Authors
Lee, H., Basu, A., Vanderpool, C. K.
Abstract
Bacteria use post-transcriptional regulatory mechanisms to rapidly adjust gene expression during environmental change. In the gut-associated genus Bacteroides, these mechanisms remain poorly defined as these organisms lack canonical RNA chaperones like Hfq and CsrA that coordinate post-transcriptional stress responses in many well-studied model bacteria. Most Bacteroides possess conserved RNA recognition motif-1 (RRM-1) domain-containing RNA-binding proteins (more common in eukaryotes than bacteria) that have been proposed to act as global RNA chaperones. Here, we show that these RNA binding proteins (RBPs) are central to cold stress adaptation. Simultaneous deletion of all rbp genes produces a cold-sensitive growth defect across multiple Bacteroides species, while single deletions do not, revealing conserved functional redundancy. RBP transcripts and proteins accumulate rapidly after temperature downshift, and loss of RBPs extensively reprograms the transcriptome. Cold sensitivity of Bacteroides rbp mutants is not caused by defects in ribosome assembly or rRNA maturation. Instead, we find that in Bacteroides thetaiotaomicron, RBPs act together with BT1884, the sole canonical cold shock protein possessed by this organism. The combined loss of RBPs and BT1884 produces a synthetic severe cold sensitivity phenotype, defining two functionally redundant cold stress systems belonging to unrelated protein families. Strains lacking RBPs show reduced survival under simultaneous cold and oxygen stress, the conditions Bacteroides cells are expected to encounter during host-to-host transmission. Together, these findings establish RRM-1 RBPs as non-canonical cold shock proteins that enable cold adaptation and environmental survival in Bacteroides and suggest how these organisms withstand the stresses of transmission between hosts.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 10 Jul 2026.
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