Organization of the 3'-boundary of the chicken alpha globin gene domain and characterization of a CR 1-specific protein binding site

Transcription- and apoptosis-dependent long-range distribution of tight DNA-protein complexes in the chicken alpha-globin gene

The proteins tightly bound to DNA (TBP) are a group of proteins that remain attached to DNA with covalent or noncovalent bonds after its deproteinization, and have been hypothesized to be involved in regulation of gene expression. To investigate this question further, oligonucleotide DNA arrays were used to determine the distribution of tightly bound proteins along a 100-kb DNA fragment surrounding the chicken alpha-globin gene domain in DNA from chicken erythrocytes, liver, and AEV-transformed HD3 (erythroblast) cells in different physiological conditions. DNA was fractionated into TBP-free (F) and TBP-enriched (R) fractions by separation on nitrocellulose, and these fractions were used as probes for hybridization with the microarray. In erythrocytes, the site 60 kb from the 5' end of the sequence and containing a LINE family CR1 repeat was TBP enriched, but in HD3 cells this sequence was devoid of TBPs. Thus cessation of transcription of the domain is followed by an F-R transition of this site. In apoptotic HD3 cells, TBPs remained attached to DNA only at a site situated 16 kb from the 5' end of the sequence. These data confirm and extend previous conclusions about the specificity of the DNA sequences that preferably form tight complexes with proteins and about the differentiation-specific distribution of the TBPs in different cell lineages. Binding of TBPs appears to be independent of primary DNA sequence.

Globin genes transcriptional switching, chromatin structure and linked lessons to epigenetics in cancer: a comparative overview

At the present time research situates differential regulation of gene expression in an increasingly complex scenario based on interplay between genetic and epigenetic information networks, which need to be highly coordinated. Here we describe in a comparative way relevant concepts and models derived from studies on the chicken alpha- and beta-globin group of genes. We discuss models for globin switching and mechanisms for coordinated transcriptional activation. A comparative overview of globin genes chromatin structure, based on their genomic domain organization and epigenetic components is presented. We argue that the results of those studies and their integrative interpretation may contribute to our understanding of epigenetic abnormalities, from beta-thalassemias to human cancer. Finally we discuss the interdependency of genetic-epigenetic components and the need of their mutual consideration in order to visualize the regulation of gene expression in a more natural context and consequently better understand cell differentiation, development and cancer.

A CTCF-dependent silencer located in the differentially methylated area may regulate expression of a housekeeping gene overlapping a tissue-specific gene domain

The tissue-specific chicken alpha-globin gene domain represents one of the paradigms, in terms of its constitutively open chromatin conformation and the location of several regulatory elements within the neighboring housekeeping gene. Here, we show that an 0.2-kb DNA fragment located approximately 4 kb upstream to the chicken alpha-globin gene cluster contains a binding site for the multifunctional protein factor CTCF and possesses silencer activity which depends on CTCF binding, as demonstrated by site-directed mutagenesis of the CTCF recognition sequence. CTCF was found to be associated with this recognition site in erythroid cells but not in lymphoid cells where the site is methylated. A functional promoter directing the transcription of the apparently housekeeping ggPRX gene was found 120 bp from the CTCF-dependent silencer. The data are discussed in terms of the hypothesis that the CTCF-dependent silencer stabilizes the level of ggPRX gene transcription in erythroid cells where the promoter of this gene may be influenced by positive cis-regulatory signals activating alpha-globin gene transcription.

Polymorphisms of 5' flanking region of chicken prolactin gene

The polymorphisms of 5' flanking region of chicken prolactin (cPRL) gene were examined in several populations of Chinese native Yuehuang, Taihe Silkie and imported White Leghorn Layer chickens. The 5' flanking regions (2638 bp) from Yuehuang, Taihe Silkie and White Leghorn chickens were subjected to sequencing analysis. Four single nucleotide polymorphisms (SNPs) were identified at position -2425(C/T), -2215(T/C), -2063(G/A) and -1967(A/G). A 24-bp indel (insertion or deletion) and a polyA length polymorphism were also identified. For the 24-bp indel locus, three genotypes (AA, AB and BB) were found in Yuehuang chickens, while only two genotypes were detected in Taihe Silkie (AB and BB) and Leghorn chickens (AA and BB). The genotype frequencies of AA, AB and BB were significantly different among the three breeds. For the polyA locus, although three genotypes (CC, CD and DD) were found, only one genotype (CC) was detected in White Leghorn chickens, while two or three genotypes were observed in Chinese native chickens. We used real-time quantitative PCR and radioimmunology assay to investigate the potential association of the 24-bp indel locus with cPRL mRNA expression, plasma cPRL and brooding behaviors, and observed that chickens with genotype AB, which are of the highest incidence of broodiness, had the highest cPRL mRNA levels, providing the possibility that this polymorphic site might be related to the broodiness in chickens via modulating the transcriptional level of cPRL gene. The dissociation among cPRL gene transcription, mRNA storage and hormone release was also observed.

