CHLOROPLAST

作品数:311被引量:1053H指数:14
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NTRC mediates the coupling of chloroplast redox rhythm with nuclear circadian clock in plant cells
《Molecular Plant》2025年第3期468-484,共17页Seol Ki Paeng Ho Byoung Chae Su Bin Bae Kieu Anh Thi Phan Min Gab Kim Dae-Jin Yun Woe-Yeon Kim C.Robertson McClung Sang Yeol Lee 
supported by the National Research Foundation of Korea(NRF)grants funded by the MSIT(grant nos.2021R1A2C1093478 and 2022R1A5A1031361 to S.Y.L.);by the Basic Science Research Program of NRF funded by the Ministry of Education(RS-2024-00462888 to S.K.P.;NRF-2022R111A1A01065660 to H.B.C.;RS-2023-00250106 to S.D.W.).
The intricate interplay between cellular circadian rhythms,primarily manifested in the chloroplast redox oscillations-characterized by diel hyperoxidation/reduction cycles of 2-Cys peroxiredoxins-and the nuclear trans...
关键词:2-Cys peroxiredoxins chloroplast redox rhythm circadian modulator NADPH-dependent thioredoxin reductase type C nuclear oscillators synchronization of circadian rhythms 
Chloroplast state transitions modulate nuclear genome stability via cytokinin signaling in Arabidopsis
《Molecular Plant》2025年第3期513-526,共14页Yajun Zeng Sujuan Duan Yawen Wang Zhifeng Zheng Zeyi Wu Meihui Shi Manchun Wang Lan Jiang Xue Li Hong-Bin Wang Hong-Lei Jin 
supported by the National Natural Science Foundation of China(grant no.32322007,32100192,and U22A20446).
Activities of the chloroplasts and nucleus are coordinated by retrograde signaling,which play crucial roles in plant development and environmental adaptation.However,the connection between chloroplast status and nucle...
关键词:chloroplast state transitions nuclear genome stability cytokinin signaling 
Chloroplast immunity: A cornerstone of plant defense被引量:1
《Molecular Plant》2024年第5期686-688,共3页Jie Liu Pan Gong Ruobin Lu Rosa Lozano-Duran Xueping Zhou Fangfang Li 
supported by grants from the National Key Research and Development Program of China(2021YFD1400400);the Natural Science Foundation of China(32320103010,32172385,and 31930089).
Increasing evidence supports the notion that pattern-recognition-receptor-mediated immunity goes beyond plasma membrane-to-nucleus signaling.With the findings of the pathways linking plasma membrane and chloroplasts a...
关键词:PLANT IMMUNITY CORNERS 
Dienediamine:A safe surrogate for the herbicide paraquat被引量:1
《Molecular Plant》2023年第12期1962-1975,共14页Henian Peng Dake Zhao Wenjun Tang Ai Peng 
the National Nature Science Foundation of China(81971822,81270136,82188101,21725205);National Key R&D Program of China(2021YFF0701601,2022YFA1503702).
Paraquat(PQ)has been used as an herbicide worldwide because of its potent activity against weeds.However,it is highly toxic to humans.The very high fatality of PQ poisoning is due to its inherent toxicity and the lack...
关键词:dienediamine herbicidal activity safety assessment CHLOROPLAST PARAQUAT Arabidopsis thaliana 
Rhythms of chloroplast magnesium import contribute to daily metabolic feedback
《Molecular Plant》2022年第11期1659-1661,共3页Xiang Li Christopher R.Buckley Michael J.Haydon 
Organisms have evolved stable yet dynamic circadian systems to coordinate biological rhythms that contribute to fitness.Circadian oscillators generate rhythms via transcriptional and post-transcriptional control of ke...
关键词:MAGNESIUM metabolism COORDINATE 
The supercomplex formation between the chloroplast NADH dehydrogenase-like complex and photosystem Ⅰ被引量:1
《Molecular Plant》2022年第4期589-590,共2页Toshiharu Shikanai 
The chloroplast genomes of land plants encode 11 genes(ndhA-ndhK)for proteins similar to the subunits of respiratory complex I(NADH dehydrogenase)with some exceptions.It was a mystery why the chloroplast genomes encod...
