Suppression of the Testis-Specific Transcription of the ZBTB32 and ZNF473 Genes in Germ Cell Tumors

The family of genes containing C2H2 zinc finger domains, which has more than 700 members, is one of the largest in the genome. Of particular interest are C2H2 genes with potential tissue-specific transcription, which determine the functional properties of individual cell types, including those associated with pathological processes. The aim of this work was to identify C2H2 family genes with tissue-specific transcription and analyze changes in their activity during tumor progression. To search for these genes, we used four databases containing data on gene transcription in human tissues obtained by RNA-Seq analysis. The analysis showed that, although the major part of the C2H2 family genes is transcribed in virtually all tissues, a group of genes has tissue-specific transcription, with most of the transcripts being found in the testis. After having compared all four databases, we identified nine such genes. The testis-specific transcription was confirmed for two of them, namely ZBTB32 and ZNF473, using quantitative PCR of cDNA samples from different organs. A decrease in ZBTB32 and ZNF473 transcription levels was demonstrated in germ cell tumors. The studied genes can serve as candidate markers in germ cell tumors.

Correlation between Expression of KLF5 and ZEB1 Transcription Factor Genes in Pancreatic Cancer

The mRNA content of the transcription factors KLF5 and ZEB1 was studied in pancreatic tumor tissues and in fetal and normal pancreas. Transcription of these factors was not high and similar in normal and fetal pancreatic tissues but greatly increased in the pancreatic ductal adenocarcinoma tissues. A significant positive correlation between the KLF5 and ZEB1 transcription levels in the pancreatic tumor tissues was observed.

Expression of transcription factor genes in cell lines corresponding to different stages of pancreatic cancer progression

The expression level of six transcription factor genes and the content of their protein products in five pancreatic cancer cell lines with parallel control of expression of three marker genes reflecting epithelial or mesenchymal state of cells was investigated. Cell lines MIA PaCa-2 and Capan-2 represented the best models of quasi-mesenchymal and epithelial, respectively, types of progression of the pancreatic ductal adenocarcinoma, according to the content of E-cadherin and vimentin and the expression of KLF5 and ZEB1 transcription factors.

In trans promoter activation by enhancers in transient transfection

Earlier, it was reported that the strong cytomegalovirus enhancer can activate the cytomegalovirus promoter in trans, i.e. as a separate plasmid co-transfected with a promoter-reporter gene construct. Here we demonstrate that the ability of enhancers to activate promoters in trans in transient transfection experiments is a property of not only viral regulatory elements but also of various genomic enhancers and promoters. Enhancer-promoter activation in trans is promoter- and cell type-specific, and accompanied by physical interaction between promoter and enhancer as revealed by chromosome conformation capture assays. Thus, promoter activation in transient co-transfection of promoters and enhancers shares a number of important traits with long-distance promoter activation by enhancers in living cells and may therefore serve as a model of this fundamental cellular process.

Binding of Protein Factor CTCF within Chicken Genome Alpha-Globin Locus

A systematic search for DNA fragments containing potential CTCF transcription factor binding sites in the chicken alpha-globin domain and its flanking regions was performed by means of the two-dimension electrophoretic mobility shift assay. For the alpha-globin domain fragments selected, the occupancy by the CTCF in erythroid and lymphoid chicken cells was tested by chromatin immunoprecipitation. Only one of 13 DNA fragments capable of CTCF binding in vitro was efficiently bound to this protein in vivo in erythroid cells, and somewhat less efficiently - in lymphoid cells. So, binding of CTCF to the DNA fragment in vitro in most cases does not mean that this fragment will be occupied by CTCF in the cell nucleus. Yet, CTCF binding in vivo, as a rule, is accompanied by the binding of the protein to this DNA region in vitro. During the erythroid differentiation, no significant changes in CTCF binding to the DNA fragments studied were detected.

Binding of Protein Factor CTCF within Chicken Genome Alpha-Globin Locus

A systematic search for DNA fragments containing potential CTCF transcription factor binding sites in the chicken alpha-globin domain and its flanking regions was performed by means of the two-dimension electrophoretic mobility shift assay. For the alpha-globin domain fragments selected, the occupancy by the CTCF in erythroid and lymphoid chicken cells was tested by chromatin immunoprecipitation. Only one of 13 DNA fragments capable of CTCF binding in vitro was efficiently bound to this protein in vivo in erythroid cells, and somewhat less efficiently - in lymphoid cells. So, binding of CTCF to the DNA fragment in vitro in most cases does not mean that this fragment will be occupied by CTCF in the cell nucleus. Yet, CTCF binding in vivo, as a rule, is accompanied by the binding of the protein to this DNA region in vitro. During the erythroid differentiation, no significant changes in CTCF binding to the DNA fragments studied were detected.

