Диссертация (1174191), страница 20
Текст из файла (страница 20)
[on the Luminescence of Luminol. 13. Mechanism ofAction of Nerve Poisons on Chemoluminescence] // Arhiv za higijenu rada itoksikologiju. ‒ 1964. ‒ V. 15. ‒ P. 141-9.124. Mayer M., Takegami S., Neumeier M., Rink S., Jacobi von Wangelin A., SchulteS.,VollmerM.,GriesbeckA.G.,DuerkopA.,BaeumnerA.J.Electrochemiluminescence Bioassays with a Water-Soluble Luminol Derivative CanOutperform Fluorescence Assays // Angewandte Chemie.
‒ 2018. ‒ V. 57. ‒ № 2. ‒P. 408-411.125. McClelland L. J., Steele H. B., Whitby F. G., Mou T. P., Holley D., Ross J. B.,Sprang S. R., Bowler B. E. Cytochrome c Can Form a Well-Defined Binding Pocketfor Hydrocarbons // J Am Chem Soc. ‒ 2016. ‒ V. 138. ‒ № 51. ‒ P. 16770-16778.126. McGrogan B.
T., Gilmartin B., Carney D. N., McCann A. Taxanes, microtubulesand chemoresistant breast cancer // Biochim Biophys Acta. ‒ 2008. ‒ V. 1785. ‒ №2. ‒ P. 96-132.127. Mendez J., Morales Cruz M., Delgado Y., Figueroa P. M., Orellano E. A.,Morales M., Monteagudo A., Griebenow K. Delivery of chemically glycosylatedcytochrome c immobilized in mesoporous silica nanoparticles induces apoptosis inHeLa cancer cells // Mol Pharm.
‒ 2014. ‒ V. 11. ‒ № 1. ‒ P. 102-11.128. Milazzo L., Tognaccini L., Howes B. D., Sinibaldi F., Piro M. P., Fittipaldi M.,Baratto M. P., Pogni R., Santucci R., Smulevich G. Unravelling the Non-Native LowSpin State of the Cytochrome c-Cardiolipin Complex: Evidence of the Formation ofa His-Ligated Species Only // Biochemistry.
‒ 2017. ‒ V. 56. ‒ № 13. ‒ P. 1887-1898.129. Mognol G. P., Carneiro F. R., Robbs B. K., Faget D. V., Viola J. P. Cell cycleand apoptosis regulation by NFAT transcription factors: new roles for an old player// Cell Death Dis. ‒ 2016. ‒ V. 7. ‒ P. e2199.130. Mohell N., Alfredsson J., Fransson A., Uustalu M., Bystrom S., Gullbo J.,Hallberg A., Bykov V. J., Bjorklund U., Wiman K.
G. APR-246 overcomes resistance118to cisplatin and doxorubicin in ovarian cancer cells // Cell Death Dis. ‒ 2015. ‒ V. 6.‒ P. e1794.131. Narendra K., Narayanamurthy P., Srinivasu P. Refractive indices of binary liquidmixture at different temperatures // Asian J.
Applied Sci. ‒ 2011. ‒ V. 4. ‒ P. 535541.132. Nishikido T., Oyama J., Shiraki A., Komoda H., Node K. Deletion of ApoptosisInhibitor of Macrophage (AIM)/CD5L Attenuates the Inflammatory Response andInfarct Size in Acute Myocardial Infarction // Journal of the American HeartAssociation. ‒ 2016. ‒ V. 5. ‒ № 4.133. O'Brien E. S., Nucci N. V., Fuglestad B., Tommos P., Wand A. J. Defining theApoptotic Trigger: The interaction of Cytocchrome C and Cardiolipin // J Biol Chem.‒ 2015. ‒ V. 290.
