CryoRL: Reinforcement Learning Enables Efficient Cryo-EM Data Collection

Quanfu Fan, Yilai Li, Yuguang Yao, John Cohn, Sijia Liu, Ziping Xu, Seychelle Vos, Michael Cianfrocco

WACV 2024 pp. 7892-7902

/wacv/2024/fan2024wacv-cryorl/

Abstract

Single-particle cryo-electron microscopy (cryo-EM) has become one of the mainstream structural biology techniques because of its ability to determine high-resolution structures of dynamic bio-molecules. However, cryo-EM data acquisition remains expensive and labor-intensive, requiring substantial expertise. Structural biologists need a more efficient and objective method to collect the best data in a limited time frame. We formulate the cryo-EM data collection task as an optimization problem in this work. The goal is to maximize the total number of good images taken within a specified period. We show that reinforcement learning offers an effective way to plan cryo-EM data collection, successfully navigating heterogenous cryo-EM grids. The approach we developed, cryoRL, demonstrates better performance than average users for data collection under similar settings.

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Cite

Text

Fan et al. "CryoRL: Reinforcement Learning Enables Efficient Cryo-EM Data Collection." Winter Conference on Applications of Computer Vision, 2024.

Markdown

[Fan et al. "CryoRL: Reinforcement Learning Enables Efficient Cryo-EM Data Collection." Winter Conference on Applications of Computer Vision, 2024.](https://mlanthology.org/wacv/2024/fan2024wacv-cryorl/)

BibTeX

@inproceedings{fan2024wacv-cryorl,
  title     = {{CryoRL: Reinforcement Learning Enables Efficient Cryo-EM Data Collection}},
  author    = {Fan, Quanfu and Li, Yilai and Yao, Yuguang and Cohn, John and Liu, Sijia and Xu, Ziping and Vos, Seychelle and Cianfrocco, Michael},
  booktitle = {Winter Conference on Applications of Computer Vision},
  year      = {2024},
  pages     = {7892-7902},
  url       = {https://mlanthology.org/wacv/2024/fan2024wacv-cryorl/}
}