Fluorescence-detection size-exclusion chromatography utilizing nanobody technology for expression screening of membrane proteins.

2021 
GFP fusion-based fluorescence-detection size-exclusion chromatography (FSEC) has been widely employed for membrane protein expression screening. However, fused GFP itself may occasionally affect the expression and/or stability of the targeted membrane protein, leading to both false-positive and false-negative results in expression screening. Furthermore, GFP fusion technology is not well suited for some membrane proteins, depending on their membrane topology. Here, we developed an FSEC assay utilizing nanobody (Nb) technology, named FSEC-Nb, in which targeted membrane proteins are fused to a small peptide tag and recombinantly expressed. The whole-cell extracts are solubilized, mixed with anti-peptide Nb fused to GFP for FSEC analysis. FSEC-Nb enables the evaluation of the expression, monodispersity and thermostability of membrane proteins without the need for purification but does not require direct GFP fusion to targeted proteins. Our results show FSEC-Nb as a powerful tool for expression screening of membrane proteins for structural and functional studies. To mitigate the GFP-triggered artifacts in Fluorescence-detection Size-Exclusion Chromatography (FSEC), Jin et al. develop an FSEC assay utilizing nanobody technology which allows evaluation of the expression, monodispersity and thermostability of membrane proteins without the need for purification. It holds promise as a powerful tool for screening of membrane proteins for functional and structural studies.
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