Integrative phenomics, metabolomics and genomics analysis provides new insights for deciphering the genetic basis of metabolism in polished rice

IF 10.1 1区生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Genome Biology Pub Date : 2025-03-12 DOI:10.1186/s13059-025-03513-w

Hui Feng, Yufei Li, Guoxin Dai, Zhuang Yang, Jingyan Song, Bingjie Lu, Yuan Gao, Yongqi Chen, Jiawei Shi, Luis A. J. Mur, Lejun Yu, Jie Luo, Wanneng Yang

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引用次数: 0

Abstract

Metabolomics is one of the most widely used omics tools for deciphering the functional networks of the metabolites for crop improvement. However, it is technically demanding and costly. We propose a relatively inexpensive approach for metabolomics analysis in which metabolomics is combined with hyperspectral imaging via machine learning. This approach can be used to target important steps in flavonoid and lipid biosynthesis in rice. We extract 1848 hyperspectral indices and 887 metabolites from polished grains of 533 Oryza sativa accessions. Hyperspectral indices are then linked to metabolites through correlation analysis and modelling. Based on this, a total of 554 metabolites and 1313 hyperspectral indices are identified for further genome-wide association study (GWAS). By GWAS, we detect 17,509 significant locus-trait associations with 2882 single nucleotide polymorphisms (SNPs). Colocalization analysis links these SNPs to the corresponding metabolites and hyperspectral indices. We detect 6415 pairs of metabolites and hyperspectral indices within a linkage disequilibrium of 300 kb in the Oryza sativa genome. We then characterize 1761 candidate genes colocalized to these loci by transcriptomic analysis. We further verify novel candidate genes encoding a novel flavonoid (LOC_Os09g18450) and a flavonoid/lipid (LOC_Os07g11020) respectively by gene editing and overexpression in rice. Our findings indicate that hyperspectral imaging combined with machine learning methods could serve as a powerful tool for quickly and inexpensively assessing crop metabolites.

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综合表型组学、代谢组学和基因组学分析为解读精米代谢的遗传基础提供了新的见解

代谢组学是应用最广泛的组学工具之一，用于破译作物代谢物的功能网络。然而，它在技术上要求很高，成本也很高。我们提出了一种相对便宜的代谢组学分析方法，其中代谢组学通过机器学习与高光谱成像相结合。该方法可用于定位水稻类黄酮和脂质生物合成的重要步骤。从533份粳稻磨粒中提取了1848个高光谱指数和887个代谢物。然后通过相关分析和建模将高光谱指数与代谢物联系起来。在此基础上，共鉴定出554种代谢物和1313种高光谱指数，用于进一步的全基因组关联研究（GWAS）。通过GWAS，我们检测到17509个显著的位点-性状关联与2882个单核苷酸多态性（snp）。共定位分析将这些snp与相应的代谢物和高光谱指数联系起来。我们在300 kb的水稻基因组连锁不平衡中检测到6415对代谢物和高光谱指数。然后，我们通过转录组分析表征了1761个与这些位点共定位的候选基因。我们进一步通过基因编辑和过表达在水稻中验证了新的候选基因分别编码新的类黄酮（LOC_Os09g18450）和类黄酮/脂（LOC_Os07g11020）。我们的研究结果表明，结合机器学习方法的高光谱成像可以作为快速、低成本评估作物代谢物的强大工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Genome Biology Biochemistry, Genetics and Molecular Biology-Genetics

CiteScore

21.00

自引率

3.30%

发文量

241

审稿时长

2 months

期刊介绍： Genome Biology stands as a premier platform for exceptional research across all domains of biology and biomedicine, explored through a genomic and post-genomic lens. With an impressive impact factor of 12.3 (2022),* the journal secures its position as the 3rd-ranked research journal in the Genetics and Heredity category and the 2nd-ranked research journal in the Biotechnology and Applied Microbiology category by Thomson Reuters. Notably, Genome Biology holds the distinction of being the highest-ranked open-access journal in this category. Our dedicated team of highly trained in-house Editors collaborates closely with our esteemed Editorial Board of international experts, ensuring the journal remains on the forefront of scientific advances and community standards. Regular engagement with researchers at conferences and institute visits underscores our commitment to staying abreast of the latest developments in the field.