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The mobility of chromatophore membranes from Ectothiorhodospira Shaposhnikovii revealed by Rayleigh scattering of Mössbauer radiation (RSMR) experiments (1985)

Krupyanskii, Yu. F. ; Bade, D. ; Sharkevich, I. V. ; [et al.]

Springer

European biophysics journal 12 (1985), S. 107-114

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ISSN: 1432-1017

Keywords: Chromatophores ; Ectothiorhodospira Shaposhnikovii ; RSMR

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Physics

Notes: Abstract Chromatophores from Ectothiorhodospira Shaposhnikovii in solvents of different viscosity were investigated by RSMR experiments in the temperature range between 112 K and room temperature. Additional RSMR-experiments were done on solvents only. The mobility of the molecules and within the molecules is the given by the Debye-Waller factor which yields the meansquare displacement, $$\overline {\left\langle {x^2 } \right\rangle }$$ , averaged over the atoms in the system. The mobility of the atoms of the chromatophores roughly follows the mobility of the atoms of the solvents. At low temperatures the mobility of the chromatophores remains slightly larger than the mobility of the frozen solvent. At room temperature, however, $$\overline {\left\langle {x^2 } \right\rangle }$$ of the chromatophores remains significantly smaller. Chromatophores in a glycerol-water mixture (0.001 M Tris-HCl buffer) and in water (0.05 M Tris-HCl buffer) show a different dynamic behaviour. A region with enhanced mobility near T=180 K was indicated for the chromatophores in the glycerolwater mixture. A correlation has been suggested between the rate of electron transfer from the primary to the secondary quinone and the increase of the conformational mobility of the chromatophores in glycerol-water mixture.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00260433

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Mechanisms of hydration effects on the structural-dynamic and functional characteristics of photosynthetic membranes in various purple bacteria (1997)

Aksyonov, Sergei I. ; Knox, Peter P. ; Kononenko, Alexander A. ; [et al.]

Springer

European biophysics journal 26 (1997), S. 461-470

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ISSN: 1432-1017

Keywords: Key words Protein and lipid dynamics ; 1H ; 13C ; 31P NMR ; Electron transfer efficiency and regulation

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Physics

Notes: Abstract NMR spectra and T1, T2 relaxation times for 1H, 13C and 31P nuclei in membranes of R. rubrum and Rb. sphaeroides recorded at different relative humidity, as well as hydration curves and electron transfer efficiency of these membranes and membranes of E. shaposhnikovii, reveal complicated relations between structural-dynamic and functional characteristics. A number of sites of the electron transfer chain are shown to be under the control of structural-dynamic mechanisms. Different parameters characterizing these membranes at low humidity and during hydration have been established. These findings and analysis of the data from model systems reveal four different stages of hydration. Each of them is associated with specific changes in structure, dynamics, and function of photosynthetic membranes and their components. In the first stage the hydration of some polar groups leads to local changes in the dynamics of the protein component and this influences the recombination between photoactive pigment P and intermediate acceptor QA. The second stage is induced by incorporation of water molecules into the hydrogen bonds between the polar head groups of the lipids and within macromolecules. This results in changes of the dynamics of the membranes, the efficiency of the electron transfer between the quinones and the efficiency of photooxidation of cytochrome c. In the third stage all polar groups are hydrated owing to the appearance of free water with a high dielectric constant. This makes possible lateral mobility of membrane components and changes in distances between the interacting macromolecular components. Therefore, the regulation of photosynthetic processes can be mediated with the participation of mobile carriers. Finally, in the fourth stage, complete humidification provides conditions for regulation of photosynthesis at the cell level. The mechanisms influencing these processes and the efficiency and regulation of electron transfer in various parts of the photosynthetic chain are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002490050100

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