D. A. Gonchar scite author profile

D. A. Gonchar

5Publications

49Citation Statements Received

69Citation Statements Given

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Institute of Molecular Biology and Biophysics, Russian Academy of Sciences

Publications

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Medium-sized tandem repeats represent an abundant component of the Drosophila virilis genome

Abdurashitov¹,

Gonchar²,

Chernukhin³

et al. 2013

BMC Genomics

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BackgroundPreviously, we developed a simple method for carrying out a restriction enzyme analysis of eukaryotic DNA in silico, based on the known DNA sequences of the genomes. This method allows the user to calculate lengths of all DNA fragments that are formed after a whole genome is digested at the theoretical recognition sites of a given restriction enzyme. A comparison of the observed peaks in distribution diagrams with the results from DNA cleavage using several restriction enzymes performed in vitro have shown good correspondence between the theoretical and experimental data in several cases. Here, we applied this approach to the annotated genome of Drosophila virilis which is extremely rich in various repeats.ResultsHere we explored the combined approach to perform the restriction analysis of D. virilis DNA. This approach enabled to reveal three abundant medium-sized tandem repeats within the D. virilis genome. While the 225 bp repeats were revealed previously in intergenic non-transcribed spacers between ribosomal genes of D. virilis, two other families comprised of 154 bp and 172 bp repeats were not described. Tandem Repeats Finder search demonstrated that 154 bp and 172 bp units are organized in multiple clusters in the genome of D. virilis. Characteristically, only 154 bp repeats derived from Helitron transposon are transcribed.ConclusionUsing in silico digestion in combination with conventional restriction analysis and sequencing of repeated DNA fragments enabled us to isolate and characterize three highly abundant families of medium-sized repeats present in the D. virilis genome. These repeats comprise a significant portion of the genome and may have important roles in genome function and structural integrity. Therefore, we demonstrated an approach which makes possible to investigate in detail the gross arrangement and expression of medium-sized repeats basing on sequencing data even in the case of incompletely assembled and/or annotated genomes.

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GlaI digestion of mouse γ-satellite DNA: study of primary structure and ACGT sites methylation

Abdurashitov¹,

Chernukhin²,

Gonchar³

et al. 2009

BMC Genomics

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Background: Patterns of mouse DNA hydrolysis with restriction enzymes are coincided with calculated diagrams of genomic DNA digestion in silico, except presence of additional bright bands, which correspond to monomer and dimer of γ-satellite DNA. Only small portion of mouse γ-satellite DNA sequences are presented in databases. Methyl-directed endonuclease GlaI cleaves mouse DNA and may be useful for a detailed study of primary structure and CG dinucleotides methylation in γ-satellite DNA.

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Complete Genome Sequence Analysis of Bacillus subtilis T30

Boitano

Clark

et al. 2015

Genome Announc

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Chernukhin

Golikova

Gonchar

et al. 2003

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The BstF5I restriction-modification system from Bacillus stearothermophilus F5 includes four site-specific DNA methyltransferases, thus differing from all known restriction-modification systems. Here we demonstrated for the first time that one bacterial cell can possess two pairs of methylases with identical substrate specificities (methylases BstF5I-1 and BstF5I-3 recognize GGATG, whereas methylases BstF5I-2 and BstF5I-4 recognize CATCC) that modify adenine residues on both DNA strands. Different chromatographic methods provide homogenous preparations of methylases BstF5I-2 and BstF5I-4. We estimated the principal kinetic parameters of the reaction of transfer of methyl group from the donor S-adenosyl-L-methionine to the recognition site 5;-CATCC-3; catalyzed by BstF5I-2 and BstF5I-4 DNA [N6-adenine]-methyltransferases from the BstF5I restriction-modification system.

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Abdurashitov

Okhapkina²,

Нетесова

et al. 2003

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D. A. Gonchar

Medium-sized tandem repeats represent an abundant component of the Drosophila virilis genome

GlaI digestion of mouse γ-satellite DNA: study of primary structure and ACGT sites methylation

Complete Genome Sequence Analysis of Bacillus subtilis T30

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