Abstract
In bacteria, the control of mRNA stability is crucial to allow rapid adaptation to changing conditions. In most bacteria, RNA degradation is catalyzed by the RNA degradosome, a protein complex composed of endo- and exoribonucleases, RNA helicases, and accessory proteins. In the Gram-positive model organism Bacillus subtilis, the existence of a RNA degradosome assembled around the membrane-bound endoribonuclease RNase Y has been proposed. Here, we have studied the intracellular localization of the protein that have been implicated in the potential B. subtilis RNA degradosome, i.e., polynucleotide phosphorylase, the exoribonucleases J1 and J2, the DEAD-box RNA helicase CshA, and the glycolytic enzymes enolase and phosphofructokinase. Our data suggests that the bulk of these enzymes is located in the cytoplasm. The RNases J1 and J2 as well as the RNA helicase CshA were mainly localized in the peripheral regions of the cell where also the bulk of messenger RNA is localized. We were able to demonstrate active exclusion of these proteins from the transcribing nucleoid. Taken together, our findings suggest that the interactions of the enzymes involved in RNA degradation in B. subtilis are rather transient.
Highlights
The survival of an organism depends on its ability to rapidly adapt to changes of the environmental conditions
To study the localization of the proteins implicated in RNA degradation in B. subtilis, we used a monomeric green fluorescent protein (GFP) variant (Oliva et al, 2010) and integrated the constructs into the chromosome, ensuring that the labeled protein is expressed from its native promoter
For the glycolytic enzymes Eno and PfkA, we detected an even distribution in the cytoplasm
Summary
The survival of an organism depends on its ability to rapidly adapt to changes of the environmental conditions. This ability arises from the control of gene expression, which allows a different set of proteins to be available for each new condition. While this regulation can occur at different levels, the protein quantity depends on the availability of mRNA. The amounts of these RNAs are determined by the rates of transcription and degradation (RNA turnover). The bacterial mRNAs have a half-life of only few minutes (Hui et al, 2014), which allows the bacteria to respond swiftly to any challenge
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