DirectRM: integrated detection of landscape and crosstalk between multiple RNA modifications using direct RNA sequencing

Yuxin Zhang; Yuecheng Wu; Jiongming Ma; Yiyu Wu; Liying Li; Haozhe Wang; Guifang Jia; Daniel J. Rigden; Jia Meng; Daiyun Huang; Kunqi Chen

doi:10.1038/s41467-025-64495-8

DirectRM: integrated detection of landscape and crosstalk between multiple RNA modifications using direct RNA sequencing

Yuxin Zhang
, Yuecheng Wu
, Jiongming Ma
, Yiyu Wu
, Liying Li
, Haozhe Wang
, Guifang Jia
, Daniel J. Rigden
, Jia Meng^*
, Daiyun Huang^*
, Kunqi Chen^*

^*Corresponding author for this work

Xi'an Jiaotong-Liverpool University

Fujian Medical University
Xi'an Jiaotong-Liverpool University
University of Liverpool
Suzhou Key Municipal Lab of Neuroscience and Cell Signaling
Institute of Systems
Peking University
Wisdom Lake Academy of Pharmacy

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

5 Citations (Scopus)

Abstract

Profiling RNA modifications is essential to understand their functions and interactions. By taking the advantages of nanopore direct RNA sequencing, we present DirectRM, enabling simultaneous detection of six abundant modifications (N4-acetylcytidine, 1-methyladenosine, 5-methylcytidine, N7-methlguanosine, N6-methyladenosine, and pseudouridine) in native RNAs. Its two-stage pipeline identifies candidate modified kmers using binary classifier, then determines specific modifications and positions using an attention-based neural network. Trained with molecule-level features extracted from native RNA samples and validated on human cell lines and viral RNAs, DirectRM demonstrates high sensitivity, precision and robustness, outperforming existing tools. Crucially, we reveal the associations between modifications at both transcript and molecule-level. Modifications tend to proximate to each other on the transcript level, while at the molecule level, the presence of one modification is likely to reduce the occurrence of modifications at adjacent positions. DirectRM offers a powerful approach for studying epitranscriptome complexity and is expandable for future research.

Original language	English
Article number	9450
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-64495-8
Publication status	Published - Dec 2025

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title = "DirectRM: integrated detection of landscape and crosstalk between multiple RNA modifications using direct RNA sequencing",

abstract = "Profiling RNA modifications is essential to understand their functions and interactions. By taking the advantages of nanopore direct RNA sequencing, we present DirectRM, enabling simultaneous detection of six abundant modifications (N4-acetylcytidine, 1-methyladenosine, 5-methylcytidine, N7-methlguanosine, N6-methyladenosine, and pseudouridine) in native RNAs. Its two-stage pipeline identifies candidate modified kmers using binary classifier, then determines specific modifications and positions using an attention-based neural network. Trained with molecule-level features extracted from native RNA samples and validated on human cell lines and viral RNAs, DirectRM demonstrates high sensitivity, precision and robustness, outperforming existing tools. Crucially, we reveal the associations between modifications at both transcript and molecule-level. Modifications tend to proximate to each other on the transcript level, while at the molecule level, the presence of one modification is likely to reduce the occurrence of modifications at adjacent positions. DirectRM offers a powerful approach for studying epitranscriptome complexity and is expandable for future research.",

author = "Yuxin Zhang and Yuecheng Wu and Jiongming Ma and Yiyu Wu and Liying Li and Haozhe Wang and Guifang Jia and Rigden, \{Daniel J.\} and Jia Meng and Daiyun Huang and Kunqi Chen",

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doi = "10.1038/s41467-025-64495-8",

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AU - Zhang, Yuxin

AU - Wu, Yuecheng

AU - Ma, Jiongming

AU - Wu, Yiyu

AU - Li, Liying

AU - Wang, Haozhe

AU - Jia, Guifang

AU - Rigden, Daniel J.

AU - Meng, Jia

AU - Huang, Daiyun

AU - Chen, Kunqi

PY - 2025/12

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N2 - Profiling RNA modifications is essential to understand their functions and interactions. By taking the advantages of nanopore direct RNA sequencing, we present DirectRM, enabling simultaneous detection of six abundant modifications (N4-acetylcytidine, 1-methyladenosine, 5-methylcytidine, N7-methlguanosine, N6-methyladenosine, and pseudouridine) in native RNAs. Its two-stage pipeline identifies candidate modified kmers using binary classifier, then determines specific modifications and positions using an attention-based neural network. Trained with molecule-level features extracted from native RNA samples and validated on human cell lines and viral RNAs, DirectRM demonstrates high sensitivity, precision and robustness, outperforming existing tools. Crucially, we reveal the associations between modifications at both transcript and molecule-level. Modifications tend to proximate to each other on the transcript level, while at the molecule level, the presence of one modification is likely to reduce the occurrence of modifications at adjacent positions. DirectRM offers a powerful approach for studying epitranscriptome complexity and is expandable for future research.

AB - Profiling RNA modifications is essential to understand their functions and interactions. By taking the advantages of nanopore direct RNA sequencing, we present DirectRM, enabling simultaneous detection of six abundant modifications (N4-acetylcytidine, 1-methyladenosine, 5-methylcytidine, N7-methlguanosine, N6-methyladenosine, and pseudouridine) in native RNAs. Its two-stage pipeline identifies candidate modified kmers using binary classifier, then determines specific modifications and positions using an attention-based neural network. Trained with molecule-level features extracted from native RNA samples and validated on human cell lines and viral RNAs, DirectRM demonstrates high sensitivity, precision and robustness, outperforming existing tools. Crucially, we reveal the associations between modifications at both transcript and molecule-level. Modifications tend to proximate to each other on the transcript level, while at the molecule level, the presence of one modification is likely to reduce the occurrence of modifications at adjacent positions. DirectRM offers a powerful approach for studying epitranscriptome complexity and is expandable for future research.

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DirectRM: integrated detection of landscape and crosstalk between multiple RNA modifications using direct RNA sequencing

Abstract

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