Comparison of the results of PCR analysis of gene expression in breast cancer tissue specimens stabilized in formalin and RNAlater.

We compared the results of real-time PCR analysis of gene expression in paired specimens breast cancer tissue fixed in RNAlater (Qiagen) stabilization reagent (FF samples) and in formalin (FFPE samples). A clear-cut linear relationship (correlation coefficient 0.76 ± 0.

Structural-Functional Analysis of 2,1,3-Benzoxadiazoles and Their N-oxides As HIV-1 Integrase Inhibitors.

Human immunodeficiency virus type 1 integrase is one of the most attractive targets for the development of anti-HIV-1 inhibitors. The capacity of a series of 2,1,3-benzoxadiazoles (benzofurazans) and their N-oxides (benzofuroxans) selected using the PASS software to inhibit the catalytic activity of HIV-1 integrase was studied in the present work. Only the nitro-derivatives of these compounds were found to display inhibitory activity.

[Approaches towards directed DNA integration by the use of retroviral integrases and transposases].

The ability of retroviruses and transposases to insert own genome into a host-cell allow us to consider them as a preferable object for constructing gene therapy vectors. However, enzymes that perform the insertion of the genetic material do not display a selectivity towards target nucleotide sequences that results in an almost random DNA introduction into the recipient cell genome. Random insertion leads to mutations which might cause a number of undesirable consequences including neoplastic transformation in the cell.

Relative Comparison of Catalytic Characteristics of Human Foamy Virus and HIV-1 Integrases.

Due to their ability to integrate into the host cell's genome, retroviruses represent an optimal basis for the creation of gene therapy vectors. The integration reaction is carried out by a viral enzyme integrase: thus, a detailed research of this enzyme is required. In this work, the catalytic properties of human foamy virus integrase were studied.

[Complexes of gadolinium with linear and liquid-crystalline forms of DNA].

The binding of Gd3+ ions to linear double-stranded DNA molecules in water-salt solutions or in liquid-crystalline dispersions is accompanied by sharp changes in their optical and X-ray characteristics. Depending on the initial conditions of complex formation, the binding of Gd3+ ions either to DNA bases or phosphate groups occurs, which leads to changes in the properties of the liquid-crystalline dispersions. The packing of neighboring DNA molecules in particles of the liquid-crystalline dispersion of the complex DNA-Gd3+ depends strongly on the concentration of Gd3+ ions.