Naslov
Parallelism in evolution of highly repetitive DNAs in sibling species

Autori
Mravinac, Brankica ; Plohl, Miroslav

Izvornik
Molecular biology and evolution (0737-4038) 27 (2010), 8; 1857-1867

Vrsta, podvrsta i kategorija rada
Radovi u časopisima, članak, znanstveni

Ključne riječi
satellite DNA; interspersed repeats; sibling species; Tribolium; heterochromatin; evolution

Sažetak
Characterization of heterochromatin in the flour beetle Tribolium audax revealed two highly repetitive DNA families, TAUD1 and TAUD2, which together constitute almost 60% of the whole genome. Both families originated from a common ancestral 110 bp repeating unit. Tandem arrangement of these elements in TAUD1 is typical for satellite DNAs, while TAUD2 represents a dispersed family based on 1412 bp complex higher-order repeats composed of inversely oriented 110 bp units. Comparison with repetitive DNAs in the sibling species T. madens showed similarities in nucleotide sequence and length of basic repeating units and also revealed structural and organizational parallelism in tandem and dispersed families assembled from these elements. In both Tribolium species, one tandem and one dispersed family build equivalent distribution patterns in the pericentromeric heterochromatin of all chromosomes including supernumeraries. Differences in the nucleotide sequence and in the complexity of higher-order structures between families of the same type suggest a scenario according to which rearranged variants of the corresponding ancestral families were formed and distributed in genomes during or after the speciation event, following the same principles independently in each descendant species. We assume that random effects of sequence dynamics should be constrained by organizational and structural features of repeating units and possible requirements for spatial distribution of particular sequence elements. An interspersed pattern of repetitive families also points to the intensive recombination events in heterochromatin. Synergy between the meiotic bouquet stage and satellite DNA sequence dynamics could make a positive feed-back loop that promotes the observed genome-wide distribution. At the same time, considering the abundance of these DNAs in heterochromatin spanning the (peri)centromeric chromosomal segments, we speculate that diverged repetitive sequences might represent the DNA basis of reproductive barrier between the two sibling species.

Izvorni jezik
Engleski

Znanstvena područja
Biologija

POVEZANOST RADA