Photosynthetic function analysis under rhizosphere anaerobic conditions in early-stage cassava [0.03%]
cassava苗期根际厌氧条件的光合功能分析
Lado Aquilino,Kirana Luthfia Nayatami,Alex Tamu et al.
Lado Aquilino et al.
To enhance land use efficiency and meet rising cassava demand, cultivation is expected to expand into unsuitable lowland areas. This trend highlights the need for waterlogging-tolerant cassava genotypes. However, research on cassava surviva...
Coordinated diffusional and biochemical limitations underlie age-related decline in photosynthetic capacity of rice leaves [0.03%]
叶片中协同的扩散限制和生化限制是水稻光合作用能力随年龄下降的原因
Haifeng Xiong,Fengshuo Ma,Mengdi Mu et al.
Haifeng Xiong et al.
The net photosynthetic rate (A) decreases with leaf aging and senescence, primarily due to reductions in stomatal conductance (gs), mesophyll conductance (gm), and the maximum carboxylation rate (Vcmax). However, the relative contributions ...
Elevational variation in leaf anatomical and stomatal traits and their allometric relationships of Quercus variabilis from a warm-temperate forest [0.03%]
温暖森林中辽东栎叶解剖结构和气孔特征的海拔变异及其叶经济谱关系研究
Huifang Zhang,Yang Liu,Siyuan Huangfu et al.
Huifang Zhang et al.
Leaf anatomical structure and stomata play pivotal roles in optimizing and regulating photosynthesis and transpiration. Exploring the plastic variability and allometric relationships of leaf anatomical and stomatal traits across an elevatio...
The molecular basis of the most red-shifted allophycocyanin discovered to date [0.03%]
迄今发现的最大红移藻红蛋白的分子机理研究
Min Chen,Wutunan Ma,Tiarne Michelle
Min Chen
Allophycocyanin (APC) protein subunits responsible for red-shifted phycobilisomes are induced under far-red light conditions. The ApcB2 (encoded by gene XM38_020890) and ApcD4 (encoded by gene XM38_020900) in H. hongdechloris are paralogous...
Light-induced increase in the steady-state chlorophyll fluorescence in cyanobacteria reflects induction of energy dissipation complementary to orange carotenoid protein-dependent thermal dissipation [0.03%]
蓝细菌中的稳态叶绿素荧光光诱导增加反映了与类胡萝卜素橙色蛋白依赖性热耗散互补的能耗散的诱导
Takako Ogawa,Hiroko Takahashi,Yoshitaka Nishiyama et al.
Takako Ogawa et al.
Under high-light conditions, the dissipation of excess energy as heat in the light-harvesting antenna is essential for photosynthetic organisms to protect the photosynthetic machinery. In the case of cyanobacteria, however, the induction of...
Christopher J Gisriel,Wendy M Schluchter,Fei Gan et al.
Christopher J Gisriel et al.
Diurnal light fitness of the C3 and C4 species from the genus Atriplex under control and drought conditions [0.03%]
干旱条件下C3和C4盐地碱篷属植物的日间光适应性研究
Reham M Nada,Abdel Hamid A Khedr,Mamdouh S Serag et al.
Reham M Nada et al.
The literature showed contradictory results regarding the acclimation of C3 and C4 photosynthesis to low light intensities. Atriplex halimus, A. nummularia (C4, NAD-ME), A. portulacoides and A. prostrata (C3) were exposed to three natural l...
Molecular level insight into non-bilayer structure formation in thylakoid membranes: a molecular dynamics study [0.03%]
分子动力学研究中在类囊体膜上非双层结构形成的分子机制
Bence Fehér,Gergely Nagy,Győző Garab
Bence Fehér
In oxygenic photosynthetic organisms, the light reactions are performed by protein complexes embedded in the lipid bilayer of thylakoid membranes (TMs). The organization of the bulk lipid molecules into bilayer structures provide optimal co...
Effect of cationic antiseptics on the vectorial electron and proton transfer in chromatophores of photosynthetic bacteria [0.03%]
阳离子抗菌剂对光合成细菌色素体中定向电子和质子转移的影响
M D Mamedov,E P Lukashev,P P Knox et al.
M D Mamedov et al.
The effect of the cationic antiseptics octenidine and miramistin on electron transfer reactions in photosynthetic bacterial chromatophores of Cereibacter sphaeroides has been studied using direct electrometric and flash photolysis technique...
The lumenal domain of Cyt b559 interacting with extrinsic subunits is crucial for accumulation of functional photosystem II [0.03%]
cyt b559 的腔内结构域与其外源亚基的相互作用对功能型光系统II的积累至关重要
Ko Imaizumi,Shin-Ichi Arimura,Kentaro Ifuku
Ko Imaizumi
Cytochrome b559 (Cyt b559) is an essential component of the photosystem II (PSII) reaction center core. It consists of two subunits, PsbE and PsbF, which together coordinate a redox-active heme. While extensive studies have revealed the imp...