Localization of an origin of DNA replication within the TRS/IRS repeated region of the herpes simplex virus type 1 genome

An assay has been developed and used to locate an origin of DNA replication on the herpes simplex virus type 1 (HSV-1) genome. Baby hamster kidney cells were transfected with circular plasmid molecules containing cloned copies of HSV-1 DNA fragments, and helper functions were provided by superinfection with wild-type HSV-1. The presence of an HSV-1 origin of replication within a plasmid enabled amplification of the vector DNA sequences, which was detected by the incorporation of [32P]orthophosphate. By screening various HSV-1 DNA fragments it was possible to identify a 995-bp fragment that maps entirely within the reiterated sequences flanking the short unique region of the viral genome and contains all the cis-acting signals necessary to function as an origin of viral DNA replication. The products of plasmid replication were shown to be high mol. wt. DNA molecules consisting of tandem duplications of the complete plasmid, suggesting that replication was occurring by a rolling-circle mechanism.     

构建单纯疱疹病毒基因组Bam HIC片段上有插入突变的重组病毒

单纯疱疹病毒(GSV)是重要的人类DNA病毒。国内外学者正在对其基因结构、功能和基因调控机制进行探索,以及利用其作为病毒载体表达外源基因研制基因工程疫苗等,并且已经取得了一定的成绩。多年来,尽管对HSV-1的分子遗传学做了包括序列分析在内的大量研究,但对HSV基因组许多部位的功能,它们相互之间的关系,特别是某特定部位对活病毒生物特性的作用(病毒生长、繁殖、毒力等),所知很少。为了深入了解HSV-1基因组中Bam H I C片段这一未知部分的功能,我们对它进行了克隆、次级克隆和酶谱分析,并且利用胸腺嘧啶核苷激酶基因—小Mu噬菌体系统(TK-mM)组建了在HSV-1的Eam H I C片段上有TK-mM插入的重组质粒。本文报道利用组建的重组质粒DNA和提纯的TK-HSV-1毒株DNA共同转染细胞,获得了在HSV-1基因组Burn H I C片段上有插入突变的重组病毒。     

2型单纯疱疹病毒毒力蛋白ICP34.5的真核表达及其对Ve-ro细胞活性的影响

目的:在非洲绿猴肾细胞(Vero细胞)中表达2型单纯疱疹病毒(HSV-2)毒力蛋白感染细胞多肽34.5(ICP34.5),并检测其对Vero细胞活性的影响。方法:PCR扩增HSV-2的ICP34.5基因,连接至pEGFP-C2载体,并对重组真核表达载体pEGFP-ICP34.5进行双酶切测序验证;将重组子瞬时转染Vero细胞,RT-PCR检测其在mRNA水平的表达,荧光倒置显微镜观察融合蛋白的表达,MTT法检测细胞活性。结果:经双酶切和测序验证表明pEGFP-ICP34.5构建成功,转染细胞后经RT-PCR验证有目的基因的转录,荧光显微镜下观察到融合蛋白在转染的Vero细胞中表达,MTT法检测结果证实重组质粒可以抵消空质粒对细胞的损伤作用。结论:构建了pEGFP-ICP34.5真核表达载体,其能在Vero细胞中高效表达,并能抵消空质粒对细胞的损伤作用。     

Loss of bovine papillomavirus DNA replication control in growth-arrested transformed cells.

