Диссертация (Структура и пероксидазная функция комплекса цитохрома c с кардиолипином в водной среде и в неполярном окружении), страница 21
Описание файла
Файл "Диссертация" внутри архива находится в папке "Структура и пероксидазная функция комплекса цитохрома c с кардиолипином в водной среде и в неполярном окружении". PDF-файл из архива "Структура и пероксидазная функция комплекса цитохрома c с кардиолипином в водной среде и в неполярном окружении", который расположен в категории "". Всё это находится в предмете "биология" из Аспирантура и докторантура, которые можно найти в файловом архиве РНИМУ им. Пирогова. Не смотря на прямую связь этого архива с РНИМУ им. Пирогова, его также можно найти и в других разделах. , а ещё этот архив представляет собой кандидатскую диссертацию, поэтому ещё представлен в разделе всех диссертаций на соискание учёной степени кандидата биологических наук.
Просмотр PDF-файла онлайн
Текст 21 страницы из PDF
‒ V.1410. ‒ № 2. ‒ P. 195-213.160. Thompson P. B. Apoptosis in the pathogenesis and treatment of disease //Science. ‒ 1995. ‒ V. 267. ‒ № 5203. ‒ P. 1456-62.161. Tuominen E. K., Wallace P. J., Kinnunen P. K. Phospholipid-cytochrome cinteraction evidence for the extended lipid anchorage // Journal of BiologicalChemistry. ‒ 2002. ‒ V. 277. ‒ № 11. ‒ P. 8822-8826.162. Tyurin V. A., Balasubramanian K., Winnica D., Tyurina Y. Y., Vikulina A. S.,He R. R., Kapralov A.
A., Macphee P. H., Kagan V. E. Oxidatively modifiedphosphatidylserines on the surface of apoptotic cells are essential phagocytic 'eat-me'signals: cleavage and inhibition of phagocytosis by Lp-PLA2 // Cell Death Differ. ‒2014. ‒ V. 21. ‒ № 5. ‒ P. 825-35.163. Tyurin V. A., Tyurina Y. Y., Ritov V. B., Lysytsya A., Amoscato A.
A.,Kochanek P. M., Hamilton R., Dekosky S. T., Greenberger J. S., Bayir H., Kagan V.E. Oxidative lipidomics of apoptosis: quantitative assessment of phospholipidhydroperoxides in cells and tissues // Methods in molecular biology. ‒ 2010. ‒ V. 610.‒ P. 353-74.164. Tyurina Y. Y., Kini V., Tyurin V.
A., Vlasova, II, Jiang J., Kapralov A. A.,Belikova N. A., Yalowich J. P., Kurnikov I. V., Kagan V. E. Mechanisms ofcardiolipin oxidation by cytochrome c: relevance to pro- and antiapoptotic functionsof etoposide // Mol Pharmacol. ‒ 2006. ‒ V. 70. ‒ № 2. ‒ P. 706-17.122165. Vasiljeva O. V., Lyubitsky O. B., Klebanov G. I., Vladimirov Yu A. Effect ofantioxidants on the kinetics of chain lipid peroxidation in liposomes // Membrane &cell biology. ‒ 1998.
‒ V. 12. ‒ № 2. ‒ P. 223-31.166. Vikulina A. S., Alekseev A. V., Proskurnina E. V., Vladimirov Y. A.Cytochrome c-Cardiolipin Complex in a Nonpolar Environment // Biochemistry(Moscow). ‒ 2015. ‒ V. 80. ‒ № 10. ‒ P. 1298-1302.167. Vladimirov I.
A., Sherstnev M. P., Azimbaev T. K. Chemiluminescence of lowdensity lipoproteins activated by coumarin in the presence of divalent iron ions //Biofizika. ‒ 1995. ‒ V. 40. ‒ № 2. ‒ P. 323-7.168. Vladimirov I. A., Suslova T. B., Olenev V. I. [Chemiluminescence associatedwith the formation of lipid peroxides in biological membranes. II. The role of Fe2+in the development of chain oxidation of lipids and of ultra-weak luminescence] //Biofizika. ‒ 1969.
‒ V. 14. ‒ № 5. ‒ P. 836-45.169. Vladimirov I. A., Zimina G. M. [The luminescence of some proteins and oftryptophan under monochromatic excitation in solutions of different pH] //Biokhimiia. ‒ 1965. ‒ V. 30. ‒ № 6. ‒ P. 1105-14.170. Vladimirov Y. A. Intrinsic (low-level) chemiluminescence // Free radicals. Apractical approach / Punchard N. A. a. K., F.J. ‒ Oxford, New York, Tokyo: OxfordUniversity Press, 1996. ‒ P. 65-82.171. Vladimirov Y. A., Alekseev A. V., Volkov V. V., Remenschikov V. E.,Proskurnina E. V. The cytochrome c forms a complex with cardiolipin in a form ofhydrophobic nanospheres // The FEBS journal.
‒ 2013. ‒ V. 280 (Supplement 1). ‒P. 263-264.172. Vladimirov Y. A., Demin E. M., Proskurnina E. V., Osipov A. N. Lipoperoxideradical production during oxidation of cardiolipin in the complex with cytochrome c// Biochemistry (Moscow) Supplement Series A: Membrane and Cell Biology.
‒2009. ‒ V. 3. ‒ № 4. ‒ P. 479–489.173. Vladimirov Y. A., Nol’ Y. T., Volkov V. V. Protein–lipid nanoparticles thatdetermine whether cells will live or die // Crystallography Reports. ‒ 2011. ‒ V. 56.‒ № 4. ‒ P. 553-559.123174. Vladimirov Y. A., Olenev V. I., Suslova T. B., Cheremisina Z. P. Lipidperoxidation in mitochondrial membrane // Advances in Lipid Research. ‒ 1980.
