论文信息 - Evidence for Conformational and Diffusional Mean Square Displacements in Frozen Aqueous Solution of Oxymyoglobin

Evidence for Conformational and Diffusional Mean Square Displacements in Frozen Aqueous Solution of Oxymyoglobin

The temperature dependence of the M\"ossbauer spectra of $^{57}\mathrm{Fe}$ in the active center of oxymyoglobin is analyzed. The effective mean square displacement $〈{x}^{2}〉$ of the iron is a sum of three parts: a vibrational term ${〈{x}^{2}〉}_{v}$, a conformational term ${〈{x}^{2}〉}_{c}$, and a diffusional term ${〈{x}^{2}〉}_{d}$. For $Tg240$ K diffusional line broadening $\ensuremath{\Delta}\ensuremath{\Gamma}\ensuremath{\propto}{〈{x}^{2}〉}_{d}$ is observed, along with a decrease in quadrupole splitting due to random reorientation of the electric field gradient.

H. Keller | P. G. Debrunner | H. Keller | P. Debrunner

[1] D. Phillips,et al. Crystallographic studies of the dynamic properties of lysozyme , 1979, Nature.

[2] Hans Frauenfelder,et al. Temperature-dependent X-ray diffraction as a probe of protein structural dynamics , 1979, Nature.

[3] M. Karplus,et al. Dynamics of folded proteins , 1977, Nature.

[4] F. Parak,et al. Mössbauer Spectroscopy on Oxygenated Sperm Whale Myoglobin: Evidence for an Fe3+-O2- Coupling at the Active Center , 1978, Zeitschrift fur Naturforschung. Section C, Biosciences.

[5] J. Mullen,et al. Mössbauer Study of Diffusion in Liquids: Dispersed Fe 2+ in Glycerol and Aqueous-Glycerol Solutions , 1972 .

[6] S. Dattagupta. Effect of molecular motions in liquids on Mössbauer relaxation spectra , 1976 .

[7] K. S. Singwi,et al. Resonance Absorption of Nuclear Gamma Rays and the Dynamics of Atomic Motions , 1960 .

[8] S. Dattagupta. Effect of nuclear motion on Mössbauer relaxation spectra , 1975 .

[9] Kurt Wüthrich,et al. Internal motion in globular proteins , 1978 .

[10] R. Housley,et al. Analysis of Debye-Waller-Factor and Mössbauer-Thermal-Shift Measurements. I. General Theory , 1966 .

[11] M. Blume,et al. Stochastic theory of line shape. I. Nonsecular effects in the strong-collision model , 1974 .