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Similarly, RNA-protein interactions are required for an equally diverse set of biological functions, and hundreds of RNA-binding proteins have been identified. It is frequently interesting to isolate protein-RNA complexes, remove the protein, and sequence the resulting RNA. The methods involve combine components of RNA-seq, because the underlying molecule is RNA, and chromatin immunoprecipitation (ChIP), because the most common mechanism to isolate a protein-RNA complex is with an antibody raised against a fragment of the protein of interest. Below is a sample protocol flow for a RIP-seq experiment.
Zhao J, Ohsumi TK, Kung JT, et al. Genome-wide identification of polycomb-associated RNAs by RIP-seq. Mol Cell. 2010;40(6):939-53.
For "normal" RIP-seq, one usually expects to recover full RNA molecules regardless of where on an RNA molecule the protein was bound, since all of it is 'pulled down' together. However, such protocols generally do not use any chemical or physical means to covalently attach the RNA to the protein, which allows for the possibility that the RNA and protein complexes disassociate and re-associate from each other during sample preparation (there have been published papers that claim this - see here). Moreover, proteins will often bind to specific RNA sequence motifs or positions, and retrieval of the full RNA molecule provides no information about the specific binding site. To accommodate these concerns, methods have been developed to cross-link protein to RNA in a way that leaves a signature of interaction where the protein and RNA actually come into contact. Below is a table of the three methods that modify the RNA in various ways to enable binding site detection by sequencing.
König J, Zarnack K, Luscombe NM, Ule J. Protein-RNA interactions: new genomic technologies and perspectives. Nat Rev Genet. 2011;13(2):77-83.
In our second exercise, we will use a recently developed tool to analyze some sample PARCLIP data to identify specific binding sites of a protein across the entire human transcriptome.
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