Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.1.30.1 (S1 nuclease)
3,660 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A novel family of transcripts that span the junction between the long and short segments of the herpes simplex virus type 1 genome has been identified. These transcripts, designated L/S junction-spanning transcripts (L/STs), are synthesized in abundance in a variety of cells infected with mutant viruses defective in the gene for ICP4, the major transcriptional regulatory protein of the virus. Transcription of abundant 2.3- and 8.5-kb series of L/STs was shown to initiate within the same sequences as less abundant 4.2-, 7.3-, and > 9.5-kb transcripts by Northern (RNA) blot analysis. S1 nuclease analysis revealed a single 5' terminus 28 bp downstream of a TATA box and 6 bp downstream of a consensus ICP4 binding site. The location of the transcriptional start site indicates that the promoter of the L/STs likely corresponds to the bidirectional promoter described by Bohenzky et al. (R. A. Bohenzky, A. G. Papavassiliou, I. H. Gelman, and S. Silverstein, J. Virol. 67:632-642, 1993). The L/STs accumulate with late kinetics in ICP4 mutant-infected cells and are polyadenylated. Mutant viruses encoding forms of ICP4 unable to bind the consensus site, ATCGTC, exhibited abundant expression of the L/STs, whereas mutants encoding forms of ICP4 able to bind this site expressed no detectable L/STs, suggesting that ICP4 plays a critical role in repressing L/ST expression. Their synthesis in ICP4 mutant-infected cells is inhibited by the protein synthesis inhibitor cycloheximide, indicating that they are induced either by an immediate-early viral protein other than ICP4 or by a virus-induced cellular protein. Preliminary evidence indicates that the L/STs are not present in latently infected ganglia. The abundant expression of the L/STs with late kinetics only in the absence of functional ICP4 and the sensitivity of their synthesis to cycloheximide indicate that they are not members of any of the recognized kinetic classes of herpes simplex virus type 1 transcripts but constitute a new class of viral transcript.
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PMID:A novel class of transcripts expressed with late kinetics in the absence of ICP4 spans the junction between the long and short segments of the herpes simplex virus type 1 genome. 790 28

The herpes simplex virus type 1 deletion variant 1703 apparently fails to synthesize the essential IE2 gene product Vmw63 despite the deletion leaving the gene intact. Sequence analysis revealed that the deletion removes a region to the right of IE2 comprising the 3' end of IE1, UL56 and the 3' part of UL55, stopping 555 bp downstream of the IE2 polyadenylation signal. Further DNA sequencing has shown that there is no secondary mutation in the IE2 gene. Western blot analysis demonstrated that Vmw63 is made at reduced levels compared to that produced by the wild-type virus during immediate early conditions of infection. S1 nuclease protection mapping has revealed that this reduction is also apparent at the level of mRNA synthesis. A direct link between the deletion and the change in mRNA synthesis was provided by the insertion of a deletion-spanning fragment from 1703 into a 17+ genome, which resulted in the recombinant having a 1703-like phenotype. Evidence that down-regulation of IE2 mRNA during immediate early conditions of infection could be due to antisense RNA initiating from the IE1 promoter was obtained by the insertion of a novel transcriptional termination signal between IE1 and IE2 in the variant and the subsequent detection of wild-type levels of IE2 mRNA and protein.
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PMID:Characterization of a herpes simplex virus type 1 deletion variant (1703) which under-produces Vmw63 during immediate early conditions of infection. 790 33

