• Title of article

    Solving protein nanocrystals by cryo-EM diffraction: Multiple scattering artifacts

  • Author/Authors

    Subramanian، نويسنده , , Ganesh and Basu، نويسنده , , Shibom and Liu، نويسنده , , Haiguang and Zuo، نويسنده , , Jian-Min and Spence، نويسنده , , John C.H.، نويسنده ,

  • Issue Information
    دوماهنامه با شماره پیاپی سال 2015
  • Pages
    7
  • From page
    87
  • To page
    93
  • Abstract
    The maximum thickness permissible within the single-scattering approximation for the determination of the structure of perfectly ordered protein microcrystals by transmission electron diffraction is estimated for tetragonal hen-egg lysozyme protein crystals using several approaches. Multislice simulations are performed for many diffraction conditions and beam energies to determine the validity domain of the required single-scattering approximation and hence the limit on crystal thickness. The effects of erroneous experimental structure factor amplitudes on the charge density map for lysozyme are noted and their threshold limits calculated. The maximum thickness of lysozyme permissible under the single-scattering approximation is also estimated using R-factor analysis. Successful reconstruction of density maps is found to result mainly from the use of the phase information provided by modeling based on the protein data base through molecular replacement (MR), which dominates the effect of poor quality electron diffraction data at thicknesses larger than about 200 إ. For perfectly ordered protein nanocrystals, a maximum thickness of about 1000 إ is predicted at 200 keV if MR can be used, using R-factor analysis performed over a subset of the simulated diffracted beams. The effects of crystal bending, mosaicity (which has recently been directly imaged by cryo-EM) and secondary scattering are discussed. Structure-independent tests for single-scattering and new microfluidic methods for growing and sorting nanocrystals by size are reviewed.
  • Keywords
    Protein Crystallography , multiple scattering , Lysozyme , R-factor , Electron diffraction , Charge density map
  • Journal title
    Ultramicroscopy
  • Serial Year
    2015
  • Journal title
    Ultramicroscopy
  • Record number

    2159409