Integrated metabolomic and transcriptomic analysis of anthocyanin metabolism in wheat pericarp.

IF 1.9 Q3 GENETICS & HEREDITY

BMC genomic data Pub Date : 2025-01-13 DOI:10.1186/s12863-024-01294-y

Jiao Wang, Lei Sun, Bo Jiao, Pu Zhao, Tianyun Xu, Sa Gu, Chenmin Huo, Jianzhou Pang, Shuo Zhou

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引用次数: 0

Abstract

Background: Wheat seeds display different colors due to the types and contents of anthocyanins, which is closely related to anthocyanin metabolism. In this study, a transcriptomic and metabolomic analysis between white and purple color wheat pericarp aimed to explore some key genes and metabolites involved in anthocyanin metabolism.

Results: Two wheat cultivars, a white seed cultivar Shiluan02-1 and purple seed cultivar Hengzi151 were used to identify the variations in differentially expressed genes (DEGs) and differentially accumulated flavonoids (DAFs). Based on metabolomic data, 314 metabolites and 191 DAFs were identified. Chalcone, flavonol, pro-anthocyanidin and anthocyanidin were the most differentially accumulated flavonoid compounds in Hengzi151. 2610 up-regulated and 2668 down-regulated DEGs were identified according to transcriptomic data. The results showed that some structural genes in anthocyanin synthesis pathway were prominently activated in Hengzi151, such as PAL, CAD, CHS and so on. Transcription factors (TFs) of MYB, bHLH, WD40 and some other TFs probably involved in regulating anthocyanin biosynthesis were identified. Some genes from hormone synthetic and signaling pathways that may participate in regulating anthocyanin biosynthesis also have been identified.

Conclusions: Our results provide valuable information on the candidate genes and metabolites involved in the anthocyanin metabolism in wheat pericarp.

查看原文本刊更多论文

小麦果皮花青素代谢的综合代谢组学和转录组学分析。

背景：小麦种子呈现不同的颜色是由于花青素的种类和含量，这与花青素的代谢密切相关。本研究通过对白色和紫色小麦果皮的转录组学和代谢组学分析，旨在探索参与花青素代谢的关键基因和代谢物。结果：以白色小麦品种石花生02-1和紫色小麦品种恒子151为对照，鉴定了两种小麦品种差异表达基因（DEGs）和差异积累黄酮类化合物（DAFs）的差异。根据代谢组学数据，鉴定出314种代谢物和191种daf。查尔酮、黄酮醇、原花青素和花青素是横子151中积累差异最大的黄酮类化合物。根据转录组学数据，共鉴定出2610个上调的deg和2668个下调的deg。结果表明，恒子151花青素合成途径中PAL、CAD、CHS等结构基因被显著激活。鉴定出MYB、bHLH、WD40等可能参与花青素生物合成调控的转录因子。一些来自激素合成和信号通路的基因也可能参与调节花青素的生物合成。结论：本研究结果为小麦果皮花青素代谢的候选基因和代谢物提供了有价值的信息。

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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来源期刊

BMC genomic data

CiteScore

4.90

自引率

0.00%

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