Mapping single-cell developmental potential in health and disease with interpretable deep learning

Kang, Minji; Armenteros, José Juan Almagro; Gulati, Gunsagar S.; Gleyzer, Rachel; Avagyan, Susanna; Brown, Erin L.; Zhang, Wubing; Usmani, Abul; Earland, Noah; Wu, Zhenqin; Zou, James; Fields, Ryan C.; Chen, David Y.; Chaudhuri, Aadel A.; Newman, Aaron M.

doi:10.1101/2024.03.19.585637

preprintbioRxiv (Cold Spring Harbor Laboratory)Mar 21, 2024GREEN OA

Mapping single-cell developmental potential in health and disease with interpretable deep learning

MKMinji Kang JJJosé Juan Almagro Armenteros GSGunsagar S. Gulati RGRachel Gleyzer SASusanna Avagyan

Stanford University · Dana-Farber Cancer Institute · +2 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

Single-cell RNA sequencing (scRNA-seq) has transformed our understanding of cell fate in developmental systems. However, identifying the molecular hallmarks of potency - the capacity of a cell to differentiate into other cell types - has remained challenging. Here, we introduce CytoTRACE 2, an interpretable deep learning framework for characterizing potency and differentiation states on an absolute scale from scRNA-seq data. Across 31 human and mouse scRNA-seq datasets encompassing 28 tissue types, CytoTRACE 2 outperformed existing methods for recovering experimentally determined potency levels and differentiation states covering the entire range of cellular ontogeny. Moreover, it reconstructed the temporal…

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115

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15

Topics & keywords

Topics

Keywords

Biology
Computational biology
Phenotype
Potency
Cell
Hierarchy
Disease
Cellular differentiation

UN Sustainable Development Goals

Reduced inequalities

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