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

Since 1981 a domesticated muskoxen herd had been successfully vaccinated against papillomatosis with homogenated, glutaraldehyde inactivated papilloma tissue. In the fall of 1985 a new clinical outbreak of disease occurred, affecting previously infected as well as vaccinated animals. The purification of parapox virions directly from papilloma tissue and orf scabs collected in a local sheep farm was followed by restriction endonuclease analysis of viral DNA. The morphological identity of purified virus was controlled by electron microscopy. Comparison of restriction endonuclease digests (10 different enzymes) by gel electrophoresis demonstrated that the muskoxen parapoxvirus from the new outbreak 1985 differed considerably from the 2 other isolates (muskoxen 1981 and local orf). The latter viruses demonstrated a high degree of homology, but differences were evident after digestion with the enzyme EcoRI. During metrizamide gradient purification minor bands containing morphologically intact virions were isolated in addition to the major fractions. The restriction enzyme digests indicated that the virions of the minor bands differed from those in the major bands.
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PMID:Parapoxvirus papillomatosis in the muskoxen (Ovibos moschatus): genetical differences between the virus causing new outbreak in a vaccinated herd, the vaccine virus and a local orf virus. 216 88

We sequenced two recombinant DNA clones constituting a single provirus of the milk-transmitted mouse mammary tumor virus characteristic of BR6 mice. The complete provirus is 9,901 base pairs long, flanked by 6 base-pair duplications of cellular DNA at the site of integration. Five extensive blocks of open reading frame corresponding to the gag gene, the presumed protease, the pol and env genes, and the open reading frame orf within the long terminal repeat of the provirus were readily discernible. Translation of gag, protease, and pol involved three different translational reading frames to produce the three overlapping polyprotein precursors Pr77, Pr110, and Pr160 found in virus-infected cells. Synthesis of the reverse transcriptase and endonuclease therefore required two separate frameshifts to suppress the termination codons at the ends of the Pr77 and Pr110 domains. Direct evidence is presented for translational readthrough of both stop codons in an in vitro protein synthesis system.
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PMID:Complete nucleotide sequence of a milk-transmitted mouse mammary tumor virus: two frameshift suppression events are required for translation of gag and pol. 302 77

The genomes of several orf virus strains were analyzed with the restriction endonucleases EcoRI, HindIII, BamHI, and KpnI, and cleavage site maps were deduced. In general, the right half of the genome showed conservation of restriction sites compared with the left half. Variations in size of up to 0.5 kbp were found within an inverted terminal repetition, and a 1-kbp deletion was detected in some strains in a subterminal fragment at the left end. A region of approximately 20 kbp, some 12 kbp in from the left end, showed the greatest cleavage site variability although there was no evidence of large deletions in this region. A 1.55-kbp cloned DNA fragment from the internal variable region of NZ2 failed to hybridize to the DNA from three other strains. A fragment in the variable region of strain NZ7 was cloned and compared by hybridization and restriction endonuclease analysis with cloned NZ2 fragments from the same region. The region of nonhomology extended for at least 2.75 kbp. It is suggested that this internal variable region may provide sites for the insertion of foreign genes.
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PMID:Conservation and variation in orf virus genomes. 302 53

The purification of orf virus directly from scab material from clinical cases of orf in sheep and restriction endonuclease analysis of the viral DNA is described. Between 7 x 10(9) and 1.6 x 10(11) virus particles, and 0.7 to 22.8 micrograms of viral DNA could be recovered from 1g of scab material. Considerable heterogeneity was observed between different field isolates when restriction endonuclease digests of orf DNA were compared by gel electrophoresis. It was also shown, for two isolates, that these fragment patterns did not change after plaque purification and passage in cell culture. It is suggested that restriction endonuclease analysis of viral DNA offers a convenient method of identification of isolates of orf virus. The molecular weight of orf DNA was determined and found to be 88.8 x 10(6).
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PMID:The genome of orf virus: restriction endonuclease analysis of viral DNA isolated from lesions of orf in sheep. 627 55

The large differences between the G+C content of the orf virus genome and those of other characterized poxviruses have precluded the use of DNA hybridization to establish a gene map of orf virus. Here we have sequenced the ends of cloned restriction endonuclease fragments of the nZ2 strain of orf virus (OV) and used the translated sequences to search protein data bases. Sequence from 15 points found high-scoring matches to data base entries, including 18 vaccinia virus (VAC) genes. We also present 2 kb of sequence from a region near the right terminus of the OV genome and show that it encodes homologs of VAC genes, F9L and F10L. The data presented here in conjunction with published and as yet unpublished data have allowed the construction of a gene map of OV on which 37 genes have been placed. Thirty-two of these genes have homologs in VAC. Alignment of the OV gene map with that of VAC revealed that each OV gene and its VAC counterpart occurred in the same order and orientation on their respective genomes. The intervals between many of the points of sequence were also found to be strikingly similar. The conserved spacing of genes between OV and VAC within the central 88.2 kb of the 139-kb OV genome is not maintained in the termini where insertion, deletion, and translocation have occurred. Parallels are drawn between the data presented here and related data from swinepox virus and capripox virus.
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PMID:The establishment of a genetic map of orf virus reveals a pattern of genomic organization that is highly conserved among divergent poxviruses. 757 39