Expression of chicken CTCF gene in COS-1 cells and partial purification of CTCF protein

The chicken gene for transcription factor CTCF was expressed in COS-1 mammalian cells. The CTCF protein containing polyhistidine tag was partially purified using metallo-affinity and ion-exchange chromatography. The expressed protein localized in the cell nucleus and was shown to be functionally active in the electrophoretic mobility shift assay and specifically interacted with anti-CTCF antibodies.

Assay of insulator enhancer-blocking activity with the use of transient transfection

We used a transient transfection of cultured cells with linearized plasmids to analyze the enhancer-blocking activity of potential insulators including the standard cHS4 chicken beta-globin insulator and several DNA fragments selected from the human genome sequence. About 60-80% of the potential insulators do reveal the enhancer-blocking activity when probed by the transient transfection assay. The activity of different sequences is characterized by certain tissue specificity and by dependence on the orientation of the fragments relative to the promoter. Thus, the transfection model may be used for quantitative analysis of the enhancer-blocking activity of the potential insulators.

[Affinity capture of specific DNA fragments with the use of short synthetic sequences]

The ability of short peptide nucleic acid (PNA) oligomers and oligonucleotides containing modified residues of 5-methylcitidine, 2-aminoadenosine and 5-propynyl-2'-deoxyuridine (strong binding oligonucleotides, SBO) to affinity capture the target double-stranded DNA fragment from mixture by means of the end invasion was compared. Both types of probes were highly effective at the conditions used. The SBO-based probes may represent a handy and easily prepared alternative to PNA for selection of target DNA fragments from mixtures.

Human PSENEN and U2AF1L4 genes are concertedly regulated by a genuine bidirectional promoter

Head-to-head genes with a short distance between their transcription start sites may constitute up to 10% of all genes in the genomes of various species. It was hypothesized that this intergenic space may represent bidirectional promoters which are able to initiate transcription of both genes, but the true bidirectionality was proved only for a few of them. We present experimental evidence that, according to several criteria, a 269 bp region located between the PSENEN and U2AF1L4 human genes is a genuine bidirectional promoter regulating a concerted divergent transcription of these genes. Concerted transcription of PSENEN and U2AF1L4 can be necessary for regulation of T-cell activity.

Functional dissection of an enhancer-like element located within the second intron of the human U2AF1L4 gene

A detailed functional and evolutionary analysis of an enhancer element of the human genome (enhancer 12) located in the second intron of the U2AF1L4 gene, which we identified earlier, is presented. Overlapping fragments of the studied genome region were analyzed for enhancer activity, and the site responsible for the activity of this element was identified using transient transfections of HeLa cells. Comparison of the enhancer 12 sequence with orthologous sequences from seven primate species revealed the existence of evolutionarily conserved sequences within this element. One of the identified conservative regions is likely responsible for the enhancer activity and is able to specifically interact in vitro with proteins of HeLa cell nuclear extract. The ability of orthologous primate sequences to compete with enhancer 12 for binding with HeLa cell nuclear extract proteins and to enhance the activity of the reporter gene in transient transfection of HeLa cells is demonstrated.

Vertebrate Protein CTCF and its Multiple Roles in a Large-Scale Regulation of Genome Activity

The CTCF transcription factor is an 11 zinc fingers multifunctional protein that uses different zinc finger combinations to recognize and bind different sites within DNA. CTCF is thought to participate in various gene regulatory networks including transcription activation and repression, formation of independently functioning chromatin domains and regulation of imprinting. Sequencing of human and other genomes opened up a possibility to ascertain the genomic distribution of CTCF binding sites and to identify CTCF-dependent cis-regulatory elements, including insulators. In the review, we summarized recent data on genomic distribution of CTCF binding sites in the human and other genomes within a framework of the loop domain hypothesis of large-scale regulation of the genome activity. We also tried to formulate possible lines of studies on a variety of CTCF functions which probably depend on its ability to specifically bind DNA, interact with other proteins and form di- and multimers. These three fundamental properties allow CTCF to serve as a transcription factor, an insulator and a constitutive dispersed genome-wide demarcation tool able to recruit various factors that emerge in response to diverse external and internal signals, and thus to exert its signal-specific function(s).

