Autor: |
Chang, Manman, Ma, Jingyu, Sun, Ying, Fu, Maoyin, Liu, Linlin, Chen, Qi, Zhang, Zhaoliang, Song, Chuankui, Sun, Jun, Wan, Xiaochun |
Zdroj: |
Journal of Agricultural and Food Chemistry; April 2023, Vol. 71 Issue: 13 p5208-5218, 11p |
Abstrakt: |
As an important economic plant, tea (Camellia sinensis) has a good economic value and significant health effects. Theanine is an important nitrogen reservoir, and its synthesis and degradation are considered important for nitrogen storage and remobilization in tea plants. Our previous research indicated that the endophyte CsE7 participates in the synthesis of theanine in tea plants. Here, the tracking test confirmed that CsE7 tended to be exposed to mild light and preferentially colonized mature tea leaves. CsE7 also participated in glutamine, theanine, and glutamic acid circulatory metabolism (Gln-Thea-Glu) and contributed to nitrogen remobilization, mediated by the γ-glutamyl-transpeptidase (CsEGGT) with hydrolase preference. The reisolation and inoculation of endophytes further verified their role in accelerating the remobilization of nitrogen, especially in the reuse of theanine and glutamine. This is the first report about the photoregulated endophytic colonization and the positive effect of endophytes on tea plants mediated and characterized by promoting leaf nitrogen remobilization. |
Databáze: |
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