Transcriptome analysis reveals the mechanism of improving erect-plant-type peanut yield by single-seeding precision sowing
文献类型: 外文期刊
第一作者: Yang, Sha
作者: Yang, Sha;Zhang, Jialei;Geng, Yun;Tang, Zhaohui;Wang, Jianguo;Guo, Feng;Meng, Jingjing;Wang, Quan;Li, Xinguo;Yang, Sha;Zhang, Jialei;Geng, Yun;Tang, Zhaohui;Wang, Jianguo;Guo, Feng;Meng, Jingjing;Li, Xinguo;Wang, Quan;Wan, Shubo
作者机构:
关键词: Peanut (Arachis hypogaea L.); RNA-seq; Stress tolerance; Resveratrol synthase; Yield
期刊名称:PEERJ ( 影响因子:2.984; 五年影响因子:3.369 )
ISSN: 2167-8359
年卷期: 2021 年 9 卷
页码:
收录情况: SCI
摘要: Background: In China, double-seed (DS) sowing (i.e., sowing two seeds per hole) has been conventionally performed towards the erect-plant-type peanuts to increase the low germination rate due to poor seed preservation conditions. However, the corresponding within-hole plant competition usually limits the subsequent plant growth and the final yield. We developed a high-yield cultivation system of single-seed (SS) precision sowing to solve this paradox, saving 20% of seeds and increasing yields by more than 10% relative to the conventional DS sowing. Methods: To explore the mechanisms of these two different cropping patterns in peanut yields, we conducted transcriptomic and physiological comparisons in the seeding plant leaf and root tissues between SS precision sowing and standard DS sowing treatments. Results: After assembly, each library contained an average of 43 million reads and generated a total of 523,800, 338 clean reads. After GO and Kyoto Encyclopedia of Genes and Genomes pathway analysis, we found the key genes for biotic and abiotic stress showed higher expression in roots of plants grown under the SS precision sowing treatment, including genes encoding disease resistance, oxidation-reduction, hormone related, and stress response transcription factors and signaling regulation proteins. In particular, the resveratrol synthesis genes related to stress and disease resistance appeared induced in roots under the SS sowing treatment. Conclusion: These data indicated that Aspergillus flavus resistance and stress tolerance in roots under SS precision sowing were enhanced compared with roots under the DS sowing treatment. This work benefits the development of underground pods and thus increasing peanut yields.
分类号:
- 相关文献
作者其他论文 更多>>
-
Ribosome Pausing Negatively Regulates Protein Translation in Maize Seedlings during Dark-to-Light Transitions
作者:Hou, Mingming;Fan, Wei;Wang, Quan;Liu, Wanfei;Li, Shengben;Zhong, Deyi;Li, Shengben;Dai, Xing
关键词:translational regulation; Ribo-seq; ribosome pausing; maize; translatomics
-
Peanut-based intercropping systems altered soil bacterial communities, potential functions, and crop yield
作者:Liu, Zhu;Nan, Zhenwu;Lin, Songming;Meng, Weiwei;Xie, Liyong;Zhang, Zheng;Wan, Shubo;Liu, Zhu;Xie, Liyong;Yu, Haiqiu;Lin, Songming
关键词:Sorghum; Millet; Peanut; Intercropping; Yield; Soil bacterial community
-
Gibberellins Regulate Expression of Cyclins to Control Leaf Width in Rice
作者:Zou, Ruifeng;Guo, Xiaoyuan;Wang, Quan;Guo, Xiaoyuan;Shan, Siyao
关键词:rice; leaf development; gibberellins; OsD18
-
AMEP412 as a potent antifungal agent against rice blast fungus Magnaporthe oryzae in vivo and in vitro
作者:Yang, Junyan;Guo, Meijun;Liu, Quan;Yang, Junyan;Wang, Quan;Guo, Meijun;Liu, Quan
关键词:Rice blast; Magnaporthe oryzae; AMEP412 protein; antifungal activity; biofungicide
-
IPMCNet: A Lightweight Algorithm for Invasive Plant Multiclassification
作者:Chen, Ying;Qiao, Xi;Qin, Feng;Huang, Hongtao;Huang, Yiqi;Chen, Ying;Qiao, Xi;Qin, Feng;Huang, Hongtao;Liu, Bo;Li, Zaiyuan;Liu, Conghui;Wang, Quan;Wan, Fanghao;Qian, Wanqiang
关键词:deep learning; plant identification; in-field detection; convolutional neural network; invasive plants
-
Effect of Starch Types on the Textural and Rehydration Properties of Extruded Peanut Protein Pore Gel Particles
作者:Guo, Feng;Hu, Anna;Zhou, Huan;Hu, Hui;Li, Tongqing;Wang, Qiang;Zhang, Jinchuang
关键词:peanut protein; starch; extrusion puffing technology; gel particles; textural and rehydration properties
-
Inhibitory Effects of Soluble Dietary Fiber from Foxtail Millet on Colorectal Cancer by the Restoration of Gut Microbiota
作者:Zhao, Wenjing;Shan, Shuhua;Li, Zhuoyu;Zhao, Wenjing;Ren, Aiqi;Su, Ruijun;Yang, Ruipeng;Zhai, Feihong;Wu, Lihua;Yang, Jieya;Yue, Linzhong;Zhao, Wenjing;Tang, Zhaohui
关键词:colorectal cancer; foxtailmillet; solubledietary fiber; gut microbiome; AOM/DSS
