| scholarly article | Q13442814 |
| P2093 | author name string | E Epstein | |
| C E Hagen | |||
| P2860 | cites work | A Note on the Kinetics of Enzyme Action | Q24536248 |
| Biological production of acid and alkali; a redox theory for the process in yeast with application to the production of gastric acidity | Q39438382 | ||
| The relation of ion antagonism to the inorganic nutrition of lactic acid bacteria. | Q40755534 | ||
| GENERAL NATURE OF THE PROCESS OF SALT ACCUMULATION BY ROOTS WITH DESCRIPTION OF EXPERIMENTAL METHODS. | Q45975667 | ||
| A STUDY OF POTASSIUM ABSORPTION BY BARLEY ROOTS. | Q46363041 | ||
| Potassium metabolism in Escherichia coli. III. Interrelationship of potassium and phosphorus metabolism | Q75647347 | ||
| Alkali-metal ions in the metabolism of Bact. lactis aerogenes. I. Experiments on the uptake of radioactive potassium, rubidium and phosphorus | Q75781734 | ||
| Alkali-metal ions in the metabolism of Bact. lactis aerogenes. II. Connexion with viability, growth rate and enzyme activity | Q75781739 | ||
| Alkali-metal ions in the metabolism of Bact. lactis aerogenes. III. General discussion of their role and mode of action | Q75781742 | ||
| Potassium metabolism in Escherichia coli; permeability to sodium and potassium ions | Q80629025 | ||
| Potassium metabolism in Escherichia coli; metabolism in the presence of carbohydrates and their metabolic derivatives | Q80629030 | ||
| SELECTIVE ABSORPTION OF CATIONS BY HIGHER PLANTS | Q83234260 | ||
| The mechanism of accumulation | Q95779241 | ||
| P433 | issue | 3 | |
| P304 | page(s) | 457-474 | |
| P577 | publication date | 1952-07-01 | |
| P1433 | published in | Plant Physiology | Q3906288 |
| P1476 | title | A KINETIC STUDY OF THE ABSORPTION OF ALKALI CATIONS BY BARLEY ROOTS | |
| P478 | volume | 27 |
| Q83238604 | A Soluble Pyridine Nucleotide Oxidase System from Barley Roots |
| Q34222013 | A new model for the living cell: a summary of the theory and recent experimental evidence in its support. |
| Q78330185 | ABSORPTION OF FLUORIDE AND CHLORIDE BY BARLEY ROOTS |
| Q44131085 | Absorption and long distance transport by isolated stele of maize roots in relation to the dual mechanisms of ion absorption |
| Q59061888 | Absorption of Alkali Cations by Plant Tissue Cultures |
| Q46674265 | Absorption of Cations by Roots. Effects of Hydrogen Ions and Essential Role of Calcium |
| Q83237261 | Absorption of Ionic Species of Orthophosphate by Barley Roots: Effects of 2,4-Dinitrophenol and Oxygen Tension |
| Q83239083 | Accumulation of Potassium, Cesium, and Rubidium in Bean Plants Grown in Nutrient Solutions |
| Q83243952 | Accumulation of potassium and sodium by barley roots in a k-na replacement series |
| Q79138315 | Adsorption and active transport |
| Q83244183 | An anomaly in potassium accumulation by barley roots: I. Effect of anions, sodium concentration, and length of absorption period |
| Q28658417 | An updated model for nitrate uptake modelling in plants. I. Functional component: cross-combination of flow-force interpretation of nitrate uptake isotherms, and environmental and in planta regulation of nitrate influx |
| Q57263383 | Behaviour of radionuclides in soil/crop systems following contamination |
| Q71328680 | Bioelectrochemical throttle of metabolism |
| Q35130321 | Biological processes in organised media |
| Q35558861 | Breaking conceptual locks in modelling root absorption of nutrients: reopening the thermodynamic viewpoint of ion transport across the root. |
| Q83259561 | Cadmium uptake kinetics in intact soybean plants |
| Q83241141 | Calcium Activation of Orthophosphate Absorption by Barley Roots |
