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Versatile Labeling and Detection of Endogenous Proteins Using Tag-Assisted Split Enzyme Complementation

Suraj Makhija, David T. Brown, Rachel M. Rudlaff, Julia K. Doh, Struan Bourke, Yina Wang, Shuqin Zhou, Rasmi Cheloor-Kovilakam, Bo Huang

2021ACS Chemical Biology25 citationsDOIOpen Access PDF

Abstract

Recent advances in genome engineering have expanded our capabilities to study proteins in their natural states. In particular, the ease and scalability of knocking-in small peptide tags has enabled high throughput tagging and analysis of endogenous proteins. To improve enrichment capacities and expand the functionality of knock-ins using short tags, we developed the tag-assisted split enzyme complementation (TASEC) approach, which uses two orthogonal small peptide tags and their cognate binders to conditionally drive complementation of a split enzyme upon labeled protein expression. Using this approach, we have engineered and optimized the tag-assisted split HaloTag complementation system (TA-splitHalo) and demonstrated its versatile applications in improving the efficiency of knock-in cell enrichment, detection of protein-protein interaction, and isolation of biallelic gene edited cells through multiplexing.

Topics & Concepts

ComplementationProtein-fragment complementation assayComputational biologyProtein tagEnzymeBiologyGeneMolecular biologyBiochemistryFusion proteinPhenotypeRecombinant DNAAdvanced biosensing and bioanalysis techniquesProtein Degradation and InhibitorsMonoclonal and Polyclonal Antibodies Research
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