EC:3.1.30.1 - FACTA Search

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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 protocol has been developed for the synthesis of a double-stranded DNA (dsDNA) copy of the influenza virus RNA genome segment which codes for the major surface antigen, haemagglutinin (HA). This dsDNA copy was inserted, after digestion with S1 nuclease and poly (dC) tailing with terminal transferase, into poly(dG)-tailed, PstI-cut, pBR322 DNA, and used to transform E. coli RR1. Tetracycline-resistant bacterial colonies were screened for the presence of plasmid containing the copied HA gene by testing their ability to hybridise to a specific, 32P-labelled, single-stranded DNA probe. Four cloned hybrid plasmids, containing DNA complementary to the HA gene of the influenza strain 29C (a laboratory derivative of influenza A/NT/60/68 (1)) were analysed by restriction enzyme mapping. Each contained a dsDNA insert equivalent to a full length copy of the HA gene. The nucleotide sequence of a selected restriction fragment from the DNA inserted in one of these cloned plasmids (C89) was determined. The amino acid sequence deduced from these data agreed with the amino acid sequence determined for the corresponding region of HA from the influenza strain A/Mem/102/72, another member of the Hong Kong subtype, identifying the inserted dsDNA of C89 as an authentic copy of the influenza HA gene.
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PMID:The influenza virus haemagglutinin gene: cloning and characterisation of a double-stranded DNA copy. 38 51

Using an adenovirus-hepatitis B virus (HBV) recombinant, expression of the HBV surface antigen (HBsAg) genes was examined in various cell lines using S1 nuclease mapping and radioimmunoassay. The steady-state level of the 2.4 kb RNA encoding the large HBsAg was much greater than, or the same as, that of the 2.0 kb RNA, encoding the middle and major HBsAgs, in primate cells, but was negligible in non-primate cells, as is the case in most expression systems. According to the amount of 2.4 kb RNA expressed, cells were classified into three groups: those in which (1) the amount of 2.4 kb RNA was much greater than that of 2.0 kb RNA (HepG2 and JHH-4), (2) the amount of 2.4 kb RNA was the same as that of 2.0 kb (Hul-1, HeLa and other non-hepatic primate cells), and (3) the amount of 2.4 kb RNA was less than one-tenth of that of 2.0 kb RNA (rodent cells). Radioimmunoassay revealed that most HBsAg is located intracellularly in primate cells, but is secreted into the culture medium of rodent cells. The expression of 2.4 kb RNA was unaffected by an inhibitor of DNA synthesis in HepG2 cells, which are of human liver origin, whereas it was strongly inhibited in human non-hepatic HeLa cells.
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PMID:Preferential expression of the large hepatitis B virus surface antigen gene by an adenovirus-hepatitis B virus recombinant. 165 85

Clonal cells derived from HepG2 cells transfected with a plasmid containing hepatitis B virus (HBV) DNA secrete hepatitis B surface antigen particles, nucleocapsids, and virions (M. A. Sells, M.-L. Chen, and G. Acs, Proc. Natl. Acad. Sci. USA 84:1005-1009, 1987) which elicit acute hepatitis in chimpanzees (G. Acs, M. A. Sells, R. H. Purcell, P. Price, R. Engle, M. Shapiro, and H. Popper, Proc. Natl. Acad. Sci. USA 84:4641-4644, 1987). We report here the initial characterization of the viral nucleic acids produced in this culture system. Kinetic analyses of nuclear, cytoplasmic, and extracellular HBV DNAs were performed by Southern blotting with radiolabeled HBV strand-specific probes. The results from these analyses indicate that at the stationary cellular growth phase, there is a dramatic increase in the rate at which HBV DNA accumulates. Incomplete double- and single-stranded forms of the HBV genome were detected in the nuclear and cytoplasmic fractions as well as in the extracellular medium. In addition, the nuclear DNA apparently includes multiple complete copies of the HBV genome chromosomally integrated and full-length covalently closed circular HBV DNA. Multiple HBV-specific polyadenylated RNAs with lengths of 3.5, 2.5, and 2.1 kilobases were identified by Northern (RNA) blot analysis. S1 nuclease mapping and primer extension identified a single 3' end and multiple unique initiation sites corresponding to nucleotides just 5' to the pre-S1 region, as well as upstream and within the pre-S2 and precore regions. The nucleic acid profile obtained from these analyses is essentially a facsimile of that obtained by studying liver tissue from HBV-infected individuals.
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PMID:Replicative intermediates of hepatitis B virus in HepG2 cells that produce infectious virions. 283 5

