Publications

1. Nestorovich E. M., Rostovtseva T. K., Bezrukov S. M. 2003. Residue ionization and ion transport through OmpF channels. Biophys J. 85 :3718-29. [PDF]

2.  Rostovtseva T. K., Antonsson B., Suzuki M., Youle R. J., Colombini M., Bezrukov S. M. 2004. Bid but not Bax regulates VDAC channels . J. Biol. Chem. 279 [PDF]

3. Rostovtseva, T. K ., Nestorovich, E. M., Bezrukov, S. M. 2002. Partitioning of differently sized poly-(ethylene glycol)s into OmpF porin. Biophys. J. 82:160-169. [PDF]

4. Rostovtseva, T. K ., Komarov, A. G., Colombini, M., Bezrukov, S. M. 2002. Dynamics of nucleotides in VDAC channels: structure-specific noise generation. Biophys. J. 82: 193-205. [PDF]

5. Rostovtseva, T. K., Komarov, A., Bezrukov, S. M., Colombini, M. 2002. VDAC channels differentiate between natural metabolites and synthetic molecules. J. Membrane Biol . 184: 147-156. [PDF]

6. Roucou, X., Rostovtseva, T.K ., Montessuit, S., Martinou, J.-C., Antonsson, B. 2002. Bid induces cytochrome c impermeable Bax channels in liposomes. Biochem J . 363 : 547-552. [PDF]

7. Rostovtseva, T.K ., Liu, T.-T., Colombini, M., Parsegian, V. A., Bezrukov, S. M. 2000. Positive cooperativity without domains or subunits in a monomeric membrane channel. PNAS 97:7819-7822. [PDF]

8. Rostovtseva, T. K ., Bezrukov, S. M. 1998. ATP transport through a single mitochondrial channel, VDAC, studied by current fluctuation analysis. Biophys. J. 74:2365-2373. [PDF]

9. Rostovtseva, T.K ., Aguilella, V. M., Vodyanoy, I., Bezrukov, S. M., Parsegian, V. A. 1998. Membrane surface-charge titration probed by gramicidin A channel conductance. Biophys. J. 75:1783-1792. [PDF]

10. Rostovtseva, T. K. , Colombini, M. 1997. VDAC channels mediate and gate the flow of ATP: implications for the regulation of mitochondrial functions. Biophys. J . 72:1954-1962.

11. Grinfeldt, A.E., Gotlib, V.A., Kuznetsov, A.S., Rostovtseva, T.K. , Schagina, L.V., Lev, A.A., Klimov, A.N. 1996. Channel-forming activity of the low-density lipoproteins. Biol. Membranes . 6:629-639 (in Russian).

12. Rostovtseva, T.K ., Bashford, C.L., Alder, G.M., Hill, G.N., McGiffert, C., Apel, P.Y., Lowe, G., Pasternak, C.A. 1996. Diffusion through narrow pores. J. Membrane Biol. 151:29-43.

13. Rostovtseva, T.K ., Colombini, M. 1996. ATP flux is controlled by a voltage-gated channel from the mitochondrial outer membrane. J. Biol. Chem . 271:28006-28008.

14. Pasternak, C.A., Alder, G.M., Apel, P.Y., Bashford, C.L., Edmons, D.T., Korchev, Y.E., Lev, A.A., Lowe, G., Milovanovich, M., Pitt, C.W., Rostovtseva, T.K ., Zhitariuk, N.I. 1995. Nuclear track-etched filters as model pores for biological membranes. Radiation Measurements . 25:675-683.

15. Pasternak, C.A., Alder, G.M., Bashford, C.L., Korchev, Y.E., Rostovtseva, T.K. 1995. Model pores for biological membranes. In: Charge and Field Effects in Biosystems - 4 (eds. M.J.Allen, S.F.Cleary, A.E.Sowers, D.D.Shillady) Birkhauser Boston, pp.106-109.

