Removal of Photosystem I Subunit PsaE Leads to Photosynthetic Hydrogen Production in a Cyanobacterial PsaF-HoxYH Fusion Strain [0.03%]
PSAЕ亚单位的去除促使蓝藻中PSAF-HOXyh融合菌株进行光合产氢
Florian Paul,Nadine Strabel,Marko Boehm et al.
Florian Paul et al.
Photosynthetic hydrogen (photoH2) production is a promising approach for the utilisation of solar energy. Fusion of a hydrogenase (H2ase) to photosystem I (PSI) provides a direct light-driven route for photoH2 generation. We established the...
CHG Hypomethylation of BoCYP83A1 May Contribute to Methyl Jasmonate-Induced Sulforaphane Accumulation in Broccoli [0.03%]
博CYP83A1低甲基化可能有助于甲基茉莉酸诱导的芽甘蓝硫代葡萄糖苷异硫氰酸酯含量增加中的萝卜硫素积累
Zhenzhu Hu,Ting Wang,Dandan Fei et al.
Zhenzhu Hu et al.
Sulforaphane (SFN) is widely recognized for its health-promoting benefits. While several studies have reported that methyl jasmonate (MeJA) enhances SFN accumulation, the role of epigenetic regulation remains unclear. Here, we performed an ...
Climate Warming and Plant Disease: Mechanistic Insights Into Pathogenic Stress Resilience [0.03%]
气候变化与植物病害:致病压力抗逆性的机制解析
Prabhat K Chauhan,Sakshi Tomar,Simpal Kumari et al.
Prabhat K Chauhan et al.
Climate warming is rapidly reshaping plant-pathogen interactions, leading to increased disease incidence and substantial crop losses worldwide. This review examines how rising temperature, humidity and shifting precipitation patterns intens...
A Dose-Response Framework for Ca2+-ROS-Associated Modulation of Aerenchyma Formation Under Flooding Stress [0.03%]
缺氧低磷胁迫下钙离子介导的活性氧信号参与泡状细胞形成的剂量效应模型研究
Farkhanda Naz,Zhongxun Yuan,Hadi Erfani et al.
Farkhanda Naz et al.
Flooding stress associated with climate variability requires a better understanding of adaptive plant responses and their regulation in flood-prone systems. This study examines whether dose-dependent modulation of Ca2+/ROS-associated proces...
Integrated Multi-Omic Analyses Uncover a Regulatory Link Between Photosynthesis and Drought Tolerance in Field-Grown Sorghum [0.03%]
整合多组学分析揭示了田间种植高粱光合作用与抗旱性的调控联系
Li&#x;ang Yu,Giovanni Melandri,Anna C Nelson Dittrich et al.
Li&#x;ang Yu et al.
Global warming and increasing water scarcity pose major challenges to agriculture, emphasising the need to translate stress-biology insights into the development of drought-resilient cultivars. In this study, we evaluated a panel of six div...
Cotton Salt Stress Resilience: Integrating Physiological, Molecular, and Agronomic Strategies for Next-Generation Breeding [0.03%]
棉花耐盐胁迫育种:生理、分子和农艺策略的整合以应对下一代育种挑战
Saher Dilber,Luying Shao,Hangyuan Guo et al.
Saher Dilber et al.
Soil salinity is a major challenge for plant growth, triggering a two-phase stress response: an immediate osmotic phase followed by a longer-term ionic phase. Plants sense and respond to salt stress through intricate signalling networks inv...
Multi-Scale Mechanisms of Zn-Se Antagonism in Wheat After Spray: From Subcellular Sequestration to Transcriptional Regulation [0.03%]
叶面喷施锌硒对小麦生长的拮抗作用及转录调控机制
Yafei Li,Yanzi Gou,Yunuo Li et al.
Yafei Li et al.
Foliar Zn-Se application is a promising strategy to alleviate human micronutrient deficiencies, yet their interaction during co-application remains unclear. Through field and pot experiments, we investigated Zn-Se antagonism in wheat across...
Transpiration Plays a Minor Role in the Latitudinal Pattern of Leaf Phosphorus Concentration [0.03%]
蒸腾作用在叶片磷浓度纬度格局中的作用较小
Qingquan Meng,Jia Wang,Hans Lambers et al.
Qingquan Meng et al.
Killing Two Birds With One Stone: Iron Biofortification as a Strategy for Enhancing Nutritional Value and Reducing Cadmium Accumulation in Rice Grain [0.03%]
一举两得:利用铁生物强化提高稻米营养价值并减少镉累积的策略
Lanying Li,Caiyan Chen
Lanying Li
Rice is a staple crop for nearly half of the global human population; however, it is typically low in iron (Fe) and accumulates high levels of cadmium (Cd) in grains when cultivated in Cd-polluted soils. Biofortifying rice with Fe nutrient ...
Molecular Chaperone Networks in Plants: Maintaining Proteostasis and Enhancing Stress Resilience for Crop Improvement [0.03%]
植物分子伴侣网络:维持蛋白质稳态和提高作物逆境抗性以改善农作物品质
Mingfang Yang,Anqin Gao,Tsz-Yan Chan et al.
Mingfang Yang et al.
Molecular chaperones play a central role in the plant proteostasis machinery by aiding the folding of nascent proteins, preventing aggregation, and repairing or degrading damaged proteins. These functions are especially essential during abi...