Databases, models, and algorithms for functional genomics: a bioinformatics perspective

A variety of patterns have been observed on the DNA and protein sequences that serve as control points for gene expression and cellular functions. Owing to the vital role of such patterns discovered on biological sequences, they are generally cataloged and maintained within internationally shared databases. Furthermore,the variability in a family of observed patterns is often represented using computational models in order to facilitate their search within an uncharacterized biological sequence. As the biological data is comprised of a mosaic of sequence-levels motifs, it is significant to unravel the synergies of macromolecular coordination utilized in cell-specific differential synthesis of proteins. This article provides an overview of the various pattern representation methodologies and the surveys the pattern databases available for use to the molecular biologists. Our aim is to describe the principles behind the computational modeling and analysis techniques utilized in bioinformatics research, with the objective of providing insight necessary to better understand and effectively utilize the available databases and analysis tools. We also provide a detailed review of DNA sequence level patterns responsible for structural conformations within the Scaffold or Matrix Attachment Regions (S/MARs).

The 33 kb transcript of the chicken ?-globin gene domain is part of the nuclear matrix

Giant nuclear transcripts, and in particular the RNAs of the globin gene domains which are much larger than their canonical pre-mRNAs, have been an enigma for many years. We show here that in avian erythroblastosis virus (AEV)-transformed chicken erythroleukaemic cells, where globin gene expression is abortive, the whole domain of alpha-globin genes is transcribed for about 33 kb in the globin direction and that this RNA is part of the nuclear matrix. Northern blot hybridisation with strand-specific riboprobes, recognising genes and intergenic sequences, and RT-PCR with downstream primers, show that the continuous full domain transcript (FDT) starts in the vicinity of a putative LCR and includes all the genes as well as known regulatory sites, the replication origin, and the DNA loop anchorage region in the upstream area. Absent in chicken fibroblasts, the globin FDT overlaps the major part of the ggPRX housekeeping gene that is transcribed in the opposite direction. RT-PCR and in situ hybridisation with genic and extra-genic globin probes demonstrated that the globin FDT is a component of the nuclear matrix. We suggest that the globin FDTs keep the domain in an active state, and the globin RNAs on the processing pathway are a component of the nuclear matrix. They may take part in the dynamic nuclear architecture when productively processed, or turn over slowly when globins are not synthesised.

Evaluation of sequence motifs found in scaffold/matrix-attached regions (S/MARs)

Based on the contents of the database S/MARt DB, the most comprehensive data collection of scaffold/matrix-attached regions (S/MARs) publicly available thus far, we initiated a systematic evaluation of the stored data. By analyzing the 245 S/MAR sequences presently described in this database, we found that the S/MARs contained in this collection are generally AT-rich, with certain significant exceptions. Comparative analyses showed that most of the AT-rich motifs which were found to be enriched in S/MARs are also enriched in randomized S/MAR sequences of the same AT content. Some sequence patterns previously suggested to be characteristic for S/MARs were also investigated, among them potential binding sites for homeodomain transcription factors. Even though hexanucleotides containing the core motif of homeodomain factors were frequently observed in S/MARs, only a few potential binding sites for these factors were found enriched when compared with regulatory regions or exon sequences. All our analyses indicated that, on average, the observed frequency of motifs in S/MAR elements is largely influenced by the AT content. Our results can serve as a guideline for further improvements in the definition of S/MARs, which are now believed to constitute the functional coordinate system for genomic regulatory regions.

