EC:3.1.30.2 - FACTA Search

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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The distribution of restriction endonuclease (RE) sites was compared for 84 herpes simplex virus type 1 (HSV-1) isolates obtained from the ganglia, facial lesions, genital lesions and from brain tissue from herpes encephalitis cases. The isolates came from Canada, the U.K., the U.S.A. and Japan. Out of a total of 224 sites identified, 87 were variable. Three of the 30 most variable sites were at significantly (P less than 0.05) different frequencies in groups of isolates from distinct anatomical sites of isolation; one of these, and a further two sites, were at significantly different frequencies in groups from distinct geographical origins. There are at least two inter-related linkage groups. However, most of the site combinations appear to be random. The variability of RE sites in contiguous genome segments, which include both non-coding and coding sequences, show a marked heterogeneity, indicating that some viral gene sequences are more variable than others. The three RE sites at different frequencies in viral groups from distinct anatomical sites of isolation are in two genome segments: map units 27 to 35 and 50 to 57. We infer from the observed associations with anatomical site of viral isolation that part of at least one of these segments may modulate viral virulence in man following infection.
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PMID:Variable restriction endonuclease sites of herpes simplex virus type 1 isolates from encephalitic, facial and genital lesions and ganglia. 631 55

Fifty aborted foetus samples were diagnosed for the presence of equine herpes virus-1 (EHV-1) by polymerase chain reaction (PCR) technique. Specific primer pair for amplification of a particular segment of EHV-1 DNA in gc region having 3 Hae III restriction endonuclease sites was used. A 409 base pair segment obtained as PCR amplification product in 9 samples was digested with Hae III to confirm the presence of EHV-1 as the infectious agent in aborted tissues. It was observed that PCR technique was more sensitive, specific and rapid than the conventional virological diagnostic methods.
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PMID:Application of polymerase chain reaction (PCR) for diagnosis of equine herpes virus-1 (EHV-1). 905 27

First observed in 1972 in Crassostrea virginica, herpes-like viruses of bivalves were more recently found to be associated with high mortality rates in other cultured oyster species, such as Crassostrea gigas and Ostrea edulis. The diagnosis of herpes-like virus infections is performed currently by laborious histological and transmission electron microscope examinations. Preparation of specific reagents for use in more amenable diagnostic techniques prompted purification of virus particles and investigation of the viral genome. This paper is the first description of the purification of a virus pathogen from a bivalve mollusc. A procedure was developed which facilitated purification of large amounts of virus particles on the 40-50% interface of sucrose gradients. Transmission electron microscopy showed that a purified virus suspension contained capsids and enveloped virus particles. High molecular mass viral DNA was extracted, and the genome size was estimated by the summation of the sizes of restriction endonuclease fragments to be approximately 180 kbp. Partial cloning of the virus genome was achieved and the specificity of certain cloned fragments was established by dot blot hybridization.
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PMID:Purification and partial genome characterization of a herpes-like virus infecting the Japanese oyster, Crassostrea gigas. 1035 79

Ten monoclonal antibodies (MAbs) were produced against equine herpes virus type 1 (EHV1). Two appeared type-specific, while the other eight were directed against epitopes common to both EHV1 and EHV4. Two MAbs directed against the glycoprotein gp2 recognized linear epitopes, as demonstrated by Western blotting. With pools of type-specific MAbs, 282 field isolates were typed in an immunoperoxidase monolayer assay (IPMA). From a total of 254 fetal or neonatal isolates, 244 (96%) were typed as EHV1, whereas 14 out of 15 (93%) respiratory tract isolates were typed as EHV4. Surprisingly, 3 out of 13 isolates (23%) originating from horses with neurological disease were typed as EHV4. No antigenic differences were found among 75 randomly selected EHV1 field isolates, using the panel of ten MAbs and six additional MAbs, directed against gp2, gB, or gC. Typing by restriction endonuclease analysis with BamHI corresponded completely with that of MAb analysis. There was a remarkable degree of uniformity in BamHI restriction patterns, with 90% of the investigated EHV1 isolates belonging to the 1P electropherotype. Among 30 randomly selected EHV1 isolates we could not identify the EHV1.1B electropherotype, which has been the predominant electropherotype in Kentucky since 1982. Mobility differences were seen in fragments originating from the repeat regions. These differences were not caused by heterologous cell passage, since all viruses were passaged in equine cell systems.
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PMID:Differentiation and genomic and antigenic variation among fetal, respiratory, and neurological isolates from EHV1 and EHV4 infections in The Netherlands. 1078 16

Human herpes virus 6 (HHV6) DNA was detected in two of eight fetuses with hydrops and none of ten non-hydropic dead fetuses. Both cases with HHV6 DNA had chromosomal abnormalities. Positive results were confirmed with a second PCR specific for an alternate region of the HHV6 genome. Restriction endonuclease analysis confirmed that the viral DNA was representative of HHV6 type A.
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PMID:Detection of human herpes virus 6 DNA in fetal hydrops. 1080 Nov 77