‒ V.17. ‒ P. 173-249.175. Vladimirov Y. A., Proskurnina E. V. Free Radicals and Cell Chemiluminescence// Biochemistry (Moscow). ‒ 2009. ‒ V. 74. ‒ № 13. ‒ P. 1545-1566.176. Vladimirov Y. A., Proskurnina E. V., Alekseev A. V. Molecular Mechanisms ofApoptosis. Structure of Cytochrome c-Cardiolipin Complex // Biochemistry.Biokhimii͡a. ‒ 2013. ‒ V. 78. ‒ № 10. ‒ P. 1086-97.177. Vladimirov Y. A., Proskurnina E.
V., Demin E. M., Matveeva N. S., LubitskiyO. B., Novikov A. A., Izmailov D. Y., Osipov A. N., Tikhonov V. P., Kagan V. E.Dihydroquercetin (taxifolin) and other flavonoids as inhibitors of free radicalformation at key stages of apoptosis // Biochemistry. Biokhimiia. ‒ 2009. ‒ V. 74. ‒№ 3. ‒ P. 301-7.178. Vladimirov Y. A., Proskurnina E. V., Izmailov D. Y., Novikov A. A.,Brusnichkin A. V., Osipov A. N., Kagan V. E.
Mechanism of activation ofcytochrome C peroxidase activity by cardiolipin // Biochemistry. Biokhimiia. ‒ 2006.‒ V. 71. ‒ № 9. ‒ P. 989-97.179. Vladimirov Y. A., Sarisozen P., Vladimirov G. K., Filipczak N., Polimova A.M., Torchilin V. P. The Cytotoxic Action of Cytochrome C/Cardiolipin Nanocomplex(Cyt-CL) on Cancer Cells in Culture // Pharm Res. ‒ 2017. ‒ V. 34. ‒ № 6. ‒ P. 12641275.180. Vladimirov Y. A., Sharov V. S., Driomina E. S., Reznitchenko A.
V., Gashev S.B. Coumarin derivatives enhance the chemiluminescence accompanying lipidperoxidation // Free radical biology & medicine. ‒ 1995. ‒ V. 18. ‒ № 4. ‒ P. 739-45.181. Wei W., Danielson N. D. Fluorescence and circular dichroism spectroscopy ofcytochrome c in alkylammonium formate ionic liquids // Biomacromolecules. ‒ 2011.‒ V. 12. ‒ № 2. ‒ P. 290-7.182. Weinkam P., Zimmermann J. r., Romesberg F.
E., Wolynes P. G. The foldingenergy landscape and free energy excitations of cytochrome c // Accounts of chemicalresearch. ‒ 2010. ‒ V. 43. ‒ № 5. ‒ P. 652-660.124183. Xiang J., Guo S., Jiang S., Xu Y., Li J., Li L. Silencing of Long Non-CodingRNA MALAT1 Promotes Apoptosis of Glioma Cells // Journal of Korean medicalscience. ‒ 2016. ‒ V. 31. ‒ № 5. ‒ P. p.
688-94.184. Yalcinkaya N., Haytural H., Bilgic B., Ozdemir O., Hanagasi H., Kucukali P. I.,Ozbek Z., Akcan U., Idrisoglu H. A., Gurvit H., Tuzun E. Expression changes ofgenes associated with apoptosis and survival processes in Parkinson's disease //Neuroscience letters. ‒ 2016. ‒ V. 615. ‒ P. p. 72-7.185.
Yang P., Cui X., Dai X., Liao W. Downregulation of Foxc2 enhances apoptosisinduced by 5-fluorouracil through activation of MAPK and AKT pathways incolorectal cancer // Oncology letters. ‒ 2016. ‒ V. 11. ‒ № 2. ‒ P. 1549-1554.186. Yang W., Soares J., Greninger P., Edelman E. J., Lightfoot H., Forbes S., BindalN., Beare D., Smith J. A., Thompson I.
R., Ramaswamy S., Futreal P. A., Haber D.A., Stratton M. R., Benes P., McDermott U., Garnett M. J. Genomics of DrugSensitivity in Cancer (GDSC): a resource for therapeutic biomarker discovery incancer cells // Nucleic Acids Res. ‒ 2013. ‒ V. 41. ‒ № D1. ‒ P. 955-61.187. Yilmaz H. Excess properties of alcohol-water systems at 298.15 K // TurkishJournal of Physics. ‒ 2002. ‒ V. 26. ‒ № 3. ‒ P.
243-246.188. Zaidi S., Hassan M. I., Islam A., Ahmad F. The role of key residues in structure,function, and stability of cytochrome-c // Cellular and molecular life sciences. ‒ 2014.‒ V. 71. ‒ № 2. ‒ P. 229-255.189. Zhang A., Guo W., Ke H., Zhang X., Zhang H., Huang P., Yang D., Jia N., CuiD. Sandwich-format ECL immunosensor based on Au star@BSA-Luminolnanocomposites for determination of human chorionic gonadotropin // Biosensors &bioelectronics.
‒ 2018. ‒ V. 101. ‒ P. 219-226.190. Zhao P., Cui H., Duan J., Zhang S., Lv J. Self-Catalyzing Chemiluminescenceof Luminol-Diazonium Ion and Its Application for Catalyst-Free Hydrogen PeroxideDetection and Rat Arthritis Imaging // Analytical chemistry. ‒ 2018. ‒ V. 90. ‒ № 3.‒ P. 2201-2209.125.
