Direct observation of fluorescent proteins in gels: a rapid cost-efficient, and quantitative alternative to immunoblotting
Abstract
The discovery of Green Fluorescent Protein (GFP) and its derivatives has revolutionized cell biology. These fluorescent proteins (FPs) have enabled the real-time observation of protein localization and dynamics within live cells. Applications of FP vary from monitoring gene/protein expression patterns, visualizing protein-protein interactions, measuring protein stability, assessing protein mobility and creating biosensors. The utility of FPs also extends to biochemical approaches through immunoblotting and proteomic analyses, aided by anti-FP antibodies and nanobodies. FPs are notoriously robust proteins with a tightly folded domain that confers a strong stability and a relative resistance to degradation and denaturation. In this study, we report that various green and red FPs can be maintained in a native, fluorescent form during the entire process of protein sample extraction, incubation with sample buffer, loading and migration on SDS-PAGE with only minor adaptations of traditional protocols. This protocol results in the ability to detect and quantify in-gel fluorescence (IGF) of endogenously-expressed proteins tagged with FPs directly after migration, using standard fluorescence-imaging devices. This approach eliminates the need for antibodies and chemiluminescent reagents, as well as the time-consuming steps inherent to immunoblotting such as transfer onto a membrane and antibody incubations. Overall, IGF detection provides clearer data with less background interference, a sensitivity comparable or better to antibody-based detection, a better quantification and a broader dynamic range. After fluorescence imaging, gels can still be used for other applications such as total protein staining or immunoblotting if needed. It also expands possibilities by allowing the detection of FPs for which antibodies are not available. Our study explores the feasibility, limitations, and applications of IGF for detecting endogenously expressed proteins in cell extracts, providing insights into sample preparation, imaging conditions, and sensitivity optimizations, and potential applications such as co-immunoprecipitation experiments.
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