Mitotic misbehavior of a Drosophila melanogaster satellite in ring chromosomes: insights into intragenomic conflict among heterochromatic sequences.

In eukaryotes, abnormally circularized chromosomes, known as 'rings,' can be mitotically unstable. Some rings derived from a compound X-Y chromosome induce mitotic abnormalities during the embryonic cleavage divisions and early death in Drosophila melanogaster, but the underlying basis is poorly understood. We recently demonstrated that a large region of 359-bp satellite DNA, which normally resides on the X chromosome, prevents sister ring chromatids from segregating properly during these divisions. Cytogenetic comparisons among 3 different X-Y rings with varying levels of lethality showed that all 3 contain similar amounts of 359-bp DNA, but the repetitive sequences surrounding the 359-bp DNA differ in each case. This finding suggests that ring misbehavior results from novel heterochromatin position effects on the 359-bp satellite. The purpose of this view is to explore possible explanations for these effects with regard to heterochromatin formation and replication of repetitive sequences. Also discussed are similarities of this system to a satellite-based hybrid incompatibility and potential influences on genome evolution.