[Genetic control of gliadin components in wheat Triticum spelta L].

The componental composition of electrophoretic spectra of gliadin in Triticum spelta L. was studied. By analogy with common wheat T. aestivum L., it was established that genes controlling gliadin components in spelt are also located in short arms of chromosomes of homeological groups 1 and 6. Analysis of gliadin spectra in F2 grains from the crosses k-20539 x Ershovskaya 32 and k-20558 x Ershovskaya 32 revealed linkage of some components and their grouping into blocks (alleles) of coinherited gliadin components. Alleles of gliadin-coding loci identical to alleles of common wheat and new alleles earlier unknown for wheat populations have been identified.

[Comparative analysis of diploid species of Avena L. using cytogenetic and biochemical markers: Avena pilosa M. B. and A. clauda Dur].

The diploid oat species containing the Cp genome - Avena pilosa and A. clauda - were studied using C-banding, fluorescence in situ hybridization with probes pTa71 and pTa794, and electrophoresis of grain storage proteins (avenins). Species with the C genome differed considerably from the species of the A genome group in the karyotype structure, heterochromatin type and distribution, relative positions of the 45S and 5S rRNA gene loci, and avenin patterns. These facts confirmed that the C genome had diverged from the ancestral genome before the radiation of the various A genome. Presumably, further evolution of the A -and C genome species occurred separately.

[Comparative analysis of diploid species of Avena l. using cytogenetic and biochemical markers: Avena canariensis baum et fedak and A. longiglumis dur].

The diploid oat species containing the A genome of two types (Al and Ac) were studied by electrophoresis of grain storage proteins (avenins), chromosome C-banding, and in situ hybridization with probes pTa71 and pTa794. The karyotypes of the studied species displayed similar C-banding patterns but differed in size and morphology of several chromosomes, presumably, resulting from structural rearrangements that took place during the divergence of A genomes from a common ancestor. In situ hybridization demonstrated an identical location of the 45S and 5S rRNA gene loci in Avena canariensis and A. longiglumis similar to that in the A. strigosa genome. However, the 5S rDNA locus in A. longiglumis (5S rDNA1) was considerably decreased in the chromosome 3A1 long arm. The analysis demonstrated that these oat species were similar in the avenin component composition, although individual accessions differed in the electrophoretic mobilities of certain components. A considerable similarity of A. canariensis and A. longiglumis to the Avena diploid species carrying the As genome variant was demonstrated.

[On the question of using alleles of gliadin-coding loci as possible markers of adaptive ability in cultivars of spring wheat (Triticum aestivum L.) during seed germination]. / K voprosu ispol'zovaniia allelei gliadinkodiruiushchikh lokusov v kachestve vozmozhnykh markerov adaptivnosti u sortov iarovoi miagkoi pshenitsy (Triticum aestivum L.) v protsesse prostrania zerna.

Prolamine proteolysis is assumed to be among numerous adaptability factors in cereals. The patterns of gliadin proteolysis have been studied in 16 cultivars of spring wheat via analysis of electrophoretic spectra. Four proteolytic patterns have been identified. It is hypothesized that the cultivars characterized by early and rapid proteolysis (the first and third types) are the most adaptable. The gliadin genetic formulas of chromosomes of the first homeologous group have been determined. The alleles of gliadin loci (Gli-Alf, Gli-Ble, Gli-D1a, and Gli-D1b) have been found that can be used as markers of adaptability in spring wheat cultivars.