The complete 30-base-pair origin region of bacteriophage phi X174 in a plasmid is both required and sufficient for in vivo rolling-circle DNA replication and packaging

The origin of replication of the isometric single-stranded DNA bacteriophages is located in a specific sequence of 30 nucleotides, the origin region, which is highly conserved in these phage genomes. Plasmids harboring this origin region are subject to rolling-circle DNA replication and packaging of single-stranded (ss) plasmid DNA into phage coats in phi X174 or G4-phage-infected cells. This system was used to study the nucleotide sequence requirements for rolling-circle DNA replication and DNA packaging employing plasmids which contain the first 24, 25, 26, 27, 28 and the complete 30-base-pair (bp) origin region of phi X174. No difference in plasmid ss DNA packaging was observed for plasmids carrying only the 30-bp origin region and plasmids carrying the 30-bp origin region plus surrounding sequences (i.e. plasmids carrying the HaeIII restriction fragment Z6B of phi X174 replicative-form DNA). This indicates that all signals for DNA replication and phage morphogenesis are contained in the 30-bp origin region and that no contribution is made by sequences which immediately surround the origin region in the phi X174 genome. The efficiency of packaging of plasmid ssDNA for plasmids containing deletions in the right part of the origin region decreases drastically when compared with the plasmid containing the complete 30-bp origin region (for a plasmid carrying the first 28 bp of the origin region to approximately 5% and 0.5% in the phi X174 and G4 systems respectively). Previous studies [Fluit, A.C., Baas, P.D., van Boom, J.H., Veeneman, G.H. and Jansz, H.S. (1984) Nucleic Acids Res. 12, 6443--6454] have shown that the presence of the first 27 bp of the origin region is necessary as well as sufficient for cleavage of the viral strand in the origin region by phi X174 gene A protein. Moreover, Brown et al. [Brown, D.R., Schmidt-Glenewinkel, T., Reinberg, D. and Hurwitz, J. (1983) J. Biol. Chem. 258, 8402--8412] have shown that omission of the last 2 bp of the origin region does not interfere with phi X174 rolling-circle DNA replication in vitro. Our results therefore suggest that for optimal phage development in vivo, signals in the origin region are utilized which have not yet been noticed by the in vitro systems for phi X174 phage DNA replication and morphogenesis.     

Roles of a 106-bp origin enhancer and Escherichia coli DnaA protein in replication of plasmid R6K.

A dnaA 'null' strain could not support replication of intact plasmid R6K or derivatives containing combinations of its three replication origins (alpha, gamma, beta). DnaA binds in vitro to sites in two functionally distinct segments of the central gamma origin. The 277-bp core segment is common to all three origins and contains DnaA box 2, which cannot be deleted without preventing replication. Immediately to the left of the core lies the 106-bp origin enhancer, which contains DnaA box 1. When the origin enhancer is deleted, the core alone can still initiate replication if levels of wt pi protein are decreased or if copy-up pi mutant proteins are provided in trans. DnaA does not effect expression of R6K replication initiator protein pi, although several DnaA boxes were identified in the coding segment of the pir gene, which encodes pi. Together these data suggest that a single DnaA box, 2, is sufficient for initiation from the gamma origin and might be sufficient for initiation from the gamma origin and might be sufficient and required for the activity of the alpha and beta origins as well. Implications of the DnaA protein binding to two domains of the gamma origin and the role of the 106-bp origin enhancer in replication are discussed.     

