Frontiers in Molecular Biosciences (Sep 2022)

Practices for running a research-oriented shared cryo-EM facility

  • Richard M. Walsh,
  • Richard M. Walsh,
  • Megan L. Mayer,
  • Megan L. Mayer,
  • Christopher H. Sun,
  • Christopher H. Sun,
  • Shaun Rawson,
  • Shaun Rawson,
  • Remya Nair,
  • Remya Nair,
  • Sarah M. Sterling,
  • Sarah M. Sterling,
  • Zongli Li,
  • Zongli Li,
  • Zongli Li

DOI
https://doi.org/10.3389/fmolb.2022.960940
Journal volume & issue
Vol. 9

Abstract

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The Harvard Cryo-Electron Microscopy Center for Structural Biology, which was formed as a consortium between Harvard Medical School, Boston Children’s Hospital, Dana-Farber Cancer Institute, and Massachusetts General Hospital, serves both academic and commercial users in the greater Harvard community. The facility strives to optimize research productivity while training users to become expert electron microscopists. These two tasks may be at odds and require careful balance to keep research projects moving forward while still allowing trainees to develop independence and expertise. This article presents the model developed at Harvard Medical School for running a research-oriented cryo-EM facility. Being a research-oriented facility begins with training in cryo-sample preparation on a trainee’s own sample, ideally producing grids that can be screened and optimized on the Talos Arctica via multiple established pipelines. The first option, staff assisted screening, requires no user experience and a staff member provides instant feedback about the suitability of the sample for cryo-EM investigation and discusses potential strategies for sample optimization. Another option, rapid access, allows users short sessions to screen samples and introductory training for basic microscope operation. Once a sample reaches the stage where data collection is warranted, new users are trained on setting up data collection for themselves on either the Talos Arctica or Titan Krios microscope until independence is established. By providing incremental training and screening pipelines, the bottleneck of sample preparation can be overcome in parallel with developing skills as an electron microscopist. This approach allows for the development of expertise without hindering breakthroughs in key research areas.

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