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1. Christensen H., Conrad L., Ulstrup J. Effects of NO2-modification of Tyr83 on the reactivity of spinach plastocyanin with cytochrome f // Biochim. Biophys. Acta. -- 1992. -- V. 1099. -- P. 3544.

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2. Crowley P., Hunter D., Sato K., McFarlane W., Dennison C. The complex of parsley plastocyanin and turnip cytochrome f a structurally distorted but kinetically functional acidic patch. // Biochem. J.-- 2003. -- V. 1423. 3. Gross E. L. Plastocyanin: structure, location, diffusion and electron transfer mechanisms // Oxygenic photosynthesis: the light reactions. V. 4. / Edited by C. F. Yocum. -- Dordrecht, Kluwer Academic Publishers, 1996. -- P. 413429. 4. Hope A. B. Electron transfers amongst cytochrome f, plastocyanin and photosystem I: kinetics and mechanisms // Biochim. Biophys. Acta. -- 2000. -- V. 1456. -- P. 526. 6. Kaant A., Young S., Bendall D. S. The role of acidic residues of plastocyanin in its interaction with cytochrome f // Biochim. Biophys. Acta, 1996. -- V. 1277. -- P. 115126. 7. . ., . ., . ., . ., ., . . f // . . , 2005. -- . 12. -- 3. -- . 955966. 8. . . .- , «», 2000.

SIMULATION OF PLASTOCYANIN AND CYTOCHROME F PROTEINS INTERACTION IN SOLUTION AT VARIOUS IONIC STRENGTH AND pH Kovalenko I. B., Abaturova A. M., Gromov P. A., Grachev E. A., Riznichenko G. Yu., Rubin A. B.

(Russia, Moscow)

The paper describes a computer 3D simulation model of diffusion and interaction of proteins plastocyanin and cytochrome f in solution. The model is multiparticle, it can describe the interaction of several hundreds of proteins. Using this model we studied kinetic characteristics of plastocyanin-cytochrome f complex formation for plastocyanin mutants at a variety of pH and of ionic strength values.

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