一种 mTRAN-mRNA 相互作用介导植物中线粒体翻译起始。

An mTRAN-mRNA interaction mediates mitochondrial translation initiation in plants.

机构信息

Department of Biology, Lund University, Lund, Sweden.

Université Paris-Saclay, INRAE, AgroParisTech, Institut Jean-Pierre Bourgin (IJPB), 78000 Versailles, France.

出版信息

Science. 2023 Sep;381(6661):eadg0995. doi: 10.1126/science.adg0995. Epub 2023 Sep 1.

DOI:10.1126/science.adg0995

PMID:37651534

Abstract

Plant mitochondria represent the largest group of respiring organelles on the planet. Plant mitochondrial messenger RNAs (mRNAs) lack Shine-Dalgarno-like ribosome-binding sites, so it is unknown how plant mitoribosomes recognize mRNA. We show that "mitochondrial translation factors" mTRAN1 and mTRAN2 are land plant-specific proteins, required for normal mitochondrial respiration chain biogenesis. Our studies suggest that mTRANs are noncanonical pentatricopeptide repeat (PPR)-like RNA binding proteins of the mitoribosomal "small" subunit. We identified conserved Adenosine (A)/Uridine (U)-rich motifs in the 5' regions of plant mitochondrial mRNAs. mTRAN1 binds this motif, suggesting that it is a mitoribosome homing factor to identify mRNAs. We demonstrate that mTRANs are likely required for translation of all plant mitochondrial mRNAs. Plant mitochondrial translation initiation thus appears to use a protein-mRNA interaction that is divergent from bacteria or mammalian mitochondria.

摘要

植物线粒体代表了地球上最大的呼吸细胞器群体。植物线粒体信使 RNA（mRNA）缺乏 Shine-Dalgarno 样核糖体结合位点，因此尚不清楚植物线粒体核糖体如何识别 mRNA。我们表明，“线粒体翻译因子”mTRAN1 和 mTRAN2 是陆地植物特异性蛋白，是正常线粒体呼吸链生物发生所必需的。我们的研究表明，mTRANs 是线粒体核糖体“小”亚基的非典型五肽重复（PPR）样 RNA 结合蛋白。我们在植物线粒体 mRNA 的 5' 区域鉴定到保守的腺苷（A）/尿嘧啶（U）丰富基序。mTRAN1 结合该基序，表明它是一种线粒体 homing 因子，可识别 mRNA。我们证明 mTRANs 可能是所有植物线粒体 mRNA 翻译所必需的。因此，植物线粒体翻译起始似乎使用了一种与细菌或哺乳动物线粒体不同的蛋白质-mRNA 相互作用。

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一种 mTRAN-mRNA 相互作用介导植物中线粒体翻译起始。

An mTRAN-mRNA interaction mediates mitochondrial translation initiation in plants.

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