Deletion analysis of ors12, a centromeric,early activated,mammalian origin of DNA replication

We have generated a panel of deletion mutants of ors12 (812-bp), a mammalian origin of DNA replication previously isolated by nascent strand extrusion from early replicating African Green monkey (CV-1) DNA. The deletion mutants were tested for their replication activity in vivo by the bromodeoxyuridine substitution assay, after transfection into HeLa cells, and in vitro by the DpnI resistance assay, using extracts from HeLa cells. We identified a 215-bp internal fragment as essential for the autonomous replication activity of ors12. When subcloned into the vector pML2 and similarly tested, this subfragment was capable of autonomous replication in vivo and in vitro. Several repeated sequence motifs are present in this 215-bp fragment, such as TGGG(A) and G(A)AG (repeated four times each); TTTC, AGG, and CTTA (repeated 3 times each); the motifs CACACA and CTCTCT, and two imperfect inverted repeats, 22 and 16 bp long, respectively. The overall sequence of the 215-bp fragment is G/C-rich (50.2%), by comparison to the 186-bp (33.5% G/C-rich) minimal sequence required for the autonomous replication activity of ors8, another functional ors that was similarly isolated and characterized. J. Cell. Biochem. 66:87–97, 1997. © 1997 Wiley-Liss, Inc.     

Cofractionation of hela cell replication proteins with Ors-binding activity

Ors (origin enriched sequence) 8 is a mammalian autonomously replicating DNA sequence previously isolated by extrusion of nascent monkey (CV-1) DNA in early S phase. A 186 bp fragment of ors 8 has been identified as the minimal sequence required for origin function, since upon its deletion the in vivo and in vitro replication activity of this ors is abolished. We have fractionated total HeLa cell extracts on a DEAE-Sephadex and then on a Affi-Gel Heparin column and identified a protein fraction that interacts with the 186 bp fragment of ors 8 in a specific manner. The same fraction is able to support the in vitro replication of ors 8 plasmid. The ors binding activity (OBA) present in this fraction sediments at approximately 150 kDa in a glycerol gradient. Band-shift elution experiments of the specific protein-DNA complex detect by silver-staining predominantly two protein bands with molecular weights of 146 kDa and 154 kDa, respectively. The fraction containing the OBA is also enriched for polymerases α and δ, topoisomerase II, and replication protein A, (RP-A).     

Functional genomic mapping of an early-activated centromeric mammalian origin of DNA replication.

Ors12, a mammalian autonomously replicating sequence (812 bp), was previously isolated by extrusion of African green monkey (CV-1 cells) nascent DNA from active replication bubbles. It contains a region of alpha-satellite extending 168-bp from the 5'-end, and a nonrepetitive portion extending from nucleotide position 169 to nucleotide 812 that is present in less than nine copies per haploid genome. Ors12 is capable of transient autonomous DNA replication in vivo and in vitro, associates with the nuclear matrix in a cell cycle-dependent manner, and hybridizes at the centromeric region of six CV-1 cell chromosomes as well as a marker chromosome. To demonstrate that DNA replication initiates at ors12 at a native chromosomal locus, a 14.2 kb African green monkey genomic clone was isolated and sequence information was obtained that allowed us to generate eight sets of PCR primers spanning a region of 8 kb containing ors12. One set of primers occurred inside ors12. These primers were used to amplify nascent DNA strands from asynchronously growing CV-1 and African green monkey kidney (AGMK) cells, using noncompetitive and competitive PCR-based mapping methodologies. Both assays showed that DNA replication in vivo initiates preferentially in a 2.3 kb region containing ors12, as well as at a second site located 1.7 kb upstream of ors12. This study provides the first demonstration of genomic function for a centromeric mammalian origin of DNA replication, originally isolated by nascent strand extrusion.     

