Hiraku Suda,Takuma Hagihara,Satoshi Ogawa et al.
Hiraku Suda et al.
Plants generate long-range signals via complex mechanisms that integrate electrical, calcium, and chemical signals. While animals employ synaptic/neural connections for cell-cell and organ-organ signal transduction, plants depend on special...
Eva Kondorosi
Eva Kondorosi
This article traces more than four decades of Eva Kondorosi's personal life and scientific journey in symbiotic nitrogen fixation, from early insights into nitrogenase structure to the molecular mechanisms governing root nodule development ...
Veli Vural Uslu,Athanasios Dalakouras,Lina Sueselbeck et al.
Veli Vural Uslu et al.
RNA interference (RNAi) has emerged as a promising approach to sustainable crop protection. Extensive proof-of-concept studies have led to the approval of the first sprayable plant protection products in the United States and China, with Eu...
Sensing Plant Photosynthesis Using Solar-Induced Chlorophyll Fluorescence: From Chloroplasts to the Globe [0.03%]
基于太阳诱导叶绿素荧光的植物光合作用观测:从类囊体膜到地球系统
Xi Yang,Kaiyu Guan,Min Chen et al.
Xi Yang et al.
Photosynthesis is the fundamental biological process that introduced oxygen into Earth's atmosphere and continues to power life, from the earliest single-celled organisms to entire global ecosystems. Yet, measuring photosynthesis across sca...
Zeyu Jin,Zhen Yan
Zeyu Jin
Chloroplasts, the photosynthetic organelles of plants and algae, rely on the import of thousands of nuclear-encoded proteins to sustain their diverse physiological roles. This process is mediated by the coordinated action of the translocon ...
Yansong Miao,Yanning Wang,Eden Vina Lamoste Grate et al.
Yansong Miao et al.
Biomolecular condensates have emerged as versatile regulators of plant cellular processes, offering a dynamic and reversible mechanism to coordinate development, stress response, and spatial organization. Through phase separation, these con...
Ho-Wei Wu,James C W Locke
Ho-Wei Wu
The plant circadian clock enables the precise timing of physiological processes across the day-night cycle by generating endogenous 24-h rhythms in gene expression. In Arabidopsis, an iteration between experiments and modeling has uncovered...
Miyo Terao Morita,Takeshi Nishimura,Hiromasa Shikata
Miyo Terao Morita
Gravitropism allows plants to reorient their growth along the gravity vector by sensing and responding to changes in orientation. This review summarizes recent advances in elucidating the molecular mechanisms underlying gravity sensing and ...
In Vivo Monitoring of Energy Metabolism with Genetically Encoded Fluorescent Biosensors [0.03%]
利用基因编码的荧光生物传感器在体监测能量代谢
Jan-Ole Niemeier,Pedro Barreto,Bruce Morgan et al.
Jan-Ole Niemeier et al.
All organisms fuel and build themselves through their energy metabolism. While classic biochemistry conceptualizes the fluxes of energy and matter, our understanding of how energy metabolism works in vivo contains major gaps. One reason is ...
Maarten Besten,Anna Daamen,Matyás Fendrych et al.
Maarten Besten et al.
The advent of spatial and quantitative biology has led to immense advances in understanding the complex inner workings of plants, down to the molecular scale. Functional imaging of live plants, which enables the spatial and quantitative map...