Vol 52, No 1 (2018)

Allelic variants of the Gli-1 locus is known to control groups (blocks) of gliadin polypeptides (gliadins). Some allelic variants of blocks that differ in the electrophoretic (acid gel) mobility (EM) of only one gliadin of the block were compared using two-dimensional electrophoresis (SDS-PAGE) and the RFLP procedure. It was found that, in these pairs of similar alleles (Gli-B1f, Gli-B1s, and Gli-D1a as compared with Gli-B1e, Gli-B1n, and Gli-D1c, respectively), faster γ-gliadin had smaller molecular weight (MW). Alleles at the Gli-A1 locus (Gli-A1j, Gli-A1i, Gli-A1a, Gli-A1k, and Gli-A1f) differ in the EM of the γ-gliadin so that Gli-A1j controls the slowest γ-gliadin and Gli-A1f controls the fastest one. We found that, in this order of alleles, faster γ-gliadin always had smaller MW. It was suggested that similar alleles might arise from one another by spontaneous mutations changing the number of repeating sequences or length of the polyglutamine domain present in the γ-gliadin gene thereby influencing MW and EM of encoding polypeptide. Other mechanisms of the mutational appearance of new alleles were found earlier by comparison of allele pairs: Gli-D1a and Gli-D1k (gene silencing) and Gli-D1b and Gli-D1d (gene amplification). We discovered contrasting families of alleles at the Gli-B1 and at the Gli-D1 loci and also two variants of apparently the same allele Gli-D1a that differed in the number of encoded ω-gliadins. Families of alleles at one locus of T. aestivum might inherit from different genotypes of corresponding diploid donor, as we suggested earlier.

Multigenic families are widely represented in the genomes of higher plants, and are required for the reliability of cellular functions. Damage of individual genes can be compensated by diverse metabolic alterations, but the exact mechanisms of such compensations still remain not fully understood. Here we present novel data regarding the mechanisms of metabolic compensation in photorespiratory knock-out mutants cat2, cat3 and cat2cat3 of Arabidopsis thaliana, which are lacking activity of catalase isoforms CAT2 and CAT3. It was found that cultivation of the mutants under low light at optimal or increased temperature did not result in any morphological, physiological or biochemical signs of oxidative stress. Each of the mutant lines shows specific features of the compensatory mechanisms. Increased activity of CAT3 isoenzyme was found in the cat2 mutant, whereas cat3 and cat2cat3 demonstrate induction of CAT1, an isoform normally absent in young leaves, as well as activation of peroxidases, namely APX and POD. Comparison of these results and earlier published data revealed that the lack of CAT2 and CAT3 isoforms is compensated by preferential activation of non-enzymatic and enzymatic protection mechanisms, respectively.

Molecular genetic data and the results of an instrumental examination (ultrasonic densitometry) in 125 children from regions with anthropogenic pollution of the environment and 31 control group children from an area with an unpolluted environment have been analyzed. The molecular-genetic approach was used to study TaqI and ApaI polymorphic loci of the vitamin D3 receptor gene. Osteopenia and osteoporosis diagnosis frequency was 1.5 times higher in children from regions with a polluted environment. A decrease of bone mineral density was most common in children with tt and Tt genotypes (100 and 45%, respectively) and those with AA and Aa genotypes (83 and 42%, respectively). This is in agreement with published data on lower values of this parameter being associated with the ttAA genotype. Comprehensive assessment of instrumental and clinical laboratory parameters of bone density in carriers of certain allelic variants of the TaqI (rs731236) and ApaI (rs739837) polymorphic loci of the vitamin D3 receptor gene has been performed.

Isolation of total RNA from limited number of oocytes and embryos is a big challenge. DNA free RNA and assessment of RNA integrity are crucial to the success of gene expression studies because poor quality RNA give misleading results. The objective of the present study was to establish a suitable protocol to isolate good quality total RNA from a minimal number of sheep oocytes and embryos that enables the downstream applications, as well as to estimate RNA content in oocytes and developmental stages of embryos. Five protocols were approached to isolate total RNA from oocytes and embryos. Four methods were by standard Trizol protocols and its modification whereas fifth method was by commercial kit (RNeasy mini kit, Quiagen). Total RNA isolated by modified Trizol protocol with coprecipitants (acrylamide and glycogen) showed significantly (P < 0.05) more spectrophotometric reading of RNA concentration than by modified Trizol protocol without coprecipitant followed by commercial kit and conventional Trizol protocol. RNA quality, purity, concentration, RNA per oocyte and expression of GAPDH (house keeping gene) were compared to find the best RNA isolated by different protocols. Spectrophotometric and fluorometric assay were compared to quantify the total RNA concentration in sheep oocytes and different stages of developing embryos. RNA yield by spectrophotometer analysis showed 5–100 times more reading than fluorometer. Significant (P < 0.05) reduction in RNA content was observed in matured oocytes than that of immature oocytes. There was significant (P < 0.05) increase in RNA content after fertilization upto 2–4 cells stage followed by significant (P < 0.05) decrease at 8–16 cells and increased at morula. RNA concentration at blastocyst was significantly low than at morula. From the protocols approached modified Trizol protocol with coprecipitant was most efficient and suitable method over other protocols approached to isolate RNA from few sheep oocytes and embryos for gene expression study.

Importance of germinal vesicle breakdown (GVBD) in the development chronology of oocyte development can be gauged from the fact that it has been the target of several studies attempting to improve oocyte competence. Manipulation of this event rests on its precise and explicit documentation. Pertinently, we decided to compare three different methods for their efficacy and precision in assessing GVBD. Immature buffalo oocytes were subjected to GVBD inhibition using Roscovitine (Ros) and Cilostamide (Cil) under different concentrations of each as well as their combination, along with control. After 24 h of inhibition, chromatin assessment was done using aceto-orcein staining, hoechst staining and anti-lamin staining. Hoechst staining and anti-lamin staining proved to be easier and less time consuming when compared to aceto-orcein, which was cumbersome and lengthy. Aceto-orcein and hoechst staining were equally ambiguous, while antilamin staining was most precise, accurate and clear in characterizing an oocyte as germinal vesicle (GV) or GVBD. We conclude by stating that anti-lamin staining is an easy and specific technique for assessing GVBD in buffalo oocytes.