[Genetic diversity of common wheat varieties at the gliadin-coding loci].

One hundred and fifty Russian and foreign winter common wheat varieties were examined by the PAGE method. A total of 70 alleles were identified at seven gliadin-coding loci. It was demonstrated that 42% of varieties were heterogeneous, i.e., were represented by a number of genotypes, while 52% of varieties were homogeneous. A unique combination of gliadin alleles was typical of 91.3% of examined varieties, while 8.7% of varieties had identical alleles of all gliadin-coding loci and were indistinguishable. Frequent and rare alleles were identified, with the former accounting for 18.6% of all alleles. It was demonstrated that allelic diversity at the Gli-2 loci (47 alleles) was almost twice that at the Gli-1 loci (23 loci) and was determined by the number of rare alleles. New alleles for the winter common wheat, including three alleles of the GliA2 locus and two alleles of the Gli-B2 locus, were determined. A tendency toward a reduction of the genetic diversity level in modern varieties, which was due to the use of identical parental varieties in breeding programs, was identified.

[Genetic diversity of modern Russian durum wheat cultivars at the gliadin-coding loci].

The allelic diversity at four gliadin-coding loci was examined in modern cultivars of the spring and winter durum wheat Triticum durum Desf. Comparative analysis of the allelic diversity showed that the gene pools of these two types of durum wheat, having different life styles, were considerably different. For the modern spring durum wheat cultivars, a certain reduction of the genetic diversity was observed compared to the cultivars bred in the 20th century.

[Analysis of the cell tissue culture contamination with the bovine viral diarrhea virus and mycoplasmas].

Different cell tissue cultures and commercial fetal calf sera (FTS) used in biological and virological research were screened for the bovine viral diarrhea virus (BVDV, Pestivirus genus, Flaviviridae family) and mycoplasma contamination. BVDV was detected using RT-PCR and Indirect immunofluorescence (with monoclonal antibodies) methods in 33% cases of the studied cell lines and in > 60% cases of FCS. BVDV was shown to present and reproduce in high spectra of human cell lines, as well as in monkey, pig, rabbit, goat, dog, and cat cells at high levels (up to 100-1000 genome-equivalent copies per cell) and reached up to 10(3)-10(7) genome-equivalent copies per serum ml. The molecular mechanisms of the long virus persistence without definite signs of destruction should be studied.

Contamination of cell cultures with bovine viral diarrhea virus (BVDV).

The incidence of contamination of cell strains used in biological and virological studies and of fetal calf sera (FCS) manufactured by Russian and foreign companies used for cell culturing with noncytocidal bovine viral diarrhea virus (BVDV; Pestivirus, Flaviviridae) was analyzed. The virus was detected by reverse transcription PCR and indirect immunofluorescence with monoclonal antibodies to BVDV virion envelope glycoprotein in 25% of 117 cell strains and 45% of 35 tested FCS lots. The virus multiplied and persisted in a wide spectrum of human cell strains and in monkey, swine, sheep, rabbit, dog, cat, and other animal cells. The levels of BVDV genome RNA in contaminated cell cultures reached 10(2)-10(3) g-eq/cell and in serum samples 10(3)-10(7) g-eq/ml. These facts necessitate testing of cells and FCS for BVDV reproduced in cells without signs of infection detectable by light microscopy. The molecular mechanisms of long-term virus persistence in cells without manifestation of cell destruction are unknown.