A 7.0-kb DNA fragment that conferred redbrown pigment production on Streptomyces griseus was shotgun-cloned with a multicopy vector pIJ486 from this microorganism. By restriction endonuclease mapping and subcloning, a 1.5-kb fragment which is essential for the production of redbrown pigment was determined. The nucleotide sequence of this region revealed the presence of two open reading frames, ORF1 with 109 amino acids (named RppA) and ORF2 with 262 amino acids (RppB), in addition to a truncated ORF3. The termination codon of rppA and the initiation codon of rppB overlapped, sharing one common nucleotide, which strongly suggests that these two genes are cotranscribed. Both rppA and rppB were essentially required for the pigmentation. The RppB protein showed great similarity in amino acid sequence to a chalcone synthase, a key enzyme of central importance in the biosynthetic pathway of all classes of flavonoids in plants. Part of RppA showed sequence similarity to the 33kDa phosphoprotein of adenovirus. Nucleotide sequences homologous to rppA and rppB were widely distributed in Streptomyces species, as determined by Southern hybridization. Further nucleotide sequencing of the entire orf-3 gene showed that ORF3 with 403 amino acids was a cytochrome P-450 (named P-450RPP). These data suggested that the cloned fragment contained part of a gene cluster for the biosynthesis of a certain metabolite. Introduction of the subcloned 1.5-kb fragment into Streptomyces lividans as well as Escherichia coli also caused production of redbrown pigment, suggesting that RppA and RppB are capable of synthesizing the redbrown pigment from metabolites commonly present in bacteria.
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PMID:Overexpression of a gene cluster encoding a chalcone synthase-like protein confers redbrown pigment production in Streptomyces griseus. 764 62

There are three accepted members of the parapoxvirus genus, orf virus (OV), papular stomatitis virus (PSV), and pseudocowpox virus (PCV). OV is maintained in sheep and goats and PSV and PCV in cattle. Restriction endonuclease profiles of the DNA derived from representatives of these established members of the genus were compared with profiles from a parapoxvirus recently isolated from red deer. In no case did the profile of this latter virus (DPV) resemble those generated from the other parapoxviruses. Southern blot hybridization using total DPV DNA as a probe revealed homology between DPV and the central regions of the genomes of the other parapoxviruses but not to their terminal regions. These results indicate that the genome of DPV is as different from the genomes of the three accepted members of the genus as the latter are from each other and argue for the inclusion of DPV as a new member of the parapoxvirus genus.
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PMID:Parapoxvirus of red deer: evidence for its inclusion as a new member in the genus parapoxvirus. 774 56

Restriction endonuclease analysis of the DNA extracted orf virus strain NZ2, which had been serially passaged in primary bovine testis cells, revealed a population of variants that had over-grown the wild-type virus. At least three distinct mutant forms were identified in which the right end of the genome had been duplicated and translocated to the left end, accompanied by deletions of sequences at the left end. Sequencing of a single variant isolated from the heterogeneous population revealed that recombination had occurred between non-homologous sequences. In this case, 6.6 kb of DNA at the left end of the genome had been replaced by 19.3 kb from the right end. The transposition resulted in the deletion at the left end of 3.3 kb of DNA encoding three genes and the terminal sequences of a fourth gene. The three genes completely deleted were a homologue of dUTPase, a gene that encodes a protein containing ankyrin-like repeats and a homologue of the 5K gene of the vaccinia virus WR strain. Experimental inoculation of sheep showed that the genes are also non-essential in vivo, but that the size of the lesion was reduced, compared with that induced by the wild-type, and resolved more rapidly.
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PMID:Genomic analysis of a transposition-deletion variant of orf virus reveals a 3.3 kbp region of non-essential DNA. 884 2

We investigated the feasibility of using vaccinia virus (VAC) recombinants containing large multigene fragments of orf virus DNA to identify protective antigens of orf virus (OV). Sixteen OV strain NZ2 DNA fragments with an average size of 11.4 kb were recombined into VAC strain Lister. Each fragment was mapped relative to OV restriction endonuclease maps but was otherwise uncharacterized. Together the recombinants represent 95% of the OV genome in an overlapping manner. Immunofluorescence showed all 16 constructs expressed products recognized by OV antiserum and radioimmune precipitation with the same antiserum allowed the localization of the major antigens of OV to specific recombinants. These data indicated the approximate genomic locations of the genes encoding the OV major antigens and showed that their expression was authentic rather than resulting from read through from VAC sequences adjacent to the site of recombination. Vaccination of OV-naive sheep with the recombinant library provided protection against a subsequent challenge with virulent OV. These data confirm the feasibility of the proposed strategy.
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PMID:A novel strategy for determining protective antigens of the parapoxvirus, orf virus. 912 61

Endonuclease V from Escherichia coli has a wide substrate spectrum. In addition to deoxyinosine-containing DNA, the enzyme cleaves DNA containing urea residues, AP sites, base mismatches, insertion/deletion mismatches, flaps, and pseudo-Y structures. The gene coding for the enzyme was identified to be orf 225 or nfi (endonuclease five). Using enzyme purified from an overproducing strain, the deoxyinosine- and mismatch-specific activities of endonuclease V was found to have different divalent metal requirements. The affinity of the enzyme is greater than 20-fold higher for DNA containing deoxyinosine than deoxynebularine or base mismatches. Under optimal cleavage conditions, endonuclease V forms two stable complexes with DNA containing deoxyinosine, but not with DNA containing base mismatches or deoxynebularine, suggesting that the 6-keto group of hypoxanthine in DNA is critical for stable interactions with the protein. The enzyme recognizes deoxyuridine in DNA but exhibits a much lower affinity to DNA containing deoxyuridine compared with DNA containing deoxyinosine. Interestingly, deoxyuridine-specific endonuclease activity of endonuclease V has a divalent metal requirement similar to the mismatch activity. A model for the mechanism of substrate recognition is proposed to explain these different activities.
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PMID:Further characterization of Escherichia coli endonuclease V. Mechanism of recognition for deoxyinosine, deoxyuridine, and base mismatches in DNA. 938 17


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