[Universal intracellular transducer RAS and its role in the development of Drosophila].

Ras genes were first identified in the 1960s as transforming oncogenes that caused tumors in rats infected with Harvey and Kirsten sarcoma viruses (Ha-ras and Ki-ras oncogenes, accordingly). Subsequently, transforming ras genes were found in human cancer cells. Further investigations of neuroblastoma cells resulted in the finding of the third ras gene in the human, which was called N-ras. Ras gene products play an important role in the processes of cellular proliferation and differentiation and are controlled by receptor tyrosine kinases. Using drosophila as a model object allowed us to perform a successful genetic analysis while studying the functions of ras genes. Three polytene chromosome bands were detected in D. melanogaster with the help of the v-Ha ras sampling. According to Bridges' map, all three bands (Dras1, Dras2, Dras3) were mapped to regions 85D, 64B, and 62B of chromosome 3. Among them, only Drasl has a common origin with ras genes of mammals. Although there are numerous investigations of the role played by ras genes in the de- velopment of insects, this problem is still not fully understood. The importance of ras gene variations in the course of the evolutionary process has been insufficiently studied as well. Currently, Ras target proteins are actively identified, their signal pathways, as well as effects of influencing these pathways in the drosophila tissues, are studied in the cells of yeast and mammals. The main functions of Ras protein is in the signaling pathways controlling mutations during drosophila's morphogenesis and the connections of ras gene with phenotypic symptoms of tumors.

[Localization of the Dras1 sequence to polytene chromosomes in sibling species of the Drosophila virilis group].

Drasl gene was mapped by in situ hybridization to polytene chromosomes of several sibling species of the Drosophila virilis group and hybrids between them. A 1037 bp fragment of the Drasl gene of the D. virilis genome was used as a probe. The gene sequence is localized to the region of the disk 25 A-B on the chromosome 2 of the polytene chromosome map of D. virilis.

[Nonuniformity in the evolutionary rate in the virilis: II. group of Drosophilas: application of the method of Tajima's test].

The steadiness of the molecular clock was estimated in 11 Drosophila species of the virilis group by sequences of five genes by applying Tajima's Simple Method. The main characteristic of this method is the independence of its phylogenetic constructions. The obtained results have completely confirmed the conclusions drawn relying on the application of the two-cluster test and the Takezaki branch-length test. In addition, the deviation of the molecular clock has found confirmation in D. virilis evolutionary lineages.

[Irregular evolutionary rate of the fruit fly from the Virilis group: I. Use of phylogeny-mediated Takezaki tests].

The aim of this study is to test the hypothesis about an inconsistency in time estimation of the divergence and topology of species Drosophila kanekoi, D. ezoana, and D. littoralis which is caused by the irregular accumulation rate of replacements in different DNA sequences used for analysis and in evolutionary lineages. The phylogenetic relationships based on sequences of five genes among 11 fruit fly species of virilis group are revised, and estimation of molecular clock regularity in several phylogenetic lineages of this group is given. It was shown that Drosophila kanekoi, D. ezoana, and D. littoralis assembled in a single cluster, which was most related to the subfilade montana. The irregularity of molecular clocks was shown for the high conservative sequences of mt 12S-16S.

[Dynamics of mitochondrial polymorphism in a natural population of Drosophila littoralis].

During seven years, we observed stable mtDNA polymorphism in a local population of Drosophila littoralis. Using RFLP, a number of mitochondrial haplotypes were revealed, two of which were the core and in condition of stable equilibrium. To explain the absence of fixation of one haplotype, we checked a hypothesis that the D. littoralis population had a complex structure, being subdivided into several partially isolated races existing on the same territory. Analysis of highly hypervariable nuclear sequence of retrotransposons Tv1 showed positive correlation of the mitochondrial haplotype with a particular allelic form of Tv1. This supports the proposal that the D. littoralis natural population forms the population system consisting of genetically differentiated races.

[The relationships among the species of the Drosophila virilis group inferred from the gene Ras1 sequences].

Comparative analysis of a group of closely related Drosophila species (D. virilis, D. lummei, D. novamexicana, D. americana texana, D. flavomontana, D. montana, D. borealis, D. lacicola, D. littoralis, D. kanekoi, and D. ezoana) was conducted based on an incomplete sequence of gene Ras1. The pattern of the relationships among the species corresponded to that expected from analysis of morphological and cytogenetic characters. Statistical data favoring neutrality of the substitutions examined in the Ras1 gene are presented. This character of the gene Ras1 evolution confers more reliability to reconstruction of phylogenetic relationships among closely related species. The resultant tree for main phylads of the group is as follows: (D. virilis, D. lummei, D. montana, D. ezoana).

[Molecular-genetic mechanisms of the effect of developmental hormones in insects].

