Fu‐Sen Liang scite author profile

Chemically induced proximity (CIP) systems use small molecules and engineered proteins to control and study biological processes. However, small molecule–based systems for controlling protein abundance or activities have been limited by toxicity, instability, cost, and slow clearance of the small molecules in vivo. To address these problems, we modified proteins of the plant abscisic acid (ABA) stress response pathway to control the proximity of cellular proteins and showed that the system could be used to regulate transcription, signal transduction, and subcellular localization of proteins in response to exogenously applied ABA. We also showed that the ABA CIP system can be combined with other CIP systems to simultaneously control multiple processes. We found that, when given to mice, ABA was orally available and had a 4-hour half-life. These properties, along with its lack of toxicity and low cost, suggest that ABA may be well suited for therapeutic applications and as an experimental tool to control diverse cellular activities in vivo.

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Inhibition of the Proteolytic Activity of Anthrax Lethal Factor by Aminoglycosides

Lee

Bower

Liang

et al. 2004

J. Am. Chem. Soc.

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The anthrax lethal factor (LF), a Zn-dependent endopeptidase, is considered the dominant virulence factor of anthrax. Because pharmacological inhibition of the catalytic activity of LF is considered a plausible mechanism for preventing the lethality of anthrax, a high-throughput screening experiment based on LF-catalyzed cleavage of a fluorescent substrate was performed to identify novel inhibitors of LF. The RNA-targeting antibiotics, neomycin B and some synthetic dimeric aminoglycosides, were found to be nanomolar active-site inhibitors of LF.

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Dual Effect of Synthetic Aminoglycosides: Antibacterial Activity against Bacillus anthracis and Inhibition of Anthrax Lethal Factor

et al. 2004

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Defence against bioterrorism: Recent events have created an urgent need for therapeutic strategies to treat anthrax, an infectious disease caused by the toxigenic bacterium Bacillus anthracis. A new class of aminoglycosides (see picture) are powerful inhibitors under physiological conditions of the anthrax lethal factor, which has a major role in the disease, and function simultaneously as antibiotics against B. anthracis.

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Chemically Controlled Epigenome Editing through an Inducible dCas9 System

et al. 2017

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Although histone modifications are associated with gene activities, studies of their causal relationships have been difficult. For this purpose, we developed an inducible system integrating dCas9-based targeting and chemically induced proximity technologies to allow small molecule induced recruitment of P300 acetyltransferase and the acetylation of H3K27 at precise gene loci in cells. Employing the new technique, we elucidated the temporal order of histone acetylation and gene activation, as well as the stability of the installed histone modification.

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Fu‐Sen Liang

Engineering the ABA Plant Stress Pathway for Regulation of Induced Proximity

Inhibition of the Proteolytic Activity of Anthrax Lethal Factor by Aminoglycosides

Dual Effect of Synthetic Aminoglycosides: Antibacterial Activity against Bacillus anthracis and Inhibition of Anthrax Lethal Factor

Chemically Controlled Epigenome Editing through an Inducible dCas9 System

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