%0 Journal Article %A Vilius Kurauskas %A Sergei A. Izmailov %A Olga N. Rogacheva %A Audrey Hessel %A Isabel Ayala %A Joyce Woodhouse %A Anastasya Shilova %A Yi Xue %A Tairan Yuwen %A Nicolas Coquelle %A Jacques-Philippe Colletier %A Nikolai R. Skrynnikov %A Paul Schanda %T Slow conformational exchange and overall rocking motion in ubiquitin protein crystals %D 2017 %R 10.1101/126813 %J bioRxiv %P 126813 %X Proteins perform their functions in solution but their structures are most frequently studied inside crystals. We probe here how the crystal packing alters microsecond dynamics, using solid-state NMR measurements and multi-microsecond MD simulations of different crystal forms of ubiquitin. Near-Rotary-resonance Relaxation Dispersion (NERRD) experiments probe angular motion of the backbone on a microsecond time scale, while Bloch-McConnell Relaxation Dispersion data report on fluctuations of the local electronic environment. Combining these experimental data with MD simulations, we show that the packing of the protein can significantly alter the thermodynamics and kinetics of local conformational exchange. Moreover, we provide additional evidence for small-amplitude reorientational motion of protein molecules in the crystal lattice with a ∼3-5° amplitude on a tens-of-microseconds time scale in one of the crystals, but not in others. We find evidence that overall motion may be coupled to local dynamics, resulting in an extensive dynamic network involving both intra- and intermolecular motional modes. Our study highlights the importance of considering the packing when analyzing dynamics of crystalline proteins, and will be important for the emerging field of X-ray diffraction based dynamics studies. %U https://www.biorxiv.org/content/biorxiv/early/2017/04/12/126813.full.pdf