AI Article Synopsis
- Researchers introduce a new method called Plasma Membrane-BioID to effectively label and isolate plasma membrane proteins from mammalian cells without additional labeling steps.
- This technique uses a lipid-modified enzyme (MyrPalm BirA*) that targets the inner leaflet of the plasma membrane to biotinylate the proteins.
- By combining this method with traditional sucrose density gradient centrifugation, they achieve highly pure plasma membrane components suitable for thorough mass spectrometry analysis, improving the study of integral membrane proteins.
Article Abstract
Comprehensive profiling of the cell-surface proteome has been challenging due to the lack of tools for an effective and reproducible way to isolate plasma membrane proteins from mammalian cells. Here we employ a proximity-dependent biotinylation approach to label and isolate plasma membrane proteins without an extra labeling step, which we call Plasma Membrane-BioID. The lipid-modified BirA* enzyme (MyrPalm BirA*) was targeted to the inner leaflet of the plasma membrane, where it effectively biotinylated plasma membrane proteins. Biotinylated proteins were then affinity-purified and analyzed by mass spectrometry. Our analysis demonstrates that combining conventional sucrose density gradient centrifugation and Plasma Membrane-BioID is ideal to overcome the inherent limitations of the identification of integral membrane proteins, and it yields highly pure plasma components for downstream proteomic analysis.
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| http://dx.doi.org/10.1021/acs.jproteome.0c00113 | DOI Listing |
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