Journal article

SnapShot-Seq: A method for extracting genome-wide, in Vivo mRNA dynamics from a single total RNA sample

JM Gray, DA Harmin, SA Boswell, N Cloonan, TE Mullen, JJ Ling, N Miller, S Kuersten, YC Ma, SA McCarroll, SM Grimmond, M Springer

Plos One | Published : 2014

Open access

Abstract

mRNA synthesis, processing, and destruction involve a complex series of molecular steps that are incompletely understood. Because the RNA intermediates in each of these steps have finite lifetimes, extensive mechanistic and dynamical information is encoded in total cellular RNA. Here we report the development of SnapShot-Seq, a set of computational methods that allow the determination of in vivo rates of pre-mRNA synthesis, splicing, intron degradation, and mRNA decay from a single RNA-Seq snapshot of total cellular RNA. SnapShot-Seq can detect in vivo changes in the rates of specific steps of splicing, and it provides genome-wide estimates of pre-mRNA synthesis rates comparable to those obt..

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University of Melbourne Researchers

Grants

Awarded by National Institute of Mental Health


Funding Acknowledgements

This work was supported by National Institute of Health Grant 1 R01 MH101528-01 (J.M.G). N.M. and Y.C. M. are supported by grants from the Whitehall Foundation and Families of SMA. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.