The a sequence is a bifunctional element in the herpes simplex virus type 1 (HSV-1) genome which possesses both the signals required for the cleavage and encapsidation of replicated viral DNA and the promoter-regulatory sequences for the gene encoding the viral neurovirulence factor ICP34.5. Since the ICP34.5 promoter lacks features that are characteristic of most HSV-1 promoters, including a canonical TATA box, an initiator element, and upstream binding sites for host cell transcription factors, a mutational analysis was undertaken to identify the cis-acting elements which mediate transcription of this gene in transient transfection assays. A deletion derivative containing sequences just 83 nucleotides upstream of the second of two cap sites was found to exhibit full promoter activity. However, the presence of either of two far upstream regions, which coincided with the DR2 and DR6 tandem GC-rich repeat arrays, acted to abrogate transcriptional activity both in this segment of the ICP34.5 promoter and in a heterologous promoter construct. The DR2 and DR6 repeat arrays each possessed an unwound S1 nuclease-sensitive DNA conformation (anisomorphic DNA) whose formation was shown to be critical for mediating this transcriptional repression effect. Moreover, results from in vivo titration experiments suggested the existence of a cellular protein(s) which can mediate transcriptional repression in the ICP34.5 promoter by specifically interacting with the single-stranded regions of these tandem repeat arrays. Such DNA conformation-dependent transcriptional silencing appears to represent a novel mechanism of gene regulation in the HSV-1 life cycle.
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PMID:Role of anisomorphic DNA conformations in the negative regulation of a herpes simplex virus type 1 promoter. 794 24

The platelet-derived growth factor (PDGF) A-chain gene is expressed in a tissue- and developmental stage-specific manner. Here we identify an S1 nuclease sensitive region within the first intron that functions as a negative regulatory element in HeLa but not in human glioblastoma (A172) cells in transient transfection assays. A 147 bp DNA fragment that contains this element functions in a position and orientation independent manner to negatively regulate both the PDGF A-chain promoter and the heterologous herpes simplex virus thymidine kinase (TK) promoter. The cell-type specific effect of this 147 bp DNA fragment is seen when it is located downstream but not upstream of the reporter gene driven by either the PDGF A-chain or TK promoters. The negative regulatory element has been localized to a 24 bp DNA sequence within the S1 sensitive site that retains negative regulatory activity and recognizes a nuclear protein in HeLa but not in A172 cells. Furthermore, the 24 bp element functions as a cell type-specific negative element independent of its position. These results suggest that a functional silencer within the first intron exhibits a non-B-form DNA structure under superhelical stress in vitro and may contribute to the cell type-specific transcriptional regulation of PDGF A-chain gene in vivo.
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PMID:An S1 nuclease-sensitive region in the first intron of human platelet-derived growth factor A-chain gene contains a negatively acting cell type-specific regulatory element. 812 85

Four of the 68 varicella-zoster virus (VZV) unique open reading frames (ORFs), i.e., ORFs 4, 61, 62, and 63, encode proteins that influence viral transcription and are considered to be positional homologs of herpes simplex virus type 1 (HSV-1) immediate-early (IE) proteins. In order to identify the elements that regulate transcription of VZV ORFs 4 and 63, the encoded mRNAs were mapped in detail. For ORF 4, a major 1.8-kb and a minor 3.0-kb polyadenylated [poly(A)+] RNA were identified, whereas ORF 63-specific probes recognized 1.3- and 1.9-kb poly(A)+ RNAs. Probes specific for sequences adjacent to the ORFs and mapping of the RNA 3' ends indicated that the ORF 4 RNAs were 3' coterminal, whereas the RNAs for ORF 63 represented two different termination sites. S1 nuclease mapping and primer extension analyses indicated a single transcription initiation site for ORF 4 at 38 bp upstream of the ORF start codon. For ORF 63, multiple transcriptional start sites at 87 to 95, 151 to 153, and (tentatively) 238 to 243 bp upstream of the ORF start codon were identified. TATA box motifs at good positional locations were found upstream of all mapped transcription initiation sites. However, no sequences resembling the TAATGARAT motif, which confers IE regulation upon HSV-1 IE genes, were found. The finding of the absence of this motif was supported through analyses of the regulatory sequences of ORFs 4 and 63 in transient transfection assays alongside those of ORFs 61 and 62. Sequences representing the promoters for ORFs 4, 61, and 63 were all stimulated by VZV infection but failed to be stimulated by coexpression with the HSV-1 transactivator Vmw65. In contrast, the promoter for ORF 62, which contains TAATGARAT motifs, was activated by VZV infection and coexpression with Vmw65. These results extend the transcriptional knowledge for VZV and suggest that ORFs 4 and 63 contain regulatory signals different from those of the ORF 62 and HSV-1 IE genes.
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PMID:Transcriptional mapping of the varicella-zoster virus regulatory genes encoding open reading frames 4 and 63. 818 96

