Anton Kuzmenko scite author profile

Argonaute (Ago) proteins are key players in RNA interference in eukaryotes, where they function as RNA-guided RNA endonucleases. Prokaryotic Argonautes (pAgos) are much more diverse than their eukaryotic counterparts but their cellular functions and mechanisms of action remain largely unknown. Some pAgos were shown to use small DNA guides for endonucleolytic cleavage of complementary DNA in vitro . However, previously studied pAgos from thermophilic prokaryotes function at elevated temperatures, which limits their potential use as a tool in genomic applications. Here, we describe two pAgos from mesophilic bacteria, Clostridium butyricum (CbAgo) and Limnothrix rosea (LrAgo), that act as DNA-guided DNA nucleases at physiological temperatures. In comparison with previously studied pAgos, CbAgo and LrAgo do not show strong preferences for the 5′-nucleotide in guide DNA and can use not only 5′-phosphorylated but also 5′-hydroxyl DNA guides. Both CbAgo and LrAgo can tolerate guide/target mismatches in the seed region, but are sensitive to mismatches in the 3′-guide region. Both pAgos can perform programmable endonucleolytic cleavage of double-stranded DNA substrates, showing enhanced activity at AT-rich regions and at elevated temperatures. The biochemical characterization of mesophilic pAgo proteins paves the way for their use for DNA manipulations both in vitro and in vivo .

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Genome-wide DNA sampling by Ago nuclease from the cyanobacterium Synechococcus elongatus

Olina

Kuzmenko

Ninova

et al. 2020

RNA Biology

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A programmable pAgo nuclease with universal guide and target specificity from the mesophilic bacterium Kurthia massiliensis

Kropocheva

Kuzmenko

Aravin

et al. 2021

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Argonaute proteins are programmable nucleases that are found in both eukaryotes and prokaryotes and provide defense against invading genetic elements. Although some prokaryotic argonautes (pAgos) were shown to recognize RNA targets in vitro, the majority of studied pAgos have strict specificity toward DNA, which limits their practical use in RNA-centric applications. Here, we describe a unique pAgo nuclease, KmAgo, from the mesophilic bacterium Kurthia massiliensis that can be programmed with either DNA or RNA guides and can precisely cleave both DNA and RNA targets. KmAgo binds 16–20 nt long 5′-phosphorylated guide molecules with no strict specificity for their sequence and is active in a wide range of temperatures. In bacterial cells, KmAgo is loaded with small DNAs with no obvious sequence preferences suggesting that it can uniformly target genomic sequences. Mismatches between the guide and target sequences greatly affect the efficiency and precision of target cleavage, depending on the mismatch position and the nature of the reacting nucleic acids. Target RNA cleavage by KmAgo depends on the formation of secondary structure indicating that KmAgo can be used for structural probing of RNA. These properties of KmAgo open the way for its use for highly specific nucleic acid detection and cleavage.

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Anton Kuzmenko

DNA targeting and interference by a bacterial Argonaute nuclease

Programmable DNA cleavage by Ago nucleases from mesophilic bacteria Clostridium butyricum and Limnothrix rosea

Genome-wide DNA sampling by Ago nuclease from the cyanobacterium Synechococcus elongatus

A programmable pAgo nuclease with universal guide and target specificity from the mesophilic bacterium Kurthia massiliensis

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