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)

Mutants of simian virus 40 (SV40), with deletions ranging in size from fewer than 3 to 750 base pairs located throughout the SV40 genome, were obtained by infecting CV-1P cells with linear SV40 DNA and DNA of an appropriate helper virus. The linear DNA was obtained by complete cleavage of closed circular DNA with Hae II or Bam HI endonuclease or partial cleavage with either Hae III endonuclease or nuclease S1, followed, in some cases, by mild digestion with phage lambda 5' -exonuclease. The following mutants with deletions in the late region of the SV40 genome were obtained and characterized. Ten, containing deletions at the Hae II endonuclease site (map location 0.83), define a new genetic complementation group, E, grow extremely slowly without helper virus, and cause alterations only in VP2. Two mutants with deletions in the region 0.92 to 0.945 affect both VP2 and VP3, demonstrating that VP3 shares sequences with the C-terminal portion of VP2. The mutant with a deletion at 0.93 is the first deletion mutant in the D complementation group and is also temperature sensitive; the mutant with a deletion at 0.94 is viable and grows normally. Three mutants with deletions at the EcoRI endonuclease site (0/1.0) and eleven with deletions at the BamHI endonuclease site (0.15) fall into the B/C complementation group. Six additional mutants with deletions at the BamHI endonuclease site are viable, growing more slowly than wild type. VP1 is the only polypeptide affected by mutants in the B/C group. A mutant with a deletion of the region 0.72 to 0.80 has a polar effect, failing to express the E, D, and B/C genes. Mutants with deletions in the early region (0.67 counterclockwise to 0.17) at 0.66 to 0.59, 0.48, 0.47, 0.33, and 0.285 to 0.205 are all members of the A complementation group. Thus, the A gene is the only viral gene in the early region whose expression is necessary for productive infection of permissive cells. Since mutants with deletions in the region 0.59 to 0.54 are viable, two separate regions are essential for expression of the gene A function: 0.66 to 0.59 and 0.54 to 0.21. Mutants with deletions at 0.21 and 0.18 are viable. Approximate map locations of SV40 genes and possible models for their regulation are discussed.
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PMID:Physical and genetic characterization of deletion mutants of simian virus 40 constructed in vitro. 19 79

A scheme is presented for cloning a double-stranded cDNA molecule that codes for a portion of chicken preproalbumin. This method, which does not require pure mRNA or cDNA, has widespread applicability. Chicken preproalbumin was identified as a Mr = 72,000 polypeptide by immunoprecipitation of proteins synehesized in a wheat germ cell-free translation system from total, guanidine.HCl-extracted, rooster liver RNA. After removal of the bulk of the ribosomal RNA by poly(U)-Sephadex G-10 chromatography, albumin mRNA was enriched approximately 2-fold by centrifugation through low salt, isokinetic sucrose gradients, until it represented about 30% of the mRNA sequences present. Double-stranded cDNA prepared from this mRNA was then inserted into the Pst 1 site of the plasmid PBR322 by the "G-C tailing" technique and the recombinant DNA was used to transform Echerichia coli stran X1776. Transformants containing putative albumin DNA sequences were identified by colony hybridization with a cDNA probe that was highly enriched for albumin cDNA sequences. This probe was isolated by hybridizing the partially purified RNA preparation to its cDNA, under conditions of RNA excess, to a R0t value such that only the most abundant cDNA sequences had hybridized. Unhybridized, less abundant, sequences were destroyed by subsequent S1 nuclease digestion. The identity of clones that hybridized to this abundant class cDNA was established by DNA-mRNA hybrid-arrested cell-free translation. Hybridization of nick-translated, albumin-containing, plasmid DNA to total liver poly(A)+ RNA, that had been separated on methyl mercury agarose gels and transferred to diazobenzyloxymethyl paper, established that avian albumin mRNA has a molecular weight of 850,000. This molecular weight corresponds to approximately 2,600 nucleotides, or 600 nucleotides longer than the size required to code for the preproalbumin polypeptide.
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PMID:Cloning of a double-stranded cDNA that codes for a portion of chicken preproalbumin. A general method for isolating a specific DNA sequence from partially purified mRNA. 71 69

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 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