Analysis of the chicken DNA fragments that contain structural sites of attachment to the nuclear matrix: DNA-matrix interactions and replication

Ten short DNA fragments have been selected from a library of the nuclear matrix-attached DNA (nmDNA) from chicken erythrocytes by their ability to hybridize with the fraction of chicken replication origins isolated by nascent DNA strand extrusion. The primary structure of these fragments has been determined. Five of the sequences contained a topoisomerase II recognition site. Most of the studied DNA fragments also have a common eight-nucleotide motif, GCAGACCG/A. A sequence-specific DNA-binding protein with a MW of 55 kDa that interacted with this motif has been identified. Some of the cloned DNA fragments promoted an increased level of transient plasmid replication in transfected chicken cells. The ability of plasmid bearing nmDNA fragments to replicate correlated directly with their ability to target plasmids to the nuclear matrix compartment.

Structural and functional conservation at the boundaries of the chicken beta-globin domain

We show that the 3' boundary of the chicken beta-globin locus bears striking structural similarities to the 5' boundary. In erythroid cells a clear transition in DNase I sensitivity of chromatin at the 3' end of the locus is observed, the location of this transition is marked by a constitutive DNase I hypersensitive site (HS), and DNA spanning this site has the enhancer-blocking capacity of an insulator. This HS contains a binding site for the transcription factor CTCF. As in the case of the 5' insulator, the CTCF site is both necessary and sufficient for the enhancer-blocking activity of the 3' boundary. The position of this insulator is consistent with our proposal that it may function to maintain the distinct regulatory programs of the globin genes and their closely appended 3' neighbor, an odorant receptor gene. We conclude that both boundaries of the chicken beta-globin domain are capable of playing functionally similar roles and that the same protein is a necessary component of the molecular mechanism through which these boundaries are defined.

Mathematical model to predict regions of chromatin attachment to the nuclear matrix

The potentiation and subsequent initiation of transcription are complex biological phenomena. The region of attachment of the chromatin fiber to the nuclear matrix, known as the matrix attachment region or scaffold attachment region (MAR or SAR), are thought to be requisite for the transcriptional regulation of the eukaryotic genome. As expressed sequences should be contained in these regions, it becomes significant to answer the following question: can these regions be identified from the primary sequence data alone and subsequently used as markers for expressed sequences? This paper represents an effort toward achieving this goal and describes a mathematical model for the detection of MARs. The location of matrix associated regions has been linked to a variety of sequence patterns. Consequently, a list of these patterns is compiled and represented as a set of decision rules using an AND-OR formulation. The DNA sequence was then searched for the presence of these patterns and a statistical significance was associated with the frequency of occurrence of the various patterns. Subsequently, a mathematical potential value,MAR-Potential, was assigned to a sequence region as the inverse proportion to the probability that the observed pattern population occurred at random. Such a MAR detection process was applied to the analysis of a variety of known MAR containing sequences. Regions of matrix association predicted by the software essentially correspond to those determined experimentally. The human T-cell receptor and the DNA sequence from the Drosophila bithorax region were also analyzed. This demonstrates the usefulness of the approach described as a means to direct experimental resources.

Two chicken repeat one (CR1) elements lacking a silencer-like region upstream of the chicken avidin-related genes Avr4 and Avr5

Two repetitive elements of the chicken CR1 family, each located in the 5' flanking region of the avidin-related genes Avr4 and Avr5, have been cloned and sequenced. Both elements are 721 bp in length with 72% identity to a CR1 consensus sequence. They had a 191 bp deletion in a region corresponding to the functional silencer regions previously detected within the CR1 elements upstream of the chicken lysozyme and apoVLDLII genes.

Chromatin domains and prediction of MAR sequences

Polynuceosomes are constrained into loops or domains and are insulated from the effects of chromatin structure and torsional strain from flanking domains by the cross-complexation of matrix-attached regions (MARs) and matrix proteins. MARs or SARs have an average size of 500 bp, are spaced about every 30 kb, and are control elements maintaining independent realms of gene activity. A fraction of MARs may cohabit with core origin replication (ORIs) and another fraction might cohabit with transcriptional enhancers. DNA replication, transcription, repair, splicing, and recombination seem to take place on the nuclear matrix. Classical AT-rich MARs have been proposed to anchor the core enhancers and core origins complexed with low abundancy transcription factors to the nuclear matrix via the cooperative binding to MARs of abundant classical matrix proteins (topoisomerase II, histone H1, lamins, SP120, ARBP, SATB1); this creates a unique nuclear microenvironment rich in regulatory proteins able to sustain transcription, replication, repair, and recombination. Theoretical searches and experimental data strongly support a model of activation of MARs and ORIs by transcription factors. A set of 21 characteristics are deduced or proposed for MAR/ORI sequences including their enrichment in inverted repeats, AT tracts, DNA unwinding elements, replication initiator protein sites, homooligonucleotide repeats (i.e., AAA, TTT, CCC), curved DNA, DNase I-hypersensitive sites, nucleosome-free stretches, polypurine stretches, and motifs with a potential for left-handed and triplex structures. We are establishing Banks of ORI and MAR sequences and have undertaken a large project of sequencing a large number of MARs in an effort to determine classes of DNA sequences in these regulatory elements and to understand their role at the origins of replication and transcriptional enhancers.