Defective interfering particles (DIPs) of equine herpesvirus 1 (EHV-1; Kentucky A strain) mediate persistent infection. DNA sequences at the L terminus, which contain the UL2 gene (homolog of UL55 of herpes simplex virus type 1 and open reading frame 3 of varicella-zoster virus) of standard EHV-1, have been shown to be highly conserved in all clones of the EHV-1 DIP genome. The UL2 mRNA was characterized by S1 nuclease analyses, which mapped the 5' and 3' termini of the 0.9-kb early UL2 mRNA to approximately 26 and 16 nucleotides downstream of a TTTAAA box and polyadenylation signal, respectively. The UL2 open reading frame, present within both the EHV-1 standard and DIP genomes, was inserted into the transcription expression vector pGEM-3Z to yield constructs pGEML2 and pDIL2, respectively. After in vitro transcription and translation, both constructs yielded a comigrating 23-kDa protein, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Polyclonal antiserum was raised against the UL2 protein by injecting rabbits with a TrpE/UL2 fusion protein expressed from plasmid pATH23L2 in Escherichia coli. The UL2-specific antiserum reacted in Western immunoblot and immunoprecipitation analyses with a 23-kDa polypeptide synthesized in cells infected with standard EHV-1 or DIP-enriched virus. These data also indicated that the UL2 polypeptide was more abundant in DIP-infected cells than in standard EHV-1-infected cells. Results from time course and pulse-chase analyses suggested that the UL2 polypeptide has a rapid turnover rate in DIP-infected cells.
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PMID:Transcriptional and translational analyses of the UL2 gene of equine herpesvirus 1: a homolog of UL55 of herpes simplex virus type 1 that is maintained in the genome of defective interfering particles. 838 40

DNA sequence and transcriptional analyses were performed on the region of the equine herpesvirus type 1 (EHV-1) genome (KyA strain) (map units 0.129 to 0.152) encoding open reading frames (ORFs) 15 and 16. ORF16 encodes a homolog of glycoprotein C of HSV-1 (herpes simplex virus type 1), while ORF15 corresponds in position to HSV-1 UL45 but exhibits no significant homology at the amino acid level. Sequence analyses revealed that the EHV-1 gC ORF of 468 amino acids and ORF15 of 227 amino acids mapped at nucleotides (nt) 716 to 2119 and 2397 to 3077, respectively (relative to the 5' end of the BamHI recognition site at map unit 0.152). ORF15 exhibited significant homology (69% identity) at the amino acid level to the EHV-4 gene located 3' of the EHV-4 gC homolog. Sequence analyses identified potential CAAT and TATA boxes for the EHV-1 gC ORF and a TATA box for ORF15. While no consensus polyadenylation signal was detected between ORFs 15 and 16, two polyadenylation signals were detected 3' of ORF15. Northern blot and S1 nuclease analyses were used to map and characterize the gC and ORF15 mRNAs, and metabolic inhibitors were used to identify the kinetic class of these two genes. The results revealed that gC is a gamma-1 gene which encodes a 2.8-kb mRNA, while ORF15 is a gamma-2 gene encoding a 0.9-kb mRNA which is 3' coterminal with the gC transcript. The gC and ORF15 mRNAs were shown by S1 nuclease analyses to initiate approximately 34 and 26 nucleotides downstream of their respective TATA boxes and to have a common termination site 18 to 20 nucleotides downstream of a consensus polyadenylation signal. Comparative sequence analysis revealed that the KyA strain gC protein differs in only three amino acid residues from the gC protein of the EHV-1 Ab4 and T431 strains, and one of the three amino acid differences occurred within a segment of six contiguous amino acids showing high degree of hydrophilicity in the gC molecule. Further comparative sequence analysis revealed that KyA strain genome has a major deletion in the region of ORF17 which lies 5' of gC in the Ab4 strain. This finding that 1038 base pairs (bp) of the 1203-bp ORF17 is deleted indicates that ORF17 is nonessential for EHV-1 replication in cell culture. To examine the regulation of the EHV-1 gC gene, transient transfection assays using CAT (chloramphenicol acetyltransferase) reporter gene constructs of gC were performed.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:DNA sequence and transcriptional analyses of the region of the equine herpesvirus type 1 Kentucky A strain genome encoding glycoprotein C. 838 60

