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Abstract
The development of green fluorescent protein (GFP) technology combined with live cell microscopy techniques have revealed the dynamic properties of GFP-tagged proteins in the nucleus. The mobility of a GFP-tagged protein can be assessed using a quantitative photobleaching technique, fluorescence recovery after photobleaching (FRAP) analysis. FRAP experiments demonstrate that many nuclear proteins are highly mobile within the nucleus. However, the factors within the nucleus that regulate this mobility are not known. This is partly due to an absence of protocols that can be used to identify such nuclear mobility factors. We developed a novel in situ assay that combines a biochemical permeabilization and extraction procedure with a quantitative FRAP technique, a method we used to uncover a new functional role for molecular chaperones in the nuclear mobility of steroid receptors. This assay can readily be adapted to identify and characterize other nuclear mobility factors.