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)

Newly synthesized herpes simplex virus type 1 DNA yielded a heterogeneous sedimentation profile in neutral sucrose gradients, with the main peak occurring at approximately 40S. Components sedimenting slower than virion DNA and a rapidly sedimenting intracellular HSV DNA were also observed. Both the low-molecular weight and the rapidly sedimenting components seemed to be precursors of virion DNA: they almost completely disappeared after a 60-min chase of a 3-min pulse of 3H-thymidine, and were converted into DNA which cosedimented with virion 32P-labeled DNA. However, sedimentation analysis in alkaline sucrose gradients showed that a 60-min period was insufficient for completing the maturation of HSV DNA. Cleavage of parental DNA molecules was observed in neutral sucrose gradients after infection with 3H-thymidine-labeled virions. No evidence for the formation of covalently closed circles during the replication process was obtained. The presence of single-stranded regions in the replicative form of HSV DNA was revealed. Some of the short-pulse (30 sec) labeled HSV DNA (26.1%) was eluted from hydroxylapatite columns with the properties of single-stranded DNA, and 22% of its trichloroacetic acid precipitability was susceptible to single-strand specific S1 nuclease treatment. Pulse-chase experiments indicated that the life-time of this single-stranded component in nascent DNA was probably not longer than 3 min. A small proportion of single-stranded regions, however, survived for longer periods. Almost all of the newly synthesized short-pulse-labeled HSV DNA exhibited an affinity for nitrocellulose filters. This affinity, which was S1 nuclease-sensitive, gradually decreased with prolongation of the time of the chase. After chasing the pulse for 1 h, the attachment of newly synthesized DNA was comparable with virion DNA.
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PMID:Replicating DNA of herpes simplex virus type 1. 18 56

Three transcripts map to the varicella-zoster virus (VZV) open reading frame (ORF) 67, which encodes glycoprotein IV (gpIV). All of these transcripts are polyadenylated and are transcribed from left to right towards the genomic terminal short repeats. Previous Northern (RNA) blot analyses suggested that the most abundant of these transcripts (1.65 kb) might code for gpIV. We performed S1 nuclease protection and primer extension assays and determined that the 5' terminus of the 1.65-kb transcript maps 91 bp upstream from the gpIV initiation codon. An AT-rich region (ATAAA), -28 bp from the cap site, is a potential TATA box, and at -71 bp there is a consensus CCAAT box motif. The 3' end of the 1.65-kb transcript is 20 bp downstream of two overlapping polyadenylation signals, AATAAA and ATTAAA, and just downstream of the 3' terminus is a GU-rich sequence. These results are reminiscent of data from our analysis of the VZV gpV gene, confirming that VZV appears able to use unusual TATA box motifs. Many canonical TATA sequences are present upstream from these VZV transcriptional start sites but, apparently, are not used. We tested sequences upstream from the gpIV cap site for promoter activity in transient expression experiments by cloning a DNA fragment (+63 to -343 bp) into pCAT3M, which contains a chloramphenicol acetyltransferase reporter gene. This clone showed little constitutive promoter activity but was activated more than 200-fold by infection with VZV and 5-fold with herpes simplex virus. The two known VZV transactivating genes (those for ORF 4 and ORF 62) were tested for their abilities to activate expression from the gpIV promoter by using their cognate promoters. The ORF 4 gene was minimally active, whereas the ORF 62 gene gave twofold induction; both genes, acting together, gave fivefold induction. However, replacement of the IE62 promoter with the immediate-early cytomegalovirus promoter in the ORF 62 construct gave over 40-fold induction of chloramphenicol acetyltransferase activity under the gpIV promoter in the same assay.
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PMID:Transcription from varicella-zoster virus gene 67 (glycoprotein IV). 131 76

