多重碱基编辑将人基因组中的 TAG 密码子转换为 TAA 密码子。
Multiplex base editing to convert TAG into TAA codons in the human genome.
机构信息
Department of Genetics, Harvard Medical School, Boston, MA, 02115, USA.
Wyss Institute for Biologically Inspired Engineering, Boston, MA, 02115, USA.
出版信息
Nat Commun. 2022 Aug 2;13(1):4482. doi: 10.1038/s41467-022-31927-8.
Whole-genome recoding has been shown to enable nonstandard amino acids, biocontainment and viral resistance in bacteria. Here we take the first steps to extend this to human cells demonstrating exceptional base editing to convert TAG to TAA for 33 essential genes via a single transfection, and examine base-editing genome-wide (observing ~40 C-to-T off-target events in essential gene exons). We also introduce GRIT, a computational tool for recoding. This demonstrates the feasibility of recoding, and highly multiplex editing in mammalian cells.
全基因组重编码已被证明可使细菌能够使用非标准氨基酸、进行生物控制和抵抗病毒。在这里,我们迈出了第一步,将其扩展到人类细胞,通过单次转染即可实现 TAG 到 TAA 的出色碱基编辑,从而对 33 个必需基因进行编辑,并对全基因组范围内的碱基编辑进行了检测(在必需基因外显子中观察到约 40 个 C 到 T 的脱靶事件)。我们还引入了 GRIT,这是一种用于重编码的计算工具。这证明了在哺乳动物细胞中进行重编码和高度多重编辑的可行性。
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