review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Simon Conn | Q57615271 |
Matthew Gilliham | Q38546038 | ||
Brent N. Kaiser | Q42821713 | ||
Stephen D Tyerman | Q47153606 | ||
P2093 | author name string | Bo Xu | |
Roger A Leigh | |||
Bradleigh J Hocking | |||
Maclin Dayod | |||
P2860 | cites work | Hydraulic design of leaves: insights from rehydration kinetics | Q58310422 |
Declining hydraulic efficiency as transpiring leaves desiccate: two types of response | Q58310425 | ||
Putative role of aquaporins in variable hydraulic conductance of leaves in response to light | Q58380051 | ||
Point mutations in the aromatic/arginine region in aquaporin 1 allow passage of urea, glycerol, ammonia, and protons | Q27919687 | ||
Calcium at the cell wall-cytoplast interface | Q28279203 | ||
Rapid low temperature-induced stomatal closure occurs in cold-tolerant Commelina communis leaves but not in cold-sensitive tobacco leaves, via a mechanism that involves apoplastic calcium but not abscisic acid | Q28345901 | ||
Root suberin forms an extracellular barrier that affects water relations and mineral nutrition in Arabidopsis | Q28475483 | ||
Unexpected complexity of the aquaporin gene family in the moss Physcomitrella patens | Q28754551 | ||
A xylem sap retrieval pathway in rice leaf blades: evidence of a role for endocytosis? | Q28757481 | ||
Growth of the plant cell wall | Q29616250 | ||
Regulation of plant aquaporin activity. | Q30351409 | ||
The Nicotiana tabacum plasma membrane aquaporin NtAQP1 is mercury-insensitive and permeable for glycerol | Q30741430 | ||
Urea transport by nitrogen-regulated tonoplast intrinsic proteins in Arabidopsis. | Q31016752 | ||
Restricted cell elongation in Arabidopsis hypocotyls is associated with a reduced average pectin esterification level | Q33287928 | ||
Measurement of cation exchange capacity (CEC) of plant cell walls by X-ray microanalysis (EDX) in the transmission electron microscope | Q33291090 | ||
Tissue and cell-specific localization of rice aquaporins and their water transport activities. | Q33307121 | ||
Growth-induced water potentials and the growth of maize leaves | Q33336892 | ||
Short-term boron deprivation inhibits endocytosis of cell wall pectins in meristematic cells of maize and wheat root apices | Q33337589 | ||
Transpiration response of 'slow-wilting' and commercial soybean (Glycine max (L.) Merr.) genotypes to three aquaporin inhibitors | Q33621684 | ||
Transpiration, a prerequisite for long-distance transport of minerals in plants? | Q33931471 | ||
The role of ABA and the transpiration stream in the regulation of the osmotic water permeability of leaf cells | Q33950437 | ||
Where do all the ions go? The cellular basis of differential ion accumulation in leaf cells | Q34081954 | ||
A new subfamily of major intrinsic proteins in plants. | Q34120893 | ||
Calcium in plants | Q34224629 | ||
Calcium oxalate in plants: formation and function | Q34414846 | ||
The exodermis: a variable apoplastic barrier | Q34439992 | ||
Structural mechanism of plant aquaporin gating | Q34474817 | ||
Contrast in chloride exclusion between two grapevine genotypes and its variation in their hybrid progeny | Q34497889 | ||
What are aquaporins for? | Q35688417 | ||
Purified vesicles of tobacco cell vacuolar and plasma membranes exhibit dramatically different water permeability and water channel activity | Q36249463 | ||
Leaf hydraulics | Q36466521 | ||
Aquaporin gating | Q36534479 | ||
Plant aquaporins: novel functions and regulation properties | Q36769117 | ||
The major integral proteins of spinach leaf plasma membranes are putative aquaporins and are phosphorylated in response to Ca2+ and apoplastic water potential | Q36815109 | ||
Major intrinsic proteins (MIPs) in plants: a complex gene family with major impacts on plant phenotype | Q36846779 | ||
Aquaporins and plant water balance | Q37081735 | ||
Revealing the structural and functional diversity of plant cell walls | Q37142794 | ||