The bovine papillomavirus type 1 (BPV-1) genome replicates as a plasmid within the nuclei of BPV-1-transformed murine C127 cells at a constant multiple copy number, and spontaneous amplification of the viral DNA is rarely observed. We report here that a mutant BPV-1 plasmid within a contact-inhibited C127 cell line replicated as a stable multicopy plasmid in exponentially growing cells but amplified to a high level in confluent cell culture. In situ hybridization analysis revealed that most of the mutant viral DNA amplification occurred in a minor subpopulation of cells within the culture. These consisted of giant nondividing cells with greatly enlarged nuclei, a cell form which was specifically induced in stationary-phase cultures. These observations indicated that expression of a viral DNA replication factor was cell growth stage specific. Consistent with this hypothesis, considerable amplification of wild-type BPV-1 DNA associated with characteristic giant cell formation was observed in typical wild-type virus-transformed C127 cultures following a period of growth arrest achieved by serum deprivation. Further observations indicated that induction of the giant-cell phenotype was dependent on BPV-1 gene expression and implicated a viral E1 replication factor in this process. Moreover, heterogeneity in virus genome copy numbers within the giant-cell population suggested a complex regulation of induction of DNA synthesis in these cells. It appears that this process represents a mechanism employed by the virus to ensure maximal viral DNA synthesis within a growth-arrested cell. Fundamental questions concerning the integration of the virus-cell control circuitry in proliferating and resting cells are discussed.     

Packaging of genomic and amplicon DNA by the herpes simplex virus type 1 UL25-null mutant KUL25NS

The herpes simplex virus type 1 (HSV-1) mutant KUL25NS, containing a null mutation within the UL25 gene, was isolated and characterized by McNab and coworkers (A. R. McNab, P. Desai, S. Person, L. L. Roof, D. R. Thomsen, W. W. Newcomb, J. C. Brown, and F. L. Homa, J. Virol. 72:1060-1070, 1998). This mutant was able to cleave the concatemeric products of viral DNA replication into monomeric units, but in contrast to wild-type (wt) HSV-1, they were degraded by DNase treatment, indicating that they were not stably packaged into virus capsids. I have examined the packaging of the KUL25NS genome and an HSV-1 amplicon in cells infected with the mutant virus. In contrast to the previous results, a low level of KUL25NS DNA was resistant to DNase digestion, indicating that it was retained in capsids. The proportion of this packaged DNA present as full-length genomes was much lower than in cells infected by wt HSV-1, and there was a significant overrepresentation of the long terminus and underrepresentation of the short terminus. KUL25NS was less impaired in stably packaging amplicon DNA than in packaging its own genome, and the packaged molecules contained approximately equimolar amounts of the two terminal fragments. Below about 100 kbp, the packaged amplicon molecules exhibited an abundance and size distribution similar to those generated using wt HSV-1 as a helper, but the mutant was relatively impaired in packaging longer amplicon molecules. Both packaged genomic and amplicon DNAs were retained in the nuclei of KUL25NS-infected cells. These results suggest that the UL25 protein may play an important role during the later stages of the head-filling process, prior to release of capsids into the cytoplasm.     

Identification of an insulator in AAVS1, a preferred region for integration of adeno-associated virus DNA

In latent adeno-associated virus (AAV) infection, the viral genome is integrated preferentially into the human chromosome 19 q arm at a specific region designated AAVS1, which has an open chromatin conformation as indicated by the presence of a DNase I-hypersensitive site (DHS-S1). We examined whether an insulator, which defines the domain of gene expression by directionally blocking the action of enhancers and by preventing the spread of heterochomatin, is present near the DHS-S1 in the middle of a 2.6-kbp AAVS1-related DNA fragment used in this study. The fragment, cloned into an Epstein-Barr virus (EBV)-based eukaryotic episomal plasmid, was introduced into HEK293 cells. The DHS-S1 on the plasmid replicating in the nuclei was hypersensitive to DNase I digestion, and thus, the EBV plasmid system was used in an enhancer-blocking assay with the 2.6-kbp DNA and two shortened DNAs, of 1.6 kbp and 336 bp, containing DHS-S1. The three DNA fragments, when inserted in the proper direction between the cytomegalovirus immediate-early enhancer and minimal promoter, repressed the expression of a reporter gene. Thus, the enhancer-blocking activity was located within the 336-bp DNA containing the entire region (300 bp) of DHS-S1. To investigate the prevention of repression caused by heterochromatin, a transgene-expressing cassette flanked by the two 336-bp DNAs placed in the enhancer-blocking direction was introduced into HEK293 and HeLa cells. All the cell clones examined with the cassette integrated into cell DNA continued to express the transgene, which indicates that the pair of 336-bp DNA apparently prevented the spread of heterochromatin. The results show that an insulator lies between nucleotides 17 and 354 near the DHS-S1 in AAVS1. In a gel shift test, the 336-bp DNA did not bind an in vitro-prepared CCCTC-binding factor that binds to the chicken beta-globin insulator, suggesting that the AAVS1 insulator requires an as yet unidentified binding protein. The newly identified AAVS1 insulator is likely to contribute to the maintenance of an open chromatin conformation that affects the life cycle of AAV.     

