Mechanisms and timing of programmed DNA elimination in songbirds

It is commonly assumed that multicellular organisms contain the same genetic information in all the cells of an individual. However, there is a growing list of species in which parts of the genome are removed from some cells of the organism through a process called programmed DNA elimination. In songbirds, an entire chromosome, called the germline-restricted chromosome (GRC), is lost from all somatic cells during early embryonic development. Nevertheless, the mechanisms, timing and consequences of this elimination remain largely unexplored. Here, we studied GRC elimination using two songbird species, the zebra finch ( Taeniopygia guttata ) and the Bengalese finch ( Lonchura domestica ), as model systems. We found that chromosome elimination occurs during the cleavage stage and is completed before egg laying and blastoderm formation. Elimination is associated with delayed attachment of the GRC to the mitotic spindle, changes in its histone modifications, and failure of chromatid separation in anaphase. The lagging GRC is then sequestered into a micronucleus with a defective envelope lacking the essential protein lamin B1, where the DNA is fragmented and degraded. Although the genetic basis of GRC elimination remains to be elucidated, our results suggest that changes of the GRC centromere together with epigenetic modifications of histones play a crucial role in GRC elimination from somatic cells. As the timing of elimination coincides with the germline/soma distinction, we propose that GRC elimination may play an important role in this crucial developmental process in songbirds.