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Biochemical studies of integral membrane proteins are often hampered by low purification yields and technical limitations such as aggregation causing in vitro manipulations to be challenging. The ability of controlling proteins… Click to show full abstract
Biochemical studies of integral membrane proteins are often hampered by low purification yields and technical limitations such as aggregation causing in vitro manipulations to be challenging. The ability of controlling proteins in live cells bypasses these limitations while broadening the scope of accessible questions owing to the proteins being in their native environment. Here we take advantage of the intein biorthogonality to mammalian systems, site specificity, fast kinetics, and auto‐processing nature as an attractive option for modifying surface proteins. Using EGFR as a model, we demonstrate that the split‐intein pair AvaN/NpuC can be used to efficiently and specifically modify target membrane proteins with a synthetic adduct for downstream live cell application.
Journal Title: ChemBioChem
Year Published: 2022
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