The mitochondrial DNA genetic bottleneck: inheritance and beyond

异质性 生物 线粒体DNA 遗传学 等位基因 生殖系 人口瓶颈 基因组 瓶颈 进化生物学 基因 微卫星 计算机科学 嵌入式系统
作者
Haixin Zhang,Stephen P. Burr,Patrick F. Chinnery
出处
期刊:Essays in Biochemistry [Portland Press]
卷期号:62 (3): 225-234 被引量:118
标识
DOI:10.1042/ebc20170096
摘要

mtDNA is a multicopy genome. When mutations exist, they can affect a varying proportion of the mtDNA present within every cell (heteroplasmy). Heteroplasmic mtDNA mutations can be maternally inherited, but the proportion of mutated alleles differs markedly between offspring within one generation. This led to the genetic bottleneck hypothesis, explaining the rapid changes in allele frequency seen during transmission from one generation to the next. Although a physical reduction in mtDNA has been demonstrated in several species, a comprehensive understanding of the molecular mechanisms is yet to be revealed. Several questions remain, including the role of selection for and against specific alleles, whether all bottlenecks are the same, and precisely how the bottleneck is controlled during development. Although originally thought to be limited to the germline, there is evidence that bottlenecks exist in other cell types during development, perhaps explaining why different tissues in the same organism contain different levels of mutated mtDNA. Moreover, tissue-specific bottlenecks may occur throughout life in response to environmental influences, adding further complexity to the situation. Here we review key recent findings, and suggest ways forward that will hopefully advance our understanding of the role of mtDNA in human disease.
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