Диссертация (1144759), страница 38
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Med. Bull. 2010. Vol. 57. P. B4191.260. Matchkov V.V., Krivoi I.I. Specialized functional diversity and interactions of theNa, K-ATPase // Front. Physiol. 2016. Vol.7. P. 179.261. Matchkov V.V., Moeller-Nielsen N., Dam V.S., Nourian Z., Briggs BoedtkjerD.M., Aalkjaer C. The 2 isoform of the Na,K-pump is important for intercellularcommunication, agonist-induced contraction, and EDHF-like response in ratmesenteric arteries // Am. J. Physiol.
Heart Circ. Physiol. 2012. Vol. 303. P. H36–H46.262. Matos M., Augusto E., Agostinho P., CunhaR.A., Chen J.-F. Interaction betweenadenosine A2A receptors and α2 Na, K-ATPase controlling glutamate uptake inastrocytes // J. Neurosci. 2013. Vol. 33. P. 18492–18502.263. Matyushkin D.P., Krivoi I.I., T.M. Drabkina Synaptic feed-backs mediated bypotassium ions // Gen. Physiol. Biophys. 1995.Vol.14, № 5.
P. 369-381.264. Mayhan W.G., Arrick D.M., Sun H., Patel K.P. Exercise training restores impaireddilator responses of cerebral arterioles during chronic exposure to nicotine // J.Appl. Physiol. (1985). 2010. Vol. 109, № 4.P. 1109–1114.265. McDonough A.A., Thompson C.B., Youn J.H. Skeletal muscles regulatesextracellular potassium // Am. J. Physiol. (Renal Physiol.). 2002.
Vol. 282. P.F967–F974.220266. McGarry S.J., Williams A.J. Digoxin activates sarcoplasmic reticulum Ca 2+-releasechannels: a possible role in cardiac inotropy // Br. J. Pharmacol. 1993. – Vol. 108,№ 4. P. 1043–1050.267. McGehee D.S., Role L.W. Physiological diversity of nicotinic acetylcholinereceptors expressed by vertebrate neurons // Ann. Rev.
Physiol. 1995. Vol. 57. P.521–546.268. McIntosh A.L., Atshaves B.P., Huang H., Gallegos A.M., Kier A.B., Schroeder F.Fluorescence techniques using dehydroergosterol to study cholesterol trafficking //Lipids. 2008. Vol. 43. P. 1185–1208.269. McKenna M.J., B.D. Perry, F.R. Serpiello, Caldow M.K., Levinger P., CameronSmith D., Levinger I. Unchanged [3H] ouabain binding site content but reducedNa+-K+ pump α2-protein abundance in skeletal muscle in older adults // J.
Appl.Physiol. 2012. Vol. 113, № 10. P. 1505–1511.270. Melroy-Greif W.E., Stitzel J.A., Ehringer M.A. Nicotinic acetylcholine receptors:upregulation, age-related effects and associations with drug use // Genes BrainBehav. 2016. Vol. 15, № 1. P. 189-107.271. Mijatovic T., Roland I., Van Quaquebeke E., Nilsson B., Mathieu A., Van VyncktF., Darro F., Blanco G., Facchini V., Kiss R. The α1 subunit of the sodium pumpcould represent a novel target to combat non-small cell lung cancers // J. Pathol.2007. V. 212, № 2.
P. 170–179.272. Miles M.T., Cottey E., Cottey A., Stefanski C., Carlson C. G. Reduced restingpotentials in dystrophic (mdx) muscle fibers are secondary to nf-κb-dependentnegative modulation of ouabain sensitive Na+- K+ pump activity // J. Neurol. Sci.2011. Vol. 303, № 1–2. P. 53–60.273. Millar N.S., Gotti C.
