6533b7dafe1ef96bd126d7fe
RESEARCH PRODUCT
GFP immunogold staining, from light to electron microscopy, in mammalian cells.
Mario Soriano-navarroClara Alfaro-cervelloM. Salomé Sirerol-piquerUlises Gómez-pinedoJosé-manuel García VerdugoArantxa Cebrián-sillasubject
Staining and LabelingGreen Fluorescent ProteinsGeneral Physics and AstronomyHigh resolutionCell BiologyImmunogold labellingCell lineageBiologyProtein subcellular localization predictionMolecular biologyImmunohistochemistrylaw.inventionGreen fluorescent proteinStructural BiologylawColloidal goldBiophysicsUltrastructureAnimalsHumansGeneral Materials ScienceElectron microscopeFluorescent Dyesdescription
GFP has emerged as an important reporter for monitoring gene expression, protein localization, cell transformation and cell lineage. The development of GFP as a marker in many different biological systems has emphasized the need to image GFP at high resolution. GFP immunogold labeling with colloidal gold particles becomes essential for electron microscopy (EM) ultrastructural detection. Because of the small size, colloidal gold particles require silver enhancement, a procedure to increase the size of the particle as well as gold toning to stabilize the silver layer. GFP preembedding immunogold staining enables high quality cellular-ultrastructural EM analysis mainly for two reasons, on one hand it allows adequate fixation for EM analysis maintaining GFP antigenicity, on the other hand it also enables the epoxy resins inclusion after immunogold staining. Both of them help to preserve better the ultrastructure. However GFP immunogold staining presents some drawbacks, such as the progressive decrease in immunogold labeling with tissue depth. Special attention must be taken when using GFP-tagged protein, since the fusion could interfere with their localization and function. In this review we provide a detailed protocol of the GFP immunogold staining, their main applications for EM and possible troubles.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2012-04-01 | Micron (Oxford, England : 1993) |