Download MendeleyStructural basis for the CsrA-dependent modulation of translation initiation by an ancient regulatory protein.
Altegoer, F., Rensing, S.A., Bange, G.(2016) Proc Natl Acad Sci U S A 113: 10168-10173
- PubMed: 27551070
- DOI: https://doi.org/10.1073/pnas.1602425113
- Primary Citation of Related Structures:
5DMB, 5DMD, 5JAK - PubMed Abstract:
Regulation of translation is critical for maintaining cellular protein levels, and thus protein homeostasis. The conserved RNA-binding protein CsrA (also called RsmA; for carbon storage regulator and regulator of secondary metabolism, respectively; hereafter called CsrA) represents a well-characterized example of regulation at the level of translation initiation in bacteria. Binding of a CsrA homodimer to the 5'UTR of an mRNA occludes the Shine-Dalgarno sequence, blocking ribosome access for translation. Small noncoding RNAs (sRNAs) can competitively antagonize CsrA activity by a well-understood mechanism. However, the regulation of CsrA by the protein FliW is just emerging. FliW antagonizes the CsrA-dependent repression of translation of the flagellar filament protein, flagellin. Crystal structures of the FliW monomer reveal a novel, minimal β-barrel-like fold. Structural analysis of the CsrA/FliW heterotetramer shows that FliW interacts with a C-terminal extension of CsrA. In contrast to the competitive regulation of CsrA by sRNAs, FliW allosterically antagonizes CsrA in a noncompetitive manner by excluding the 5'UTR from the CsrA-RNA binding site. Our phylogenetic analysis shows that the FliW-mediated regulation of CsrA regulation is the ancestral state in flagellated bacteria. We thus demonstrate fundamental mechanistic differences in the regulation of CsrA by sRNA in comparison with an ancient regulatory protein.
Organizational Affiliation:
LOEWE Center for Synthetic Microbiology, Department of Chemistry, Philipps University Marburg, 35043 Marburg, Germany; gert.bange@synmikro.uni-marburg.de florian.altegoer@synmikro.uni-marburg.de.
