线粒体CAP-R、PYR-IND和OLI-R突变表型的起源、细胞表达和杂交传递。

Somatic Cell Genetics Pub Date : 1983-01-01 DOI:10.1007/BF01544045

N Howell

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引用次数: 38

摘要

在含丙酮酸的药物培养基中，单步分离出了氯霉素耐药小鼠和中国仓鼠。CAP-R表型的细胞表达需要丙酮酸或适当的替代品作为营养补充剂。丙酮酸不依赖性亚克隆株系(PYR-IND)在第二步选择中出现的频率很高。中国仓鼠CAP-R PYR-IND突变体可通过单步筛选直接分离，但分离频率极低。在第三个选择周期中分离出对寡霉素具有交叉抗性的亚克隆系(OLI-R)。PYR-IND和OLI-R表型与CAP-R mtDNA突变共传，但只有当突变线粒体基因组的数量超过最小阈值时，才会在细胞水平上表达。对一系列突变体的mtDNA限制片段改变的分析支持了这一模型。线粒体突变表型的细胞表达阈值限制可能是一种普遍现象，并将限制mtDNA突变的起源和分离模型。

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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Origin, cellular expression, and cybrid transmission of mitochondrial CAP-R, PYR-IND, and OLI-R mutant phenotypes.

Chloramphenicol-resistant (CAP-R) mouse and Chinese hamster lines were isolated in a single selection step in drug medium containing pyruvate. Cellular expression of the CAP-R phenotype required pyruvate--or an appropriate substitute--as a nutritional supplement. Subclone lines which were pyruvate independent (PYR-IND) arose in second-step selections at a high frequency. CAP-R PYR-IND Chinese hamster mutants could be directly isolated in single-step selections but at a very low frequency. Subclone lines (OLI-R) which were cross-resistant to oligomycin were isolated in a third selection cycle. The PYR-IND and OLI-R phenotypes were cotransmitted with the CAP-R mtDNA mutation but were expressed at the cellular level only if the number of mutant mitochondrial genomes exceeded a minimum threshold value. Analysis of a mtDNA restriction fragment alteration in one series of mutants supported this model. Threshold limits for cellular expression of mitochondrial mutant phenotypes are likely to be a general phenomenon and will constrain models of the origin and segregation of mtDNA mutations.

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Somatic Cell Genetics

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