植物科学 Plant
盐碱胁迫 Salt Stress
温度胁迫 Temperature Stress
重金属胁迫 Heavy Metal Stress
水旱胁迫 Water Stress
生物胁迫 Biotic Stress
植物营养 Nutrient Research
生长发育 Growth and Development
互作共生 Interaction & Symbiosis
盐碱胁迫 Salt Stress
C2019-006,周扬、江行玉,海南大学,BMC Plant Biology ,拟南芥,根部分生区(距离根尖120μm),Na+、H+
Co-expression of SpSOS1 and SpAHA1 in transgenic Arabidopsis plants improves salinity tolerance
C2019-022,谢潮添,集美大学,Algal research,紫菜,K+、Na+、H+
K+ and Na+ transport contribute to K+/Na+ homeostasis in Pyropia haitanensis under hypersaline stress
C2019-026,王玮、王文强,山东农业大学、枣庄学院,J of integr plant biol,小麦,根部分生区,Na+、K+、H+
The involvement of wheat (Triticum aestivum L.) U-box E3 ubiquitin ligase TaPUB1 in salt stress tolerance
C2017-038,何正权、邱文敏 ,三峡大学、中国林业科学研究院亚热带林业研究所,Environ Exp Bot,拟南芥,根,Na+、H+
Overexpression of cysteine protease gene from Salix matsudana enhances salt tolerance in transgenic Arabidopsis
C2018-026,张国平,浙江大学农学系,浙江省作物种质资源重点实验室,Plant Cell Physiol ,大麦,根部成熟区,K+、Ca2+、H+
A Sodium Transporter HvHKT1;1 Confers Salt Tolerance in Barley via Regulating Tissue and Cell Ion Homeostasis
C2019-002,孙健、李宗芸,江苏师范大学,J Exp Bot ,甘薯,根,K+、H+、Ca2+、Na+
Root-zone-specific sensitivity of K+-and Ca2+-permeable channels to H2O2 determines ion homeostasis in salinized diploid and hexaploid Ipomoea trifida
C2019-004,陈少良,北京林业大学,New Phytol,杨树,根(距离根尖300-400μm),NO3-
Amelioration of nitrate uptake under salt stress by ectomycorrhiza with and without a Hartig net
C2019-016,郭岩、杨永青,中国农业大学,Nature Commun,拟南芥,根部分生区,Na+、H+
Calcium-activated 14-3-3 proteins as a molecular switch in salt stress tolerance
C2019-020,李召虎,中国农业大学,New phytol,棉花、拟南芥,根,Ca2+、K+、Na+
Phosphatase GhDsPTP3a interacts with annexin protein GhANN8b to reversely regulate salt tolerance in cotton (Gossypium spp.)
C2019-033,杨润强,南京农业大学,Food and Chem Toxicol,大麦,Ca2+
Ca2+ involved in GABA signal transduction for phenolics accumulation in germinated hulless barley under NaCl stress
C2019-037,别之龙,华中农业大学,J Exp Bot,距离根尖1mm,黄瓜幼苗, K+
Tissue-specific respiratory burst oxidase homologue -dependent H2O2 signaling to the plasma membrane H+-ATPase confers potassium uptake and salinity tolerance in Cucurbitaceae
C2018-009,别之龙/黄远,华中农业大学,J EXP BOT,叶脉/叶片/根,Na+/K+
Salt tolerance mechanisms in pumpkin species (Cucurbita)
C2017-026,别之龙,华中农业大学,J EXP BOT,根/下胚轴,Na+/H+
Root respiratory burst oxidase homologue-dependent H2O2 production confers salt tolerance on a grafted cucumber by controlling Na+ exclusion and stomatal closure
C2016-003,张明才,中国农业大学,J EXP BOT,根,Na+/K+/H+
Increased abscisic acid levels in transgenic maize overexpressing AtLOS5 mediated root ion fluxes and leaf water status under salt stress
C2016-002,柳参奎,东北林业大学,PLANT BIOTECHNOL J,根,Na+
Conserved V-ATPase c subunit plays a role in plant growth by influencing V-ATPase-dependent endosomal trafficking
C2015-032,郑海雷,厦门大学,Scientific Reports,根,Na+/K+
Hydrogen sulfide enhances salt tolerance through nitric oxide mediated maintenance of ion homeostasis in barley seedling roots
C2015-030,张洪霞,中科院上海植物生理生态研究所,PLANT BIOTECHNOL J,根,Na+
Overexpression of the PtSOS2 gene improves tolerance to salt stress in transgenic poplar plants
C2015-005,种康,中科院植物所,Cell,根,Ca2+
COLD1 Confers Chilling Tolerance in Rice
F2015-008,PLANT CELL ENVIRON ,黄藻,H+/K+ Na+
