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Restriction endonucleases EcoRI, BamHI, Hind III and KpnI were used for analysis of acccinia virus DNA. The number and size of restriction endonuclease fragments were determined by gel electrophoresis and the analysis of 3H-labeled vaccinia virus DNA. It was shown that many EcoRI and BamHI fragments had the same and similar sizes. The exact number of EcoRI and BamHI fragments were estimated only after analysis of [3H]-labeled vaccinia DNA. The vaccinia genome sizes calculated from HindIII, KpnI and EcoRI are very close to the actual genome weight. But the sum of BamHI fragments is much lower than those determined by electron microscope method.
Mol Biol (Mosk)
PMID:[Analysis of vaccinia virus genome with restriction endonucleases EcoRI, BamHI, KpnI and HindIII]. 23 45

Vaccinia virus DNA polymerase will utilize a substrate consisting of phi X174 DNA primed with a strand of a unique restriction fragment, but the reaction is inefficient. Examination of the reaction products by alkaline agarose gel electrophoresis revealed a few discrete fragments, each corresponding to an extended primer strand. This result implies that specific barriers exist on the phi X174 template which impede, but do not completely halt, the progress of the enzyme. Only a few per cent of the template molecules were completely copied. Similar findings were reported by Sherman and Gefter using Escherichia coli DNA polymerase II and fd DNA (J. Mol. Biol. (1976) 103, 61-76). Several observations suggest that the barriers are regions of template secondary structure. Some barriers are more effective than others, and they increase in both effectiveness and number as the temperature is decreased. The same barriers are observed with T4 DNA polymerase, but none are detected with E. coli DNA polymerase I. Finally, the major barriers are located in regions of the phi X174 sequence known to contain hairpin structures of relatively high stability. The exact stopping point of one of the major barriers is within the duplex stem of a hairpin structure. These results show that DNA polymerases are a useful probe of the secondary structure of a single-stranded DNA.
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PMID:The effect of template secondary structure on vaccinia DNA polymerase. 38 Dec 93

Two different twodimensional cellulose thinlayer separations for blocked, methylated mRNA 5'-termini are described. They allow rapid analysis even of complex mixtures of mRNA "cap" structures on the basis of their methyl group content and base composition. These simple procedures are especially useful for the analysis of [3H-methyl]-labeled mRNA in combination with tritium fluorography. A qualitative and quantitative analysis of the methylated "cap" structures of in vitro labeled Vaccinia "core" mRNA is presented. The presence of methylated "cap" structures in Vaccinia RNA increases the in vitro translation efficiency of methylated Vaccinia RNA over Vaccinia RNA transcribed in the absence of a methyl group donor.
Mol Biol Rep 1978 Jun 16
PMID:Analysis of the methylated 'cap' structures of vaccinia mRNA by two-dimensional thin-layer chromatography. 68 82

The growth factor gene of the vaccinia virus LIVP strain has been primarily cloned in a 4.3 kbp long BamHI-EcoRI fragment and then subcloned in a 440 bp fragment. It was shown that clone 4 of the LIVP strain contains a single copy of this gene while the WR strain contains a repeat. The gene is located on a 4.3 kbp BamHI-EcoRI fragment but not on a 2.2 kbp fragment and has four nucleotide changes, three of which result in amino acid substitutions.
Mol Gen Mikrobiol Virusol
PMID:[Cloning the gene for vaccinia virus strain L-IVP growth factor in Escherichia coli]. 129 81

In order to identify ectromelia virus (EMV) genome regions which may contain genes responsible for the specific pathogenicity of this virus, blot cross-hybridization of EMV DNA with those of other orthopoxviruses was performed. Two hybridization schemes were employed: one of them included hybridization of labelled cloned fragments of EMV with digests of other viral DNAs, the other, reciprocal, consisted in hybridization of labelled total DNAs of various orthopoxviruses with digests of the region of EMV DNA adjacent to the right-terminal inverted repeat. It was demonstrated that the counterpart to an approximately 8-kilobase pair portion of EMV genome flanking the inverted repeat could be detected only in the cowpox virus genome but not in the genomes of vaccinia and rabbitpox viruses. XhoI-O and XhoI-K fragments of EMV DNA contained, along with genes found in other poxviruses, certain genes which appeared to be unique for EMV. It is postulated that some of these genes may determine the specific biological properties of EMV, including its pathogenicity for mice.
Mol Gen Mikrobiol Virusol
PMID:[Search for unique segments of the ectromelia virus genome by cross blot hybridization with DNA from other orthopoxviruses]. 129 80

The retinoblastoma tumor suppressor gene product (pRb) is a nuclear protein subject to cell cycle-regulated hyperphosphorylation. I constructed a recombinant vaccinia virus vector that expresses both the underphosphorylated and hyperphosphorylated forms of pRb and purified the recombinant protein by using immunoaffinity chromatography directed toward a synthetic carboxy-terminal epitope. To investigate the hypothesis that hyperphosphorylation of pRb is a means of controlling its growth-regulating activity, I tested purified pRb for the ability to be reincorporated into pRb-deficient nuclei in vitro. The underphosphorylated form of pRb efficiently reassociated with nuclei, but the hyperphosphorylated form remained soluble in this assay. Nuclear binding of pRb was enhanced by phosphatase treatment and reduced by phosphorylation of pRb effected by using a preparation of the cell cycle-regulatory kinase p34cdc2. Mutant-encoded proteins with altered E1A-binding domains failed to bind to nuclei. Pretreatment of target nuclei with nucleases and high-salt extraction did not alter the specificity of binding for underphosphorylated pRb. These observations demonstrate that hyperphosphorylation of pRb can regulate its interaction with nuclei, supporting the hypothesis that hyperphosphorylation controls the growth-regulatory activities of pRb. Further, at least one target of pRb binding appears to be an integral component of the nuclear envelope.
Mol Cell Biol 1992 Feb
PMID:Nuclear binding of purified retinoblastoma gene product is determined by cell cycle-regulated phosphorylation. 131 Jan 46