In this report, we present the DNA sequence and transcriptional characterization of a gene (IR5) that maps within each of the inverted repeat (IR) segments of the equine herpesvirus type 1 (EHV-1) genome. The IR5 open reading frame (ORF) is located within both IR sequences (nucleotides 9932-10,642 of the IR). DNA sequence analyses of the IR5 gene region revealed an ORF of 236 amino acids (24,793 Da) that showed significant homology to ORF64 of varicella-zoster virus and ORF3 of EHV-4 both of which map within the inverted repeats and to the US10 ORF of herpes simplex virus type 1 (HSV-1) which maps within the unique short segment. Additional analyses of the nucleotide sequence failed to reveal any overlapping ORFs that would correspond to US11 or US12 of HSV-1. Interestingly, the IR5 ORF of EHV-1 possesses a sequence of 13 amino acids (CAYWCCLGHAFAC) that is a perfect match to the consensus zinc finger motif (C-X2-4-C-X2-15-C/H-X2-4-C/H). Putative cis-acting elements flanking the IR5 ORF include a TATA box (nucleotides 9864-9870), a CAAT box (nucleotides 9709-9714), and a polyadenylation signal (nucleotides 10,645-10,650). Northern blot and S1 nuclease analyses identified a single 0.9-kb mRNA species that first appears at 2 hr postinfection, and whose synthesis is reduced in the presence of phosphonoacetic acid, an inhibitor of EHV-1 DNA synthesis. Thus, the IR5 gene of EHV-1 exhibits characteristics representative of a late gene of the gamma-1 class. The characterization of the IR5 gene at the DNA and RNA levels will facilitate ongoing studies to identify and characterize the IR5 polypeptide.
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PMID:Identification and characterization of an equine herpesvirus 1 late gene encoding a potential zinc finger. 131 80

The DNA sequence of 3,240 nucleotides of the XbaI G fragment located in the unique long (UL) region of the equine herpesvirus 1 genome revealed two major open reading frames (ORFs) designated UL3 and UL4. The UL3 ORF of 470 amino acids (aa) maps at nucleotides (nt) 4450 to 3038 from the long terminus, and its predicted 51.4-kDa protein product exhibits significant homology to the ICP27 alpha regulatory protein of herpes simplex virus type 1 (HSV-1; 32% identity) and to the ORF4 protein of varicella-zoster virus (13% identity). Interestingly, a zinc finger motif is conserved in the C-terminal domains of both ICP27 of HSV-1 (aa 483 to 508) and UL3 of equine herpesvirus 1 (aa 441 to 466). The UL4 ORF of 343 aa maps at nt 5618 to 4587 and could encode a protein of 38.1 kDa which exhibits significant homology to the UL53 protein (cell fusion protein or glycoprotein K) of HSV-1 (26% identity) and to the ORF5 protein of varicella-zoster virus (33% identity). Analyses of the UL4 amino acid sequence revealed domains characteristic of a membrane-bound glycoprotein and included potential signature sequences for (i) a signal sequence, (ii) two N-linked glycosylation sites, and (iii) four transmembrane domains. Nucleotide sequence analyses also revealed potential TATA boxes located upstream of the UL3 and UL4 ORFs. However, only a single polyadenylation signal (nt 2988 to 2983) was detected downstream of the UL3 ORF. Northern (RNA) blot hybridization and S1 nuclease analyses were used to map and characterize the UL3 and UL4 mRNAs. Metabolic inhibitors were used to identify the kinetic class of these two genes. The data revealed that UL3 is an early gene that encodes a 1.6-kb mRNA, while UL4 is a late gene encoding a 3.8-kb mRNA that overlaps the UL3 transcript. Both transcripts were shown by S1 nuclease analyses to initiate 24 to 26 nt downstream of their respective TATA boxes and to have a common transcription termination signal as a pair of 3'-coterminal mRNAs.
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PMID:Identification and transcriptional analyses of the UL3 and UL4 genes of equine herpesvirus 1, homologs of the ICP27 and glycoprotein K genes of herpes simplex virus. 132

Two open reading frames (ORFs) encoded at the inverted repeat unique short (Us) junction of the Short (S) region of the equine herpesvirus type 1 genome were identified by DNA sequencing of a 2876 base pair (bp) genomic segment, and transcripts encoding these ORFs were characterized by Northern blot, S1 nuclease, and primer extension analyses. These studies also established the size of each inverted repeat to be 12,768 nucleotides (nts). The IR6 ORF (816 bp), mapping at nts 12,317-11,502 of the S region, is the last gene completely encoded within each inverted repeat and encodes a predicted 30.1-kDa protein of 272 amino acids, which does not exhibit homology to other alphaherpesvirus proteins. IR6 is expressed as an early transcript of 1.2 kb which is detected initially at 1.5 hr p.i. and up to 12 hr p.i. The transcription initiation and termination sites of IR6 were mapped by primer extension and S1 nuclease analyses to nts 12,465 and 11,408, respectively. The first ORF encoded within the Us segment (909 bp; EUS1), mapping at nts 13,397-12,489, encodes a predicted 33.5-kDa protein of 303 amino acids that exhibits 29% identity to the US2 protein of herpes simplex virus 1. EUS1 is expressed as a 2.3-kb mRNA of the gamma-1 class, as its synthesis begins prior to viral DNA replication at 4 hr p.i. but is retarded by phosphonoacetic acid, an inhibitor of viral DNA replication. The Tci and Tct sites of EUS1 were mapped by S1 nuclease analyses to nts 13,637 and 11,408, respectively. Interestingly, this termination site is also utilized by three late mRNAs of 5.8, 3.8, and 1.7 kb which originate within the Us and overlap the IR6 mRNA encoded in the terminal inverted repeat (TR) of the prototype genomic isomer. EUS1 is 3' coterminal with IR6 in the inverted repeat, whereas, the 5.8, 3.8, and 1.7 kb transcripts are 3' coterminal with IR6 of the TR.
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PMID:Identification and transcriptional mapping of genes encoded at the IR/Us junction of equine herpesvirus type 1. 133 17

