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Literature DB >> 26575240

Progress and challenges for chemical probing of RNA structure inside living cells.

Miles Kubota¹, Catherine Tran¹, Robert C Spitale¹.

Abstract

Proper gene expression is essential for the survival of every cell. Once thought to be a passive transporter of genetic information, RNA has recently emerged as a key player in nearly every pathway in the cell. A full description of its structure is critical to understanding RNA function. Decades of research have focused on utilizing chemical tools to interrogate the structures of RNAs, with recent focus shifting to performing experiments inside living cells. This Review will detail the design and utility of chemical reagents used in RNA structure probing. We also outline how these reagents have been used to gain a deeper understanding of RNA structure in vivo. We review the recent merger of chemical probing with deep sequencing. Finally, we outline some of the hurdles that remain in fully characterizing the structure of RNA inside living cells, and how chemical biology can uniquely tackle such challenges.

Entities: Chemical Disease Gene Species

Mesh：

Substances：
Molecular Probes
RNA

Year: 2015 PMID： 26575240 PMCID： PMC5068366 DOI： 10.1038/nchembio.1958

Source DB: PubMed Journal: Nat Chem Biol ISSN： 1552-4450 Impact factor: 15.040

92 in total

1. Unusual resistance of peptidyl transferase to protein extraction procedures.

Authors: H F Noller; V Hoffarth; L Zimniak
Journal: Science Date: 1992-06-05 Impact factor: 47.728

Review 2. RNA folding during transcription.

Authors: Tao Pan; Tobin Sosnick
Journal: Annu Rev Biophys Biomol Struct Date: 2006

Progress and challenges for chemical probing of RNA structure inside living cells.

1. Unusual resistance of peptidyl transferase to protein extraction procedures.

Review 2. RNA folding during transcription.

Review 3. Towards understanding RNA-mediated neurological disorders.

4. In-cell SHAPE reveals that free 30S ribosome subunits are in the inactive state.

5. StructureFold: genome-wide RNA secondary structure mapping and reconstruction in vivo.

6. Specific contacts between protein S4 and ribosomal RNA are required at multiple stages of ribosome assembly.

7. Transcriptional pausing coordinates folding of the aptamer domain and the expression platform of a riboswitch.

8. High-throughput SHAPE and hydroxyl radical analysis of RNA structure and ribonucleoprotein assembly.

9. mRNA secondary structures fold sequentially but exchange rapidly in vivo.

10. SeqFold: genome-scale reconstruction of RNA secondary structure integrating high-throughput sequencing data.

Review 1. Methods to identify and optimize small molecules interacting with RNA (SMIRNAs).

Review 2. Measuring RNA structure transcriptome-wide with icSHAPE.

3. Robust statistical modeling improves sensitivity of high-throughput RNA structure probing experiments.

Review 4. Principles of 60S ribosomal subunit assembly emerging from recent studies in yeast.

Review 5. Functional 5' UTR mRNA structures in eukaryotic translation regulation and how to find them.

6. RNA G-quadruplexes are globally unfolded in eukaryotic cells and depleted in bacteria.

7. Extensive Structural Differences of Closely Related 3' mRNA Isoforms: Links to Pab1 Binding and mRNA Stability.

8. Nucleobase mutants of a bacterial preQ₁-II riboswitch that uncouple metabolite sensing from gene regulation.

9. Probing the structure of ribosome assembly intermediates in vivo using DMS and hydroxyl radical footprinting.

10. Evolving insights into RNA modifications and their functional diversity in the brain.