关键词:structure. NADH COMPLEX 
Putting the brakes on chloroplast stress signaling
《Molecular Plant》2022年第3期388-390,共3页David W.Tano Jesse D.Woodson 
As sessile organisms,plants must be able to sense their surroundings and adjust.One way plants do this is by using their energy-producing organelles(chloroplasts and mitochondria).During environmental stress,these org...
关键词:ORGANELLE STRESS hundreds 
Supramolecular assembly of chloroplast NADH dehydrogenase-like complex with photosystem Ⅰfrom Arabidopsis thaliana被引量:3
《Molecular Plant》2022年第3期454-467,共14页Xiaodong Su Duanfang Cao Xiaowei Pan Lifang Shi Zhenfeng Liu Luca Dall’Osto Roberto Bassi Xinzheng Zhang Mei Li 
The project was funded by the Strategic Priority Research Program of the CAS(XDB27020106);the National Natural Science Foundation of China(31930064,31970264,31770778);the CAS Project for Young Scientists in Basic Research(#YSBR-015);the National Key R&D Program of China(2017YFA0503702);R.B.and L.D.thank the University of Verona(grant RIBA 2017 to R.B.);MUR(grant PRIN 2018 to L.D.)for financial support.X.S.,D.C.and X.P.are sponsored by the Youth Innovation Promotion Association at the Chinese Academy of Sciences(2018123,2018124 and 2018128).
Cyclic electron transport/flow(CET/CEF)in chloroplasts is a regulatory process essential for the optimization of plant photosynthetic efficiency.A crucial CEF pathway is catalyzed by a membrane-embedded NADH dehydroge...
关键词:cyclic electron transport/flow NADH dehydrogenase-like(NDH)complex photosystem I structure Arabidopsis thaliana 
Protein Quality Control in Plant Organelles:Current Progress and Future Perspectives被引量:11
《Molecular Plant》2021年第1期95-114,共20页Jing-Liang Sun Jin-Yu Li Mei-Jing Wang Ze-Ting Song Jian-Xiang Liu 
Projects associated with protein homeostasis in the Liu Lab are financially supported by grants from the National Natural Science Foundation of China(31625004,31872653,and 31800210);the Zhejiang Provincial Talent Program(2019R52005);the 111 Project(B14027).
The endoplasmic reticulum,chloroplasts,and mitochondria are major plant organelles for protein synthesis,photosynthesis,metabolism,and energy production.Protein homeostasis in these organelles,maintained by a balance ...
关键词:AUTOPHAGY chloroplast-associated protein degradation ER-associated protein degradation mitochondria-associated protein degradation protein quality control unfolded protein response 
Normal Structure and Function of Endothecium Chloroplasts Maintained by ZmMs33-Mediated Lipid Biosynthesis in Tapetal Cells Are Critical for Anther Development in Maize被引量:12
《Molecular Plant》2020年第11期1624-1643,共20页Taotao Zhu Ziwen Li Xueli An Yan Long Xiaofeng Xue Ke Xie Biao Ma Danfeng Zhang Yijian Guan Canfang Niu Zhenying Dong Quancan Hou Lina Zhao Suowei Wu Jinping Li Weiwei Jin Xiangyuan Wan 
the National Key Research and Development Program of China(2017YFD0102001,2018YFD0100806,2017YFD0101201);the National Transgenic Major Program of China(2018ZX0801006B,2018ZX0800922B);the National Natural Science Foundation of China(31971958,31771875,31871702);the Fundamental Research Funds for the Central Universities of China(06500136);the"Ten Thousand Plan"-National High Level Talents Special Support Plan(to X.W.);the Beijing Science&Technology Plan Program(Z191100004019005).
Genic male sterility(GMS)is critical for heterosis utilization and hybrid seed production.Although GMS mutants and genes have been studied extensively in plants,it has remained unclear whether chloroplast-associated p...
关键词:ZmMs33/ZmGPAT6 CHLOROPLAST SnRK1 AUTOPHAGY anther development MAIZE 
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