PHOTOSYNTHESIS

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Highly Active Oxygen Evolution Integrating with Highly Selective CO_(2)-to-CO Reduction
《Nano-Micro Letters》2025年第8期189-201,共13页Chaowei Wang Laihong Geng Yingpu Bi 
supported by the National Natural Science Foundation of China(21832005,22072168,22002175);Major Program of the Lanzhou Institute of Chemical Physics,CAS(No.ZYFZFX-3);Major Science and Technology Projects in Gansu Province(22ZD6GA003);West Light Foundation of The Chinese Academy of Sciences(xbzg-zdsys-202209).
Artificial carbon fixation is a promising pathway for achieving the carbon cycle and environment remediation.However,the sluggish kinetics of oxygen evolution reaction(OER)and poor selectivity of CO_(2) reduction seri...
关键词:PHOTOSYNTHESIS Oxygen evolution CO_(2)reduction PHOTOANODE Single-atom Co-N5 
Inhibition mechanisms of perchlorate on the photosynthesis of cyanobacterium Synechocystis sp.PCC6803:Insights from physiology and transcriptome analysis
《Journal of Environmental Sciences》2025年第4期515-531,共17页Xianyuan Zhang Yixiao Zhang Zixu Chen Lanzhou Chen Xiaoyan Li Gaohong Wang 
supported by the Project of Chinese Manned Spaceflight(No.YYWT-0801-EXP-09);the Strategic Priority Research Program of the Chinese Academy of Sciences(No.XDA17010502);Jiangsu Province Ecological Environment Scientific Research Project(No.2022008).
Perchlorate(ClO_(4)^(−))is a type of novel persistent inorganic pollutant that has gained increasing attention because of its high solubility,poor degradability,and widespread distribution.However,the impacts of perch...
关键词:PERCHLORATE SYNECHOCYSTIS PHOTOSYNTHESIS Oxidative stress TRANSCRIPTOME 
Combined physiological and pathway analysis revealed the effect of Sporisorium destruens on photosynthesis in broomcorn millet(Panicum miliaceum L.)
《Journal of Integrative Agriculture》2025年第3期1065-1079,共15页Fei Jin Lei Xu Zhihu Lü Yuchuan Zhang Qinghua Yang Qingfang Han Baili Feng 
supported by the China Agriculture Research System of MOF and MARA(CARS-06-A26);the“Two-chain”Fusion Crop Breeding Key Project of Shaanxi,China(2021-LLRH-07)。
Photosynthesis is the basis of crop growth and is sensitive to stress.Smut(Sporisorium destruens)is the primary disease in the production of broomcorn millet(Panicum miliaceum L.).This study evaluated the effects of i...
关键词:broomcorn millet SMUT Sporisorium destruens PHOTOSYNTHESIS 
New molecular chaperone roles for CO_(2)assimilation in early land plants
《Molecular Plant》2025年第3期386-388,共3页Julie L.McDonald Robert H.Wilson 
supported by the National Science Foundation's Division of Molecular and Cellular Biosciences(2244770);for R.H.W.and J.L.M.and the Martin Family Society Fellowship for Sustainability(3304800)for J.L.M.
Carbon assimilation during photosynthesis is catalyzed by the enzyme ribulose-1,5-bisphosphate carboxylase/oxygenase(RuBisCO)in a process that annually transfers more than 150 gigatons of atmospheric CO_(2)into plant ...
关键词:early land plants CO assimilation PHOTOSYNTHESIS RUBISCO carbon assimilation plant biomass lai molecular chaperones ribulose bisphosphate carboxylase oxygenase 
Abscisic acid alleviates photosynthetic damage in the tomato ABA-deficient mutant sitiens and protects photosystemⅡfrom damage via the WRKY22-PsbA complex under low-temperature stress
《Journal of Integrative Agriculture》2025年第2期546-563,共18页Jiamao Gu Pengkun Liu Wenting Nie Zhijun Wang Xiaoyu Cui Hongdan Fu Feng Wang Mingfang Qi Zhouping Sun Tianlai Li Yufeng Liu 
supported by the National Natural Science Foundation of China(32272791 and 32072651);the earmarked fund for CARS(CARS-23);the Joint Fund for Innovation Enhancement of Liaoning Province,China(2021-NLTS-11-01);the support program for Young and Middle-aged Scientific and Technological Innovation Talents,China(RC210293)。
Abscisic acid(ABA)plays a key role in promoting the growth and development of plants,as well as mediating the responses of plants to adverse environmental conditions.Here,we measured the photosynthetic capacity of wil...
