Fate of amplified nucleoli in Xenopus laevis embryos

Abstract

We have followed the fate of two components of extrachromosomal nucleoli, amplified ribosomal DNA (rDNA) and 7.5 kb precursor rRNA, during early embryogenesis of Xenopus laevis. Other workers have shown that the amount of amplified rDNA accumulated during oogenesis remains unchanged through the 16-cell stage of embryogenesis. Here we show that as embryonic cleavage continues, the amount of amplified rDNA decreases until it is no longer detectable in the early gastrula embryo. In contrast, the amount of 7.5 kb precursor rRNA in eggs, early cleavage stage embryos, or blastula stage embryos is the same as in oocyte nuclei. Since no rRNA synthesis occurs during these early stages, we conclude that the precursor rRNA sequences synthesized in the oocyte are neither processed nor degraded during early development. The amplified rDNA is not replicated in the early embryo even though the chromosomal DNA of the embryo replicates every 30 min during the first 7.5 hr of embryogenesis. When amplified rDNA is purified and then injected into cleaving embryos, however, we find that it is replicated. This finding suggests that some factor(s) prevents the endogenous amplified rDNA from responding to the cellular replication signals. We show that methylation of cytosine in the rDNA is not related to the DNA's capacity for replication in this system since amplified (unmethylated) and chromosomal (methylated) rDNA are both replicated when injected into embryos. The methylation pattern of these rDNAs appears to be maintained after replication in the embryo.