Abstract
Cold-stress in Escherichia coli induces de novo synthesis of translation initiation factors IF1, IF2 and IF3 while ribosome synthesis and assembly slow down. Consequently, the IFs/ribosome stoichiometric ratio increases about 3-fold during the first hours of cold adaptation. The IF1 and IF3 increase plays a role in translation regulation at low temperature (cold-shock-induced translational bias) but so far no specific role could be attributed to the extra copies of IF2. In this work, we show that the extra-copies of IF2 made after cold stress are associated with immature ribosomal subunits together with at least another nine proteins involved in assembly and/or maturation of ribosomal subunits. This finding, coupled with evidence that IF2 is endowed with GTPase-associated chaperone activity that promotes refolding of denatured GFP, and the finding that two cold-sensitive IF2 mutations cause the accumulation of immature ribosomal particles, indicate that IF2 is yet another GTPase protein that participates in ribosome assembly/maturation, especially at low temperatures. Overall, these findings are instrumental in redefining the functional role of IF2, which cannot be regarded as being restricted to its well documented functions in translation initiation of bacterial mRNA.
Highlights
After a cold-stress, mesophilic bacteria like Escherichia coli undergo a cold adaptation phase during which gene expression is reprogrammed and a set of cold-shock proteins is synthesized whereas bulk protein synthesis stops [1,2,3,4,5,6,7,8]
We have investigated a possible function of IF2 during cold adaptation and present several lines of evidence indicating that this factor plays an important role in ribosome assembly and/or maturation in cold-shocked cells, likely by virtue of its protein chaperone activity accompanied by GTP hydrolysis
The cells were ruptured by sonication to yield extracts which were subjected to sucrose density gradient centrifugation to determine if any change in the stoichiometry of the proteins associated with the ribosomal subunits had occurred during coldacclimation
Summary
After a cold-stress (e.g. a temperature downshift from 37◦C to
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