A review of the available data on molecular mechanisms underlying the regulation of gene expression by the developmental hormone ecdysone and juvenile hormone. Heterodimer ESP/USP is the main ecdysone receptor in D. melanogaster. Structures similar to ESP/USP were found in other insects. The information about molecular-genetic mechanisms of the effect of juvenoids is less definite. It has been proposed that the juvenile hormone in insects is a modulator of the ecdysone effect.

[A RAPD fingerprinting of sibling species of the Drosophila virilis group].

A comparative analysis of the sibling species of Drosophila virilis was performed by RAPD-PCR technique using a set of random primers. The degree of relatedness was studied by cluster analysis (UPGMA) and multi-dimensional scaling. The resulting pattern of species relationships contradicts the classical taxonomy. The main result of the cluster analysis is that D. virilis does not cluster with the remaining three species of its phylad, while according to multidimensional scaling, D. virilis is equidistant from all the species of its group, from both the species of its phylad and the species of the montana phylad. The montana phylad is extremely heterogeneous; moreover, the species D. littoralis, D. ezoana, and D. kanekoi appear to be closer to the virilis phylad than to the other species of the montana phylad, wherein these species are traditionally included. The phylogenetic relationships between the studied species discovered using RAPD fingerprinting comply with the results obtained using protein markers and quantitative traits.

[Problems of studying the genetic background of speciation as examplified by Drosophila virilis group].

Possible ways of studying the genetic bases of speciation have been shown on the example of published data and authors' results. The data were used, which were obtained on different Drosophila species. Possible application of mapping by localization of the gene of quantitative traits and genetic transformation for solution of the problems of speciation is discussed.

[Variation of 3'-terminal fragment of 16S rRNA gene in closely related species of Drosophila virilis group].

Primary sequence of 3-terminal fragment of the mitochondrial 16S rRNA gene has been determined in 12 Drosophila species of the virilis group. The functionally important elements in secondary structure of the RNA product were defined. The region corresponding to the peptidyltransferase center has been localized. Variation of the 3'-terminal region of 16S rRNA gene has been described in 12 species of the virilis group. Phylogeny of the Drosophila virilis species group is discussed.

[Determination of fitness components of flies bearing the recessive lethal l(2)M167(DTS) mutation with dominant heat sensitivity in artificial Drosophila melanogaster populations].

Elimination of the heat-sensitive l(2)M167(DTS) mutation from artificial Drosophila melanogaster populations at constant temperature 25 degrees C and various frequencies of the mutation in the parental generation was studied. Components of fitness of the l(2)M167(DTS) mutation were estimated in the artificial populations by means of the recurrent model of the dependence of the frequency of this mutation in a given generation on its frequency in the previous generation. The model was solved by a numerical method with limitations on the values of some fitness components obtained in test experiments. According to the limitations and frequencies of the l(2)M167(DTS) mutation, the leading role and limits of the variation in egg-to-adult viability and female fertility were determined. The previously suggested effect of the positive selection for viability of individuals heterozygous for l(2)M167(DTS) was confirmed.

[Selection on viability of individuals heterozygous for the temperature-sensitive lethal mutation l(2)M167(DTS) in experimental populations of Drosophila melanogaster].

In experiments on introduction of mutation l(2)M167(DTS) in Drosophila melanogaster populations, larval and pupal viability and developmental rate are limiting factors determining the intensity of selection on the l(2)M167(DTS) mutation. Notwithstanding the rapid elimination of the mutation from the population, positive selection for viability was shown, which increased fitness of the mutation carriers in generations. The fitness component viability was estimated in individuals l(2)M167(DTS)/+; relative to that of wild-type individuals, it varied from 0.1 to 1. Factors affecting this trait in overcrowded populations were found.

[The effect of male mating competitiveness, developmental rate, and viability of larvae and pupae in Drosophila melanogaster heterozygous for the temperature-sensitive lethal mutation l(2)M167DTS on the dynamics of the mutation elimination from the population].

The dependence of selection on an introduced mutation 1(2)M167DTS on male mating competitiveness, viability, and developmental rate of larvae and pupae of Drosophila melanogaster, heterozygous for this mutation, was examined in population experiments with preset conditions. The limitations of fitness parameters of individuals l(2)M167DTS/+ relative to individuals +/+ were estimated according to the conditions of the experiment and phenotypic characteristics of the mutation studied. Under conditions of limited food supply and dependence on emergence time in each generation, the sequence of female mating was shown to be of less importance than the order of medium utilization by the progeny of a certain genotype related to the male success in the first mating. The limiting factors acting on the l(2)M167DTS mutation were viability and developmental rate.

[The effect of population density on the elimination dynamics of a recessive lethal mutation from experimental populations].

