Determination of isoform-specific RNA structure with nanopore long reads

Jong Ghut Ashley Aw; Shaun W. Lim; Jia Xu Wang; Finnlay R.P. Lambert; Wen Ting Tan; Yang Shen; Yu Zhang; Pornchai Kaewsapsak; Chenhao Li; Sarah B. Ng; Leah A. Vardy; Meng How Tan; Niranjan Nagarajan; Yue Wan

doi:10.1038/s41587-020-0712-z

Determination of isoform-specific RNA structure with nanopore long reads

Jong Ghut Ashley Aw, Shaun W. Lim, Jia Xu Wang, Finnlay R.P. Lambert, Wen Ting Tan, Yang Shen, Yu Zhang, Pornchai Kaewsapsak, Chenhao Li, Sarah B. Ng, Leah A. Vardy, Meng How Tan, Niranjan Nagarajan^*, Yue Wan^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

77 Citations (Scopus)

Abstract

Current methods for determining RNA structure with short-read sequencing cannot capture most differences between distinct transcript isoforms. Here we present RNA structure analysis using nanopore sequencing (PORE-cupine), which combines structure probing using chemical modifications with direct long-read RNA sequencing and machine learning to detect secondary structures in cellular RNAs. PORE-cupine also captures global structural features, such as RNA-binding-protein binding sites and reactivity differences at single-nucleotide variants. We show that shared sequences in different transcript isoforms of the same gene can fold into different structures, highlighting the importance of long-read sequencing for obtaining phase information. We also demonstrate that structural differences between transcript isoforms of the same gene lead to differences in translation efficiency. By revealing isoform-specific RNA structure, PORE-cupine will deepen understanding of the role of structures in controlling gene regulation.

Original language	English
Pages (from-to)	336-346
Number of pages	11
Journal	Nature Biotechnology
Volume	39
Issue number	3
DOIs	https://doi.org/10.1038/s41587-020-0712-z
Publication status	Published - Mar 2021
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2020, The Author(s), under exclusive licence to Springer Nature America, Inc.

ASJC Scopus Subject Areas

Biotechnology
Bioengineering
Applied Microbiology and Biotechnology
Molecular Medicine
Biomedical Engineering

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title = "Determination of isoform-specific RNA structure with nanopore long reads",

abstract = "Current methods for determining RNA structure with short-read sequencing cannot capture most differences between distinct transcript isoforms. Here we present RNA structure analysis using nanopore sequencing (PORE-cupine), which combines structure probing using chemical modifications with direct long-read RNA sequencing and machine learning to detect secondary structures in cellular RNAs. PORE-cupine also captures global structural features, such as RNA-binding-protein binding sites and reactivity differences at single-nucleotide variants. We show that shared sequences in different transcript isoforms of the same gene can fold into different structures, highlighting the importance of long-read sequencing for obtaining phase information. We also demonstrate that structural differences between transcript isoforms of the same gene lead to differences in translation efficiency. By revealing isoform-specific RNA structure, PORE-cupine will deepen understanding of the role of structures in controlling gene regulation.",

author = "Aw, {Jong Ghut Ashley} and Lim, {Shaun W.} and Wang, {Jia Xu} and Lambert, {Finnlay R.P.} and Tan, {Wen Ting} and Yang Shen and Yu Zhang and Pornchai Kaewsapsak and Chenhao Li and Ng, {Sarah B.} and Vardy, {Leah A.} and Tan, {Meng How} and Niranjan Nagarajan and Yue Wan",

note = "Publisher Copyright: {\textcopyright} 2020, The Author(s), under exclusive licence to Springer Nature America, Inc.",

year = "2021",

month = mar,

doi = "10.1038/s41587-020-0712-z",

language = "English",

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AU - Aw, Jong Ghut Ashley

AU - Lim, Shaun W.

AU - Wang, Jia Xu

AU - Lambert, Finnlay R.P.

AU - Tan, Wen Ting

AU - Shen, Yang

AU - Zhang, Yu

AU - Kaewsapsak, Pornchai

AU - Li, Chenhao

AU - Ng, Sarah B.

AU - Vardy, Leah A.

AU - Tan, Meng How

AU - Nagarajan, Niranjan

AU - Wan, Yue

PY - 2021/3

Y1 - 2021/3

N2 - Current methods for determining RNA structure with short-read sequencing cannot capture most differences between distinct transcript isoforms. Here we present RNA structure analysis using nanopore sequencing (PORE-cupine), which combines structure probing using chemical modifications with direct long-read RNA sequencing and machine learning to detect secondary structures in cellular RNAs. PORE-cupine also captures global structural features, such as RNA-binding-protein binding sites and reactivity differences at single-nucleotide variants. We show that shared sequences in different transcript isoforms of the same gene can fold into different structures, highlighting the importance of long-read sequencing for obtaining phase information. We also demonstrate that structural differences between transcript isoforms of the same gene lead to differences in translation efficiency. By revealing isoform-specific RNA structure, PORE-cupine will deepen understanding of the role of structures in controlling gene regulation.

AB - Current methods for determining RNA structure with short-read sequencing cannot capture most differences between distinct transcript isoforms. Here we present RNA structure analysis using nanopore sequencing (PORE-cupine), which combines structure probing using chemical modifications with direct long-read RNA sequencing and machine learning to detect secondary structures in cellular RNAs. PORE-cupine also captures global structural features, such as RNA-binding-protein binding sites and reactivity differences at single-nucleotide variants. We show that shared sequences in different transcript isoforms of the same gene can fold into different structures, highlighting the importance of long-read sequencing for obtaining phase information. We also demonstrate that structural differences between transcript isoforms of the same gene lead to differences in translation efficiency. By revealing isoform-specific RNA structure, PORE-cupine will deepen understanding of the role of structures in controlling gene regulation.

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Determination of isoform-specific RNA structure with nanopore long reads

Abstract

Bibliographical note

ASJC Scopus Subject Areas

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