Single-protein detection in crowded molecular environments in cryo-EM images

Publication Type

Journal Article

Year of Publication

2017

Refereed Designation

Refereed

Journal

eLife

Volume

6

Issue

e25648

Pagination

1-22

Citation Key

5618

Abstract

We present an approach to study macromolecular assemblies by detecting component proteins’ characteristic high-resolution projection patterns, calculated from their known 3D structures, in single electron cryo-micrographs. Our method detects single apoferritin molecules in vitreous ice with high specificity and determines their orientation and location precisely. Simulations show that high spatial-frequency information and – in the presence of protein background – pre-whitening are essential for optimal detection, in particular for images taken far from focus. Experimentally, we could detect small viral RNA polymerase molecules, distributed randomly among binding locations, inside rotavirus particles. Based on the currently attainable image quality, we estimate a threshold for detection that is 150 kDa in ice and of 300 kDa in 100 nm tissue sections.