Studies with molecular and immunological techniques identified and mapped the transcript encoding glycoprotein D (gD) of equine herpesvirus 1 KyA, as well as two continuous gD antigenic determinants. Three mRNA species of 5.5, 3.8, and 1.7 kb overlap the gD open reading frame and are transcribed from the DNA strand encoding gD. Northern (RNA) blot hybridization with both DNA clones and riboprobes, as well as S1 nuclease analyses, showed the 3.8-kb mRNA to encode gD and to be synthesized as a late (beta-gamma) transcript. The 3.8-kb gD mRNA initiates within the US segment 91 and 34 nucleotides downstream of the CCAAT and TATA elements, respectively, and encodes a potential polypeptide of 392 amino acids. The termination site of this transcript maps within the terminal repeat at a site also used by the 5.5-kb mRNA and the IR6-encoded 1.2-kb mRNA, such that these three transcripts form a 3'-coterminal nested set. The extended size (2,250 nucleotides) of the 3' untranslated region of the gD transcript and its termination within the terminal repeat may result from the deletion of 3,859 bp, which eliminates two consensus polyadenylation signals downstream of the gD open reading frame of EHV-1 KyA. Use of antisera to synthetic peptides of 19 amino acids (residues 4 to 22) and 20 amino acids (residues 267 to 285) in Western immunoblot analyses revealed that gD is present in EHV-1 virions as a 55-kDa polypeptide. In addition, these antisera detected the 55-kDa protein as well as 58- and 47-kDa polypeptides in infected-cell extracts at late times of infection. Residues 4 to 22 make up a continuous neutralizing epitope of gD, since incubation of equine herpesvirus 1 with the anti-19-mer serum prior to infection results in reduced numbers of plaques and reduced levels of virus-encoded thymidine kinase. Complement is not required for neutralization mediated by the anti-19-mer serum.
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PMID:Equine herpesvirus 1 glycoprotein D: mapping of the transcript and a neutralization epitope. 138 65

Early region 4 (E4) of mouse adenovirus type 1 was analyzed by Northern blotting, cDNA sequencing, and S1 nuclease protection and primer extension assays. The transcription map of this region was dissimilar to the consensus human adenovirus E4 transcription map in which all transcripts have identical 5' and 3'-terminal sequences. Seven classes of mouse adenovirus type 1 mRNAs were identified; all shared the same 3' end. Three classes of unspliced mRNAs differed at their 5' start sites, two classes of spliced transcripts differed in the locations of their splice acceptors, and two classes of spliced messages differed in their splice donors and acceptors. From the structure of the various transcripts, translational products were predicted. In addition to a predicted polypeptide with similarity to the human adenovirus 2 E4 34K protein previously identified (A. O. Ball, C. W. Beard, P. Villegas, and K. R. Spindler, 1991, Virology 180, 257-265), two open reading frames with similarity to human adenovirus 2 E4 open reading frames 2 and 3 were found.
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PMID:Transcription mapping of mouse adenovirus type 1 early region 4. 138 9

The small subunit of ribulose 1,5-bisphosphate carboxylase/oxygenase (EC 4.1.1.39) in the French bean Phaseolus vulgaris L. is encoded by a small gene family consisting of a minimum of three members. Three small subunit genes (rbcS genes) represented in a light-grown primary leaf cDNA library were characterised by sequencing two cDNAs which were full-length and one which was deficient in part of the sequence encoding the transit peptide. The cDNA clones are identical in their coding sequences, for both the transit peptide and the mature polypeptide, but divergent in their untranslated sequences. The derived amino acid sequence is very similar to that reported for other species, although the first amino acid of the mature polypeptide is isoleucine, which differs from the methionine found in all other higher plant rbcS genes. Surprisingly, one of the cDNA clones contains two introns, which are at positions conserved in rbcS genes from other species. It is concluded that this cDNA resulted from the cloning of an unprocessed transcript. Alternative polyadenylation sites are found for two of the genes. Expression of the rbcS genes in the primary leaves is stimulated by light, although transcripts can readily be detected in dark-grown leaves. Expression is also organ-specific, as in other species. The frequency of cDNA clones in the library indicates that the different genes show quantitative differences in expression and S1 nuclease analysis suggests that individual rbcS genes are photoregulated.
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PMID:Genes encoding the small subunit of ribulose 1,5-bisphosphate carboxylase/oxygenase in Phaseolus vulgaris L.: nucleotide sequence of cDNA clones and initial studies of expression. 153 29

