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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Self-assembled monolayers improve protein distribution on holey carbon cryo-EM supports
Joel R. Meyerson,Prashant Rao,Janesh Kumar,Sagar Chittori,Soojay Banerjee,Jason Pierson,Mark L. Mayer,Sriram Subramaniam +7 more
TL;DR: This work presents a method to deposit, on gold-coated carbon grids, a self-assembled monolayer whose surface properties can be controlled by chemical modification, thereby enabling 3D structural analysis using cryo-EM methods.
Journal ArticleDOI
A simple and robust procedure for preparing graphene-oxide cryo-EM grids
Eugene Palovcak,Feng Wang,Shawn Q. Zheng,Zanlin Yu,Sam Li,Miguel Betegon,David Bulkley,David A. Agard,Yifan Cheng +8 more
TL;DR: A simple and robust method for covering holey carbon EM grids with GO sheets is reported and it is demonstrated that these grids can be used for high-resolution single particle cryo-EM.
Journal ArticleDOI
Structure of a green algal photosystem I in complex with a large number of light-harvesting complex I subunits.
Xiaochun Qin,Xiaochun Qin,Xiong Pi,Wenda Wang,Guangye Han,Lixia Zhu,Mingmei Liu,Linpeng Cheng,Jian Ren Shen,Jian Ren Shen,Tingyun Kuang,Sen-Fang Sui +11 more
TL;DR: The structure of PSI–LHCI is reported from a green alga Bryopsis corticulans at 3.49 Å resolution, obtained by single-particle cryo-electron microscopy, which provides a basis for unravelling the mechanisms of algal light-energy harvesting.
Journal ArticleDOI
Folding pathway of an Ig domain is conserved on and off the ribosome
Pengfei Tian,Annette Steward,Renuka Kudva,Ting Su,Patrick J. Shilling,Adrian A. Nickson,Jeffrey J. Hollins,Roland Beckmann,Gunnar von Heijne,Jane Clarke,Robert B. Best +10 more
TL;DR: This work investigates the cotranslational folding of an all-β Ig domain, titin I27, using an arrest peptide-based assay and structural studies by cryo-EM to show that I27 folds in the mouth of the ribosome exit tunnel.
Journal ArticleDOI
Structure of an RNA polymerase II preinitiation complex.
Kenji Murakami,Kuang-Lei Tsai,Nir Kalisman,David A. Bushnell,Francisco J. Asturias,Roger D. Kornberg +5 more
TL;DR: The resulting model of the PIC confirmed the main conclusions from previous cryo-EM at lower resolution, including the association of promoter DNA only with general transcription factors and not with the polymerase.
References
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