Electron counting and beam-induced motion correction enable near-atomic-resolution single-particle cryo-EM
Xueming Li,Paul Mooney,Shawn Q. Zheng,Shawn Q. Zheng,Christopher R. Booth,Michael B. Braunfeld,Michael B. Braunfeld,Sander Gubbens,David A. Agard,David A. Agard,Yifan Cheng +10 more
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TLDR
This approach determined a 3.3-Å-resolution structure of an ∼700-kDa protein with D7 symmetry, the Thermoplasma acidophilum 20S proteasome, showing clear side-chain density and greatly enhances image quality and data acquisition efficiency.Abstract:
In recent work with large high-symmetry viruses, single-particle electron cryomicroscopy (cryo-EM) has achieved the determination of 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 challenging. Using a newly developed single electron-counting detector, we confirmed that electron beam-induced motion substantially degrades resolution, and we showed that the combination of rapid readout and nearly noiseless electron counting allow image blurring to be corrected to subpixel accuracy, restoring intrinsic image information to high resolution (Thon rings visible to ∼3 A). Using this approach, we determined a 3.3-A-resolution structure of an ∼700-kDa protein with D7 symmetry, the Thermoplasma acidophilum 20S proteasome, showing clear side-chain density. Our method greatly enhances image quality and data acquisition efficiency-key bottlenecks in applying near-atomic-resolution cryo-EM to a broad range of protein samples.read more
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Choice of operating voltage for a transmission electron microscope.
TL;DR: An accelerating voltage of 100-300kV remains a good choice for the majority of TEM or STEM specimens, avoiding the expense of high-voltage microscopy but providing the possibility of atomic resolution even in the absence of lens-aberration correction.
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Structures of C1-IgG1 provide insights into how danger pattern recognition activates complement
Deniz Ugurlar,Stuart C. Howes,Bart-Jan de Kreuk,Roman I. Koning,Roman I. Koning,Rob N. de Jong,Frank J. Beurskens,Janine Schuurman,Abraham J. Koster,Abraham J. Koster,Thomas H. Sharp,Paul W. H. I. Parren,Paul W. H. I. Parren,Piet Gros +13 more
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Cryo-EM structure of Hepatitis C virus IRES bound to the human ribosome at 3.9-Å resolution
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Structures of the cyanobacterial circadian oscillator frozen in a fully assembled state
Joost Snijder,Jan M. Schuller,Anika Wiegard,Philip Lössl,Nicolas M. Schmelling,Ilka M. Axmann,Jürgen M. Plitzko,Friedrich Förster,Friedrich Förster,Albert J. R. Heck +9 more
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Image formation modeling in cryo-electron microscopy
Miloš Vulović,Raimond B. G. Ravelli,Lucas J. van Vliet,Abraham J. Koster,Ivan Lazic,Uwe Lücken,Hans Rullgård,Ozan Öktem,Bernd Rieger +8 more
TL;DR: A forward model that accounts for the specimen's scattering properties, microscope optics, and detector response and suggests that beam-induced specimen movements are relevant in the experiments whereas the influence of the solvent amorphousness can be neglected.
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