P.E. Mooney scite author profile

In recent work with large high symmetry viruses, single particle electron cryomicroscopy (cryoEM) has reached the milestone of determining near atomic resolution structures by allowing direct fitting of atomic models into experimental density maps. However, achieving this goal with smaller particles of lower symmetry remains extraordinarily challenging. Using a newly developed single electron counting detector, we confirm that electron beam induced motion significantly degrades resolution and, importantly, show how the combination of rapid readout and nearly noiseless electron counting allow image blurring to be corrected to subpixel accuracy. Thus, intrinsic image information can be restored to high resolution (Thon rings visible to ~3 Å). Using this approach we determined a 3.3 Å resolution structure of a ~700 kDa protein with D7 symmetry showing clear side chain density. Our method greatly enhances image quality and data acquisition efficiency - key bottlenecks in applying near atomic resolution cryoEM to a broad range of protein samples.

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The GIF Quantum, a next generation post-column imaging energy filter

Gubbens¹,

Barfels²,

Trevor³

et al. 2010

Ultramicroscopy

128

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Applications of slow-scan CCD cameras in transmission electron microscopy

Krivanek¹,

Mooney²

1993

Ultramicroscopy

168

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Automated image acquisition and processing using a new generation of 4K×4K CCD cameras for cryo electron microscopic studies of macromolecular assemblies

Zhang

Borgnia

Mooney³

et al. 2003

Journal of Structural Biology

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Optimization of Image Collection for Cellular Electron Microscopy

Mooney¹

2007

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P.E. Mooney

Electron counting and beam-induced motion correction enable near-atomic-resolution single-particle cryo-EM

The GIF Quantum, a next generation post-column imaging energy filter

Applications of slow-scan CCD cameras in transmission electron microscopy

Automated image acquisition and processing using a new generation of 4K×4K CCD cameras for cryo electron microscopic studies of macromolecular assemblies

Optimization of Image Collection for Cellular Electron Microscopy

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