Papillomavirus contains cis-acting sequences that can suppress but not regulate origins of DNA replication.

Bovine papillomavirus (BPV) DNA has been reported to restrict its own replication and that of the lytic simian virus 40 (SV40) origin to one initiation event per molecule per S phase, which suggests BPV DNA replication as a model for cellular chromosome replication. Suppression of the SV40 origin required two cis-acting BPV sequences (NCOR-1 and -2) and one trans-acting BPV protein. The results presented in this paper confirm the presence of two NCOR sequences in the BPV genome that can suppress polyomavirus (PyV) as well as SV40 origin-dependent DNA replication as much as 40-fold. However, in contrast to results of previous studies on SV40, most of the suppression of the PyV origin was due to NCOR-1, a 512-bp sequence that functioned independently of distance or orientation with respect to the PyV origin and that was not required for BPV DNA replication. Moreover, NCOR-1 alone or together with NCOR-2 did not restrict the ability of the PyV ori to reinitiate replication within a single S phase and did not require any BPV protein to exert suppression. Furthermore, NCOR-1 did not suppress BPV origin-dependent DNA replication except in the presence of PyV large tumor antigen (T-ag). Since NCOR-1 suppression of PyV origin activity also varied with T-ag concentration, suppression of origins by NCOR sequences appeared to require papovavirus T-ag. Therefore, it is unlikely that NCOR sequences are involved in regulating BPV DNA replication. When these results are taken together with those from other laboratories, BPV appears to be a slowly replicating version of papovaviruses rather than a model for origins of DNA replication in eukaryotic cell chromosomes.     

A bovine papillomavirus type 1-encoded modulator function is dispensable for transient viral replication but is required for establishment of the stable plasmid state.

A bovine papillomavirus (BPV) type 1-encoded function (M) which is a negative regulator of viral plasmid replication has been described elsewhere (Berg et al. Cell, in press; Roberts and Weintraub, Cell, in press). We report here that expression of M, which is a repressor of transient BPV replication and is not required as a positive factor in these assays, is required for the establishment of the viral genome as a stable nuclear plasmid. This function is encoded in part by the 5' portion of the BPV E1 open reading frame, whereas the 3' part of this open reading frame encodes a positive replication function (R). The R function is required for early replication events. We used transient replication assays to define the phenotypes of mutants in both the R and M genes and complementation tests to show that R and M define two separate genes. We showed that R- and M- mutants could also complement each other in stable assays. In cotransfection experiments, M- mutants had a lethal effect on the growth of G418-resistant colonies, and in addition their morphological transformation efficiencies were reduced. The rare colonies which did appear contained the mutant DNA integrated into the cellular genome. R- mutants transformed with wild-type efficiency, and the mutant DNA was also found integrated. When cotransfected, R- and M- mutants could each be established as unrearranged plasmids.     

DNA helicase and duplex DNA fragment unwinding activities of polyoma and simian virus 40 large T antigen display similarities and differences.

We have characterized the biochemical activities of purified polyoma (Py) large T antigen (T Ag) that was capable of mediating the replication of a plasmid containing the Py origin (ori(+) DNA) in mouse cell extracts. We report here that like the T Ag encoded by simian virus 40 (SV40), Py T Ag has DNA helicase and double-stranded DNA fragment unwinding activities. Py T Ag displaced DNA fragments greater than 1,600 nucleotides which were annealed to complementary sequences in single-stranded M13 by translocating in the 3' to 5' direction. Both helicase and double-stranded DNA fragment unwinding reactions were completely dependent upon NTP hydrolysis, displaying a strong preference for ATP and dATP. At low T Ag concentrations, significantly more Py ori(+) DNA fragment was unwound compared with a fragment lacking the replication origin. However, at higher ratios of Py T Ag to DNA, equivalent to those used in replication reactions, unwinding of both ori-containing and -lacking fragments was equally efficient. This is in contrast to SV40 T Ag which exhibited a more stringent requirement for SV40 origin sequences under similar conditions. Furthermore, some of the nucleotides that supported the helicase and unwinding activities of Py T Ag were different from those for the same SV40 T Ag reactions. We have also observed that in contrast to the very poor replication of linear SV40 ori(+) DNA by SV40 T Ag in human cell extracts, linear Py ori(+) DNA was replicated efficiently in mouse cell extracts by Py T Ag. However, despite the fact that linear Py ori(+), SV40 ori(+), and ori(-) DNA fragments could be unwound with comparable efficiency by Py T Ag, only fragments containing the Py replication origin were replicated in vitro. These results suggest that the initiation of DNA synthesis at the Py origin of replication requires features in addition to unwinding of the template.     

