Lysine Deacetylation: An Emerging Molecular Switch of Plant Light Signaling [0.03%]
植物光信号传导中的组蛋白去乙酰化作用:一种新的分子调控开关机制
Minghui Xing,Kai Cheng,Xuejie Zhao et al.
Minghui Xing et al.
Lysine acetylation, dynamically regulated through the balanced activities of histone deacetylases (HDACs) and histone acetyltransferases (HATs), plays dual roles in chromatin regulation and post-translational regulation. In plant light sign...
Freeze-Induced Dehydration and Its Impact on Freezing Resistance in Dormant Grapevine Buds [0.03%]
冻干对休眠葡萄芽抗寒性的影响
Shiori Sakahara,Amaya Atucha,Jun Kasuga
Shiori Sakahara
Under freezing stresses, non-lethal cell dehydration in plants can facilitate the concentration of intracellular solutes, thereby improving cold hardiness. While freeze-induced dehydration of primordial tissues has been reported in dormant ...
AM Fungi Alleviate Soybean Continuous Cropping Obstacles by Regulating Root Phenylpropanoid Biosynthesis Pathway [0.03%]
丛枝菌根真菌通过调节大豆亚麻酸生物合成途径缓解大豆连作障碍
Yunshu Wu,Zhenyu Song,Hao Shi et al.
Yunshu Wu et al.
Continuous soybean cropping degrades soil quality and promotes pathogen accumulation, thereby restricting plant growth and reducing yield and quality. Arbuscular mycorrhizal fungi (AMF) enhance plant resistance to various stressors. This st...
GsZIP28 Confers Alkaline Stress Tolerance in Arabidopsis and Soybean via ROS Scavenging and Activation of Stress-Responsive Genes [0.03%]
GSZIP28通过清除ROS和激活胁迫响应基因在拟南芥和大豆中赋予耐碱性ストレス_toleranceの能力を賦与するため、GSZIP28は、アラビドシスとダイズにおいて Reactive Oxygen Species (ROS) を排除し、ストレス反応遺伝子を活性化することでアルカリストレス耐性を付与します。
Nuo Xu,Jianyue Dai,Wanying Zhou et al.
Nuo Xu et al.
This study identified 32 putative zinc-regulated and iron-regulated protein (ZIP) genes (GsZIPs) in the Glycine soja genome using a Hidden Markov Model (HMM)-based approach. Phylogenetic and motif analyses grouped these genes into six clade...
NADPH Oxidase Coordinating With ROS Regulation: A Biochemical Footprinting in Plant Development [0.03%]
与ROS调控相协调的NADPH氧化酶:植物发育中的生化印迹
Dandan Zhou,Donglu Fang,Jinyu Yi et al.
Dandan Zhou et al.
Plants are highly susceptible to deterioration caused by unsuitable storage conditions, pathogen infection, endogenous hormones, and other factors, leading to horticultural aging and senescence. These processes negatively impact nutritional...
Multi-Omics Insights Into Phenylpropanoid and Lipid Barrier Biosynthesis in Maize Roots Under Salt and Microplastic Stresses [0.03%]
盐和微塑料胁迫下玉米根系苯丙烷代谢与脂质屏障生物合成的多组学见解
Guiyang Shi,Xiaodong Liu,Muhammad Riaz et al.
Guiyang Shi et al.
Microplastics accumulate during saline-alkali land improvement from agricultural inputs such as fertilizers and plastic films, forming a composite stress on crop growth. This study investigated the response mechanisms of maize (Zea mays L.)...
Genome-Wide Analysis of Ribosomal Protein Gene Family in Brassica napus and Identification of BnRPL34A-4 Involved in Self-Incompatibility [0.03%]
油菜核糖体蛋白基因家族的全基因组分析及自不亲和性相关基因BnRPL34A-4的鉴定
Yong Yang,Junyi Yu,Jiajun Chen et al.
Yong Yang et al.
Ribosomal proteins (RPs) have long been known for their roles in ribosomal assembly and mRNA-directed protein synthesis, but their roles in self-incompatibility (SI) are unknown. In this study, we employed a genome-wide analysis to identify...
Decoding Sorghum Root System Architecture for Resource Use Efficiency and Climate Resilience Under Multifactorial Stress Conditions [0.03%]
解码多重胁迫条件下高丹草根系构型以提高资源利用效率和气候适应力
Pramod Sargar,Pranati Jwala,Niranjan Thakur et al.
Pramod Sargar et al.
Climate-induced challenges, such as drought and nutrient depletion, are increasingly constraining global crop production, threatening food and nutritional security. Sorghum bicolor (L.), a climate-resilient cereal, demonstrates strong adapt...
Seasonal Photosynthetic Acclimation as a Key Invasiveness Character in Rugulopteryx okamurae (Dictyotales, Ochrophyta) [0.03%]
季节性光合作用适应是沟道丝藻 Okamura变种(Dictyotales,Ochrophyta)的重要侵入性特征
Jesús Rosas-Guerrero,Raquel Carmona,María Altamirano
Jesús Rosas-Guerrero
The high variability of natural environments poses significant challenges to photosynthetic organisms, which must adapt to constant fluctuations. Mechanisms such as acclimation and adaptation are essential for mitigating stress and ensuring...
Alternative Splicing Identification and Analysis of Its Regulation in Coptis chinensis Franch. Under Environmental Adaptation and Biosynthesis [0.03%]
黄连环境适应及生物合成过程中的可变剪切识别及其调控分析
Yingying Gu,Lili Zhou,Qingping Liu et al.
Yingying Gu et al.
Coptis chinensis Franch., a traditional Chinese medicine (TCM), exhibits pharmacological effects including antipyretic and analgesic, anti-arrhythmic and anti-tumor. Alternative splicing (AS) significantly impacts plant growth, development,...