The complete nucleotide sequence of the inverted repeat component (IR; 12,776 bp each) of the genome of equine herpesvirus type 1 (EHV-1) has been determined. Transcription analyses have revealed that the EHV-1 IR sequence encodes at least 6 genes. In this report, we present the DNA sequence and transcriptional characterization of a gene (IR3) that maps entirely within the IR sequences. The IR3 open reading frame (ORF) is located between nucleotides (nt) 6123-6411 of the IR sequence and possesses an ORF of 95 amino acids. Interestingly, this ORF does not show homology to any known herpesvirus gene, suggesting that the IR3 gene is unique to EHV-1. Moreover, the location of the IR3 gene between the immediate-early (IR1) gene and the origin of replication is unique in comparison to the IR gene arrangement of other alphaherpesviruses such as herpes simplex virus type 1 and varicella zoster virus. Putative cis-acting elements flanking the IR3 ORF include a TATA box (nt 5648-5652), a GC box (nt 5600-5605), and three polyadenylation signals (nt 6533-6538, 6648-6653, and 6663-6668). Northern blot analyses identified a 1.0 kb mRNA that exhibits characteristics of a late gene of the gamma-1 class. Northern blot, S1 nuclease, and primer extension analyses revealed that transcription of IR3 initiates within the intron of the immediate-early gene (IR1) on the opposite stand of the genome. Thus, the 5' end of IR3 transcript is antisense to the 5' end of the IR1 mRNA and promoter, and IR3 transcription may regulate the expression of IR1 during late times of infection.
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PMID:The IR3 gene of equine herpesvirus type 1: a unique gene regulated by sequences within the intron of the immediate-early gene. 133

The complete nucleotide sequence of the short region, made up of a unique segment (Us; 6.5 kb) bracketed by a pair of inverted repeat sequences (IR; 12.8 kb each), of the equine herpesvirus 1 (EHV-1) genome has been determined recently in our laboratory. Analysis of the IR segment revealed a major open reading frame (ORF) designated IR4. The IR4 ORF exhibits significant homology to the immediate-early gene US1 (ICP22) of herpes simplex virus type 1 and to the ICP22 homologs of varicella-zoster virus (ORF63), pseudorabies virus (RSp40), and equine herpesvirus 4 (ORF4). The IR4 ORF is located entirely within each of the inverted repeat sequences (nucleotides [nt] 7918 to 9327) and has the potential to encode a polypeptide of 469 amino acids (49,890 Da). Within the IR4 ORF are two reiterated sequences: a 7-nt sequence tandemly repeated 17 times and a 25-nt sequence tandemly repeated 13 times. Nucleotide sequence analyses of IR4 also revealed several potential cis-regulatory sequences, two TATA sequences separated by 287 nt, an in-frame translation initiation codon following each TATA sequence, and a single polyadenylation site. To address the nature of the mRNA species encoded by IR4, we used Northern (RNA) blot and S1 nuclease analyses. RNA mapping data revealed that IR4 has two promoters that are regulated differentially during a lytic infection. A 1.4-kb mRNA appears initially at 2 h postinfection and is an early transcript since its synthesis is not affected by the presence of phosphonoacetic acid, an inhibitor of EHV-1 DNA replication. In contrast, a 1.7-kb mRNA appears at later times postinfection and is designated as a gamma-1 transcript, since its synthesis is significantly reduced by phosphonoacetic acid. These IR4-specific mRNAs are 3' coterminal, have unique 5' termini, and would code for in-frame, overlapping, carboxy-coterminal proteins of 293 and 469 amino acids, respectively. Interestingly, the site of homologous recombination to generate the genome of EHV-1 defective interfering particles that initiate persistent infection occurs between nt 3244 and 3251 of UL3 (ICP27 homolog) and nt 9027 and 9034 of IR4 (ICP22 homolog). Thus, this recombination event would generate a unique ORF that would encode a potential protein whose amino end was derived from the N-terminal 193 amino acids of the ICP22 homolog and whose carboxyl end was derived from the C-terminal 68 amino acids of the ICP27 homolog.
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PMID:ICP22 homolog of equine herpesvirus 1: expression from early and late promoters. 137 May 53

