[Molecular genetic relationships and some issues of systematics of rock lizards of the genus Darevskia (Squamata: Lacertidae) based on locus analysis of SINE-type repeats (Squam1)].

To study the molecular genetic relationships and correlate them with the taxonomy within the complex of lacertid lizards of the genus Darevskia, the locus analysis of the copies of the SINE-type repeat (Squaml) typical of the order Squamata was used. It was demonstrated that one of the loci (No. 34) contained the Squam1 copy insert in all species and subspecies of the examined genus. SINE allelic copies in some of the loci contained large indels and specific sets of mutations. The allelic variant M (medium, about 340 bp) was found most frequently; it was detected in all subspecies of D. saxicola (saxicola, darevskii, szczerbaki, lindholmi) and in most of the other species of the genus. Two species, D. derjugini and D. praticola, differed from the other species in the presence of long (L) and short (S) alleles. The longest allele was characteristic of the D. derjugini population from the Northern Caucasus (L, 379 bp, ssp. silvatica), while the shortest allele (97 bp) united the derjugini and barani subspecies. The second allele S (279 bp) characterizes the subspecies D. praticola praticola; some individuals of which also carry allele M. The second subspecies, D. p. pontica, contains allele L2, which differs from all other medium alleles in the presence of strictly specific short indel. In addition to apomorphic indels, the specificity and mutation distribution patterns among the Squam1 alleles were also examined. An analysis of the NJ tree indicated the concordance between morphological and molecular genetic characters of the species derjugini, praticola, and saxicola. Furthermore, four subspecies of D. saxicola were much closer to each other than the subspecies within the first two species; D. d. silvatica and the group of D. d. derjugini (+) + barani were clearly separated. It cannot be excluded that populations from Azerbaijan and Serbia can be treated as the independent subspecies of D. praticola.

[A family of short retroposons (Squaml) from squamate reptiles (Reptilia: Squamata): structure, evolution and correlation with phylogeny].

We have isolated and characterised sequences of a SINE family specific for squamate reptiles from a genome of lacertid lizard that we called Squam1. Copies are 360-390 bp in length and share a significant similarity with tRNA gene sequence on its 5'-end. This family was also detected by us in DNA of representatives of varanids, iguanids (anolis), gekkonids, and snakes. No signs of it were found in DNA of mammals, birds, amphibians, and crocodiles. Detailed analysis of primary structure of the retroposons obtained by us from genomic libraries or GenBank sequences was carried out. Most taxa possess 2-3 subfamilies of the SINE in their genomes with specific diagnostic features in their primary structure. Individual variability of copies in different families is about 85% and is just slightly lower on the genera level. Comparison of consensus sequences on family level reveals a high degree of structural similarity with a number of specific apomorphic features which makes it a useful marker of phylogeny for this group of reptiles. Snakes do not show specific affinity to varanids when compared to other lizards, as it was suggested earlier.

[Molecular-genetic diversification of lizard complex D. raddei (Sauria: Lacertidae): early stages of speciation].

A number of populations of genus Darevskia lizards were studied using inter-SINE-PCR (IS-PCR). The number and size of PCR-amplified spacers of genomic DNA flanked by SINE-type repeats were compared in 17 populations of the D. raddei species complex along with several other species from the same genus. Nei and Li's (D(NL)) genetic distances between populations were unequivocal. Individual differences among D. r. nairensis sample specimens and between the samples fall into a range of less than 0.1. Individual variability intra each of the D. r. raddei samples--into a range of 0.1-0.2, but the inter samples differences in this subspecies depends on its geographic localizations. Thus the differences between 10 samples from Armenia and Karabach fall into a range of 0.2-0.3, but between all these and two samples from Talysh (Azerbajdzhan)--of 0.3-0.4. At the same time, the variability between both known subspecies (D. r. raddei and D. r. nairensis) reaches the same values. The differences between "good" species D. raddei and D. rudis were about 0.60-0.7. It may be supposed that D. r. raddei is currently undergoing the speciation process. The population of lizards from Turkey which is considered to be close to D. raddei by some researchers and to D. rudis by others is, according to our molecular data, more closely related to the latter species. The difference of homogeneity between other populations was revealed by comparison of the DNL values. Possible phylogeographic pathways of Darevskia species distribution based on the molecular data were proposed.

[Molecular markers of nuclear DNA in the study of evolution and speciation process in an example of "Lacerta agilis complex" (Sauria: Lacertidae)].

In order to elucidate the molecular-genetic relations of some Lacerta s. str. lizard populations, subspecies and species in comparison with some other genera we used methods revealing four types of nuclear DNA markers. Among these were taxonprint, RAPD, Inter-MIR-PCR markers and also satellite DNA monomer sequences. The aim was to compare the phylogeny and systematics of this reptilian group based on morphological and molecular criteria. This problem has a general importance for understanding a speciation process. Our results show a good correlation between both approaches when genera and species levels were studied. Systematic status of five subspecies of L. agilis were supported but not in all cases, some subspecies have no meaningful genetic differences by three types of molecular markers, but all of them were differed by RAPD markers. The data confirm the subdivision of L. agilis populations into west and east clades proposed by other authors earlier on the basis of mitochondrial DNA and morphology. The population structure of one of the subspecies--L. agilis exigua, was studied on a number of populations distributed from Ural region up to Kabardino-Balkaria by IMP method. There were no significant differences among these 14 populations investigated. The data testify the rapid distribution of the species after the end of Pleistocene glaciation.