SALT_STRESS

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GreenPhos,a universal method for in-depth measurement of plant phosphoproteomes with high quantitative reproducibility
《Molecular Plant》2024年第1期199-213,共15页Xiaoxiao Duan Yuanya Zhang Xiahe Huang Xiao Ma Hui Gao Yan Wang Zhen Xiao Chengcheng Huang Zhongshu Wang Bolong Li Wenqiang Yang Yingchun Wang 
support from the Ministry of Science and Technology of the People's Republic of China(2019YFA0707100,2019YFA0802203);Strategic Priority Research Program of Chinese Academy of Sciences(XDA24040202);National Key Research and Development Program of China(2022YFF1001704)。
Protein phosphorylation regulates a variety of important cellular and physiological processes in plants.In-depth profiling of plant phosphoproteomes has been more technically challenging than that of animal phosphopro...
关键词:plant phosphoproteomics PHOSPHOPEPTIDES LC–MS ARABIDOPSIS salt stress 
Condensation of STM is critical for shoot meristem maintenance and salt tolerance in Arabidopsis被引量:3
《Molecular Plant》2023年第9期1445-1459,共15页Xiuwei Cao Qingwei Du Yahe Guo Ying Wang Yuling Jiao 
the Natural Science Foundation of China(grants 31825002 and 32230010 to Y.J.,and 32270345 to Y.W.);X.C.is a fellow of the China Postdoctoral Science Foundation(2020M670515);the Newton Advanced Fellowship of the Royal Society(NAF\R1\180125).
The shoot meristem generates the entire shoot system and is precisely maintained throughout the life cycle under various environmental challenges.In this study,we identified a prion-like domain(PrD)in the key shoot me...
关键词:intrinsically disordered proteins KNOX1 shoot apical meristem biomolecular condensate salt stress axillary meristem 
CLE14 functions as a "brake signal" to suppress age-dependent and stress-induced leaf senescence by promoting JUB1-mediated ROS scavenging in Arabidopsis被引量:6
《Molecular Plant》2022年第1期179-188,共10页Zenglin Zhang Cheng Liu Kui Li Xiaoxu Li Mengmeng Xu Yongfeng Guo 
the National Natural Science Foundation of China(31571494 to Y.G.and 31600991 to Z.L.),China;the Central Public-interest Scientific Institution Basal Research Fund,CAAS(2014ZL046 to Y.G.and Y2016PT51 to Z.L.),China;the Ministry of Agriculture“948”Program(2013-Z4 to Y.G.);the Agricultural Science and Technology Innovation Program,Chinese Academy of Agricultural Sciences(ASTIP-TRI02 to Y.G.),China.
Leaf senescence is an important developmental process in the plant life cycle and has a significant impact on agriculture.When facing harsh environmental conditions,monocarpic plants often initiate early leaf senes-ce...
关键词:CLE14 peptide signal leaf senescence salt stress ABA ROS JUB1 
Dynamic changes of phosphatidylinositol and phosphatidylinositol 4-phosphate levels modulate H^(+)-ATPase and Na^(+)/H^(+) antiporter activities to maintain ion homeostasis in Arabidopsis under salt stress被引量:14
《Molecular Plant》2021年第12期2000-2014,共15页Yongqing Yang Xiuli Han Liang Ma Yujiao Wu Xiao Liu Haiqi Fu Guoyong Liu Xiaoguang Lei Yan Guo 
supported by grants ofrom the National Natural Science Foundation of China(31430012,31872659,32070301,U1706201,31921001,31861133005,21625201,21961142010,21661140001,91853202,and 21521003);the National Key Research and Development Program of China(2017YFA0505200);the Beijing Outstanding Young Scientist Program(BJJWZYJH01201910001001).
Plant metabolites are dynamically modified and distributed in response to environmental changes.How-ever,it is poorly understood how metabolic change functions in plant stress responses.Maintaining ion ho-meostasis un...
关键词:Arabidopsis thaliana endogenous small molecules H^(+)-ATPase Na^(+)/H^(+)antiporter salt stress 
GSK3-mediated stress signaling inhibits legume-rhizobium symbiosis by phosphorylating GmNSP1 in soybean被引量:14
《Molecular Plant》2021年第3期488-502,共15页Chunmei He Hui Gao Haijiao Wang Yun Guo Miao He Yaqi Peng Xuelu Wang 
This work was supported by grant 2016YFD0100700 from the National Key Research and Development Program of China(H.W.and B.Z.);grant 0120150092 from the Agricultural Research Outstanding Talents and Innovation Team of Ministry of Agriculture(to X.W.);grant 31870257 from the National Natural Science Foundation of China(to X.W.);grants 2014RC002(to X.W.)and 2662018QD014(to H.W.)from the Fundamental Research Funds for the Central Universities of Huazhong Agricultural University.