人IL-6受体胞外区真核表达载体的构建及体外表达

目的构建人IL-6受体（IL-6R）胞外区真核表达载体,检测其在体外培养细胞中的表达。方法利用PCR扩增IL-6R胞外区,克隆到pcDNA3．1（＋）中,用双酶切、测序鉴定。重组质粒通过脂质体转染HL-60细胞,用G418进行筛选,利用Western印迹检测IL-6R蛋白表达。结果PCR扩增出1218bp的目的片段,双酶切和测序结果显示重组质粒正确。Western印迹结果显示转染细胞能够表达目的蛋白。结论成功构建了人IL-6R胞外区真核表达载体,并且能够在真核细胞中表达。     

Restriction endonuclease mapping of the hepatitis B viral genome isolated from Taiwan

The Eco RI fragment of hepatitis B virus (HBV) DNA isolated from human blood plasma Dane particles were inserted into plasmid pUC8 Eco RI site and transformed into E. coli JM103 host. Two recombinants pTWL1 and pTWL2 were found to carry 3.2 kbp fragment and proved to have HBV genome by Southern hybridization method. The 1.4 kbp Bam HI fragment which carried the hepatitis B viral surface antigen (HBsAg) gene, obtained via Bam HI digestion of Dane particles DNA which was made fully double stranded by endogenous DNA polymerase reaction, was also inserted into plasmid pUC8 Bam HI site. Four recombinant clones, pTWS1, pTWS2, pTWS3, and pTWS4 were found. Only one of the clones pTWS1 carried the HBsAg gene in a correct orientation with respect to the lac promoter sequence. The physical mapping of HBV DNA was performed with several restriction endonucleases. Our results indicated that the HBV DNA insert contains unique XbaI and HpaI cleavage sites and lacks the cleavage sites for the HindIII, SmaI, KpnI, SalI, and SstI endonucleases. The locations of Bam HI, BglII, and HincII endonucleases cleavage sites within the cloned HBV DNA of the pTWL1 plasmid were similar to that HBV DNA of adw and adw2 subtypes.     

Inversion events in the HSV-1 genome are directly mediated by the viral DNA replication machinery and lack sequence specificity

The bacterial transposable element Tn5 was observed to undergo high-frequency sequence inversion when integrated into the herpes simplex virus type 1 (HSV-1) genome. Deletion analysis of the IS50 elements through which this recombination event occurred demonstrated the absence of cis-acting signals involved in the inversion process. Several observations suggested an intimate association of the recombination mechanism with HSV-1 DNA replication, including the ability of the seven viral genes that are essential for HSV-1 DNA synthesis to mediate Tn5 inversion in the absence of any other viral functions. Comparable results were obtained by using duplicate copies of the L-S junction of the HSV-1 genome. Thus inversion of the L and S components of the HSV-1 genome during productive infection does not appear to be a site-specific process, but rather is the result of generalized recombination mediated by the complex of gene products that replicate the viral DNA.     

