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Efficient proximity labeling in living cells and organisms with TurboID.


ABSTRACT: Protein interaction networks and protein compartmentalization underlie all signaling and regulatory processes in cells. Enzyme-catalyzed proximity labeling (PL) has emerged as a new approach to study the spatial and interaction characteristics of proteins in living cells. However, current PL methods require over 18 h of labeling time or utilize chemicals with limited cell permeability or high toxicity. We used yeast display-based directed evolution to engineer two promiscuous mutants of biotin ligase, TurboID and miniTurbo, which catalyze PL with much greater efficiency than BioID or BioID2, and enable 10-min PL in cells with non-toxic and easily deliverable biotin. Furthermore, TurboID extends biotin-based PL to flies and worms.

SUBMITTER: Branon TC 

PROVIDER: S-EPMC6126969 | biostudies-literature | 2018 Oct

REPOSITORIES: biostudies-literature

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Efficient proximity labeling in living cells and organisms with TurboID.

Branon Tess C TC   Bosch Justin A JA   Sanchez Ariana D AD   Udeshi Namrata D ND   Svinkina Tanya T   Carr Steven A SA   Feldman Jessica L JL   Perrimon Norbert N   Ting Alice Y AY  

Nature biotechnology 20180820 9


Protein interaction networks and protein compartmentalization underlie all signaling and regulatory processes in cells. Enzyme-catalyzed proximity labeling (PL) has emerged as a new approach to study the spatial and interaction characteristics of proteins in living cells. However, current PL methods require over 18 h of labeling time or utilize chemicals with limited cell permeability or high toxicity. We used yeast display-based directed evolution to engineer two promiscuous mutants of biotin l  ...[more]

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