Abstract
5'-End-dependent RNA degradation impacts virulence, stress responses, and DNA repair in bacteria by controlling the decay of hundreds of mRNAs. The RNA pyrophosphohydrolase RppH, a member of the Nudix hydrolase superfamily, triggers this degradation pathway by removing pyrophosphate from the triphosphorylated RNA 5' terminus. Here, we report the x-ray structures of Escherichia coli RppH (EcRppH) in apo- and RNA-bound forms. These structures show distinct conformations of EcRppH·RNA complexes on the catalytic pathway and suggest a common catalytic mechanism for Nudix hydrolases. EcRppH interacts with RNA by a bipartite mechanism involving specific recognition of the 5'-terminal triphosphate and the second nucleotide, thus enabling discrimination against mononucleotides as substrates. The structures also reveal the molecular basis for the preference of the enzyme for RNA substrates bearing guanine in the second position by identifying a protein cleft in which guanine interacts with EcRppH side chains via cation-π contacts and hydrogen bonds. These interactions explain the modest specificity of EcRppH at the 5' terminus and distinguish the enzyme from the highly selective RppH present in Bacillus subtilis. The divergent means by which RNA is recognized by these two functionally and structurally analogous enzymes have important implications for mRNA decay and the regulation of protein biosynthesis in bacteria.
Highlights
RppH initiates mRNA degradation in bacteria by removing pyrophosphate from the triphosphorylated 5Ј terminus
Escherichia coli RppH (EcRppH) Is Active on Short RNAs—Our x-ray crystallography experiments were driven by the unexpected finding, presented in the accompanying article [32], that EcRppH and B. subtilis RppH (BsRppH) have similar length requirements but distinct sequence preferences for RNA 5Ј-ends
Crystallization of low specificity RNA1⁄7protein complexes often yields poor electron density maps because of the mobility of the loosely bound RNA and the dissociation of the weak complexes under harsh crystallization conditions, we developed crystal treatment procedures that allowed us to visualize the first two nucleotides of EcRppH-bound RNA almost in their entirety
Summary
RppH initiates mRNA degradation in bacteria by removing pyrophosphate from the triphosphorylated 5Ј terminus. We report the x-ray structures of Escherichia coli RppH (EcRppH) in apo- and RNAbound forms These structures show distinct conformations of EcRppH1⁄7RNA complexes on the catalytic pathway and suggest a common catalytic mechanism for Nudix hydrolases. The structures reveal the molecular basis for the preference of the enzyme for RNA substrates bearing guanine in the second position by identifying a protein cleft in which guanine interacts with EcRppH side chains via cation- contacts and hydrogen bonds. These interactions explain the modest specificity of EcRppH at the 5 terminus and distinguish the enzyme from the highly selective RppH present in Bacillus subtilis. The atomic coordinates and structure factors (codes 4S2V, 4S2W, 4S2X, and 4S2Y) have been deposited in the Protein Data Bank (http://wwpdb.org/)
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