Nuclear magnetic relaxation and molecular motion in solid lysozyme

Nuclear magnetic relaxation data for both proton and carbon-13 nuclei in solid lysozyme are analysed together to obtain information on local internal motions in protein. For this analysis the “model-free” approach is used. Three types of internal motion appear to determine the observed nuclear relaxation in protein. They may be attributed to local rotations of methyl groups around symmetry axes, the motion of main and side chain atoms like in rigid lattice, and large-amplitude motions of side groups (mainly, methylene groups). Conclusions on hydrated water influence on local dynamics of protein are made.