生物
清脆的
终端(太阳能)
抑制因子
核酸酶
Cas9
基因
突变体
分子生物学
细胞生物学
遗传学
基因表达
抄写(语言学)
电离层
物理
天文
哲学
语言学
作者
David Bikard,Wenyan Jiang,Poulami Samai,Ann Hochschild,Feng Zhang,Luciano A. Marraffini
摘要
The ability to artificially control transcription is essential both to the study of gene function and to the construction of synthetic gene networks with desired properties. Cas9 is an RNA-guided double-stranded DNA nuclease that participates in the CRISPR-Cas immune defense against prokaryotic viruses. We describe the use of a Cas9 nuclease mutant that retains DNA-binding activity and can be engineered as a programmable transcription repressor by preventing the binding of the RNA polymerase (RNAP) to promoter sequences or as a transcription terminator by blocking the running RNAP. In addition, a fusion between the omega subunit of the RNAP and a Cas9 nuclease mutant directed to bind upstream promoter regions can achieve programmable transcription activation. The simple and efficient modulation of gene expression achieved by this technology is a useful asset for the study of gene networks and for the development of synthetic biology and biotechnological applications.
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