AI Article Synopsis
- Cells are asymmetrical due to the sorting of proteins, lipids, and nucleic acids, and RNA localization plays a critical role in gene regulation.
- A study using biochemical cell fractionation and RNA sequencing found that around 80% of RNA species are asymmetrically distributed in both and human cells, indicating evolutionary conservation.
- Notably, many long noncoding RNAs and circular RNAs are enriched in specific cytoplasmic areas, implying they have functions outside the nucleus, while mRNA distribution does not always match that of their corresponding proteins, highlighting a complex relationship between RNA localization and cellular organization.
Article Abstract
Cells are highly asymmetrical, a feature that relies on the sorting of molecular constituents, including proteins, lipids, and nucleic acids, to distinct subcellular locales. The localization of RNA molecules is an important layer of gene regulation required to modulate localized cellular activities, although its global prevalence remains unclear. We combine biochemical cell fractionation with RNA-sequencing (CeFra-seq) analysis to assess the prevalence and conservation of RNA asymmetric distribution on a transcriptome-wide scale in and human cells. This approach reveals that the majority (∼80%) of cellular RNA species are asymmetrically distributed, whether considering coding or noncoding transcript populations, in patterns that are broadly conserved evolutionarily. Notably, a large number of and human long noncoding RNAs and circular RNAs display enriched levels within specific cytoplasmic compartments, suggesting that these RNAs fulfill extra-nuclear functions. Moreover, fraction-specific mRNA populations exhibit distinctive sequence characteristics. Comparative analysis of mRNA fractionation profiles with that of their encoded proteins reveals a general lack of correlation in subcellular distribution, marked by strong cases of asymmetry. However, coincident distribution profiles are observed for mRNA/protein pairs related to a variety of functional protein modules, suggesting complex regulatory inputs of RNA localization to cellular organization.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5733575 | PMC |
| http://dx.doi.org/10.1261/rna.063172.117 | DOI Listing |
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