An ATP-powered DNA translocation machine encapsidates the viral genome in the large dsDNA bacteriophages. The essential components include the empty shell, prohead, and the packaging enzyme, terminase. During translocation, terminase is docked on the prohead's portal protein. The translocation ATPase and the concatemer-cutting endonuclease reside in terminase. Remarkably, terminases, portal proteins, and shells of tailed bacteriophages and herpes viruses show conserved features. These DNA viruses may have descended from a common ancestor. Terminase's ATPase consists of a classic nucleotide binding fold, most closely resembling that of monomeric helicases. Intriguing models have been proposed for the mechanism of dsDNA translocation, invoking ATP hydrolysis-driven conformational changes of portal or terminase powering DNA motion. Single-molecule studies show that the packaging motor is fast and powerful. Recent advances permit experiments that can critically test the packaging models. The viral genome translocation mechanism is of general interest, given the parallels between terminases, helicases, and other motor proteins.
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PMID:The bacteriophage DNA packaging motor. 1868 36

The genome packaging reactions of tailed bacteriophages and herpes viruses require the activity of a terminase enzyme, which is comprised of large and small subunits. Phage genomes are replicated as linear concatemers composed of multiple copies of the genome joined end to end. As the terminase enzyme packages the genome into the phage capsid, it cleaves the DNA into single genome-length units. In this work, we show that the phage HK97 HNH protein, gp74, is required for the specific endonuclease activity of HK97 terminase and is essential for phage head morphogenesis. HNH proteins are a very common family of proteins generally associated with nuclease activity that are found in all kingdoms of life. We show that the activity of gp74 in terminase-mediated cleavage of the phage cos site relies on the presence of an HNH motif active-site residue, and that the large subunit of HK97 terminase physically interacts with gp74. Bioinformatic analysis reveals that the role of HNH proteins in terminase function is widespread among long-tailed phages and is uniquely required for the activity of the Terminase_1 family of large terminase proteins.
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PMID:HNH proteins are a widespread component of phage DNA packaging machines. 2471 78

We investigated the impact of sequence divergence on DNA double-strand break (DSB) repair occurring via recombination in cultured thymidine kinase deficient mouse fibroblasts. We stably transfected cells with a DNA construct harboring a herpes thymidine kinase (tk) gene (the "recipient") rendered nonfunctional by insertion of an oligonucleotide containing the recognition site for endonuclease I-SceI. The construct also contained a closely linked truncated "donor" tk sequence. The donor could potentially restore function to the recipient gene via recombination provoked by induction of a DSB at the I-SceI site in the recipient. Repair events were recoverable by selection for tk-positive clones. The donor contained 33 mismatches relative to the recipient. The mismatches were clustered, forming a localized segment of DNA sequence displaying about 20% divergence relative to the recipient, and the mismatched segment was surrounded by regions of high homology. When the donor was aligned with the recipient, the DSB site in the recipient aligned opposite the mismatched segment, allowing us to potentially capture recombinational repair events initiating between diverged sequences. Previous work demonstrated that mammalian cells effectively avoid recombination between 20% diverged sequences. In the current study we asked whether flanking regions of high homology would enable genetic exchange between highly diverged sequences or, instead, would rejection of exchange between diverged sequences remain unchanged. We found that by surrounding mismatches with high homology, suppression of recombination between diverged sequences was overcome. Strikingly, we recovered a high frequency of gene conversion tracts positioned entirely within the mismatched sequences. We infer that such events were enabled by homologous pairing interactions between sequences surrounding the site of strand invasion. Our results suggest a search for high homology prior to recombination that is not mediated by an invading DNA terminus.
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PMID:High homology is not required at the site of strand invasion during recombinational double-strand break repair in mammalian chromosomes. 2905 4

We investigated the homology dependency of recombination in thymidine kinase (tk)-deficient mouse fibroblasts. Cells were transfected with DNA constructs harboring a herpes tk gene (the "recipient") rendered non-functional by an oligonucleotide containing the recognition site for endonuclease I-SceI. Constructs also contained a "donor" tk sequence that could restore function to the recipient gene through spontaneous gene conversion or via repair of a double-strand break (DSB) at the I-SceI site. Recombination events were recoverable by selection for tk-positive clones. Three different donors were used containing 16, 25, or 33 mismatches relative to the recipient. The mismatches were clustered, forming an interval of "homeology" relative to the recipient sequences. We show that when homeologous sequences were surrounded by high homology, mismatches were frequently included in gene conversion events. Notably, conversion tracts from spontaneous recombination included either all or none of the mismatches, suggesting that recombination must begin and end in high homology. This requirement was relaxed for events that occurred near an induced DSB, as a significant number of these latter conversion tracts had one end positioned within homeology. Knock-down of mismatch repair showed that incorporation of mismatches into gene conversion tracts can involve repair of mismatched heteroduplex intermediates, indicating that mismatch repair does not necessarily impede homeologous genetic exchange. Our results illustrate (1) genetic exchange between homeologous sequences in a mammalian genome is enabled by nearby homology, (2) proximity to a DSB impacts the homology requirements for where genetic exchange may begin and end, and (3) mismatch correction and previously documented anti-recombination activity are separable functions of the mismatch repair machinery in mammalian cells.
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PMID:Mismatch tolerance during homologous recombination in mammalian cells. 3010 93

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