DnaA box sequences as the site for helicase delivery during plasmid RK2 replication initiation in Escherichia coli

DnaA box sequences are a common motif present within the replication origin region of a diverse group of bacteria and prokaryotic extrachromosomal genetic elements. Although the origin opening caused by binding of the host DnaA protein has been shown to be critical for the loading of the DnaB helicase, to date there has been no direct evidence presented for the formation of the DnaB complex at the DnaA box site. For these studies, we used the replication origin of plasmid RK2 (oriV), containing a cluster of four DnaA boxes that bind DnaA proteins isolated from different bacterial species (Caspi, R., Helinski, D. R., Pacek, M., and Konieczny, I. (2000) J. Biol. Chem. 275, 18454-18461). Size exclusion chromatography, surface plasmon resonance, and electron microscopy experiments demonstrated that the DnaB helicase is delivered to the DnaA box region, which is localized approximately 200 base pairs upstream from the region of origin opening and a potential site for helicase entry. The DnaABC complex was formed on both double-stranded superhelical and linear RK2 templates. A strict DnaA box sequence requirement for stable formation of that nucleoprotein structure was confirmed. In addition, our experiments provide evidence for interaction between the plasmid initiation protein TrfA and the DnaABC prepriming complex, formed at DnaA box region. This interaction is facilitated via direct contact between TrfA and DnaB proteins.     

Cooperative binding of initiator protein to replication origin conferred by single amino acid substitution.

The replication initiator protein pi of plasmid R6K binds seven 22 bp direct repeats (DR) in the gamma origin. The pi protein also binds to an inverted repeat (IR) in the operator of its own gene, pir, which lies outside the gamma origin sequences. A genetic system was devised to select for pi protein mutants which discriminate between IR and DR (York et al., Gene (Amst.) 116, 7-12, 1992; York and Filutowicz, J. Biol. Chem. 268, 21854-21861, 1993). From this selection the mutant pi S87N protein was isolated which is deficient in repressing the pir gene's expression because it cannot bind to IR at the pir gene operator. Remarkably, we discovered that pi S87N binds to DR cooperatively under conditions where wt pi binds independently. Moreover, the pi S87N is more active as a replication initiator in vivo when supplied at the same level as wt pi. Quantitative binding assays showed that both wt pi and pi S87N bind a DNA fragment containing a single DR unit with a similar affinity (Kd = 0.3 x 10(-12) M). Thus, cooperativity of pi S87N is most likely achieved through altered interactions between promoters bound at adjacent DR units.     

DNA segments of the IncX plasmid R485 determining replication and incompatibility with plasmid R6K

The expression of incompatibility properties between the IncX plasmids R6K and R485 of Escherichia coli was examined. For small autonomously replicating derivatives of both plasmid elements, the requirements for incompatibility expression include a functional R485 replicon and an active R6K beta-origin region. Functional R6K alpha and gamma origins are not directly involved in incompatibility expression between R6K and R485. A trans-acting replication system was constructed for plasmid R485. It consists of a 3.2-(kb) DNA fragment of R485 that specifies a product(s) in trans which supports replication from an R485 origin plasmid. A minimal R485 origin region of 591 bp was derived utilizing this trans-acting replication system and the nucleotide sequence of this origin region determined. The most striking feature of the sequence is the presence of six tandem 22-bp nucleotide sequence direct repeats.     

Simian virus 40 DNA replication: functional organization of regulatory elements.

The efficiency of simian virus 40 (SV40) DNA replication is dependent on the structural organization of the regulatory region. The enhancing effect of the G + C-rich 21-base-pair (bp) repeats on SV40 DNA replication is position and dose dependent and to some extent orientation dependent. The inverted orientation is about 50% as effective as the normal orientation of the 21-bp repeat region. Movement of the 21-bp repeat region 180 or 370 bp upstream of the ori sequence abolishes its enhancing effect, whereas no replication is detected if the 21-bp repeat region is placed downstream of the ori sequence. The dose-dependent enhancement of the 21-bp repeat of SV40 DNA replication as first described in single transfection by Bergsma et al. (D. J. Bergsma, D. M. Olive, S. W. Hartzell, and K. N. Subramanian, Proc. Natl. Acad. Sci. USA 79:381-385, 1982) is dramatically amplified in mixed transfection. In the presence of the 21-bp repeat region, the 72-bp repeat region can enhance SV40 DNA replication. In the presence of the 21-bp repeats and a competitive environment, the 72-bp repeat region exhibits a cis-acting inhibitory effect on SV40 DNA replication.     

Activation in vivo of the minimal replication origin beta of plasmid R6K requires a small target sequence essential for DNA looping.

