Mastodawn

#IntrinsicallyDisorderedRegions (IDRs) in #proteins lack stable structure & conserved sequence. This study uses cross-species rescue of yeast Rim4 to show how evolutionary pressure on #IDRs can favor biochemical traits underlying distinct functions across 100s My @PLOSBiology https://plos.io/4gKBYVH

Amelia Cervera 🧬Jul 8, 2025

mRNA 3′UTRs chaperone intrinsically disordered regions to control protein activity.

#RNA #mRNA #3UTR #IntrinsicallyDisorderedRegions #IDRs #IntrinsicallyDisorderedProteins #Chaperones #Preprint

https://www.biorxiv.org/content/10.1101/2025.07.02.662873v1

mRNA 3′UTRs chaperone intrinsically disordered regions to control protein activity

More than 2,700 human mRNA 3′UTRs have hundreds of highly conserved (HC) nucleotides, but their biological roles are unclear. Here, we show that mRNAs with HC 3′UTRs mostly encode proteins with long intrinsically disordered regions (IDRs), including MYC, UTX, and JMJD3. These proteins are only fully active when translated from mRNA templates that include their 3′UTRs, raising the possibility of functional interactions between 3′UTRs and IDRs. Rather than affecting protein abundance or localization, we find that HC 3′UTRs control transcriptional or histone demethylase activity through co-translationally determined protein oligomerization states that are kinetically stable. 3′UTR-dependent changes in protein folding require mRNA-IDR interactions, suggesting that mRNAs act as IDR chaperones. These mRNAs are multivalent, a biophysical RNA feature that enables their translation in network-like condensates, which provide favorable folding environments for proteins with long IDRs. These data indicate that the coding sequence is insufficient for the biogenesis of biologically active conformations of IDR-containing proteins and that RNA can catalyze protein folding. ### Competing Interest Statement The authors have declared no competing interest. Pershing Square Foundation, https://ror.org/04tce9s05 G. Harold & Leila Y. Mathers Foundation National Institutes of Health, DP1GM123454, R35GM144046 Memorial Sloan Kettering Cancer Center, https://ror.org/02yrq0923, P30 CA008748

bioRxiv

Amelia Cervera 🧬Apr 29, 2025

Deciphering disordered regions controlling mRNA decay in high-throughput.

#IntrinsicallyDisorderedRegions #IDRs #mRNADecay #RNABindingProteins #RBPs #BuddingYeast

https://www.nature.com/articles/s41586-025-08919-x