Mechanisms underlying turgor regulation in the estuarine alga Vaucheria erythrospora (Xanthophyceae) exposed to hyperosmotic shock
F2014-006,PLANT CELL ENVIRON ,根木质部,K+
Kinetics of xylem loading, membrane potential maintenance,and sensitivity of K+-permeable channels to reactive oxygen species: physiological traits that differentiate salinity tolerance between pea and barley
C2013-021,余迪求,中科院西双版纳热带植物园,Plant Journal,根,K+
Arabidopsis transcription factor WRKY8 functions antagonistically with its interacting partner VQ9 to modulate salinity stress tolerance
C2012-020,魏建华,北京市农林科学院,PLANT CELL ENVIRON ,根,K+/H+
HbCIPK2, a novel CBL-interacting protein kinase from halophyte Hordeum brevisubulatum, confers salt and osmotic stress tolerance
C2012-010,陈少良,北京林业大学,Plant Physiology,根尖,Na+/K+/H+/Ca2+
Paxillus involutus strains MAJ and NAU mediate K+/Na+ homeostasis in ectomycorrhizal Populus × canescens under NaCl stress
C2010-004,陈少良,北京林业大学,PLANT CELL ENVIRON ,愈伤组织细胞,Na+/K+/H+/Ca2+
H2O2 and cytosolic Ca2+ signals triggered by the PM H+-coupled transport system mediate K+/Na+ homeostasis in NaCl-stressed Populus euphratica cells
C2010-002,郭岩,北京生命科学研究所,Plant Cell,根,H+
The Arabidopsis chaperone J3 regulates the plasma membrane H+-ATPase through interaction with the PKS5 kinase
C2009-004,陈少良,北京林业大学,Plant Physiology,根,Na+/Cl-/H+
NaCl-induced alternations of cellular and tissue ion fluxes in roots of salt-resistant and salt-sensitive poplar species
温度胁迫 Temperature Stress
C2019-028,种康,中国科院植物所植物分子生理学重点实验室,J of integr plant biol ,水稻,根,Ca2+
OsCIPK7 point-mutation leads to conformation and kinase-activity change for sensing cold response
C2019-029,李衍素、于贤昌,中国农业科学院蔬菜与花卉研究所,BMC Plant Biol,根毛区,NO3-、NH4+
24-Epibrassinolide promotes NO3- andNH4+ ion flux rate and NRT1 gene expression in cucumber under suboptimal root zone temperature
C2016-001,陈少良,北京林业大学,PLANT CELL TISS ORG,悬浮细胞,Ca2+/K+
Heat shock responses in Populus euphratica cell cultures important role of crosstalk among hydrogen peroxide, calcium and potassium
C2015-005,种康,中科院植物所,Cell,根,Ca2+
COLD1 Confers Chilling Tolerance in Rice
重金属胁迫 Heavy Metal Stress
C2019-023,熊杰,浙江理工大学,Rice,水稻,根(距离根尖200μm,500μm),O2、Cd2+
Aeration Increases Cadmium (Cd) Retention by Enhancing Iron Plaque Formation and Regulating Pectin Synthesis in the Roots of Rice (Oryza sativa) Seedlings
C2019-024,柴团耀,中国科学院大学生命科学学院,BMC Plant Biol ,酵母菌、大肠杆菌,酵母细胞,大肠杆菌细胞,Cd2+
A repeat region from the Brassica juncea HMA4 gene BjHMA4R is specifically involved in Cd2+ binding in the cytosol under low heavy metal concentrations
C2019-032,张振华,湖南农业大学,plant sci,Cd2+、NO3-
Balance between nitrogen use efficiency and cadmium tolerance in Brassica napus and Arabidopsis thaliana
C2018-030,廉菲,江南大学,Sci Total Environ,水稻,根冠、伸长区、根毛区,Cd2+
The effect of biochar nanoparticles on rice plant growth and the uptake of heavy metals: Implications for agronomic benefits and potential risk
C2018-047,周功克,中科院青岛生物能源与过程研究所,Chemosphere,浮萍,根(根尖、距离根尖400μm,1000μm)
叶(顶点、节点、顶点与节点中间的位置),Cd2+
Comparative transcriptome analysis of duckweed (Landoltia punctata) in response to cadmium provides insights into molecular mechanisms underlying hyperaccumulation
C2018-052,李银心,中科院植物研究所,Plant Biotechnol J,甜高粱,根部(距离根尖300μm),Cd2+