Using Northern blot, primer extension, and S1 nuclease analyses of wild-type and deletion-containing herpes simplex type 1 viruses, we found that UL24 sequences are contained in six different transcripts that originate from three previously identified mRNA start sites. Thus, the six UL24 transcripts represent three different pairs of 5' coterminal mRNAs. Each transcript pair consists of a short species whose 3' end corresponds to a polyadenylation signal located just downstream of the UL24 open reading frame, and a longer species whose 3' end corresponds to a polyadenylation signal located downstream of the UL26 gene. Maximal accumulation of the short UL24 transcripts was at early times during infection, while accumulation of the longer species did not decrease at late times. Consistent with early kinetics, the short transcripts were less sensitive to drugs that inhibited viral DNA replication than the longer transcripts which exhibited leaky-late kinetics. Quantitative S1 nuclease analysis indicated that 3' ends corresponding to the UL24 polyadenylation site were significantly more abundant at early times than at late times. Thus, differential polyadenylation determines the kinetics of accumulation of different UL24 transcripts.
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PMID:Temporal regulation of herpes simplex virus type 1 UL24 mRNA expression via differential polyadenylation. 861 23

The Herpes simplex virus type I origin binding protein (OBP) is a sequence-specific DNA-binding protein and a dimeric DNA helicase encoded by the UL9 gene. It is required for the activation of the viral origin of DNA replication oriS. Here we demonstrate that the linear double-stranded form of oriS can be converted by heat treatment to a stable novel conformation referred to as oriS*. Studies using S1 nuclease suggest that oriS* consists of a central hairpin with an AT-rich sequence in the loop. Single-stranded oligonucleotides corresponding to the upper strand of oriS can adopt the same structure. OBP forms a stable complex with oriS*. We have identified structural features of oriS* recognized by OBP. The central oriS palindrome as well as sequences at the 5' side of the oriS palindrome were required for complex formation. Importantly, we found that mutations that have been shown to reduce oriS-dependent DNA replication also reduce the formation of the OBP-oriS* complex. We suggest that oriS* serves as an intermediate in the initiation of DNA replication providing the initiator protein with structural information for a selective and efficient assembly of the viral replication machinery.
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PMID:A novel conformation of the herpes simplex virus origin of DNA replication recognized by the origin binding protein. 1068 80

Transcription of mouse mammary tumor virus (MMTV) DNA is stimulated by steroid hormones. To determine the DNA sequences involved in this regulation, we constructed a plasmid containing the MMTV long terminal repeat (LTR) in front of the coding region of the herpes simplex thymidine kinase gene, from which the promoter had been removed. Portions of the LTR were removed by the nuclease Ba/31, and the deleted molecules were recloned and tested for transcriptional activity in transfections of Ltk-aprt- cells. Stably transfected cell clones were selected and hormone-dependent transcription from the MMTV promoter was studied by the S1 nuclease mapping method. The results show that DNA sequences between -105 and -204 base pairs upstream from the initiation site of viral transcription are required for glucocorticoid stimulation.
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PMID:Glucocorticoid regulation of mouse mammary tumor virus: identification of a short essential DNA region. 1087 40


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