[Enhancer activity of DNA fragments from FXYD5-COX7A region of human chromosome 19]

The enhancer activity of four previously identified within the one megabase region of human chromosome 19 DNA fragments was investigated. All four fragments had similar tissue-specific profile--maximum of enhancer activity was observed in HEK293 and minimum in HeLa cells. Enhancers obtained had pronounced specificity toward cytomegalovirus promoter compared with SV40 promoter. Functional dissection of one of the fragments (enhancer 14) demonstrated that only its inner 127 b.p. part possessed enhancer activity. The negative regulators, i.e. silencers or insulators are probably located in flanking regions of enhancer 14 and limit its effect on promoter. At the same time, enhancer activity of enhancer 14 depends on its orientation relative to promoter that isn't typical to majority of enhancer elements. Inner 127 b.p. fragment contains 11 transcription factor binding sites; 8 of them are factors that take part in immune system regulation. Enhancer 14 is located 500 b.p. upstream of transcription start site of TYROBP (DAP12) gene that codes for of T-killer cells activator protein and possibly functions as tissue-specific enhancer for this gene.

Identification and mapping of ten new potential insulators in the FXYD5-COX7A1 region of human chromosome 19q13.12

A positive-negative selection system revealed 10 potential insulators able to block enhancer interaction with promoter in the 10(6) bp human chromosome 19 region between genes FXYD5 and COX7A1. Relative positions of insulators and genes are in accord with the hypothesis that insulators subdivide genomic DNA into independently regulated loop domains.

Identification of recognition sites for myc/max/mxd network proteins by a whole human chromosome 19 selection strategy

In this study, we have identified 20 human sequences containing Myc network binding sites in a library from the whole human chromosome 19. We demonstrated binding of the Max protein to these sequences both in vitro and in vivo. The majority of the identified sequences contained one or several CACGTG or CATGTG E-boxes. Several of these sites were located within introns or in their vicinity and the corresponding genes were found to be up- or down-regulated in differentiating HL-60 cells. Our data show the proof of principle for using this strategy in identification of Max target genes, and this method can also be applied for other transcription factors.

[Identification and mapping of cis-regulatory elements within long genomic sequences]

The publication of the human and other metazoan genome sequences opened up the possibility for mapping and analysis of genomic regulatory elements. Unfortunately, experimental data on genomic positions of such sequences as enhancers, silencers, insulators, transcription terminators, and replication origins are very limited, especially at the whole genome level. As most genomic regulatory elements (e.g., enhancers) are generally gene-, tissue-, or cell-specific, the prediction of these elements in silico is often ambiguous. Therefore, the development of high-throughput experimental approaches for identification and mapping of genomic functional elements is highly desirable. In this review we discuss novel approaches to high-throughput experimental identification of mammalian genomes cis-regulatory elements which is a necessary step toward the complete genome annotation.

Methods for identification of epigenetic elements in mammalian long multigenic genome sequences

Epigenetic elements of the genome, i.e. elements that determine stably inherited changes in gene expression without changes in the genomic DNA sequence, are essential tools of genetic regulation in higher eukaryotes. The complete sequencing of the human and other genomes allowed studies to be started on positioning of these elements within long multigenic regions of the genome, which is a prerequisite for a comprehensive functional annotation of genomes. This mini-review considers some recent experimental approaches to the high-throughput identification and mapping of epigenetic elements of mammalian genomes, including the mapping of methylated CpG sites, open and closed chromatin regions, and DNase I hypersensitivity sites.

Tissue specificity of methylation of cytosines in regulatory regions of four genes located in the locus FXYD5-COX7A1 of human chromosome 19: correlation with their expression level

In this study, we compared degree of methylation of selected CpG sites in CCGG sequences located in promoter regions of four human genes with expression level of these genes in several human cell lines and tissues. These genes were subdivided into two groups according to the dependence of their expression on CpG methylation in the 5 -regions. The first group, characterized by clear correlation of methylation with the transcription level, includes housekeeping gene COX6B (the absence of methylation unambiguously correlates with expression) and urothelium-specific uroplakin gene (the methylation coincides with absence of expression). The second group includes genes that are expressed in many, but not all tissues and cells. For these genes (LEAP-1 and ATP4A), there was no correlation between methylation and expression. It is possible that methylation provides some basal level of gene repression, which is overcome by binding of tissue-specific transcription factors, whereas lack of methylation gives the opportunity for gene expression in various cells and tissues.