Legumes establish symbiotic associations with rhizobia for biological nitrogen fixation.This process is highly regulated by various abiotic stresses,but the underlying genetic and molecular mechanisms remain largely u...
关键词:nodule formation rhizobial infection salt stress SOYBEAN SYMBIOSIS 
Cell wallβ-1,4-galactan regulated by the BPC1/BPC2-GALS1 module aggravates salt sensitivity in Arabidopsis thaliana被引量:8
《Molecular Plant》2021年第3期411-425,共15页Jingwei Yan Ya Liu Lan Yang Huan He Yun Huang Lin Fang Henrik Vibe Scheller Mingyi Jiang Aying Zhang 
This study was supported by grants from the National Natural Science Foundation of China(31871534 and 32001445);the Natural Science Foundation of Jiangsu Province(BK20200557);the China Postdoctoral Science Foundation(2019M651846);the Six Talent Peaks Program of Jiangsu Province(2016-NY-079);and the Natural Science Foundation of Guangdong Province(2018A030313686).H.V.S.was supported through the Joint BioEnergy Institute(http://www.jbei.org)by the U.S.Department of Energy,Office of Science,Office of Biological and Environmental Research,through contract DE-AC02-05CH11231 between Lawrence Berkeley National Laboratory and the U.S.Department of Energy.
Salinity severely reduces plant growth and limits agricultural productivity.Dynamic changes and rearrangement of the plant cell wall is an important response to salt stress,but relatively little is known about the bio...
关键词:salt stress β-1 4-galactan GALS1 BPC1/BPC2 Arabidopsis thaliana 
SKIP Confers Osmotic Tolerance during Salt Stress by Controlling Alternative Gene Splicing in Arabidopsis被引量:11
《Molecular Plant》2015年第7期1038-1052,共15页Jinlin Feng dingjing Li Zhaoxu Gao Yaru Lu Junya Yu Qian Zheng Shuning Yan Wenjiao Zhang Hang He Ligeng Ma Zhengge Zhu 
Deciphering the mechanisms underlying plant responses to abiotic stress is key for improving plant stress resistance. Much is known about the regulation of gene expression in response to salt stress at the tran- scrip...
关键词:salt response osmotic tolerance SKIP alternative splicing posttranscriptional regulation 
Salt Stress in Arabidopsis: Lipid Transfer Protein AZI1 and Its Control by Mitogen-Activated Protein Kinase MPK3被引量:14
《Molecular Plant》2014年第4期722-738,共17页Andrea Pitzschke Sneha Datta Helene Persak 
A plant's capability to cope with environmental challenges largely relies on signal transmission through mitogen-activated protein kinase (MAPK) cascades. In Arabidopsis thaliana, MPK3 is particularly strongly asso...
关键词:salt stress ARABIDOPSIS MAPK MPK3 lipid transfer protein AZI1 PHOSPHORYLATION in vivo interaction. 
Salt Stress Triggers Phosphorylation of the Arabidopsis Vacuolar K+ Channel TPK1 by Calcium-Dependent Protein Kinases (CDPKs)被引量:6
《Molecular Plant》2013年第4期1274-1289,共16页Andreas Latz Norbert Mehlmer Simone Zapf Thomas D. Mueller Bernhard Wurzinger Barbara Pfister Edina Csaszar Rainer Hedrich Markus Teige Dirk Becker 
the Austrian Science Foundation (FWF) to M.T.,grants of the DFG to R.H.,T.D.M.,D.B.
14-3-3 proteins play an important role in the regulation of many cellular processes. The Arabidopsis vacuolar two-pore K+ channel 1 (TPK1) interacts with the 14-3-3 protein GRF6 (GF14-λ). Upon phosphorylation of...
关键词:potassium channel VACUOLE CALCIUM calcium-dependent kinase 14-3-3 protein salt stress. 
The Salt Overly Sensitive (SOS) Pathway: Established and Emerging Roles被引量:27
《Molecular Plant》2013年第2期275-286,共12页Hongtao Ji José M. Pardo Giorgia Batelli Michael J. Van Oosten Ray A. Bressan Xia Li 
We would like to acknowledge support from the National Science Foundation of China,the National Program on Key Basic Research Project,the Key Basic Research Project of Applied Basic Research Program of Hebei Province,the National Transgenic Key Project of MOA,the Ministry of Science and Innovation of Spain,the International Exchange Program of the University of Naples ‘Federico Ⅱ' to G.B.No conflict of interest declared
Soil salinity is a growing problem around the world with special relevance in farmlands. The ability to sense and respond to environmental stimuli is among the most fundamental processes that enable plants to survive....
关键词:AUXIN ion homeostasis root system architecture salt stress the SOS signaling pathway. 
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