# Outrunning protein diffusion to the air–water interface in cryoEM

**Authors:** Anastasiia Gusach, Kasim Sader, Christopher J. Russo

PMC · DOI: 10.1073/pnas.2516900122 · 2025-10-22

## TL;DR

Researchers developed a new cryoEM specimen preparation method that prevents proteins from reaching the air-water interface by rapidly vitrifying samples.

## Contribution

A novel high-speed droplet spraying method was developed to vitrify cryoEM specimens faster than protein diffusion occurs.

## Key findings

- Picoliter droplets sprayed at hundreds of meters per second vitrify in microseconds, preserving protein atomic structure.
- Tomographic reconstructions showed no protein adhesion to interfaces, indicating successful vitrification.
- Current limitations include controlling specimen thickness and particle orientation.

## Abstract

Here, we report a series of measurements indicating that it is physically possible to thin and vitrify a specimen for electron cryomicroscopy (cryoEM) faster than proteins diffuse to the air–water interface. We achieved this by spraying picoliter volume droplets at speeds of hundreds of meters per second into a thin layer of liquid ethane coating the surface of a precooled specimen support. The droplets simultaneously collapsed and froze in microseconds into the amorphous phase as they landed on the surface. The atomic structure of the proteins was preserved and tomographic reconstructions of the vitrified specimens indicated adhesion to the interfaces was eliminated. Improved control of the final thickness of the specimen and the orientation distribution of the particles are now the limiting factors. This demonstration provides a basis for the development of specimen preparation methods and instruments that eliminate the detrimental effects of the air–water interface in cryoEM.

## Linked entities

- **Chemicals:** ethane (PubChem CID 6324)

## Full-text entities

- **Chemicals:** water (MESH:D014867), ethane (MESH:D004980)

## Figures

1 figure with captions in the complete paper: https://tomesphere.com/paper/PMC12582301/full.md

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Source: https://tomesphere.com/paper/PMC12582301