Ad5-HBL is a type 5 adenovirus bearing the large BglII fragment (2.8 kilobases; 87% of the total genome) of hepatitis B virus (HBV), subtype adr. Eight HBV RNAs expressed in HeLa cells infected with Ad5-HBL were mapped by the nuclease S1 technique. Three major RNAs spanning 2.4, 2.0, and 0.7 kilobases of the HBV sequences cover the coding regions of "presurface" plus surface antigen, surface antigen alone, and "X" protein, respectively. The 5' segment of an RNA which could code for core antigen (HBcAg) was also detected. All major HBV RNAs initiate from mutually exclusive 5' ends, terminate at the unique 3' end within the HBcAg coding region (except readthrough species), and have no spliced deletion, forming a novel RNA family structure. No TATA box-like sequences were found near the 5' end of these RNAs, except in the case of the 2.4-kilobase RNA. About two thirds of total HBV RNA does not terminate at the mapped 3'-end position, suggesting the termination signal is functionally inefficient. Since the potential 5' end of HBcAg mRNA was mapped at the same position as the minus-strand nick of HBV DNA previously reported, we propose a model that requires inefficient poly(A) addition to produce an RNA which serves both as HBcAg mRNA and as the putative RNA template of minus-strand DNA synthesis in the HBV life cycle.
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PMID:Novel RNA family structure of hepatitis B virus expressed in human cells, using a helper-free adenovirus vector. 300 68

Hep 3B, a human hepatoma cell line was examined for its RNA hybridizable to the hepatitis B virus sequence. Using probes that covered different regions of the hepatitis B virus genome, five species of RNA were observed of sizes 4.0, 3.3, 2.9, 2.6 and 2.2 kilobases. The RNAs covered surface antigen gene, pre-S and X regions. None of them had a core antigen sequence. RNA with a 4.0 kilobase size was the most abundant. Using S1 nuclease analysis, its 5' end of hepatitis B virus sequence was mapped at pre-S region and its 3' end of viral sequence was mapped at DR region.
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PMID:Hepatitis B virus transcripts in a human hepatoma cell line, Hep 3B. 301 12

A series of recombinant plasmid vectors containing hepatitis B virus (HBV) DNA sequences was constructed to study the biosynthesis of the hepatitis B virus surface antigen (HBsAg) RNA and to locate transcriptional control elements involved in the regulation of the S and pre-S DNA sequences. We examined the transcription of the HBsAg gene in permanent cell lines that were developed by transfecting with recombinant vectors containing HBV sequences and the neomycin gene followed by G418 selection. We further defined the promoter activities upstream of and within the pre-S sequences using the assayable chloramphenicol acetyltransferase gene. Results obtained from S1 nuclease digestion and primer extension suggest that HBsAg transcripts are initiated at multiple sites in the pre-S region and from a site upstream of the pre-S region. Chloramphenicol acetyltransferase assays indicate that DNA sequences within and upstream of the pre-S region contain promoter activities and that the "TATA" sequence-containing promoter and the internal promoter show similar levels of activities in CV-1 cells and several other cell lines tested.
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PMID:Transcriptional control elements of hepatitis B surface antigen gene. 345 53

Using dodecadeoxynucleotides as primers for DNA synthesis and 3'-o-chlorophenyl-phosphorylated dodecadeoxynucleotides as "stoppers" for chain elongation, pre-defined regions of a gene previously cloned in M13 single-stranded (ss) DNA phage were converted into double-stranded (ds) DNA utilizing the action of the Klenow fragment of Escherichia coli DNA polymerase I (PolIk). The resulting ds DNA was freed from the ss region by S1 nuclease treatment. This method can be used to obtain DNA fragments of any size with pre-defined 5' and 3' ends. About 15% of the input ss DNA template molecules are converted into ds DNA fragments. This technique was used to synthesize several DNA fragments from different portions of the hepatitis B virus surface antigen (HBsAg) gene. The products were then ligated into a yeast plasmid vector that carries the E. coli lacZ gene which is located downstream from the yeast acid-phosphatase promotor. Using this system, several fragments of HBsAg were produced in the form of beta-galactosidase fused protein.
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PMID:Cloning a defined region of DNA using a limited action of DNA polymerase: application to dissection of hepatitis B virus surface antigen gene. 378 Dec 47

