Author
Listed:
- Marcel Tarbier
(Stockholm University)
- Sebastian D. Mackowiak
(Stockholm University)
- João Frade
(The Barcelona Institute for Science and Technology)
- Silvina Catuara-Solarz
(The Barcelona Institute for Science and Technology)
- Inna Biryukova
(Stockholm University)
- Eleni Gelali
(Karolinska Institute)
- Diego Bárcena Menéndez
(The Barcelona Institute for Science and Technology)
- Luis Zapata
(The Barcelona Institute for Science and Technology
The Institute of Cancer Research)
- Stephan Ossowski
(The Barcelona Institute for Science and Technology
University Pompeu Fabra
University of Tübingen)
- Magda Bienko
(Karolinska Institute)
- Caroline J. Gallant
(Uppsala University)
- Marc R. Friedländer
(Stockholm University)
Abstract
Single-cell RNA sequencing studies on gene co-expression patterns could yield important regulatory and functional insights, but have so far been limited by the confounding effects of differentiation and cell cycle. We apply a tailored experimental design that eliminates these confounders, and report thousands of intrinsically covarying gene pairs in mouse embryonic stem cells. These covariations form a network with biological properties, outlining known and novel gene interactions. We provide the first evidence that miRNAs naturally induce transcriptome-wide covariations and compare the relative importance of nuclear organization, transcriptional and post-transcriptional regulation in defining covariations. We find that nuclear organization has the greatest impact, and that genes encoding for physically interacting proteins specifically tend to covary, suggesting importance for protein complex formation. Our results lend support to the concept of post-transcriptional RNA operons, but we further present evidence that nuclear proximity of genes may provide substantial functional regulation in mammalian single cells.
Suggested Citation
Marcel Tarbier & Sebastian D. Mackowiak & João Frade & Silvina Catuara-Solarz & Inna Biryukova & Eleni Gelali & Diego Bárcena Menéndez & Luis Zapata & Stephan Ossowski & Magda Bienko & Caroline J. Gal, 2020.
"Nuclear gene proximity and protein interactions shape transcript covariations in mammalian single cells,"
Nature Communications, Nature, vol. 11(1), pages 1-12, December.
Handle:
RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-19011-5
DOI: 10.1038/s41467-020-19011-5
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