Comparative transcriptome combined with morphophysiological analyses revealed key factors for differential cadmium accumulation in two contrasting sweet sorghum genotypes
C2018-059,李廷强,浙江大学,Plant Cell Environ,东南景天,根部距离根尖2.5mm至3mm,Cd2+
Abscisic acid‐mediated modifications of radial apoplastic transport pathway play a key role in cadmium uptake in hyperaccumulator Sedum alfredii
C2019-001,潘科,深圳大学,Chemosphere,硅藻,藻细胞,Cd2+
Salinity-dependent nanostructures and composition of cell surface and its relation to Cd toxicity in an estuarine diatom
C2019-013,张伟、高建伟,山东大学、山东省农科院,Plant Physiology,拟南芥,根(距离根尖400μm),Cd2+
Mitochondrial Pyruvate Carriers Prevent Cadmium Toxicity by Sustaining the TCA Cycle and Glutathione Synthesis
C2019-034,王果,福建农林大学,Chemosphere,Cd2+
Chlorine weaken the immobilization of Cd in soil-rice systems by biochar
C2017-034,李芳柏,广东省科学院生态环境研究所,Environmental Pollution,悬浮细胞,Cd2+
Silica nanoparticles alleviate cadmium toxicity in rice cells: Mechanisms and size effects
C2015-003,王荔军,华中农业大学,New Phytologist,悬浮细胞,Cd2+
A hemicellulose-bound form of silicon inhibits cadmium ion uptake in rice (Oryza sativa) cells
C2015-001,罗志斌,西北农林科技大学,New Phytologist,根,Ca2+/Cd2+/H+
Overexpression of bacterial gamma-glutamylcysteine synthetase mediates changes in cadmium influx, allocation and detoxification in poplar
C2013-019,王荔军,华中农业大学,New Phytologist,悬浮细胞,Cd2+
Inhibition of cadmium ion uptake in rice (Oryza sativa) cells by a wall-bound form of silicon
C2013-015,罗志斌,西北农林科技大学,PLANT CELL ENVIRON ,根,Cd2+/H+
Ectomycorrhizas with Paxillus involutus enhance cadmium uptake and tolerance in Populus × canescens
C2012-017,徐进,中科院遗传与发育生物学研究所农业资源研究中心,New Phytologist,根,Cd2+
Comparative physiological responses of Solanum nigrum and Solanum torvum to cadmium stress
C2012-016,徐进,中科院遗传与发育生物学研究所农业资源研究中心,New Phytologist,根,Cd2+
Comparative transcriptome analysis of cadmium responses in Solanum nigrum and Solanum torvum
C2012-009,赵福庚,南京大学,PLANT CELL ENVIRON ,根,K+/Ca2+
Cadmium impairs ion homeostasis by altering K+ and Ca2+ channel activities in rice root hair cells
水旱胁迫 Water Stress
C2018-040,施卫明、李光杰,中科院南京土壤所,Tree Physiol,红柳、棉花,根部(距离根尖5mm,20mm),NO3-
Characterization and comparison of nitrate fluxes in Tamarix ramosissima and cotton roots under simulated drought conditions
C2019-019,陈仲华,浙江大学,Proc natl acad sci,拟南芥,保卫细胞,K+、Ca2+、Cl−
Evolution of chloroplast retrograde signaling facilitates green plant adaptation to land
C2018-056,张建华、刘鹰高,香港中文大学、山东农业大学,Plant journal,水稻,胚芽鞘,Ca2+
Natural variation in the promoter of rice calcineurin B‐like protein10 (Os CBL 10) affects flooding tolerance during seed germination among rice subspecies
C2018-039,吴强盛、邹英宁,长江大学,Scientific Reports,枳,根毛区(距离根尖3cm),IAA
Mycorrhiza stimulates root-hair growth and IAA synthesis and transport in trifoliate orange under drought stress
C2018-057,李成浩,东北林业大学,Plant Science,黄檗,保卫细胞,K+、H+、Ca2+
Overexpression of TaLEA3 induces rapid stomatal closure under drought stress in Phellodendron amurense Rupr
C2018-001,许卫锋/张建华,福建农林大学/香港中文大学,Plant Physiology,根,H+/Ca2+/H2O2
Comparative analysis of Arabidopsis 26 ecotypes reveals a role for brassinosteroids in root hydrotropism
C2015-023,许卫锋/张建华,中科院南京土壤研究所/香港中文大学,J EXP BOT,根,H+
Involvement of 14-3-3 protein GRF9 in root growth and response under PEG-induced water stress
