Vol 54, No 5 (2018)

A historical review of the advent and improvement of the methods for detecting multilocus DNA polymorphism that do not require preliminary knowledge of the individual gene and complete genome sequences of eukaryotes is presented. The first group of these methods includes approaches based on the use of primers with arbitrary sequence (random priming). Another group of methods to detect DNA polymorphism is based on the use of primers that consist of short repetitive sequences having anchor nucleotides at the 5'- or 3'-ends that position the annealing sites of these primers (microsatellite priming). Another approach for revealing polymorphism that does not require knowledge of the DNA sequence is based on cleavage of total DNA by a combination of restriction endonucleases (random cleavage) accompanied by PCR amplification. Considerable attention is paid to the opportunities of using these approaches to detect DNA polymorphism in the form of converting the obtained data to digital format and creation of integrative databases for all organisms, regardless of the methods used.

The genus Pseudomonas is one of the most diverse and ecologically important groups of bacteria. Numerous representatives of the genus are found in microbial communities of all natural environments, including those closely associated with plants and animals. This ubiquitous distribution determines a necessity of their physiological and genetic adaptations. Molecular methods revealed that bacteria of the genus Pseudomonas were predominant in ulcerative lesions on the skin of Baikal yellowfin Cottocomephorus grewingkii (Dybowski, 1874). According to ribosomal phylogeny, cultivated Pseudomonas spp. isolated from both ulcerative lesions and the water column of Lake Baikal were grouped into the intrageneric cluster IG P. fluorescens. The topology of the phylogenetic tree based on the gene for outer membrane porin OprF generally coincided with that based on the 16S rRNA genes at the intrageneric level; however, it reflected ecological features of the strains of the genus Pseudomonas at the subgroup level. Screening of pathogenicity determinants detected the oprL, ecfX, fliC, and algD genes in the genomes of Pseudomonas spp. isolated from the ulcerative lesions of fish, whereas oprL and gyrB genes were determined in the strains isolated from the water column.

The YABBY1 genes were identified in one cultivated and ten wild tomato species of the Lycopersicon section of the Solanum genus. The structural analysis of genes and encoded proteins was carried out, and the YABBY1 interspecies functional conservation in tomato was proposed. It was shown that the YABBY1 gene sequence can be used for phylogenetic dividing of tomatoes into self- and cross-pollinated species, as well as green- and red-fruited species. The significant YABBY1 expression level was detected in S. peruvianum fruits, indicating the possibility of abaxial properties preservation in the fruit skin. The obtained data confirmed the conservation of the YABBY1-mediated organ polarity control during the process of the evolutionary diversification and domestication of tomato species.

The analysis involved wild boars from the Lublin region, Warmia and Mazury, and Wielkopolska. The study material comprised muscle tissue samples collected from 100 wild boars. We analysed loci S0008, SW1129, SW986, SW1465, SW1492, SW1514, SW2532, SW461, SW841, SW2021, and SW2496 [1, 2]. The largest number of specific alleles, i.e. in six loci, was observed in wild boars from Warmia and Mazury; in turn, there were only two alleles in the group of wild boars from Lublin, and no alleles in individuals from Wielkopolska. The average value of the observed heterozygosity was H_o = 0.51, and the average value of expected heterozygosity was H_e = 0.63. PIC was another analysed indicator, with its lowest value determined for wild boars from the Wielkopolska region (0.53), and the highest value (0.62) was found for the animals from Warmia and Mazury. In the study population of wild boars, we also determined the F_ST index, which was 0.073, and N_m had a value greater than 3 (3.15); therefore, it can be concluded that the number of migrants per generation was 3. Both coefficients confirm the possibility of gene transfer and reproduction within and between the analysed populations of the wild boars. In our study, we observed a greater genetic distance between the wild boar populations from Wielkopolska and the Lublin and Warmia and Mazury regions in spite of the smaller geographical distance of these lands. This may be caused the less extensive network of ecological corridors as well as the occurrence of anthropogenic barriers e.g. large urban centres, an extensive network of roads, and the high volume of traffic in the direction of the capital.

