Pistol ribozyme adopts a pseudoknot fold facilitating site-specific in-line cleavage

Ren, Aiming; Vušurović, Nikola; Gebetsberger, Jennifer; Gao, Pu; Juen, Michael Andreas; Kreutz, Christoph; Micura, Ronald; Patel, Dinshaw J.

doi:10.1038/nchembio.2125

Cited by 82 publications

(209 citation statements)

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“…The pH dependence of this ribozyme is similar to that of the hammerhead. The overall structure is reminiscent of that of the hammerhead (23,25), and the structure of the active center is consistent with a role for a guanine N1 and an O2' as general acid. This requires more detailed mechanistic investigation.…”

Section: The Hammerhead Ribozyme -The Role Of a 2'-hydroxyl Groupmentioning

confidence: 65%

“…There are now nine distinct members of this group. Crystal structures have now been determined for the majority of these ribozymes (14)(15)(16)(17)(18)(19)(20)(21)(22)(23)(24)(25). The reaction is initiated when an O2' atom attacks the adjacent phosphorus in an SN2 transesterification reaction leading to the formation of a 2'3'-cyclic phosphate and a 5' hydroxyl group (Figure 1).…”

Section: The Nucleolytic Ribozymesmentioning

confidence: 99%

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How RNA acts as a nuclease: some mechanistic comparisons in the nucleolytic ribozymes

Lilley

2017

Biochemical Society Transactions

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Section: The Hammerhead Ribozyme -The Role Of a 2'-hydroxyl Groupmentioning

confidence: 65%

Section: The Nucleolytic Ribozymesmentioning

confidence: 99%

How RNA acts as a nuclease: some mechanistic comparisons in the nucleolytic ribozymes

Lilley

2017

Biochemical Society Transactions

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“…The superposition of the active sites yields an rmsd = 0.494 Å (Fig. S3 A and C) (20), indicating that the overall structure and active site are similar and within experimental error. The main difference between the two active site conformations is that nucleotide 32 is a guanine in our structure, whereas it is an adenosine in the structure of Pistol Env.25 reported by Ren et al (20).…”

mentioning

confidence: 99%

“…Based on the recent biochemistry results, it has been suggested that the purine base at position 32 is the likely candidate to serve as the general acid for donating a hydrogen to the leaving O5′. Mutagenesis studies have shown that the Pistol self-cleavage activity is 100% in 10 min with an A32G mutation, whereas activity was abolished when the A32 N3 atom was substituted by a carbon atom (20). Furthermore, the pK a of the A32 N3 atom was found to be shifted up by 1 pH unit to 4.7, which suggests that the A32 N3 atom has an increased chance of being protonated, even under physiological pH (20).…”

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confidence: 99%

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Crystal structure of Pistol, a class of self-cleaving ribozyme

Nguyen

Wang

Steitz

2017

Proc. Natl. Acad. Sci. U.S.A.

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Small self-cleaving ribozymes have been discovered in all evolutionary domains of life. They can catalyze site-specific RNA cleavage, and as a result, they have relevance in gene regulation. Comparative genomic analysis has led to the discovery of a new class of small selfcleaving ribozymes named Pistol. We report the crystal structure of Pistol at 2.97-Å resolution. Our results suggest that the Pistol ribozyme self-cleavage mechanism likely uses a guanine base in the active site pocket to carry out the phosphoester transfer reaction. The guanine G40 is in close proximity to serve as the general base for activating the nucleophile by deprotonating the 2′-hydroxyl to initiate the reaction (phosphoester transfer). Furthermore, G40 can also establish hydrogen bonding interactions with the nonbridging oxygen of the scissile phosphate. The proximity of G32 to the O5′ leaving group suggests that G32 may putatively serve as the general acid. The RNA structure of Pistol also contains A-minor interactions, which seem to be important to maintain its tertiary structure and compact fold. Our findings expand the repertoire of ribozyme structures and highlight the conserved evolutionary mechanism used by ribozymes for catalysis.T he "RNA world" hypothesis speculates that RNA carried out the majority of biochemical reactions before the evolution of complex protein enzymes (1, 2). Ribozymes are noncoding RNA that carry out catalytic activities. Unlike protein enzymes, only a handful of ribozymes have known biological functions. Their biological functions range from regulating gene expression (e.g., riboswitches) and performing peptidyl-transfer reactions (e.g., ribosome) to removing intron sequences in genes (e.g., self-splicing Group I intron ribozymes) (2-9). The biological functions and mechanism of these ribozymes have been discovered through structural and biochemical studies.Currently, the classes of self-cleaving ribozymes consist of Hammerhead, Hairpin, Hepatitis Delta Virus ribozyme (HDV), Varkud Satellite (VS), glmS ribozyme, Twister, Twister sister, Hatchet, and Pistol (10). These classes differ based on their size, structure, and cleavage mechanism. Known for their site-specific cleavage, ribozymes with defined biological function include the Hammerhead, VS, and HDV, which all participate in rolling circle replication, whereas the glmS ribozyme functions in controlling gene expression (11,12). However, the biological function of a vast majority of the different self-cleaving ribozymes remains to be explored.Through comparative genome analysis, there have been three newly identified classes of self-cleaving ribozymes called Twister sister, Hatchet, and Pistol (3). Biochemical analysis reveals that Pistol can use a variety of divalent metal ions to carry out a complete site-specific, self-cleaving reaction, whereas utilization of monovalent cations results in modest cleavage rates (3, 10). The rate of Pistol self-cleavage has been estimated to be >10 min −1 under physiological conditions and >100 min −1 under optimal ...

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Pistol ribozyme adopts a pseudoknot fold facilitating site-specific in-line cleavage

Cited by 82 publications

References 43 publications

How RNA acts as a nuclease: some mechanistic comparisons in the nucleolytic ribozymes

How RNA acts as a nuclease: some mechanistic comparisons in the nucleolytic ribozymes

Crystal structure of Pistol, a class of self-cleaving ribozyme

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