Correcting for the Ewald Sphere in High-Resolution Single-Particle Reconstructions

Creators: Leong, Peter A.; Yu, Xuekui; Zhou, Z. Hong; Jensen, Grant J.

Other:: Jensen, Grant J.

Abstract

To avoid the challenges of crystallization and the size limitations of NMR, it has long been hoped that single-particle cryo-electron microscopy (cryo-EM) would eventually yield atomically interpretable reconstructions. For the most favorable class of specimens (large icosahedral viruses), one of the key obstacles is curvature of the Ewald sphere, which leads to a breakdown of the Projection Theorem used by conventional three-dimensional (3D) reconstruction programs. Here, we review the basic problem and our implementation of the "paraboloid" reconstruction method, which overcomes the limitation by averaging information from images recorded from different points of view.

Additional Information

© 2010 Elsevier Inc. Available online 1 October 2010. We thank Andy Rawlinson, Bernard Heymann, Bill Tivol, Dylan Morris, Yuyao Liang, Wong Hoi Hui, Xiaokang Zhang, Weimin Wu, Wen Jiang, and Nikolaus Grigorieff for helpful discussions about Ewald sphere curvature and the manuscript as well as the Bsoft, IMIRS, and EMAN packages and for providing experimental data. The development and testing of Prec was supported in part by NIH grants R01 AI067548 and P50 GM082545 to G. J. J. and R01 GM071940, CA094809, and AI069015 to Z. H. Z.; DOE grant DE-FG02-04ER63785 to G. J. J.; a Searle Scholar Award to G. J. J.; the Beckman Institute at Caltech; and gifts to Caltech from the Parsons Foundation and Agouron Institute.

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