A user-friendly chromatographic method to purify small regulatory RNAs.
Methods (San Diego, Calif.). 2014 May 1;67(1):91-101.
- Abstract
- The discovery of the small regulatory RNAs has changed our vision of cellular regulations. Indeed, when loaded on Argonaute proteins they form ribonucleoprotein complexes (RNPs) that target complementary sequences to achieve widespread silencing mechanisms conserved in most eukaryotes. The recent development of deep sequencing approaches highly contributed to their detection. Small RNA isolation from cells and/or tissues remains a crucial stage to generate robust and relevant sequencing data. In 2006, a novel strategy based on anion-exchange chromatography has been proposed as an alternative to the standard size-isolation purification procedure. Using bioinformatic comparative analysis, we here demonstrate that anion-exchange chromatographic RNP purification prior to small RNA extraction unbiasedly enriches datasets in bona fide reads (small regulatory RNA sequences) and depletes endogenous contaminants (ribosomal RNAs and degradation RNA products). The resulting increase in sequencing depth provides a major benefit to study rare populations. We then developed a fast and basic manual procedure to purify such small non-coding RNAs using anion-exchange chromatography at the bench. We validated the efficiency of this new method and used this strategy to purify small RNAs from various tissues and organisms. We moreover determined that our manual purification increases the output of the previously described anion-exchange chromatography procedure.
- Consortium data used in this publication
- modENCODE Fly RNA
- References