F2014-012,ENVIRON EXP BOT,叶肉细胞,K+/H+/Ca2+
Leaf mesophyll K+, H+ and Ca2+ fluxes are involved in drought-induced decrease in photosynthesis and stomatal closure in soybean
C2013-006,施卫明/张建华,中科院南京土壤研究所,New Phytologist,根,H+
Abscisic acid accumulation modulates auxin transport in the root tip to enhance proton secretion for maintaining root growth under moderate water stress
C2013-004,陈保冬,中科院生态环境中心,New Phytologist,酵母细胞, Ca2+/H+
First cloning and characterization of two functional aquaporin genes from an arbuscular mycorrhizal fungus Glomus intraradices
F2013-009,Frontiers in Plant Science,大麦,H+/ K+
Barley responses to combined waterlogging and salinity stress:separating effects of oxygen deprivation and elemental toxicity
F2007-006,Plant Physiology,根,Ca2+/H+/K+
Effect of Secondary Metabolites Associated with Anaerobic Soil Conditions on Ion Fluxes and Electrophysiology in Barley Roots
F2005-008,Plant Journal,根,H+
Ethylene regulates fast apoplastic acidification and expansin a transcription during submergence-induced petiole elongation in rumex palustris
生物胁迫 Biotic Stress
C2017-033,王国梁/王毅,中国农科院/中国农业大学,Plos Pathogens,根,K+
The fungal pathogen Magnaporthe oryzae suppresses innate immunity by modulating a host potassium channel
C2017-018,沈应柏,北京林业大学,Functional Plant Biology,-,-
Plant ion channels and transporters in herbivory-induced signalling
C2017-003,沈应柏,北京林业大学,J PLANT GROWTH REGUL,根,IAA/H+
Insect Herbivory of Leaves Affects the Auxin Flux Along Root Apices in Arabidopsis thaliana
F2011-014,PLANT CELL ENVIRON ,叶肉细胞,Ca2+/ K+
Plasma membrane Ca2+ transporters mediate virus-induced acquired resistance to oxidative stress
F2010-013,Planta,叶肉细胞,K+/Ca2+/H+
Non-invasive microelectrode potassium flux measurements as a potential tool for early recognition of virus–host compatibility in plants
F2008-004,Plant Cell Physiology,叶肉细胞,Ca2+
Calcium Efflux as a Component of the Hypersensitive Response of Nicotiana benthamiana to Pseudomonas syringae
F2007-008,Planta,叶肉细胞,K+/H+
Expression of animal CED-9 anti-apoptotic gene in tobacco modifies plasma membrane ion fluxes in response to salinity and oxidative stress
植物营养 Nutrient Research
C2019-031,张亚丽,南京农业大学农业部作物遗传与种质创新国家重点实验室,PLANT PHYSIOL,NO3-
A Transcription Factor, OsMADS57, Regulates Long-distance Nitrate Transport and Root Elongation
C2019-004,陈少良,北京林业大学,New Phytol,杨树,根(距离根尖300-400μm),NO3-
Amelioration of nitrate uptake under salt stress by ectomycorrhiza with and without a Hartig net
C2018-020,张振华,湖南农业大学,Plant Physiol,拟南芥,NH4+、NO3-
NRT1.1-related NH4+ toxicity is associated with balance between NH4+ uptake and assimilation
C2019-032,张振华,湖南农业大学,plant sci,Cd2+、NO3-
Balance between nitrogen use efficiency and cadmium tolerance in Brassica napus and Arabidopsis thaliana
C2019-029,李衍素、于贤昌,中国农业科学院蔬菜与花卉研究所,BMC Plant Biol,根毛区,NO3-、NH4+
24-Epibrassinolide promotes NO3- andNH4+ ion flux rate and NRT1 gene expression in cucumber under suboptimal root zone temperature
C2018-045,杨兴洪,山东农业大学,Front Plant Sci,番茄,根部伸长区,H+
Genetic Engineering of the Biosynthesis of Glycine Betaine Modulates Phosphate Homeostasis by Regulating Phosphate Acquisition in Tomato
C2018-040,施卫明、李光杰,中科院南京土壤所,Tree Physiol,红柳、棉花,根部(距离根尖5mm,20mm),NO3-