[Regulatory potential of S/MAR elements in transient expression]

S/MARs (scaffold/matrix attachment regions) are the DNA regions that are involved in the interaction with the nuclear matrix and are identified by in vitro methods. According to the available information, S/MARs possess an insulating activity, i.e., the ability to block the interaction between the enhancer and promoter in vivo, and are, probably, intact insulators or their fragments. Nevertheless, there is still no direct proof for this correspondence. To obtain additional information on the insulator activity of S/MARs, we selected five DNA fragments of different lengths and affinities for the nuclear matrix from the previously constructed library of S/MARs and tested their ability to serve as insulators. Two of five elements exhibited an insulator (enhancer-blocking) activity upon the transient transfection of CHO cells. None of the S/MARs displayed either promoter or enhancer/silencer activities in these cells.

Tissue specificity of enhancer and promoter activities of a HERV-K(HML-2) LTR

Transient expression of a luciferase reporter gene was used to evaluate tissue-specific promoter and enhancer activities of a solitary extraviral long terminal repeat (LTR) of the human endogenous retrovirus K (HERV-K) in several human and CHO cell lines. The promoter activity of the LTR varied from virtually not detectable (GS and Jurkat cells) to as high as that of the SV40 early promoter (Tera-1 human testicular embryonal carcinoma cells). The negative regulatory element (NRE) of the LTR retained its activity in all cell lines where the LTR could act as a promoter, and was also capable of binding host cell nuclear proteins. The enhancer activity of the LTR towards the SV40 early promoter was detected only in Tera-1 cells and was not observed in a closely related human testicular embryonal carcinoma cell line of different origin, NT2/D1. A comparison of proteins bound to central part of the LTR in nuclear extracts from Tera-1 and NT2/D1 by electrophoretic mobility shift assay revealed striking differences that could be determined by different LTR enhancer activities in these cells. Tissue specificity of the SV40 early promoter activity was also revealed.

[Activation of the RIG-I gene, coding for DEXH/D-protein in infection of RH cells by tick-borne encephalitis virus]

It was demonstrated by subtractive hybridization that the infection of a human embryonic kidney cell line with tick-borne encephalitis virus causes an approximately tenfold transcription activation of the RIG-1 gene, which encodes a protein of the DExH/D-box-containing RNA helicase family. A possible involvement of the protein in antiviral cell systems is discussed. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2004, vol. 30, no. 2; see also http://www.maik.ru.

Structure and Functions of Nuclear Matrix Associated Regions (S/MARs)

Modern concepts on the chromatin loop-domain organization and the role of the DNA regions specifically binding the nuclear matrix (nuclear scaffold, or S/MARs) in its formation, maintenance, and regulation are discussed. Some S/MAR structural features, properties of binding the nuclear matrix, and probable mechanisms of their involvement in regulation of gene activity are considered. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2004, vol. 30, no. 1; see also http://www.maik.ru.

[Late activation of interferon-induced genes IFI-54k and IFI-56k in human RH cells infected with tick-borne encephalitis virus]

The genes that were induced and suppressed in human embryonic kidney cell line RH upon the infection with tick-borne encephalitis virus were studied by the method of subtractive hybridization. The expression of interferon-induced genes IFI-54K and IFI-56K in the infected cells was found to increase 50-100-fold.

Purification of proteins specifically binding human endogenous retrovirus K long terminal repeat by affinity elution chromatography

A novel affinity elution procedure for purification of DNA-binding proteins was developed and employed to purify to near homogeneity the proteins recognizing a 21 base pair sequence within the long terminal repeat of human endogenous retroviruses K. The approach involves loading the initial protein mixture on a heparin-agarose column and elution of protein(s) of interest with a solution of double-stranded oligonucleotide containing binding sites of the protein(s). The affinity elution has several advantages over conventional DNA-affinity chromatography: (i) it is easier and faster, permitting to isolate proteins in a 1 day-one stage procedure; (ii) yield of a target protein is severalfold higher than that in DNA-affinity chromatography; (iii) it is not necessary to prepare a special affinity support for each factor to be isolated. Theaffinity elution could be a useful alternative to conventional DNA-affinity chromatography.