关键词:ABA low-temperature stress PHOTOSYNTHESIS RNA-seq SlWRKY22 SlPsbA 
The genetic basis and improvement of photosynthesis in tomato
《Horticultural Plant Journal》2025年第1期69-84,共16页Haiqiang Dong Fangman Li Xiaoxiao Xuan John Kojo Ahiakpa Jinbao Tao Xingyu Zhang Pingfei Ge Yaru Wang Wenxian Gai Yuyang Zhang 
supported by grants from the National Key Research&Development Plan(Grants Nos.2022YFF1003002;2022YFD1200502);National Natural Science Foundation of China(Grant Nos.32372696;31991182);Wuhan Biological Breeding Major Project(Grant No.2022021302024852);Key Project of Hubei Hongshan Laboratory(2021hszd007);HZAU-AGIS Cooperation Fund(Grant No.SZYJY2023022);Funds for High Quality Development of Hubei Seed Industry(HBZY2023B004);Hubei Agriculture Research System(2023HBSTX4-06);Hubei Key Research&Development Plan(Grants Nos.2022BBA0066,2022BBA0062)。
Photosynthesis is one the most important chemical reaction in plants,and it is the ultimate energy source of any living organisms.The light and dark reactions are two essential phases of photosynthesis.Light reaction ...
关键词:PHOTOSYNTHESIS TOMATO GENETICS IMPROVEMENT LEAF FRUIT 
Effects of Nitrogen Supply on the Physiological and Morphological Responses to Elevated [CO2] in Yellow Birch (Betula alleghaniensis Britt.)
《American Journal of Plant Sciences》2025年第1期88-113,共26页Piumi Maheshika Godakanda Sahari Inoue Binyam Tedla Qing-Lai Dang 
Climate change impacts soil nitrogen, influencing plant responses to elevated atmospheric [CO2]. Understanding the interaction between nitrogen supply and elevated [CO2] is crucial for predicting plant future performa...
关键词:Climate Change Yellow Birch (Betula alleghaniensis Britt.) Elevated [CO2] Soil Nitrogen Availability Growth Biomass PHOTOSYNTHESIS 
Exploring the Impacts of Elevated CO_(2)on Food Security:Nutrient Assimilation,Plant Growth,and Crop Quality
《Engineering》2025年第1期234-244,共11页Felix D.Dakora Huihui Li Jun Zhao 
supported by the Nanfan special project,CAAS(YBXM2408);the Innovation Program of Chinese Academy of Agricultural Sciences(CAAS-CSIAF-202303)to Huihui Li;a grant from Sanya Municipal Program for Science and Technology Innovation(2022KJCX87);the Nanfan special project,CAAS(YBXM2319),to Jun Zhao。
Despite its negative impacts on plant functioning,climate change benefits plants at the cellular level.For example,the stimulation of C3 photosynthesis by elevated CO_(2)can increase N2 fixation by 73%and grain yield ...
关键词:PHOTOSYNTHESIS N_(2)fixation Reduced plant nitrogen Amino acids and nutrients 
Exogenous Alpha-Ketoglutarate(AKG)Modulate Physiological Characteristics,Photosynthesis,Secondary Metabolism and Antioxidant Defense System in Peganum Harmala L.under Nickel Stress
《Phyton-International Journal of Experimental Botany》2025年第1期137-155,共19页Marwa Rezgui Wided Ben Ammar Muhammad Nazim Walid Soufan Chiraz Chaffei Haouari 
Researchers Supporting Project No.(RSP2025R390),King Saud University,Riyadh,Saudi Arabia.
Nickel(Ni)toxicity significantly impairs plant growth,photosynthesis,and metabolism by inducing oxidative stress.This study evaluates the potential of exogenous Alpha-Ketoglutarate(AKG)in mitigating Ni-induced stress ...
关键词:ALPHA-KETOGLUTARATE antioxidative enzymes oxidative stress Peganum harmala NICKEL 
Developing dual-state ultra-efficient emissive carbon dots as internal and external artificial antenna of chloroplasts to enhance plant-photosynthesis
《Aggregate》2024年第6期284-293,共10页Shijie Zhao Hongyang Wang Jiuxing He Linlin Dong Tianyou Xie Yang Luo Jie Li Patrick Osei Lartey Kunpeng Guo Jialei Liu 
National Natural Science Foundation of China,Grant/Award Number:22372114;National Key Research and Development Program of China,Grant/Award Number:2023YFD2202104;Science and Technology Project of Xinjiang Uygur Autonomous Region,Grant/Award Numbers:2022B02033-3,2022B02049-3-3;Natural Science Foundation of Shanxi Province,Grant/Award Number:202203021211143。
Introducing fluorescent nanomaterials as artificial antennas of chloroplasts offers a promising approach to enhancing light harvesting in photosynthesis.However,this technology is limited by the dependence of the fluo...
关键词:artificial antennas carbon dots plant-photosynthesis augmentation solar energy capture ultra-efficient emission 
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