Eukaryotic RNA synthesis and degradation are intricately regulated, impacting on gene expression dynamics. RNA stability varies in individual transcripts and is modulated by trans-acting factors such as microRNAs, long noncoding RNAs, and RNA-binding proteins, which determine protein output and subsequent cellular processes. To measure RNA decay rate, accurate and reliable methodologies are essential in the field of RNA biology. Transcription inhibition and metabolic labeling enable comprehensive investigations on RNA decay, offering critical insights into dynamic regulation of RNA decay. Transcription shut-off has been employed widely by using various approaches, such as treatment with chemical inhibitors or generation of temperature-sensitive mutants of RNA polymerases. However, it has limitations, providing a static view and lacking real-time dynamics as well as precise measurement of decay rate. Metabolic labeling, a method of incorporating modified nucleotides into RNA transcripts, complements shut-off approaches, allowing selective monitoring of newly synthesized RNA and tracing decay intermediates. The purpose of the protocol described in this chapter is to assess the kinetics and statics of newly synthesized RNA and its decay by 5-ethynyl uridine labeling.
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