Энергетика биологических мембран - Скулачев В.П.
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1412. Skulachev V. P. The dual role of rhodopsin in vision: light-driven charge translocation and formation of long-lived photoproducts // FEBS Lett. 1982b. Vol. 146. P. 244—254.
1413. Skulachev V. P. The localized A(xH+ problem. The possible role of the local electric field in ATP synthesis // Ibid. 1982c. Vol. 146. P. 1—4.
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Список литературы
1414. Skulachev V. P. Proteoliposomes: a model for studying AjXH-generating system Ц Liposome letters / Ed. A. D. Bangham. L., N. Y.: Acad, press,
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1415. Skulachev V. P. Membrane bioenergetics. Should we build the bridge across the river or alonside of it? // Trends Biochem. Sci. 1984a. V. 9. P. 182-185.
1416. Skulachev V. P. Sodium bioenergetics//Ibid. 1984b. Vol. 9. P. 483— 485.
1417. Skulachev V. P. Membrane-linked energy transductions. Bioenergetic function of sodium: H+ is not unique as a coupling ion // Europ. J. Biochem. 1985. Vol. 155. P. 199—208.
1418. Skulachev V. P., Dibrov P. A., Glagolev A. N. Sodium cycle: an energy coupling system replacing the proton cycle in marine bacteria at alkaline pH // XV FEBS Meet. Abstr. Brussel, 1983, P. 68.
1419. Skulachev V. P., DrachevL.A., KaulenA.D., Khitrina L. V., Zorina V. V., Danshina S. V. Proton transport and electrogenous phases in the bacteriorhodopsin photocycle // Proc. Symp. Light-sensitive Proteins. Amsterdam: Elsevier, 1987. P. 531—552.
1420. Skulachev V. P., Glagolev A. N., Dibrov P. A. Sodium cycle: a mechanism of energy coupling that replaces the proton cycle in marine bacteria under alkaline conditions // FEMS Symp. Abstr. Pushchino, 1983. P. 205—206.
1421. Skulachev V. P., Kozlov I. A. Hf—ATPase and membrane energy coupling // Biochim. et biophys. acta. 1977. Vol. 463. P. 29—89.
1422. Skulachev V. P., Kozlov I. A. An H+-ATP synthetase: a substrate translocation concept // Curr. Top. Membr. a. Transp. 1982. Vol. 16. P. 285—301.
1423. Skulachev V. P., SharaffA.A., J aguzhinsky L. S., Jasaitis A . A ., Li-berman E. A., Topali V.P. The effect of uncouplers on mitochondria, respiratory enzyme complexes and artificial phospholipid membranes// Curr. Mod. Biol. 1968. Vol. 2. P. 98—105.
1424. Skulachev V. P., Sharaff A. A., Liberman E. A. Proton conductors in the respiratory chain and artificial phospholipid membranes // Nature.
1967. Vol. 216. P. 718—719.
1425. Slater E. C. Phosphorylation coupled with the oxidation of a-ketogluta-rate by heart-muscle sarcosom.es// Biochem. J. 1955. Vol. 59. P. 392—402.
1426. Slater E. C. The mechanism of action of the respiratory inhibitor anti-mycin // Biochim. et biophys. acta. 1973. Vol. 301. P. 129—154.
1427. Slayman C. L., Long W. S., Lu C. J.-H. The relationship between ATP and an electrogenic pump in the plasma membrane of Neurospora crassa // J. Membrane Biol. 1973. Vol. 14. P. 305-338.
1428. Slonczewski L. L., Rosen В. P-, Alger J. R., Macnab R. M. pH homeostasis in Escherichia coli: measurement by [31P] nuclear magnetic resonance of methylphosphonate and phosphate//Proc. Nat. Acad. Sci. US. 1981. Vol. 78. P. 6271—6275.
1429. Smith D. A., Black С. C. Measurement of the pyrophosphate content of plant tissues // Plant Physiol. 1984. Vol. 75. P. 862—864.
1430. Smith D. S., Jarlfors U., Cayer M. L. Structural cross-bridges between microtubules and mitochondria in central axons of an insect (Periplane-tae americana) // J. Cell Sci. 1977. Vol. 27. P. 255—272.
1431. Smith E. L., Hill R. L., Lehman I. R., Lefkowith R. J., Handler P., White A. Principes of biochemistry: general aspects. N. Y.: McGraw-Hill, 1983. 339 p.
1432. Smith R. E., Hoijer D. J. Metabolism and cellular function in cold acclimation // Physiol. Rev. 1962. Vol. 42. P. 60—142.
1433. Smith R. E., Horwitz B. A. Brown fat and thermogenesis // Ibid. 1969. Vol. 49. P. 330-425.
1434. Smith R. A., Ord M. J. Mitochondrial form and function relationships
Список литературы
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in vivo: their potential in toxicology and pathology // Intern. Rev. Cy-tol. 1980. Vol. 83. P. 63—134.
1435. Smith S. 0., Lugtenburg JMathiesR.A. Determination of retinal chromophore structure in bacteriorhodopsin with resonance Raman spectroscopy II J. Membrane Biol. 1985. Vol. 85. P. 95—109.
1436. Solioz М., Carafoli E., Ludwig B. The cytochrome с oxidase of Paracoccus denitrificans pumps protons in a reconstituted system//J. Biol. Chem. 1982. Vol. 257. P. 1579-1582.
1437. SoneN., Hamamoto Т., Kagawa Y. pH dependence of H+ conduction through the membrane moiety of the H+-ATPase (F0—Fi) and effects of tyrosyl residue modification//!. Biol. Chem. 1981. Vol. 256. P. 2873-2877.
1438. Sone N., Hinkle P. Proton transport by cytochrome с oxidase from the thermophilic bacterium P33 reconstituted in liposomes // Ibid. 1982. Vol. 257. P. 12600-12604.
1439. SoneN., Kosako T. Evidence for dimer structure of proton-pumping cytochrome с oxidase, an analysis by radiation inactivation // EMBO J.
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1440. Sone N., Yanagita Y. High vectorial proton stoichiometry by cytochrome с oxidase from the thermophilic bacterium PS3 reconstituted in liposomes // J. Biol. Chem. 1984. Vol. 259. P. 1405-1408.