[Enhancer activity of solitary long terminal repeat of the human endogenous retrovirus of the HERV-K family]

The transient expression of the luciferase reporter gene helped us to detect a tissue-specific enhancer activity of the solitary extraviral long terminal repeat (LTR) of the human endogenous retrovirus K (HERV-K). The LTR was previously mapped to the 19q13.2 locus. It contains a number of potential regulatory elements including TATA box, binding sites for some nuclear factors, and a polyadenylation signal. However, an analysis of the genomic sequences close to the LTR did not reveal any known genes or the expressing marker sequences (EST), whose functioning could be regulated by this LTR. The enhancer activity can be preserved in the solitary LTR due to its involvement in a long-range control of genome functioning or by the absence of functional disruptive mutations within the human-specific LTR, because it is of a relatively young evolutionary age. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2002, vol. 28, no. 4; see also http://www.maik.ru.

Identification and mapping of nuclear matrix-attachment regions in a one megabase locus of human chromosome 19q13.12: long-range correlation of S/MARs and gene positions

The first draft human genome sequence now available allowed the identification of an enormous number of gene coding areas of the genomic DNA. However, a great number of regulatory elements such as enhancers, promoters, transcription terminators, or replication origins can not be identified unequivocally by their nucleotide sequences in complex eukaryotic genomes. One important subclass of these type of sequences is scaffold/matrix attachment regions (S/MARs) that were hypothesized to anchor chromatin loops or domains to the nuclear matrix and/or chromosome scaffold. We developed an experimental selection procedure to identify S/MARs within a completely sequenced one megabase (1 Mb) long gene-rich D19S208-COX7A1 locus of human chromosome 19. A library of S/MAR elements from the locus was prepared and shown to contain -20 independent S/MARs. Sixteen of them were isolated, sequenced, and assigned to certain positions within the locus. A majority of the S/MARs identified (11 out of 16) lie in intergenic regions, suggesting their structural role, i.e., delimitation of chromatin domains. These 11 S/MARs subdivide the locus into 10 domains ranging from 6 to 272 kb with an average domain size of 88 kb. The remaining five S/MARs were found within intronic sequences of APLP1, HSPOX1, MAG, and NPHS1 genes, and can be tentatively characterized as regulatory S/MARs. The correspondence of the chromatin domains defined by the S/MARs to functional characteristics of the genes therein is discussed. The approach described can be a prototype of a similar search of long sequenced genomic stretches and/or whole chromosomes for various regulatory elements.

Solitary human endogenous retroviruses-K LTRs retain transcriptional activity in vivo, the mode of which is different in different cell types

Solitary long terminal repeats (LTRs) of human endogenous retroviruses (HERVs), tens of thousands of which are spread all over the genome, contain a variety of potential transcription regulatory elements. Information on transcriptional behavior of individual solitary LTRs, however, is limited. We studied the transcriptional activity of several individual HERV-K LTRs in a variety of tissues and cell lines. The RT-PCR technique targeted at specific amplification of the U3 or U5 regions of individual LTRs together with their unique genomic flanks was used to estimate the content of each region in the transcripts. An unequal abundance of the U3 and U5 regions of the transcripts of the same LTR in different cells and tumors was observed. Each LTR is transcribed differently in different cells or tissues, and transcriptional behavior of different LTRs was different in the same cell line or tissue. The transcriptional status of LTRs varies in response to mitogenic and stress factors and in tumor tissues compared to normal counterparts. The LTRs thus seem to be the subjects of specific transcription regulation. The data obtained indicate that an appreciable fraction of the LTRs retained regulatory potential throughout millions of years of evolution and thus may contribute to the overall transcription regulatory network.

Identification and localization of differences between Escherichia coli and Salmonella typhimurium genomes by suppressive subtractive hybridization

The availability of bacterial genome sequences raises an important new problem - how can one move from completely sequenced microorganisms as a reference to the hundreds and thousands of other strains or isolates of the same or related species that will not be sequenced in the near future? An efficient way to approach this task is the comparison of genomes by subtractive hybridization. Recently we developed a sensitive and reproducible subtraction procedure for comparison of bacterial genomes, based on the method of suppression subtractive hybridization (SSH). In this work we demonstrate the applicability of subtractive hybridization to the comparison of the related but markedly divergent bacterial species Escherichia coli and Salmonella typhimurium. Clone libraries representing sequence differences were obtained and, in the case of completely sequenced E. coli genome, the differences were directly placed in the genome map. About 60% of the differential clones identified by SSH were present in one of the genomes under comparison and absent from the other. Additional differences in most cases represent sequences that have diverged considerably in the course of evolution. Such an approach to comparative bacterial genomics can be applied both to studies of interspecies evolution - to elucidate the "strategies" that enable different genomes to fit their ecological niches - and to development of diagnostic probes for the rapid identification of pathogenic bacterial species.

