Photo-convertible fluorescent proteins (PCFPs) undergo a dramatic change in their excitation and emission spectra upon irradiation at specific wavelengths, thus rendering a different color. Dendra2 is a commercially available PCFP used to track the redistribution of proteins within cellular compartments, their life-time or interactions. Before photo-conversion Dendra2 exhibits green fluorescence, which becomes red after irradiation with either UV or blue lights. Multiple studies including Dendra2 as a molecular tool have been described in eukaryotes but not in filamentous fungi. Here we present a method to tag low-expression proteins from the filamentous fungus Aspergillus nidulans with Dendra2 and track their cellular dynamics. The regulator of asexual development FlbB was selected as control, a transcription factor that is expressed at low levels and can be used as a marker for the tip and nuclei of vegetative hyphae. This control provided us with a visual way to confirm the functionality of our genomic and plasmid constructs, since a non-functional FlbB protein renders a block in development and a characteristic aconidial phenotype. Our protocol combines standardized cloning and transformation procedures with the use of a mercury lamp microscope to convert and follow Dendra2 within cells. Hence, we present a rapid, simple and inexpensive method that makes tracking analysis of proteins that present technical difficulties to be followed feasible in filamentous fungi.
Keywords: Asexual development; Dendra2; Filamentous fungi; Growth; Photo-convertible tagging; Protein dynamics.
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