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CryoEM Workflow Acceleration with Feret Signatures.

Pierre NotteletPeter van BlerkomXiao-Ping XuDorit HaneinNiels Volkmann
Published in: International journal of molecular sciences (2024)
Common challenges in cryogenic electron microscopy, such as orientation bias, conformational diversity, and 3D misclassification, complicate single particle analysis and lead to significant resource expenditure. We previously introduced an in silico method using the maximum Feret diameter distribution, the Feret signature, to characterize sample heterogeneity of disc-shaped samples. Here, we expanded the Feret signature methodology to identify preferred orientations of samples containing arbitrary shapes with only about 1000 particles required. This method enables real-time adjustments of data acquisition parameters for optimizing data collection strategies or aiding in decisions to discontinue ineffective imaging sessions. Beyond detecting preferred orientations, the Feret signature approach can serve as an early-warning system for inconsistencies in classification during initial image processing steps, a capability that allows for strategic adjustments in data processing. These features establish the Feret signature as a valuable auxiliary tool in the context of single particle analysis, significantly accelerating the structure determination process.
Keyphrases
  • electronic health record
  • electron microscopy
  • big data
  • deep learning
  • high resolution
  • dna methylation
  • data analysis
  • molecular dynamics simulations
  • gene expression
  • optical coherence tomography