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PAR-CliP - a method to identify transcriptome-wide the binding sites of RNA binding proteins

Item Type:Article
Title:PAR-CliP - a method to identify transcriptome-wide the binding sites of RNA binding proteins
Creators Name:Hafner, M. and Landthaler, M. and Burger, L. and Khorshid, M. and Hausser, J. and Berninger, P. and Rothballer, A. and Ascano, M. and Jungkamp, A.C. and Munschauer, M. and Ulrich, A. and Wardle, G.S. and Dewell, S. and Zavolan, M. and Tuschl, T.
Abstract:RNA transcripts are subjected to post-transcriptional gene regulation by interacting with hundreds of RNA-binding proteins (RBPs) and microRNA-containing ribonucleoprotein complexes (miRNPs) that are often expressed in a cell-type dependently. To understand how the interplay of these RNA-binding factors affects the regulation of individual transcripts, high resolution maps of in vivo protein-RNA interactions are necessary(1). A combination of genetic, biochemical and computational approaches are typically applied to identify RNA-RBP or RNA-RNP interactions. Microarray profiling of RNAs associated with immunopurified RBPs (RIP-Chip)(2) defines targets at a transcriptome level, but its application is limited to the characterization of kinetically stable interactions and only in rare cases(3,4) allows to identify the RBP recognition element (RRE) within the long target RNA. More direct RBP target site information is obtained by combining in vivo UV crosslinking(5,6) with immunoprecipitation(7-9) followed by the isolation of crosslinked RNA segments and cDNA sequencing (CLIP)(10). CLIP was used to identify targets of a number of RBPs(11-17). However, CLIP is limited by the low efficiency of UV 254 nm RNA-protein crosslinking, and the location of the crosslink is not readily identifiable within the sequenced crosslinked fragments, making it difficult to separate UV-crosslinked target RNA segments from background non-crosslinked RNA fragments also present in the sample. We developed a powerful cell-based crosslinking approach to determine at high resolution and transcriptome-wide the binding sites of cellular RBPs and miRNPs that we term PAR-CliP (Photoactivatable-Ribonucleoside-Enhanced Crosslinking and Immunoprecipitation) (see Fig. 1A for an outline of the method). The method relies on the incorporation of photoreactive ribonucleoside analogs, such as 4-thiouridine (4-SU) and 6-thioguanosine (6-SG) into nascent RNA transcripts by living cells. Irradiation of the cells by UV light of 365 nm induces efficient crosslinking of photoreactive nucleoside-labeled cellular RNAs to interacting RBPs. Immunoprecipitation of the RBP of interest is followed by isolation of the crosslinked and coimmunoprecipitated RNA. The isolated RNA is converted into a cDNA library and deep sequenced using Solexa technology. One characteristic feature of cDNA libraries prepared by PAR-CliP is that the precise position of crosslinking can be identified by mutations residing in the sequenced cDNA. When using 4-SU, crosslinked sequences thymidine to cytidine transition, whereas using 6-SG results in guanosine to adenosine mutations. The presence of the mutations in crosslinked sequences makes it possible to separate them from the background of sequences derived from abundant cellular RNAs. Application of the method to a number of diverse RNA binding proteins was reported in Hafner et al.(18).
Keywords:Binding Sites, Cross-Linking Reagents, Gene Expression Profiling, Immunoprecipitation, MicroRNAs, Photochemical Processes, RNA-Binding Proteins, Ribonucleoproteins, Ribonucleosides
Source:Journal of Visualized Experiments
ISSN:1940-087X
Publisher:JoVE (U.S.A.)
Volume:41
Number:2034
Page Range:e2034
Date:2 July 2010
Official Publication:https://doi.org/10.3791/2034
PubMed:View item in PubMed

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