Shaping the calcium signature. | Q37361665 | ||
Resistances along the CO2 diffusion pathway inside leaves | Q37460492 | ||
The importance of nutritional regulation of plant water flux. | Q37486168 | ||
Moving cationic minerals to edible tissues: potassium, magnesium, calcium | Q37501220 | ||
A plastid protein crucial for Ca2+-regulated stomatal responses. | Q50633614 | ||
Plasma membrane of Beta vulgaris storage root shows high water channel activity regulated by cytoplasmic pH and a dual range of calcium concentrations. | Q50745653 | ||
Light and turgor affect the water permeability (aquaporins) of parenchyma cells in the midrib of leaves of Zea mays. | Q51697717 | ||
Roles of morphology, anatomy, and aquaporins in determining contrasting hydraulic behavior of roots. | Q51750902 | ||
The expression pattern of plasma membrane aquaporins in maize leaf highlights their role in hydraulic regulation. | Q51952573 | ||
Cell elongation in Arabidopsis hypocotyls involves dynamic changes in cell wall thickness. | Q51987372 | ||
Transport and metabolic degradation of hydrogen peroxide in Chara corallina: model calculations and measurements with the pressure probe suggest transport of H(2)O(2) across water channels. | Q52069451 | ||
Growth of the Maize Primary Root at Low Water Potentials : II. Role of Growth and Deposition of Hexose and Potassium in Osmotic Adjustment. | Q52423815 | ||
A PIP1 aquaporin contributes to hydrostatic pressure-induced water transport in both the root and rosette of Arabidopsis. | Q52597701 | ||
Aquaporins and water homeostasis in plants. | Q53927632 | ||
Hydrogel control of xylem hydraulic resistance in plants. | Q54022691 | ||
Rising atmospheric CO2 and human nutrition: toward globally imbalanced plant stoichiometry? | Q54086534 | ||
The apoplast and its significance for plant mineral nutrition | Q56040493 | ||
pH and Ionic Conditions in the Apoplast | Q56457160 | ||
Evolution and Function of Leaf Venation Architecture: A Review | Q56535043 | ||
Viewing leaf structure and evolution from a hydraulic perspective | Q56973857 | ||
The rapid light response of leaf hydraulic conductance: new evidence from two experimental methods | Q56973899 | ||
Role of aquaporins in leaf physiology | Q37525856 | ||
The language of calcium signaling | Q37700628 | ||
Comparative physiology of elemental distributions in plants | Q37735540 | ||
Calcium storage in plants and the implications for calcium biofortification. | Q37775548 | ||
Heterogeneity in the chemistry, structure and function of plant cell walls | Q37790270 | ||
Drought, abscisic acid and transpiration rate effects on the regulation of PIP aquaporin gene expression and abundance in Phaseolus vulgaris plants. | Q38880318 | ||
Expression of the Vicia faba VfPIP1 gene in Arabidopsis thaliana plants improves their drought resistance | Q38957565 | ||
The relevance of xylem network structure for plant hydraulic efficiency and safety | Q39187157 | ||
Drought and abscisic acid effects on aquaporin content translate into changes in hydraulic conductivity and leaf growth rate: a trans-scale approach. | Q39338263 | ||
Improving plant stress tolerance and yield production: is the tonoplast aquaporin SlTIP2;2 a key to isohydric to anisohydric conversion? | Q39418770 | ||
The role of plasma membrane intrinsic protein aquaporins in water transport through roots: diurnal and drought stress responses reveal different strategies between isohydric and anisohydric cultivars of grapevine | Q39552864 | ||
A cell surface receptor mediates extracellular Ca(2+) sensing in guard cells | Q40635525 | ||
The surface charge density of plant cell membranes (sigma): an attempt to resolve conflicting values for intrinsic sigma | Q40794055 | ||
A novel, non-invasive, online-monitoring, versatile and easy plant-based probe for measuring leaf water status | Q41729912 | ||