‒ № 52. ‒ P. 30879-87.134. Olenev V. I., Suslova T. B., Vladimirov Y. A. Comparative-Study of DifferentTypes of Swelling of Rat-Liver Mitochondria // Studia Biophysica. ‒ 1976. ‒ V. 58.‒ № 2. ‒ P. 147-61.135. Ott M., Robertson J. D., Gogvadze V., Zhivotovsky B., Orrenius S. Cytochromec release from mitochondria proceeds by a two-step process // Proc Natl Acad Sci US A. ‒ 2002. ‒ V. 99.
‒ № 3. ‒ P. 1259-63.136. Pandiscia L. A., Schweitzer-Stenner R. Coexistence of native-like and nonnative partially unfolded ferricytochrome c on the surface of cardiolipin-containingliposomes // J Phys Chem B. ‒ 2015. ‒ V. 119. ‒ № 4. ‒ P. 1334-49.137. Proskurnina E. V., Alekseev A. V., Demin E. M., Izmailov D. Y., VladimirovY. A. Cyt-CL complex: Peroxidase activity and role in lipid peroxidation // FEBSJOURNAL.
‒ 2013. ‒ V. 280. ‒ № Special Issue: SI Supplement: 1. ‒ P. 264-264.138. Proskurnina E. V., Alekseev A. V., Vladimirov G. K., Galimova V. R.,Proskurnin M. A., Vladimirov Y. A. Cytochrome c-cardiolipin complex: thedetermination of compositionusing spectrophotometry and thermal-lens spectrometry// Chem Phys Lipids. ‒ 2018. ‒ V. in press.139. Rodriguez-Lopez J. N., Lowe D. J., Hernandez-Ruiz J., Hiner A.
N., GarciaCanovas F., Thorneley R. N. Mechanism of reaction of hydrogen peroxide with119horseradish peroxidase: identification of intermediates in the catalytic cycle // Journalof the American Chemical Society. ‒ 2001. ‒ V. 123. ‒ № 48. ‒ P. 11838-47.140. Rytomaa M., Kinnunen P. K. Evidence for two distinct acidic phospholipidbinding sites in cytochrome c // J Biol Chem.
‒ 1994. ‒ V. 269. ‒ № 3. ‒ P. 1770-4.141. Rytomaa M., Kinnunen P. K. Reversibility of the binding of cytochrome c toliposomes. Implications for lipid-protein interactions // J Biol Chem. ‒ 1995. ‒ V.270. ‒ № 7. ‒ P. 3197-202.142. Santra S., Kaittanis P., Perez J. M. Cytochrome C encapsulating theranosticnanoparticles: a novel bifunctional system for targeted delivery of therapeuticmembrane-impermeable proteins to tumors and imaging of cancer therapy // MolPharm. ‒ 2010. ‒ V. 7. ‒ № 4. ‒ P. 1209-22.143. Saqib M., Qi L., Hui P., Nsabimana A., Halawa M. I., Zhang W., Xu G.Development of luminol-N-hydroxyphthalimide chemiluminescence system forhighly selective and sensitive detection of superoxide dismutase, uric acid and Co(2)// Biosensors & bioelectronics. ‒ 2018.
‒ V. 99. ‒ P. 519-524.144. Sasaki H., Takada K., Terashima Y., Ekimoto H., Takahashi K., Tsuruo T.,Fukushima M. Human ovarian cancer cell lines resistant to cisplatin, doxorubicin, andL-phenylalanine mustard are sensitive to delta 7-prostaglandin A1 and delta 12prostaglandin J2 // Gynecol Oncol. ‒ 1991. ‒ V. 41. ‒ № 1. ‒ P. 36-40.145. Schapira A. Mitochondrial involvement in Parkinson’s disease, Huntington’sdisease, hereditary spastic paraplegia and Friedreich’s ataxia // Biochimica etBiophysica Acta (BBA)-Bioenergetics. ‒ 1999.