Autosomal recessive deafness type 1A (DFNB1A) caused by mutations in the GJB2 gene (Cx26) is the main cause of nonsyndromic hearing impairment in many populations worldwide. It is considered that widespread prevalence of DFNB1A can be due to the long tradition of intermarriages between deaf people (assortative marriages) combined with their increased social adaptation and genetic fitness after widespread introduction of sign language. For the first time, the data on mating structure and reproduction of deaf people living in Yakutia (Eastern Siberia, Russia) are presented in comparison with contribution of the GJB2 gene mutations to the etiology of hearing impairment. The relative fertility of deaf people compared to their hearing siblings is 0.78 (mean number of children 1.76 ± 0.10 and 2.24 ± 0.09 to deaf and their hearing siblings, respectively, p = 0.0018). The rate of assortative marriages among deaf people is 77.1% (81 of 105 marriages). Biallelic mutations in the GJB2 gene were found in 42.2% (43 of 102) of examined deaf people, which corresponded to diagnosis DFNB1A for these patients. A comparison of deaf marital partners by GJB2 status revealed a proportion of noncomplementary marriages (24%) in which hearing loss in both partners was caused by the presence of biallelic GJB2 gene mutations resulting in the birth of only deaf children in such couples. Thus, the set of obtained data including a relatively high genetic fitness (expressed as relative fertility) of deaf people in Yakutia in combination with a high rate of assortative marriages among them and high incidence of DFNB1A indicates a possible weakening of selection against such trait as “deafness” and a possible increase in the frequency of GJB2 mutant alleles in subsequent generations.

MicroRNAs (miRNAs) play an important role as epigenetic regulators in cancer initiation and progression. One of the mechanisms of miRNA dysregulation is altered functioning of proteins involved in miRNA processing machinery. It has been suggested that single nucleotide polymorphisms (SNPs) within miRNA gene regions, miRNA target genes, and miRNA machinery genes may affect the miRNAs regulation. We selected 25 SNPs in the key genes of miRNA biosynthesis, including DROSHA/RNASEN, DGCR8, DICER1, XPO5, RAN, PIWIL1/HIWI, AGO1/EIF2C1, AGO2, GEMIN4, GEMIN3/DDX20, and DDX5, and investigated the association between these SNPs and the risk of breast cancer. The total number of breast cancer cases and cancer-free controls enrolled in the investigation were 778 (417 breast cancer patients and 361 healthy women). We found that rs11060845 and rs10773771 in the PIWIL1 gene, rs3809142/RAN, rs10719/DROSHA, rs1640299/DGCR8, rs563002/DDX20, rs595055/AGO1, and rs2740348/GEMIN4 were associated with breast cancer risk in Russians.

DNA isolation is a routine procedure when performed in laboratory environment, yet in the field it may still remain problematic. This is especially true of some crop species bred for useful metabolites that may also hinder DNA extraction. Here we compare the efficiency of DNA extraction protocols and commercial DNA isolation kits when used on samples from Helianthus and Allium. Since extraction of DNA is known to be compromised by co-extraction of PCR-inhibiting metabolites, the isolation of DNA was followed by PCR as a testing procedure for the isolation step. The MagnoPrime Fact and MagnoPrime Uni DNA isolation kits were better suited for field work due to faster processing times and smaller required amount of starting material (20 mg fresh/0.5 mg dry). In all cases the subsequent PCR managed to amplify the DNA fragments of interest well enough to be useful in further research.

A total of 18 polymorphic microsatellite loci were isolated and characterized from RAPD products in the Xinjiang Arctic Grayling (Thymallus arcticus grubei). The number of alleles (N_a) per locus varied from 2 to 10. Observed (H_o) and expected (H_e) heterozygosities ranged from 0.64 to 0.92, and from 0.63 to 0.88, respectively. Considerable differences were found among HBH, FH and FY populations in the number of alleles, effective number of alleles, number of genotypes at all of these loci. These new RAPD-SSR markers have provided a helpful tool for genetic analyses and resources conservation of T. arcticus grubei. Five additional fish species, Amur grayling (Thymallus grubii), Taimen (Hucho taimen), Sea perch (Lateolabrax japonicus), Lenok (Brachymystax lenok) and Red seam bream (Pagrosomus major) were assessed for cross-species amplification. Three of the five species showed at least one polymorphic locus. In addition, seven loci were found to be polymorphic in at least one species.