核转移后线粒体的遗传：从克隆动物到线粒体疾病患者。

Mitochondrial Inheritance Following Nuclear Transfer: From Cloned Animals to Patients with Mitochondrial Disease.

机构信息

Institute of Animal Breeding and Genetics, University of Veterinary Medicine, Vienna, Austria.

Departamento de Genética e Evolução, Universidade Federal de São Carlos, São Carlos, Brazil.

出版信息

Methods Mol Biol. 2023;2647:83-104. doi: 10.1007/978-1-0716-3064-8_4.

DOI:10.1007/978-1-0716-3064-8_4

PMID:37041330

Abstract

Mitochondria are indispensable power plants of eukaryotic cells that also act as a major biochemical hub. As such, mitochondrial dysfunction, which can originate from mutations in the mitochondrial genome (mtDNA), may impair organism fitness and lead to severe diseases in humans. MtDNA is a multi-copy, highly polymorphic genome that is uniparentally transmitted through the maternal line. Several mechanisms act in the germline to counteract heteroplasmy (i.e., coexistence of two or more mtDNA variants) and prevent expansion of mtDNA mutations. However, reproductive biotechnologies such as cloning by nuclear transfer can disrupt mtDNA inheritance, resulting in new genetic combinations that may be unstable and have physiological consequences. Here, we review the current understanding of mitochondrial inheritance, with emphasis on its pattern in animals and human embryos generated by nuclear transfer.

摘要

线粒体是真核细胞不可或缺的“发电站”，也是主要的生化枢纽。因此，线粒体功能障碍可能源于线粒体基因组（mtDNA）的突变，从而损害机体适应性，并导致人类的严重疾病。mtDNA 是一个多拷贝、高度多态的基因组，通过母系单向传递。几种机制在线粒体中起作用，以对抗异质性（即两种或多种 mtDNA 变体共存）并阻止 mtDNA 突变的扩展。然而，核转移克隆等生殖生物技术可能会破坏 mtDNA 的遗传，导致新的遗传组合不稳定，并产生生理后果。在这里，我们回顾了线粒体遗传的现有认识，重点介绍了其在动物中的模式以及核转移产生的人类胚胎中的模式。

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核转移后线粒体的遗传：从克隆动物到线粒体疾病患者。

Mitochondrial Inheritance Following Nuclear Transfer: From Cloned Animals to Patients with Mitochondrial Disease.

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