4D genetic networks reveal the genetic basis of metabolites and seed oil-related traits in 398 soybean RILs.

Xu Han, Ya-Wen Zhang, Jin-Yang Liu, Jian-Fang Zuo, Ze-Chang Zhang, Liang Guo, Yuan-Ming Zhang
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引用次数: 3

Abstract

Background: The yield and quality of soybean oil are determined by seed oil-related traits, and metabolites/lipids act as bridges between genes and traits. Although there are many studies on the mode of inheritance of metabolites or traits, studies on multi-dimensional genetic network (MDGN) are limited.

Results: In this study, six seed oil-related traits, 59 metabolites, and 107 lipids in 398 recombinant inbred lines, along with their candidate genes and miRNAs, were used to construct an MDGN in soybean. Around 175 quantitative trait loci (QTLs), 36 QTL-by-environment interactions, and 302 metabolic QTL clusters, 70 and 181 candidate genes, including 46 and 70 known homologs, were previously reported to be associated with the traits and metabolites, respectively. Gene regulatory networks were constructed using co-expression, protein-protein interaction, and transcription factor binding site and miRNA target predictions between candidate genes and 26 key miRNAs. Using modern statistical methods, 463 metabolite-lipid, 62 trait-metabolite, and 89 trait-lipid associations were found to be significant. Integrating these associations into the above networks, an MDGN was constructed, and 128 sub-networks were extracted. Among these sub-networks, the gene-trait or gene-metabolite relationships in 38 sub-networks were in agreement with previous studies, e.g., oleic acid (trait)-GmSEI-GmDGAT1a-triacylglycerol (16:0/18:2/18:3), gene and metabolite in each of 64 sub-networks were predicted to be in the same pathway, e.g., oleic acid (trait)-GmPHS-D-glucose, and others were new, e.g., triacylglycerol (16:0/18:1/18:2)-GmbZIP123-GmHD-ZIPIII-10-miR166s-oil content.

Conclusions: This study showed the advantages of MGDN in dissecting the genetic relationships between complex traits and metabolites. Using sub-networks in MGDN, 3D genetic sub-networks including pyruvate/threonine/citric acid revealed genetic relationships between carbohydrates, oil, and protein content, and 4D genetic sub-networks including PLDs revealed the relationships between oil-related traits and phospholipid metabolism likely influenced by the environment. This study will be helpful in soybean quality improvement and molecular biological research.

Abstract Image

Abstract Image

Abstract Image

4D遗传网络揭示了398个大豆ril代谢产物和籽油相关性状的遗传基础。
背景:豆油的产量和品质是由籽油相关性状决定的,而代谢物/脂质是基因和性状之间的桥梁。虽然对代谢物或性状遗传模式的研究较多,但对多维遗传网络(MDGN)的研究较少。结果:利用398个重组自交系的6个籽油相关性状、59种代谢物和107种脂质及其候选基因和mirna,构建了大豆MDGN。据报道,大约175个数量性状位点(QTL), 36个QTL-环境相互作用位点,302个代谢QTL集群,70个和181个候选基因,包括46个和70个已知同源基因,分别与性状和代谢物相关。利用候选基因与26个关键miRNA之间的共表达、蛋白-蛋白相互作用、转录因子结合位点和miRNA靶标预测构建基因调控网络。采用现代统计学方法,发现463种代谢产物-脂质、62种性状-代谢产物和89种性状-脂质具有显著相关性。将这些关联整合到上述网络中,构建了一个MDGN,并提取了128个子网络。在这些子网络中,38个子网络的基因-性状或基因-代谢物关系与先前的研究一致,如油酸(性状)- gmsei - gmdgat1a -三酰甘油(16:0/18:2/18:3),64个子网络中的基因和代谢物预测在同一途径中,如油酸(性状)- gmphs - d -葡萄糖,其他是新的,如三酰甘油(16:0/18:1/18:2)- gmbzip123 - gmhd - zipiii -10- mir166s -油含量。结论:本研究显示了MGDN在分析复杂性状与代谢物之间的遗传关系方面的优势。利用MGDN的子网络,包括丙酮酸/苏氨酸/柠檬酸在内的三维遗传子网络揭示了碳水化合物、油和蛋白质含量之间的遗传关系,包括PLDs在内的4D遗传子网络揭示了油相关性状与可能受环境影响的磷脂代谢之间的关系。本研究对大豆品质改良和分子生物学研究具有一定的指导意义。
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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