酵母F1-ATP酶β亚基前体的氨基末端作为线粒体导入信号发挥作用。

The amino terminus of the yeast F1-ATPase beta-subunit precursor functions as a mitochondrial import signal.

作者信息

Emr S D, Vassarotti A, Garrett J, Geller B L, Takeda M, Douglas M G

出版信息

J Cell Biol. 1986 Feb;102(2):523-33. doi: 10.1083/jcb.102.2.523.

DOI:10.1083/jcb.102.2.523

PMID:2868014

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2114072/

Abstract

The ATP2 gene of Saccharomyces cerevisiae codes for the cytoplasmically synthesized beta-subunit protein of the mitochondrial F1-ATPase. To define the amino acid sequence determinants necessary for the in vivo targeting and import of this protein into mitochondria, we have constructed gene fusions between the ATP2 gene and either the Escherichia coli lacZ gene or the S. cerevisiae SUC2 gene (which codes for invertase). The ATP2-lacZ and ATP2-SUC2 gene fusions code for hybrid proteins that are efficiently targeted to yeast mitochondria in vivo. The mitochondrially associated hybrid proteins fractionate with the inner mitochondrial membrane and are resistant to proteinase digestion in the isolated organelle. Results obtained with the gene fusions and with targeting-defective ATP2 deletion mutants provide evidence that the amino-terminal 27 amino acids of the beta-subunit protein precursor are sufficient to direct both specific sorting of this protein to yeast mitochondria and its import into the organelle. Also, we have observed that certain of the mitochondrially associated Atp2-LacZ and Atp2-Suc2 hybrid proteins confer a novel respiration-defective phenotype to yeast cells.

摘要

酿酒酵母的ATP2基因编码线粒体F1 - ATP酶在细胞质中合成的β亚基蛋白。为了确定该蛋白在体内靶向并导入线粒体所需的氨基酸序列决定因素，我们构建了ATP2基因与大肠杆菌lacZ基因或酿酒酵母SUC2基因（编码转化酶）之间的基因融合体。ATP2 - lacZ和ATP2 - SUC2基因融合体编码的杂合蛋白在体内能有效地靶向酵母线粒体。与线粒体相关的杂合蛋白在内线粒体膜上分离，并且在分离的细胞器中对蛋白酶消化具有抗性。基因融合体和靶向缺陷的ATP2缺失突变体所获得的结果表明，β亚基蛋白前体的氨基末端27个氨基酸足以指导该蛋白向酵母线粒体的特异性分选及其导入细胞器。此外，我们观察到某些与线粒体相关的Atp2 - LacZ和Atp2 - Suc2杂合蛋白赋予酵母细胞一种新的呼吸缺陷表型。

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