Metabolomics Combined with Photosynthetic Analysis Reveals Potential Mechanisms of Phenolic Compound Accumulation in Lonicera japonica Induced by Nitrate Nitrogen Supply
文献类型: 外文期刊
第一作者: Cao, Yiwen
作者: Cao, Yiwen;Yang, Yating;Feng, Xihan;Tian, Zhiyao;Liu, Tianheng;Pan, Yonghui;Wang, Min;Guo, Shiwei;Cao, Yiwen;Tan, Zhengwei;Su, Xiaoyu;Liang, Huizhen;Cao, Yiwen;Tan, Zhengwei;Su, Xiaoyu;Liang, Huizhen
作者机构:
关键词:
nitrate; caffeoylquinic acids; phenolic compounds; mesophyll conductance; photosynthesis;
期刊名称:INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES ( 影响因子:4.9; 五年影响因子:5.7 )
ISSN: 1661-6596
年卷期: 2025 年 26 卷 9 期
页码:
收录情况: SCI
摘要: Mineral nutrition is of vital importance in plant growth and secondary metabolites accumulation, and thereby in the nutritional value of plants. In Lonicera japonica, a preference to nitrate (NO3--N) in comparison to ammonium (NH4+-N) was found in our previous study, which can be revealed from the rapid growth rate of L. japonica under NO3--N. This study assessed whether a preference for nitrogen sources could invoke metabolic reprogramming and interrelationships between factors. NO3--fed plants exhibited substantial enhancement of carbon stimulation, which was strongly and positively correlated with mesophyll conductance. As a result, the elevated carbon flux by NO3- supplement was shuttled to phenolic metabolites synthesis, including flavones and caffeoylquinic acids compounds. Notably, the stimulation was triggered by changes in the NO3- and C/N ratio and was mediated by the induction of several enzymes in the phenylpropanoid pathway. On the contrary, NH4+ plants showed an increment in the content of nitrogen, carbohydrates, and amino acids (mainly a strong increase in citrulline and theanine). Within secondary metabolism, NH4+ may involve active lignin metabolism, showing a dramatic increment in hydroxy-ferulic acid and lignin content. This work provides significant insights regarding the mechanisms of L. japonica in response to diverse nitrogen regimes and effective strategies of nitrogen fertilizer input for L. japonica.
分类号:
- 相关文献
作者其他论文 更多>>
-
Rapid and direct detection of m6A methylation by DNAzyme-based and smartphone-assisted electrochemical biosensor
作者:Li, Kai;Liang, Yu;Li, Xinran;Yang, Mengrui;Wang, Min;Li, Fukai;Qi, Xin;Zhou, Jian;Li, Liang;Fu, Wei
关键词:DNAzyme; Tetrahedron DNA; Electrochemical biosensor; m(6)A methylation
-
Ubiquitination of OsCSN5 by OsPUB45 activates immunity by modulating the OsCUL3a-OsNPR1 module
作者:Zhang, Chongyang;Fang, Liang;He, Feng;You, Xiaoman;Wang, Min;Zhao, Tianxiao;Hou, Yanyan;Wang, Ruyi;Ning, Yuese;Zhang, Chongyang;Ruan, Jue;Fang, Liang;Francis, Frederic;Xiao, Ning;Li, Aihong;Yang, Jian;Wang, Guo-Liang
关键词:
-
Natural variation in ZmNRT2.5 modulates husk leaf width and promotes seed protein content in maize
作者:Wang, Qi;Wang, Min;Wang, Jin-Yu;Tan, Wei-Ming;He, Yan;Xia, Ai-Ai;Wang, Zi;Luo, Jin-Hong;He, Yan;Xu, Tao;Jia, De-Tao;Lu, Ming
关键词:maize; GWAS; husk leaf width; seed protein content;
ZmNRT2.5 -
New insights into the transcription factor regulatory networks driving peel coloration under hormone induction analyzed by transcriptomics and metabolomics in tangor 'Murcot'
作者:Chen, Yang;Yang, Lei;Li, Shuang;Wang, Min;Yu, Jianjun;Bai, Wenqin;Hong, Lin;Chen, Yang;Bai, Wenqin;Yang, Lei;Bai, Wenqin;Hong, Lin
关键词:gibberellic acid; ethylene; omics; pigment metabolism; transcription factor
-
Genome-wide identification and functional analyses of the TCP gene family in Carthamus tinctorius L.
作者:Lu, Dandan;Wang, Lina;Yu, Yongliang;Li, Lei;Su, Xiaoyu;Sun, Yao;Yang, Hongqi;Li, Chunming;Xu, Lanjie;Yang, Qing;Tan, Zhengwei;Liang, Huizhen;Lu, Dandan;Wang, Lina;Yu, Yongliang;Li, Lei;Su, Xiaoyu;Sun, Yao;Yang, Hongqi;Li, Chunming;Xu, Lanjie;Yang, Qing;Tan, Zhengwei;Liang, Huizhen;Wan, Xiufu
关键词:
Carthamus tinctorius ; TCP; Expression pattern; Flower development; Abiotic stress; Flower color -
Transcriptomic and morphologic vascular aberrations underlying FCDIIb etiology
作者:Fang, Chuantao;Sun, Licheng;Lu, Yujia;Guo, Jingjing;Mei, Xinyu;Qi, Dashi;Fang, Chuantao;Zhang, Xiaodan;Yang, Lin;Wang, Min;Tan, Yanfeng;Zhang, Jinsen;Liu, Guoping;Zhang, Fayong;Zhao, Rui;Qi, Dashi;Fang, Chuantao;Zhang, Xiaodan;Yang, Lin;Wang, Min;Tan, Yanfeng;Zhang, Jinsen;Liu, Guoping;Zhang, Fayong;Zhao, Rui;Qi, Dashi;Fang, Chuantao;Zhang, Xiaodan;Yang, Lin;Wang, Min;Tan, Yanfeng;Zhang, Jinsen;Liu, Guoping;Zhang, Fayong;Zhao, Rui;Qi, Dashi;Fang, Chuantao;Liu, Yi;Xiao, Jianbo;Gao, Xin;Zhu, Li;Ren, Maozhi;Ma, Shaojie;Zhao, Rui;Zhao, Rui
关键词:
-
Comprehensive analysis of safflower R2R3-MYBs reveals the regulation mechanism of CtMYB76 on flavonol biosynthesis
作者:Tan, Zhengwei;Lu, Dandan;Li, Lei;Su, Xiaoyu;Sun, Yao;Wang, Lina;Yu, Yongliang;Xu, Lanjie;Li, Chunming;Liang, Huizhen;Tan, Zhengwei;Lu, Dandan;Li, Lei;Su, Xiaoyu;Sun, Yao;Wang, Lina;Yu, Yongliang;Xu, Lanjie;Li, Chunming;Liang, Huizhen;Wan, Xiufu
关键词:Carthamus tinctorius; Transcription factors; Abiotic stress; Stress response; Flavonol biosynthesis
