Abstract
The severe acute respiratory syndrome (SARS) coronavirus encodes several RNA-processing enzymes that are unusual for RNA viruses, including Nsp15 (nonstructural protein 15), a hexameric endoribonuclease that preferentially cleaves 3′ of uridines. We solved the structure of a catalytically inactive mutant version of Nsp15, which was crystallized as a hexamer. The structure contains unreported flexibility in the active site of each subunit. Substitutions in the active site residues serine 293 and proline 343 allowed Nsp15 to cleave at cytidylate, whereas mutation of leucine 345 rendered Nsp15 able to cleave at purines as well as pyrimidines. Mutations that targeted the residues involved in subunit interactions generally resulted in the formation of catalytically inactive monomers. The RNA-binding residues were mapped by a method linking reversible cross-linking, RNA affinity purification, and peptide fingerprinting. Alanine substitution of several residues in the RNA-contacting portion of Nsp15 did not affect hexamer formation but decreased the affinity of RNA binding and reduced endonuclease activity. This suggests a model for Nsp15 hexamer interaction with RNA.
Highlights
Ϳ30-kb positive-strand genome and novel mechanisms that have evolved to replicate and transcribe this large RNA (5, 6)
Coronavirus subgenomic RNAs are interesting in that they all have the same 5Ј leader sequence derived from the 5Ј end of the genomic RNA
Various mechanisms have been proposed for subgenomic RNA production, but a discontinuous transcription mechanism is increasingly favored (5)
Summary
Crystallization and Data Collection of Nsp15-H234A—Initial crystallization trials were performed in sitting drops using 15 mg/ml of the Nsp[15] mutant, H234A. The Hydra 96 robotic system (Robbins Scientific Co.) was used for Hampton and Wizard (Emerald Biostructures) crystallization screens. All containing 2-methyl-2,4,-pentanediol as the precipitant, were judged promising for further optimization by the hanging drop vapor diffusion method of crystallization. Diffraction quality crystals were obtained at 10 –15 mg/ml of H234A in 0.05– 0.1 M MgCl2, 3–5% 2-methyl-2,4,-pentanediol, and 0.1 M tri-sodium citrate dehydrate (pH 5.6 –5.9). The best crystal diffracted up to 2.64 Å at the synchrotron beam line 14-ID of Advance Photon Source, Chicago (Table 1). The diffraction data set was indexed with unambiguous solution and processed using HKL2000 (23)
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