Fine mapping and functional activity of the adenosine deaminase origin in murine embryonic fibroblasts

DNA replication initiates at origins within the genome. The late-firing murine adenosine deaminase (mAdA) origin is located within a 2 kb fragment of DNA, making it difficult to examine by realtime technology. In this study, fine mapping of the mAdA region by measuring the abundance of nascent strand DNA identified two origins, mAdA-1 and mAdA-C, located 397 bp apart from each other. Both origins conferred autonomous replication to plasmids transfected in murine embryonic fibroblasts (MEFs), and exhibited similar activities in vivo and in vitro. Furthermore, both were able to recruit the DNA replication initiator proteins Cdc6 and Ku in vitro, similar to other bona fide replication origins. When tested in a murine Ku80(-/-) cell line, both origins exhibited replication activities comparable to those observed in wildtype cells, as did the hypoxanthine-guanine phosphoribosyltransferase (HPRT) and c-myc origins. This contrasts with previously published studies using Ku80-deficient human cells lines and suggests differences in the mechanism of initiation of DNA replication between the murine and human systems.     

Identification of novel initiation sites for human DNA replication around ARSH1, a previously characterized yeast replicator

Replication of mammalian chromosomes depends on the activation of a large number of origins of DNA replication distributed along the chromosomes. We have focused our attention on a human DNA region, named ARSH1, localized to chromosome 2, that had been previously shown to act as an episomal origin in the yeast Saccharomyces cerevisiae. In the present study we have used a nascent strand DNA abundance assay to map initiation sites for DNA replication in in vivo human chromosomes around a 5 kb region encompassing ARSH1. This analysis applied to a 1-1.4 kb nascent DNA strand fraction isolated from normal skin fibroblasts revealed the presence of two major initiations sites surrounding the ARSH1 region. With an equivalent DNA fraction obtained from HeLa cells, in addition to these sites, a broad initiation profile was observed which included the ARSH1 region. This DNA region however was not sufficient to support episomal replication of an ARSH1-containing plasmid transfected into HeLa cells.     

14-3-3sigma is a cruciform DNA binding protein and associates in vivo with origins of DNA replication

A human cruciform binding protein (CBP) was previously shown to bind to cruciform DNA in a structure-specific manner and be a member of the 14-3-3 protein family. CBP had been found to contain the 14-3-3 isoforms beta, gamma, epsilon, and zeta. Here, we show by Western blot analysis that the CBP-cruciform DNA complex eluted from band-shift polyacrylamide gels also contains the 14-3-3sigma isoform, which is present in HeLa cell nuclear extracts. An antibody specific for the 14-3-3sigma isoform was able to interfere with the formation of the CBP-cruciform DNA complex. The effect of the same anti-14-3-3sigma antibody in the in vitro replication of p186, a plasmid containing the minimal replication origin of the monkey origin ors8, was also analyzed. Pre-incubation of total HeLa cell extracts with this antibody decreased p186 in vitro replication to approximately 30% of control levels, while non-specific antibodies had no effect. 14-3-3sigma was found to associate in vivo with the monkey origins of DNA replication ors8 and ors12 in a cell cycle-dependent manner, as assayed by a chromatin immunoprecipitation (ChIP) assay that involved formaldehyde cross-linking, followed by immunoprecipitation with anti-14-3-3sigma antibody and quantitative PCR. The association of 14-3-3sigma with the replication origins was maximal at the G(1)/S phase. The results indicate that 14-3-3sigma is an origin binding protein involved in the regulation of DNA replication via cruciform DNA binding.     

