糖对白玉兰次生开花调控机制的代谢分析。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-12-14 DOI:10.1186/s12860-022-00458-x
Lingjuan Xuan, Qianqian Wang, Zhigao Liu, Bin Xu, Shaoyu Cheng, Yingjia Zhang, Danying Lu, Bin Dong, Dongmei Zhang, Lang Zhang, Jingjing Ma, Yamei Shen
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To further investigate the potential role of sucrose and trehalose on flowering regulation of 'Hongyuanbao', the plants once finished the spring flowering were regularly sprayed with sucrose and trehalose solutions at 30 mM, 60 mM, and 90 mM concentrations from April 22, 2019. The flower bud differentiation processes of sprayed plants were observed and the expression patterns of the genes involved in sucrose and trehalose metabolic pathways were studied by quantitative reverse transcription PCR (qRT-PCR).</p><p><strong>Results: </strong>It showed that 'Hongyuanbao' could complete flower bud differentiation twice in a year and flowered in both spring and summer. The metabolites of flower bud differentiation had a significant variation between the first and second flower buds. Compared to the first flower bud differentiation process, the metabolites in the sucrose and trehalose metabolic pathways were significantly up-regulated during the second flower bud differentiation process. Besides that, the expression levels of a number of trehalose-6-phosphate synthase (TPS) genes including MlTPS1, MlTPS5, MlTPS6, MlTPS7 and MlTPS9 were substantially increased in the second flower differentiation process compared with the first process. Exogenous treatments indicated that compared to the control plants (sprayed with water, CK), all three concentrations of trehalose could accelerate flowering and the effect of 60 mM concentration was the most significant. For the sucrose foliar spray, only the 60 mM concentration accelerated flowering compared with CK. It suggested that different concentration of trehalose and sucrose might have different effects. Expression analysis showed that sucrose treatment increased the transcription levels of MlTPS5 and MlTPS6, whereas trehalose treatment increased MlTPS1, showing that different MlTPS genes took part in sucrose and trehalose metabolic pathways respectively. 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引用次数: 2

摘要

背景:玉兰是城市绿化中重要的传统观赏植物,以其优雅的花形和艳丽的花色,在中国已有2000多年的栽培历史。大多数品种的白玉兰每年春天开花一次,而其他一些品种,如白玉兰。“红元包”,也在夏季或初秋第二次开花。这种两次开花特性具有很高的观赏价值,但其潜在的机制尚不清楚。方法:采用石蜡切片法对2018年3月28日至8月25日两次开花期‘红元宝’的开花时间和表型变化进行观察。采用气相色谱-质谱联用技术(GC-MS)对‘红元宝’两次花芽分化过程中的化学代谢物进行了研究,并采用正交投影-隐结构判别分析(OPLS-DA)对代谢物进行了筛选和鉴定。利用京都基因与基因组百科全书途径富集分析(KEGG)揭示了糖代谢产物与两花期性状的关系。为了进一步研究蔗糖和海藻糖对‘红元宝’开花调控的潜在作用,从2019年4月22日起,在春花结束后定期喷洒浓度为30 mM、60 mM和90 mM的蔗糖和海藻糖溶液。采用定量反转录PCR (qRT-PCR)技术观察喷施植株花芽分化过程,研究蔗糖和海藻糖代谢途径相关基因的表达规律。结果:“红元包”一年可完成两次花芽分化,春、夏两季均开花。花芽分化代谢产物在第一花芽和第二花芽之间存在显著差异。与第一次花芽分化过程相比,第二次花芽分化过程中蔗糖和海藻糖代谢途径中的代谢物显著上调。此外,MlTPS1、MlTPS5、MlTPS6、MlTPS7和MlTPS9等海藻糖-6-磷酸合成酶(TPS)基因在第二花分化过程中的表达量较第一花分化过程显著增加。外源处理表明,与对照植株(喷水、CK)相比,3种浓度海藻糖均能促进开花,其中60mm浓度的效果最为显著。对蔗糖叶面喷施,只有60mm浓度较对照加速开花。说明不同浓度的海藻糖和蔗糖可能有不同的效果。表达分析表明,蔗糖处理增加了MlTPS5和MlTPS6的转录水平,而海藻糖处理增加了MlTPS1的转录水平,说明不同的MlTPS基因分别参与蔗糖和海藻糖的代谢途径。在蔗糖和海藻糖的处理下,MlFT、mlllfy、MlSPL等多个开花相关基因的表达量均有所增加。结论:我们对蔗糖和海藻糖对白玉兰开花过程的影响提供了新的见解。不同含糖量处理下,木兰花芽分化时间提前。叶片喷施蔗糖和海藻糖诱导和加速开花,加上海藻糖调控和响应基因的表达升高,表明次生花芽的形成是由内源蔗糖和海藻糖水平的改变促进的。这些结果对蔗糖和海藻糖对白玉兰二次开花的作用有了新的认识,并为白玉兰诱导和加速开花过程提供了初步的推测。
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Metabolic analysis of the regulatory mechanism of sugars on secondary flowering in Magnolia.

