Repetitive conundrums of centromere structure and function.

In the last few years, a paradox has emerged regarding the relationship of centromere structure and its function. Most centromeric DNAs analyzed to date are composed of a remarkably complex array of repeat structures. In contrast, recent analyses of neocentromeric DNA reveal that repetitive DNA is not a prerequisite for centromere activity. The ubiquity of repetitive sequences among diverse species at sites of primary constriction argues that there is a strong evolutionary link between centromere structure and function. Dynamic mutational processes resulting in amplification, deletion and transposition of repetitive sequences appear to occur frequently in such regions, resulting in considerable interspecific diversity in structure and sequence. One possible solution to this conundrum may be that the rapid accumulation of repetitive sequences within centromeric and pericentromeric DNA is a consequence of functionally active centromeres. Emerging repetitive structures at centromeric sites may be an important byproduct of a functional centromere which ensures that site as an evolutionarily favored position in subsequent meiotic and mitotic lineages. The recent identification of large gene duplications in the vicinity of centromeres may be another example of the enhanced mutational lability of such regions of the genome.