Dr. Hanna Danylovych, Palladin Institute of Biochemistry of National academy Sciences of Ukraine, Ukraine
Dr. Hanna V. Danylovych 🇺🇦, born on May 20, 1974, in Kyiv, is a distinguished Ukrainian biochemist. She earned her Master’s in Biology from the National University of Kyiv-Mohyla Academy in 1999 and has since been a Senior Scientist at the O.V. Palladin Institute of Biochemistry, focusing on muscle biochemistry. Dr. Danylovych completed her Ph.D. in 2006 and her Doctorate in 2022, specializing in nitric oxide biosynthesis in smooth muscle mitochondria 🧬. Her research, published in over 70 articles, explores calcium transport and nitric oxide’s regulatory roles. Awarded the Palladin Award in 2023, she’s recognized for her contributions to biochemistry 🏆.
Publication profile
Google Scholar
Education 🎓
Hanna V. Danylovych, born on May 20, 1974, in Kyiv, graduated with a Master’s in Biology from the National University of Kyiv-Mohyla Academy in 1999.
Achievements and Awards 🏆
Dr. Danylovych received the Palladin Award in 2023 for her exceptional contributions to biochemistry and was recognized for her publication in the BioTechnologia Journal in 2018.
Research Focus
Dr. Hanna V. Danylovych’s research primarily focuses on biochemistry, specifically the biochemical mechanisms in smooth muscle cells 🧬. Her studies explore how nitric oxide and calcium ions influence the bioenergetics and homeostasis of these cells. She investigates nitric oxide biosynthesis in mitochondria and its regulatory effects on calcium transport and mitochondrial function 🧫. Her work also includes examining the impact of calix[4]arenes as potential modulators of mitochondrial calcium transport systems. Dr. Danylovych’s research has profound implications for understanding and regulating the contractile functions of smooth muscles and cellular energy dynamics ⚡.
Publication Top Notes
- “Ca2+ accumulation study in isolated smooth muscle mitochondria using Fluo-4 AM” 📚 (Cited by 16, 2013)
- “Distribution of mesenteric cranial artery in the small intestine of Procyon cancrivorus (Cuvier, 1798)(Mammalia, Procyonidae)” 🦝 (Cited by 15, 2010)
- “The biosynthesis of nitric oxide from L-arginine. Nitric oxide formation features and its functional role in mitochondria” 🧬 (Cited by 14, 2018)
- “Evaluation of functioning of mitochondrial electron transport chain with NADH and FAD autofluorescence” 🌟 (Cited by 13, 2016)
- “Ca2+/H (+)-exchange in myometrium mitochondria” 🔄 (Cited by 8, 2014)
- “H+-Ca2+ Exchanger in the Myometrium Mitochondria: Modulation by Exogenous and Endogenous Compounds” ⚙️ (Cited by 7, 2015)
- “Investigation of nitrosactive compounds influence on polarization of the mitochondrial inner membrane in the rat uterus myocytes using potential sensitive fluorescent probe” 🧫 (Cited by 6, 2014)
- “Investigation of the changes in uterine myocytes size depending on contractile activity modulators by photon correlation spectroscopy” 📏 (Cited by 6, 2013)
- “Changes in polarization of myometrial cells plasma and internal mitochondrial membranes under calixarenes action as inhibitors of plasma membrane Na+, K+-ATPase” ⚡ (Cited by 6, 2012)
- “Вплив іонного та колоїдного золота на АТР-гідролазні ферментні системи в мембрані мікроорганізмів Bacillus sp. B4253 та Bacillus sp В4851” 🥇 (Cited by 6, 2007)