Diversity of vertebrate nicotinic cetylcholine receptors.Neuropharmacology. 2009. Vol. 56, № 1. P. 237-46.274. Mirzoev T. S. Tyganov, N. Vilchinskaya, Y. Lomonosova, B. Shenkman KeyMarkers of mTORC1-Dependent and mTORC1-Independent Signaling PathwaysRegulating Protein Synthesis in Rat Soleus Muscle During Early Stages ofHindlimb Unloading // Cell. Physiol. Biochem. 2016. Vol.39. P. 1011–1020.221275. Mishra N.K., Habeck M., Kirchner C., Haviv H., Peleg Y., Eisenstein M., ApellH.J., Karlish S.J. Molecular mechanisms and kinetic effects of FXYD1 andphosphomimetic mutants on purified human Na, K-ATPase // J. Biol. Chem. 2015.Vol.
290. P. 28746–28759.276. Miyakawa-Naito A., Uhlén P., Lal M., Aizman O., Mikoshiba K., Brismar H.,Zelenin S., Aperia A. Cell signaling microdomain with Na,K-ATPase and inositol1,4,5-trisphosphate receptor generates calcium oscillations // J. Biol. Chem. 2003.Vol. 278, № 50. P. 50355-50361.277. Mobasheri A., Avila J., Cozar-Castellano I., Brownleader M.D., Trevan M.,Francis M.J.O., Lamb J.F., Martin-Vasallo P. Na+,K+-ATPase isozyme diversity;comparative biochemistry and physiological implications of novel functionalinteractions // Biosci. Reports. 2000. Vol.
20, № 2. P. 51–91.278. Mohler PJ, Schott JJ, Gramolini AO, Dilly KW, Guatimosim S, duBell WH, SongLS, Haurogne K, Kyndt F, Ali ME, Rogers TB, Lederer WJ, Escande D, Le MarecH, and Bennett V. Ankyrin-B mutation causes type 4 long-QT cardiac arrhythmiaand sudden cardiac death // Nature. 2003. Vol. 421. P. 634–639.279. Monod J., Wyman J., Changeux J.P. On the nature of allosteric transitions: aplausible model // J. Mol.
Biol. 1965. Vol. 12. P. 88–118.280. Mook-Jung I., Gordon H. Acetylcholine receptor clustering in C2 muscle cellsrequires chondroitin sulfate // J. Neurobiol. 1995. Vol. 28, № 4. P. 482–492.281. Morey-Holton E., Globus R.K., Kaplansky A., Durnova G. The hindlimbunloading rat model: literature overview, technique update and comparison withspace flight data // Adv. Space Biol. Med. 2005.
Vol. 10. P. 7–40.282. Morrill G.A., Kostellow A.B., Askari A. Caveolin-Na/K-ATPase interactions: roleof transmembrane topology in non-genomic steroid signal transduction // Steroids.2012. Vol. 77, № 11. P. 1160-1168.283. Mounier Y., Bacou F., Falempin M. Changes in the neuromuscular junction of ratsoleus muscle after hindlimb unweighting // Basic Applied Myology. 1995. Vol. 5,№ 2. P. 164–168.222284. Mourot A., Rodrigo J., Kotzyba-Hibert F., Bertrand S., Bertrand D., Goeldner M.Probing the reorganization of the nicotinic acetylcholine receptor duringdesensitizationbytime-resolvedcovalentlabelingusing[3H]AC5,aphotoactivatable agonist // Mol.
Pharmacol. 2006. Vol. 69, № 2. P. 452.285. Mukhina A.M., Altaeva E.G., Nemirovskaya T.L., Shenkman B.S. The role of Ltype calcium channels in the accumulation of Ca2+ in soleus muscle fibers in the ratand changes in the ratio of myosin and SERCA isoforms in conditions ofgravitational unloading // Neurosci.
