GLAD-PCR Assay of R(5mC)GY Sites in the Regulatory Region of Tumor-Suppressor Genes Associated with Gastric Cancer.

At early stages of carcinogenesis, the regulatory regions of some tumor suppressor genes become aberrantly methylated at RCGY sites, which are substrates of DNA methyltransferase Dnmt3. Identification of aberrantly methylated sites in tumor DNA is considered to be the first step in the development of epigenetic PCR test systems for early diagnosis of cancer. Recently, we have developed a GLAD-PCR assay, a method for detecting the R(5mC)GY site in the genome position of interest even at significant excess of DNA molecules with a non-methylated RCGY site in this location.

[Use of site-specific DNA endonucleases in genome-wide studies of human DNA].

During the last decades, site-specific DNA endonucleases have served as a key instrument to study primary structure of DNA and genetic engineering. Here, we describe examples of these enzyme uses in genome-wide analysis of human DNA including restriction endonucleases involvement during sample preparation for sequencing using NGS devices, as well as visualization of cleavage of DNA repeats by endonucleases. The first studies on application of DNA endonucleases in the rapidly developing area of epigenetic analysis of genomes, which is facilitated by the recent discovery of a new class of enzymes, 5-methylcytosinedependent site-specific DNA endonucleases, are of special interest.

Cloning and Characterization of a New Site-Specific Methyl-Directed ElmI Endonuclease Recognizing and Cleaving C5-methylated DNA Sequence 5'-G(5mC)^NG(5mC)-3'.

Putative open reading frames of MD-endonucleases have been identified in Enterobacteria genomes as a result of the search for amino acid sequences homologous to MD-endonuclease BisI. A highly conserved DNA primary structure of these open reading frames in different genera of Enterobacteria (Escherichia, Klebsiella and Cronobacter) has allowed researchers to create primers for PCR screening, which was carried out on Enterobacteria DNA collected from natural sources. The DNA fragment, about 440 bp in length, was amplified by use of the genomic DNA of a wild E.

[Application of GLAD-PCR analysis for the methylation sites detection in the regulatory areas of tumor-suppressor genes ELMo1 and EsR1 in colorectal cancer].

Aberrant methylation of regulation regions of tumorsuppressor genes is showed for many cancer diseases. In course of this modification an enzyme DNMT3 methylates RCGY sites in CpG-islands of regulation regions producing R(5mC)GY sites. Earlier we developed GLAD-PCR assay to determine R(5mC)GY site in a definite position of human genome.

Herd immunity and fatal cases of influenza among the population exposed to poultry and wild birds in Russian Asia in 2013-2014.

In total 1,525 blood serum samples were collected in October, 2013 in Russian Asia from people who reside in territories that are at high risk for emergence of influenza viruses with pandemic potential. Presence of antibodies to influenza viruses in the sera was tested in hemagglutination inhibition test. None of the samples produced positive results with the antigens A/H5 and A/H7.

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

Background: Previously, 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.

[Recombinant DNA-methyltransferase M1.Bst19I from Bacillus stearothermophilus 19: purification, propeties and amino acids sequence analysis].

The M1.Bst19I DNA-methyltransferase gene from restriction-modification system Bst19I (recognition sequence 5'-GCATC-3') in Bacillus stearothermophilus 19 has been cloned in the expressing vector pJW, that carries a tandem of thermo inducible promoters P(R)/P(L) from phage lambda. Highly purified enzyme has been isolated by chromatography on various resins from E.

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

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 gamma-satellite DNA. Only small portion of mouse gamma-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 gamma-satellite DNA.

A physical map of human Alu repeats cleavage by restriction endonucleases.

Background: Alu repetitive elements are the abundant sequences in human genome. Diversity of DNA sequences of these elements makes difficult the construction of theoretical patterns of Alu repeats cleavage by restriction endonucleases. We have proposed a method of restriction analysis of Alu repeats sequences in silico.

[The Sse9I restriction-modification system: organization of genes and comparative analysis of proteins structures].

A nucleotide sequence was established for the full-length Sporosarcina species 9D operon coding for enzymes of type II restriction-modification system Sse9I. These enzymes recognize the tetranucleotide DNA sequence 5'-AATT-3'. The operon was shown to consist of three genes that are situated with the order: sse9IC-sse9IR-sse9IM and are transcribed in the same direction.

[Gene cloning, comparative analysis of the protein structures from Fsp4HI restriction-modification system and biochemical characterization of the recombinant DNA methyltransferase].

