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Endogenous short peptides presented in the cyto- and nucleoplasm, are products of specific proteolysis of nuclear proteins in the proteasome. They are short blocks in sequence of amino acid residues with charged side groups and are characterized by a high local concentration of electrostatic charges of opposite signs. The peptides are capable of complementarily binding to specific short sequences of nucleotides in DNA strands. This binding can significantly reduce the strength of proton bonds in DNA double helix structure and thus stimulate the process of chain separation required for genes transcription and replication. The aging of organisms is always followed by the decrease in methylation of the genome. Age-related decrease in methylation of repeated nucleotide sequences in the genome leads to an increase in site-specific binding of short peptides to DNA. In turn, the binding of peptide inhibits the hydrolysis of demethylated DNA regions by endonucleases. The experimental data on the peptide interaction with methylated DNA point to the participation of oligopeptides in the epigenetic regulation of the ageing.

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The methylation patterns of the MET1 gene in organs of Arabidopsis thaliana were studied by Southern blot hybridization of DNA samples hydrolyzed with differentially methylation-sensitive restriction endonucleases. A highly methylated on internal cytosine residue CCGG site was found 1.5 kb upstream of the gene, whereas CCGG sites located in more proximal parts of the 5'-flanking region and the gene itself are essentially unmethylated. This methylation pattern was observed in different organs of plants belonging to two different ecotypes as well as in different transgenic plant lines. The methylation level ofa CCGG site in exon 3 (2.1 kb from the gene's 5'-end) occurred to be variable between different transgenic plant lines and two ecotypes studied. Transcription levels of the MET1 gene vary slightly in organs of wild-type plants without any obvious correlation with its methylation. The transgenic antisense MET1 constructs expressed in plant genome do affect both MET1 methylation and its transcription but again without any obvious correlation. The comparative investigation of transcription levels of different genes of cytosine DNA methyltransferase family MET (MET1, MET2a, MET2b, MET3) and their methylation patterns shows that there may exist some mechanisms defending the most actively transcribed gene MET1 of this family from methylation mediated silencing. In contrast to DRM2 gene we could not find any adenine methylated GATC sites in the MET1 gene.

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Incubation in vitro of rat liver nuclei in the presence of S-adenosyl[methyl-(3)H]methionine ([(3)H] SAM) leads to incorporation of the radioactive label not only into core-histones H3 and H4, but also into linker histone H1. Addition of distamycine A to the incubation medium stimulates label incorporation into histone H1 ~ in 6 times and into histone H3 ~ in 2 times. The presence of distamycine facilitates histone H1 extraction by polyglutamic acid (poly(Glu)) and decreases of UV-induced DNA-histone cross-links formation. These effects give evidence of weakening of H1-chromatin interaction by distamycin to be results of histone H1 position change relative to nucleosome and(or) disturbance of histones H1-H3 interactions so as these histones are exposed to additional methylation.

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In eukaryotic cells, nuclear DNA is subject to enzymatic methylation with the formation of 5-methylcytosine residues, mostly within the CG and CNG sequences. In plants and animals this DNA methylation is species-, tissue-, and organelle-specific. It changes (decreases) with age and is regulated by hormones. On the other hand, genome methylation can control hormonal signal. Replicative and post-replicative DNA methylation types are distinguished. They are mediated by multiple DNA methyltransferases with different site-specificity. Replication is accompanied by the appearance of hemimethylated DNA sites. Pronounced asymmetry of the DNA strand methylation disappears to the end of the cell cycle. A model of methylation-regulated DNA replication is proposed. DNA methylation controls all genetic processes in the cell (replication, transcription, DNA repair, recombination, and gene transposition). It is the mechanism of cell differentiation, gene discrimination and silencing. In animals, suppression of DNA methylation stops development (embryogenesis), switches on apoptosis, and is usually lethal. Disruption of DNA methylation pattern results in the malignant cell transformation and serves as one of the early diagnostic features of carcinogenesis. In malignant cell the pattern of DNA methylation, as well as the set of DNA methyltransferase activities, differs from that in normal cell. In plants inhibition of DNA methylation is accompanied by the induction of seed storage and florescence genes. In eukaryotes one and the same gene can be simultaneously methylated both at cytosine and adenine residues. It can be thus suggested, that the plant cell contains at least two different, and probably, interdependent systems of DNA methylation. The first eukaryotic adenine DNA methyltransferase was isolated from plants. This enzyme methylates DNA with the formation of N6-methyladenine residues in the sequence TGATCA (TGATCA-->TGm6ATCA). Plants possess AdoMet-dependent endonucleases sensitive to DNA methylation. It seems likely that plants, similarly to microorganisms and some lower eukaryotes, have restriction--modification (R--M) system. Discovery of the essential role of DNA methylation in regulation of genetic processes served as a principle basis and materialization of epigenetics and epigenomics.

