Functional complementation analyses reveal that the single PRAT family protein of trypanosoma brucei is a divergent homolog of Tim17 in saccharomyces cerevisiae.

Eukaryotic Cell Pub Date : 2015-03-01 Epub Date: 2015-01-09 DOI:10.1128/EC.00203-14
Ebony Weems, Ujjal K Singha, VaNae Hamilton, Joseph T Smith, Karin Waegemann, Dejana Mokranjac, Minu Chaudhuri
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引用次数: 16

Abstract

Trypanosoma brucei, a parasitic protozoan that causes African trypanosomiasis, possesses a single member of the presequence and amino acid transporter (PRAT) protein family, which is referred to as TbTim17. In contrast, three homologous proteins, ScTim23, ScTim17, and ScTim22, are found in Saccharomyces cerevisiae and higher eukaryotes. Here, we show that TbTim17 cannot rescue Tim17, Tim23, or Tim22 mutants of S. cerevisiae. We expressed S. cerevisiae Tim23, Tim17, and Tim22 in T. brucei. These heterologous proteins were properly imported into mitochondria in the parasite. Further analysis revealed that although ScTim23 and ScTim17 were integrated into the mitochondrial inner membrane and assembled into a protein complex similar in size to TbTim17, only ScTim17 was stably associated with TbTim17. In contrast, ScTim22 existed as a protease-sensitive soluble protein in the T. brucei mitochondrion. In addition, the growth defect caused by TbTim17 knockdown in T. brucei was partially restored by the expression of ScTim17 but not by the expression of either ScTim23 or ScTim22, whereas the expression of TbTim17 fully complemented the growth defect caused by TbTim17 knockdown, as anticipated. Similar to the findings for cell growth, the defect in the import of mitochondrial proteins due to depletion of TbTim17 was in part restored by the expression of ScTim17 but was not complemented by the expression of either ScTim23 or ScTim22. Together, these results suggest that TbTim17 is divergent compared to ScTim23 but that its function is closer to that of ScTim17. In addition, ScTim22 could not be sorted properly in the T. brucei mitochondrion and thus failed to complement the function of TbTim17.

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功能互补分析表明,布鲁氏锥虫PRAT家族蛋白是酿酒酵母Tim17的分化同源物。
布鲁氏锥虫是一种引起非洲锥虫病的寄生原生动物,它具有前体和氨基酸转运蛋白(PRAT)家族的一个成员,称为TbTim17。相比之下,在酿酒酵母和高等真核生物中发现了三个同源蛋白,ScTim23、ScTim17和ScTim22。在这里,我们证明TbTim17不能拯救酿酒葡萄球菌的Tim17、Tim23或Tim22突变体。我们在布鲁氏杆菌中表达了酿酒葡萄球菌Tim23、Tim17和Tim22。这些异源蛋白被适当地导入到寄生虫的线粒体中。进一步分析表明,尽管ScTim23和ScTim17被整合到线粒体内膜中,并组装成与TbTim17大小相似的蛋白复合物,但只有ScTim17与TbTim17稳定相关。相比之下,ScTim22作为蛋白酶敏感的可溶性蛋白存在于布鲁氏体线粒体中。此外,TbTim17敲低引起的生长缺陷可以通过ScTim17的表达部分恢复,而ScTim23和ScTim22的表达都不能恢复,而TbTim17的表达完全弥补了TbTim17敲低引起的生长缺陷,正如预期的那样。与细胞生长的发现类似,由于TbTim17的缺失而导致的线粒体蛋白进口缺陷部分可以通过ScTim17的表达恢复,但不能通过ScTim23或ScTim22的表达来补充。总之,这些结果表明TbTim17与ScTim23不同,但其功能更接近ScTim17。此外,ScTim22不能在T. bruei线粒体中被正确分类,从而不能补充TbTim17的功能。
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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来源期刊
Eukaryotic Cell
Eukaryotic Cell 生物-微生物学
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审稿时长
1 months
期刊介绍: Eukaryotic Cell (EC) focuses on eukaryotic microbiology and presents reports of basic research on simple eukaryotic microorganisms, such as yeasts, fungi, algae, protozoa, and social amoebae. The journal also covers viruses of these organisms and their organelles and their interactions with other living systems, where the focus is on the eukaryotic cell. Topics include: - Basic biology - Molecular and cellular biology - Mechanisms, and control, of developmental pathways - Structure and form inherent in basic biological processes - Cellular architecture - Metabolic physiology - Comparative genomics, biochemistry, and evolution - Population dynamics - Ecology
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