Intracellular Cre-mediated deletion of the unique packaging signal carried by a herpes simplex virus type 1 recombinant and its relationship to the cleavage-packaging process

To gain further insight on the function of the herpes simplex virus type 1 (HSV-1) packaging signal (a sequence), we constructed a recombinant virus containing a unique a sequence, which was flanked by two loxP sites in parallel orientation. The phenotype of this recombinant, named HSV-1 LaL, was studied in cell lines which either express or do not express Cre recombinase. Although LaL virus multiplication was only slightly reduced in standard cell lines, its growth was strongly inhibited in Cre-expressing cells. In these cells, a sequences were detected mostly in low-molecular-weight DNA circles, indicating that they had been excised from virus DNA by site-specific recombination. Deletion of the a sequences from the viral genome resulted in the accumulation of uncleaved replication intermediates, as observed by pulsed-field gel electrophoresis. B-type capsids also accumulated in these cells, as shown both by electron microscopy and by sucrose gradient sedimentation. Further examination of the status of a sequences in Cre-expressing cells indicated that high-level amplification of this sequence can occur in the absence of the cleavage-packaging process. Moreover, the amplified a signals in small circular DNA molecules remained uncleaved, indicating that these molecules were not able to efficiently interact with the cleavage-packaging machinery. The cleavage-packaging machinery and the structural proteins required to assemble virions were, however, functional in HSV-1 LaL-infected Cre-expressing cells, since this system could be used to package plasmid DNA harboring an origin of virus replication and one normal a signal. This is the first study in which accumulation both of uncleaved replication intermediates and of B capsids has been obtained in the presence of the full set of proteins required to package virus DNA.     

Improved Production of Gutted Adenovirus in Cells Expressing Adenovirus Preterminal Protein and DNA Polymerase

Production of gutted, or helper-dependent, adenovirus vectors by current methods is inefficient. Typically, a plasmid form of the gutted genome is transfected with helper viral DNA into 293 cells; the resulting lysate is serially passaged to increase the titer of gutted virions. Inefficient production of gutted virus particles after cotransfection is likely due to suboptimal association of replication factors with the abnormal origins found in these plasmid substrates. To test this hypothesis, we explored whether gutted virus production would be facilitated by transfection into cells expressing various viral replication factors. We observed that C7 cells, coexpressing adenoviral DNA polymerase and preterminal protein, converted plasmid DNA into replicating virus approximately 50 times more efficiently than did 293 cells. This property of C7 cells can be used to greatly increase the efficiency of gutted virus production after cotransfection of gutted and helper viral DNA. These cells should also be useful for generation of recombinant adenovirus from any plasmid-based precursor.     

Chromatin structure of simian virus 40-pBR322 recombinant plasmids in COS-1 cells.

To study the nucleoprotein structure formed by recombinant plasmid DNA in mammalian cells, nuclei were isolated from COS-1 cells after transfection with a recombinant (pJI1) containing pBR322 sequences and a segment of simian virus 40 containing information for a nuclease-sensitive chromatin structure. The nuclei were incubated with DNase I. DNA fragments which were the size of linear pJI1 DNA were isolated, redigested with restriction enzymes, fractionated by electrophoresis, and detected by hybridization with nick-translated segments prepared from the plasmid DNA. Two DNase I-sensitive sites were detected in the simian virus 40 portion of the plasmid at the same sites that were DNase I sensitive in simian virus 40 chromatin prepared late after infection of African green monkey kidney (BSC-1) cells. One site extended from the viral origin of replication to approximately nucleotide 40. The 21-base pair repeated sequences were relatively DNase I resistant. A second site occurred over the single copy of the 72-base pair segment present in this plasmid. These results indicate that the nuclease-sensitive chromatin structure does not depend on the presence of viral structural proteins. In addition, late viral proteins added to pJI1-transfected COS-1 cells by superinfection with simian virus 40 caused no change in the distribution of DNase I-sensitive sites in plasmid chromatin. Analysis of transfected plasmid DNA may provide a general method applicable to the study of the chromatin structure of cloned segments of DNA.     

