Litcius/Paper detail

A universal method for the rapid isolation of all known classes of functional silencing small RNAs

Thomas Grentzinger, Stefan Oberlin, Gregory Schott, Dominik Handler, Julia Svozil, Verónica Barragán‐Borrero, Adeline Humbert, Sandra Duharcourt, Julius Brennecke, Olivier Voinnet

2020Nucleic Acids Research63 citationsDOIOpen Access PDF

Abstract

Diverse classes of silencing small (s)RNAs operate via ARGONAUTE-family proteins within RNA-induced-silencing-complexes (RISCs). Here, we have streamlined various embodiments of a Q-sepharose-based RISC-purification method that relies on conserved biochemical properties of all ARGONAUTEs. We show, in multiple benchmarking assays, that the resulting 15-min benchtop extraction procedure allows simultaneous purification of all known classes of RISC-associated sRNAs without prior knowledge of the samples-intrinsic ARGONAUTE repertoires. Optimized under a user-friendly format, the method - coined 'TraPR' for Trans-kingdom, rapid, affordable Purification of RISCs - operates irrespectively of the organism, tissue, cell type or bio-fluid of interest, and scales to minute amounts of input material. The method is highly suited for direct profiling of silencing sRNAs, with TraPR-generated sequencing libraries outperforming those obtained via gold-standard procedures that require immunoprecipitations and/or lengthy polyacrylamide gel-selection. TraPR considerably improves the quality and consistency of silencing sRNA sample preparation including from notoriously difficult-to-handle tissues/bio-fluids such as starchy storage roots or mammalian plasma, and regardless of RNA contaminants or RNA degradation status of samples.

Topics & Concepts

ArgonauteBiologyGene silencingComputational biologyRNARNA-induced silencing complexPiwi-interacting RNASmall RNACell biologySmall interfering RNAGeneticsRNA interferenceGeneMicroRNA in disease regulationRNA modifications and cancerRNA Interference and Gene Delivery