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A genetically encoded photoproximity labeling approach for mapping protein territories.


ABSTRACT: Studying dynamic biological processes requires approaches compatible with the lifetimes of the biochemical transactions under investigation, which can be very short. We describe a genetically encoded system that allows protein neighborhoods to be mapped using visible light. Our approach involves fusing an engineered flavoprotein to a protein of interest. Brief excitation of the fusion protein leads to the labeling of nearby proteins with cell-permeable probes. Mechanistic studies reveal different labeling pathways are operational depending on the nature of the exogenous probe that is employed. When combined with quantitative proteomics, this photoproximity labeling system generates "snapshots" of protein territories with high temporal and spatial resolution. The intrinsic fluorescence of the fusion domain permits correlated imaging and proteomics analyses, a capability that is exploited in several contexts, including defining the protein clients of the major vault protein. The technology should be broadly useful in the biomedical area.

SUBMITTER: Hananya N 

PROVIDER: S-EPMC10120045 | biostudies-literature | 2023 Apr

REPOSITORIES: biostudies-literature

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A genetically encoded photoproximity labeling approach for mapping protein territories.

Hananya Nir N   Ye Xuanjia X   Koren Shany S   Muir Tom W TW  

Proceedings of the National Academy of Sciences of the United States of America 20230410 16


Studying dynamic biological processes requires approaches compatible with the lifetimes of the biochemical transactions under investigation, which can be very short. We describe a genetically encoded system that allows protein neighborhoods to be mapped using visible light. Our approach involves fusing an engineered flavoprotein to a protein of interest. Brief excitation of the fusion protein leads to the labeling of nearby proteins with cell-permeable probes. Mechanistic studies reveal differen  ...[more]

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