一种在小鼠中偏向性别比例的遗传系统。

A genetic system for biasing the sex ratio in mice.

机构信息

Department of Clinical Microbiology and Immunology, Sackler School of Medicine, Tel Aviv University, Tel Aviv, Israel.

出版信息

EMBO Rep. 2019 Aug;20(8):e48269. doi: 10.15252/embr.201948269. Epub 2019 Jul 1.

DOI:10.15252/embr.201948269

PMID:31267640

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6680165/

Abstract

Biasing the sex ratio of populations of different organisms, including plants, insects, crustacean, and fish, has been demonstrated by genetic and non-genetic approaches. However, biasing the sex ratio of mammalian populations has not been demonstrated genetically. Here, we provide a first proof of concept for such a genetic system in mammals by crossing two genetically engineered mouse lines. The maternal line encodes a functional Cas9 protein on an autosomal chromosome, whereas the paternal line encodes guide RNAs on the Y chromosome targeting vital mouse genes. After fertilization, the presence of both the Y-encoded guide RNAs from the paternal sperm and the Cas9 protein from the maternal egg targets the vital genes in males. We show that these genes are specifically targeted in males and that this breeding consequently self-destructs solely males. Our results pave the way for a genetic system that allows biased sex production of livestock.

摘要

通过遗传和非遗传方法已经证明，可以使包括植物、昆虫、甲壳类动物和鱼类在内的不同生物种群的性别比例发生偏倚。然而，遗传方法尚未证明可以使哺乳动物种群的性别比例发生偏倚。在这里，我们通过杂交两条经过基因工程改造的小鼠品系，为哺乳动物中的这种遗传系统提供了第一个概念验证。母系在常染色体上编码有功能的 Cas9 蛋白，而父系在 Y 染色体上编码靶向关键小鼠基因的向导 RNA。受精后，来自父本精子的 Y 染色体编码的向导 RNA 和来自母本卵子的 Cas9 蛋白共同靶向雄性的关键基因。我们证明这些基因在雄性中被特异性靶向，并且这种繁殖方式导致雄性自行毁灭。我们的结果为一种遗传系统铺平了道路，该系统允许偏向性地生产家畜的性别。

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