Literature DB >> 30607034

Comprehensive identification of RNA-protein interactions in any organism using orthogonal organic phase separation (OOPS).

Rayner M L Queiroz1, Tom Smith1, Eneko Villanueva2, Maria Marti-Solano3, Mie Monti1, Mariavittoria Pizzinga4, Dan-Mircea Mirea1, Manasa Ramakrishna4, Robert F Harvey4, Veronica Dezi4, Gavin H Thomas5, Anne E Willis4, Kathryn S Lilley6.   

Abstract

Existing high-throughput methods to identify RNA-binding proteins (RBPs) are based on capture of polyadenylated RNAs and cannot recover proteins that interact with nonadenylated RNAs, including long noncoding RNA, pre-mRNAs and bacterial RNAs. We present orthogonal organic phase separation (OOPS), which does not require molecular tagging or capture of polyadenylated RNA, and apply it to recover cross-linked protein-RNA and free protein, or protein-bound RNA and free RNA, in an unbiased way. We validated OOPS in HEK293, U2OS and MCF10A human cell lines, and show that 96% of proteins recovered were bound to RNA. We show that all long RNAs can be cross-linked to proteins, and recovered 1,838 RBPs, including 926 putative novel RBPs. OOPS is approximately 100-fold more efficient than existing methods and can enable analyses of dynamic RNA-protein interactions. We also characterize dynamic changes in RNA-protein interactions in mammalian cells following nocodazole arrest, and present a bacterial RNA-interactome for Escherichia coli. OOPS is compatible with downstream proteomics and RNA sequencing, and can be applied in any organism.

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Year:  2019        PMID: 30607034      PMCID: PMC6591131          DOI: 10.1038/s41587-018-0001-2

Source DB:  PubMed          Journal:  Nat Biotechnol        ISSN: 1087-0156            Impact factor:   54.908


  87 in total

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