Accumulation of calcium in the centre of leaves of coriander (Coriandrum sativum L.) is due to an uncoupling of water and ion transport | Q41931487 | ||
Gating of aqùaporins by light and reactive oxygen species in leaf parenchyma cells of the midrib of Zea mays | Q42049677 | ||
HvLsi1 is a silicon influx transporter in barley | Q42444263 | ||
The water permeability of Arabidopsis plasma membrane is regulated by divalent cations and pH. | Q42520424 | ||
Aquaporin gene expression and apoplastic water flow in bur oak (Quercus macrocarpa) leaves in relation to the light response of leaf hydraulic conductance | Q42574120 | ||
Inhibitor studies of leaf lamina hydraulic conductance in trembling aspen (Populus tremuloides Michx.) leaves | Q43214615 | ||
A defined range of guard cell calcium oscillation parameters encodes stomatal movements | Q43655813 | ||
The role of calcium in ABA-induced gene expression and stomatal movements. | Q43663258 | ||
A phylogenetic framework for the aquaporin family in eukaryotes | Q43666727 | ||
Boron toxicity tolerance in barley through reduced expression of the multifunctional aquaporin HvNIP2;1. | Q44004316 | ||
Aquaporin 6 is permeable to glycerol and urea | Q44777903 | ||
Possible influence of cell walls upon ion concentrations at plasma membrane surfaces. Toward a comprehensive view of cell-surface electrical effects upon ion uptake, intoxication, and amelioration | Q44905846 | ||
Aquaporin homologues in plants and mammals transport ammonia | Q45052620 | ||
The regulation of anion loading to the maize root xylem | Q45285476 | ||
Permeability and channel-mediated transport of boric acid across membrane vesicles isolated from squash roots | Q46311622 | ||
Effects of environmental parameters and irrigation on the turgor pressure of banana plants measured using the non-invasive, online monitoring leaf patch clamp pressure probe | Q46462872 | ||
Light response of hydraulic conductance in bur oak (Quercus macrocarpa) leaves | Q46616627 | ||
A novel plant major intrinsic protein in Physcomitrella patens most similar to bacterial glycerol channels | Q46661334 | ||
Overexpression of the barley aquaporin HvPIP2;1 increases internal CO(2) conductance and CO(2) assimilation in the leaves of transgenic rice plants. | Q47414111 | ||
HvPIP1;6, a barley (Hordeum vulgare L.) plasma membrane water channel particularly expressed in growing compared with non-growing leaf tissues | Q48078587 | ||
Characterization of OsPIP2;7, a water channel protein in rice | Q48735715 | ||
The tobacco aquaporin NtAQP1 is a membrane CO2 pore with physiological functions | Q48820933 | ||
Water transport activity of the plasma membrane aquaporin PM28A is regulated by phosphorylation | Q48943228 | ||
P433 | issue | 7 | |
P921 | main subject | flow of water | Q29348382 |
P1104 | number of pages | 18 | |
P304 | page(s) | 2233-2250 | |
P577 | publication date | 2011-04-01 | |
P1433 | published in | Journal of Experimental Botany | Q6295179 |
P1476 | title | Calcium delivery and storage in plant leaves: exploring the link with water flow | |
P478 | volume | 62 |
Q30600021 | A comparative study on Ca content and distribution in two Gesneriaceae species reveals distinctive mechanisms to cope with high rhizospheric soluble calcium |
Q44051131 | A putative role for TIP and PIP aquaporins in dynamics of leaf hydraulic and stomatal conductances in grapevine under water stress and re-watering. |
Q50230185 | Antioxidant capacity, fatty acids profile, and descriptive sensory analysis of table olives as affected by deficit irrigation. |
Q27009524 | Beyond the barrier: communication in the root through the endodermis |
Q48132287 | CNGC2 Is a Ca2+ Influx Channel That Prevents Accumulation of Apoplastic Ca2+ in the Leaf. |
Q55118455 | Ca2+ imaging and gene expression profiling of Lonicera Confusa in response to calcium-rich environment. |