Characterization and comparison of nitrate fluxes in Tamarix ramosissima and cotton roots under simulated drought conditions
C2018-029,张佳宝,中国科学院土壤研究所土壤与可持续农业国家重点实验室,Front Plant Sci ,小麦,K+、O2
Potential Root Foraging Strategy of Wheat (Triticum aestivum L.) for Potassium Heterogeneity
C2017-032,王毅,中国农业大学,Plant Cell,爪蟾卵母细胞,K+/H+
NRT1.5/NPF7.3 Functions as a Proton-Coupled H+/K+ Antiporter for K+ Loading into the Xylem in Arabidopsis
C2017-010,许卫锋/张建华,福建农林大学/香港中文大学,J EXP BOT,根,H+
Arabidopsis plasma membrane H+-ATPase genes AHA2 and AHA7 have distinct and overlapping roles in the modulation of root tip H+ efflux in response to low-phosphorus stress
C2016-004,张振华,湖南农业大学,Plant Physiology,液泡,NO3-
Nitrogen Use Efficiency Is Mediated by Vacuolar Nitrate Sequestration Capacity in Roots of Brassica napus
C2015-036,童依平,中科院遗传发育所,Plant Physiology,根,NO3-
The Nitrate-Inducible NAC Transcription Factor TaNAC2-5A Controls Nitrate Response and Increases Wheat Yield
C2015-007,童依平,中科院遗传与发育生物学研究所,Plant Physiology,根,NO3-
A wheat CCAAT box-binding transcription factor increases the grain yield of wheat with less fertilizer input
C2014-022,余玲,南京农业大学,Plant Physiology,根,K+
The Role of a Potassium Transporter OsHAK5 in Potassium Acquisition and Transport from Roots to Shoots in Rice at Low Potassium Supply Levels
C2013-020,罗志斌,西北农林科技大学,J EXP BOT,根,NH4+/NO3-/H+
Nitrogen metabolism of two contrasting poplar species during acclimation to limiting nitrogen availability
C2013-008,夏新莉/尹伟伦,北京林业大学,PLANT CELL ENVIRON ,根,NO3-
The nitrate transporter NRT2.1 functions in the ethylene response to nitrate deficiency in Arabidopsis
C2012-021,徐国华,南京农业大学,Plant Physiology,根,NO3-
Knockdown of a rice stelar nitrate transporter alters long-distance translocation but not root influx
C2012-006,施卫明/张建华,中科院南京土壤研究所,PLANT CELL ENVIRON ,根,H+
TFT6 and TFT7, two different members of tomato 14-3-3 gene family, play distinct roles in plant adaption to low phosphorus stress
C2010-006,施卫明,中科院南京土壤研究所,PLANT CELL ENVIRON ,根,NH4+
Root growth inhibition by NH4+ in Arabidopsis is mediated by the root tip and is linked to NH4+ efflux and GMPase activity
生长发育 Growth and Development
F2018-001,Science,花粉管,Ca2+
CORNICHON sorting and regulation of GLR channels underlie pollen tube Ca2+ homeostasis
F2016-001,Plant Cell,根,IAA
TWISTED DWARF1 mediates the action of auxin transport inhibitors on actin cytoskeleton dynamics
C2014-010,孙蒙祥,武汉大学,J EXP BOT,花粉管,Ca2+
Exogenous γ-aminobutyric acid affects pollen tube growth via modulating putative Ca2+-permeable membrane channels and is coupled to negative regulation on glutamate decarboxylase
C2014-006,宋纯鹏,河南大学,Plant Cell,根毛/液泡,NH4+/Ca2+
A Receptor-Like Kinase Mediates Ammonium Homeostasis and Is Important for the Polar Growth of Root Hairs in Arabidopsis
C2014-004,涂礼莉,华中农业大学,PLANT BIOTECHNOL J,纤维细胞,K+
A peptide hormone gene, GhPSK promotes fibre elongation and contributes to longer and finer cotton fibre
C2014-003,张献龙/涂礼莉,华中农业大学,New Phytologist,纤维细胞,Ca2+
The calcium sensor GhCaM7 promotes cotton fiber elongation by modulating reactive oxygen species (ROS) production
F2013-008,Plant Cell,根,IAA
Arabidopsis TWISTED DWARF1 Functionally Interacts with Auxin Exporter ABCB1 on the Root Plasma Membrane
