|
S.M. Bezrukov. Sensing Nature's electric fields: Ion channels as active elements of linear amplification. In: Unsolved Problems of Noise, S.M. Bezrukov, ed., American Institute of Physics, AIP Conference Proceedings, vol. 665, 2003, pp.142-149. [PDF]
S.M. Bezrukov and L.B. Kish. How much power does neural signal propagation need? Smart Materials and Structures, 2002, 11:800-803. [PDF]
P.S. Ruszczynski, L.B. Kish, and S.M. Bezrukov. Noise-assisted traffic of spikes through neuronal junctions. Chaos, 2001, 11:581-586. [PDF]
S.M. Bezrukov. Stochastic resonance as an inherent property of rate-modulated random series of events. Physics Letters A, 1998, 248:29-36. [PDF]
S.M. Bezrukov and I. Vodyanoy. Stochastic resonance in thermally activated reactions: Application to biological ion channels. Chaos, 1998, 8:557-566. [PDF]
S.M. Bezrukov and I. Vodyanoy. Signal transduction across alamethicin ion channels in the presence of noise. Biophysical Journal, 1997, 73:2456-2464. [PDF]
S.M. Bezrukov and I. Vodyanoy. Stochastic resonance at the single-cell level. Nature ( London ), 1997, 388:632-633. [PDF]
S.M. Bezrukov and I. Vodyanoy. Stochastic resonance in non-dynamical systems without response thresholds. Nature ( London ), 1997, 385:319-321. [PDF]
S.M. Bezrukov and I. Vodyanoy. Noise-induced enhancement of signal transduction across voltage-dependent ion channels. Nature ( London ), 1995, 378:362-364. [PDF]
|
