Accurate detection of m6A RNA modifications in native RNA sequences

Huanle Liu; Oguzhan Begik; Morghan C Lucas; Jose Miguel Ramirez; Christopher E Mason; David Wiener; Schraga Schwartz; John S Mattick; Martin A Smith; Eva Maria Novoa

doi:10.1038/s41467-019-11713-9

Accurate detection of m6A RNA modifications in native RNA sequences

Huanle Liu, Oguzhan Begik, Morghan C Lucas, Jose Miguel Ramirez, Christopher E Mason, David Wiener, Schraga Schwartz, John S Mattick, Martin A Smith, Eva Maria Novoa

Department of Molecular Genetics

Weizmann Institute of Science

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

Abstract

The epitranscriptomics field has undergone an enormous expansion in the last few years; however, a major limitation is the lack of generic methods to map RNA modifications transcriptome-wide. Here, we show that using direct RNA sequencing, N6-methyladenosine (m6A) RNA modifications can be detected with high accuracy, in the form of systematic errors and decreased base-calling qualities. Specifically, we find that our algorithm, trained with m6A-modified and unmodified synthetic sequences, can predict m6A RNA modifications with ~90% accuracy. We then extend our findings to yeast data sets, finding that our method can identify m6A RNA modifications in vivo with an accuracy of 87%. Moreover, we further validate our method by showing that these 'errors' are typically not observed in yeast ime4-knockout strains, which lack m6A modifications. Our results open avenues to investigate the biological roles of RNA modifications in their native RNA context.

Original language	English
Article number	4079
Number of pages	9
Journal	Nature Communications
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41467-019-11713-9
State	Published - 9 Sep 2019

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry,Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-019-11713-9License: CC BY

Cite this

@article{1c0010a180bc455a9649d3c7c00152ad,

title = "Accurate detection of m6A RNA modifications in native RNA sequences",

abstract = "The epitranscriptomics field has undergone an enormous expansion in the last few years; however, a major limitation is the lack of generic methods to map RNA modifications transcriptome-wide. Here, we show that using direct RNA sequencing, N6-methyladenosine (m6A) RNA modifications can be detected with high accuracy, in the form of systematic errors and decreased base-calling qualities. Specifically, we find that our algorithm, trained with m6A-modified and unmodified synthetic sequences, can predict m6A RNA modifications with \textasciitilde{}90\% accuracy. We then extend our findings to yeast data sets, finding that our method can identify m6A RNA modifications in vivo with an accuracy of 87\%. Moreover, we further validate our method by showing that these 'errors' are typically not observed in yeast ime4-knockout strains, which lack m6A modifications. Our results open avenues to investigate the biological roles of RNA modifications in their native RNA context.",

author = "Huanle Liu and Oguzhan Begik and Lucas, \{Morghan C\} and Ramirez, \{Jose Miguel\} and Mason, \{Christopher E\} and David Wiener and Schraga Schwartz and Mattick, \{John S\} and Smith, \{Martin A\} and Novoa, \{Eva Maria\}",

note = "O.B. is supported by an international PhD fellowship (UIPA) from the University of New South Wales. M.C.L. is supported by CRG International PhD Fellowships Programme. E.M.N was supported by a DECRA fellowship from the Australian Research Council (DE170100506) and is currently supported by CRG Severo Ochoa Funding. This work was funded by the Australian Research Council (DP180103571). We acknowledge the support of the Spanish Ministry of Economy, Industry and Competitiveness (MEIC) to the EMBL partnership, Centro de Excelencia Severo Ochoa and CERCA Programme/Generalitat de Catalunya. C.E.M thanks funding from the Bert L and N Kuggie Vallee Foundation, the WorldQuant Foundation, The Pershing Square Sohn Cancer Research Alliance, NASA (NNX14AH50G, NNX17AB26G), the National Institutes of Health (R01ES021006, 1R21AI129851, and 1R01MH117406), the Bill and Melinda Gates Foundation (OPP1151054), the Leukemia and Lymphoma Society grants (LLS 9238-16, LLS-MCL-982). We would like to thank James Ferguson for all his helpful comments, as well as for giving us early access to his fast5 processing toolkit (https://github.com/Psy-Fer/fast5\_fetcher). Author contributions H.L. performed the bioinformatics analysis, together with E.M.N. O.B. and M.C.L. performed the experimental work including the preparation and running of the direct RNA sequencing libraries. J.M.R. performed base-caller comparison analyses. D.W. performed the yeast culturing and mRNA purification. H.L., O.B., M.C.L., and E.M.N. prepared the figures. E.M.N. and M.A.S. conceived the project. E.M.N. supervised the project, with contribution of S.S., C.E.M., J.M., and M.A.S. H.L., O.B., and E.M.N. wrote the manuscript, with the contribution of all authors.",

