1. Factors that Influence the Formation and Stability of Thin, Cryo-EM Specimens
- Author
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Roseann Csencsits, Bong-Gyoon Han, Arto Pulk, Jamie H. D. Cate, Robert M. Glaeser, and Alison N. Killilea
- Subjects
0301 basic medicine ,030103 biophysics ,Materials science ,Microscope ,Biophysics ,Electrons ,Nanotechnology ,Substrate (electronics) ,Surface pressure ,law.invention ,Surface-Active Agents ,03 medical and health sciences ,Drug Stability ,Pulmonary surfactant ,law ,Pressure ,Dewetting ,Composite material ,Aqueous solution ,Air ,Cryoelectron Microscopy ,Water ,Biological Sciences ,030104 developmental biology ,Biophysical Perspective ,Physical Sciences ,Chemical Sciences ,Solvents ,Wettability ,Wetting ,Volatilization ,Layer (electronics) - Abstract
© 2016 Biophysical Society. Poor consistency of the ice thickness from one area of a cryo-electron microscope (cryo-EM) specimen grid to another, from one grid to the next, and from one type of specimen to another, motivates a reconsideration of how to best prepare suitably thin specimens. Here we first review the three related topics of wetting, thinning, and stability against dewetting of aqueous films spread over a hydrophilic substrate. We then suggest that the importance of there being a surfactant monolayer at the air-water interface of thin, cryo-EM specimens has been largely underappreciated. In fact, a surfactant layer (of uncontrolled composition and surface pressure) can hardly be avoided during standard cryo-EM specimen preparation. We thus suggest that better control over the composition and properties of the surfactant layer may result in more reliable production of cryo-EM specimens with the desired thickness.
- Published
- 2016
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