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Nonstop mRNAs generate a ground state of mitochondrial gene expression noise

Kah Ying Ng, Güleycan Lutfullahoğlu Bal, Uwe Richter, Omid Safronov, Lars Paulín, Cory D. Dunn, Ville O. Paavilainen, Julie Richer, William G. Newman, Robert W. Taylor, Brendan J. Battersby

2022Science Advances16 citationsDOIOpen Access PDF

Abstract

A stop codon within the mRNA facilitates coordinated termination of protein synthesis, releasing the nascent polypeptide from the ribosome. This essential step in gene expression is impeded with transcripts lacking a stop codon, generating nonstop ribosome complexes. Here, we use deep sequencing to investigate sources of nonstop mRNAs generated from the human mitochondrial genome. We identify diverse types of nonstop mRNAs on mitochondrial ribosomes that are resistant to translation termination by canonical release factors. Failure to resolve these aberrations by the mitochondrial release factor in rescue (MTRFR) imparts a negative regulatory effect on protein synthesis that is associated with human disease. Our findings reveal a source of underlying noise in mitochondrial gene expression and the importance of responsive ribosome quality control mechanisms for cell fitness and human health.

Topics & Concepts

NonStopRibosomeBiologyGeneticsShine-Dalgarno sequenceMitochondrial ribosomeRibosome profilingTranslation (biology)GeneStart codonMessenger RNAComputational biologyMitochondrial diseaseMitochondrial DNACell biologyRNAComputer scienceOperating systemRNA and protein synthesis mechanismsRNA Research and SplicingRNA modifications and cancer
Nonstop mRNAs generate a ground state of mitochondrial gene expression noise | Litcius