线粒体遗传学。VI. 酿酒酵母中的小菌落突变：p+因子缺失与抗药性质粒遗传标记缺失之间的相互关系。

Mitochondrial genetics. VI. The petite mutation in Saccharomyces cerevisiae: interrelations between the loss of the p+ factor and the loss of the drug resistance mitochondrial genetic markers.

作者信息

Deutsch J, Dujon B, Netter P, Petrochilo E, Slonimski P P, Bolotin-Fukuhara M, Coen D

出版信息

Genetics. 1974 Feb;76(2):195-219. doi: 10.1093/genetics/76.2.195.

DOI:10.1093/genetics/76.2.195

PMID:4595642

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1213061/

Abstract

The survival of the rho(+) factor and of Drug(R) mitochondrial genetic markers after exposure to ethidium bromide has been studied. A technique allowing the determination of Drug(R) genetic markers among a great number of both grande and petite colonies has been developed. The results have been analyzed by the target theory. The survival of the rho(+) factor is always less than the survival of any Drug(R) genetic marker. The survivals of C(R) and E(R) are similar to each other, while that of O(R) is greater than that of the other two Drug(R) markers. All possible combinations of Drug(R) markers have been found among the rho(-) petite cells induced, while the only type found among the grande colonies is the preexisting one. The loss of the C(R) and E(R) genetic markers was found to be the most frequently concomitant, while the correlation between the loss of the O(R) marker and the other two Drug(R) markers is less strong. Similar results have been obtained after U.V. irradiation. Interpretations concerning the structure of the yeast mitochondrial genome are given and hypotheses on the mechanism of petite mutation discussed.

摘要

研究了溴化乙锭处理后rho(+)因子和抗药（Drug(R)）线粒体遗传标记的存活情况。已开发出一种技术，可在大量的大菌落和小菌落中测定抗药（Drug(R)）遗传标记。结果已根据靶理论进行分析。rho(+)因子的存活率总是低于任何抗药（Drug(R)）遗传标记的存活率。C(R)和E(R)的存活率彼此相似，而O(R)的存活率高于其他两种抗药（Drug(R)）标记。在诱导产生的rho(-)小菌落中发现了抗药（Drug(R)）标记的所有可能组合，而在大菌落中发现的唯一类型是预先存在的类型。发现C(R)和E(R)遗传标记的丢失最常同时发生，而O(R)标记的丢失与其他两种抗药（Drug(R)）标记之间的相关性较弱。紫外线照射后也获得了类似结果。给出了关于酵母线粒体基因组结构的解释，并讨论了关于小菌落突变机制的假说。

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本文引用的文献

Replica plating and indirect selection of bacterial mutants.细菌突变体的影印培养和间接筛选

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