Kalyn Brown scite author profile

The CRISPR/Cas9 system has emerged as an important tool in biomedical research for a wide range of applications, with significant potential for genome engineering and gene therapy. In order to achieve conditional control of the CRISPR/Cas9 system, a genetically encoded light-activated Cas9 was engineered through the site-specific installation of a caged lysine amino acid. Several potential lysine residues were identified as viable caging sites that can be modified to optically control Cas9 function, as demonstrated through optical activation and deactivation of both exogenous and endogenous gene function.

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Light-cleavable rapamycin dimer as an optical trigger for protein dimerization

Brown

Zou

Shirvanyants

et al. 2015

Chem. Commun.

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Genetic Code Expansion of Mammalian Cells with Unnatural Amino Acids

Brown

Deiters

2015

CP Chemical Biology

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The expansion of the genetic code of mammalian cells enables the incorporation of unnatural amino acids into proteins. This is achieved by adding components to the protein biosynthetic machinery, specifically an engineered aminoacyl‐tRNA synthetase/tRNA pair. The unnatural amino acids are chemically synthesized and supplemented to the growth medium. Using this methodology, fundamental new chemistries can be added to the functional repertoire of the genetic code of mammalian cells. This protocol outlines the steps necessary to incorporate a photocaged lysine into proteins and showcases its application in the optical triggering of protein translocation to the nucleus. © 2015 by John Wiley & Sons, Inc.

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Optical Control of CRISPR/Cas9 Gene Editing

Hemphill¹,

Borchardt²,

Brown³

et al. 2015

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Kalyn Brown

Optical Control of CRISPR/Cas9 Gene Editing

Light-cleavable rapamycin dimer as an optical trigger for protein dimerization

Genetic Code Expansion of Mammalian Cells with Unnatural Amino Acids

Optical Control of CRISPR/Cas9 Gene Editing

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