‒ V. 1410. ‒ № 2. ‒ P. 159-170.146. Sharov V. S., Briviba K., Sies H. Assessment of the C-525 laser dye as achemiluminescence sensitizer for lipid peroxidation in biological membranes: acomparison with chlorophyll-a // Free radical biology & medicine. ‒ 1996. ‒ V. 21. ‒№ 6. ‒ P. 833-43.147. Sharov V. S., Dremina E. S., Vladimirov Iu A. [Activation of Fe2+-inducedchemiluminescence in human blood low density lipoproteins by the fluorescent dyeC-525] // Biofizika. ‒ 1995.
‒ V. 40. ‒ № 2. ‒ P. 428-33.120148. Sharov V. S., Vladimirov Iu A. [Activation of liposome chemiluminescenceduring lipid peroxidation by Tb3+ ions] // Biofizika. ‒ 1984. ‒ V. 29. ‒ № 3. ‒ P. 3947.149. Shimada O., Yasuda H. Lipid peroxidation and its inhibition by tinoridine. I.Lipid peroxidation-induced disintegration of microsomal membrane and cytochromeP-450 in rat liver // Biochim Biophys Acta. ‒ 1977. ‒ V. 489.
‒ № 1. ‒ P. 163-72.150. Shiratsuchi A., Osada S., Kanazawa S., Nakanishi Y. Essential role ofphosphatidylserine externalization in apoptosing cell phagocytosis by macrophages //Biochem Biophys Res Commun. ‒ 1998. ‒ V. 246. ‒ № 2. ‒ P. 549-55.151. Shtykova E., Volkov V., Rеmenschikov V., Vladimirov Y. Probing a Complexof Cytochrome c and Cardiolipin by SAXS in Solution and in Precipitate // BookProbing a Complex of Cytochrome c and Cardiolipin by SAXS in Solution and inPrecipitate / Editor.
‒ Hamburg, Germany: EMBL. Poster Abstracts, 2013. ‒ P. 153.152. Sies H. Oxidative stress: oxidants and antioxidants // Exp Physiol. ‒ 1997. ‒ V.82. ‒ № 2. ‒ P. 291-5.153. Sinibaldi F., Howes B. D., Piro M. P., Polticelli F., Bombelli P., Ferri T., ColettaM., Smulevich G., Santucci R. Extended cardiolipin anchorage to cytochrome c: amodel for protein-mitochondrial membrane binding // Journal of biological inorganicchemistry : JBIC : a publication of the Society of Biological Inorganic Chemistry. ‒2010. ‒ V. 15. ‒ № 5. ‒ P.
689-700.154. Sitarek P., Skala E., Toma M., Wielanek M., Szemraj J., Nieborowska-SkorskaM., Kolasa M., Skorski T., Wysokinska H., Sliwinski T. A preliminary study ofapoptosis induction in glioma cells via alteration of the Bax/Bcl-2-p53 axis bytransformed and non-transformed root extracts of Leonurus sibiricus L // TumourBiol. ‒ 2016.155. Skulachev V. P.
Why are mitochondria involved in apoptosis? Permeabilitytransition pores and apoptosis as selective mechanisms to eliminate superoxideproducing mitochondria and cell // FEBS Lett. ‒ 1996. ‒ V. 397. ‒ № 1. ‒ P. 7-10.121156. Stepanov G., Gnedenko O., Mol'nar A., Ivanov A., Vladimirov Y., Osipov A.Evaluation of cytochrome c affinity to anionic phospholipids by means of surfaceplasmon resonance // FEBS Lett. ‒ 2009. ‒ V. 583. ‒ P. 97-100.157. Stetefeld J., McKenna S. A., Patel T. R. Dynamic light scattering: a practicalguide and applications in biomedical sciences // Biophys Rev.
‒ 2016. ‒ V. 8. ‒ № 4.‒ P. 409-427.158. Storrie B., Madden E. А. [16] Isolation of subcellular organelles // Methods inenzymology, 1990. ‒ P. 203-225.159. Tatton W., Olanow P. Apoptosis in neurodegenerative diseases: the role ofmitochondria // Biochimica et Biophysica Acta (BBA)-Bioenergetics. ‒ 1999.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
