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YME2/RNA12编码一种线粒体内膜整合蛋白,其失活会导致酿酒酵母中DNA从线粒体向细胞核的逃逸增加。

Inactivation of YME2/RNA12, which encodes an integral inner mitochondrial membrane protein, causes increased escape of DNA from mitochondria to the nucleus in Saccharomyces cerevisiae.

作者信息

Hanekamp T, Thorsness P E

机构信息

Department of Molecular Biology, University of Wyoming, Laramie 82071-3944, USA.

出版信息

Mol Cell Biol. 1996 Jun;16(6):2764-71. doi: 10.1128/MCB.16.6.2764.

DOI:10.1128/MCB.16.6.2764
PMID:8649384
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC231267/
Abstract

Inactivation of the yeast nuclear gene YMe2 causes an increased rate of DNA escape from mitochondria to the nucleus. Mutations in yme2 also show genetic interactions with yme1, a second gene that affects DNA escape from mitochondria to the nucleus. The yme1 cold-sensitive growth phenotype is suppressed by yme2 mutations. In addition, yme1 yme2 double mutants exhibit a synthetic growth defect on ethanol-glycerol medium at 30 degrees C. YME2 was isolated by complementation of the synthetic growth defect of yme1 yme2 strains and was found to be identical with the previously cloned RNA12 gene. The dominant temperature-sensitive mutation RNA12-1 prevents growth of yeast cells at 37 degrees C. YME2 encodes a protein with a predicted molecular weight of 96,681 and is an integral inner mitochondrial membrane protein. The larger carboxyl-terminal domain of the YME2 gene product faces the intermembrane space. Null alleles of yme2 display the same genetic interactions with yme1 and high rate of DNA escape from mitochondria as do the originally isolated yme2 mutant strains. Disruption of yme2 causes a strain-dependent growth defect on nonfermentable carbon sources.

摘要

酵母核基因YMe2的失活会导致DNA从线粒体逃逸到细胞核的速率增加。yme2中的突变也显示出与yme1的遗传相互作用,yme1是另一个影响DNA从线粒体逃逸到细胞核的基因。yme2突变可抑制yme1的冷敏感生长表型。此外,yme1 yme2双突变体在30摄氏度的乙醇-甘油培养基上表现出合成生长缺陷。通过互补yme1 yme2菌株的合成生长缺陷分离出YME2,发现它与先前克隆的RNA12基因相同。显性温度敏感突变RNA12-1可阻止酵母细胞在37摄氏度下生长。YME2编码一种预测分子量为96,681的蛋白质,是线粒体内膜的整合蛋白。YME2基因产物较大的羧基末端结构域面向膜间隙。yme2的无效等位基因与yme1表现出相同的遗传相互作用,并且DNA从线粒体逃逸的速率与最初分离的yme2突变菌株相同。yme2的破坏会导致菌株在非发酵碳源上出现依赖于菌株的生长缺陷。

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