Comparative study of pathological changes in the mouse viscera in infection caused by two orthopoxviruses.

The mechanisms of infection development in intraperitoneal inoculation of mice by ectromelia virus strain K-1 and cowpox strain EP-2 were studied. Ultrastructural parameters of virus assembly and maturation are described. Differences in the types of cells replicating the viruses and in the type of visceral injuries were detected.

[Laminin-binding protein as a cellular receptor for the equine Venezuelan encephalomyelitis virus: Report 2. Inhibition of replication of equine Venezuelan encephalomyelitis virus by blocking laminin-binding protein on the surface of Vero cells].

A possible inhibition of the Venezuelan equine encephalomyelitis (VEE) virus replication in Vero cells through the laminin-binding protein (LBP) blocking in the surface of such cells was investigated in order to verify the LBP value. It was demonstrated, on the basis of the flow scanning cytometry and FITC-labeled antibodies to LBP, that there are at least 263 thousand LBP molecules in the Vero cells' surface. Blocking of the molecules by rabbit polyclonal antibodies to 43 kD of the recombinant LBP (rLBP) was shown to inhibit the VEE virus replication in Vero cells by more than 300,000 times, which made them virtually resistant to the possibility of VEE virus infection.

[Variants of adenovirus type 5 with deletions in early genes: ability for selective replication in p53-defective human tumor cells].

Site-directed mutagenesis was used to construct human adenovirus serotype 5 (Ad5) variants defective in E1A or E1B. Mutant Adel3 with deletion from E1A was markedly attenuated in permissive cell cultures regardless of the p53 status, and replicated efficiently only in cells of the complementing 293 line. Mutant Adel2 with deletion from E1B55K infected the 293 line cells and p53-deficient human tumor cells (A431, SW480, HEp2) with efficiencies similar to those of Ad5, whereas its replication in normal p53-positive cells was substantially limited.

[Determination of glycyrrhizic acid binding sites by a phage display method].

Phages that expose peptides specifically interacting with glycyrrhizic acid (GA) were selected from a phage peptide library by affinity selection and ELISA. Amino acid sequence analysis of the selected peptides and human proteins with the SIM program revealed homology to tyrosine protein kinases, serine/threonine protein kinases, tyrosine phosphatases, and some receptors. Analysis of the peptide and virus protein sequences with the BLAST program showed that GA has affinity for various surface proteins of several human viruses such as HIV-1, hepatitis C virus, and herpesviruses.

[The study of orthopoxvirus genes for Kelch-like proteins. II. Construction of cowpox virus variants with targeted gene deletions].

Integrative plasmids p delta C, p delta D, and p delta G were designed to contain a selective marker beyond the region of homology to virus DNA and to allow construction of recombinant cowpox viruses (CPV) that lack C18L, D11L, or G3L coding for kelch-like proteins. CPV mutants lacking one (C18L, D11L, or G3L), two (D11L/G3L or C18L/D11L), or three (D11L/G3L/C18L, that is, all) kelch-like protein genes of the left variable region of the virus genome were obtained. Impaired reproduction was observed for the triple mutant.

[Immunogenetic properties of peptides mimicking a human immunodeficiency virus gp41 (HIV-1) epitope recognized by virus-neutralizing antibody 2F5].

Phage display was used to obtain peptides mimicking a HIV-1 gp41 conserved epitope recognized by virus-neutralizing monoclonal antibodies (MCA) 2F5. Rabbits and mice were immunized with the peptides exposed on the surface of filamentous bacteriophages. Antibodies to gp41 were detected in the sera of immunized animals.

[Experimental molecular design of recombinant vaccines].

A method was elaborated to construct combined artificial immunogens mimicking virus particles. The gist was exposing protein antigenic determinants of one virus on the particle surface and delivering plasmids with genes for antigenic proteins of another virus to specialized immune cells. Such immunogens were constructed and shown to induce biosynthesis of specific antibodies against HIV-1 and the tick-borne encephalitis virus.

[Immunomodulatory proteins of orthopoxviruses].

The review considers recent data on the structural-functional organization of the genome of orthopoxviruses pathogenic for humans, including the variola, monkeypox, cowpox, and vaccinia viruses. Emphasis was placed on the structure of molecular virulence factors that suppress the inflammatory reactions, immune response, and interferon effects induced by virus infection.

[Localization of the HIV-1 gp120 conformational epitope recognized by virus neutralizing monoclonal antibodies 2G12].

A phage peptide library was used to select peptides interacting with virus-neutralizing monoclonal antibodies (mAb) 2G12 which recognize a discontinuous surface epitope of HIV-1 gp120. With the published X-ray data, gp120 regions involved in the antigenic determinant were predicted. Binding with mAb 2G12 was ascribed to Trh-297, Phe-383, Tyr-384, Arg-419, Ile-420, Thr-415, Leu-416, Pro-417, Lys-421, and Trp-112.

[Orthopoxvirus genes for Kelch-like proteins. I. Analysis of species specific differences by gene structure and organization].

Genes and proteins of the kelch superfamily were structurally analyzed in the smallpox (SPV), monkeypox (MPV), cowpox (CPV), and vaccinia (VV) viruses. Genes potentially coding for the kelch-like proteins were found only in the variable terminal regions of the orthopoxvirus genome. The set and sizes of their protein products varied with species.

General model to describe the structure and dynamic balance between different human serum lipoproteins and its practical application.

Background: Many dangerous diseases are associated with changes in the concentration of blood lipoproteins (LPs). Thus a fast and accurate method is needed to determine the composition of lipoprotein fractions in human serum.

Material/methods: A comparison of 30 parameters characterizing different LPs in serum from 120 healthy donors and 102 multiple sclerosis patients was carried out using a unique algorithm developed to determine the concentrations of all the main lipids and apolipoproteins in each LP fraction and subfraction.

[Identification and characterization of strains of Bacillus thuringiensis by genomic fingerprinting using biotinylated phage M13 DNA].

Genomic DNA of the entomopathogenic bacterium Bacillus thuringiensis was analyzed by the genomic fingerprinting technique. The biotin-labeled single-stranded DNA of the phage M13 was used as a marker of hypervariable sequences. A procedure for analyzing the differentiation among various Bacillus thuringiensis strains was developed.