http://biph.kiev.ua/en?action=history&feed=atom&title=Gonchar_OlgaGonchar Olga - Revision history2026-04-23T01:09:38ZRevision history for this page on the wikiMediaWiki 1.18.1http://biph.kiev.ua/en?title=Gonchar_Olga&diff=10485&oldid=prevAmor: Created page with "'''{{DHSIHEAD}} <br>'''Name: Olga Gonchar, Ph.D.''' <br>'''Degree:''' Ph D, Biology (Specialization Physiology of Human and Animals) <br>Bogomolets Institute of Physiolog..."2018-04-20T12:36:05Z<p>Created page with "'''{{DHSIHEAD}} <br>'''Name: Olga Gonchar, Ph.D.''' <br>'''Degree:''' Ph D, Biology (Specialization Physiology of Human and Animals) <br>Bogomolets Institute of Physiolog..."</p>
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<br>'''Name: Olga Gonchar, Ph.D.'''<br />
<br>'''Degree:''' Ph D, Biology (Specialization Physiology of Human and Animals)<br />
<br>Bogomolets Institute of Physiology National Academy of Sciences of Ukraine, 1996<br />
<br>M.Sc., with honour, Biology and Chemistry<br />
<br>Taras Shevchenko Pedagogical University of Lugansk, 1984<br />
<br />
<br>'''Present position:'''<br />
<br>Senior researcher, Department of Hypoxic States, Bogomolets Institute of Physiology National Academy of Sciences of Ukraine <br />
<br />
<br>'''Academic and professional honours and awards:'''<br />
<br>Grand of the Forchungsgruppe “Neurohormonale Wirkungsmechanismen” der Sachsischen Academie der Wissenchaften zu Leipzig an der Friedrich-Schiller-Universitat, Jena, 2002.<br />
<br>Member of Ukrainian Physiological Society, Member of Ukrainian Pathophysiological Society<br />
<br />
<br>'''Field of research:'''<br />
<br>biochemistry, physiology, pathophysiology, cellular and molecular biology<br />
<br />
<br>'''Practical Experience:''' Research of molecular and genetic mechanisms regulation of prooxidant-antioxidant homeostasis, energy metabolism and apoptosis in cells during the development of oxidative stress different genesis (immobilization, hypoxia of various origin, and cardio- and neurotoxins) as well as the role of intracellular thiols (glutathione and thioredoxin systems) and antioxidant enzymes (MnSOD, catalase, etc.) in cellular redox-potential shaping and redox-signaling implementation. Study the peculiarities of compensatory-adaptive reactions formation involving redox-sensitive nuclear transcription factors under the various modes of interval hypoxic training, hypoxic and hypoxic-hyperoxic preconditioning, restrain stress. The correction of pathophysiological disorders by new pharmacological substances.<br />
<br />
<br>'''Procedures and skills:'''<br />
<br>-Animal handling experience (different models of intermittent hypoxic training and hypoxic states of different genesis, stress exposures, physical exercises, drug intoxication in rats);<br />
<br>- Isolation of the subcellular fractions of rats tissues (cytosol, mitochondria, lysosome, nucleus) and cells of blood; <br />
<br>- Assay of the content of lipid peroxidation products, activity of antioxidant enzymes, enzymatic complexes of the respiratory chain in mitochondria and enzymes of different metabolic cycles;<br />
<br>- determination of the glutathion and thioredoxin systems components (enzymatic and nonenzymatic);<br />
<br>- western transfer and immunoblotting;<br />
<br>- electrophoresis;<br />
<br>- RNA isolation<br />
<br />
<br>'''Key publications'''<br />
#O Gonchar, I Mankovska.Moderate hypoxia/hyperoxia attenuates acute hypoxia-induced oxidative damage and improves antioxidant defense in lung mitochondria. Acta Physiol Hung. 2012, 99 (4), 436-446<br />
#O Gonchar, I Mankovska. Antioxidant system in adaptation to intermittent hypoxia. J. Biol. Sci.2010, 10 (6), 545-554<br />
#O Gonchar. Muscle fiber specific antioxidative system adaptation to swim training in rats: influence of intermittent hypoxia. J Sports Sci Med. 2005, 4 (2), 160-169.<br />
#O Gonchar, I Mankovska. Effect of moderate hypoxia/reoxygenation on mitochondrial adaptation to acute severe hypoxia. Acta Biologica Hung. 2009, 60 (2), 185-194<br />
#O Gonchar, I Mankovska. Glutathione system adaptation to acute stress in the heart of rats during different regimes of hypoxia training. Ukr. Biochem. J.1999, 79 (3), 79-85<br />
#ОА Гончар, ЕВ Розова. Влияние разных режимов интервальных гипоксических тренировок на морфологические характеристики и антиоксидантный статус тканей сердца и легких.Бюл. Экспер. Биол. и Мед. 2007, 144 (8), 216-220<br />
#YI Prylutskyy, IV Vereshchaka, AV Maznychenko, NV Bulgakova, O O Gonchar, OA Kyzyma, U Ritter, P Scharff, T Tomiak, D M Nozdrenko, I V Mishchenko, AI Kostyukov. C 60 fullerene as promising therapeutic agent for correcting and preventing skeletal muscle fatigue. J of nanobiotechnology . 2017, 15 (1), 1-8<br />
#O Gonchar, I Mankovska. Hypoxia/Reoxygenation modulates Oxidative Stress Level and Antioxidative Potential in Lung Mitochondria: Possible participation of P53 and NF-KB Target Proteins. Arch Pulmonol Respir Care, 2017, 3(2):035-043<br />
#O Gonchar, I Mankovska.Time-dependent effect of severe hypoxia/reoxygenation on oxidative stress level, antioxidant capacity and p53 accumulation in heart mitochondria. Ukr. Biochem. J. 2017, 89(6): 41-49<br />
#Mankovska I. and Gonchar O. Response of mitochondrial thiol-redox systems to an oxidant challenge caused by acute hypoxia: protective effect of adaptation to hypoxia/hyperoxia. In: Adaptation Biology and Medicine. Eds. Laurentiu M. Popescu, A.R. Hargens and Pawan K Singal, Narosa Publishing House Pvt. Ltd., New Delhi, India, 2013, v.7, p. 169-181.<br />
<br />
<br>'''Contact'''<br />
<br>Bogomoletz Str, 01024 Kyiv, Ukraine <br />
<br>Department of Hypoxic States (office322)<br />
<br>e-mail: olga.gonchar@i.ua <br />
<br>Phone +38044 256 24 92</div>Amor