Mapping of the 3'-end positions of simian virus 40 nascent strands

Using the instability of replication loops as the basis for the isolation of replication origins, we have undertaken an analysis of the 3' ends of the extruded nascent strands of replicating simian virus 40 (SV40) DNA. DNA fragments containing the SV40 origin of replication were obtained by digesting highly purified replicative intermediates of SV40 with BamHI and then heating at 55 degrees C for 16h. The origin-containing fragments extruded under these conditions were purified and cloned into pBR322. We used restriction mapping to analyze 640 clones of the 674 that contained SV40 sequences. A large majority of the clones were found to contain rearrangements in the sequences of either pBR322 or SV40 and were disregarded. Those clones that contained legitimate SV40 and pBR322 sequences were presumed to have been derived from the extruded SV40 nascent strands and were further analyzed. A combination of restriction enzymes was used that allowed us to define the 3' ends with an accuracy of +/- 20 base-pairs. The results of restriction analysis were confirmed by nucleotide sequence analysis of selected clones. The results show that the replication forks move with a high degree of symmetry, with respect to the initiation site of DNA replication, and are consistent with the existence of pause sites for the extension of replication forks. From the clones analyzed, it appears that the center of the replication bubble is to the early side of the BglI site.     

An oligoribonucleotide polymerase from SV40-infected cells with properties of a primase

A transient decaribonucleotide (iRNA) is covalently linked to nascent eukaryotic DNA chains at their 5' end. Searching for the putative iRNA polymerase (primase), we detected in extracts from SV40-infected cells a DNA-dependent incorporation of UMP residues from UTP into free and DNA linked deca- or similarly sized ribonucleotides. Denatured salmon sperm DNA served as the standard template in this reaction. SV40 FIII DNA was also an effective template, SV40 FII DNA was ineffective while FI yielded mainly free decaribonucleotides. The incorporation depended on the other rNTPs and was resistant to high concentrations of alpha-amanitin and rifamycin AF/013, drugs inhibitory to RNA polymerases I, II and III. The results implicate the decaribonucleotide polymerase in the priming of nascent DNA chains and suggest that the unique size of iRNA is encoded within its primase.     

Complete nucleotide sequence and genome organization of bovine parvovirus.

We determined the complete nucleotide sequence of bovine parvovirus (BPV), an autonomous parvovirus. The sequence is 5,491 nucleotides long. The terminal regions contain nonidentical imperfect palindromic sequences of 150 and 121 nucleotides. In the plus strand, there are three large open reading frames (left ORF, mid ORF, and right ORF) with coding capacities of 729, 255, and 685 amino acids, respectively. As with all parvoviruses studied to date, the left ORF of BPV codes for the nonstructural protein NS-1 and the right ORF codes for the major parts of the three capsid proteins. The mid ORF probably encodes the major part of the nonstructural protein NP-1. There are promoterlike sequences at map units 4.5, 12.8, and 38.7 and polyadenylation signals at map units 61.6, 64.6, and 98.5. BPV has little DNA homology with the defective parvovirus AAV, with the human autonomous parvovirus B19, or with the other autonomous parvoviruses sequenced (canine parvovirus, feline panleukopenia virus, H-1, and minute virus of mice). Even though the overall DNA homology of BPV with other parvoviruses is low, several small regions of high homology are observed when the amino acid sequences encoded by the left and right ORFs are compared. From these comparisons, it can be shown that the evolutionary relationship among the parvoviruses is B19 in equilibrium with AAV in equilibrium with BPV in equilibrium with MVM. The highly conserved amino acid sequences observed among all parvoviruses may be useful in the identification and detection of parvoviruses and in the design of a general parvovirus vaccine.     

Identification of a 68-kilodalton nuclear ATP-binding phosphoprotein encoded by bovine papillomavirus type 1.

