Voltage dynamics of single-type voltage-gated ion-channel protein ensembles

Physical Review E - Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics

Volumn 56, Issue 1 SUPPL. B, 1997, Pages 852-864

  Salman, Hanna ^a   Braun, Erez ^a  

^a TECHNION ISRAEL INSTITUTE OF TECHNOLOGY   (Israel)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 0000956989     PISSN: 1063651X     EISSN: None     Source Type: Journal    
DOI: 10.1103/physreve.56.852     Document Type: Article

References (23)

1. B. Hille, Ionic Channels of Excitable Membranes, 2nd ed. (Sinauer, Sunderland, 1992).
2. Single-Channel Recording, 2nd ed., edited by B. Sakmann and E. Neher (Plenum, New York, 1995).
3. T. Hoshi, W. N. Zagotta, and W. R. Aldrich, Science 250, 533 (1990); S. Marom, S. A. N. Goldstein, J. Kupper, and I. Levitan, Receptors Channels 1, 81 (1993).
4. T. Hoshi, W. N. Zagotta, and W. R. Aldrich, Science 250, 533 (1990); S. Marom, S. A. N. Goldstein, J. Kupper, and I. Levitan, Receptors Channels 1, 81 (1993).
5. S. Marom, H. Salman, V. Lyakhov, and E. Braun, J. Membrane Biol. 154, 267 (1996).
6. H. Salman, Y. Soen, and E. Braun, Phys. Rev. Lett. 77, 4458 (1996).
7. T. Hoshi, W. N. Zagotta, and W. R. Aldrich, Neuron 7, 547 (1991).
8. S. A. N. Goldstein and C. Miller, Biophys. J. 62, 5 (1992).
9. See S. Marom and I. B. Levitan, Biophys. J. 67, 579 (1994), and references therein.
10. G. Yellen, M. E. Jurman, T. Abramson, and R. MacKinnon, Science 251, 939 (1991).
11. H. Lecar and R. Nossal, Biophys. J. 11, 1068 (1971).
12. A. E. Siegman, Lasers (University Science, Mill Valley, CA, 1986), p. 958.
13. For the cases of stochastic resonance see, for example, K. Wiesenfeld and F. Moss, Nature (London) 373, 33 (1995); E. Pantazelou, F. Moss, and D. Chiavlo, in Noise in Physical Systems and 1/f Fluctuations, edited by P. Handel and A. Chung, AIP Conf. Proc. No. 285 (AIP, New York, 1993), p. 549; S. M. Bezrukov and I. Vodynoy, Nature (London) 378, 362 (1995); P. Jung and G. Mayer-Kress, Phys. Rev. Lett. 74, 2130 (1995). For the case of resonant activation see, for example, C. R. Doering and J. C. Gadoua, ibid. 69, 2318 (1992); P. Reimann, ibid. 74, 4576 (1995).
14. For the cases of stochastic resonance see, for example, K. Wiesenfeld and F. Moss, Nature (London) 373, 33 (1995); E. Pantazelou, F. Moss, and D. Chiavlo, in Noise in Physical Systems and 1/f Fluctuations, edited by P. Handel and A. Chung, AIP Conf. Proc. No. 285 (AIP, New York, 1993), p. 549; S. M. Bezrukov and I. Vodynoy, Nature (London) 378, 362 (1995); P. Jung and G. Mayer-Kress, Phys. Rev. Lett. 74, 2130 (1995). For the case of resonant activation see, for example, C. R. Doering and J. C. Gadoua, ibid. 69, 2318 (1992); P. Reimann, ibid. 74, 4576 (1995).
15. For the cases of stochastic resonance see, for example, K. Wiesenfeld and F. Moss, Nature (London) 373, 33 (1995); E. Pantazelou, F. Moss, and D. Chiavlo, in Noise in Physical Systems and 1/f Fluctuations, edited by P. Handel and A. Chung, AIP Conf. Proc. No. 285 (AIP, New York, 1993), p. 549; S. M. Bezrukov and I. Vodynoy, Nature (London) 378, 362 (1995); P. Jung and G. Mayer-Kress, Phys. Rev. Lett. 74, 2130 (1995). For the case of resonant activation see, for example, C. R. Doering and J. C. Gadoua, ibid. 69, 2318 (1992); P. Reimann, ibid. 74, 4576 (1995).
16. For the cases of stochastic resonance see, for example, K. Wiesenfeld and F. Moss, Nature (London) 373, 33 (1995); E. Pantazelou, F. Moss, and D. Chiavlo, in Noise in Physical Systems and 1/f Fluctuations, edited by P. Handel and A. Chung, AIP Conf. Proc. No. 285 (AIP, New York, 1993), p. 549; S. M. Bezrukov and I. Vodynoy, Nature (London) 378, 362 (1995); P. Jung and G. Mayer-Kress, Phys. Rev. Lett. 74, 2130 (1995). For the case of resonant activation see, for example, C. R. Doering and J. C. Gadoua, ibid. 69, 2318 (1992); P. Reimann, ibid. 74, 4576 (1995).
17. For the cases of stochastic resonance see, for example, K. Wiesenfeld and F. Moss, Nature (London) 373, 33 (1995); E. Pantazelou, F. Moss, and D. Chiavlo, in Noise in Physical Systems and 1/f Fluctuations, edited by P. Handel and A. Chung, AIP Conf. Proc. No. 285 (AIP, New York, 1993), p. 549; S. M. Bezrukov and I. Vodynoy, Nature (London) 378, 362 (1995); P. Jung and G. Mayer-Kress, Phys. Rev. Lett. 74, 2130 (1995). For the case of resonant activation see, for example, C. R. Doering and J. C. Gadoua, ibid. 69, 2318 (1992); P. Reimann, ibid. 74, 4576 (1995).
18. For the cases of stochastic resonance see, for example, K. Wiesenfeld and F. Moss, Nature (London) 373, 33 (1995); E. Pantazelou, F. Moss, and D. Chiavlo, in Noise in Physical Systems and 1/f Fluctuations, edited by P. Handel and A. Chung, AIP Conf. Proc. No. 285 (AIP, New York, 1993), p. 549; S. M. Bezrukov and I. Vodynoy, Nature (London) 378, 362 (1995); P. Jung and G. Mayer-Kress, Phys. Rev. Lett. 74, 2130 (1995). For the case of resonant activation see, for example, C. R. Doering and J. C. Gadoua, ibid. 69, 2318 (1992); P. Reimann, ibid. 74, 4576 (1995).
19. R. Kubo, M. Toda, and N. Hashitsume, Statistical Physics II, Nonequilibrium Statistical Mechanics (Springer-Verlag, Berlin, 1985).
20. -1 (V is in mV).
21. W. H. Press, B. P. Flannery, S. A. Teukolsky, and W. T. Vetterling, Numerical Recipes in Fortran, 2nd ed. (Cambridge University Press, Cambridge, 1992).
22. t in the Monte Carlo simulations one needs to use higher current amplitudes than those used experimentally. It may mark a stronger nonlinear effect in the experiment than predicted by the model.
23. A positive holding current increases the number of open channels that conduct the necessary potassium current to balance it.