[Identification and mapping on human chromosome 19 of chromosome-specific repeated element preferentially binding with nuclear matrix]

From a library of sequences binding preferentially to nuclear matrix (matrix attachment regions, MARs), a fragment of about 300 bp in length (CEA (carcinoembryonic antigen)-MAR) was isolated and characterized. The CEA-MAR sequence was found in more than ten loci of chromosome 19 containing elements similar to genes of the CEA family. No sequences of this group were found on other human chromosomes. Two CEA-MAR-containing loci were sequenced, and sequences for another seven loci were found in GenBank. A comparative analysis of CEA-MARs and the flanking sequences is reported. Based on the sequence of the CEA-containing chromosome 19 loci, a hypothetical model of the domain structure of a 2-Mb chromosome region was constructed and the mutual arrangement of CEA-MARs and genes of CEA family was elucidated. The CEA-MARs were located 5-20 kb downstream of the CEA genes. These results suggest that the duplication unit of the CEA family may coincide with chromatin domains containing these genes.

Long terminal repeats of human endogenous retrovirus K family (HERV-K) specifically bind host cell nuclear proteins

Solitary long terminal repeats (LTRs) of the human endogenous retroviruses, scattered in several thousand copies throughout the human genome, are potentially capable of affecting the expression of closely located genes. To assess their regulatory potential, the LTR sequences of one of the most abundant HERV families (HERV-K) were screened for the presence of binding sites for the host cell nuclear factors using mobility shift and UV-crosslinking assays. It was shown that the LTR sequences of two subfamilies harbor a specific binding site for a complex consisting of at least three proteins, ERF1, ERF2 and ERF3 of 98, 91 and 88 kDa apparent molecular mass, respectively. This binding site is located in the 5' region of the LTR U3 element. The preservation of the specific protein binding site in different HERV-K LTR sequences suggests their possible role in regulation of nearby located genes.

[14 sequences from Chinese hamster genome preferentially binding to the nuclear matrix]

Fifteen sequences belonging to the Chinese hamster genome were isolated from a library of sequences preferentially binding to the nuclear matrix (matrix attachment regions, MAR), sequenced, and characterized. Fourteen of the 15 sequences (> 90%) bound to the nuclear matrix with affinities 2.5-60 times higher than those of control DNA fragments containing no MARs. One clone displayed a considerable homology to the ORF1 region of the mouse LINE repeat. Such MARs within LINE repeats may considerably alter the activities of some genes and the transcription status of chromatin domains upon the LINE repeat propagation in the genome over the course of evolution.

Construction of a chromosome specific library of human MARs and mapping of matrix attachment regions on human chromosome 19

Using a novel procedure a representative human chromosome 19-specific library was constructed of short sequences, which bind preferentially to the nuclear matrix (matrix attachment regions, or MARs). Judging by 20 clones sequenced so far, the library contains > 50% of human inserts, about 90% of which are matrix-binding by the in vitro test. Computer analysis of sequences of eight human MARs did not reveal any significant homologies with the EMBL Nucleotide Data Base entries as well as between MARs themselves. Eight MARs were assigned to individual positions on the chromosome 19 physical map. The library constructed can serve as a good source of MAR sequences for comparative analysis and classification and for further chromosome mapping of MARs as well.

[Mapping the sequences, preferentially bound with the nuclear matrix, on human chromosome 19]

A plasmid library (400 clones) of the human chromosome 19 sequences selectively binding to nuclear matrix was obtained and characterized. Approximately 50% clones contained DNA sequences specific for human chromosome 19. Over 90% of these sequences represented matrix attachment regions (MARs). Eight MARs were localized to the chromosome 19 physical map.

Identification of a sequence-specific protein binding the 5'-transcribed spacer of rat ribosomal genes

A novel 85-kD protein factor which interacts specifically with the 5'-transcribed spacer of rat ribosomal genes was identified using the gel mobility shift, DNase I protection and UV-crosslinking techniques. The binding site of the factor is located inside the 36 bp Alul-HindIII fragment of transcribed spacer, most probably in the region +94 to +115 with respect to the transcription initiation site. Factors giving very similar gel mobility shift patterns were also found in mouse and human cell extracts. Sequences resembling the binding site of this factor were revealed in corresponding regions of mouse and human ribosomal genes. The biological function of FTS remains to be elucidated.

