Author
Listed:
- Hao Xu
(Xiamen University
Xiamen University)
- Tianhang Jiang
(Xiamen University)
- Yuxiang Lin
(Fujian Medical University Union Hospital)
- Lei Zhang
(Xiamen University)
- Huan Yang
(Xiamen University
Xiamen University)
- Xiaoyun Huang
(Jimei University)
- Ridong Mao
(Xiamen University)
- Zhu Yang
(Hong Kong Baptist University)
- Changchun Zeng
(Shenzhen Longhua District Central Hospital)
- Shuang Zhao
(Xiamen Meliomics Co., Ltd.)
- Lijun Di
(University of Macau)
- Wenbin Zhang
(Fourth Military Medical University)
- Jun Zeng
(Jimei University)
- Zongwei Cai
(Hong Kong Baptist University
Eastern Institute of Technology)
- Shu-Hai Lin
(Xiamen University
Xiamen University)
Abstract
Improving annotation accuracy, coverage, speed and depth of lipid profiles remains a significant challenge in traditional lipid annotation. We introduce LipidIN, an advanced framework designed for flash platform-independent annotation. LipidIN features a 168.5-million lipid fragmentation hierarchical library that encompasses all potential chain compositions and carbon-carbon double bond locations. The expeditious querying module achieves speeds exceeding one hundred billion queries per second across all mass spectral libraries. The lipid categories intelligence model is developed using three relative retention time rules, reducing false positive annotations and predicting unannotated lipids with a 5.7% estimated false discovery rate, covering 8923 lipids cross various species. More importantly, LipidIN integrates a Wide-spectrum Modeling Yield network for regenerating lipid fragment fingerprints to further improve accuracy and coverage with a 20% estimated recall boosting. We further demonstrate the utility of LipidIN in multiple tasks for lipid annotation and biomarker discovery in clinical cohorts.
Suggested Citation
Hao Xu & Tianhang Jiang & Yuxiang Lin & Lei Zhang & Huan Yang & Xiaoyun Huang & Ridong Mao & Zhu Yang & Changchun Zeng & Shuang Zhao & Lijun Di & Wenbin Zhang & Jun Zeng & Zongwei Cai & Shu-Hai Lin, 2025.
"LipidIN: a comprehensive repository for flash platform-independent annotation and reverse lipidomics,"
Nature Communications, Nature, vol. 16(1), pages 1-17, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59683-5
DOI: 10.1038/s41467-025-59683-5
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