龙葵果实生长过程中品质成分代谢的代谢组学分析。

Plant signaling & behavior Pub Date : 2023-12-31 Epub Date: 2023-11-17 DOI:10.1080/15592324.2023.2283363
Wenwen Zhao, Xuemei Sun, Lihui Wang, Zhu Sun, Huajing Zhang, Qiwen Zhong, Shipeng Yang
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引用次数: 0

摘要

在过去的二十年里,在中国的高原地区,一种园艺作物胡椒(龙葵)经历了显著的增长,由于其独特的味道和营养优势而受到消费者的广泛欢迎。采用UPLC-QTOF-MS和RNA-seq转录组测序技术,对青藏高原栽培的辣椒品种“青参香”进行分析。在三个不同的发育阶段采集果实样本,并对代谢组学和转录组学结果进行比较和相关。研究结果表明,“青柑香”果实共含有187种代谢物,包括12种不同类别的化合物,包括氨基酸及其衍生物、有机酸、糖和醇、酚类和酚酸。在这些代谢物中,94种被鉴定为差异代谢物。在果实的三个生长阶段观察到营养成分的显著变化。具体来说,从生长到成熟的阶段被认为是营养积累和风味发展的关键阶段。转录组测序分析显示,天冬氨酸和奎宁酸之间存在一组高度相关的基因,即SIR2、IRAK4、RP-L29和CCNH。这些基因可能参与氨基酸和酚酸合成的调控。本研究通过代谢组学和转录组学的应用,阐明了胡椒果实在三个生长阶段代谢产物的变化及其潜在的分子调控机制。研究结果为辣椒的营养品质评价和育种策略的改进提供了理论依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Metabolomics analysis of quality components metabolism during the growth process of pepino (Solanum muricatum) fruit.

Pepino (Solanum muricatum), a horticultural crop that has experienced significant growth in the highlands of China over the past two decades, is widely embraced by consumers due to its distinctive taste and nutritional advantages. This study focused on the cultivar 'Qingcanxiang' of pepino grown on the Qinghai-Tibetan Plateau was analyzed using UPLC-QTOF-MS and RNA-seq transcriptome sequencing. Fruit samples were collected at three distinct stages of development, and the results of the metabolomics and transcriptomics were compared and correlated. The study's findings indicate that the 'Qingcanxiang' fruit contained a total of 187 metabolites, comprising 12 distinct categories of compounds, including amino acids and their derivatives, organic acids, sugars and alcohols, phenols and phenolic acids. Of these metabolites, 94 were identified as differential. Significant variations in nutrient composition were observed across the three growth stages of the fruit. Specifically, the stage spanning from the growth to the maturation was identified as the critical stages for nutrient accumulation and flavor development. Transcriptome sequencing analysis revealed a set of highly associated genes between aspartate and quinic acid, namely SIR2, IRAK4, RP-L29, and CCNH. These genes are potentially involved in the regulation of both amino acid and phenolic acid synthesis. Through the application of metabolomics and transcriptomics, this investigation elucidates the alterations in metabolites and the underlying molecular regulatory mechanisms of pepino fruits during three growth stages. The findings furnish a theoretical foundation for the evaluation of nutritional quality and the enhancement of breeding strategies for pepino.

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