Towards unsupervised classification of macromolecular complexes in cryo electron tomography: Challenges and opportunities

BACKGROUND AND OBJECTIVESCryo electron tomography visualizes native cells at nanometer resolution, but analysis is challenged by noise and artifacts. Recently, supervised deep learning methods have been applied to decipher the 3D spatial distribution of macromolecules. However, in order to discover...

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Bibliographic Details
Published in:Computer methods and programs in biomedicine 2022-10, Vol.225, p.107017-107017, Article 107017
Main Authors: Moebel, E., Kervrann, C.
Format: Article
Language:English
Subjects:
Bioinformatics
Computer Science
Signal and Image Processing
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Summary:BACKGROUND AND OBJECTIVESCryo electron tomography visualizes native cells at nanometer resolution, but analysis is challenged by noise and artifacts. Recently, supervised deep learning methods have been applied to decipher the 3D spatial distribution of macromolecules. However, in order to discover unknown objects, unsupervised classification techniques are necessary. In this paper, we provide an overview of unsupervised deep learning techniques, discuss the challenges to analyze cryo-ET data, and provide a proof-of-concept on real data. METHODSWe propose a weakly supervised subtomogram classification method based on transfer learning. We use a deep neural network to learn a clustering friendly representation able to capture 3D shapes in the presence of noise and artifacts. This representation is learned here from a synthetic data set. RESULTSWe show that when applying k-means clustering given a learning-based representation, it becomes possible to satisfyingly classify real subtomograms according to structural similarity. It is worth noting that no manual annotation is used for performing classification. CONCLUSIONSWe describe the advantages and limitations of our proof-of-concept and raise several perspectives for improving classification performance.
ISSN:0169-2607
1872-7565
DOI:10.1016/j.cmpb.2022.107017