T. Schoenhut scite author profile

Mitochondrial ribosomes are specialized for the synthesis of membrane proteins responsible for oxidative phosphorylation. Mammalian mitoribosomes diverged considerably from the ancestral bacterial ribosomes and feature dramatically reduced ribosomal RNAs. Structural basis of the mammalian mitochondrial ribosome assembly is currently not understood. Here we present eight distinct assembly intermediates of the human large mitoribosomal subunit involving 7 assembly factors. We discover that NSUN4-MTERF4 dimer plays a critical role in the process by stabilizing the 16S rRNA in a conformation that exposes the functionally important regions of rRNA for modification by MRM2 methyltransferase and quality control interactions with a conserved mitochondrial GTPase MTG2 that contacts the sarcin ricin loop and the immature active site. The successive action of these factors leads to the formation of the peptidyl transferase active site of the mitoribosome and the folding of the surrounding rRNA regions responsible for interactions with tRNAs and the small ribosomal subunit.

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Release, rescue and recycling: termination of translation in mammalian mitochondria

Kummer

Schubert

Schoenhut

et al. 2021

Preprint

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The mitochondrial translation system originates from a bacterial ancestor but has substantially diverged in the course of evolution. Here, we use single particle cryo-EM as a screening tool to identify mitochondrial translation termination mechanisms and to describe them in molecular detail. We show how mitochondria release factor 1a releases the nascent chain from the ribosome when it encounters the canonical stop codons UAA and UAG. Furthermore, we define how the peptidyl-tRNA hydrolase ICT1 acts as a rescue factor on mitoribosomes that have stalled on truncated messages to recover them for protein synthesis. Finally, we present near-atomic models detailing the process of mitochondrial ribosome recycling, to explain how a dedicated elongation factor, mtEFG2, has specialized for cooperation with the mitochondrial ribosome recycling factor to dissociate the mitoribosomal subunits at the end of the translation process.

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State A of the human mitoribosomal large subunit assembly intermediate

Lenarčič¹,

Jaskółowski²,

Leibundgut³

et al. 2021

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T. Schoenhut

Structural basis of translation termination, rescue, and recycling in mammalian mitochondria

Stepwise maturation of the peptidyl transferase region of human mitoribosomes

Release, rescue and recycling: termination of translation in mammalian mitochondria

State A of the human mitoribosomal large subunit assembly intermediate

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