Analysis of the replication direction through the domain of alpha-globin-encoding chicken genes

The polarity of leading DNA strand synthesis through the domain of alpha-globin-encoding genes in chicken erythroid cells has been studied using a modification of the previously published replication direction assay [Handeli et al., Cell 57 (1989) 909-920; Burhans et al., EMBO J. 10 (1991) 4351-4360]. In accordance with our previous observations [Razin et al., Nucleic Acids Res. 14 (1986) 8189-8207], it has been found that a replication origin (ori) is located in the area extending from 8.5 to 2.5 kb upstream from the pi gene, the first gene of the domain. The whole domain is replicated from this ori in the direction of transcription. The replication termination site has been mapped right after the last gene of the domain (alpha A gene) at a distance of about 12 kb from the ori.

SARs stimulate but do not confer position independent gene expression

Two minimal scaffold-associated regions (SARs) from Drosophila were tested in stably transformed cells for their effects on the expression of reporter genes. The expression of genes bounded by two SARs is consistently stimulated by about 20- to 40-fold, if the average of a pool of cell transformants is analyzed. However, analysis of individual, stable cell transformants demonstrates that flanking SAR elements do not confer position-independent expression on the reporter gene and that the extent of position-dependent variegation is similarly large with or without the flanking SAR elements. The SAR stimulation of expression is observed in stable but not in transiently transfected cell lines. The Drosophila scs and scs' boundary elements, which do not bind to the nuclear matrix in vitro, are only about one-tenth as active as SARs in stimulating expression in stable transformants. Interestingly, the SAR stimulatory effect can be blocked by a fragment containing CpG islands (approximately 70% GC), if positioned between the SAR and the enhancer. In contrast, when inserted in the same position, control fragments, such as the scs/scs' elements, do not interfere with SAR function.

Characterization of protein interactions with positive and negative elements regulating the apoVLDLII gene

Synthesis of avian apo very-low-density lipoprotein (apoVLDL)II is estrogen dependent and liver specific. Competence to express the apoVLDLII gene is not acquired until days 7-9 of embryogenesis and thus lags 5-6 days behind appearance of the liver primordial bud. It is not known whether the delayed ability to activate the gene is attributable to hepatic estrogen receptor profiles, or a requirement for other transcription factors not expressed at earlier stages of embryogenesis. The latter possibility is supported by developmental alterations in nuclease hypersensitivity flanking the gene that occur independently of estrogen administration. We have examined the influence of these hypersensitive regions on expression from the apoVLDLII promoter and have characterized novel protein-DNA interactions at two of them. One is located in a copy of the CR1 family of middle repetitive elements approximately 3.0 kb upstream from the start of the gene. We demonstrate by DNase I footprinting that the site contains an element which matches a predicted consensus silencer sequence. The other site contains no previously identified binding motifs. It is located between nucleotides -228 and -245 and is adjacent to an imperfect estrogen response element (ERE) that we demonstrate acts additively with a canonical ERE 30 nucleotides downstream. We have identified ubiquitous and liver-specific factors that display overlapping DNA contacts with the site. Mutation of G residues contacted by these proteins decreases hormone-inducible expression from the promoter 5- to 8-fold. Hepatic levels of the liver-enriched factor interacting with this site increase abruptly between days 7 and 9 of embryogenesis, suggesting that it may be an important determinant of the ability to express the apoVLDLII and possibly other liver-specific genes.