Behav. Physiol. 2008. Vol. 38, № 2. P. 181–188.286. Murphy K.T., Nielsen O.B., Clausen T. Analysis of exercise-induced Na+-K+exchange in rat skeletal muscle in vivo // Exp. Physiol. 2008. Vol. 93, № 12. 12491262.287. Mwenifumbo J. C., Sellers E. M., Tyndale R. F. Nicotine metabolism and CYP2A6activity in a population of black African descent: Impact of gender and lightsmoking // Drug Alcohol Depend. 2007.
Vol. 89, № 1. P. 24–33.288. Nakatani T., Nakashima T., Kita T., Ishihara A. Effects of exposure to cigarettesmoke at different dose levels on extensor digitorum longus muscle fibres inWistar-Kyoto and spontaneously hypertensive rats // Clin. Exp. Pharmacol.Physiol. 2003. Vol.
30. P. 671–677.289. Newsom S.A., Brozinick J.T., Kiseljak-Vassiliades K., Strauss A.N., Bacon S.D.,Kerege A.A., Bui H.H., Sanders P., Siddall P., Wei T., Thomas M., Kuo M.S.,Nemkov T., D'Alessandro A., Hansen K.C., Perreault L., Bergman B.C. Skeletalmuscle phosphatidylcholine and phosphatidylethanolamine are related to insulinsensitivity and respond to acute exercise in humans // J. Appl.
Physiol. 2016. Vol.120, № 11. P. 1355–1363.290. Nikolsky E.E., Zemkova H., Voronin V.A., Vyskocil F. Role of non-quantalacetylcholine release in surplus polarization of mouse diaphragm fibres at theendplate zone // J. Physiol. 1994. Vol. 477, № 3. P. 497–502.291. Nishimune H, Stanford JA, Mori Y Role of exercise in maintaining the integrity ofthe neuromuscular junction // Muscle Nerve. 2014. Vol. 49. № 3. P. 315–24.223292. Nishio M.R., Stuart W., Kelly J.E., Aistrup G.L., Sheehan K., Wasserstrom J.A.Ouabain increases sarcoplasmic reticulum calcium release in cardiac myocytes.
//J. Pharmacol. Exp. Therap. 2004. Vol. 308. P. 1181–1190.293. Nordsborg N.B., K. Kusuhara, Y. Hellsten, Lyngby S, Lundby C, Madsen K,Pilegaard H. Contraction-induced changes in skeletal muscle Na+, K+ pump mRNAexpression - importance of exercise intensity and Ca2+-mediated signaling // ActaPhysiol. 2010. Vol. 198, № 4.
P. 487–489.294. Nordsborg, N.B., Kusuhara, K., Hellsten, Y., Lyngby, S., Lundby, C., Madsen, K.,et al. Contraction-induced changes in skeletal muscle Na+, K+ pump mRNAexpression – importance of exercise intensity and Ca2+-mediated signaling // ActaPhysiol. (Oxf). 2009. Vol. 198. P. 487–498.295.
Núñez-Durán H., Riboni L., Ubaldo E., Kabela E., Barcenas-Ruiz L. Ouabainuptake by endocytosis in isolated guinea pig atria // Am. J. Physiol. (Cell Physiol.)1988. Vol. 255, № 24. P. C479–C485.296. O'Brien K.F., Kunkel L.M. // Mol. Genet. Metab. 2001. Vol. 74. № 1–2. P. 75–88.297. Ogawa H., Shinoda T., Cornelius F., Toyoshima C.
Crystal structure of thesodium-potassium pump (Na+, K+-ATPase) with bound potassium and ouabain //Proc. Natl. Acad. Sci. USA. 2009. Vol. 106. P. 13742–13747.298. Ogneva I.V., Biryukov N.S., Leinsoo T.A., Larina I.M. Possible role of non-musclealpha-actinins in muscle cell mechanosensitivity // PLoS One. 2014. Vol. 9:e96395.299. Orlowski J., Lingrel J. B. Tissue-specific and developmental regulation of rat Na,K-ATPase catalytic alpha isoform and beta subunit mRNAs // J. Biol. Chem. 1988.Vol.
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