Dynamics of the elimination of the temperature-sensitive lethal mutation l(2)M167DTS from experimental populations of Drosophila melanogaster under permissive conditions (25 degrees C) was studied. We have shown a rapid elimination of the mutation from the populations, selection for fitness of heterozygous individuals, association of the selection with high larval density and with the direction of the cross that had produced the founder males of the l(2)M167DTS/+ population, and the effect of relative competitive ability of l(2)M167DTS/+ males on the efficiency of the mutation introduction. Modification systems were shown be involved in fitness selection under conditions of high larval density.

[Morphometric analysis of male genitalia in sibling species of Drosophila virilis Sturt]. / Morfometricheskii analiz polovykh organov samtsov vidov-dvoinikov Drosophila virilis Sturt.

The structure of male genital organs in sibling species of the virilis group of Drosophila was examined using methods of multivariate statistics. The differences among these species were estimated using 33 indices and 2 angle parameters. The intraspecific and interspecific correlation structure of the examined characters and the order of their divergence were established. The key characters with respect to forming interspecific differences in the virilis species group were identified. Based on these results, the relative systematic positions of the sibling species are discussed as well as similarities and differences of the pattern of relationships among the species from that generally accepted for the virilis group.

[Mitochondrial DNA polymorphism in the natural populations of the Drosophila virilis species group]. / Polimorfizm mitokhondrial'noi DNK prirodnykh populiatsii drozofil gruppy virilis.

Restriction fragment length polymorphism (RFLP) analysis has been used to evaluate mitochondrial DNA (mtDNA) variation in 12 sibling species forming the Drosophila virilis species group. The variation thresholds corresponding to the interspecific and interstrain levels have been determined. The results indicate that interspecific hybridization has significantly contributed to the evolutionary history of the virilis species group.

[Variation of the mitochondrial genome in the evolution of Drosophila]. / Izmenchivost' mitokhondrial'nogo genoma v évoliutsii Drosophila.

The evidence on mitochondrial genome variation and its role in evolution of the genus Drosophila are reviewed. The mitochondrial genome is represented by a circular double-stranded DNA molecule 16 to 19 kb in length. The genome contains no introns involved in recombination. The entire mitochondrial genome can be arbitrarily divided into three parts: (1) protein-coding genes; (2) genes encoding rRNA and tRNA; and (3) the noncoding regulatory region (A + T region). The selective importance of mutations within different mtDNA regions is therefore unequal. In Drosophila, the content of the A + T pairs in mtDNA is extremely low and a pattern of nucleotide substitution is characterized by a low transition/transversion ratio (and a low threshold of mutation saturation). The deletions and duplications are of common occurrence in the mitochondrial genome. However, this genome lacks such characteristic for the nuclear genome aberrations as the inversions and transpositions. The phenomena of introgression and heteroplasmy provide an opportunity to study the adaptive role of the mitochondrial genome and its role in speciation. Analysis of evidence concerning mtDNA variation in different species of the genus Drosophila made it possible to ascertain data on phylogenetic relationships among species obtained by studying nuclear genome variation. In some species, mtDNA variation may serve as a reliable marker for population differentiation within a species, although evidence on the population dynamics of the mtDNA variation is very scarce.

[Effect of an increased radiation background on mice, carrying lethal t-haplotypes]. / Vliianie povyshennogo radiatsionnogo fona na myshei, nesushchikh letal'nye t-gaplotipy.

To study the effect of a high radiation background on the structure and function of the T-complex, we used laboratory mice carrying t-haplotypes of four complementation groups (t0, t12, tw1, and tw5). In 1987-1989, the animals were kept each year for a month within a 30-kilometer zone of Chernobyl Nuclear Power Station in regions with different degrees of pollution. Subsequent genetic analysis revealed a decrease in fertility, fecundity, and the index of preferable transmission of t-carrying chromosomes in radiated animals and some of their progeny. The effect of different radiation doses on these parameters was different in animals with various t-haplotypes. A lack of complementation or a decrease in the complementation effect was revealed in a number of crosses involving the progeny of irradiated animals. The frequency of complementation distortion was about 8 x 10(-2), which is more than an order higher than the usual recombination frequency characteristic of these t-haplotypes.

[Genetic control of isolating mechanisms in the genus Drosophila]. / Geneticheskii kontrol' izoliruiushchikh mekhanizmov v rode Drosophila.

Published data on the genetic control of isolating mechanisms in the genus Drosophila are discussed. The main isolation types of genetic mechanisms (ecological isolation, behavioral isolation, hybrid sterility, and the inviability or impaired development of interspecific hybrids) are considered. It is shown that each of the isolation barriers between different species is controlled by a small number of genes. However, as each pair of sibling species is usually separated by several barriers, the total number of isolation genes is about 20 to 30. The probable sequence of events in the appearance of isolation barriers during the divergence of novel species is discussed. A concept of the consolidation of a new species is proposed. This concept is based on the assumption of the genetic determination of behavior that promotes crossing between individuals of the new genotype and constrains their crosses with individuals of the ancestral genotype.