波紋 22 巻, 3 号

中性子小角散乱 －応用編－

In this text, the authors introduce two powerful techniques and one developing one for Small-Angle Neutron Scattering (SANS). The most fascinating feature of neutron as a scattering probe is its isotope effect in hydrogen. The first topic is concerning about recent progress on Contrast Variation Method: the author shows how to apply the contrast variation method to protein-mineral complex system and analyze the data. The second is concerning about deuteration-labeling: the author shows kinetics analysis in quaternary structure of homo-oligomeric protein with this technique. The final topic is concerning about the next generation analysis: an analysis method coupling SANS with neutron spin echo for dynamics of tertiary structure of protein.

生体物質の中性子非弾性散乱の基礎

Proteins are constantly fluctuating under the influence of environment. These thermal fluctuations, or dynamics, of the proteins at a picosecond time scale are known to be indispensable for functions of the proteins. Neutron inelastic scattering provides a unique tool to directly measure dynamics of the proteins. In particular, since the incoherent neutron scattering cross section of hydrogen is significantly larger than any other atoms commonly found in biological materials, the techniques of incoherent neutron scattering is important for the measurements of the dynamics of the protein, a half of the atoms in which are hydrogen atoms. Furthermore, since a distribution of hydrogen atoms is fairly homogeneous in the protein, the neutron scattering spectra arising from hydrogen atoms in the proteins provides a global view of the protein dynamics. Here, various aspects of three techniques of incoherent neutron scattering: elastic incoherent neutron scattering, quasi-elastic neutron scattering, and inelastic neutron scattering, are briefly described as a basis for application to characterization of the protein dynamics.