E1 is the largest open reading frame (ORF) of bovine papillomavirus type 1 (BPV-1) and is highly conserved among all papillomaviruses, maintaining its size, amino acid composition, and location in the viral genome with respect to other early genes. Multiple viral replication functions have been mapped to the E1 ORF of BPV-1, and evidence suggested that more than one protein was encoded by this ORF. We previously identified a small protein (M) whose gene consists of two exons, one encoded by the 5' end of the E1 ORF. We show here that a 68-kilodalton (kDa) phosphoprotein made from the E1 ORF can be detected in BPV-1-transformed cells, and we present evidence that this protein is encoded by sequences colinear with the entire E1 ORF. The full-length E1 protein immunoprecipitated from virally transformed cells and identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis comigrates with a protein expressed from a recombinant DNA construct capable of producing only the complete E1 protein. In addition, two different antisera directed against polypeptides encoded from either the 3' or the 5' end of the E1 ORF both recognize the full-length E1 product. A mutation converting the first methionine codon in the ORF to an isoleucine codon abolishes BPV-1 plasmid replication and E1 protein production. Consistent with the notion that this methionine codon is the start site for E1, a mutant with a termination codon placed after the splice donor at nucleotide 1235 in E1 produces a truncated protein with the molecular mass predicted from the primary sequence as well as the previously identified M protein. When visualized by immunostaining, the E1 protein expressed in COS cells is localized to the cell nucleus. A high degree of similarity exists between the BPV-1 E1 protein and polyomavirus and simian virus 40 large-T antigens in regions of the T antigens that bind ATP. We show by ATP affinity labeling that the E1 protein produced in COS cells binds ATP and that this activity is abolished by a point mutation which converts the codon for proline 434 to serine. Furthermore, this mutation renders the viral genome defective for DNA replication, suggesting that the ATP-binding activity of E1 is necessary for its putative role in viral DNA replication.(ABSTRACT TRUNCATED AT 400 WORDS)     

Studies of Nondefective Adenovirus 2-Simian Virus 40 Hybrid Viruses IV. Characterization of the Simian Virus 40 Ribonucleic Acid Species Induced by Wild-Type Simian Virus 40 and by the Nondefective Hybrid Virus, Ad2+ND1

Ad2(+)ND(1), a nondefective adenovirus 2 (Ad2)-simian virus 40 (SV40) hybrid virus, has been previously shown to contain a small segment of the SV40 genome covalently linked to Ad2 deoxyribonucleic acid (DNA). The SV40 portion of this hybrid virus has been characterized by relating the SV40-specific ribonucleic acid (RNA) sequences transcribed from the Ad2(+)ND(1) DNA to those transcribed from the DNA of SV40 itself. RNA-DNA hybridization-competition studies indicate that the SV40 component of Ad2(+)ND(1) consists of some, but not all, of that part of the SV40 genome which is transcribed early, i.e., prior to viral DNA replication, in SV40 lytic infection.     

Position effects on the timing of replication of chromosomally integrated simian virus 40 molecules in Chinese hamster cells.

Simian virus 40 (SV40) DNA molecules chromosomally integrated at different sites in three Chinese hamster lung fibroblast lines replicated during the middle portion of S phase but not precisely at the same time in all three cell lines. The time of replication was unrelated to the presence of T antigen or to its relative activity in promoting SV40 replication. SV40 sequences and chromosomal DNA sequences adjacent to the SV40 insert in one cell line expressing a temperature-sensitive T antigen showed a T-antigen-independent difference in replication timing from the homologous, allelic locus not linked to SV40. Our results indicate that the timing of replication of these integrated SV40 molecules is dependent upon the site of integration and is not determined by the level of T antigen replication-promoting activity.     

Autonomous replicating sequences from intron of human ras gene in a simian virus 40 T antigen dependent system

Of the several DNA fragments present in the human lung cancer gene, 1.1 and 2.0 kilobase (kb) fragments corresponding to the intron of this gene were hybridized to a half part of the 27 nucleotides perfect palindrome present in the initiation part of replication in simian virus 40 (SV40) DNA. These two fragments cloned in pBR322 had good template activity, and the initiation of DNA replication started from the region of these fragments in an in vitro system, in which the initiation of DNA replication occurs on cloned DNA containing SV40 origin of DNA replication as described previously. Furthermore, these two clones could replicate autonomously in nuclei of SV40 transformed Cos cells, producing SV40 T antigen constitutively when the clones were transfected into Cos cells. These results show that functional SV40 origin-like sequences are present in human genomes, and they can replicate autonomously within the cells which are producing SV40 T antigen.     

Persistence of phage lambda DNA in genomes of mouse cells transformed by lambda-carrying SV40 vectors.

To test the suitability of simian virus 40 (SV40) DNA as a vector for inserting DNA segments into the chromosomes of mammalian cells, an EcoRI-A fragment of bacteriophage lambda DNA was covalently joined to a fragment of SV40 DNA and used to transform mouse cells in culture. Three independent, morphologically transformed clones were obtained that were positive for SV40 T-antigen by immunofluorescence staining. DNA from each transformant was examined by restriction enzyme analysis and found to contain both lambda and SV40 sequences. Co-migration of some fragments containing lambda and SV40 sequences following digestion of transformed cell DNA by each of four different restriction enzymes indicated that part of the retained lambda and SV40 DNA was linked in two of the three lines. In the third line, however, none of the restriction fragments had both lambda and SV40 sequences. Although the presence of non-integrated lambda DNA was not excluded, at least some of the lambda DNA appeared to be linked to host cell DNA. Results of digestion by EcoRI suggested that in some cases the transforming linear molecule had probably circularized prior to integration.     

