[Karyotype evolution of suborder (Ruminantia)].

Suborder Ruminantia is the largest taxa in order Cetartiodactyla and includes species with great differences in morphology and diploid numbers of chromosomes. To date, the main chromosome changes that formed karyotypes of modern species of this suborder have been described by comparative chromosome painting. This paper provides a brief review of the features of the evolution of Ruminantia karyotypes.

Comparative chromosome painting of four Siberian Vespertilionidae species with Aselliscus stoliczkanus and human probes.

Vespertilionidae is the largest chiropteran family that comprises species of different specialization and wide geographic distribution. Up to now, only a few vespertilionid species have been studied by molecular cytogenetic approaches. Here, we have investigated the karyotypic relationships of 4 Vespertilionidae species from Siberia by G-banding and comparative chromosome painting. Painting probes from Aselliscus stoliczkanus were used to establish interspecific homologous chromosomal segments in Myotis dasycneme (2n = 44), Murina hilgendorfi (2n = 44), Plecotus auritus (2n = 32), and Vespertilio murinus (2n = 38). Robertsonian translocations and a few inversions differentiated the karyotypes of the examined species. Painting of P. auritus karyotype with human probes revealed 3 previously undetected cryptic segments homologous to human chromosomes (Homo sapiens, HSA) 8, 15, and 19, respectively. As a consequence, the existence of 2 HSA 4 + 8 syntenies in the P. auritus karyotype has been proven. In addition, a pericentric inversion or centromere shift was revealed on the smallest metacentric P. auritus chromosome 16/17 using the HSA 16 probe explaining the different G-banding pattern in comparison to the homologous Myotis chromosome 16/17.

[Comparative cytogenetics of main Laurasiatheria taxa].

This short communication is a review of key trends in the karyotypic evolution of mammalian taxa Laurasiatheria, inferred from comparative chromosome painting.

Reconstruction of the putative cervidae ancestral karyotype by chromosome painting of Siberian roe deer (Capreolus pygargus) with dromedary probes.

The Siberian roe deer (Capreolus pygargus) is one of a few deer species presumably preserving the ancestral cervid karyotype. The comparative genomic data of the Siberian roe deer are critical for our understanding of the karyotypic relationships within artiodactyls. We have established chromosomal homologies between the Siberian roe deer and the dromedary (Camelus dromedarius) by cross-species chromosome painting with dromedary chromosome-specific painting probes. Dromedary chromosome paints detected 53 autosomal homologies in the genome of the Siberian roe deer. The identification of chromosomal homologies between the Siberian roe deer and cattle resulted from previously detected cattle-dromedary homologies. We have found 8 chromosomal rearrangements (6 fissions in the Siberian roe deer, 1 fission in the cattle and 1 inversion on the CPY11) that have separated the karyotypes of the cattle and the Siberian roe deer. The inversion on CPY11 might be an apomorphic trait of cervids, since we detected its presence in the gray brocket deer (Mazama gouazoubira). Thus our data further prove the scenario of chromosomal rearrangements that was previously proposed and add some new data.