Integrated transcriptomic and lipidomic analysis provides key insights into lipid content changes during pecan (Carya illinoensis) fruit development

Ruifeng Yang, Hongyi Chen, Da Zhang, Qixiang Zhang, Youjun Huang
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Abstract

Pecans [Carya illinoinensis (Wangenh.) K. Koch] are highly valued for their abundance of quality healthy lipids, positively impacting human health and making themselves a preferred choice for nutritionally rich foods. However, a comprehensive understanding of the high‐resolution characteristics of pecan fruit lipid composition and its dynamic changes, as well as the transfer between embryo and pericarp during development, remains incomplete. In this study, through integrated multi‐omics analysis, we observed significant spatiotemporal heterogeneity in lipid changes between the pericarp and embryo. It showed smaller fluctuations and more stable lipid levels in the pericarp while exhibiting a dynamic pattern of initially increasing and then decreasing lipid content in the embryo. In this study, a total of 52 differentially expressed genes were identified, related to fatty acid synthesis and metabolism pathways in the two tissues, with changes in oleic acid and linoleic acid composition being the primary features of the embryo. This research lays the foundation for further understanding the differential regulation mechanisms of lipid metabolism between embryo and pericarp. Overall, this study filled the knowledge gap regarding dynamic changes in pericarp lipid metabolites, provided crucial insights into the lipid metabolism network during pecan fruit development, and established a scientific basis for the genetic improvement of pecan crops.
转录组和脂质组的综合分析提供了山核桃(Carya illinoensis)果实发育过程中脂质含量变化的关键信息
山核桃[Carya illinoinensis (Wangenh.) K. Koch]因其丰富的优质健康脂质而备受推崇,对人类健康产生了积极影响,并成为营养丰富食品的首选。然而,人们对山核桃果实脂质组成的高分辨率特征及其动态变化,以及发育过程中胚与果皮之间的转移仍缺乏全面了解。在本研究中,通过多组学综合分析,我们观察到果皮和胚之间的脂质变化具有显著的时空异质性。果皮中的脂质含量波动较小且较为稳定,而胚中的脂质含量则表现出先增后减的动态模式。本研究共鉴定出 52 个差异表达基因,这些基因与两种组织中脂肪酸的合成和代谢途径有关,胚中油酸和亚油酸成分的变化是其主要特征。这项研究为进一步了解胚和果皮脂质代谢的不同调控机制奠定了基础。总之,该研究填补了果皮脂质代谢物动态变化方面的知识空白,为山核桃果实发育过程中的脂质代谢网络提供了重要见解,为山核桃作物的遗传改良奠定了科学基础。
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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