脂质组学研究拟南芥萼片对轻度热胁迫的反应。

IF 4.6 4区 农林科学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY aBIOTECH Pub Date : 2023-06-06 DOI:10.1007/s42994-023-00103-x
Zican Chen, Weronika Jasinska, Muhammad Ashraf, Leah Rosental, Jung Hong, Dabing Zhang, Yariv Brotman, Jianxin Shi
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引用次数: 1

摘要

拟南芥萼片在早晨随着环境温度的升高而协调开花;然而,人们对其潜在的分子机制知之甚少。一个热休克蛋白编码基因HSP70-16突变,导致萼片热应激反应(HSR)受损,破坏脂质代谢,特别是萼片角质层脂质,导致开花异常。为了进一步探讨脂质在这一过程中发挥了多大的作用,在本研究中,我们比较了在正常(22℃)和轻度热应激(27℃,轻度HS)温度下生长的hsp70-16和vdac3(电压依赖性阴离子通道vdac3的突变体,hsp70-16相互作用物)萼片的脂质组学变化。常温下,hsp70-16和vdac3萼片的总脂质均无明显变化;然而,除了单半乳糖二酰甘油(MGDGs)外,vdac3而非hsp70-16萼片在所有检测到的11种脂类比例中均表现出显著的降低。在温和的HS温度下,hsp70-16萼片总脂质显著降低,而vdac3萼片无显著降低。此外,vdac3萼片表现出显著的可塑性脂质的积累,特别是磺基喹啉二酰基甘油(sqdg)和磷脂酰甘油(pg),而hsp70-16萼片则有显著的三酰基甘油(TAGs)的积累,同时sqdg和磷脂(PLs),如磷脂酰胆碱(PCs)、磷脂酰乙醇胺(PEs)和磷脂酰丝氨酸(ps)的急剧减少。这些结果表明,轻度HS对隔膜脂质组的影响受遗传因素的影响,HSP70-16和VDAC3对轻度HS的隔膜脂质组反应有不同的影响。我们的研究为植物在花发育过程中HSP和VDAC蛋白在植物HSR中的功能提供了脂质组学的见解。补充资料:在线版本包含补充资料,网址为10.1007/s42994-023-00103-x。
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Lipidomic insights into the response of Arabidopsis sepals to mild heat stress

Arabidopsis sepals coordinate flower opening in the morning as ambient temperature rises; however, the underlying molecular mechanisms are poorly understood. Mutation of one heat shock protein encoding gene, HSP70-16, impaired sepal heat stress responses (HSR), disrupting lipid metabolism, especially sepal cuticular lipids, leading to abnormal flower opening. To further explore, to what extent, lipids play roles in this process, in this study, we compared lipidomic changes in sepals of hsp70-16 and vdac3 (mutant of a voltage-dependent anion channel, VDAC3, an HSP70-16 interactor) grown under both normal (22 °C) and mild heat stress (27 °C, mild HS) temperatures. Under normal temperature, neither hsp70-16 nor vdac3 sepals showed significant changes in total lipids; however, vdac3 but not hsp70-16 sepals exhibited significant reductions in the ratios of all detected 11 lipid classes, except the monogalactosyldiacylglycerols (MGDGs). Under mild HS temperature, hsp70-16 but not vdac3 sepals showed dramatic reduction in total lipids. In addition, vdac3 sepals exhibited a significant accumulation of plastidic lipids, especially sulfoquinovosyldiacylglycerols (SQDGs) and phosphatidylglycerols (PGs), whereas hsp70-16 sepals had a significant accumulation of triacylglycerols (TAGs) and simultaneous dramatic reductions in SQDGs and phospholipids (PLs), such as phosphatidylcholines (PCs), phosphatidylethanolamines (PEs), and phosphatidylserines (PSs). These findings revealed that the impact of mild HS on sepal lipidome is influenced by genetic factors, and further, that HSP70-16 and VDAC3 differently affect sepal lipidomic responses to mild HS. Our studies provide a lipidomic insight into functions of HSP and VDAC proteins in the plant’s HSR, in the context of floral development.

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