Abstract
The ribosome is among the most complex and ancient cellular macromolecular assemblies that plays a central role in protein biosynthesis in all living cells. Its function of translation of genetic information encoded in messenger RNA into protein molecules also extends to subcellular compartments in eukaryotic cells such as apicoplasts, chloroplasts, and mitochondria. The origin of mitochondria is primarily attributed to an early endosymbiotic event between an alpha-proteobacterium and a primitive (archaeal) eukaryotic cell. The timeline of mitochondrial acquisition, the nature of the host, and their diversification have been studied in great detail and are continually being revised as more genomic and structural data emerge. Recent advancements in high-resolution cryo-EM structure determination have provided architectural details of mitochondrial ribosomes (mitoribosomes) from various species, revealing unprecedented diversifications among them. These structures provide novel insights into the evolution of mitoribosomal structure and function. Here, we present a brief overview of the existing mitoribosomal structures in the context of the eukaryotic evolution tree showing their diversification from their last common ancestor.
Published Version
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