried seeds of each experimental variants that were nonpretreated (control), hydroprimed (H) or hydroprimed with melatonin (HM1, HM10, and HM100) were germinated in darkness for 3 days at 25 degrees C. Young seedlings were then transferred to the light and grown for an additional 5 days. Both germination and growth tests were performed in water and in CuSO(4) water solutions in concentrations of 0.5 and 1 mM. H, HM1 and HM10 improved seed germination both in water and in the presence of Cu(2+). One or 10 microM melatonin eliminated the inhibitory effect of the 0.5 mM metal concentration on the fresh weight of seedlings. HM100 had a negative effect; thus seed germination was lower and seedlings had poor establishment. The toxic effect of Cu(2+) manifested by membrane peroxidation and DNA endoreplication blocking in the seedlings grown from nontreated (control) and H seeds was not observed in the seedlings grown from HM1 and HM10 seeds; in contrast, HM100 enhanced the toxic effect of Cu(2+).
Using cytophotometric procedures, we measured the nuclear and nucleolar protein content of successive zones of growth and differentiation in consecutive (1-7 mm) root segments obtained from eight species of the Angiospermae after staining the preparations with Feulgen-Naphthol Yellow S (F-NYS). In meristematic cells the nuclear and nucleolar protein content was found to double during the cell cycle. In species in which differentiation occurs at the same time as nuclear DNA endoreplication, i.e. Vicia faba subsp. minor, V. faba subsp. major, Pisum sativum, Hordeum vulgare and Amaryllis belladonna, the pool of nuclear proteins observed during the G2 phase of the cell cycle was seen in the differentiated zone in nuclei containing 8C DNA. Species in which differentiation is not accompanied by the process of nuclear DNA endoreplication, i.e. Levisticum officinale, Tulipa kaufmanniana and Haemanthus katharinae, exhibited the highest nuclear proteins content during the G2 phase of the cell cycle; comparably high values were not found in the differentiated zone. A decrease in nucleolar protein content was observed during the process of differentiation, this tendency being more evident in the studied species that do not exhibit endoreplication.
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