Abstract
The incorporation of nucleoside analogs is a useful tool to study the various functions of DNA and RNA. These analogs can be detected directly by fluorescence or by immunolabeling, allowing to visualize, track, or measure the nucleic acid molecules in which they have been incorporated. In this chapter, methodologies to measure human mitochondrial transcription are described. The nascent RNA that is transcribed from mitochondrial DNA (mtDNA) has been shown to assemble into large ribonucleoprotein complexes that form discrete foci. These structures were called mitochondrial RNA granules (MRGs) and can be observed in vitro by the incorporation of a 5-Bromouridine (BrU), which is subsequently visualized by fluorescent immunolabeling. Here, a combined protocol for the MRGs detection is detailed, consisting of BrU labeling and visualization of one of their bona fide protein components, Fas-activated serine-threonine kinase domain 2 (FASTKD2). Based on immunodetection, the half-life and kinetics of the MRGs under various experimental conditions can further be determined by chasing the BrU pulse with an excess of Uridine.
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