16. Pasternak, C.A., Apel, P.L., Bashford, C.L., Edmonds, D.T., Korchev, Y.E., Lev, A.A., Rostovtseva, T.K ., Zhitariuk, N.I. 1995. Particle track membranes as a model for biological ion channels. I n: Particle Track Membranes and Their Applications. Proceedings of Third Conference (eds. W.Starosta and M.Buczkowski) Institute of Nuclear Chemistry and Technology, Warsaw, Poland, pp.41-42

17. Pasternak, C.A., Alder, G.M., Apel, P.L., Bashford, C.L., Korchev, Y.E., Lev, A.A., Rostovtseva, T.K ., Zhitariuk, N.I. 1995. Model pores for biological membranes: the properties of track-etched membranes. Nuclear Instruments and Methods in Physics Research B , 105:332-334.

18. Grinfeldt, A.E., Rostovtseva, T.K. , Glushakova, S.E., Moshnikova, A.A., Kozhich, A.T. 1994. Arenavirus fusion peptide-induced single ionic channels in the lipid bilayer membranes. Biol. Membranes 7:181-190.

19. Rostovtseva, T.K. , Bashford, C.L., Lev, A.A., Pasternak, C.A. 1994. Triton channels are sensitive to divalent cations and protons. J. Membrane Biol . 141:83-90.

20. Bashford, C.L., Korchev, Y.E., Rostovtseva, T.K. , Pederzolli, C., Alder, G.M., Kovacs, E., Milovanovich, M., Pitt, C.W., Pasternak, C.A. 1994. Searching high and low for the basis of ion channel behaviour. In: Biophysics of Membrane Transport. Proceedings of Twelfth School (eds. Kuczera I. and Przestalski S.) Agricultural University Wroclaw, Poland, pp. 69-79.

21. Gotlib, V.A., Lebedeva, N.E., Stakhov, S.V., Rostovtseva, T.K., Lev, A.A. 1993. Lateral phase separation of lipid bilayers in the presence of nonionic detergent Triton X-100. Biol. Membranes 6:819-844.

22. Lev, A.A., Korchev, Y.E., Rostovtseva, T.K. , Bashford, C.L., Edmonds, P.T., Pasternak, C.A.1993. Rapid switching of ion current in narrow pores: implications for Biological ion channels. Proc. R. Soc. Lond . 252:187-192.

23. Pasternak, C.A., Bashford, C.L., Korchev, Y.E., Rostovtseva, T.K. , Lev, A.A. 1993. Modulation of surface flow by divalent cations and protons. Colloids and Surfaces. A: Physicochemical and Engineering Aspects . 77:119-124.

24. Pasternak, C.A., Alder, G.M., Bashford, C.L., Korchev, Y.E., Pederzolli, C., Rostovtseva, T.K. 1992. Membrane damage: common mechanism of induction and prevention. FEMS Microbiol. Immunol. 105:83-92.

25. Lev, A.A., Korchev, Yu.E., Rostovtseva, T.K. , Bashford, C.L., Pasternak, C.A. 1992. Lipid impregnated nuclear membranes as a new model for studies of surface conductance and single channel phenomenon.  In: Biophysics of Membrane Transport. Proceedings of Eleventh School (eds. Kuczera I. and Przestalski S.) Agricultural University Wroclaw, Poland, pp. 322-349.

26. Osipov, V.V., Rostovtseva, T.K. , Lev, A.A. 1988. Current-voltage characteristics of single Gramicidin A channels under symmetrical and asymmetrical adsorption of ANS anions on the membranes. Biol. Membranes . 5:162-172, (in Russian).

27. Rostovtseva, T.K. , Osipov, V.V., Lev, A.A. 1987. Dependence of single Gramicidin channel conductance on potential induced by adsorption of 1-Anilino-8-Napthalene sulfonate anions on lipid membranes. Biol. Membranes . 5:955-964 (in Russian).

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