Photo by davidclode from unsplash
Significance Primary endosymbiosis allowed the evolution of complex life on Earth. In this process, a prokaryote was engulfed and retained in the cytoplasm of another microbe, where it developed into… Click to show full abstract
Significance Primary endosymbiosis allowed the evolution of complex life on Earth. In this process, a prokaryote was engulfed and retained in the cytoplasm of another microbe, where it developed into a new organelle (mitochondria and plastids). During organelle evolution, genes from the endosymbiont are transferred to the host nuclear genome, where they must become active despite differences in the genetic nature of the “partner” organisms. Here, we show that in the amoeba Paulinella micropora, which harbors a nascent photosynthetic organelle, the “copy-paste” mechanism of retrotransposition allowed domestication of endosymbiont-derived genes in the host nuclear genome. This duplication mechanism is widespread in eukaryotes and may be a major facilitator for host–endosymbiont integration and the evolution of organelles.
Journal Title: Proceedings of the National Academy of Sciences of the United States of America
Year Published: 2022
Link to full text (if available)
Share on Social Media: Sign Up to like & get
recommendations!