基因组编辑
基因组
清脆的
生物
Cas9
电穿孔
计算生物学
子宫内
基因
遗传学
胎儿
怀孕
作者
Shingo Nakamura,Emi Inada,Issei Saitoh,Masahiro Sato
出处
期刊:Biotech
[MDPI AG]
日期:2023-05-11
卷期号:12 (2): 37-37
被引量:1
标识
DOI:10.3390/biotech12020037
摘要
Genome editing, as exemplified by the CRISPR/Cas9 system, has recently been employed to effectively generate genetically modified animals and cells for the purpose of gene function analysis and disease model creation. There are at least four ways to induce genome editing in individuals: the first is to perform genome editing at the early preimplantation stage, such as fertilized eggs (zygotes), for the creation of whole genetically modified animals; the second is at post-implanted stages, as exemplified by the mid-gestational stages (E9 to E15), for targeting specific cell populations through in utero injection of viral vectors carrying genome-editing components or that of nonviral vectors carrying genome-editing components and subsequent in utero electroporation; the third is at the mid-gestational stages, as exemplified by tail-vein injection of genome-editing components into the pregnant females through which the genome-editing components can be transmitted to fetal cells via a placenta-blood barrier; and the last is at the newborn or adult stage, as exemplified by facial or tail-vein injection of genome-editing components. Here, we focus on the second and third approaches and will review the latest techniques for various methods concerning gene editing in developing fetuses.
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