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ABSTRACT: Assembly and guide-target interaction of an archaeal box C/D-guide sRNP was investigated under various conditions by analyzing the lead (II)-induced cleavage of the guide RNA. Guide and target RNAs derived from Haloferax volcanii pre-tRNA(Trp) were used with recombinant Methanocaldococcus jannaschii core proteins in the reactions. Core protein L7Ae binds differentially to C/D and C'/D' motifs of the guide RNA, and interchanging the two motifs relative to the termini of the guide RNA did not affect L7Ae binding or sRNA function. L7Ae binding to the guide RNA exposes its D'-guide sequence first followed by the D guide. These exposures are reduced when aNop5p and aFib proteins are added. The exposed guide sequences did not pair with the target sequences in the presence of L7Ae alone. The D-guide sequence could pair with the target in the presence of L7Ae and aNop5p, suggesting a role of aNop5p in target recruitment and rearrangement of sRNA structure. aFib binding further stabilizes this pairing. After box C/D-guided modification, target-guide pairing at the D-guide sequence is disrupted, suggesting that each round of methylation may require some conformational change or reassembly of the RNP. Asymmetric RNPs containing only one L7Ae at either of the two box motifs can be assembled, but a functional RNP requires L7Ae at the box C/D motif. This arrangement resembles the asymmetric eukaryal snoRNP. Observations of initial D-guide-target pairing and the functional requirement for L7Ae at the box C/D motif are consistent with our previous report of the sequential 2'-O-methylations of the target RNA.
RNA 08/2008; 14(7):1411-23. · 5.09 Impact Factor
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ABSTRACT: Haloferax volcanii pre-tRNA(Trp) processing requires box C/D ribonucleoprotein (RNP)-guided 2'-O-methylation of nucleotides C34 and U39 followed by intron excision. Positioning of the box C/D guide RNA within the intron of this pre-tRNA led to the assumption that nucleotide methylation is guided by the cis-positioned box C/D RNPs. We have now investigated the mechanism of 2'-O-methylation for the H. volcanii pre-tRNA(Trp) in vitro by assembling methylation-competent box C/D RNPs on both the pre-tRNA and the excised intron (both linear and circular forms) using Methanocaldococcus jannaschii box C/D RNP core proteins. With both kinetic studies and single nucleotide substitutions of target and guide nucleotides, we now demonstrate that pre-tRNA methylation is guided in trans by the intron-encoded box C/D RNPs positioned in either another pre-tRNA(Trp) or in the excised intron. Methylation by in vitro assembled RNPs prefers but does not absolutely require Watson-Crick pairing between the guide and target nucleotides. We also demonstrate for the first time that methylation of two nucleotides guided by a single box C/D RNA is sequential, that is, box C'/D' RNP-guided U39 methylation first requires box C/D RNP-guided methylation of C34. Methylation of the two nucleotides of exogenous pre-tRNA(Trp) added to an H. volcanii cell extract also occurs sequentially and is also accomplished in trans using RNPs that pre-exist in the extract. Thus, this trans mechanism is analogous to eukaryal pre-rRNA 2'-O-methylation guided by intron-encoded but trans-acting box C/D small nucleolar RNPs. This trans mechanism could explain the observed accumulation of the excised H. volcanii pre-tRNA(Trp) intron in vivo. A trans mechanism would also eliminate the obligatory refolding of the pre-tRNA that would be required to carry out two cis-methylation reactions before pre-tRNA splicing.
Journal of Biological Chemistry 12/2004; 279(46):47661-71. · 4.77 Impact Factor
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ABSTRACT: Archaeal RNA splicing involves at least two protein enzymes, a specific endonuclease and a specific ligase. The endonuclease recognizes and cleaves within a characteristic bulge-helix-bulge (BHB) structure formed by pairing of the regions near the two exon-intron junctions, producing 2',3'-cyclic phosphate and 5'-hydroxyl termini. The ligase joins the exons and converts the cyclic phosphate into junction phosphate. The ligated product contains a seven-base hairpin loop, in which the splice junction is in between the two 3' terminal residues of the loop. Archaeal splicing endonucleases are also involved in rRNA processing, cutting within the BHB structures formed by pairing of the 5' and 3' flanking regions of the rRNAs. Large free introns derived from pre-rRNAs have been observed as stable and abundant circular RNAs in certain Crenarchaeota, a kingdom in the domain Archaea. In the present study, we show that the cells of Haloferax volcanii, a Euryarchaeote, contain circular RNAs formed by 3',5'-phosphodiester linkage between the two termini of the introns derived from their pre-tRNAs. H. volcanii ligase, in vitro, can also circularize both endonuclease-cleaved introns, and non-endonuclease-produced substrates. Exon joining and intron circularization are mechanistically similar ligation reactions that can occur independently. The size of the ligated hairpin loop and position of the splice junction within this loop can be changed in in vitro ligation reactions. Overall, archaeal RNA splicing seems to involve two sets of two symmetric transesterification reactions each.
RNA 04/2003; 9(3):319-30. · 5.09 Impact Factor