Transcription factor binding sites in the matrix attachment region (MAR) of the chicken alpha-globin gene

Nuclear matrix is a nuclear protein-DNA superstructure believed to be the exclusive site of DNA replication, transcription, repair, and recombination. The attachment regions of chromatin loops to the nuclear matrix, called MARs, nest origins of replication, have transcriptional enhancer activity, and via their interaction with protein transcription factors may govern gene switch during development and tissue-specific gene expression. In this study the 967 bp MAR of the chicken alpha-globin gene is analyzed for the presence of hexanucleotides from a number (83 in total) of vertebrate protein transcription factors and core origins of replication. A total number of 760 hexanucleotides from factor sites or origins of replication were used for this search. We found that: (1) The occurrence of protein transcription factor binding sites overall on the MAR fragment as well as on the enhancer and promoter regions of other genes is only about 1.2-1.5 times higher than in random DNA, something consistent for all MAR and enhancer sequences examined. However, a high concentration (up to 2.7 times over random sequences) of hexanucleotide factor sites is observed on small stretches of the alpha-globin gene MAR. (2) Some regulatory protein binding sites are underrepresented whereas others are overrepresented, giving to an MAR a particular transcription factor flavor. (3) The DNA curvature map of the MAR sequence and the potential sites of positioned nucleosomes suggest the sites where a competition between core histone octamers and protein transcription factors for DNA might be found. This approach might provide a novel technique to diagnose for the regulatory or nonregulatory function of a stretch of DNA. Furthermore, MARs are proposed to constitute important regulatory elements of genes in addition to enhancers, promoters, silencers, locus control regions, and origins of replication. Additional parameters such as interaction of a transcription factor with other transcription factors fixed at vicinal sites, DNA methylation, intrinsic DNA curvature torsional strain, and nucleosome positioning might also determine the high-affinity binding of a transcription factor to its functional sites and its exclusion from or low affinity binding to other nonregulatory regions.

Excision close to matrix attachment regions of the entire chicken alpha-globin gene domain by nuclease S1 and characterization of the framing structures

Nuclease S1-hypersensitive sites in a 40-kb region of the chicken genome including the domain of the alpha-globin genes were mapped. Brief treatment of isolated chicken erythroid cell nuclei with nuclease S1 allowed separation of an approximately 20-kb genomic DNA fragment containing the whole alpha-globin gene cluster. No S1-hypersensitive sites were observed in the internal part of the domain. The upstream S1 site was found in a DNA fragment of 1.7 kb where the origin of replication and several protein binding sites were identified previously. Precise mapping of the positions of S1 cleavage in this fragment and "in vivo" footprinting of DNA-protein interactions in isolated nuclei showed a correspondence with some of these protein binding sites. The possible significance of all these observations is discussed in connection with the replication origin and the nuclear matrix attachment regions in the framing structures.

Primary sequence, evolution, and repetitive elements of the Gallus gallus (chicken) beta-globin cluster

The DNA sequence of the Gallus gallus (chicken) beta-globin cluster was completed and analyzed. This G + C-rich region is 23.7 kb in length and includes the rho-, beta H-, beta A-, and epsilon-globin genes, the enhancer found between the beta A and epsilon genes, and three upstream DNase I hypersensitive sites. The CpG dinucleotides are nonrandomly distributed, being present at an increased relative frequency near the promoters and upstream hypersensitive sites. The cluster has an unusually low TA dinucleotide frequency. The upstream hypersensitive sites (5'HS1, 5'HS2, and 5'HS3) contain DNA sequence motifs recognized by erythroid transcription factors. However, no significant sequence similarity was found among the upstream hypersensitive sites and the beta A/epsilon enhancer. The G. gallus upstream site sequences were not similar to the upstream sites of the mammalian globin clusters, probably due to the small size of the functional regions and large evolutionary distance between the classes. The avian cluster evolved by gene duplication from an ancestor beta-globin gene, first producing the epsilon and the rho/beta H/beta A ancestor genes, then the rho and the beta H/beta A ancestor genes, and finally the beta H- and beta A-globins. Four probable gene conversions can be documented: beta A to beta H, epsilon to beta H, and rho/epsilon (twice). The cluster shows a massive overrepresentation of a non-LTR retrotransposon, CR1, which accounts for 16% of the DNA. We suggest that the locus is a preferred site for CR1 insertion.

Silencer and enhancer elements located at the 3'-side of the chicken and duck alpha-globin-encoding gene domains

Enhancer activities have been observed in DNA fragments up to 1.36 kb long located on the 3'-side of the cluster of the three alpha-type globin-encoding genes in duck [Kretsovali et al., C.R. Acad. Sci. Paris 307 (1988) 563-568] and chicken [Knezetic and Felsenfeld, Mol. Cell. Biol. 9 (1989) 893-901]. We report here the identification of a chicken silencer element placed upstream from the three GATA-1 sites which constitute the core enhancer element in both species. This silencer element can autonomously reduce the activity of promoters for thymidine kinase and alpha D globin. Band shifts and DNase I footprinting experiments using nuclear extracts from thermosensitive avian erythroblastosis virus-transformed chicken erythroblasts led to the delineation of three sites for DNA-binding proteins within the silencer element.

