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酵母细胞色素c1膜锚定区的突变可弥补Oxa1p的缺失,并产生可被碳酸盐提取的细胞色素c1形式。

Mutations in the membrane anchor of yeast cytochrome c1 compensate for the absence of Oxa1p and generate carbonate-extractable forms of cytochrome c1.

作者信息

Hamel P, Lemaire C, Bonnefoy N, Brivet-Chevillotte P, Dujardin G

机构信息

Centre de Génétique Moléculaire du Centre National de la Recherche Scientifique, 91198 Gif-sur-Yvette Cedex, France.

出版信息

Genetics. 1998 Oct;150(2):601-11. doi: 10.1093/genetics/150.2.601.

DOI:10.1093/genetics/150.2.601
PMID:9755193
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1460358/
Abstract

Oxa1p is a mitochondrial inner membrane protein that is mainly required for the insertion/assembly of complex IV and ATP synthase and is functionally conserved in yeasts, humans, and plants. We have isolated several independent suppressors that compensate for the absence of Oxa1p. Molecular cloning and sequencing reveal that the suppressor mutations (CYT1-1 to -6) correspond to amino acid substitutions that are all located in the membrane anchor of cytochrome c1 and decrease the hydrophobicity of this anchor. Cytochrome c1 is a catalytic subunit of complex III, but the CYT1-1 mutation does not seem to affect the electron transfer activity. The double-mutant cyt1-1,164, which has a drastically reduced electron transfer activity, still retains the suppressor activity. Altogether, these results suggest that the suppressor function of cytochrome c1 is independent of its electron transfer activity. In addition to the membrane-bound cytochrome c1, carbonate-extractable forms accumulate in all the suppressor strains. We propose that these carbonate-extractable forms of cytochrome c1 are responsible for the suppressor function by preventing the degradation of the respiratory complex subunits that occur in the absence of Oxa1p.

摘要

Oxa1p是一种线粒体内膜蛋白,主要参与复合物IV和ATP合酶的插入/组装,在酵母、人类和植物中功能保守。我们分离出了几个能弥补Oxa1p缺失的独立抑制子。分子克隆和测序表明,抑制子突变(CYT1-1至-6)对应于氨基酸替换,这些替换均位于细胞色素c1的膜锚定区域,降低了该锚定区域的疏水性。细胞色素c1是复合物III的催化亚基,但CYT1-1突变似乎并不影响电子传递活性。电子传递活性大幅降低的双突变体cyt1-1,164仍保留抑制子活性。总之,这些结果表明细胞色素c1的抑制子功能与其电子传递活性无关。除了膜结合形式的细胞色素c1,在所有抑制子菌株中都积累了可被碳酸盐提取的形式。我们推测,这些可被碳酸盐提取的细胞色素c1形式通过防止在缺乏Oxa1p时发生的呼吸复合物亚基降解来发挥抑制子功能。

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