Ling-chun Chen scite author profile

Ling-chun Chen

2Publications

52Citation Statements Received

83Citation Statements Given

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A Novel Destabilizing Domain Based on a Small-Molecule Dependent Fluorophore

Navarro¹,

Chen²,

Rakhit³

et al. 2016

ACS Chem. Biol.

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Tools that can directly regulate the activity of any protein-of-interest are valuable in the study of complex biological processes. Herein, we describe the development of a novel protein domain that exhibits small molecule-dependent stability and fluorescence based on the bilirubin-inducible fluorescent protein, UnaG. When genetically fused to any protein-of-interest, this fluorescent destabilizing domain (FDD) confers its instability to the entire fusion protein, facilitating the rapid degradation of the fusion. In the presence of its cognate ligand bilirubin (BR), the FDD fusion becomes stable and fluorescent. This new chemical genetic tool allows for rapid, reversible, and tunable control over the stability and fluorescence of a wide range of protein targets.

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Intracellular Context Affects Levels of a Chemically Dependent Destabilizing Domain

Sellmyer

Chen²,

Egeler³

et al. 2012

PLoS ONE

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The ability to regulate protein levels in live cells is crucial to understanding protein function. In the interest of advancing the tool set for protein perturbation, we developed a protein destabilizing domain (DD) that can confer its instability to a fused protein of interest. This destabilization and consequent degradation can be rescued in a reversible and dose-dependent manner with the addition of a small molecule that is specific for the DD, Shield-1. Proteins encounter different local protein quality control (QC) machinery when targeted to cellular compartments such as the mitochondrial matrix or endoplasmic reticulum (ER). These varied environments could have profound effects on the levels and regulation of the cytoplasmically derived DD. Here we show that DD fusions in the cytoplasm or nucleus can be efficiently degraded in mammalian cells; however, targeting fusions to the mitochondrial matrix or ER lumen leads to accumulation even in the absence of Shield-1. Additionally, we characterize the behavior of the DD with perturbants that modulate protein production, degradation, and local protein QC machinery. Chemical induction of the unfolded protein response in the ER results in decreased levels of an ER-targeted DD indicating the sensitivity of the DD to the degradation environment. These data reinforce that DD is an effective tool for protein perturbation, show that the local QC machinery affects levels of the DD, and suggest that the DD may be a useful probe for monitoring protein quality control machinery.

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Ling-chun Chen

A Novel Destabilizing Domain Based on a Small-Molecule Dependent Fluorophore

Intracellular Context Affects Levels of a Chemically Dependent Destabilizing Domain

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