酵母m-AAA蛋白酶的高等植物线粒体同源物。分子克隆、定位及假定功能。

A higher plant mitochondrial homologue of the yeast m-AAA protease. Molecular cloning, localization, and putative function.

作者信息

Kolodziejczak Marta, Kolaczkowska Anna, Szczesny Bartosz, Urantowka Adam, Knorpp Carina, Kieleczawa Jan, Janska Hanna

机构信息

Institute of Biochemistry and Molecular Biology, University of Wroclaw, Tamka 2, Poland.

出版信息

J Biol Chem. 2002 Nov 15;277(46):43792-8. doi: 10.1074/jbc.M203831200. Epub 2002 Sep 11.

DOI:10.1074/jbc.M203831200

PMID:12228240

Abstract

Mitochondrial AAA metalloproteases play a fundamental role in mitochondrial biogenesis and function. They have been identified in yeast and animals but not yet in plants. This work describes the isolation and sequence analysis of the full-length cDNA from the pea (Pisum sativum) with significant homology to the yeast matrix AAA (m-AAA) protease. The product of this clone was imported into isolated pea mitochondria where it was processed to its mature form (PsFtsH). We have shown that the central region of PsFtsH containing the chaperone domain is exposed to the matrix space. Furthermore, we have demonstrated that the pea protease can complement respiration deficiency in the yta10 and/or yta12 null yeast mutants, indicating that the plant protein can compensate for the loss of at least some of the important m-AAA functions in yeast. Based on biochemical experiments using isolated pea mitochondria, we propose that PsFtsH-like m-AAA is involved in the accumulation of the subunit 9 of the ATP synthase in the mitochondrial membrane.

摘要

线粒体AAA金属蛋白酶在线粒体生物发生和功能中发挥着重要作用。它们已在酵母和动物中被鉴定出来，但尚未在植物中发现。这项工作描述了从豌豆（Pisum sativum）中分离出的与酵母基质AAA（m-AAA）蛋白酶具有显著同源性的全长cDNA及其序列分析。该克隆产物被导入分离的豌豆线粒体中，并在那里被加工成成熟形式（PsFtsH）。我们已经表明，PsFtsH包含伴侣结构域的中央区域暴露于基质空间。此外，我们已经证明，豌豆蛋白酶可以弥补yta10和/或yta12缺失型酵母突变体中的呼吸缺陷，这表明该植物蛋白可以补偿酵母中至少一些重要的m-AAA功能的丧失。基于使用分离的豌豆线粒体进行的生化实验，我们提出类似PsFtsH的m-AAA参与线粒体膜中ATP合酶亚基9的积累。

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酵母m-AAA蛋白酶的高等植物线粒体同源物。分子克隆、定位及假定功能。

A higher plant mitochondrial homologue of the yeast m-AAA protease. Molecular cloning, localization, and putative function.

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