| Literature DB >> 32589965 |
Yingying Lin1, Fajin Li2, Linlu Huang1, Christine Polte3, Haoran Duan1, Jianhuo Fang4, Li Sun1, Xudong Xing2, Guiyou Tian1, Yabin Cheng5, Zoya Ignatova3, Xuerui Yang6, Dieter A Wolf7.
Abstract
eIF3, a multi-subunit complex with numerous functions in canonical translation initiation, is known to interact with 40S and 60S ribosomal proteins and translation elongation factors, but a direct involvement in translation elongation has never been demonstrated. We found that eIF3 deficiency reduced early ribosomal elongation speed between codons 25 and 75 on a set of ∼2,700 mRNAs encoding proteins associated with mitochondrial and membrane functions, resulting in defective synthesis of their encoded proteins. To promote elongation, eIF3 interacts with 80S ribosomes translating the first ∼60 codons and serves to recruit protein quality-control factors, functions required for normal mitochondrial physiology. Accordingly, eIF3e+/- mice accumulate defective mitochondria in skeletal muscle and show a progressive decline in muscle strength. Hence, eIF3 interacts with 80S ribosomes to enhance, at the level of early elongation, the synthesis of proteins with membrane-associated functions, an activity that is critical for mitochondrial physiology and muscle health.Entities:
Keywords: eIF3; knockout mouse; mRNA translation; mitochondrial protein synthesis; muscle strength; ribosome profiling; selective ribosome profiling; translation elongation; translation initiation; translation initiation factor 3
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Year: 2020 PMID: 32589965 DOI: 10.1016/j.molcel.2020.06.003
Source DB: PubMed Journal: Mol Cell ISSN: 1097-2765 Impact factor: 17.970