The plasmid R6K contains three distinct origins of replication: alpha, beta, and gamma. The gamma sequence is essential in cis and acts as an enhancer that activates the distant alpha and beta origins. R6K therefore represents a favorable procaryotic model system with which to unravel the biochemical mechanisms underlying selective origin activation, particularly activation involving distant sites on the same chromosome. We have discovered that plasmids containing the origins alpha and gamma required the Escherichia coli DnaA initiator protein in addition to the R6K-encoded initiator protein, Pi, and other host replisomal proteins for their maintenance in vivo. Plasmids initiating replication from origin beta required only the Pi initiator protein and other host replisomal proteins. We have exploited the differential requirement for the DnaA protein by origins gamma and beta to selectively study and localize the minimal origin beta sequences by deletion analysis as one test of a looping model of origin activation. A 64-bp region spanning the extreme -COOH terminal coding sequence of the Pi protein was found to be essential for replication in vivo in the absence of DnaA protein, consistent with the approximate physical location of the beta origin. Replication emanating from origin beta could be abolished in vivo by deletion of the 9-bp target site for Pi protein-mediated DNA looping between the gamma origin/enhancer and the distant beta origin. Electron microscopy of nascent replication intermediates generated in vivo directly confirmed our genetic localization of the beta origin. Our results strongly suggest that activation of the beta origin by a distant replication enhancer element requires a small target sequence essential for initiator protein-mediated DNA looping.     

Cloning and expression of human core 1 beta1,3-galactosyltransferase.

The common core 1 O-glycan structure Galbeta1--> 3GalNAc-R is the precursor for many extended mucin-type O-glycan structures in animal cell surface and secreted glycoproteins. Core 1 is synthesized by the transfer of Gal from UDP-Gal to GalNAcalpha1-R by core 1 beta3-galactosyltransferase (core 1 beta3-Gal-T). Amino acid sequences from purified rat core 1 beta3-Gal-T (Ju, T., Cummings, R. D., and Canfield, W. M. (2002) J. Biol. Chem. 277, 169-177) were used to identify the core 1 beta3-Gal-T sequences in the human expressed sequence tag data bases. A 1794-bp human core 1 beta3-Gal-T cDNA sequence was determined by sequencing the expressed sequence tag and performing 5'-rapid amplification of cDNA ends. The core 1 beta3-Gal-T predicts a 363-amino acid type II transmembrane protein. Expression of both the full-length and epitope-tagged soluble forms of the putative enzyme in human 293T cells generated core 1 beta3-Gal-T activity that transferred galactose from UDP-Gal to GalNAcalpha1-O-phenyl, and a synthetic glycopeptide with Thr-linked GalNAc and the product was shown to have the core 1 structure. Northern analysis demonstrated widespread expression of core 1 beta3-Gal-T in tissues with a predominance in kidney, heart, placenta, and liver. Highly homologous cDNAs were identified and cloned from rat, mouse, Drosophila melanogaster, and Caenorhabditis elegans, suggesting that the enzyme is widely distributed in metazoans. The core 1 beta3-Gal-T sequence has minimal homology with conserved sequences found in previously described beta3-galactosyltransferases, suggesting this enzyme is only distantly related to the known beta3-galactosyltransferase family.     

Multicomponent origin of cytomegalovirus lytic-phase DNA replication.

Cytomegalovirus (CMV) lytic-phase DNA replication requires both trans-acting factors, such as the virus-coded DNA polymerase, and a previously undefined cis-acting element, the origin, within which initiation occurs. We have located a candidate origin of CMV lytic-phase DNA replication, oriLyt, in both simian and human strains by assessing the ability of cloned restriction fragments to mediate phosphonoformic acid-sensitive DNA replication after transfection into human fibroblasts when required trans-acting factors were supplied by infection. In initial experiments the simian CMV-like strain Colburn EcoRI D fragment directed DNA replication; this fragment contains all of the single-stranded DNA-binding protein gene (dbp) and about 7 kbp of upstream sequence. A larger region upstream of human CMV dbp also mediated replication in transient assays. Subsequent subcloning and deletion analyses defined a CMV strain Colburn region sufficient for origin function, spanning about 1,300 bp in the apparently noncoding region upstream of dbp. The nucleotide sequence of this region revealed four distinct domains, containing (i) a 9-bp repeated sequence, (ii) an A+T-rich segment, (iii) an 11-bp direct repeat, and (iv) a 47-bp direct repeat. At least some part of each of these domains was required for origin function. Therefore, like the Epstein-Barr virus lytic-phase origin of DNA replication, CMV oriLyt appears to be structurally complex.     

