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Literature DB >> 33307178

Direct transfer of electron microscopy samples to wetted carbon and graphene films via a support floatation block.

Natàlia de Martín Garrido¹, Wencheng Fu², Kailash Ramlaul¹, Zining Zhu¹, David Miller³, Daniel Boehringer⁴, Christopher H S Aylett⁵.

Abstract

Support films are commonly used during cryo-EM specimen preparation to both immobilise the sample and minimise the exposure of particles at the air-water interface. Here we report preparation protocols for carbon and graphene supported single particle electron microscopy samples using a novel 3D-printed sample transfer block to facilitate the direct, wetted, movement of both carbon and graphene supports from the substrate on which they were generated to small volumes (10 μL) of sample. These approaches are simple and inexpensive to implement, minimise hydrophobic contamination of the support films, and are widely applicable to single particle studies. Our approach also allows the direct exchange of the sample buffer on the support film in cases in which it is unsuitable for vitrification, e.g. for samples from centrifugal density gradients that help to preserve sample integrity.

Entities: Chemical

Keywords: 3D-printing; Carbon; Floatation; Graphene; Sample support; Wetted transfer

Mesh：

Substances：
Carbon
Graphite

Year: 2020 PMID： 33307178 PMCID： PMC7998342 DOI： 10.1016/j.jsb.2020.107677

Source DB: PubMed Journal: J Struct Biol ISSN： 1047-8477 Impact factor: 2.867

44 in total

1. GraFix: sample preparation for single-particle electron cryomicroscopy.

Authors: Berthold Kastner; Niels Fischer; Monika Mariola Golas; Bjoern Sander; Prakash Dube; Daniel Boehringer; Klaus Hartmuth; Jochen Deckert; Florian Hauer; Elmar Wolf; Hannes Uchtenhagen; Henning Urlaub; Franz Herzog; Jan Michael Peters; Dietmar Poerschke; Reinhard Lührmann; Holger Stark
Journal: Nat Methods Date: 2007-12-23 Impact factor: 28.547

2. Routine single particle CryoEM sample and grid characterization by tomography.

Authors: Venkata P Dandey; Hui Wei; Alex J Noble; Julia Brasch; Jillian Chase; Priyamvada Acharya; Yong Zi Tan; Zhening Zhang; Laura Y Kim; Giovanna Scapin; Micah Rapp; Edward T Eng; William J Rice; Anchi Cheng; Carl J Negro; Lawrence Shapiro; Peter D Kwong; David Jeruzalmi; Amedee des Georges; Clinton S Potter; Bridget Carragher
Journal: Elife Date: 2018-05-29 Impact factor: 8.140

Direct transfer of electron microscopy samples to wetted carbon and graphene films via a support floatation block.

1. GraFix: sample preparation for single-particle electron cryomicroscopy.

2. Routine single particle CryoEM sample and grid characterization by tomography.

3. Regulation of glutamine synthetase. XII. Electron microscopy of the enzyme from Escherichia coli.

4. Structure of the anaphase-promoting complex/cyclosome interacting with a mitotic checkpoint complex.

5. PROTEINS, INTERFACES, AND CRYO-EM GRIDS.

6. Reconstruction of glutamine synthetase using computer averaging.

7. Protein denaturation at the air-water interface and how to prevent it.

8. Multifunctional graphene supports for electron cryomicroscopy.

Review 9. Specimen Preparation for High-Resolution Cryo-EM.

10. General and robust covalently linked graphene oxide affinity grids for high-resolution cryo-EM.

1. Preparation of Sample Support Films in Transmission Electron Microscopy using a Support Floatation Block.

Review 2. Developing Graphene Grids for Cryoelectron Microscopy.