[Protein factors specifically binding to the regulatory elements of non-transcribed spacer of rat ribosomal genes]

Mouse, rat and human protein factors recognizing regulatory elements of nontranscribed spacer of rat ribosomal genes were studied by gel retardation assay. Protein factors bind specifically to the DNA fragments containing the core promoter sequence of RNA-polymerase I, to "spacer" promoter and to a putative enhancer sequence. Factors of mouse, rat and human nuclear extracts that recognize the region containing the core promoter sequence have similar molecular masses and are not identical to the previously described protein factor TIF-1B. Two factors that bind the "spacer" promoter region differ from the factors of the core promoter. "Spacer" promoter factors of mouse and rat nuclear extracts are probably identical, but differ from those of human extract. Protein factors, recognizing the putative enhancer region of rat and human extracts are alike but were not detected in mouse extract. Regions of nontranscribed spacer containing dispersed and tandem repeats do not bind any specific protein factors.

Identification of sequence-specific DNA-binding factors by label transfer: application to the adenovirus-2 major late promoter

A method of affinity labelling proteins specifically associated with DNA target sequences is proposed. The method utilizes covalent UV-crosslinking of proteins to highly labelled DNA (e.g. in crude cell or nuclear extracts) followed by degradation of the DNA to short oligonucleotides. Proteins selectively labelled by attached residual oligonucleotides are readily amenable to molecular mass determination. Using this approach, we have characterized a HeLa polypeptide specifically bound to a short segment of the adenovirus-2 major late promoter (Ad2 MLP). A molecular mass value (approximately 51 kD) and precise location of the crosslinking site(s) of the protein within the MLP (-55 with respect to the cap site) were determined.

Histone crosslinking patterns indicate dynamic binding of histone H1 in chromatin

Crosslinking of histone H1 molecules to each other and to the core histones with bifunctional reagents in mouse liver nuclei and chromatin was compared with that under the conditions of random 'contacts' between these molecules. The patterns of crosslinking of the H1 subfractions (H1A, H1B, and H10) to each other in nuclei, chromatin and in solution at different ionic strengths due to random collisions were essentially the same. Moreover, the contacts between the H1 molecules were qualitatively the same in nuclei, chromatin and in solution also at the level of the chymotryptic halves of the H1 molecules. The contacts between the H1 molecules and the core histones in nuclei were similar to those obtained in chromatin at 70 mM NaCl, when H1 molecules readily migrate, and at 0.6 M NaCl, when H1 molecules are dissociated from chromatin. We conclude that spatial arrangement of H1 subfractions and mutual orientation of H1 molecules in isolated nuclei are random-like at least in terms of cross-linking. The static and dynamic models of histone H1 binding to chromatin compatible with the known data are considered. Although unequivocal verification of the models is not possible at present, the dynamic models do correspond better to recent data on the location of the histone H1 in nuclei and chromatin.

Evidence for attachment of interphase chromatin to the nuclear matrix via matrix-bound nucleosomes

Chromatin structure has been studied in the sites of attachment to the nuclear matrix in interphase mouse liver and spleen nuclei. The patterns of fragmentation of the DNA belonging to these sites (0.3-2% of total DNA in spleen and liver, respectively) with staphylococcal nuclease and DNAase I were very close to those of usual nucleosomal chains. Moreover, the nuclear matrix preparations contained all five major histones, including H1, in almost stoichiometric amounts. The histone/DNA ratios for the matrix were also similar to those found in nuclei. These findings and the size of the matrix-protected DNA indicated that interphase chromatin was attached to the nuclear matrix via matrix-bound nucleosomes and, to a much lesser extent, oligonucleosomes up to 5-6 units long. Two-dimensional electrophoretic separation of the matrix-bound histones revealed that modifications of histone H1 and, probably, of other histones were distinguished from those in bulk chromatin. Study of binding of exogenously added labeled histone octamers or mononucleosomal size DNA to nuclear matrix excluded the possibility of their artifactual trapping during the isolation procedure.

