Phytoparasite avoidance: Manipulation of strigolactone exudation, not biosynthesis [0.03%]
逃避免害植物:调节宿主对菌体素的渗漏而非合成是关键因素
Jiahui Xu,Wenguan Zhou,Weiqiang Li et al.
Jiahui Xu et al.
Strigolactones exuded from host plants induce the germination of phytoparasites. Recent studies demonstrate that knocking out ABCG transporter genes decreases strigolactone exudation and represses parasite seed germination with fewer negati...
Xian-Han Huang,Tao Deng,Jun-Tong Chen et al.
Xian-Han Huang et al.
The evolution of spermatophytes (seed plants) is relatively well known in their evolutionary relationships over temporal changes, but their spatial evolution is another critical yet often neglected lens, especially using a taxon-based appro...
Recent advances in improving yield and immunity through transcription factor engineering [0.03%]
通过转录因子工程提高产量和免疫性的最新进展
Arya Bagus Boedi Iswanto,Hobin Kang,Seonyeong Park et al.
Arya Bagus Boedi Iswanto et al.
Transcription factors (TFs) function as master regulators in multiple signaling pathways and govern diverse developmental and adaptive processes in plants. Some TFs identified in crop plants play critical roles in regulating yield through c...
Iturin and fengycin lipopeptides inhibit pathogenic Fusarium by targeting multiple components of the cell membrane and their regulative effects in wheat [0.03%]
iturin和fengycin脂肽通过靶向细胞膜多个组分抑制致病镰刀菌及其在小麦中的调控效应
Qing-Song Yuan,Peng Yang,Yi-Ke Liu et al.
Qing-Song Yuan et al.
Biocontrol microorganisms and their derived metabolites with antagonistic activity represent promising alternatives to chemical fungicides in managing plant pathogens. The lipopeptides (LPs) iturin and fengycin derived from Bacillus amyloli...
Plant synthetic biology-based biofortification, strategies and recent progresses [0.03%]
植物合成生物学促育种策略及近期研究进展
Kai Wang,Zhongchi Liu
Kai Wang
Hidden hunger, caused by chronic micronutrient deficiencies, affects billions of people worldwide and remains a critical public health issue despite progress in food production. Biofortification offers a promising solution by enhancing nutr...
Optimizing carbon and nitrogen metabolism in plants: From fundamental principles to practical applications [0.03%]
植物碳氮代谢的调控机制及农艺实践中的应用原理研究进展
Hui Liu,Xiuhua Gao,Weishu Fan et al.
Hui Liu et al.
Carbon (C) and nitrogen (N) are fundamental elements essential for plant growth and development, serving as the structural and functional backbone of organic compounds and driving essential biological processes such as photosynthesis, carbo...
SCFSlRAE1 regulates tomato resistance to Botrytis cinerea by modulating SlWRKY1 stability [0.03%]
SlWRKY1稳定性调控基因SFRSAE1调节番茄对灰霉病的抗性
Xuewei Wang,Ming Gao,Hongxin Li et al.
Xuewei Wang et al.
Ubiquitination, a critical post-translational modification, plays a pivotal role in fine tuning the immune responses of plants. The tomato (Solanum lycopersicum) suffers significant yield and quality losses caused by the devastating pathoge...
Harnessing Green Revolution genes to optimize tomato production efficiency for vertical farming [0.03%]
利用绿色革命基因优化垂直农业番茄生产效率
Xuchen Yu,Zuoyao Li,Yongfang Yang et al.
Xuchen Yu et al.
Vertical farming offers significant potential to tackle global challenges like urbanization, food security, and climate change. However, its widespread adoption is hindered by high costs, substantial energy demands, and thus low production ...
The Arabidopsis chloroplast protein HHL1 regulates AvrRpt2-triggered immunity via light-dependent reactive oxygen species homeostasis [0.03%]
HHL1通过光依赖的活性氧稳态调节avrRpt2诱导的免疫反应
Huiren Cai,Bingke Zhao,Kexin Liang et al.
Huiren Cai et al.
Chloroplasts are key organelles for capturing solar energy and establishing plant immunity. During photosynthesis and pathogen defense, highly redox-active reactions take place in chloroplasts and generate large amounts of reactive oxygen s...
Hijacking phosphate signaling: A novel strategy of fungal pathogens in plant disease [0.03%]
植物病原真菌劫持磷酸盐信号的新型策略
Chuanfa Liu,Yilin Pan,Yuchen Fei et al.
Chuanfa Liu et al.
A recent paper reported that fungi use Nudix effectors to disrupt plant phosphate sensing by breaking down inositol pyrophosphate signals, worsening disease, although the exact mechanism remains unclear. This commentary discusses these grou...