year = "2019",

month = sep,

day = "9",

doi = "10.1038/s41467-019-11713-9",

language = "الإنجليزيّة",

volume = "10",

journal = "Nature Communications",

issn = "2041-1723",

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TY - JOUR

T1 - Accurate detection of m6A RNA modifications in native RNA sequences

AU - Liu, Huanle

AU - Begik, Oguzhan

AU - Lucas, Morghan C

AU - Ramirez, Jose Miguel

AU - Mason, Christopher E

AU - Wiener, David

AU - Schwartz, Schraga

AU - Mattick, John S

AU - Smith, Martin A

AU - Novoa, Eva Maria

N1 - O.B. is supported by an international PhD fellowship (UIPA) from the University of New South Wales. M.C.L. is supported by CRG International PhD Fellowships Programme. E.M.N was supported by a DECRA fellowship from the Australian Research Council (DE170100506) and is currently supported by CRG Severo Ochoa Funding. This work was funded by the Australian Research Council (DP180103571). We acknowledge the support of the Spanish Ministry of Economy, Industry and Competitiveness (MEIC) to the EMBL partnership, Centro de Excelencia Severo Ochoa and CERCA Programme/Generalitat de Catalunya. C.E.M thanks funding from the Bert L and N Kuggie Vallee Foundation, the WorldQuant Foundation, The Pershing Square Sohn Cancer Research Alliance, NASA (NNX14AH50G, NNX17AB26G), the National Institutes of Health (R01ES021006, 1R21AI129851, and 1R01MH117406), the Bill and Melinda Gates Foundation (OPP1151054), the Leukemia and Lymphoma Society grants (LLS 9238-16, LLS-MCL-982). We would like to thank James Ferguson for all his helpful comments, as well as for giving us early access to his fast5 processing toolkit (https://github.com/Psy-Fer/fast5_fetcher). Author contributions H.L. performed the bioinformatics analysis, together with E.M.N. O.B. and M.C.L. performed the experimental work including the preparation and running of the direct RNA sequencing libraries. J.M.R. performed base-caller comparison analyses. D.W. performed the yeast culturing and mRNA purification. H.L., O.B., M.C.L., and E.M.N. prepared the figures. E.M.N. and M.A.S. conceived the project. E.M.N. supervised the project, with contribution of S.S., C.E.M., J.M., and M.A.S. H.L., O.B., and E.M.N. wrote the manuscript, with the contribution of all authors.

PY - 2019/9/9

Y1 - 2019/9/9

N2 - The epitranscriptomics field has undergone an enormous expansion in the last few years; however, a major limitation is the lack of generic methods to map RNA modifications transcriptome-wide. Here, we show that using direct RNA sequencing, N6-methyladenosine (m6A) RNA modifications can be detected with high accuracy, in the form of systematic errors and decreased base-calling qualities. Specifically, we find that our algorithm, trained with m6A-modified and unmodified synthetic sequences, can predict m6A RNA modifications with ~90% accuracy. We then extend our findings to yeast data sets, finding that our method can identify m6A RNA modifications in vivo with an accuracy of 87%. Moreover, we further validate our method by showing that these 'errors' are typically not observed in yeast ime4-knockout strains, which lack m6A modifications. Our results open avenues to investigate the biological roles of RNA modifications in their native RNA context.

AB - The epitranscriptomics field has undergone an enormous expansion in the last few years; however, a major limitation is the lack of generic methods to map RNA modifications transcriptome-wide. Here, we show that using direct RNA sequencing, N6-methyladenosine (m6A) RNA modifications can be detected with high accuracy, in the form of systematic errors and decreased base-calling qualities. Specifically, we find that our algorithm, trained with m6A-modified and unmodified synthetic sequences, can predict m6A RNA modifications with ~90% accuracy. We then extend our findings to yeast data sets, finding that our method can identify m6A RNA modifications in vivo with an accuracy of 87%. Moreover, we further validate our method by showing that these 'errors' are typically not observed in yeast ime4-knockout strains, which lack m6A modifications. Our results open avenues to investigate the biological roles of RNA modifications in their native RNA context.

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U2 - 10.1038/s41467-019-11713-9

DO - 10.1038/s41467-019-11713-9

M3 - مقالة

C2 - 31501426

SN - 2041-1723

VL - 10

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 4079

ER -

Accurate detection of m6A RNA modifications in native RNA sequences

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