SALT_TOLERANCE

作品数:236被引量:1042H指数:15
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Structures and ion transport mechanisms of plant high-affinity potassium transporters被引量:1
《Molecular Plant》2024年第3期409-422,共14页Jiangqin Wang Yanping Luo Fan Ye Zhong Jie Ding Shao Jian Zheng Shuai Qiao Yong Wang Jiangtao Guo Wei Yang Nannan Su 
supported in part by the National Key Research and Development Program of China(2022YFA1303400 to S.J.Z.and S.Q.,2020YFA0908501 to J.G.,and 2021YFF1200404 to Y.W.);the National Natural Science Foundation of China(32371204 to J.G.,82030108 and 31872796 to W.Y.,and 32371300 to Y.W.);Zhejiang Provincial Natural Science Foundation(LR19C050002 to J.G.);the China Postdoctoral Science Foundation(no.74,2023M743044 to J.W.);the National Postdoctoral Researcher Program of China(GZB20230634 to J.W.).
Plant high-affinity K^(+) transporters(HKTs)mediate Na^(+) and K^(+) uptake,maintain Na^(+)/K^(+) homeostasis,and therefore play crucial roles in plant salt tolerance.In this study,we present cryoelectron microscopy s...
关键词:HKTs structure ion selectivity mechanism salt tolerance 
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 
Cytokinin signaling promotes salt tolerance by modulating shoot chloride exclusion in maize被引量:5
《Molecular Plant》2023年第6期1031-1047,共17页Pan Yin Xiaoyan Liang Hanshu Zhao Zhipeng Xu Limei Chen Xiaohong Yang Feng Qin Jingbo Zhang Caifu Jiang 
the financial support from National Key Research and Development Program of China(2022YFA1300061 to C.J.,2022YFD1900704 and 2021YFF1000500 to J.Z.);Beijing Outstanding Young Scientist Program(BJJWZYJH01201910019026 to F.Q.);National Natural Science Foundation of China(32070306 to J.Z.);the Chinese Universities Scientific Fund(15051011 to C.J.,2022RC046 to J.Z.);the 2115 Talent Development Program of China Agricultural University.
Excessive accumulation of chloride(Cl^(-))in the aboveground tissues under saline conditions is harmful to crops.Increasing the exclusion of Cl^(-) from shoots promotes salt tolerance in various crops.However,the unde...
关键词:cytokinin signaling salt tolerance high-Cl^(-)tolerance Cl^(-)transporter MAIZE 
Anα/βhydrolase family member negatively regulates salt tolerance but promotes flowering through three distinct functions in rice被引量:5
《Molecular Plant》2022年第12期1908-1930,共23页You-Huang Xiang Jia-Jun Yu Ben Liao Jun-Xiang Shan Wang-Wei Ye Nai-Qian Dong Tao Guo Yi Kan Hai Zhang Yi-Bing Yang Ya-Chao Li Huai-Yu Zhao Hong-Xiao Yu Zi-Qi Lu Hong-Xuan Lin 
This work was supported by thegrants from Laboratory of Lingnan Modern Agriculture Project(NT2021002);National Natural Science Foundation of China(31788103);Chinese Academyof Sciences(XDB27010104,QYZDY-SSW-SMC023,159231KYSB20200008);CAS-Croucher Funding Scheme for Joint Laboratories,and National Key Laboratory of Plant MolecularGenetics。
Ongoing soil salinization drastically threatens crop growth,development,and yield worldwide.It is therefore crucial that we improve salt tolerance in rice by exploiting natural genetic variation.However,many salt-resp...
关键词:RICE salt tolerance flowering time grain yield fatty acid 
Salt with a sweet tooth:galactan synthesis impacts salt tolerance in Arabidopsis
《Molecular Plant》2021年第3期361-363,共3页Liu Wang Edwin R.Lampugnani Staffan Persson 
S.P.was supported by R@MAP Professor Funds at University of Melbourne and ARC DP and FT grants(DP190101941;FT160100218);a Villum Investigator grant(project ID:25915);Novo Nordisk Laureate grant(NNF190C0056076).