Homeobox-containing genes encode transcription factors that, via the homeodomain, bind specifically to DNA. To study the DNA-binding properties of the murine homeodomain-containing protein, Hox-2.3, a hybrid expression system was used, combining gene expression by recombinant vaccinia virus (reVV) with bacteriophage T7 transcription. Expression was achieved by co-infecting HeLa cells with two reVVs, one expressing the T7-RNA polymerase-encoding gene directed by the VV promoter, P7.5, and another containing the Hox-2.3 coding sequence under control of a T7 promoter [Fuerst et al., Mol. Cell. Biol. 7 (1987) 2538-2544]. Co-infected HeLa cells produced large amounts of full-length Hox-2.3 protein. Cytoplasmic and nuclear extracts from these cells were used to examine DNA-binding specificity in vitro. reVV-produced Hox-2.3 protein bound to oligos that contained one or several copies of the common homeodomain-binding site, 5'-TCA-ATTAAAT, and to a lesser extent to multiple (TAA) repeats. Using Southwestern blot analysis, no Hox-2.3-binding sites were detected in a region of the Hox-2 cluster containing the Hox-2.3, Hox-2.4 and Hox-2.5 genes.
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PMID:DNA-binding activity of the murine homeodomain protein Hox-2.3 produced by a hybrid phage T7/vaccinia virus system. 135 46

Steroid 21-hydroxylase deficiency is the most common enzymatic defect causing congenital adrenal hyperplasia, an inherited disorder of cortisol biosynthesis. All mutations thus far characterized that cause this disorder appear to result from recombinations between the gene encoding the enzyme, CYP21B (CYP21), and the adjacent pseudogene, CYP21A (CYP21P). These are either deletions caused by unequal crossing-over during meiosis or apparent transfers of deleterious sequences from CYP21A to CYP21B, a phenomenon termed gene conversion. However, a small percentage of alleles do not carry such a mutation. We analyzed DNA from a patient with the mild, nonclassic form of 21-hydroxylase deficiency, who carried one allele that had no gene conversions detectable by hybridization with oligonucleotide probes. Sequence analysis revealed that this allele carried two missense mutations, R339H and P453S, neither of which has been previously observed in CYP21A or CYP21B. Each of these mutations was introduced into CYP21 cDNA which was then expressed in COS1 cells using a vaccinia virus system. Each mutation reduced the ability of the enzyme to 21-hydroxylate 17-hydroxyprogesterone to 50% of normal and the ability to metabolize progesterone to 20% of normal. Thus, each of these mutations represents a potential nonclassic 21-hydroxylase deficiency allele that is not the result of an apparent gene conversion.
Mol Endocrinol 1992 Aug
PMID:R339H and P453S: CYP21 mutations associated with nonclassic steroid 21-hydroxylase deficiency that are not apparent gene conversions. 140 9

We observed the expression of recombinant plasmids genes containing ectromelia virus DNA fragments in E. coli minicells. Using plasmids with vaccinia or ectromelia viruses DNA fragments inserted upstream of lacZ gene we showed that certain orthopoxvirus genome fragments carry out a promoter-like function in bacterial cells.
Mol Biol (Mosk)
PMID:[Expression of orthopoxvirus DNA sequences in Escherichia coli cells]. 143 72

Cytotoxic T lymphocytes (CTL) play an important role in limiting viral infections and in eradicating virus from host tissues. Recent progress in understanding the processing and presentation of viral antigens to CTL indicates that the CTL antigen receptor recognizes peptides derived from viral proteins that are bound to an antigen binding groove present in class I major histocompatibility complex (MHC) molecules. In understanding CTL anti-viral responses and in creating vaccines designed to elicit CTL responses, it is critical to identify the portions of viral proteins that bind class I molecules and are recognized by T cell receptors. Previous findings have indicated that a significant portion of the CTL response of H-2d mice to influenza virus is specific for one of the viral polymerases (PB2). To identify the region of PB2 naturally processed and presented by influenza virus-infected mouse cells to CTL, 31 PB2 peptides of 9-16 residues in length were chosen and chemically synthesized. Two peptides, PB2, residues 146-159 and 187-195, were found to sensitize histocompatible target cells for recognition by influenza virus-specific CTL. When CTL were generated to individual viral proteins using influenza-vaccinia recombinant viruses, we found, to our surprise, that PB2-specific CTL failed to recognize cells sensitized with PB2 peptides 146-159 and 187-195. Further analysis showed that these PB2 peptides were, in fact, recognized by nucleoprotein (NP)-specific CTL generated by NP-vac virus priming and influenza A virus stimulation, or NP peptide stimulation in vitro of NP-vac or influenza A-primed CTL. These results demonstrate that while screening peptide libraries one cannot assume that positive peptides necessarily identify the viral protein to which the CTL response is directed.
Mol Immunol 1992 Sep
PMID:Influenza basic polymerase 2 peptides are recognized by influenza nucleoprotein-specific cytotoxic T lymphocytes. 149 99

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