Activity of the c-myc Replicator at an Ectopic Chromosomal Location

DNA replication starts at multiple discrete sites across the human chromosomal c-myc region, including two or more sites within 2.4 kb upstream of the c-myc gene. The corresponding 2.4-kb c-myc origin fragment confers autonomously replicating sequence (ARS) activity on plasmids, which specifically initiate replication in the origin fragment in vitro and in vivo. To test whether the region that displays plasmid replicator activity also acts as a chromosomal replicator, HeLa cell sublines that each contain a single copy of the Saccharomyces cerevisiae FLP recombinase target (FRT) sequence flanked by selectable markers were constructed. A clonal line containing a single unrearranged copy of the transduced c-myc origin was produced by cotransfecting a donor plasmid containing the 2.4-kb c-myc origin fragment and FRT, along with a plasmid expressing the yeast FLP recombinase, into cells containing a chromosomal FRT acceptor site. The amount of short nascent DNA strands at the chromosomal acceptor site was quantitated before and after targeted integration of the origin fragment. Competitive PCR quantitation showed that the c-myc origin construct substantially increased the amount of nascent DNA relative to that at the unoccupied acceptor site and to that after the insertion of non-myc DNA. The abundance of nascent strands was greatest close to the c-myc insert of the integrated donor plasmid, and significant increases in nascent strand abundance were observed at sites flanking the insertion. These results provide biochemical and genetic evidence for the existence of chromosomal replicators in metazoan cells and are consistent with the presence of chromosomal replicator activity in the 2.4-kb region of c-myc origin DNA.     

Initiation sites for human DNA replication at a putative ribulose-5-phosphate 3-epimerase gene

Replication of the human genome requires the activation of thousands of replicons distributed along each one of the chromosomes. Each replicon contains an initiation, or origin, site, at which DNA synthesis begins. However, very little information is known about the nature and positioning of these initiation sites along human chromosomes. We have recently focused our attention to a 1.1 kb region of human chromosome 2 which functioned as an episomal origin in the yeast Saccharomyces cerevisiae. This region corresponded to the largest exon of a putative ribulose-5-phosphate-3-epimerase gene (RPE). In the present study we have used a real-time PCR-based nascent strand DNA abundance assay to map initiation sites for DNA replication in in vivo human chromosomes around a 13.4 kb region encompassing the putative RPE gene. By applying this analysis to a 1-1.4 kb nascent strand DNA fraction isolated from both normal skin fibroblasts, and the breast cell line MCF10; we have identified five initiation sites within the 13.4 kb region of chromosome 2. The initiation sites appear to map to similar positions in both cell lines and occur outside the coding regions of the putative RPE gene.     

OBA/Ku86: DNA binding specificity and involvement in mammalian DNA replication

Ors-binding activity (OBA) was previously semipurified from HeLa cells through its ability to interact specifically with the 186-basepair (bp) minimal replication origin of ors8 and support ors8 replication in vitro. Here, through competition band-shift analyses, using as competitors various subfragments of the 186-bp minimal ori, we identified an internal region of 59 bp that competed for OBA binding as efficiently as the full 186-bp fragment. The 59-bp fragment has homology to a 36-bp sequence (A3/4) generated by comparing various mammalian replication origins, including the ors. A3/4 is, by itself, capable of competing most efficiently for OBA binding to the 186-bp fragment. Band-shift elution of the A3/4-OBA complex, followed by Southwestern analysis using the A3/4 sequence as probe, revealed a major band of approximately 92 kDa involved in the DNA binding activity of OBA. Microsequencing analysis revealed that the 92-kDa polypeptide is identical to the 86-kDa subunit of human Ku antigen. The affinity-purified OBA fraction obtained using an A3/4 affinity column also contained the 70-kDa subunit of Ku and the DNA-dependent protein kinase catalytic subunit. In vitro DNA replication experiments in the presence of A3/4 oligonucleotide or anti-Ku70 and anti-Ku86 antibodies implicate Ku in mammalian DNA replication.     

Mapping of an origin of DNA replication near the transcriptional promoter of the human HPRT gene

A quantitative PCR method was used to map a functional origin of DNA replication in the hypoxanthine-guanine phosphoribosyltransferase (HPRT) gene in normal human fibroblasts. This PCR method measures the abundance of specific sequences in short fragments of newly replicated DNA from logarithmically growing cells. Quantitative measurements rely on synthetic molecules (competitors) that amplify with the same primer sets as the target molecules, but generate products of different sizes. This method was first utilized to determine the position of the replication origin near the lamin B2 gene (Giacca et al. [1994] Proc. Natl. Acad. Sci. U S A. 91:7119-7123). In the present study, primer sets were tested along a 16-kb region near exon 1 of the HPRT gene. The most abundant fragment was found to be located in the first intron of HPRT, just downstream of the promoter and exon 1 of the gene, and approximately 3.5 kb upstream of a previously reported autonomously replicating sequence (Sykes et al. [1988] Mol. Gen. Genet. 212:301-309).     

