AI Article Synopsis
- - The study focuses on the diploid parthenogenetic lizard Darevskia unisexualis, which is a hybrid derived from two parental species, offering insights into sexual and asexual reproduction mechanisms.
- - Researchers conducted a detailed analysis of the pericentromeric DNA sequences of the parental lizards, revealing unique species-specific sequences that helped create fluorescent probes to distinguish parental chromosomes in the hybrid.
- - The team developed a computational method to find species-specific fluorescent probes for studying pericentromeres, laying the groundwork for future research on hybrids in both nature and labs.
Article Abstract
Hybrid parthenogenetic animals are an exceptionally interesting model for studying the mechanisms and evolution of sexual and asexual reproduction. A diploid parthenogenetic lizard Darevskia unisexualis is a result of an ancestral cross between a maternal species Darevskia raddei nairensis and a paternal species Darevskia valentini and presents a unique opportunity for a cytogenetic and computational analysis of a hybrid karyotype. Our previous results demonstrated a significant divergence between the pericentromeric DNA sequences of the parental Darevskia species; however, an in-depth comparative study of their pericentromeres is still lacking. Here, using target sequencing of microdissected pericentromeric regions, we reveal and compare the repertoires of the pericentromeric tandem repeats of the parental Darevskia lizards. We found species-specific sequences of the major pericentromeric tandem repeat CLsat, which allowed computational prediction and experimental validation of fluorescent DNA probes discriminating parental chromosomes within the hybrid karyotype of D. unisexualis. Moreover, we have implemented a generalizable computational method, based on the optimization of the Levenshtein distance between tandem repeat monomers, for finding species-specific fluorescent probes for pericentromere staining. In total, we anticipate that our comparative analysis of Darevskia pericentromeric repeats, the species-specific fluorescent probes that we found and the pipeline that we developed will form a basis for the future detailed cytogenomic studies of a wide range of natural and laboratory hybrids.
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| http://dx.doi.org/10.1002/jez.b.23244 | DOI Listing |
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