Spermidine enhances chilling tolerance of kale seeds by modulating ROS and phytohormone metabolism
文献类型: 外文期刊
第一作者: Cao, Dongdong
作者: Cao, Dongdong;Huang, Yutao;Mei, Gaofu;Zhang, Sheng;Wu, Huaping;Zhao, Tiyuan
作者机构:
期刊名称:PLOS ONE ( 影响因子:3.7; 五年影响因子:3.8 )
ISSN: 1932-6203
年卷期: 2023 年 18 卷 8 期
页码:
收录情况: SCI
摘要: Chilling stress is an important constraint for kale seed germination and seedlings establishment. It is vital to develop an effective approach to enhance kale seed germination ability under chilling stress. The present study reported that spermidine (Spd) could improve seed chilling tolerance in two kale cultivars 'Nagoya' (MGW) and 'Pigeon' (BB) during germination. The results showed that MGW was cold tolerant with a 90.67% germination percentage (GP) under chilling stress, while BB was cold sensitive with a 70.67% GP under chilling stress. Spd content in MGW and BB seeds during seed germination were up-regulated and down-regulated by chilling stress, respectively. Besides, chilling stress apparently decreased the gibberellin (GA) and ethylene (ET) contents, while increased the levels of abscisic acid (ABA) and reactive oxygen species (ROS) in MGW and BB seeds during germination. Exogenous Spd application increased GA, ET contents and decreased ABA content through regulating the gene expressions of metabolic-related enzymes, thus effectively alleviating the low temperature damage on kale seed germination. Besides, Spd significantly increased the activities of superoxide dismutase (SOD) and peroxidase (POD), and reduced the levels of hydrogen peroxide (H2O2) and superoxide anion (O-2 & BULL;(-)). The present study demonstrated that endogenous Spd metabolism plays an important role in kale seed germination under chilling stress. The effect of exogenous Spd on the metabolism of endogenous Spd, GA, ABA, ET and antioxidant enzymes might be the important reason for promoting the kale seed vigor at low temperature.
分类号:
- 相关文献
作者其他论文 更多>>
-
Optimized fertilization mitigated carbon and nitrogen losses in a Solonchak
作者:Zhang, Sheng;Feng, Ying;Hao, Xingming;Zhang, Sheng;Feng, Ying;Hao, Xingming;Zhang, Sheng;Feng, Ying;Hao, Xingming;Liu, Ji;Liu, Ji;Liang, Yanning;Zhao, Xiaoning;Xue, Lihua
关键词:C losses; greenhouse gas; maize; N leaching; N losses
-
Shading treatment during late stage of seed development promotes subsequent seed germination and seedlings establishment in sunflower
作者:Huang, Yutao;Mei, Gaofu;Zhu, Kehua;Cao, Dongdong;Ruan, Xiaoli;Wu, Huaping
关键词:Fatty acid; Phytohormones; Seed development; Seed germination; Shading treatment; Sunflower
-
Biochar application reduced carbon footprint of maize production in the saline-alkali soils
作者:Zhang, Sheng;Feng, Ying;Hao, Xingming;Zhang, Sheng;Feng, Ying;Hao, Xingming;Zhang, Sheng;Feng, Ying;Hao, Xingming;Xue, Lihua;Liu, Ji;Xia, Longlong;Jia, Pingping;Zhao, Xiaoning
关键词:Greenhouse gas emissions; Carbon footprint; Biochar application; Saline-alkali soils
-
Effects of the Taste Substances and Metal Cations in Green Tea Infusion on the Turbidity of EGCG-Mucin Mixtures
作者:Xu, Longjie;Ye, Qingqing;Cao, Qingqing;Liu, Yuyi;Yin, Junfeng;Xu, Yongquan;Xu, Longjie;Li, Xinghui;Ye, Qingqing;Liu, Zhengquan;Gong, Yushun;Zhang, Sheng
关键词:green tea; mucin; taste compounds; astringency; turbidity
-
Fertilization management and greenhouse gases emissions from paddy fields in China: A meta-analysis
作者:Liang, Yanning;Jia, Pingping;Hu, Yi;Zhao, Xiaoning;Xue, Lihua;Zhang, Sheng;Zamanian, Kazem
关键词:Greenhouse gas emissions; Fertilization; N input; Biochar; Soil texture
-
Cholesterol plus dietary tannins play a key role in formation of urinary stone
作者:Xi, Yu;Chen, Luyao;Zeng, Xiangquan;Jiang, Tianyi;Yang, Shuang;Li, Xiangxin;Che, Huilian;Jiang, Weibo;Li, Xiangxin;Ma, Yuxia;Cao, Dongdong
关键词:Polyphenol; Condensed tannins; Cholesterol; Urinary stones; Synergistic effect
-
One-third substitution of nitrogen with cow manure or biochar greatly reduced N2O emission and carbon footprint in saline-alkali soils
作者:Zhang, Sheng;Zhang, Sheng;Feng, Ying;Zhang, Sheng;Feng, Ying;Xue, Lihua;Liu, Ji;Xu, Yi;Li, Zhijie;Jia, Pingping;Zhao, Xiaoning
关键词:N fertilizer substitution; Manure; Biochar; Net ecosystem carbon budget; Carbon footprint
