Duet between stress granules and glutathionylation regulates cytosolic redox state to maintain proteostasis in Arabidopsis [0.03%]
拟南芥中应力颗粒与谷硫盐化相互作用调节细胞溶胶氧化还原状态以维持蛋白质稳态
Shuai Zhao,Zhouli Xie,Xiaoyuan Chen et al.
Shuai Zhao et al.
Cellular oxidation is essential for many physiological processes but can damage redox-vulnerable proteins. Eukaryotic cells maintain millimolar levels of reduced glutathione (GSH) as a major antioxidative strategy. However, how this highly ...
Activation of multilayered plant immunity through spatiotemporal expression of Botrytis cinerea BcCrh1-derived dual epitopes [0.03%]
通过时空表达的灰葡萄孢BcCrh1衍生双重表位激活多层植物免疫反应
Yong Liang,Kai Bi,Eugenio Llorens et al.
Yong Liang et al.
Botrytis cinerea is a major necrotrophic pathogen responsible for significant crop losses worldwide. Alternative strategies to control B. cinerea are urgently needed to reduce dependence on chemical fungicides, which are increasingly ineffe...
Yuhong Huang,Chuanye Chen,Xin Wang et al.
Yuhong Huang et al.
Centromeres are indispensable for accurate chromosome segregation, but are subject to rapid sequence turnover while maintaining conserved functions -- a paradox in genome evolution. To unravel this paradox, we integrated over 400 fully reso...
Effector biology and immunometabolic (re)programming: microbial strategies for compatibility [0.03%]
效应器生物学和免疫代谢(重)编程:微生物兼容性策略
Alga Zuccaro
Alga Zuccaro
Root immunometabolism: balancing defense and accommodation Plant health depends on balanced immune defense and microbial accommodation. As constant contact zones, roots must exclude pathogens while fostering beneficial symbionts. Classical,...
A histone methylation reader suppresses both disease resistance and tillering by facilitating H3K9me1-mediated gene silencing in rice [0.03%]
水稻中组蛋白甲基化“阅读”因子通过促进H3K9me1介导的基因沉默抑制抗病性和分蘖性
Fengfeng Fan,Manman Liu,Huanran Yuan et al.
Fengfeng Fan et al.
Histone methylation is involved in a wide range of biological regulation in plants, and conducted by three major components including methyltransferases, demethylases, and histone readers. Compared to the other two components, research on h...
Nicolaj Jeran,Luca Tadini,Simona Masiero et al.
Nicolaj Jeran et al.
Regulating the Regulators: How Expression Control Can Improve Regeneration with Developmental Genes [0.03%]
控制调控者:表达调控如何利用发育基因改善再生医学
Megan Kelly,Ryan A Nasti
Megan Kelly
Integrating Plant Immune Mechanisms, Resistance Gene Discovery, and Engineering Strategies to Improve Crop Disease Resistance [0.03%]
整合植物免疫机制、抗病基因发掘和工程策略以提高作物抗病性
Zhiming Ma,Lei Wang,Jing Fan et al.
Zhiming Ma et al.
Pathogen and pests are major threats for agricultural productivity and food security. Diseases in major crops caused by pathogens or pests can reduce annual yields up to 40% (Ficke et al., 2018), resulting in billions of dollars in economic...
Plant salt tolerance mechanisms: Classic signaling pathways, emerging frontiers, and future perspectives [0.03%]
植物耐盐机制研究:经典信号转导途径、新兴前沿和未来展望
Liang Ma,Jingrui Li,Jianfang Li et al.
Liang Ma et al.
Global environmental changes pose severe threats to agricultural ecosystems, particularly through soil salinization, which adversely affects crop productivity and sustainability. Salt stress disrupts plant physiological processes, causing o...
Metabolomic remodeling and genetic regulation in potato tubers during domestication [0.03%]
马铃薯块茎 Domestication 期间的代谢组重构及遗传调控机制研究
Zhong Zhang,Wei Tan,Jintao Liu et al.
Zhong Zhang et al.
The potato is an important crop for ensuring global food and nutritional security. The metabolic transitions and underlying genetic mechanisms that occurred during domestication from wild progenitors remain not fully understood. Here, we us...