Expression plasmids were constructed in which the human beta-globin gene or a variant of it precisely lacking its two introns was transcribed from its own promoter, the herpes simplex virus type 1 thymidine kinase (HSV-tk) promoter, or the immediate early promoter of human cytomegalovirus (CMV-IE). Forty two hours after transfection of these plasmids into monkey kidney cells, nuclear and cytoplasmic RNA were isolated. Quantitative S1 nuclease mapping and primer extension analysis were used to determine the relative abundances, cellular locations, and leader sizes of the accumulated beta-globin RNAs. Whereas transcripts of all of the intron-containing genes accumulated in the cytoplasm to high levels, transcripts of their cDNA variants were neither stably maintained in the nucleus nor accumulated in the cytoplasm, irrespective of the promoter from which transcription was driven. We conclude that the intron requirement for cytoplasmic accumulation of beta-globin RNA can not be circumvented by synthesis from either the promoter of the intronless HSV-tk gene or the CMV-IE promoter.
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PMID:Expression from herpesvirus promoters does not relieve the intron requirement for cytoplasmic accumulation of human beta-globin mRNA. 166 15

The major immediate-early (IE) RNA of bovine herpesvirus 4 (BHV-4) has been identified and characterized by analyzing cytoplasmic polyadenylated RNA isolated from Madin-Darby bovine kidney cells infected with BHV-4(DN-599) in the presence of cycloheximide. Hybridization of cDNA to Southern blots of viral DNA, Northern (RNA) blot analysis, and S1 nuclease analyses showed that the major BHV-4 IE RNA is a spliced, 1.7-kb RNA, which is transcribed from right to left on the restriction map of the BHV-4 genome from DNA contained in the 8.3-kb HindIII fragment E. The major IE RNA contains three small exons at its 5' end, spliced to a 1.3-kb 3' exon. This RNA is present in much-reduced amounts when cells are infected in the absence of cycloheximide. However, late in infection, the major IE RNA gene region encodes abundant RNAs which differ in structure from the major IE RNA. Nucleotide sequence analysis of the gene encoding the major IE RNA revealed an open reading frame encoding 284 amino acids. A homology search of amino acid sequence data bases showed that a 141-amino-acid region near the amino terminus of the predicted amino acid sequence is similar to sequences near the amino terminus of herpes simplex virus type 1 IE110. This region of homology includes CXXC pairs, which could be involved in zinc finger structures. The region encoding this putative zinc finger domain is also found in RNAs transcribed from this IE region late in infection, but it is spliced to different sequences than those used in IE RNA. Thus, the major IE region of the BHV-4 genome could encode a family of proteins sharing a zinc finger domain.
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PMID:Characterization of the bovine herpesvirus 4 major immediate-early transcript. 171 88

The conservation of the herpesvirus DNA polymerases has allowed cross-hybridization studies to be used for their identification and mapping on the viral genome. With the use of a DNA fragment containing the DNA polymerase gene of human cytomegalovirus (HCMV) as a hybridization probe, we were able to localize the DNA polymerase gene of murine cytomegalovirus (MCMV) to a region within MCMV EcoRI fragment B which spans the HindIII site separating HindIII fragments D and H. This site is colinear with the HCMV strain AD169 DNA polymerase gene. To confirm that this region encoded the MCMV DNA polymerase gene, we sequenced a 5131 nucleotide fragment from the PstI site in HindIII fragment D to a BglII site in HindIII fragment H. Initiating in HindIII fragment D and extending into HindIII fragment H was a long open reading frame (ORF) 1097 amino acids in length with extensive homology to the DNA polymerases of HCMV, herpes simplex virus, and Epstein-Barr virus. Upstream of the polymerase ORF was a reading frame with considerable homology to the carboxy terminal half of the glycoprotein B gene of human herpesviruses. At early times in the infection, we could detect with a probe representing part of the polymerase ORF two 3' coterminal transcripts, 3.9 kb and 1.7 kb in length. S1 nuclease and exonuclease VII analyses indicated that both transcripts were unspliced and initiated at independent sites in HindIII fragment D. By primer extension, we were able to map precisely the 5' end of the 3.9-kb RNA to a site 186 nucleotides upstream of the beginning of the DNA polymerase ORF.
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PMID:Transcription analysis and sequence of the putative murine cytomegalovirus DNA polymerase gene. 171 83


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