Plant-pathogen interactions: making the case for multi-omics analysis of complex pathosystems [0.03%]
植物与病原物互作:复杂病害体系多组学分析的必要性
Sadegh Balotf,Richard Wilson,Roghayeh Hemmati et al.
Sadegh Balotf et al.
Understanding plant-pathogen interactions requires a systems-level perspective that single-omics approaches, such as genomics, transcriptomics, proteomics, or metabolomics alone, often fail to provide. While these methods are informative, t...
Seminal plasma exosomes improve the motility and mitochondrial function of goat spermatozoa during liquid storage by regulating oxidative phosphorylation [0.03%]
精浆外泌体通过调节氧化磷酸化改善冷冻保存过程中山羊精子的运动性和线粒体功能
Tengfei Liu,Mengmei Zhang,Xinkang Li et al.
Tengfei Liu et al.
Exosomes as bilayer membranous vesicles are abundant in seminal plasma and mediate intercellular communication by transferring active biomolecules. Numerous studies have revealed the involvement of exosomes in regulating various biological ...
Linking the interaction of Salicylates and Jasmonates for stress resilience in plants [0.03%]
植物抗逆性中水杨酸和茉莉酸互作的联系
Ekta Pandey,Rinkee Kumari,Shahla Faizan et al.
Ekta Pandey et al.
Plants are continuously exposed to environmental abiotic and biotic stressors that can significantly impact their growth, development, productivity, and lifespan. However, plants have developed exceptionally complex signaling pathways that ...
Temporal proteomic profiling via 4D-DIA reveals early defense mechanisms and core resistance determinants in soybean against Phakopsora pachyrhizi [0.03%]
基于4D-DIA的定量蛋白质组学研究大豆对卵形紫颖胶锈菌抗病反应中的早期防卫机制及核心抗性决定因素
Zihua Lu,Cong Han,Chao Li et al.
Zihua Lu et al.
Asian soybean rust, caused by Phakopsora pachyrhizi, is a devastating fungal disease threatening global soybean production, particularly in tropical regions where chemical control is increasingly unsustainable. This study employed cutting-e...
Upregulation of deubiquitinase UBP16 induced by rice stripe virus infection stabilizes SHMT1 to suppress ROS accumulation and facilitate virus infection in Nicotiana benthamiana [0.03%]
水稻条纹病毒诱导的去泛素化酶UBP16的上调稳定了SHMT1以抑制ROS积累并促进水稻条纹病毒在烟草中的感染
Kun Wang,Yaqin Wang,Shuai Fu et al.
Kun Wang et al.
Modification of proteins by ubiquitin is a dynamic and reversible process. It is unclear whether rice stripe virus (RSV) can modulate the plant deubiquitination pathway. In this study, we found that RSV infection can specifically upregulate...
Evaluation of genetic diversity and selection signals in gayal populations across four countries through whole-genome resequencing [0.03%]
四国赖氏野牛群体重测序评估遗传多样性和选择信号
Xin Liu,Qiaoxian Li,Jianyong Liu et al.
Xin Liu et al.
Gayal (Bos frontalis) an endangered bovine species inhabitingChina, India, Bangladesh, Myanmar and Bhutan, has a mysterious evolutionary origin. Shaped by natural selection, its unique traits make it a valuable genetic resource; however, it...
Advances in CrRLK1L function in plant cell wall signaling during interaction with the environment and development [0.03%]
环境和发育过程中植物细胞壁信号转导的CrRLK1L功能研究进展
George Bawa,Yang Shen,Mingzhe Sun et al.
George Bawa et al.
As a barrier between the cell and its environment, the plant cell wall provides structural support during development and stress response. Plants are able to sense their surroundings and adjust their activities accordingly. A crucial mechan...
Rice breeding against sheath blight is now feasible: a breakthrough discovery of SBRR1-mediated sheath blight resistance from natural rice germplasm [0.03%]
抗鞘锈叶菌水稻育种现在变得可行了:从自然水稻种质中突破性发现SBRR1介导的鞘锈叶菌抗性
Qingqing Hou,Xuewei Chen
Qingqing Hou
Sheath blight (ShB), caused by the necrotrophic fungus Rhizoctonia solani, is a globally destructive rice disease responsible for significant yield losses. However, the absence of characterized genes conferring high potential resistance to ...
Comprehensive review of multiomics applications and remediation of plant heavy metal toxicity [0.03%]
植物重金属毒性的多组学应用和修复综合评论
Tamana Khan,Labiba Shah,Sabba Khan et al.
Tamana Khan et al.
Heavy metal pollution severely impacts plant health by inhibiting growth, photosynthesis, enzyme activities, and causing oxidative stress. Plants respond to such stress by activating complex defense mechanisms involving reactive oxygen spec...
Single-cell RNA sequencing reveals developmental trajectories and environmental regulation of callus formation in Arabidopsis [0.03%]
单细胞RNA测序揭示了拟南芥愈伤组织形成的发育轨迹和环境调节机制
Zhixin Liu,Yixin Zhang,Qianli Zhao et al.
Zhixin Liu et al.
Plant cells exhibit an extraordinary regenerative potential, achieving cellular totipotency by dedifferentiating to form new tissues. While significant progress has been made in understanding cell fate mechanisms, the regulatory networks go...