The Chinese hamster dihydrofolate reductase replication origin beta is active at multiple ectopic chromosomal locations and requires specific DNA sequence elements for activity

To identify cis-acting genetic elements essential for mammalian chromosomal DNA replication, a 5.8-kb fragment from the Chinese hamster dihydrofolate reductase (DHFR) locus containing the origin beta (ori-beta) initiation region was stably transfected into random ectopic chromosomal locations in a hamster cell line lacking the endogenous DHFR locus. Initiation at ectopic ori-beta in uncloned pools of transfected cells was measured using a competitive PCR-based nascent strand abundance assay and shown to mimic that at the endogenous ori-beta region in Chinese hamster ovary K1 cells. Initiation activity of three ectopic ori-beta deletion mutants was reduced, while the activity of another deletion mutant was enhanced. The results suggest that a 5.8-kb fragment of the DHFR ori-beta region is sufficient to direct initiation and that specific DNA sequences in the ori-beta region are required for efficient initiation activity.     

Dynamic changes in chromatin structure through post‐translational modifications of histone H3 during replication origin activation

Genome duplication relies on the timely activation of multiple replication origins throughout the genome during S phase. Each origin is marked by the assembly of a multiprotein pre‐replication complex (pre‐RC) and the recruitment of the replicative machinery, which can gain access to replication origins on the DNA through the barrier of specific chromatin structures. Inheritance of the genetic information is further accompanied by maintenance and inheritance of the epigenetic marks, which are accomplished by the activity of histone and DNA modifying enzymes traveling with the replisome. Here, we studied the changes in the chromatin structure at the loci of three replication origins, the early activated human lamin B2 (LB2) and monkey Ors8 (mOrs8) origins and the late‐activated human homologue of the latter (hOrs8), during their activation, by measuring the abundance of post‐translationally modified histone H3. The data show that dynamic changes in the levels of acetylated, methylated and phosphorylated histone H3 occur during the initiation of DNA replication at these three origin loci, which differ between early‐ and late‐firing origins as well as between human‐ and monkey‐derived cell lines. These results suggest that specific histone modifications are associated with origin firing, temporal activation and replication fork progression and underscore the importance of species specificity. J. Cell. Biochem. 108: 400–407, 2009. © 2009 Wiley‐Liss, Inc.     

An inactive X specific replication origin associated with a matrix attachment region in the human X linked HPRT gene

Early in female mammalian embryogenesis, one of the two X chromosomes is inactivated to compensate the gene dosage between males and females. One of the features of X chromosome inactivation (XCI) is the late replication of the inactivated X chromosome. This study reports the identification, by competitive PCR of nascent DNA, of a replication origin in intron 2 of the human X-linked HPRT gene, that is functional only on the inactive X. Features frequently associated with replication origins, including a peak of enhanced DNA flexibility, a perfect match to the yeast ACS sequence, a 14/15 match to the Drosophila topoisomerase II consensus, and a 20/21 match to an initiation region consensus sequence, were identified close to the replication origin. The origin is located approximately 2 kb upstream of a matrix attachment region (MAR) and also contains two A:T-rich elements, thought to facilitate DNA unwinding.     

