1. The mRNA-Bound Proteome and Its Global Occupancy Profile on Protein-Coding Transcripts
- Author
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Baltz, Alexander G., Munschauer, Mathias, Schwanhäusser, Björn, Vasile, Alexandra, Murakawa, Yasuhiro, Schueler, Markus, Youngs, Noah, Penfold-Brown, Duncan, Drew, Kevin, Milek, Miha, Wyler, Emanuel, Bonneau, Richard, Selbach, Matthias, Dieterich, Christoph, and Landthaler, Markus
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MESSENGER RNA , *RNA-protein interactions , *RNA splicing , *PROTEOMICS , *GENETIC polymorphisms , *GENE expression - Abstract
Summary: Protein-RNA interactions are fundamental to core biological processes, such as mRNA splicing, localization, degradation, and translation. We developed a photoreactive nucleotide-enhanced UV crosslinking and oligo(dT) purification approach to identify the mRNA-bound proteome using quantitative proteomics and to display the protein occupancy on mRNA transcripts by next-generation sequencing. Application to a human embryonic kidney cell line identified close to 800 proteins. To our knowledge, nearly one-third were not previously annotated as RNA binding, and about 15% were not predictable by computational methods to interact with RNA. Protein occupancy profiling provides a transcriptome-wide catalog of potential cis-regulatory regions on mammalian mRNAs and showed that large stretches in 3′ UTRs can be contacted by the mRNA-bound proteome, with numerous putative binding sites in regions harboring disease-associated nucleotide polymorphisms. Our observations indicate the presence of a large number of mRNA binders with diverse molecular functions participating in combinatorial posttranscriptional gene-expression networks. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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