High-resolution cryo-EM reconstructions in the presence of substantial aberrations

Abstract

The beam-image shift method accelerates data acquisition in cryo-EM single particle reconstruction (cryo-EM SPR) by fast repositioning of the imaging area, but at the cost of more severe and complex optical aberrations.We analyze here how uncorrected anti-symmetric aberrations, such as coma and trefoil, affect cryo-EM SPR results, and then infer an analytical formula quantifying information loss due to their presence that explains why Fourier-shell coefficient (FSC)-based statistics may report significantly overestimated resolution if these aberrations are not fully corrected. We validate our analysis with reference-based aberration refinement for two cryo-EM SPR datasets acquired with a 200 kV microscope in the presence of coma exceeding 40 µm, and obtained 2.3 and 2.7 Å reconstructions for 144 and 173 kDa particles, respectively.Our results provide a description of an efficient approach for assessing information loss in cryo-EM SPR data acquired in the presence of higher-order aberrations and address inconsistent guidelines regarding the level of aberrations acceptable in cryo-EM SPR experiments.