The integration host factor of Escherichia coli binds to multiple sites at plasmid R6K gamma origin and is essential for replication.

Examination of the effect of the himA and himD mutants of E. coli on the maintenance of plasmid R6K has revealed that the gamma origin-containing replicons cannot be established in any of the mutants deficient in the production of E. coli Integration Host Factor (IHF). Contrary, the R6K derivatives containing other origins of the plasmid (alpha and/or beta) replicate in a host lacking functional IHF protein. We show that IHF protein binds specifically to a segment of the replication region which is essential for the activity of all three R6K origins. Mapping the IHF binding sequence with neocarzinostatin showed that the protein protects three segments of the origin: two strong binding sites reside within an AT-rich block, while the third, considerably weaker site is separated from the other two by a cluster of the seven 22 bp direct repeats. These seven repeats have been shown previously to bind the R6K-encoded initiator protein pi. We also demonstrate that the establishment of pi-origin complexes prior to IHF addition prevents the binding of the IHF protein to the gamma origin. The binding sequences of IHF and pi proteins do not overlap, therefore, we propose that the binding of pi protein alters the structure of the DNA and thereby prevents the subsequent binding of IHF protein.     

Conformational changes in a replication origin induced by an initiator protein

The replication initiator protein of the plasmid R6K binds to seven contiguous 22 bp direct repeats that form an indispensable part of the three replication origins alpha, beta, and gamma. Binding of the initiator to the direct repeats induced a marked bending of the region of gamma replication origin. Binding of the initiator also promoted unwinding of the origin DNA by at least two turns. Distamycin appeared to antagonize the binding of the initiator to the seven 22 bp direct repeats. At the appropriate DNA and protein concentrations the initiator enhanced topoisomerase-induced catenation of the origin containing supercoiled DNA but not of DNA lacking the origin sequence. Thus, the initiator protein caused significant changes in the secondary and tertiary structures of the replication origin.     

The DnaK-DnaJ-GrpE chaperone system activates inert wild type pi initiator protein of R6K into a form active in replication initiation

The plasmid R6K is an interesting model system for investigating initiation of DNA replication, not only near the primary binding sites of the initiator protein pi but also at a distance, caused by pi -mediated DNA looping. An important milestone in the mechanistic analysis of this replicon was the development of a reconstituted replication system consisting of 22 different highly purified proteins (Abhyankar, M. A., Zzaman, S., and Bastia, D. (2003) J. Biol. Chem. 278, 45476-45484). Although the in vitro reconstituted system promotes ori gamma-specific initiation of replication by a mutant form of the initiator called pi*, the wild type (WT) pi is functionally inert in this system. Here we show that the chaperone DnaK along with its co-chaperone DnaJ and the nucleotide exchange factor GrpE were needed to activate WT pi and caused it to initiate replication in vitro at the correct origin. We show further that the reaction was relatively chaperone-specific and that other chaperones, such as ClpB and ClpX, were incapable of activating WT pi. The molecular mechanism of activation appeared to be a chaperone-catalyzed facilitation of dimeric inert WT pi into iteron-bound monomers. Protein-protein interaction analysis by enzyme-linked immunosorbent assay revealed that, in the absence of ATP, DnaJ directly interacted with pi but its binary interactions with DnaK and GrpE and with ClpB and ClpX were at background levels, suggesting that pi is recruited by protein-protein interaction with DnaJ and then fed into the DnaK chaperone machine to promote initiator activation.     