Nature of DNA sequences at the attachment regions of genes to the nuclear matrix

Matrix-attached regions (MARs) have been demonstrated to nest origins of replication and transcriptional enhancers. A set of 13 rules is proposed aimed at facilitating the classification of a DNA sequence as a matrix attachment region.(ABSTRACT TRUNCATED AT 250 WORDS)

Homeodomain protein binding sites, inverted repeats, and nuclear matrix attachment regions along the human beta-globin gene complex

beta-Globin genes in primates arose during evolution by duplication of an ancestral gene, and their order of arrangement along the DNA is related to their timing of expression during development. We believe that nuclear matrix anchorage sites (MARs) along the beta-globin gene complex considered to be mass binding sites for transcription protein factors, some of which are developmental stage specific and others ubiquitous, play a decisive role in cell memory by determining the developmental stage-specific expression of the genes. The AT-rich class of MARs appears to possess a significant number of ATTA and ATTTA motifs known to be mass binding sites for homeodomain proteins that determine body formation in development. MARs also appear to harbor origins of replication, to be enriched in inverted repeats (dyad symmetry motifs) and were proposed to include the DNase I hypersensitive sites of a particular gene determined at the chromatin level. This study is an attempt to finely identify MARs at the nucleotide level along the beta-globin gene complex. Searches of a contiguous stretch of about 73.3 kb of human sequences comprising and surrounding the epsilon, gamma G-, gamma A-, delta-, and beta-globin genes of the human beta-globin gene complex for homeotic protein binding sites as well as for inverted repeats has shown that these elements are clustered nonrandomly at particular sites within the beta-globin gene complex. These sites are presumed to be the AT-rich class of MARs of the beta-globin gene complex. The inverted repeats which are characteristic of origins of replication and some promoter/enhancer regions and the homeotic protein sites seem to include the DNase I hypersensitive sites of the gene complex. Indeed, dyad symmetry sequences are present close to the four DNase I HS sites in the locus control region (LCR) of the gene complex as well as in the 5' flanking regions and the large introns of the delta- and beta-globin genes. A search of the putative MAR regions of the gene complex suggests that, in addition to their enrichment in ATTA motifs, palindromes, and DNase I hypersensitive sites, these regions may comprise TG-rich motifs and potential Z-DNA as well as polypurine and polypyrimidine blocks. From the positions of palindromes and clusters of homeodomain protein sites along the complex we propose that an extended origin of replication able to initiate at several sites is present in the LCR and two others surrounding the delta- and beta-globin genes.(ABSTRACT TRUNCATED AT 400 WORDS)

The sequence-specific nuclear matrix binding factor F6 is a chicken GATA-like protein

The sequence-specific DNA-binding protein factor F6, which binds upstream of the cluster of the chicken alpha-globin genes, has previously been found to interact with a DNA fragment containing a replication origin and a nuclear matrix binding site. This protein has been partially characterized. Based on its molecular weight and binding affinity, F6 belongs to a family of GATA proteins, the chicken equivalent of transcription factor NFE-1. An oligonucleotide including the binding site for F6 competes for binding of the above-mentioned DNA fragment to the nuclear matrix. This indicates an involvement of this protein in the interaction between DNA and the nuclear matrix.

Interaction with the nuclear matrix of a chimeric construct containing a replication origin and a transcription unit

We have studied the interaction of a chimeric construct containing an origin of replication (from bovine papilloma virus) and a hormonally regulated transcription unit (long terminal repeat from the mouse mammary tumor virus, driving the v-Ha-ras gene) with the nuclear scaffold and matrix from mouse fibroblasts. We used two experimental approaches because the nuclear matrix protein composition depends largely on the isolation conditions, making its definition mostly operational. In situ studies and in vitro experiments performed in 1361.5 cells, a cell line in which multiple copies of the construct have been established, indicate that two interesting regions of the construct interact with the nuclear matrix. The first region is located in the v-Ha-ras gene 5'-flanking sequences. These sequences come from the Harvey virus and contain a piece of the virus like 30S (VL30) sequences in which the v-Ha-ras gene is embedded. This DNA fragment was coupled to the thymidine kinase (TK) promoter driving the reporter luciferase gene and assayed in transient transfection experiments. Its insertion, in the sense orientation, upstream of the TK promoter resulted in a moderate enhancement (2-3-fold) of the luciferase activity. The second region is the most interesting from a physiological point of view. It contains the plasmid maintenance sequence 1 (PMS-1) and the core origin of replication of the bovine papilloma virus. Differences in the results from in situ (nuclear scaffold) and in vitro (nuclear matrix) experiments suggest that the components involved in the interaction with PMS-1 and the viral origin of replication are different. This may be of importance in the context of the recently proposed view that PMS-1 could be part of a composite origin of replication and provide information at a distance.

