RT Journal Article SR Electronic T1 DRUID: A pipeline for reproducible transcriptome-wide measurements of mRNA stability JF bioRxiv FD Cold Spring Harbor Laboratory SP 149195 DO 10.1101/149195 A1 Andrew Lugowski A1 Beth Nicholson A1 Olivia S. Rissland YR 2017 UL http://biorxiv.org/content/early/2017/06/12/149195.abstract AB Control of messenger RNA (mRNA) stability is an important aspect of gene regulation. The gold standard for measuring mRNA stability transcriptome-wide uses metabolic labeling, biochemical isolation of labeled RNA populations, and high-throughput sequencing. However, difficult normalization procedures and complex computational algorithms have inhibited widespread adoption of this approach. Here, we present DRUID (for Determination of Rates Using Intron Dynamics), a computational pipeline that is robust, easy to use, and freely available. Our pipeline uses endogenous introns to normalize time course data and yields more reproducible half-lives than other methods, even with datasets that were otherwise unusable. DRUID can handle datasets from a variety of organisms, spanning yeast to humans, and we even applied it retroactively on published datasets. We anticipate that DRUID will allow broad application of metabolic labeling for studies of mRNA stability.