苜宿银纹夜蛾核型多角体病毒vp39基因的克隆及其对S_f9细胞形态的影响

最近的研究发现：ＡｃＮＰＶ的ｖｐ３９基因与侵染密切相关［１］．在侵染过程中,ＶＰ３９蛋白与宿主的肌动蛋白结合,使其重排形成缆索（ｃａｂｌｅ）．导致细胞骨架发生变化有利于病毒编码的蛋白酶的水解．最后,子代病毒颗粒大量形成,宿主昆虫体全部液化成为脓水．可...     

Construction of fowlpox virus vectors with intergenic insertions: expression of the beta-galactosidase gene and the measles virus fusion gene.

A DNA fragment from fowlpox virus cloned on a plasmid vector was modified to contain foreign DNA inserts within an intergenic region. In a first step, a 32-base-pair intergenic region from the fowlpox virus genome corresponding to the position of the thymidine kinase locus in the vaccinia virus genome was enlarged to 55 base pairs by site-directed mutagenesis. A unique restriction endonuclease site introduced upstream of the intergenic region was then used to insert various foreign DNA fragments. The lacZ gene encoding beta-galactosidase and the measles virus gene encoding the fusion protein were positioned downstream of two vaccinia virus p7.5 promoter elements in either a direct repeat or inverted repeat orientation. Foreign DNA inserts contained within the fowlpox virus sequence were transferred to the viral genome by homologous recombination occurring in cells infected with a fowlpox virus temperature-sensitive mutant and transfected with both wild-type viral DNA and plasmid DNA. Recombinant viruses were selected for the expression of beta-galactosidase activity by screening for blue plaques in the presence of a chromogenic substrate. Stable recombinants expressing both the lacZ gene and the unselected measles gene were obtained when the p7.5 promoter was present as an inverted repeat. However, when the p7.5 promoter was in the direct repeat orientation, viral recombinants which initially expressed both gene inserts readily deleted the lacZ gene flanked by the promoter repeat. The methods described enable precise insertion and deletion of foreign genes in the fowlpox virus genome and could be applied to other intergenic regions of the same virus as well as other poxviruses.     

Hybrid plasmids containing an active thymidine kinase gene of Herpes simplex virus 1.

The gene for the thymidine kinase (TK) of Herpes simplex virus type 1 (HSV-1) is located in the KpnI m and BamHI p fragments of the genome (Wigler et al., Cell 11, 223-232 (1977)). These fragments have been inserted into the EcoRI and BamHI sites, respectively, of plasmid pBR322, and propagated in E.coli. The TK gene contained in the recombinant plasmids was shown to be biologically active when introduced into TK- mouse L cells. Detailed restriction site maps of the BamHI p fragment have been constructed and the approximate location of the TK gene has been determined. Mouse cells transformed with cloned HSV-1 tk+ DNA produced HSV-1-specific thymidine kinase; superinfection with HSV-1 tk- virus increased the level of TK activity tenfold, suggesting that the BamHI p sequences present in transformed cells respond to virus-encoded regulatory gene product(s).     

Quantitation of the viral DNA present in cells transformed by UV-irradiated herpes simplex virus.

Two cell lines biochemically transformed by UV-irradiated herpes simplex virus (HSV) each contain virus DNA. A comparison of the kinetics of reassociation of 3H-labeled HSV DNA in the presence and absence of either clone 139 (HSV-1 transformed) or clone 207 (HSV-2 transformed) DNA showed that the presence of transformed cell DNA increased the rate of reassociation of approximately 10% of the viral genome while having no effect on the remaining 90%. The Cot1/2 of this reaction was approximately 1,000 in each cell type, as compared to approximately 3,000 for the cellular unique sequences. These results suggest the presence of four to six copies of a 10% fragment of the virus DNA per cell. The DNA from a hamster fibroblast cell line morphologically transformed by UV-irradiated HSV-2 (333-8-9) did not affect the rate of reassociation of HSV-2 DNA, indicating that these cells had less than 3% of a viral genome present.