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)

In this paper, we report that the DNA of bovine mammillitis virus (BMV) consists of two covalently linked components that are 71.5 x 10(6) and 15.7 x 10(6) in molecular weight and designated L and S, respectively. We further report that the BMV DNA consists of four equimolar populations differing only in the orientation of the L and S components relative to each other. This conclusion is based on the following: (i) The sum molecular weight of fragments generated by digestion of BMV DNA with Hsu I, Hpa I, Bgl II, or Xba I significantly exceeds the established molecular weight of the intact DNA. (ii) In each digest, the fragments form three groups differing in molar concentration. In reference to the molar concentration of intact DNA, each enzyme digest contained a set of four fragments 0.25 M in concentration, a set of four fragments 0.5 M in concentration, and a variable size set, unique for each enzyme digest, 1.0 M in concentration. (iii) Experiments involving digestion of intact DNA by lambda exonuclease followed by restriction endonuclease digestion established that each of four 0.5 M fragments were positioned at the termini of the BMV DNA. (iv) Complete maps for the fragments generated by each enzyme established that the 0.25 M fragments arise by fusion of the sequences of the terminal fragments when these are juxtaposed as a consequence of the inversion of L and S components. The maps also established the dimensions of the L and S components. We conclude that the structure of BMV DNA is similar to that of HSV DNA previously shown to consist of two unequal size components that invert relative to each other.
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PMID:Anatomy of bovine mammillitis DNA. I Restriction endonuclease maps of four populations of molecules that differ in the relative orientation of their long and short components. 20 50

A fragment of alcelaphine herpesvirus-1 (AHV-1; malignant catarrhal fever) DNA was subcloned into pUC 18 and sequenced. The subclone hybridized strongly to AHV-1 DNA, weakly to alcelaphine herpesvirus-2 (AHV-2) DNA, and not at all to DNA from bovine herpesvirus-1 (BHV-1; infectious bovine rhinotracheitis [IBR] virus), bovine herpesvirus-2 (BHV-2; bovine herpes mamillitis [BHM] virus), and bovine herpesvirus-4 (BHV-4; isolate DN599). A 2-stage (nested) polymerase chain reaction (PCR) diagnostic test was devised based on a portion of the subcloned AHV-1 DNA sequence. First and second stage amplified AHV-1 DNA targets were 487 and 172 base pairs (bp) in length, respectively. Unique Pvu II and Stu I restriction endonuclease cleavage sites confirmed the identity of amplified AHV-1 DNA. Five AHV-1 and 2 AHV-2 isolates were identically and specifically PCR positive. BHV-1, BHV-2, and BHV-4 viruses were negative by the same procedure. As little as 0.01 TCID50 AHV-1 was detected using the nested amplification procedure. Simple methods of buffy coat isolation from bovine blood were employed to prepare specimens for PCR. An AHV-1-infected calf was PCR positive from 3 to 77 days postinoculation (PI), with rising seroconversion first noted 14 days PI. The AHV-1 DNA sequence was 62% homologous to a portion of the Epstein-Barr virus genome. The nested PCR procedure may improve the viral diagnosis of clinical and subclinical alcelaphine herpesvirus infections.
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PMID:Molecular diagnosis of alcelaphine herpesvirus (malignant catarrhal fever) infections by nested amplification of viral DNA in bovine blood buffy coat specimens. 191 89

Reference strains and field isolates of herpesviruses recovered from cattle in the United States were compared by restriction endonuclease (RE) analysis and the indirect fluorescent antibody test. As a result of these comparisons, 5 major biotypes of bovine herpesvirus (BHV) were defined. These types were (i) infectious bovine rhinotracheitis virus (BHV-1), (ii) bovine herpes mammillitis virus (BHV-2), (iii) malignant catarrhal fever (MCF) virus (herpesvirus alcelaphinae), (iv) the group of slow-growth isolates represented by the prototype strain Movar 33/63 (bovine cytomegalovirus candidate), and (v) the syncytia-forming Pennsylvania 47 strain. Bovine herpesvirus-1 and BHV-2 did not cross-react serologically with any other type of BHV tested. A low, but consistent level of serologic cross-reactivity was detected among MCF virus, the Movar group, and Pennsylvania 47. Several nonsyncytial, slow-growth strains, which were recovered from dissimilar clinical syndromes and were serologically related to Movar 33/63, exhibited similar DNA RE cleavage patterns, confirming their identity as members of a single type. There was no isolate from American domestic cattle similar to the African MCF virus, which has been sporadically isolated from exotic ruminants in the United States. The African MCF virus isolated during a MCF epizootic in a United States zoo exhibited some DNA RE cleavage differences in comparison with the MCF virus world prototype strain WC 11, indicating that strain diversity exists within this biotype.
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PMID:Comparison of the herpesviruses of cattle by DNA restriction endonuclease analysis and serologic analysis. 299 38