Dr. Yaronskaya essentially contributed to studies of photophysical and photochemical mechanisms underlying photodynamic injuries of plant cells and
tissues upon disturbing porphyrin metabolism. One of her remarkable findings in the course of these investigations was that certain Mg-porphyrins inhibit the expression of nuclear genes encoding enzymes of their own biosynthesis, thus ultimately suppressing their accumulation. Dr. Yaronskaya contributed to the investigation of the multifunctionality of 5-aminolevulinic acid (ALA)—a pivotal precursor in chlorophyll and heme biosynthesis. Her contributions led to the conclusion that ALA also possesses properties of a plant growth regulator. Among possible mechanisms of such an action Dr. Yaronskaya has suggested a connection between the metabolism of ALA and the phytohormone cytokinin. She has also Mdm2 antagonist HDAC inhibitor inhibitor found that high levels of endogenous or exogenous ALA result in stabilization of certain plant proteins which may contribute to the promotion of plant abiotic stress tolerance. These discoveries were successfully applied in the framework of scientific
programmes supported by Belarus national funds devoted to topics such as “Biorational pesticides,” “Innovative biotechnologies,” and “Fundamental basis of biotechnologies.” For a large period of her https://www.selleckchem.com/products/ink128.html scientific life, Dr. Yaronskaya closely collaborated with German scientists, mainly from Humboldt University, Berlin. Among them were Professor Dr. P. Hoffmann, Dr. G. Walter, Professor Dr. B. Grimm, Dr. Heiko Lokstein, and Professor Dr. E. Klose (see Fig. 2).
These fruitful collaborations enabled to elucidate aspects of plastid-to-nucleus interactions, including studies on the influence of plastid signals on chloroplast biogenesis, expression of genes encoding enzymes of chlorophyll biosynthesis, as well as substrate channeling in a complex between the key porphyrin biosynthetic enzymes, Mg-chelatase and S-adenosyl-l-methionine:Mg-protoporphyrin IX methyl transferase. Fig. 2 Elena Yaronskaya (7th from left) at the German-Belarus Binational Meeting on Biophysics of Photosynthesis (2003) in Egsdorf, Germany Dr. Yaronskaya was (co-)author of more than Protirelin 150 scientific papers in national and international journals, of two chapters in monographs, and four patents. Together with Professor Dr. N. Averina, she has edited a monograph “Biosynthesis of tetrapyrroles in plants.” Dr. Yaronskaya was well-known in the scientific community, as an open-minded and modern scientist. Her passing is a great loss for the scientific community, and all her relatives and friends. We will always remember her, not only as a truly collaborative-minded colleague but also as a warm-hearted and amiable personal friend (see Fig. 2).”
“Five years ago Govindjee announced the publication of Volumes 24 and 25 in the series Advances in Photosynthesis and Respiration [Govindjee (2006) Photosynthesis Research 90:91–96].