Genomic clones encoding the mouse cell-surface antigen, Ly-49, were isolated, and the gene organization was analyzed. The gene spanned approximately 19 kb, and contained seven exons and six introns. The lengths of introns ranged from 1.3 to 8 kb. A 1067-bp sequence in the 5'-flanking region was determined. Primer extension analysis and S1 nuclease mapping revealed a cap site at 158 bp upstream from the ATG coding the N-terminal Met of Ly-49. The 5'-flanking sequence contained a possible promoter sequence, a potential binding site for the T cell-specific transcription factor (TCF-1 alpha/LEF-1), and three sites for the basic helix-loop-helix-binding basic proteins (bHLH). However, no CAAT box-like sequence was present. These results provide important clues for understanding the mechanism of gene expression of lymphocyte antigens.
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PMID:The gene encoding mouse lymphocyte antigen Ly-49: structural analysis and the 5'-flanking sequence. 829 25

Within its intermediate host, Toxoplasma gondii switches between two forms: a rapidly replicating tachyzoite and an encysted bradyzoite. Bradyzoites persist within the host throughout its life, hidden from antimicrobial agents and the immune system. The signals that mediate switching are poorly understood. A gene trap was employed to isolate genes whose expression is up-regulated early in the switching of bradyzoites via the negative and positive selectable marker hypoxanthine-xanthine-guanine phosphoribosyltransferase (HXGPRT). T. gondii was transfected with promoterless HXGPRT and negatively selected with 6-thioxanthine to inhibit the growth of tachyzoites expressing HXGPRT. The surviving tachyzoites were then induced for in vitro bradyzoite formation and treated with mycophenolic acid and xanthine to positively select for parasites in which the construct had integrated downstream of a bradyzoite-specific gene. Strains were checked for their ability to differentiate by using Dolichos biflorus agglutinin (a bradyzoite-specific lectin) and a monoclonal antibody against P36 (a bradyzoite-specific surface antigen). After differentiation, all gene-trapped clones had Dolichos immunofluorescence and all but one expressed P36. The sequences flanking the insertion site of this P36-negative strain were homologous to the Toxoplasma family of surface antigens, strongly suggesting that P36 is encoded by the disruptive gene. Genetic mapping and complementation of the P36-negative strain further indicated that the disrupted gene is P36. Reverse transcriptase PCR and S1 nuclease digestion were used to compare mRNA levels during the tachyzoite and bradyzoite stages. The presumptive P36 gene does not appear to regulate its mRNA levels between the two stages, indicating a posttranscriptional mechanism of regulation for early bradyzoite-specific genes.
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PMID:Isolation of developmentally regulated genes from Toxoplasma gondii by a gene trap with the positive and negative selectable marker hypoxanthine-xanthine-guanine phosphoribosyltransferase. 944 77

A hepatitis B virus (HBV) integrant was cloned from the genomic DNA library of human hepatocellular carcinoma cell line, Hep3B. Sequence analysis of the restriction fragment bearing the virus-host junction revealed that its integration pattern was the common type, with the right junction located at the cohesive region. The open reading frame of the major viral surface antigen was intact with rearranged preS1 and core sequences. The X protein, although truncated, maintained the trans-activating activity to simian virus 40 enhancer/promoter. S1 nuclease mapping showed that 4.0-, 2.9-, and 2.2-kb HBV RNAs detected in Hep3B cells were transcribed from this integrant using preS2/S promoter. By somatic-cell hybrid mapping, the left and right cellular flanking sequences were assigned to chromosomes 13 and 4, respectively. The results of this study support the notion that integrated hepatitis B virus, resulting in chromosomal rearrangement as well as the production of the carboxy-terminal truncated X protein with trans-activating activity, is important for viral hepatocarcinogenesis.
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PMID:Characterization of hepatitis B virus integrant that results in chromosomal rearrangement. 962 85

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