Background: Magnolia, a traditional and important ornamental plant in urban greening, has been cultivated for about 2000 years in China for its elegant flower shape and gorgeous flower color. Most varieties of Magnolia bloom once a year in spring, whereas a few others, such as Magnolia liliiflora Desr. 'Hongyuanbao', also bloom for the second time in summer or early autumn. Such a twice flowering trait is desirable for its high ornamental value, while its underlying mechanism remains unclear.

Methods: Paraffin section was used to show the flowering time and phenotypic changes of M. liliiflora 'Hongyuanbao' during the twice flowering periods from March 28 to August 25, 2018. Gas chromatography-mass spectrometry (GC-MS) was then performed to explore the chemical metabolites through the twice flower bud differentiation process in 'Hongyuanbao', and the metabolites were screened and identified by orthogonal projection to latent structures discriminant analysis (OPLS-DA). Kyoto Encyclopedia of Genes and Genomes pathway enrichment analysis (KEGG) was used to reveal the relationship between the sugar metabolites and twice-flowering characteristic. To further investigate the potential role of sucrose and trehalose on flowering regulation of 'Hongyuanbao', the plants once finished the spring flowering were regularly sprayed with sucrose and trehalose solutions at 30 mM, 60 mM, and 90 mM concentrations from April 22, 2019. The flower bud differentiation processes of sprayed plants were observed and the expression patterns of the genes involved in sucrose and trehalose metabolic pathways were studied by quantitative reverse transcription PCR (qRT-PCR).

Results: It showed that 'Hongyuanbao' could complete flower bud differentiation twice in a year and flowered in both spring and summer. The metabolites of flower bud differentiation had a significant variation between the first and second flower buds. Compared to the first flower bud differentiation process, the metabolites in the sucrose and trehalose metabolic pathways were significantly up-regulated during the second flower bud differentiation process. Besides that, the expression levels of a number of trehalose-6-phosphate synthase (TPS) genes including MlTPS1, MlTPS5, MlTPS6, MlTPS7 and MlTPS9 were substantially increased in the second flower differentiation process compared with the first process. Exogenous treatments indicated that compared to the control plants (sprayed with water, CK), all three concentrations of trehalose could accelerate flowering and the effect of 60 mM concentration was the most significant. For the sucrose foliar spray, only the 60 mM concentration accelerated flowering compared with CK. It suggested that different concentration of trehalose and sucrose might have different effects. Expression analysis showed that sucrose treatment increased the transcription levels of MlTPS5 and MlTPS6, whereas trehalose treatment increased MlTPS1, showing that different MlTPS genes took part in sucrose and trehalose metabolic pathways respectively. The expression levels of a number of flowering-related genes, such as MlFT, MlLFY, and MlSPL were also increased in response to the sprays of sucrose and trehalose.

Conclusions: We provide a novel insight into the effect of sucrose and trehalose on the flowering process in Magnolia. Under the different sugar contents treatments, the time of flower bud differentiation of Magnolia was advanced. Induced and accelerated flowering in response to sucrose and trehalose foliar spray, coupled with elevated expression of trehalose regulatory and response genes, suggests that secondary flower bud formation is a promoted by altered endogenous sucrose and trehalose levels. Those results give a new understanding of sucrose and trehalose on twice-flowering in Magnolia and provide a preliminary speculation for inducing and accelerating the flowering process in Magnolia.

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ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
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2.10%
发文量
464
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