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Dynamic landscape of RNA structures in vivo reveals principles of post-transcriptional regulation [icSHAPE]


ABSTRACT: Visualizing the physical basis for molecular behavior inside living cells is a grand challenge in biology. RNAs are central to biological regulation, and RNA’s ability to adopt specific structures intimately controls every step of the gene expression program.1 However, our understanding of physiological RNA structures is limited; current in vivo RNA structure profiles predominantly viewed only two of four nucleotides that make up RNA.2,3 Here we present a novel biochemical approach, In Vivo Click SHAPE (icSHAPE), that enables the first global view of RNA secondary structures of all four bases in living cells. icSHAPE of embryonic stem cell transcriptome versus purified RNA folded in vitro shows that the structural dynamics of RNA in the cellular environment distinguishes different classes of RNAs and regulatory elements. Structural signatures at translational start sites and ribosome pause sites are conserved in vitro, suggesting that these RNA elements are programmed by sequence. In contrast, focal structural rearrangements in vivo reveal precise interfaces of RNA with RNA binding or modification proteins that are consistent with atomic-resolution structural data. Such dynamic structural footprints enable accurate prediction of RNA-protein interactions and N6-methyladenosine (m6A) modification genome-wide. These results open the door for structural genomics of RNA in living cells and reveal key physiological structures controlling gene expression.

ORGANISM(S): Mus musculus

PROVIDER: GSE60034 | GEO | 2015/03/18

SECONDARY ACCESSION(S): PRJNA257310

REPOSITORIES: GEO

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