Classes of autonomously replicating sequences are found among early-replicating monkey DNA

Thirteen new independent clones of origin-enriched sequences (ors) that are capable of autonomous replication have been identified from a library of 100 ors i clones that had been previously isolated from early replicating monkey (CV-1) DNA. Autonomous replication was assayed by transient episomal replication in transfected HeLa cells; ors-plasmid DNA was isolated at various times after transfection and screened by the DpnI resistance assay and the bromodeoxyuridine (BrdUrd) substitution assay to differentiate between input and newly replicated DNA. Four of the autonomously replicating clones were identified by screening the ors-library with probes of ors 3, 8, 9 and 12, previously shown to be capable of autonomous replication (Frappier and Zannis-Hadjopoulos, Proc. Natl. Acad. Sci. USA (1987) 84, 6668-6672). The other nine functional ors clones were identified among 18 randomly chosen ones, which were similarly screened for autonomous replication. Nucleotide sequence analyses of 11 of the newly identified functional ors plasmids revealed, in most of them, features similar to those present in other viral or eukaryotic replication origins, notably the presence of AT-rich regions and inverted repeats. Pairwise comparisons between the newly identified ors showed no extensive sequence homologies, other than the presence of the alpha-satellite repetitive sequence family in three ors and of the repetitive Alu sequence family in one ors. The results suggest that there exist different classes of mammalian replication origin, highly or moderately repetitive and unique, and that their activation is most probably dependent on the presence of structural determinants rather than on a particular sequence.     

Broader utilization of origins of DNA replication in cancer cell lines along a 78 kb region of human chromosome 2q34

Human DNA replication depends on the activation of thousands of origins distributed within the genome. The actual distribution of origins is not known, nor whether this distribution is unique to a cell type, or if it changes with the proliferative state of the cell. In this study, we have employed a real‐time PCR‐based nascent strand DNA abundance assay, to determine the location of origins along a 78 kb region on Chr2q34. Preliminary studies using nascent DNA strands isolated from either HeLa and normal skin fibroblast cells showed that in both cell lines peaks of high origin activity mapped in similar locations. However, the overall origin profile in HeLa cells corresponded to broad origin activation zones, whereas in fibroblasts a more punctuated profile of origin activation was observed. To investigate the relevance of this differential origin profile, we compared the origin distribution profiles in breast cancer cell lines MDA‐MB‐231, BT‐474, and MCF‐7, to their normal counterpart MCF‐10A. In addition, the CRL7250 cell line was also used as a normal control. Our results validated our earlier observation and showed that the origin profile in normal cell lines exhibited a punctuated pattern, in contrast to broader zone profiles observed in the cancer cell lines. A quantitative analysis of origin peaks revealed that the number of activated origins in cancer cells is statistically larger than that obtained in normal cells, suggesting that the flexibility of origin usage is significantly increased in cancer cells compared to their normal counterparts. J. Cell. Biochem. 113: 132–140, 2012. © 2011 Wiley Periodicals, Inc.     

Partial purification and characterization of a cellular protein that binds to the SV40 core origin of DNA replication

A monkey cell factor that interacts specifically with double- and single-stranded DNA sequences in the early domain of the simian virus 40 (SV40) core origin of replication was identified using gel-retention assays. The protein was enriched over 1200-fold using ion-exchange and affinity chromatography on single-strand DNA cellulose. Binding of protein to mutant origin DNA restriction fragments was correlated with replication activity of the mutant DNAs. Exonuclease footprint experiments on single-stranded DNA revealed prominent pause sites in the early domain of the core origin. The results suggest that this cellular protein may be involved in SV40 DNA replication.     

The replication origin of proplastid DNA in cultured cells of tobacco

Summary When tobacco suspension culture line BY2 cells in stationary phase are transferred into fresh medium, replication of proplastid DNA proceeds for 24 h in the absence of nuclear DNA replication. Replicative intermediates of the proplastid DNA concentrated by benzoylated, naphthoylated DEAE cellulose chromatography, were radioactively labelled and hybridized to several sets of restriction endonuclease fragments of tobacco chloroplast DNA. The intermediates hybridized preferentially to restriction fragments in the two large inverted repeats. Mapping of D-loops and of restriction fragment lengths by electron microscopy permitted the localization of the replication origin, which was close to the 23S rRNA gene in the inverted repeats. The replication origins in both segments of the inverted repeat in tobacco proplastid DNA were active in vivo.