Regeneration of photoreceptor organs in freshwater planarians at different levels of accumulation of natural methylmercury compounds

The effects of natural methylmercury compounds on regeneration of photoreceptor organs were studied in three freshwater planarians: Polycelis tenuis, Dugesia lugubris, and D. tigrina. Accumulation of methyl mercury in the planarian body suppressed regeneration of P. tenuis with numerous photoreceptor organs to a greater extent than in two other planarians that have only two eyes. High methyl mercury concentrations inhibited the restoration of photoreceptor organs in asexual and sexual D. tigrina races.     

Phenotypic manifestation of epigenetic determinant [ISP+] in Saccharomyces serevisiae depends on combination of mutations in SUP35 and SUP45 genes

It is known that translation fidelity in Saccharomyces yeast is determined by factors of genetic and epigenetic (prion) nature. The work represents results of further analysis of strains containing non-chromosomal determinant [ISP+], described earlier. This determinant is involved in the control of translation fidelity and some of its properties indicate that it is a prion. [ISP+] manifests phenotypically as antisuppressor of two sup35 mutations and can be cured by guanidine hydrochloride (GuHCl). Here we have shown that sup35 mutants containing [ISP+] contain also additional sup45 mutations. These mutations cause amino acid replacements in different regions of eRF1 translation termination factor, encoded by SUP45 gene. Strains bearing sup35-25 mutation contain sup45 mutation, which causes amino acid replacement at position 400 of eRF1; strains bearing sup35-10 contain mutation causing replacement, which alters eRF1 at position 75. Thus, antisuppressor phenotype of [ISP+] strains depends on interaction of sup35 and sup45 mutations, as well as on the GuHCl-curable epigenetic determinant.     

Regeneration of photoreceptor organs in freshwater planarians at different levels of accumulation of natural methylmercury compounds

The effects of natural methylmercury compounds on regeneration of photoreceptor organs were studied in three freshwater planarians: Polycelis tenuis, Dugesia lugubris, and D. tigrina. Accumulation of methyl mercury in the planarian body suppressed regeneration of P. tenuis with numerous photoreceptor organs to a greater extent than in two other planarians that have only two eyes. High methyl mercury concentrations inhibited the restoration of photoreceptor organs in asexual and sexual D. tigrina races     

The Synthesis of New Porphyrin–Quinone Dyad Systems

New porphyrin–quinone dyad systems containing spacer groups of various lengths and structures and sterically hindered 5,10,15,20-tetrakis(3,5-di-tert-butylphenyl)porphyrin as an electron donor were synthesized. These compounds seem to be promising models for studying the photoinduced electron transfer.     

Effect of the pH of the medium and of temperature on tylosin stability

The stability of tylosin, a macrolide antibiotic, in solutions with varying pH and temperature was determined quantitatively. It was shown that tylosin was the most stable at pH about 3.5 and 9.0, which corresponded to the salt and nondissociated forms of the substance. Outside these stability ranges significant inactivation of the antibiotic was observed. The inactivation markedly increased with an increase in the temperature level and the exposure period. Satisfactory correlation between the data on microbiological and spectrophotometric determinations of tylosin in solutions is indicative of the advisability of the use of spectrophotometry in production of tylosin.     

Hormonal regulation of tuber formation in potato plants

Tuber formation is a complex process comprising several stages: stolon formation and growth, induction of tuberization, tuber initiation, and tuber growth. This review considers successive stages of tuber formation and their hormonal regulation. Special attention is paid to the effects on tuber formation of such phytohormones as gibberellins, cytokinins, jasmonic acid, and auxins. Physiological and some molecular-genetic aspects of their action on tuber photoperiodic induction and initiation are discussed.