Genes coding for the restriction-modification system Fsp4HI, recognizing the sequence 5'-GCNGC-3' have been cloned in Escherichia coli ER2267 cells and its primary structure has been determined. This RM system consists of two genes: the DNA-methyltransferase gene which is followed by the restriction endonuclease gene in the same direction. The analysis of amino acid sequences of the proteins showed that M.

[Determination and analysis of the primary structure of NM.BstSEI operone from Bacillus stearothermophilus SE-589 which produces N.BstSEI site-specific nickase].

Nucleotide sequence of Bacillus stearothermophilus SE-589 DNA fragment which includes an operone for site-specific NM-system with a gene for BstSEI nickase has been determined. Analysis of the regions adjacent to nickase gene has revealed two genes encoding DNA methyltransferases, which belong to different classes. Three genes which form system operone are separated with short open reading frames (ORFs).

Isolation and characterization of biochemical properties of DNA methyltransferase FauIA modifying the second cytosine in the nonpalindromic sequence 5'-CCCGC-3'.

A gene encoding DNA methyltransferase (methylase) FauIA of the restriction-modification system FauI from Flavobacterium aquatile (recognizing sequence 5'-CCCGC-3') was cloned in pJW vector. The latter was used for transformation of E. coli RRI cells followed by subsequent thermoinduction and biomass elaboration.

M.BstF5I-2 and M.BstF5I-4 DNA methyltransferases from BstF5I restriction-modification system of Bacillus stearothermophilus F5.

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.

[The unique FauI restriction-modification system: cloning and comparative analysis of protein structure].

The nucleotide sequence was established for the full-length Flavobacterium aquatile operon coding for the FauI restriction-modification system. The operon is unusual in structure and has the gene order control protein gene-DNA methyltransferase A gene-restriction endonuclease gene-DNA methyltransferase B gene, other than in the known analogs. The genes are similarly oriented and overlap.

[Comparison of the homologous SfeI and LlaBI restriction-modification systems].

A fragment containing the SfeI restriction-modification system (RMS) operon was cloned from a Streptococcus faecalis SE72 plasmid. Nucleotide sequence analysis revealed its high (99.2%) homology to the operon for Lactococcus lactis subsp.

BtrI, a novel restriction endonuclease, recognises the non-palindromic sequence 5'-CACGTC(-3/-3)-3'.

The recognition sequence and cleavage positions of a new restriction endonuclease BTR:I isolated from Bacillus stearothermophilus SE-U62 have been determined. BTR:I belongs to a rare type IIQ of restriction endonucleases, which recognise non-palindromic nucleotide sequences and cleave DNA symmetrically within them.

PsiI, a novel restriction endonuclease recognizing the DNA sequence 5'-TTA downward arrow TAA-3'.

PsiI, a novel restriction endonuclease produced by the bacterial strain Pseudomonas sp. SE-G49, has been isolated and characterized. The enzyme cleaves DNA in the middle of its palindromic recognition sequence 5'-TTA downward arrow TAA-3'.

Cloning and characterization of the gene encoding M.FauI DNA methyltransferase.

The enzymes of the FauI restriction-modification system from the Flavobacterium aquatile strain recognize the non-palindromic sequence 5'-CCCGC-3'/3'-GG-GCG-5'. We have cloned the gene encoding the DNA modifying component of this system and determined its nucleotide sequence. The deduced amino acid sequence contains ten conserved motifs characteristic for [cytosine-5] DNA methyltransferases.

[AccBSI - a novel restriction endonuclease from Acinetobacter calcoaceticus BS].

The recognition site of a new restriction endonuclease from Acinetobacter calcoaceticus BS was determined. This is a nonpalindromic sequence. AccBSI restrictase cleaves DNA chains in the middle of the recognition sequence; therefore, ligation of its digestion fragments restored AccBSI recognition sites and generated palindromic sequences recognized by SacI and SacII restrictases.

BstAPI, an ApaBI isoschizomer, cleaves DNA at 5'-GCANNNN NTGC-3'.

Cleavage positions of Bst API, a new restriction endonuclease (ENase) that recognizes palindromic interrupted DNA sequence, have been determined. Recognition sequences and cleavage sites comparison shows that Bst API shares similarity with a number of type II restriction enzymes.

Primary structure and strand specificity of BstF5I-1 DNA methyltransferase which recognizes 5'-GGATG-3'.

The gene for BstF5I-1 DNA-methyltransferase (MTase) from Bacillus stearothermophilus F5 (a FokI isoschizomer, recognizing 5'-GGATG-3') was cloned and its nucleotide (nt) sequence was determined. Analysis of deduced amino acid (aa) sequence shows that M x BstF5I-1 belongs to D21 class of MTases and has a little homology with M x FokI. M x BstF5I-1 modifies only the upper strand of recognition sequence (5'-GGATG-3').