https://www.ahs.ac.cn/images/0513-353X/images/top-banner1.jpg|#|苹果
https://www.ahs.ac.cn/images/0513-353X/images/top-banner2.jpg|#|甘蓝
https://www.ahs.ac.cn/images/0513-353X/images/top-banner3.jpg|#|菊花
https://www.ahs.ac.cn/images/0513-353X/images/top-banner4.jpg|#|灵芝
https://www.ahs.ac.cn/images/0513-353X/images/top-banner5.jpg|#|桃
https://www.ahs.ac.cn/images/0513-353X/images/top-banner6.jpg|#|黄瓜
https://www.ahs.ac.cn/images/0513-353X/images/top-banner7.jpg|#|蝴蝶兰
https://www.ahs.ac.cn/images/0513-353X/images/top-banner8.jpg|#|樱桃
https://www.ahs.ac.cn/images/0513-353X/images/top-banner9.jpg|#|观赏荷花
https://www.ahs.ac.cn/images/0513-353X/images/top-banner10.jpg|#|菊花
https://www.ahs.ac.cn/images/0513-353X/images/top-banner11.jpg|#|月季
https://www.ahs.ac.cn/images/0513-353X/images/top-banner12.jpg|#|菊花

园艺学报 ›› 2020, Vol. 47 ›› Issue (9): 1633-1647.doi: 10.16420/j.issn.0513-353x.2020-0219

• 综述 •    下一篇

光质对十字花科蔬菜硫代葡萄糖苷调控分子机制研究进展

毛鹏鹏1,2,郑胤建1,*,杨其长1,许亚良1,王 芳1,廖秋红1,刘晓英2   

  1. 毛鹏鹏1,2,郑胤建1,*,杨其长1,许亚良1,王 芳1,廖秋红1,刘晓英2
  • 收稿日期:2020-07-20 接受日期:2020-08-25 出版日期:2020-09-25 发布日期:2020-09-25
  • 基金资助:
    成都农业科技中心地方财政专项资金项目(NASC2019AR01);中央级公益性科研院所基本科研业务费专项项目(Y2020XK02)

Molecular Mechanisms of Light Quality on the Regulation of Glucosinolates in Cruciferae Vegetables

MAO Pengpeng1,2,ZHENG Yinjian1,*,YANG Qichang1,XU Yaliang1,WANG Fang1,LIAO Qiuhong1,and LIU Xiaoying2   

  1. MAO Pengpeng1,2,ZHENG Yinjian1,*,YANG Qichang1,XU Yaliang1,WANG Fang1,LIAO Qiuhong1,and LIU Xiaoying2
  • Received:2020-07-20 Accepted:2020-08-25 Online:2020-09-25 Published:2020-09-25

摘要: 综述了不同光质对十字花科作物硫代葡萄糖苷含量的影响,并从光调控硫苷生物合成关键基因表达、光合糖信号转导、光调控氮和硫同化等方面概括了十字花科作物硫代葡萄糖苷调控的分子机制,为十字花科作物硫代葡萄糖苷形成的光调控研究提供理论参考,为高品质蔬菜生产专用灯具的开发提供数据支撑。

Abstract: This paper reviewed the effects of different light quality on the content of glucosinolates in cruciferous crops. The molecular mechanisms of light-regulation glucosinolates biosynthesis were summarized from key genes expression,photosynthetic glucose signal transduction,nitrogen and sulfur assimilation. The results and data can support the light-regulation theory and plant LED production.

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