Abstract
Mitochondria are essential organelles that generate energy and play vital roles in cellular metabolism. The small circular mitochondrial genome encodes key components of the mitochondrial respiratory apparatus. Depletion of, or mutations in mitochondrial DNA (mtDNA) cause mitochondrial dysfunction and disease. mtDNA is packaged into nucleoids, which are transported throughout the cell within mitochondria. Efficient transport of nucleoids is essential in neurons, where mitochondrial function is required locally at synapses. Here I describe methods for visualization of nucleoids in Drosophila neurons using a GFP fusion of the mitochondrial transcription factor TFAM. TFAM-GFP, together with mCherry-labeled mitochondria, was used to visualize nucleoids in fixed larval segmental nerves. I also describe how these tools can be used for live imaging of nucleoid dynamics. Using Drosophila as a model system, these methods will enable further characterization and analysis of nucleoid dynamics in neurons.
