AI Article Synopsis
- Rbm3 is a stress-responsive gene that helps cells adapt and survive under harmful conditions while sharing structural similarities with proteins involved in mRNA processing.
- Knockout of Rbm3 leads to widespread changes in pre-mRNA splicing, a process that can be restored by reintroducing Rbm3 through a cDNA.
- The research suggests that Rbm3 plays a crucial role in selecting splice sites, particularly via its RNA recognition motif (RRM), highlighting a new function in maintaining the integrity of the transcriptome.
Article Abstract
(RNA-binding motif protein 3) is a stress responsive gene, which maintains cellular homeostasis and promotes survival upon various harmful cellular stimuli. Rbm3 protein shows conserved structural and molecular similarities to heterogeneous nuclear ribonucleoproteins (hnRNPs), which regulate all steps of the mRNA metabolism. Growing evidence is pointing towards a broader role of Rbm3 in various steps of gene expression. Here, we demonstrate that Rbm3 deficiency is linked to transcriptome-wide pre-mRNA splicing alterations, which can be reversed through Rbm3 co-expression from a cDNA. Using an MS2 tethering assay, we show that Rbm3 regulates splice site selection similar to other hnRNP proteins when recruited between two competing 5 splice sites. Furthermore, we show that the N-terminal part of Rbm3 encompassing the RNA recognition motif (RRM), is sufficient to elicit changes in splice site selection. On the basis of these findings, we propose a novel, undescribed function of Rbm3 in RNA splicing that contributes to the preservation of transcriptome integrity.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11575738 | PMC |
| http://dx.doi.org/10.1080/15476286.2024.2413820 | DOI Listing |
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