Elena M. Ibryashkina scite author profile

Background: The majority of experimentally determined crystal structures of Type II restriction endonucleases (REases) exhibit a common PD-(D/E)XK fold. Crystal structures have been also determined for single representatives of two other folds: PLD (R.BfiI) and half-pipe (R.PabI), and bioinformatics analyses supported by mutagenesis suggested that some REases belong to the HNH fold. Our previous bioinformatic analysis suggested that REase R.Eco29kI shares sequence similarities with one more unrelated nuclease superfamily, GIY-YIG, however so far no experimental data were available to support this prediction. The determination of a crystal structure of the GIY-YIG domain of homing endonuclease I-TevI provided a template for modeling of R.Eco29kI and prompted us to validate the model experimentally.

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Oligomeric Structure Diversity within the GIY-YIG Nuclease Family

Ibryashkina

Sasnauskas²,

Solonin

et al. 2009

Journal of Molecular Biology

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Protein NCRII‐18: the role of gene fusion in the molecular evolution of restriction endonucleases

2017

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This work first constructed the fusion protein NCRII-18 by fusing the restriction endonuclease Ecl18kI gene and part of the gene coding for the N-terminal domain of the endonuclease EcoRII. The fusion of the EcoRII N-terminal domain leads to a change in the properties of the recombinant protein. Unlike Ecl18kI, which made the basis of NCRII-18, the fusion protein predominantly recognizes the CCWGG sites, having lost the capability of interacting with the CCSGG sites. Experimental data support the hypothesis of a close evolutionary relationship between type IIE and IIP restriction endonucleases via a recombination between domains with active site structure and elements for recognition with domains responsible for recognition of DNA sequences.

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An alternative approach to study the enzymatic specificities of the CfrBI restriction–modification system

Zakharova

Beletskaya

Ibryashkina

et al. 2019

Heliyon

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Restriction–modification systems (RMS) are the main gene-engineering tools and a suitable model to study the molecular mechanisms of catalysis and DNA–protein interactions. Research into the catalytic properties of these enzymes, determination of hydrolysis and DNA-methylation sites remain topical. In our previous work we have cloned and sequenced the CfrBI restriction–modification system (strain Citrobacter freundii) , which recognizes the nucleotide sequence 5′-CCWWGG-3′. In this article we describe the cloning of the methyltransferase and restriction endonuclease genes (gene encoding CfrBI DNA methyltransferase ( cfrBIM) and gene encoding CfrBI restriction endonuclease ( cfrBIR) ) separately to obtain strains overproducing the enzymes of this system. His 6 -CfrBI, which had been purified to homogeneity, was used to establish the DNA-hydrolysis point in its recognition site. CfrBI was shown to cleave DNA after just the first 5′C within the recognition site and then to generate 4-nt 3′ cohesive ends (5′-C/CWWGG-3′). To map the site of methylation by M.CfrBI, we exploited the fact that the Cfr BI site partially overlaps with the recognition sites of the well-documented enzymes KpnI and ApaI. The M.CfrBI- induced hemimethylation of the internal C residue of the ApaI recognition sequence (GGGC N4m CC) was observed to block cleavage by ApaI. In contrast, KpnI was able to digest its M.CfrBI-hemimethylated site (GGTA N4m CC). KpnI was used to restrict a fragment of DNA harbouring the CfrBI and KpnI sites, in which the CfrBI site was methylated in vitro by His 6 -M.CfrBI using [ 3 H]-SAM. The subsequent separation of hydrolysis products by electrophoresis and the enumeration of incorporated [H3]-methyl groups in each of the fragments made it possible to determine that external cytosine undergoes modification in the recognition site.

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