Litcius/Paper detail

Stress-induced transcriptional readthrough into neighboring genes is linked to intron retention

Shani Hadar, Anatoly Meller, Naseeb Saida, Reut Shalgi

2022iScience33 citationsDOIOpen Access PDF

Abstract

Exposure to certain stresses leads to readthrough transcription. Using polyA-selected RNA-seq in mouse fibroblasts subjected to heat shock, oxidative, or osmotic stress, we found that readthrough transcription can proceed into proximal downstream genes, in a phenomenon previously termed "read-in." We found that read-in genes share distinctive genomic characteristics; they are GC-rich and extremely short , with genomic features conserved in human. Using ribosome profiling, we found that read-in genes show significantly reduced translation. Strikingly, read-in genes demonstrate marked intron retention, mostly in their first introns, which could not be explained solely by their short introns and GC-richness, features often associated with intron retention. Finally, we revealed H3K36me3 enrichment upstream to read-in genes. Moreover, demarcation of exon-intron junctions by H3K36me3 was absent in read-in first introns. Our data portray a relationship between read-in and intron retention, suggesting they may have co-evolved to facilitate reduced translation of read-in genes during stress.

Topics & Concepts

IntronGeneGeneticsBiologyComputational biologyRNA modifications and cancerRNA Research and SplicingGenomics and Chromatin Dynamics