A novel selection system for recombinational and mutational events within an intron of a eucaryotic gene.

In order to identify a poison sequence that might be useful in studying illegitimate recombination of mammalian cell chromosomes, several DNA segments were tested for their ability to interfere with gene expression when placed in an intron. A tRNA gene and its flanking sequences (267 bp) were shown to inhibit SV40 plaque formation 100-fold, when inserted into the intron in the T-antigen gene. Similarly, when the same DNA segment was placed in the second intron of the adenosine phosphoribosyl transferase (APRT) gene from CHO cells, it inhibited transformation of APRT-CHO cells 500-fold. These two tests indicated that the 267-bp DNA segment contained a poison sequence. The poison sequence did not affect replication since the replication of poisoned SV40 genomes was complemented by viable SV40 genomes and poisoned APRT genes were stably integrated into cell chromosomes. Cleavage of the poison sequence in the SV40 T-antigen intron by restriction enzymes indicated that the tRNA structural sequences and the 5' flanking sequences were not required for inhibition of SV40 plaque formation. Sequence analysis of viable mutant SV40, which arose after transfection of poisoned genomes, localized the poison sequence to a 35 bp segment immediately 3' of the tRNA structural sequences.     

Infectious linear DNA sequences replicating in simian virus 40-infected cells.

A new class of linear duplex DNA structures that contain simian virus 40 (SV40) DNA sequences and that are replicated during productive infection of cells with SV40 is described. These structures comprise up to 35% of the radioactively labeled DNA molecules that can be isolated by selective extraction. These molecules represent a unique size class corresponding to the length of an open SV40 DNA molecule (FO III), and they contain a heterogeneous population of DNA sequences either of host or of viral origin, as shown by restriction endonuclease analysis and nucleic acid hybridization. Part of the FO III DNA molecules contain viral-host DNA sequences covalently linked with each other. They start to replicate with the onset of SV40 superhelix replication 1 day after infection. Their rate of synthesis is most pronounced 3 days after infection when superhelix replication is already declining. Furthermore, they cannot be chased into other structures. At least a fraction of these molecules is infectious when administered together with DEAE-dextran to permissive cells. After intracellular circularization, superhelical DNA FO I with an aberrant cleavage pattern accumulates. In addition, tumor and viral capsid antigen are induced, and infectious viral progeny is obtained. Infection of cells with purified SV40 FO I DNA does not result in FO III DNA molecules in the infected cells or in the viral progeny. It is suggested, therefore, that these FO III DNA molecules are perpetuated within SV40 virus pools by encapsidation into pseudovirions.     

The 23-kilodalton E1 phosphoprotein of bovine papillomavirus type 1 is nonessential for stable plasmid replication in murine C127 cells.

The 23-kDa protein encoded by the 5' segment of the E1 open reading frame of bovine papillomavirus type 1 (BPV1) was previously ascribed a negative regulatory function for the replication of viral plasmid DNA. However, results from recent functional and biochemical studies do not readily support this genetic assignment. Therefore, we have reassessed the role of this protein in papillomavirus DNA replication by using a mutant of BPV1 which is unable to express this E1 protein. This mutant viral DNA was found to replicate extrachromosomally with stability and copy number per cell similar to those of wild-type plasmid DNA. Thus, the absence of expression of the 23-kDa E1 protein did not lead to deregulated viral plasmid replication. We conclude that the 23-kDa E1 protein is nonessential for stable plasmid replication.     

Circular and linear simian virus 40 DNAs differ in recombination.

Linear forms of simian virus 40 (SV40) DNA, when added to transfection mixtures containing circular SV40 and phi X174 RFI DNAs, enhanced the frequency of SV40/phi X174 recombination, as measured by infectious center in situ plaque hybridization in monkey BSC-1 cells. The sequences required for the enhancement of recombination by linear DNA reside within the SV40 replication origin/regulatory region (nucleotides 5,171 to 5,243/0 to 128). Linearization of phi X174 RFI DNA did not increase the recombination frequency. The SV40/phi X174 recombinant structures arising from transfections supplemented with linear forms of origin-containing SV40 DNA contained phi X174 DNA sequences interspersed within tandem head-to-tail repeats derived from the recombination-enhancing linear DNA. Evidence is presented that the tandem repeats are not formed by homologous recombination and that linear forms of SV40 DNA must compete with circular SV40 DNA for the available T antigen to enhance recombination. We propose that the enhancement of recombination by linear SV40 DNA results from the entry of that DNA into a rolling circle type of replication pathway which generates highly recombinogenic intermediates.