Analysis of Mitochondrial Protein Synthesis: De Novo Translation, Steady-State Levels, and Assembled OXPHOS Complexes

Taru Hilander, Svetlana Konovalova, Mügen Terzioglu, Henna Tyynismaa
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引用次数: 3

Abstract

Mitochondria are multifunctional organelles with their own genome and protein synthesis machinery. The 13 proteins encoded by mitochondrial DNA (mtDNA) are core subunits of the oxidative phosphorylation (OXPHOS) system producing the majority of cellular ATP. Yet most mitochondrial proteins are encoded by nuclear genes, synthesized by cytosolic ribosomes, and imported into mitochondria. Therefore, disturbances in cytosolic proteostasis have consequences on the gene expression and synthesis of mtDNA-encoded proteins and overall on mitochondrial function. Internal and environmental factors such as mutations, aging, oxidative stress, and toxic agents can affect the translation and the stability of mitochondrial proteins and lead to OXPHOS dysfunction. Here, methods for analysis of mitochondrial translation rate and protein stability using radioactive and non-radioactive technique as well as the methods for studying steady-state levels and assembly of OXPHOS complexes are described. © 2018 by John Wiley & Sons, Inc.

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线粒体蛋白合成分析:从头翻译,稳态水平和组装的OXPHOS复合物
线粒体是具有自身基因组和蛋白质合成机制的多功能细胞器。线粒体DNA (mtDNA)编码的13种蛋白质是氧化磷酸化(OXPHOS)系统的核心亚基,产生大部分细胞ATP。然而,大多数线粒体蛋白是由核基因编码,由细胞质核糖体合成,然后输入线粒体。因此,胞质内蛋白质稳态紊乱会影响mtdna编码蛋白的基因表达和合成,并影响线粒体功能。内部和环境因素如突变、衰老、氧化应激、有毒物质等均可影响线粒体蛋白的翻译和稳定性,导致OXPHOS功能障碍。本文介绍了使用放射性和非放射性技术分析线粒体翻译率和蛋白质稳定性的方法,以及研究稳态水平和OXPHOS复合物组装的方法。©2018 by John Wiley &儿子,Inc。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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