Autonomous Generation and Loading of DNA Guides by Bacterial Argonaute

Swarts, Daan C.; Szczepaniak, Malwina; Sheng, Gang; Chandradoss, Stanley D.; Zhu, Yifan; Timmers, Elizabeth M.; Zhang, Yong; Zhao, Hong‐Wu; Lou, Jizhong; Wang, Yanli; Joo, Chirlmin; Oost, John van der

doi:10.1016/j.molcel.2017.01.033

Cited by 109 publications

(195 citation statements)

References 47 publications

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“…Similar to previously published structures of RsAgo (Miyoshi et al, 2016) and TtAgo (Sheng et al, 2014; Swarts et al, 2014a, 2017; Wang et al, 2009), the 5′-phosphate of the guide strand is positioned within the MID pocket and anchored in place through a network of direct hydrogen bonds from amino acid side chains originating from the MID (Tyr463, Lys467, Gln478, and Lys506) domain (Figures 3A and 3B). Indeed, mutation of Tyr463 and Lys467 residues make RsAgo unable to bind RNA guides in vivo (Olovnikov et al, 2013) and in vitro (Miyoshi et al, 2016).…”

Section: Resultssupporting

confidence: 79%

“…Similarly, sequence-specific recognition of the 5′-base in the guide strand were shown for several eukaryotic Agos (Boland et al, 2010; Frank et al, 2010; Matsumoto et al, 2016; Schirle and MacRae, 2012; Wang et al, 2009; Mi et al, 2008). On the contrary, TtAgo was proposed to have little specificity for the 5′-base binding (Swarts et al, 2014a, 2017). …”

Section: Discussionmentioning

confidence: 99%

“…By contrast, TtAgo preferentially binds G1′ in the target strand, which is also stabilized by specific hydrogen bonding (Sheng et al, 2014; Swarts et al, 2017). Thus, the ability to recognize the target nucleotide at position 1′ may be an ancient feature of Ago proteins present in the common ancestor of prokaryotic and eukaryotic lineages.…”

Section: Discussionmentioning

confidence: 99%

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Accommodation of Helical Imperfections in Rhodobacter sphaeroides Argonaute Ternary Complexes with Guide RNA and Target DNA

et al. 2018

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SUMMARY Prokaryotic Argonaute (Ago) proteins were recently shown to target foreign genetic elements, thus making them a perfect model for studies of interference mechanisms. Here, we study interactions of Rhodobacter sphaeroides Ago (RsAgo) with guide RNA (gRNA) and fully complementary or imperfect target DNA (tDNA) using biochemical and structural approaches. We show that RsAgo can specifically recognize both the first nucleotide in gRNA and complementary nucleotide in tDNA, and both interactions contribute to nucleic acid binding. Non-canonical pairs and bulges on the target strand can be accommodated by RsAgo with minimal perturbation of the duplex but significantly reduce RsAgo affinity to tDNA. Surprisingly, mismatches between gRNA and tDNA induce dissociation of the guide-target duplex from RsAgo. Our results reveal plasticity in the ability of Ago proteins to accommodate helical imperfections, show how this might affect the efficiency of RNA silencing, and suggest a potential mechanism for guide release and Ago recycling.

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Section: Resultssupporting

confidence: 79%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Accommodation of Helical Imperfections in Rhodobacter sphaeroides Argonaute Ternary Complexes with Guide RNA and Target DNA

et al. 2018

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Section: Type V Crispr-cas Systemsmentioning

confidence: 99%

“…The pre-crRNA is cleaved within the repeat region, which adopts a pseudoknot structure (Swarts et al, 2017; Yamano et al, 2016). In the structure of Cas12a bound to a pre-crRNA, the scissile phosphate is directly positioned between the sidechains of highly-conserved histidine and lysine residues within the WED domain (Swarts et al, 2017). Although early studies suggested that pre-crRNA cleavage requires divalent metal ions (Fonfara et al, 2016), subsequent studies showed that Mg 2+ ions help stabilize Cas12a binding to the RNA but are not required for catalysis (Swarts et al, 2017).…”

Section: Type V Crispr-cas Systemsmentioning

confidence: 99%

The Revolution Continues: Newly Discovered Systems Expand the CRISPR-Cas Toolkit

et al. 2017

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CRISPR–Cas systems defend prokaryotes against bacteriophages and mobile genetic elements and serve as the basis for revolutionary tools for genetic engineering. Class 2 CRISPR–Cas systems use single Cas endonucleases paired with guide RNAs to cleave complementary nucleic acid targets, enabling programmable sequence-specific targeting with minimal machinery. Recent discoveries of previously unidentified CRISPR–Cas systems have uncovered a deep reservoir of potential biotechnological tools beyond the well-characterized Type II Cas9 systems. Here we review the current mechanistic understanding of newly discovered single-protein Cas endonucleases. Comparison of these Cas effectors reveals substantial mechanistic diversity, underscoring the phylogenetic divergence of related CRISPR–Cas systems. This diversity has enabled further expansion of CRISPR–Cas biotechnological toolkits, with wide-ranging applications from genome editing to diagnostic tools based on various Cas endonuclease activities. These advances highlight the exciting prospects for future tools based on the continually expanding set of CRISPR–Cas systems.

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Characterization and application of a thermophilic Argonaute from archaeon Thermococcus thioreducens

Fang

Huang

et al. 2022

Biotech & Bioengineering

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Prokaryotic Argonaute proteins (pAgos) play an important role in host defense against invading genetic elements. The functional diversities make pAgos very promising in development of novel nucleic acid manipulation tools and attract increasing attentions. Here, we reported the in vitro characterization of an Argonaute protein from archaeon Thermococcus thioreducens (TtrAgo) and its example of application in hepatitis B virus DNA detection. The results showed that TtrAgo functions as a programmable DNA endonuclease by utilizing both short 5′-phosphorylated and 5′-hydroxylated single-stranded DNA guides, and presents high efficiency and accuracy at optimal temperatures ranging from 75°C to 95°C. In addition, TtrAgo also possesses stepwise cleavage activity like PfAgo (Pyrococcus furiosus) and chopping activity toward double-stranded DNA similar to MjAgo (Methanocaldococcus jannaschii). This study increases our understanding of pAgos and expands the Ago-based DNA detection toolbox.

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Autonomous Generation and Loading of DNA Guides by Bacterial Argonaute

Cited by 109 publications

References 47 publications

Accommodation of Helical Imperfections in Rhodobacter sphaeroides Argonaute Ternary Complexes with Guide RNA and Target DNA

Accommodation of Helical Imperfections in Rhodobacter sphaeroides Argonaute Ternary Complexes with Guide RNA and Target DNA

The Revolution Continues: Newly Discovered Systems Expand the CRISPR-Cas Toolkit

Characterization and application of a thermophilic Argonaute from archaeon Thermococcus thioreducens

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