Q37588604 | Calcium Biofortification: Three Pronged Molecular Approaches for Dissecting Complex Trait of Calcium Nutrition in Finger Millet (Eleusine coracana) for Devising Strategies of Enrichment of Food Crops |
Q42955222 | Calcium amendment may increase hydraulic efficiency and forest evapotranspiration |
Q39689009 | Cell-specific compartmentation of mineral nutrients is an essential mechanism for optimal plant productivity--another role for TPC1? |
Q35845876 | Convergent elevation trends in canopy chemical traits of tropical forests |
Q51794292 | Copper nanoparticles/compounds impact agronomic and physiological parameters in cilantro (Coriandrum sativum). |
Q30393861 | Distribution of calcium (Ca) and magnesium (Mg) in the leaves of Brassica rapa under varying exogenous Ca and Mg supply |
Q47231940 | Exogenous short-term silicon application regulates macro-nutrients, endogenous phytohormones, and protein expression in Oryza sativa L. |
Q37992064 | Exploiting natural variation to uncover candidate genes that control element accumulation in Arabidopsis thaliana |
Q26747359 | Fruit Calcium: Transport and Physiology |
Q50927089 | Heterodimerization of Arabidopsis calcium/proton exchangers contributes to regulation of guard cell dynamics and plant defense responses. |
Q27010469 | How do leaf veins influence the worldwide leaf economic spectrum? Review and synthesis |
Q35426548 | Identification of quantitative trait loci controlling high Calcium response in Arabidopsis thaliana |
Q35172631 | Interactive ion-mediated sap flow regulation in olive and laurel stems: physicochemical characteristics of water transport via the pit structure |
Q42640063 | Isolation, characterization and immunolocalization of a seed dominant CaM from finger millet (Eleusine coracana L. Gartn.) for studying its functional role in differential accumulation of calcium in developing grains |
Q38152391 | Leaf mesophyll conductance and leaf hydraulic conductance: an introduction to their measurement and coordination |
Q54204517 | Leaf-associated bacterial microbiota of coffee and its correlation with manganese and calcium levels on leaves. |
Q55334262 | Linking Fruit Ca Uptake Capacity to Fruit Growth and Pedicel Anatomy, a Cross-Species Study. |
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Q35457331 | Multifaceted roles of aquaporins as molecular conduits in plant responses to abiotic stresses. |
Q58751839 | Natural variation among Arabidopsis thaliana accessions in tolerance to high magnesium supply |
Q42918076 | Non-destructive Measurement of Calcium and Potassium in Apple and Pear Using Handheld X-ray Fluorescence. |
Q38478899 | Nutrient homeostasis within the plant circadian network. |
Q56375066 | Plant acclimation to long-term high nitrogen deposition in an N-rich tropical forest |
Q36250331 | Plant calcium content: ready to remodel |
Q48289111 | Proteaceae from phosphorus-impoverished habitats preferentially allocate phosphorus to photosynthetic cells: An adaptation improving phosphorus-use efficiency |
Q47829127 | Rapid shoot-to-root signalling regulates root hydraulic conductance via aquaporins. |
Q59798845 | Recovering Tomato Landraces to Simultaneously Improve Fruit Yield and Nutritional Quality Against Salt Stress |
Q30560893 | Reduction of transpiration and altered nutrient allocation contribute to nutrient decline of crops grown in elevated CO(2) concentrations |
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Q38882093 | Scale dependence of canopy trait distributions along a tropical forest elevation gradient |
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Q36883360 | Spatiotemporal distribution of essential elements through Populus leaf ontogeny |
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Q26739990 | The Interactions of Aquaporins and Mineral Nutrients in Higher Plants |
Q47706496 | The role of calcium, silicon and salicylic acid treatment in protection of canola plants against boron toxicity stress. |
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