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AirID, a novel proximity biotinylation enzyme, for analysis of protein-protein interactions.


ABSTRACT: Proximity biotinylation based on Escherichia coli BirA enzymes such as BioID (BirA*) and TurboID is a key technology for identifying proteins that interact with a target protein in a cell or organism. However, there have been some improvements in the enzymes that are used for that purpose. Here, we demonstrate a novel BirA enzyme, AirID (ancestral BirA for proximity-dependent biotin identification), which was designed de novo using an ancestral enzyme reconstruction algorithm and metagenome data. AirID-fusion proteins such as AirID-p53 or AirID-I?B? indicated biotinylation of MDM2 or RelA, respectively, in vitro and in cells, respectively. AirID-CRBN showed the pomalidomide-dependent biotinylation of IKZF1 and SALL4 in vitro. AirID-CRBN biotinylated the endogenous CUL4 and RBX1 in the CRL4CRBN complex based on the streptavidin pull-down assay. LC-MS/MS analysis of cells that were stably expressing AirID-I?B? showed top-level biotinylation of RelA proteins. These results indicate that AirID is a novel enzyme for analyzing protein-protein interactions.

SUBMITTER: Kido K 

PROVIDER: S-EPMC7302878 | biostudies-literature | 2020 May

REPOSITORIES: biostudies-literature

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AirID, a novel proximity biotinylation enzyme, for analysis of protein-protein interactions.

Kido Kohki K   Yamanaka Satoshi S   Nakano Shogo S   Motani Kou K   Shinohara Souta S   Nozawa Akira A   Kosako Hidetaka H   Ito Sohei S   Sawasaki Tatsuya T  

eLife 20200511


Proximity biotinylation based on <i>Escherichia coli</i> BirA enzymes such as BioID (BirA*) and TurboID is a key technology for identifying proteins that interact with a target protein in a cell or organism. However, there have been some improvements in the enzymes that are used for that purpose. Here, we demonstrate a novel BirA enzyme, AirID (ancestral BirA for proximity-dependent biotin identification), which was designed de novo using an ancestral enzyme reconstruction algorithm and metageno  ...[more]

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