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In two-day rat pups, the histone H1 content in the brain chromatin was higher than in the liver chromatin, as compared to histone of the nucleosome core. The H1 content in the brain chromatin decreased with the age, while in the liver chromatin it increased. At the same time, in the adult brain chromatin bound to the nuclear envelope, a high level of H1 characteristic of chromatin of the newborn rats was preserved, while in a similar chromatin of the adult liver, the H1 content increased, but still remained less than in the chromatin not bound to the nuclear envelope. In both organs, the composition and quantitation of H1 subfractions were different in chromatins bound and not bound to the nuclear envelope. The chromatin from the liver and brain bound to the nuclear envelope differed also in the composition and quantitation of minor acid soluble proteins. In the presence of the antioxidant ionol, the 5-methylcytosine content in DNA of chromatin of the rat liver bound to the nuclear envelope increased while in the chromatin not bound to the nuclear envelope, it remained unchanged. Thus the chromatins bound and not bound to the nuclear envelope differ in the composition and mount of acid soluble proteins, including histone H1, the contents of these proteins in bound and not bound chromatin are different and change with the age in different ways. The antioxidant ionol affects differently the methylation of bound and not bound chromatin.

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The dynamics of changes in total proteolytic activity and activities of various groups of proteases in the coleoptiles of 3- to 12-day-old wheat seedlings grown in light with and without antioxidant BHT (2,6-di-tert-butyl-4-methylphenol) was studied. It was established that the specialized proteases that easily hydrolyze specific synthetic substrates and the enzymes actively hydrolyzing histone H1 dominate in young coleoptiles of 3- to 4-day-old seedlings. Proteases that degrade equally well the majority of the studied substrates are accumulated in the cells of old coleoptiles of 11- to 12-day-old seedlings. Under the effect of BHT, the plants grown in light (in comparison with etiolated seedlings) demonstrated a somewhat changed dynamics of proteolytic activity in young coleoptiles and the disappearance of proteases active toward histone H1. An inhibitory analysis revealed a relative domination of cysteine proteases in young coleoptiles at the initial development stage of seedlings, whereas the fraction of serine proteases markedly increased in old coleoptiles. We presume that the revealed quantitative and qualitative changes in the proteolytic apparatus of the coleoptile cells induced by BHT may be largely responsible for the retardant and geroprotective effect of this antioxidant in plants.

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It was found that sphingomyelin and its enzymatic hydrolysis products, choline and sphingosine, influence the degree of DNA methylation in the reaction of heterologous methylation by methylase EcoRII in vitro. Sphingomyelin was found to be able to was activate (by 20%), sphingosine and choline inhibit methylation. Phosphatidylcholine had no effect on DNA methylation in an in vitro system. The role of lipids in the regulation of gene expression during enzymatic modification (methylation) of DNA is discussed.

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The decrease in neurotransmitter amino acid uptake was observed in rat brain synaptosomes incubated with S-adenosyl-L-methyl-methionine. The inhibitory effect of neurotransmitter as a consequence of methylation of synaptic membrane is more pronounced in stimulatory transmitter amino acids. The effect of phospholipids on amino acid uptake in rat brain synaptosomes decreases with age.

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Data on nearest neighbors of 5-methylcytosine residues in eukaryotic DNA were analyzed. It was found that the methylation sites C*G and C*NG may be located in three palindromic families: RYRY, YYRR and YYRYRR. It was shown that all the methylated sequences in these DNAs can appear as a result of 5-MeC----T substitutions, proceeding by deamination of 5-MeC residues in the "prototype" sites of each of these families: G*CGC*, C*C*GG and C*C*GCGG. The multiplicity of DNA-methyltransferases in eukaryotic cells and their evolutionary origin from prokaryotic type II methylases, recognizing analogous sequences in DNA, are discussed.

