A Prokaryotic Twist on Argonaute Function

Willkomm, Sarah; Zander, Adrian; Gust, Alexander; Grohmann, Dina

doi:10.3390/life5010538

Cited by 26 publications

(27 citation statements)

References 76 publications

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“…MjAgo anchors the 5'-and 3'-end of a canonical guide strand in dedicated binding pockets in the Mid and PAZ domain, respectively (PDB: 5G5S and 5G5T). 1,24 We tested whether mutations in the functional domains of MjAgo (Figure 4a) affect the plasmid cleavage activity. PAZ binding pocket mutants (Y194A, H213A, Y217A, E246A)…”

Section: Mutational Analysis Of Mjago-mediated Non-canonical Dna Subsmentioning

confidence: 99%

“…Argonaute (Ago) proteins are crucially involved in RNA-guided or DNA-guided degradation of target nucleic acids. [1][2][3] Present in all three domains of life, they bind guide strands in vivo to target complementary nucleic acids. Eukaryotic Agos interact with cytoplasmic RNA substrates 18-23 bp in length [4][5][6] while prokaryotic Agos (pAgos) bind and process a variety of DNA and RNA substrates.…”

Section: Introductionmentioning

confidence: 99%

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Guide-independent DNA cleavage by archaeal Argonaute from Methanocaldococcus jannaschii

et al. 2017

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Prokaryotic Argonaute proteins acquire guide strands derived from invading or mobile genetic elements, via an unknown pathway, to direct guide-dependent cleavage of foreign DNA. Here, we report that Argonaute from the archaeal organism Methanocaldococcus jannaschii (MjAgo) possesses two modes of action: the canonical guide-dependent endonuclease activity and a non-guided DNA endonuclease activity. The latter allows MjAgo to process long double-stranded DNAs, including circular plasmid DNAs and genomic DNAs. Degradation of substrates in a guide-independent fashion primes MjAgo for subsequent rounds of DNA cleavage. Chromatinized genomic DNA is resistant to MjAgo degradation, and recombinant histones protect DNA from cleavage in vitro. Mutational analysis shows that key residues important for guide-dependent target processing are also involved in guide-independent MjAgo function. This is the first characterization of guide-independent cleavage activity for an Argonaute protein potentially serving as a guide biogenesis pathway in a prokaryotic system.

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Section: Mutational Analysis Of Mjago-mediated Non-canonical Dna Subsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Guide-independent DNA cleavage by archaeal Argonaute from Methanocaldococcus jannaschii

et al. 2017

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“…Interactions between prokaryotic AGO orthologs and both sRNA and DNA fragments were recently documented (37), and, interestingly, the sizes of DDB2-associated DNA fragments are in the median size-range of excised DNA released during NER in prokaryotes (12 nt to 13 nt) and eukaryotes (38) (25 nt to 30 nt). Moreover, prokaryotic and eukaryotic AGOs are structurally similar to RNase H, possibly enabling DNA/RNA duplex formation for DNA processing (39) whereas, in Tetrahymena thermophile, AGO-related proteins loaded with Dicerdependent sRNAs promote physical DNA elimination during macronucleus development (40). Nonetheless, nuclear Ago2 interacts with sRNAs but not DNA following ionizing radiation of human cells (41), suggesting that nuclear Ago-bound nucleic acids may vary depending on the organism and DNA repair process involved.…”

Section: Nuclear Pools Of Ptgs-related Agos and Interactions Of Agos mentioning

confidence: 99%

Small RNA-mediated repair of UV-induced DNA lesions by the DNA DAMAGE-BINDING PROTEIN 2 and ARGONAUTE 1

Schalk

Cognat

Graindorge

et al. 2017

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

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As photosynthetic organisms, plants need to prevent irreversible UV-induced DNA lesions. Through an unbiased, genome-wide approach, we have uncovered a previously unrecognized interplay between Global Genome Repair and small interfering RNAs (siRNAs) in the recognition of DNA photoproducts, prevalently in intergenic regions. Genetic and biochemical approaches indicate that, upon UV irradiation, the DNA DAMAGE-BINDING PROTEIN 2 (DDB2) and ARGONAUTE 1 (AGO1) of Arabidopsis thaliana form a chromatin-bound complex together with 21-nt siRNAs, which likely facilitates recognition of DNA damages in an RNA/DNA complementary strand-specific manner. The biogenesis of photoproduct-associated siRNAs involves the noncanonical, concerted action of RNA POLYMERASE IV, RNA-DEPENDENT RNA POLYMERASE-2, and DICER-LIKE-4. Furthermore, the chromatin association/dissociation of the DDB2-AGO1 complex is under the control of siRNA abundance and DNA damage signaling. These findings reveal unexpected nuclear functions for DCL4 and AGO1, and shed light on the interplay between small RNAs and DNA repair recognition factors at damaged sites.

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“…Indeed, intriguingly, in vitro, prokaryotic Agos display a greater affinity for short DNA molecules than for RNA 6 . Most strikingly, bacterial Agos have been lately shown to associate and cleave single-strand DNA in vivo, using both sRNA and DNA fragments as guide molecules 8,11,12 . Furthermore, it has been recently reported that AGO2 interacts with RAD51, a DNA repair factor involved in homologous recombination (HR), and mediates its accumulation at resected DNA damage sites in human cells 13 .…”

Section: Please Scroll Down For Articlementioning

confidence: 99%

“…Among the RNAi components, members of Argonaute (Ago) family of proteins play a fundamental role, acting as the effectors of sRNA-mediated gene silencing 6 . Ago proteins (Agos in brief) are evolutionary conserved in each of the three domains of life; indeed, all eukaryotic genomes, with the exception of S. cerevisiae, and many prokaryotic ones, encode for Agos [6][7][8] . During the last decade, besides their well-established cytoplasmic role in post-transcriptional gene silencing, novel functions for eukaryotic Agos have been described to impact in different ways on gene expression, also by acting in the nucleus 7 .…”

Section: Please Scroll Down For Articlementioning

confidence: 99%

Human nuclear ARGONAUTE 2 interacts in vivo only with small RNAs and not with DNA

Gioia

Fagagna

2015

Cell Cycle

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A Prokaryotic Twist on Argonaute Function

Cited by 26 publications

References 76 publications

Guide-independent DNA cleavage by archaeal Argonaute from Methanocaldococcus jannaschii

Guide-independent DNA cleavage by archaeal Argonaute from Methanocaldococcus jannaschii

Small RNA-mediated repair of UV-induced DNA lesions by the DNA DAMAGE-BINDING PROTEIN 2 and ARGONAUTE 1

Human nuclear ARGONAUTE 2 interacts in vivo only with small RNAs and not with DNA

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