Learning consistent subcellular landmarks to quantify changes in multiplexed protein maps

Spitzer, Hannah; Berry, Scott; Donoghoe, Mark; Pelkmans, Lucas; Theis, Fabian J

doi:10.1038/s41592-023-01894-z

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Spitzer, H., Berry, S., Donoghoe, M., Pelkmans, L., & Theis, F. J. (2023). Learning consistent subcellular landmarks to quantify changes in multiplexed protein maps. Nature Methods, 20(7), 1058–1069. https://doi.org/10.1038/s41592-023-01894-z

Abstract

Highly multiplexed imaging holds enormous promise for understanding how spatial context shapes the activity of the genome and its products at multiple length scales. Here, we introduce a deep learning framework called CAMPA (Conditional Autoencoder for Multiplexed Pixel Analysis), which uses a conditional variational autoencoder to learn representations of molecular pixel profiles that are consistent across heterogeneous cell populations and experimental perturbations. Clustering these pixel-level representations identifies consistent

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5 since deposited on 2024-10-04

Acq. date: 2025-11-12

37 since deposited on 2024-10-04

Acq. date: 2025-11-12

14 in Web of Science Acq. date: 2025-07-29

11 in Scopus Acq. date: 2025-06-27

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Creators (Authors)

Spitzer, Hannah
Berry, Scott
Donoghoe, Mark
Pelkmans, Lucas
Theis, Fabian J

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Nature Methods

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20

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7

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1058

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1069

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Journal Article

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Publications of Institute of Molecular Life Sciences

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570 Biology

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English

Publication date

2023-05-08

Date available

2024-10-04

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Nature Publishing Group

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1548-7091

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Hybrid Open Access

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https://doi.org/10.5167/uzh-262452

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CC BY 4.0

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Publication:
Learning consistent subcellular landmarks to quantify changes in multiplexed protein maps