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The effect of the salivary gland secretion and dialysable part of the homogenate of the leeches Hirudo medicinalis on the methylation of DNA in the rat liver after the intraperitoneal injection and perfusion of isolated liver has been analysed. The maximum concentration of 5-methylcytosine is observed 1 h later the injection of preparations: for the salivary gland secretion the increase is 39%, for the dialysate of leech homogenate is 28%. The 5-methylcytosine content increases on 28% after the perfusion of isolated liver with the leech saliva and after the dialysate of the leech homogenate--on 20%. No other changes in DNA content is observed. It is suggested that the DNA-methylation of the liver cells is due to the penetration of biologically active substances produced by the medical leech into the cell-targets accompanied by the forming of corresponding ligand-receptor complexes.

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6-Benzylaminopurine (6-BAP) (1 mg/ml) does not influence the growth of E. coli B cell cultures or the number of [8-14C] labeled N6-methyladenine (m6A) residues in the total DNA [(100.m6A/(A x m6A) = 1.7]. The growth of bacterial cells in the presence of adenine or cytokinins (6-BAP, kinetin, zeatin) (1 mg/ml) was unaccompanied by significant changes in the intracellular content of plasmid pBR 322. The mode of restriction by endonuclease Cfu I hydrolyzing the Gm6ATC site of plasmids pBR 322 from E. coli B cells grown in the presence of adenine or one of the above-mentioned cytokinins is identical. These plasmids also have identical restriction products Mbo I or Sau 3AI. Thus, the cytokinins under study do not markedly affect the methylation of adenine residues in total DNA of E. coli B cell cultures and the GATC sequence in plasmids pBR 322 isolated from these cells.

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From nucleotide sequences of mitochondrial and chloroplast genes the probable frequency of the CpG----TpG + CpA substitutions was determined. These substitutions may indicate the level of prior DNA methylation. It was found that the level of this methylation is significantly lower in mitochondrial DNA (mtDNA) and chloroplast DNA (chDNA) than in nuclear DNA (nDNA) of the same species. The species (taxon) specificity of mtDNA and chDNA methylation was revealed. A correlation was found between the level of CpG methylation in nDNA, and mtDNA and chDNA in different organisms. It is shown that cytosine residues in CpG were not subjected to significant methylation in the fungi and invertebrate mtDNA and also in the algae chDNA. In contrast, the vertebrate mtDNA bears the impress of CpG-supression, which is confirmed by direct data on methylation of these DNA. Here the first data on the possible enzymatic methylation of the plant mtDNA and chDNA were obtained. It was shown that the degree of CpG-suppression in the 5S rRNA nuclear genes of lower and higher plants is significantly higher in the chloroplast genes of 4,5S and 5S rRNA. From data on pea chDNA hydrolysis with MspI and HpaII it was established that in CCGG sequences this DNA is not methylated. The role of DNA methylation in increasing the mutation rate and in accelerating the evolutionary rates of vertebrate mtDNA is discussed.

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On ultrathin liver sections, condensed chromatin of rat hepatocyte nuclei was studied. The animals were 2 days, 6 and 28 months old. It was established that neither maturation nor senescence were accompanied by the change of the relative square of total condensed chromatin. Relative square of perimembrane, nucleoplasmic and perinucleolar condensed chromatin were non changed either. Intensively proliferating hepatocytes of nascent animals were characteristic of maximal values of the following parameters (i) the relative length of the perimembrane condensed chromatin boundary with nucleoplasma. (ii) amount of chromatin clumps, (iii) the relative length of the nuclear membrane without condensed chromatin. For mature animals all these parameters are significantly decreased. For old rats as compared with mature ones the following parameters are significantly diminished: (i) the relative length of the perimembrane chromatin boundary with nucleoplasma, (ii) the relative length of the nuclear membrane without condensed chromatin, (iii) the mean square of the nucleolus. So, the known diminishing of the RNA synthesis at senescence is expressed morphologically in margination of condensed chromatin, in smoothing of the condensed chromatin surface responsible for the hnRNA synthesis and also in diminishing of the nucleolus responsible for the rRNA synthesis.