Abiotic stresses result in the loss of millions of dollars'worth of agricultural crops each year(Munns and Tester,2008).The accumulation of sodium chloride in soils is a prominent abiotic stress and poses significant ...
关键词:SYNTHESIS DOLLAR crops 
ESCRT-I Component VPS23A Sustains Salt Tolerance by Strengthening the SOS Module in Arabidopsis被引量:10
《Molecular Plant》2020年第8期1134-1148,共15页Lijuan Lou Feifei Yu Miaomiao Tian Guangchao Liu Yaorong Wu Yujiao Wu Ran Xia Jose M.Pardo Yan Guo Qi Xie 
This project was financially supported by grants from the National Key R&D Program of China(2016YFA0500501);the National Natural Science Foundation of China(31800228 and 31571441);also partially supported by the Transgenic Research Projects(2016ZX08009-003).
The Salt-Overly-Sensitive(SOS)signaling module,comprising the sodium-transport protein SOS1 and the regulatory proteins SOS2 and SOS3,is well known as the central salt excretion system,which helps protect plants again...
关键词:SOS pathway ESCRTs VPS23a SALT cell membrane 
Trimming of N-Glycans by the Golgi-Localized α-1,2-Mannosidases, MNS1 and MNS2, Is Crucial for Maintaining RSW2 Protein Abundance during Salt Stress in Arabidopsis被引量:3
《Molecular Plant》2018年第5期678-690,共13页Chuanfa Liu Guanting Niu Huchen Zhang Yafei Sun Shubin Sun Fugen Yu Shan Lu Yonghua Yang Jianming Li Zhi Hong 
This work was partly supported by grants from the National Natural Science Foundation--Outstanding Youth Foundation of China (grant no. 31322008) and the National Basic Research Program of China (grant no. 2014CB542300) to Z.H.
Asparagine (Asn/N)-Iinked glycans are important for protein folding, trafficking, and endoplasmic reticulum-associated degradation in eukaryotes. The maturation of glycoproteins involves the trimming of mannosyl res...
关键词:N-GLYCAN Golgi α-mannosidase I salt tolerance ARABIDOPSIS 
Soybean miR172a Improves Salt Tolerance and Can Function as a Long-Distance Signal被引量:6
《Molecular Plant》2016年第9期1337-1340,共4页Wen-Jia Pan Jian-Jun Tao Tong Cheng Xiao-Hua Bian Wei Wei Wan-Ke Zhang Biao Ma Shou-Yi Chen Jin-Song Zhang 
Dear Editor Soybean is an important crop for oil and protein resources but its growth and development may e6counter various abiotic stresses, including high salinity, that can hinder soybean production. Manipulation o...
Characterization of Ion Contents and Metabolic Responses to Salt Stress of Different Arabidopsis AtHKT1;1 Genotypes and Their Parental Strains被引量:8
《Molecular Plant》2013年第2期350-368,共19页Camilla B. Hill Deepa Jha Antony Bacic Mark Tester Ute Roessner 
Plants employ several strategies to maintain cellular ion homeostasis under salinity stress, including mediat-ing ion fluxes by transmembrane transport proteins and adjusting osmotic pressure by accumulating osmolytes...
关键词:abiotic stress SALINITY salt tolerance HKT sodium transporter  metabolomics enhancer trap system. 
The Phosphate Transporter PHT4;6 Is a Determinant of Salt Tolerance that Is Localized to the Golgi Apparatus of Arabidopsis被引量:16
《Molecular Plant》2009年第3期535-552,共18页Beatriz Cubero Yuko Nakagawa Xing-Yu Jiang Ken-Ji Miura Fang Li Kashchandra G. Raghothama Ray A. Bressan Paul M. Hasegawa Jose M. Pardo 
Insertion mutations that disrupt the function of PHT4;6 (At5g44370) cause NaCI hypersensitivity of Arabidopsis seedlings that is characterized by reduced growth of the primary root, enhanced lateral branching, and s...
关键词:Phosphate transport GOLGI GLYCOSYLATION salt stress. 
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