Sequence, organization, and evolution of the A+T region of Drosophila melanogaster mitochondrial DNA

The long (4.6-kb) A+T region of Drosophila melanogaster mitochondrial DNA has been cloned and sequenced. The A+T region is organized in two large arrays of tandemly repeated DNA sequence elements, with nonrepetitive intervening and flanking sequences comprising only 22% of its length. The first repeat array consists of five repeats of 338-373 bp. The second consists of four intact 464-bp repeats and a fifth partial repeat of 137 bp. Three DNA sequence elements are found to be highly conserved in D. melanogaster and in several Drosophila species with short A+T regions. These include a 300-bp DNA sequence element that overlaps the DNA replication origin and two thymidylate stretches identified on opposite DNA strands. We conclude that the length heterogeneity observed in the A+T regulatory region in mitochondrial DNAs from the genus Drosophila results from the expansion (and contraction) of the number of repeated DNA sequence elements. We also propose that the 300-bp conserved DNA sequence element, in conjunction with another primary sequence determinant, perhaps the adjacent thymidylate stretch, functions in the regulation of mitochondrial DNA replication.      

Characterization of the oriC region of Mycobacterium smegmatis.

A 3.5-kb DNA fragment containing the dnaA region of Mycobacterium smegmatis has been hypothesized to be the chromosomal origin of replication or oriC (M. Rajagopalan et al., J. Bacteriol. 177:6527-6535, 1995). This region included the rpmH gene, the dnaA gene, and a major portion of the dnaN gene as well as the rpmH-dnaA and dnaA-dnaN intergenic regions. Deletion analyses of this region revealed that a 531-bp DNA fragment from the dnaA-dnaN intergenic region was sufficient to exhibit oriC activity, while a 495-bp fragment from the same region failed to exhibit oriC activity. The oriC activities of plasmids containing the 531-bp sequence was less than the activities of those containing the entire dnaA region, suggesting that the regions flanking the 531-bp sequence stimulated oriC activity. The 531-bp region contained several putative nine-nucleotide DnaA-protein recognition sequences [TT(G/C)TCCACA] and a single 11-nucleotide AT-rich cluster. Replacement of adenine with guanine at position 9 in five of the putative DnaA boxes decreased oriC activity. Mutations at other positions in two of the DnaA boxes also decreased oriC activity. Deletion of the 11-nucleotide AT-rich cluster completely abolished oriC activity. These data indicate that the designated DnaA boxes and the AT-rich cluster of the M. smegmatis dnaA-dnaN intergenic region are essential for oriC activity. We suggest that M. smegmatis oriC replication could involve interactions of the DnaA protein with the putative DnaA boxes as well as with the AT-rich cluster.     

Analysis of the replication region of a mycobacterial plasmid, pMSC262.

We determined the nucleotide sequence of a DNA fragment which contains the replication region of pMSC262, a Mycobacterium scrofulaceum plasmid used to construct the Mycobacterium-Escherichia coli shuttle vector. The complete sequence of the fragment contained 2,504 bp with an overall G+C content of 69.8%. By deletion analysis, we found that the minimum length required for plasmid replication in M. bovis BCG was about 1.6 kb. Within this region, several open reading frames (ORFs) and a putative replication origin (ori) were identified by computer analysis. One of the ORFs, ORF2, which encodes a putative 28.9-kDa basic protein with characteristics of DNA-binding proteins, appeared to be involved in replication of the plasmid in BCG. By separation of ORF2 and the putative ori region, it was revealed that the relative locations of ORF2 and the putative ori region are likely important for replication in BCG. No DNA or amino acid homologies were found between this replication region and that of pAL5000, another mycobacterial plasmid used for vector plasmid construction. In addition, we found that this replicon did not lead to replication in E. coli and was compatible in BCG with pAL5000-derived vector plasmid pYUB75 (R. G. Barletta, D. D. Kim, S. B. Snapper, B. R. Bloom, and W. R. Jacobs, J., J. Gen. Microbiol. 138:23-30, 1992).