[Localization of histone H1 in chromatin. Cross-linking of the N- and C-terminal halves of the molecule with bifunctional reagents]

Mutual arrangement of histone H1 molecules was studied in calf thymus nuclei, extended chromatin and chromatin, isolated and kept in 8 M urea. Histone H1 dimers crosslinked with methyl 4-mercaptobutyrimidate were digested with chymotrypsin and crosslinked fragments obtained were analysed by diagonal gel electrophoresis. In all chromatins tested the N- and C-terminal parts of the H1 molecules were crosslinked in all possible combinations, i.e. C-C, C-N and N-N. These and related data obtained earlier indicate, that the proximity of histone H1 molecules in chromatin is determined by the structure of nucleosomal chain itself and not by chromatin superstructure. The results also suggest that the H1A and H1B subfractions of histone H1 are interspersed in extended nucleosomal chains.

[Localization of histone H1 in chromatin. Cross-linking of central globular regions of H1 molecules with a bifunctional reagent]

Mutual arrangement of histone H1 molecules and central globular parts of H1 was studied by crosslinking with a reversible bifunctional reagent. The yields of histone H1 dimers and dimers of it's globular fragment in nuclei and isolated chromatin were similar. In the presence of 8 M urea the yield of the H1 dimers was approximately threefold decreased, dimers of globular fragment being practically absent. The data suggest that the proximity of H1 molecules in nuclei is stipulated by a structure of a nucleosomal chain itself and not by chromatin superstructure. The results are in accord with the "head" to "head" histone H1 orientation within the nucleosomal chain and do not support participation of the central globular region of H1 molecule in chromatin condensation. A model of H1 arrangement in extended nucleosomal chain is proposed.

Mutual arrangement of histone H1 molecules in extended chromatin. Chymotryptic digestion of cross-linked H1 histone dimers

Mutual arrangement of histone H1 molecules in chromatin extended in low salt-EDTA buffer and additionally in the presence of urea was studied by means of reversible cross-linking combined with chymotryptic digestion. In the chromatins tested, the chymotryptic halves of H1 were cross-linked in all possible combinations; i.e., C-C, C-N and N-N. The results imply that the mutual arrangement of H1 histones is determined by the structure of extended nucleosomal chain, rather than chromatin superstructure.

[Structure, chemical modification and interaction of histone H1 with chromatin components]

Structure, chemical modification, and interaction of histone H1 and its individual fragments with DNA and structural elements of chromatin are considered. Special attention is paid to phosphorylation of histone H1 molecules. Recent data concerning localization and mobility of histone H1 in chromatin as well as mechanisms of nucleosomal chain condensation are reviewed.

Chemical crosslinking of histone H1o to histone neighbours in nuclei and chromatin

Crosslinking of histones in mouse liver nuclei and extended chromatin with a bifunctional reagent leads to the formation of H1-H1o heterodimers as well as H1o-H1o homodimers. H1o can be also crosslinked to the core histones. Thus, the location of histone H1o within the basic repeating chromatin structure seems to be analogous to that of H1 histone.

[Residual chromatin of mouse spleen nuclei after intensive nuclease treatment. Isolation and properties]

Two-step treatment of mouse spleen nuclei with staphylococcal nuclease was used to isolate residual nuclear structures lacking a considerable part of chromation. Partial disruption of the nuclear envelope after the first step of digestion was shown to be essential for obtaining residual nuclear structures. Isolated residual nuclear structures contained condensed chromatin (residual chromatin) which was not solubilized upon additional staphylococcal nuclease treatment and amounted to approximately 20% of total nuclear chromatin. Residual chromatin was almost deprived of nonhistone chromosomal proteins. It contained a full complement of histones and consisted of nucleosomal chains having different lengths--from one to 50-60 nucleosomes. Some of the condensed chromatin chains were anchored to the nuclear matrix.

[Properties of mouse spleen residual condensed chromatin associated with the nuclear matrix]

Properties of condensed residual chromatin of mouse spleen, a component of residual nuclear structures, were studied. Extraction of the structures with buffers of different NaCl concentrations showed that the condensed chromatin consists of condensed nucleosomal chains. On increasing the ionic strength the complexes gradually fell apart into separate nucleosomal chains. DNA of condensed chromatin was accessible to staphylococcal nuclease and DNAase I, but digestion of this DNA was not accompanied by solubilization of the residual chromatin. Besides the essentially decreased total content of nonhistone chromosomal proteins the condensed chromatin practically did not contain HMG proteins. The nucleosome repeat length of this chromatin was shorter than that of chromatin solubilized by staphylococcal nuclease.