Frontiers in Plant Science (Feb 2022)

Metabolite Characteristics Analysis of Siliques and Effects of Lights on the Accumulation of Glucosinolates in Siliques of Rapeseed

  • Farah Kamal,
  • Farah Kamal,
  • Shulin Shen,
  • Shulin Shen,
  • Ran Hu,
  • Ran Hu,
  • Qianwei Zhang,
  • Qianwei Zhang,
  • Nengwen Yin,
  • Nengwen Yin,
  • Yifang Ma,
  • Yifang Ma,
  • Yuxiang Jiang,
  • Yuxiang Jiang,
  • Xinfu Xu,
  • Xinfu Xu,
  • Xinfu Xu,
  • Jiana Li,
  • Jiana Li,
  • Jiana Li,
  • Kun Lu,
  • Kun Lu,
  • Kun Lu,
  • Cunmin Qu,
  • Cunmin Qu,
  • Cunmin Qu

DOI
https://doi.org/10.3389/fpls.2022.817419
Journal volume & issue
Vol. 13

Abstract

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Glucosinolates (GSLs) are naturally occurring secondary metabolites found in the Brassicaceae family, which mainly synthesize in the siliques with a wide range of functions. In this study, we investigated the effects of lights on metabolites in siliques of rapeseed through ultra high-performance liquid chromatography (UPLC)—heated electrospray ionization (HESI)–tandem mass spectrometry (MS/MS). A total of 249 metabolites, including 29 phenolic acids, 38 flavonoids, 22 GSLs, 93 uncalculated and 67 unknown compounds, were identified in siliques of rapeseed. Meanwhile, 62 metabolites showed significant differences after shading treatment, which were mainly GSLs and unknown compounds. Interestingly, the amounts of 10 GSLs had high accumulation levels in siliques, while the expression levels of their corresponding biosynthetic genes (AOP, GSL-OH, IGMT, and ST5a) were obviously reduced after shading treatment. Further evidence showed that the amounts of GSLs were significantly reduced in seeds, in accordance with the expression profiles of transporter genes (BnaGTRs). Our findings indicated that lights could affect the accumulation and transportation of GSLs from siliques to seeds in rapeseed. Therefore, this study facilitates a better understanding of metabolic characteristics of siliques and provides insight into the importance of light for GSLs accumulation and transportation in siliques and seeds of rapeseed.

Keywords