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The frequency of neighboring base pairs in nucleotide sequences of over 80 genes and pseudogenes of low molecular weight RNAs U1-U8, 4.5S and 7S in different eukaryotes was determined. The probable frequency of CpG----TpG + CpA substitutions, caused as a result of the deamination of 5-methylcytosine residues in DNA, was determined. It was found that the genes of small RNAs do not reveal a single level of CpG methylation for all the species studied. In most cases CpG in the genes of U1, 4.5S and 7S RNA are methylated, whereas in the genes of U2-U6-RNA these sites must have never been subjected to methylation. Nearly all the investigated pseudogenes of different small RNAs are strongly methylated due to a considerable lack of CpG. It was established that CpG----TpG + CpA transitions may amount to as much third of all the mutations accumulated in the genes of the same RNAs in different species. Such transitions in pseudogenes may account for 40% of all the nucleotide substitutions. This disproportionately high level of mutations in CpG dinucleotides (3-5-fold higher than in other DNA dupletes) must be the direct result of the methylation of these sites. Consequently, CpG methylation causes a dramatic acceleration of the divergence rate of DNA sequences. It has been concluded that protection of most vital genes against methylation is one of the essential conditions for sustaining the high level of stability of the macromolecular structure and for the reliability of macromolecular functioning in a cell.

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DNA from the livers of 20-day-old rat embryos contains 1.8 mol.% of 5-methylcytosine (m5C), i.e., it is methylated approximately 2-fold as compared with adult (m5C = 1.0 mol.%) and aged (20-month-old; m5C = 0.9 mol.%) animals. 90 min after intraperitoneal injection of adult adrenalectomized rats with hydrocortisone (5 mg per 100 g of body weight), the m5C content in liver DNA becomes 0.7 mol.%, i.e., it decreases by about 30% against control values. It was assumed that hydrocortisone induces enzymatic demethylation of m5C residues in rat liver DNA. A comparative study of competition between the DNA under study and DNA-cellulose for the binding to highly purified (approximately 2000-fold) glucocorticoid-receptor complexes (GRC) of rat liver revealed that the highly methylated rat embryo liver DNA bind the activated [3H]triamcinolone-receptor complexes with a lower (approximately 1.8-2 times) efficiency than do the DNA from the livers of adult and aged rats, including the hydrocortisone-induced ones. An inverse correlation was observed between the m5C level in rat liver DNA and the ability of the latter to bind GRC. After in vitro methylation of liver DNA of adult rats in the presence of S-adenosylmethionine by DNA-methylase from blood lymphocytes of suffering from chronic lympholeukosis cows, the GRC-receptor ability of these DNA was practically lost. Hence, GRC of rat liver can recognize sequences that are recognizeable by animal DNA-methylase. The observed modulations in the RNA-methylation upon ageing and those induced by hydrocortisone can control the effectiveness of glucocorticoid hormone action on gene expression in ontogenesis and at various inducible functional states of the organism.

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From nucleotide sequences of more than 70 histones genes in 15 species of eucaryotes the probable frequency was determined for CpG----TpG + CpA substitutions, occurring as a result of deamination of 5-methylcytosine residues in DNA. It was found that histone genes differ in the character of CpG methylation with respect to the species studied and may be divided into three groups differing in the value of CpG suppression. In one of them, M-, CpG dinucleotides must have not been methylated throughout the existence of these genes; in another, M+, nearly every other CpG has undergone transition. In the third group, M +/-, no more than 20% of CpG have steadily undergone methylation (and mutation). The CpG deficiency in M+ and M +/- histone genes is in general proportional to the level of methylation of total DNA in different species. It has been noted that the genes of different core histones in the same organism are characterized, as a rule, by the same type of CpG methylation and belong to the same group. Genes H1 and H5 show a higher level of CpG suppression and thus have a higher degree of methylation than the genes of core histones from the same organism. The most conserved among the histone genes, those for H3 and H4 in particular, must have not been methylated in the majority of the species studied. The distribution of methylated and non-methylated spacers and coding sequences of histone genes of man, mouse, hen and yeast reveals a mosaic pattern. It has been found that 5'-flanked regions in most cases are methylated more than respective genes, while the G + C content in them is significantly lower, compared with the coding gene sequences. The absence of methylation in the 5'-regulatory regions does not appear to be mandatory for histone genes. It has been established that the genes of the same histones may differ in the level of methylation even in more or less closely related species. Group M- comprises genes of core histones of man, hen, sea urchin, Drosophila, Neurospora and wheat; group M +/- includes analogous genes of mouse, Xenopus, trout and sea urchins. The results obtained testify against the possible universal involvement of methylation in the regulation of histone gene expression.

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