Organization of specific DNA sequence elements in the region of the replication origin and matrix attachment site in the chicken alpha-globin gene domain

The distribution of specific DNA sequence elements in a 2.9 kb HindIII fragment of chicken DNA containing the replication origin and the upstream matrix attachment site (MAR) of the alpha-globin gene domain was investigated. The fragment was shown to contain a CR1-type repetitive element and two stably bent DNA sequences. One of them colocalizes with the previously described MAR element and with the recognition site for a proliferating-cell-specific, DNA-binding protein. The melting pattern of a set of subfragments of the region proved to be non random. No correlation between the distribution of readily melting sequences and bent DNA was found. The possible importance of curved, low-melting and repetitive DNA sequences for the organization of the upstream boundary of the alpha-globin gene domain and the function of the replication origin is discussed.

Homeotic protein binding sites, origins of replication, and nuclear matrix anchorage sites share the ATTA and ATTTA motifs

Nuclear matrix organizes the mammalian chromatin into loops. This is achieved by binding of nuclear matrix proteins to characteristic DNA landmarks in introns as well as proximal and distal sites flanking the 5' and 3' ends of genes. Matrix anchorage sites (MARs), origins of replication (ORIs), and homeotic protein binding sites share common DNA sequence motifs. In particular, the ATTA and ATTTA motifs, which constitute the core elements recognized by the homeobox domain from species as divergent as flies and humans, are frequently occurring in the matrix attachment sites of several genes. The human apolipoprotein B 3' MAR and a stretch of the Chinese hamster DHFR gene intron and human HPRT gene intron shown to anchor these genes to the nuclear matrix are mosaics of ATTA and ATTTA motifs. Several origins of replication also share these elements. This observation suggests that homeotic proteins which control the expression level of many genes and pattern formation during development are components of the nuclear matrix. Thus, the nuclear matrix, known as the site of DNA replication, might sculpture the crossroads of the differential activation of origins during development and S-phase and the control of gene expression and pattern formation in embryogenesis.

DNA loops: structural and functional properties of scaffold-attached regions

The long DNA molecules of eukaryotic genomes appear to be organized into large loops formed by the binding of dispersed DNA sequences to non-histone proteins. This partitioning of DNA into topologically constrained units constitutes one of the highest orders of DNA packing in chromosomes. DNA loops are likely to define functional units as well as topological domains, contributing to the regulation of gene expression and DNA replication. This review presents recent work on the properties of the DNA sequences and proteins thought to be involved in loop formation, and on their possible significance for replication and transcription.

The presence of sequence-specific protein binding sites correlate with replication activity and matrix binding in a 1.7 Kb-long DNA fragment of the chicken alpha-globin gene domain

Several recognition sites for novel sequence-specific DNA-binding proteins were found at the 5'-side of the chicken alpha-globin gene domain in a 1.7 Kbp DNA fragment. This fragment includes the replication origin, a non tissue-specific transcriptional enhancer, a DNAse I hypersensitive site and a permanent site of DNA attachment to the nuclear matrix. Most of the identified protein binding sites differ from previously known consensus sequences. Two sites coincide with MARs located at the 5'-end of the 1.7 kbp fragment. The proteins interacting with these two recognition sites were observed only in proliferating cells and were virtually absent in the extracts obtained from the nonreplicating differentiated form of the same cells. One of them seems to belong to the GATA protein family, but its presence in nuclear extracts correlates with cell proliferation rather than expression of the domain.

