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Tyrosinase-Based Proximity Labeling in Living Cells and <i>In Vivo</i>

Hao Zhu, Jae Hoon Oh, Yuna Matsuda, Takeharu Mino, Mamoru Ishikawa, Hideki Nakamura, Muneo Tsujikawa, Hiroshi Nonaka, Itaru Hamachi

2024Journal of the American Chemical Society54 citationsDOI

Abstract

Characterizing the protein constituents of a specific organelle and protein neighbors of a protein of interest (POI) is essential for understanding the function and state of the organelle and protein networks associated with the POI. Proximity labeling (PL) has emerged as a promising technology for specific and efficient spatial proteomics. Nevertheless, most enzymes adopted for PL still have limitations: APEX requires cytotoxic H 2 O 2 for activation and thus is poor in biocompatibility for in vivo application, BioID shows insufficient labeling kinetics, and TurboID suffers from high background biotinylation. Here, we introduce a bacterial tyrosinase (BmTyr) as a new PL enzyme suitable for H 2 O 2 -free, fast (≤10 min in living cells), and low-background protein tagging. BmTyr is genetically encodable and enables subcellular-resolved PL and proteomics in living cells. We further designed a strategy of ligand-tethered BmTyr for in vivo PL, which unveiled the surrounding proteome of a neurotransmitter receptor (Grm1 and Drd2) in its resident synapse in a live mouse brain. Overall, BmTyr is one promising enzyme that can improve and expand PL-based applications and discoveries.

Topics & Concepts

ProteomeBiotinylationChemistryProteomicsOrganelleIn vivoCell biologyTyrosinaseEnzymeBiochemistryComputational biologyBiologyGeneticsGeneBiotin and Related StudiesReceptor Mechanisms and SignalingClick Chemistry and Applications
Tyrosinase-Based Proximity Labeling in Living Cells and <i>In Vivo</i> | Litcius