Abstract
The eukaryotic mRNA life cycle includes transcription, nuclear mRNA export and degradation. To quantify all these processes simultaneously, we perform thiol-linked alkylation after metabolic labeling of RNA with 4-thiouridine (4sU), followed by sequencing of RNA (SLAM-seq) in the nuclear and cytosolic compartments of human cancer cells. We develop a model that reliably quantifies mRNA-specific synthesis, nuclear export, and nuclear and cytosolic degradation rates on a genome-wide scale. We find that nuclear degradation of polyadenylated mRNA is negligible and nuclear mRNA export is slow, while cytosolic mRNA degradation is comparatively fast. Consequently, an mRNA molecule generally spends most of its life in the nucleus. We also observe large differences in the nuclear export rates of different 3’UTR transcript isoforms. Furthermore, we identify genes whose expression is abruptly induced upon metabolic labeling. These transcripts are exported substantially faster than average mRNAs, suggesting the existence of alternative export pathways. Our results highlight nuclear mRNA export as a limiting factor in mRNA metabolism and gene regulation.
Funder
Cologne Graduate School of Ageing Research
Deutsche Forschungsgemeinschaft
Publisher
Public Library of Science (PLoS)
Reference63 articles.
1. Nuclear Retention of mRNA in Mammalian Tissues;K Bahar Halpern;Cell Reports,2015
2. Sequencing metabolically labeled transcripts in single cells reveals mRNA turnover strategies;N Battich;Science,2020
3. RNA Nucleocytoplasmic Transport Defects in Neurodegenerative Diseases;A Boehringer,2018
4. Nuclear sorting of RNA;W Garland;WIREs RNA,2020
5. Cytoplasmic foci are sites of mRNA decay in human cells;N Cougot;Journal of Cell Biology,2004