S. V. Danshina scite author profile

S. V. Danshina

3Publications

10Citation Statements Received

18Citation Statements Given

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Lomonosov Moscow State University, Institute of Cell Biophysics

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THE INWARD H⁺ PATHWAY IN BACTERIORHODOPSIN: THE ROLE OF M₄₁₂ AND P(N)₅₆₀ INTERMEDIATES

Danshina

Drachev

Kaulen

et al. 1984

Photochem & Photobiology

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In purple bacteriorhodopsin sheets adsorbed onto the phospholipid‐impregnated collodion film, electrogenic stages are identified correlating with decays of the M and N(P)‐type intermediates. It is concluded that both M N and N bR transitions are electrogenic. The M decay is shown to be of a complex kinetics. In purple sheets, the lower the light intensity, the higher the rate of “slow M” decay. Such a dependence, which is absent from monomeric bacteriorhodopsin in proteoliposomes and from Triton X‐100‐solubilized protein, may be explained by the inhibiting effect of a light‐induced conformation change in a bacteriorhodopsin molecule upon the M decay in some other bacteriorhodopsin molecules within the same sheet. The light intensity‐independent “slow M” decay in solubilized bacteriorhodopsin is shown to correlate with the decay of the N intermediate and H+ uptake after the flash. In contrast to “fast M”, “slow M” is pH dependent, closely resembling in this respect the N intermediate. It is suggested that there is a fast light‐independent equilibration between M and N so that “slow M” represents the portion of the M pool that monitors the N concentration. The M N equilibrium is assumed to be involved in the effect of the light‐induced electric field on the M decay. No direct effect of light on the equilibrium was found.

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THE INWARD H⁺ PATHWAY IN BACTERIORHODOPSIN: THE ROLE OF M₄₁₂ AND P(N)₅₆₀ INTERMEDIATES*

Danshina

Drachev

Kaulen

et al. 1992

Photochem & Photobiology

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In purple bacteriorhodopsin sheets adsorbed onto the phospholipid-impregnated collodion film, electrogenic stages are identified correlating with decays of the M and N(P)-type intermediates. It is concluded that both M + N and N + bR transitions are electrogenic.The M decay is shown to be of a complex kinetics. In purple sheets, the lower the light intensity, the higher the rate of "slow M" decay. Such a dependence, which is absent from monomeric bacteriorhodopsin in proteoliposomes and from Triton X-100-solubilized protein, may be explained by the inhibiting effect of a light-induced conformation change in a bacteriorhodopsin molecule upon the M decay in some other bacteriorhodopsin molecules within the same sheet. The light intensity-independent "slow M" decay in solubilized bacteriorhodopsin is shown to correlate with the decay of the N intermediate and H ' uptake after the flash. In contrast to "fast M", "slow M" is pH dependent, closely resembling in this respect the N intermediate. It is suggested that there is a fast light-independent equilibration between M and N so that "slow M" represents the portion of the M pool that monitors the N concentration. The M N equilibrium is assumed to be involved in the effect of the light-induced electric field on the M decay. No direct effect of light on the equilibrium was found.

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C(13)-Substituted bacteriorhodopsin analogs

Danshina

Drachev²,

Drachev³

et al. 1990

Archives of Biochemistry and Biophysics

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S. V. Danshina

THE INWARD H⁺ PATHWAY IN BACTERIORHODOPSIN: THE ROLE OF M₄₁₂ AND P(N)₅₆₀ INTERMEDIATES

THE INWARD H⁺ PATHWAY IN BACTERIORHODOPSIN: THE ROLE OF M₄₁₂ AND P(N)₅₆₀ INTERMEDIATES*

C(13)-Substituted bacteriorhodopsin analogs

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S. V. Danshina

THE INWARD H+ PATHWAY IN BACTERIORHODOPSIN: THE ROLE OF M412 AND P(N)560 INTERMEDIATES

THE INWARD H+ PATHWAY IN BACTERIORHODOPSIN: THE ROLE OF M412 AND P(N)560 INTERMEDIATES*

C(13)-Substituted bacteriorhodopsin analogs

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Product

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THE INWARD H⁺ PATHWAY IN BACTERIORHODOPSIN: THE ROLE OF M₄₁₂ AND P(N)₅₆₀ INTERMEDIATES

THE INWARD H⁺ PATHWAY IN BACTERIORHODOPSIN: THE ROLE OF M₄₁₂ AND P(N)₅₆₀ INTERMEDIATES*