Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.30.2 (endonuclease)
 18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A polymerase chain reaction (PCR) strategy for differentiating between a vaccine mutant strain and wild-type (WT) strains of Aujesky's disease (pseudorabies) virus (ADV) was evaluated. With this approach, a single virus or a concurrent WT and vaccine virus infection could be distinguished by targeting the genomic alteration within the vaccine strain. PCR primers were designed for a recombinant vaccine virus that has almost all of the WT gX gene replaced by the lacZ gene. One primer, corresponding to a conserved sequence upstream of the altered region, was selected for common use. The differentiating primers were chosen from the unique WT gX and vaccine lacZ gene sequences. The sensitivity of the differential PCR was analyzed using extracted viral DNA and in vitro infected cell lysates. Approximately 10 and between 10 to 100 molecules of WT and vaccine viral DNAs, respectively, could be detected, regardless of the presence or absence of uninfected cell lysates. Detection of viral DNA from in vitro infected cell cultures approximated this level of sensitivity. The specificity of the amplifications was verified by restriction endonuclease analysis and Southern hybridization. Although the vaccine primer pair target was amplified to a lesser degree as compared to the WT primer pair product, utility of the differential PCR was demonstrated using trigeminal nerve ganglia from swine infected with vaccine virus and WT virus. Both viral targets were detected only by their specific primer pair, in either the single or dual infection.
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PMID:Differential polymerase chain reaction for detection of wild-type and a vaccine strain of Aujeszky's disease (pseudorabies) virus. 132 28

The II-1 strain of the Aleutian disease virus (ADV-II-1) was isolated from experimentally infected mink organs. The viral particles were isolated having 23 to 24 nm in diameter with the buoyant density of the virions in CsCl gradient being 1.41 g.ml-1. The single stranded ADV DNA extracted from the purified virus particles had the molecular mass about 1.4 . 10(6) (4800 bases). The double-stranded replicative form of ADV DNA has been synthesized in vitro with the use of a large "Klenow" fragment of DNA-polymerase I. A restriction endonuclease map of ADV-II-1 DNA has been constructed with the use of in vitro synthesized double-stranded DNA.
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PMID:[Restriction analysis of the DNA of aleutian mink disease virus strain P-1]. 256 77

Three nonoverlapping segments representing approximately 80% of the 4.8-kilobase pair Aleutian disease virus (ADV-G) duplex genome were molecularly cloned into either bacteriophage M13mp9 (M13bm2 = 0.07 to 0.15 map unit; M13bm1 = 0.15 to 0.54 map unit) or plasmid pUC8 (pBM1 = 0.54 to 0.88 map units). In addition the 0.54- to 0.88-map unit segment of a Danish isolate of ADV (DK ADV) was also cloned into pUC8 (pBM2). The recombinant plasmids pBM1 and pBM2 induced expression of several polypeptides in Escherichia coli JM103 that were specifically recognized by sera from mink infected with ADV. The same three proteins with approximate molecular weights of 55,000, 34,000, and 27,000 were detected both by immune blotting and by immunoprecipitation of [35S]methionine-labeled JM103 (pBM1). None of these proteins were recognized in JM103 or JM103 (pUC8), nor were they detected by sera from normal mink. Purified pBM1 and pBM2 DNA appeared identical in size by gel analysis and contour length measurement, and electron microscopic heteroduplex mapping revealed no visible areas of heterology. However, restriction endonuclease mapping showed that pBM2 was different from pBM1, indicating that this segment of the ADV genome was similar but not identical for two strains of ADV (ADV-G and DK ADV). Furthermore, when cloned DNA from ADV-G was labeled with [32P]dCTP by nick translation, DNA relatedness to several field strains of ADV (Utah I, Pullman, and DK), but not to mink enteritis virus or cellular DNA, was shown by Southern blot hybridization.
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PMID:Molecular cloning of the Aleutian disease virus genome: expression of Aleutian disease virus antigens by a recombinant plasmid. 631 59

Following the isolation of a group I Aujeszky's disease virus from a wild boar in 1993, an investigation was carried out on 30 Italian Aujeszky's disease viruses (ADV's), isolated over a 23-yr period in 12 Italian regions, by means of restriction endonuclease analysis. All strains isolated between 1972 and 1984 belong to group I. From 1984 onwards group II isolates (II and II intermediate) replace group I isolates. The isolation of a group I virus in 1993 from a wild boar supports the hypothesis that ADV's may persist for several years in wild boar populations and that wild boars should therefore be considered reservoirs of Aujeszky's disease virus.
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PMID:Characterisation of Aujeszky's disease viruses isolated from domestic animals and from a wild boar (Sus scrofa) in Italy between 1972 and 1995. 935 49

An outbreak of Aujeszky's disease (AD) occurred in a herd of domestic animals that led to the death of seven cattle, three goats, three sheep, two cats and one dog, all of them with CNS signs. The animals were not in direct contact with swine. The ADV was detected in the tissue of affected animals by celi culture methods and PCR. Genome strains of ADV were characterized by restriction endonuclease analysis using BamH I. The results indicated that the strains of virus were identical and belonged to the type genome I of AD. Compared with vaccine and isolated strains obtained from the pig in the same region, considerable differences in DNA patterns were detected. Interestingly, the strains isolated from the dead animals were similar to Buk T-900 reference strains.
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PMID:A natural outbreak of Aujeszky's disease in farm animals. 1563 85