The bean rust fungus, Uromyces appendiculatus, undergoes thigmotropic differentiation to produce infection structures. Six differentiation-specific genes have been isolated and one, INF24, has been characterized [Bhairi et al., Gene 81 (1989) 237-243]. Here, we report the structure of a second gene, INF56, which was subcloned on a 2.6-kb fragment and sequenced. The location of the 1.0-kb INF56 transcript was determined by S1 nuclease protection and primer extension. A TATA box was found 38 bp upstream and a CAAT box 130 bp upstream from the major transcription start point (tsp). The gene contains two open reading frames: ORF2 is nested within ORF1; they share a 67-bp intron. ORF1 encodes a 14.1-kDa polypeptide which has an amino acid sequence rich in Gly, Pro and Ser. It has sequence similarity to a functional domain (V2) of mammalian cytokeratin type II. ORF2 encodes a 10.1-kDa polypeptide which is rich in Pro. It shares similarity with the cell-surface recognition region of chicken fibronectin. Hybrid selection and in vitro translation of the INF56 mRNA yielded two polypeptides of 15.5 and 23 kDa, as estimated by sodium dodecyl sulfate-polyacrylamide-gel electrophoresis. INF56 is constitutively expressed at a low level, but the abundance of its steady-state transcript is upshifted 4.5 h after spore hydration during the period that infection structures are formed.
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PMID:Characterization of INF56, a gene expressed during infection structure development of Uromyces appendiculatus. 154 77

We have isolated cDNAs encoding a cardiac variant of the AE3 Cl-/HCO3- exchanger from a rat heart library. The predicted cardiac AE3 polypeptide is 1030 amino acids in length, while the AE3 variant expressed in brain consists of 1227 amino acids. The C-terminal 957 amino acids of both polypeptides are identical, but the cardiac protein contains a unique N-terminal sequence of 73 amino acids which replaces the first 270 amino acids of the brain form. To determine the genetic basis for the differences between the cardiac and brain AE3 variants, we isolated and characterized the rat gene. Exons 1-6 contain the 5'-untranslated sequence and the first 270 codons of the brain mRNA, while exons 7-23 contain the coding and 3'-untranslated sequences which are common to the brain and cardiac mRNAs. The 5'-untranslated and unique N-terminal coding sequences of the cardiac mRNA are contained within a single exon, termed C1, which forms part of the intron between exons 6 and 7 of the brain transcription unit. Primer extension and S1 nuclease protection assays demonstrate that transcription of the cardiac AE3 mRNA precursor is intiaited within this intron. Therefore, alternative promoter and exon usage are involved in generation of the two AE3 mRNAs.
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PMID:The predicted translation product of a cardiac AE3 mRNA contains an N terminus distinct from that of the brain AE3 Cl-/HCO3- exchanger. Cloning of a cardiac AE3 cDNA, organization of the AE3 gene, and identification of an alternative transcription initiation site. 156 21

Nucleotide sequence analysis of a 42-kb region of the vaccinia virus (strain Western Reserve) genome identified a gene with the potential to encode a 35.1-kDa polypeptide with properties of a membrane glycoprotein (Smith et al., J. Gen. Virol. 72, 1349-1376, 1991). The 317 amino acid open reading frame (ORF) has similarity with complement control proteins and a secretory vaccinia virus protein (C28K) which interferes with complement function. The predicted B5R gene product differs from the latter protein in that it contains a C-terminal hydrophobic sequence and may be membrane-associated rather than secretory. Transcriptional mapping by Northern blotting and S1 nuclease protection showed that the gene is transcribed both early and late during infection, with the early RNA start site located 60 bp upstream of the late start site that is present at -9 to -5 bp relative to the ORF. Nevertheless, translation of early and late mRNAs are predicted to produce the same polypeptide. A rabbit antiserum was raised to the predicted external hydrophilic domain of B5R expressed in Escherichia coli and used to immunoprecipitate a M(r) 42 K protein from vaccinia-infected cells. This protein was synthesized throughout infection, with a peak from 6 to 7 hr, and its production was inhibited by tunicamycin but not monensin. Western blotting of proteins from purified extracellular enveloped virus (EEV) or intracellular naked virus with anti-B5R serum showed that this M(r) 42 K protein and two higher molecular weight forms (Mr82 and 87 K) were present only in EEV. Anti-B5R serum inhibited comet formation by the IHD-J strain of virus on RK13 cells. B5R is the third vaccinia gene shown to encode an EEV glycoprotein, the others being the virus hemagglutinin gene, and gene SalL4R which encodes a group of lectin-like glycoproteins of M(r) 22-24 K.
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PMID:A constitutively expressed vaccinia gene encodes a 42-kDa glycoprotein related to complement control factors that forms part of the extracellular virus envelope. 158 49


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