文献类型: 外文期刊
作者: Guo, Bingbing 1 ; Liu, Mingyang 1 ; Yang, Hong 1 ; Dai, Longjun 1 ; Wang, Lifeng 1 ;
作者机构: 1.Chinese Acad Trop Agr Sci, Key Lab Biol & Genet Resources Rubber Tree, State Key Lab Incubat Base Cultivat & Physiol Trop, Rubber Res Inst,Minist Agr & Rural Affairs, Haikou 571101, Peoples R China
关键词: Brassinolide; water deficit; latex; natural rubber; rubber tree
期刊名称:INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES ( 影响因子:5.6; 五年影响因子:6.2 )
ISSN: 1661-6596
年卷期: 2023 年 24 卷 16 期
页码:
收录情况: SCI
摘要: Brassinolide (BR) is an important plant hormone that regulates the growth and development of plants and the formation of yield. The yield and quality of latex from Hevea brasiliensis are regulated by phytohormones. The understanding of gene network regulation mechanism of latex formation in rubber trees is still very limited. In this research, the rubber tree variety CATAS73397 was selected to analyze the relationship between BR, water deficit resistance, and latex yield. The results showed that BR improves the vitality of rubber trees under water deficit by increasing the rate of photosynthesis, reducing the seepage of osmotic regulatory substances, increasing the synthesis of energy substances, and improving the antioxidant system. Furthermore, BR increased the yield and quality of latex by reducing the plugging index and elevating the lutoid bursting index without decreasing mercaptan, sucrose, and inorganic phosphorus. This was confirmed by an increased expression of genes related to latex flow. RNA-seq analysis further indicated that DEG encoded proteins were enriched in the MAPK signaling pathway, plant hormone signal transduction and sucrose metabolism. Phytohormone content displayed significant differences, in that trans-Zeatin, ethylene, salicylic acid, kinetin, and cytokinin were induced by BR, whereas auxin, abscisic acid, and gibberellin were not. In summary, the current research lays a foundation for comprehending the molecular mechanism of latex formation in rubber trees and explores the potential candidate genes involved in natural rubber biosynthesis to provide useful information for further research in relevant areas.
- 相关文献
作者其他论文 更多>>
-
Effects of Substrate Composition on the Growth Traits of Grafted Seedling in Macadamia (Macadamia integrifolia) Nuts
作者:Tan, Qiujin;Zhou, Chunheng;Xu, Peng;Huang, Xiyun;Pan, Zhenzhen;Wei, Yuanrong;Wang, Wenlin;Wang, Lifeng;Wang, Lifeng
关键词:grafted seedling; growth; Macadamia integrifolia; substrate; surviving rate
-
The CsPbs2-interacting protein oxalate decarboxylase CsOxdC3 modulates morphosporogenesis, virulence, and fungicide resistance in Colletotrichum siamense
作者:Lu, Jingwen;Liu, Yu;Song, Miao;Xi, Yitao;Yang, Hong;Liu, Wenbo;Li, Xiao;Norvienyeku, Justice;Zhang, Yu;Miao, Weiguo;Lin, Chunhua;Yang, Hong
关键词:Colletotrichum siamense; HOG MAPK pathway; Oxalate decarboxylase; Stress homeostasis; Fungicide sensitivity; Virulence
-
Molecular cloning, expression profiles, characterization and function of a novel arginine decarboxylase gene (HbADC2) in Hevea brasiliensis
作者:Deng, Zhi;Hou, Lanfei;Dai, Longjun;Li, Dejun;Deng, Zhi;Hou, Lanfei;Dai, Longjun;Li, Dejun;Deng, Zhi;Deng, Zhi;Hou, Lanfei;Dai, Longjun;Li, Dejun;Hou, Lanfei;Men, Zhonghua;Xia, Zhihui;Li, Yao;Li, Dejun
关键词:Arginine decarboxylase (ADC); Rubber tree; Polyamine; MV-induced oxidative stress; Putrescine (Put)
-
The fatty acid 2-hydroxylase CsSCS7 is a key hyphal growth factor and potential control target in Colletotrichum siamense
作者:Xi, Yitao;Long, Xiping;Song, Miao;Liu, Yu;Yan, Jingting;Lv, Yanyun;Yang, Hong;Zhang, Yu;Miao, Weiguo;Lin, Chunhua;Yang, Hong
关键词:Colletotrichum siamense; fatty acid hydroxylase CsSCS7; hyphal growth factor; control target
-
Comparative Transcriptome Analysis Reveals Key Functions of MiMYB Gene Family in Macadamia Nut Pericarp Formation
作者:Tan, Qiujin;Huan, Xiuju;Pan, Zhenzhen;Yang, Xiaozhou;Wei, Yuanrong;Zhou, Chunheng;Wang, Wenlin;Wang, Lifeng;Wang, Lifeng
关键词:macadamia nut; pericarp; transcriptome; MiMYB; flavonoid
-
In situ mass spectrometry imaging reveals pesticide residues and key metabolic pathways throughout the entire cowpea growth process
作者:Jiang, Shufan;Lin, Jingling;Zhang, Rui;Wu, Qiong;Li, Hongxing;Zhang, Qun;Wang, Mingyue;Xie, Defang;Zhang, Yue;Han, Bingjun;Jiang, Shufan;Lin, Jingling;Zhang, Rui;Wu, Qiong;Li, Hongxing;Zhang, Qun;Wang, Mingyue;Xie, Defang;Zhang, Yue;Han, Bingjun;Jiang, Shufan;Lin, Jingling;Zhang, Rui;Wu, Qiong;Li, Hongxing;Zhang, Qun;Wang, Mingyue;Xie, Defang;Zhang, Yue;Han, Bingjun;Jiang, Shufan;Lin, Jingling;Zhang, Rui;Wu, Qiong;Li, Hongxing;Zhang, Qun;Wang, Mingyue;Xie, Defang;Zhang, Yue;Han, Bingjun;Jiang, Shufan;Zhang, Xinzhong;Jiang, Shufan;Dai, Longjun
关键词:Cowpea; Pesticide residue; In situ mass spectrometry imaging; Metabolism; Growth process
-
Identification and Characterization of the HbPP2C Gene Family and Its Expression in Response to Biotic and Abiotic Stresses in Rubber Tree
作者:Liu, Qifeng;Zhang, Dong;Liang, Xiaoyu;Yang, Ye;Wang, Meng;Zhang, Yu;Qin, Bi;Wang, Lifeng;Qin, Bi;Wang, Lifeng
关键词:HbPP2C; rubber tree; bioinformatics; expression analysis