C2012-013,林金星,中科院植物研究所,Plant Cell,根,IAA
The Signal Transducer NPH3 Integrates the Phototropin1 Photosensor with PIN2-Based Polar Auxin Transport in Arabidopsis Root Phototropism
F2011-020,J EXP BOT,花粉管,Cl-
The essential role of anionic transport in plant cells: the pollen tube as a case study
F2011-009,Science,花粉管,Ca2+
Glutamate Receptor–Like Genes Form Ca2+ Channels in Pollen Tubes and Are Regulated by Pistil D-Serine
C2009-007,林金星,中科院植物研究所,Plant Physiology,花粉管,Ca2+
Combined proteomic and cytological analysis of Ca2+-calmodulin regulation in Picea meyeri pollen tube growth
C2009-003,林金星,中科院植物研究所,J BIOL CHEM,原生质体,Ca2+
Calmodulin binds to extracellular sites on the plasma membrane of plant cells and elicits a rise in intracellular calcium concentration
C2009-002,林金星,中科院植物研究所,New Phytologist,花粉管,Ca2+
Nitric oxide modulates the influx of extracellular Ca2+ and actin filament organization during cell wall construction in Pinus bungeana pollen tubes
F2007-014,PNAS,根毛,H+
Oscillations in extracellular pH and reactive oxygen species modulate tip growth of Arabidopsis root hairs
F2002-001,PNAS,根,H+/Ca2+
Blue light-induced kinetics of H+ and Ca2+ fluxes in etiolated wild-type and phototropin-mutant Arabidopsis seedlings
F2001-004,Nature Cell Biology,玉米卵细胞,Ca2+
Differential contribution of cytoplasmic Ca2+and Ca2+ influx to gamete fusion and egg activation in maize
F2000-001,PNAS,玉米卵细胞,Ca2+
A calcium influx is triggered and propagates in the zygote as a wavefront during in vitro fertilization of flowering plants
互作共生 Interaction & Symbiosis
C2018-024,林文雄、李兆伟,福建农林大学,Scientific Reports,水稻,Ca2+、K+、H+
Gene mutation associated with esl mediates shifts on fungal community composition in rhizosphere soil of rice at grainfilling stage
C2017-002,Frontiers in Plant Science,陈少良,北京林业大学,菌根,H+/Ca2+/Cd2+/H2O2
Paxillus involutus-Facilitated Cd2+ Influx through Plasma Membrane Ca2+-Permeable Channels Is Stimulated by H2O2 and H+-ATPase in Ectomycorrhizal Populus × canescens under Cadmium Stress
F2015-009,Molecular Ecology,菌根,H+/NH4+/NO3-
Species turnover (β diversity) in ectomycorrhizal fungi linked to NH4 (+) uptake capacity
C2014-021,ENVIRON EXP BOT,陈少良,北京林业大学,根,H+/Na+/K+/Ca2+
Ion fluxes in Paxillus involutus-inoculated roots of Populus × canescensunder saline stress
C2014-012,Mycorrhiza,吴强盛,长江大学,根,H2O2/ Ca2+
Mycorrhiza-induced lower oxidative burst is related with higher antioxidant enzyme activities, net H2O2 effluxes, and Ca2+ influxes in trifoliate orange roots under drought stress
C2013-015,PLANT CELL ENVIRON ,罗志斌,西北农林科技大学,根,Cd2+/H+
Ectomycorrhizas with Paxillus involutus enhance cadmium uptake and tolerance in Populus × canescens
C2012-010,Plant Physiology,陈少良,北京林业大学,根/真菌团,Na+/K+/H+/Ca2+
Paxillus involutus strains MAJ and NAU mediate K+/Na+ homeostasis in ectomycorrhizal Populus × canescens under NaCl stress
F2009-001,New Phytologist,根,H+
A pH signaling mechanism involved in the spatial distribution of calcium and anion fluxes in ectomycorrhizal roots
F2008-019,New Phytologist,丛枝菌根真菌,H+
Proton (H+) flux signature for the presymbiotic development of the arbuscular mycorrhizal fungi
F2008-018,Plant Signaling & Behavior,丛枝菌根真菌,H+
pH signature for the responses of arbuscular mycorrhizal fungi to external stimuli