Genomic organization and expression during embryogenesis of the chicken CR1 repeat

CR1 is one of the middle repetitive sequence elements present in the chicken genome. One such repetitive element (GG1-CR1) was found upstream of the chicken CHox E homeobox gene. Sequencing of GG1-CR1 demonstrated that it is one of the longest CR1 elements analyzed. Detailed comparison of all the CR1 sequences published has revealed three subfamilies of CR1 repeats containing various parts of the consensus sequence. We prepared DNA fragments from GG1-CR1 and used them to probe Southern blots and genomic and cDNA library lifts. The results confirm the division of CR1 into three subelements, two of which occur independently in many places in the genome. Northern blot analysis of the CR1 to chicken embryo RNA showed that the CR1 repeat can be part of poly(A)+ transcripts. These results suggest that the CR1 can be transcribed by readthrough from the promoter of the neighboring gene without detrimental effects on the expression of the gene itself. The level of CR1 containing transcripts rises during the first 5 days of embryonic development and then decreases.

Protein-binding A + T-rich motifs flank the duck beta A-globin enhancer

The duck beta A-globin (beta GLB) enhancer DNA was analysed by footprinting for sites of specific binding of proteins extracted from duck erythrocytes. The results were compared with previously determined protein binding to the homologous region in chicken DNA. Two A + T-rich protein-binding sites, not recognized in chicken, were found at the 5'-end and the 3'-end of the duck beta GLB enhancer. The 5'-motif (designated BS-1; 5'-AAACAAAATGAA) binds proteins extracted from both embryonic and adult erythrocytes, while the 3'-motif (BS-2; 5'-ATAAACAAGGTC) binds protein from embryonic cells only.

Mapping of structural and transcription-related matrix attachment sites in the alpha-globin gene domain of avian erythroblasts and erythrocytes

The positions of preferential DNA interaction with the nuclear matrix were mapped within the domain of the chicken alpha-globin genes in transcriptionally active erythroblast nuclei and inactive nuclei of mature erythrocytes. In the latter, only two major distinct attachment sites were observed, close to the A + T-rich sequences previously found at the boundaries of the domain. Sequencing of these structural matrix attachment points revealed several known DNA motifs; some of them were present on both sides of the domain. In actively transcribing erythroblast nuclei of adult animals, a large fraction of the transcribed area was represented in nuclear matrix DNA, including upstream and downstream elements. In particular, adult alpha A- and alpha D-globin genes were found in matrix DNA, while the transcribed but translationally unexpressed embryonic pi gene was underrepresented. The data are discussed in terms of the existence of stable or structural and expression-related matrix attachment sites; correlations to the origin of replication and the units of transcription of the domain are shown.

Short interspersed repeats from Xenopus that contain multiple octamer motifs are related to known transposable elements

We have identified in an intron of an X. laevis alpha-tubulin gene a member of a novel family of short (226-431 bp) interspersed repetitive elements. We have isolated other members of this family, which we term Ocr, from ovary cDNA and genome libraries and have identified another two in the published sequences of an H1B histone gene cluster and an actin gene intron. The termini of the Ocr elements are formed by a 19 bp inverted repeat that has clear sequence homologies to those of certain large transposable elements, such as 1723 (Xenopus) and Ac (maize). However, the Ocr elements do not appear to be deletion derivatives of larger transposons. The internal regions of the Ocr elements contain multiple copies of the octamer motif (ATTTGCAT) arranged as divergently-orientated dyads. We have shown by a gel mobility shift assay that these octamer dyads specifically bind what is presumably an OTF-type activator protein in oocyte nuclear extracts. We speculate that short interspersed repetitive families of this type may be generated by a mechanism of replicative transposition that uses a DNA intermediate and involves the interaction of DNA-binding proteins also utilised in other cellular processes.

Mapping of structural and transcription-related matrix attachment sites in the alpha-globin gene domain of avian erythroblasts and erythrocytes

The positions of preferential DNA interaction with the nuclear matrix were mapped within the domain of the chicken alpha-globin genes in transcriptionally active erythroblast nuclei and inactive nuclei of mature erythrocytes. In the latter, only two major distinct attachment sites were observed, close to the A + T-rich sequences previously found at the boundaries of the domain. Sequencing of these structural matrix attachment points revealed several known DNA motifs; some of them were present on both sides of the domain. In actively transcribing erythroblast nuclei of adult animals, a large fraction of the transcribed area was represented in nuclear matrix DNA, including upstream and downstream elements. In particular, adult alpha A- and alpha D-globin genes were found in matrix DNA, while the transcribed but translationally unexpressed embryonic pi gene was underrepresented. The data are discussed in terms of the existence of stable or structural and expression-related matrix attachment sites; correlations to the origin of replication and the units of transcription of the domain are shown.