Understanding the transcriptome through RNA structure

Yue Wan; Michael Kertesz; Robert C. Spitale; Eran Segal; Howard Y. Chang

doi:10.1038/nrg3049

Understanding the transcriptome through RNA structure

Yue Wan, Michael Kertesz, Robert C. Spitale, Eran Segal, Howard Y. Chang

Department of Computer Science and Applied Mathematics

Weizmann Institute of Science

Research output: Contribution to journal › Review article › peer-review

Abstract

RNA structure is crucial for gene regulation and function. In the past, transcriptomes have largely been parsed by primary sequences and expression levels, but it is now becoming feasible to annotate and compare transcriptomes based on RNA structure. In addition to computational prediction methods, the recent advent of experimental techniques to probe RNA structure by high-throughput sequencing has enabled genome-wide measurements of RNA structure and has provided the first picture of the structural organization of a eukaryotic transcriptome - the 'RNA structurome'. With additional advances in method refinement and interpretation, structural views of the transcriptome should help to identify and validate regulatory RNA motifs that are involved in diverse cellular processes and thereby increase understanding of RNA function.

Original language	English
Pages (from-to)	641-655
Number of pages	15
Journal	Nature Reviews Genetics
Volume	12
Issue number	9
DOIs	https://doi.org/10.1038/nrg3049
State	Published - Sep 2011

All Science Journal Classification (ASJC) codes

Genetics(clinical)
Genetics
Molecular Biology

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10.1038/nrg3049

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title = "Understanding the transcriptome through RNA structure",

abstract = "RNA structure is crucial for gene regulation and function. In the past, transcriptomes have largely been parsed by primary sequences and expression levels, but it is now becoming feasible to annotate and compare transcriptomes based on RNA structure. In addition to computational prediction methods, the recent advent of experimental techniques to probe RNA structure by high-throughput sequencing has enabled genome-wide measurements of RNA structure and has provided the first picture of the structural organization of a eukaryotic transcriptome - the 'RNA structurome'. With additional advances in method refinement and interpretation, structural views of the transcriptome should help to identify and validate regulatory RNA motifs that are involved in diverse cellular processes and thereby increase understanding of RNA function.",

author = "Yue Wan and Michael Kertesz and Spitale, \{Robert C.\} and Eran Segal and Chang, \{Howard Y.\}",

note = "US National Institutes of Health (NIH) [R01-HG004361]; Agency of Science, Technology and Research of Singapore; A.P. Giannini FoundationWe gratefully acknowledge the support of the US National Institutes of Health (NIH) (R01-HG004361), the Agency of Science, Technology and Research of Singapore (Y.W.) and the A.P. Giannini Foundation (R.C.S.). E. S. is the incumbent of the Soretta and Henry Shapiro career development chair. H.Y.C. is an Early Career Scientist of the Howard Hughes Medical Institute.",

year = "2011",

month = sep,

doi = "10.1038/nrg3049",

language = "الإنجليزيّة",

volume = "12",

pages = "641--655",

journal = "Nature Reviews Genetics",

issn = "1471-0056",

publisher = "Nature Research",

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AU - Wan, Yue

AU - Kertesz, Michael

AU - Spitale, Robert C.

AU - Segal, Eran

AU - Chang, Howard Y.

N1 - US National Institutes of Health (NIH) [R01-HG004361]; Agency of Science, Technology and Research of Singapore; A.P. Giannini FoundationWe gratefully acknowledge the support of the US National Institutes of Health (NIH) (R01-HG004361), the Agency of Science, Technology and Research of Singapore (Y.W.) and the A.P. Giannini Foundation (R.C.S.). E. S. is the incumbent of the Soretta and Henry Shapiro career development chair. H.Y.C. is an Early Career Scientist of the Howard Hughes Medical Institute.

PY - 2011/9

Y1 - 2011/9

N2 - RNA structure is crucial for gene regulation and function. In the past, transcriptomes have largely been parsed by primary sequences and expression levels, but it is now becoming feasible to annotate and compare transcriptomes based on RNA structure. In addition to computational prediction methods, the recent advent of experimental techniques to probe RNA structure by high-throughput sequencing has enabled genome-wide measurements of RNA structure and has provided the first picture of the structural organization of a eukaryotic transcriptome - the 'RNA structurome'. With additional advances in method refinement and interpretation, structural views of the transcriptome should help to identify and validate regulatory RNA motifs that are involved in diverse cellular processes and thereby increase understanding of RNA function.

AB - RNA structure is crucial for gene regulation and function. In the past, transcriptomes have largely been parsed by primary sequences and expression levels, but it is now becoming feasible to annotate and compare transcriptomes based on RNA structure. In addition to computational prediction methods, the recent advent of experimental techniques to probe RNA structure by high-throughput sequencing has enabled genome-wide measurements of RNA structure and has provided the first picture of the structural organization of a eukaryotic transcriptome - the 'RNA structurome'. With additional advances in method refinement and interpretation, structural views of the transcriptome should help to identify and validate regulatory RNA motifs that are involved in diverse cellular processes and thereby increase understanding of RNA function.

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U2 - 10.1038/nrg3049

DO - 10.1038/nrg3049

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SP - 641

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JO - Nature Reviews Genetics

JF - Nature Reviews Genetics

IS - 9

ER -

Understanding the transcriptome through RNA structure

Abstract

All Science Journal Classification (ASJC) codes

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