| Q58955884 | Calcium–Lithium Competition in Absorption by Plant Roots |
| Q41842453 | Cation-anion balance during potassium and sodium absorption by barley roots |
| Q39884603 | Cells, solutes, and growth: salt accumulation in plants reexamined |
| Q52439572 | Characterization of Plasma Membrane-associated Adenosine Triphosphase Activity of Oat Roots. |
| Q46942338 | Comments on the Absorption of Inorganic Ions by Root Cells |
| Q26741564 | Comparison between Arabidopsis and Rice for Main Pathways of K(+) and Na(+) Uptake by Roots |
| Q83248242 | Conceptual developments in membrane transport, 1924-1974 |
| Q46717654 | Correlated induction of nitrate uptake and membrane polypeptides in corn roots |
| Q59096747 | Dual Pattern of Ion Absorption by Plant Cells and by Plants |
| Q46191672 | Dual mechanisms of ion absorption in relation to long distance transport in plants |
| Q46652606 | Dual mechanisms of ion uptake in relation to vacuolation in corn roots |
| Q57057262 | Effect of external potassium (K) supply on the uptake of 137Cs by spring wheat (Triticum aestivum cv. Tonic): a large-scale hydroponic study |
| Q46067125 | Effect of poly-L-lysine on potassium fluxes in red beet tissue |
| Q46062958 | Effect of root to solution ratio in ion absorption experiments |
| Q46178394 | Effects of Ca Upon Metabolic and Nonmetabolic Uptake of Na and Rb by Root Segments of Zea mays |
| Q83237058 | Effects of Ultraviolet Radiation and Calcium and Their Interaction on Salt Absorption by Excised Mung Bean Roots |
| Q54081673 | Effects of temperature and dinitrophenol on the uptake of potassium and sodium ions in Ricinus communis roots. |
| Q83242864 | Electrostatic association and donnan phenomena as mechanisms of ion accumulation |
| Q30671002 | Environmental processes affecting plant root uptake of radioactive trace elements and variability of transfer factor data: a review |
| Q42760760 | Equilibrium and Ion Exchange Characteristics of Potassium and Sodium Accumulation by Barley Roots |
| Q36744973 | Genetic Basis of Ammonium Toxicity Resistance in a Sake Strain of Yeast: A Mendelian Case |
| Q64065917 | Grafting alleviates potassium stress and improves growth in tobacco |
| Q83237952 | Growth Substances in Corn Pollen |
| Q89820768 | High- and Low-Affinity Transport in Plants From a Thermodynamic Point of View |
| Q83247249 | Influence of phenolic acids on ion uptake: I. Inhibition of phosphate uptake |
| Q46777532 | Influence of the Counter-ion on the Absorption Isotherm for Chloride at Low Temperature |
| Q46039993 | Inhibition of Ion Absorption and Respiration in Barley Roots. |
| Q45949288 | Interaction of rubidium or sodium with potassium in absorption by intact sugar beet plants. |
| Q42945970 | Ion transport in Nitellopsis obtusa |
| Q72569144 | Ion transport kinetics in plant tissue: Complexity of the chloride absorption isotherm |
| Q83237038 | Ionic Species in Orthophosphate Absorption by Barley Roots |
| Q83240207 | Kinetics of Rb Absorption by Excised Barley Roots under Changing Rb Concentrations. I. Effects of Other Cations on Rb Uptake |
| Q33241754 | Kinetics of Rb Absorption by Excised Barley Roots under Changing Rb Concentrations. II. An Interpretation of Kinetic Data |
| Q83237288 | Kinetics of Sulfate Absorption by Barley Roots |
| Q83239298 | Kinetics of rubidium absorption & translocation by barley |
| Q83242543 | Loss of organic acids, amino acids, k, and cl from barley roots treated anaerobically and with metabolic inhibitors |
| Q59082402 | Mechanism of Ion Absorption by Roots |
| Q33941288 | Molecular cloning, characterization and expression analysis of two members of the Pht1 family of phosphate transporters in Glycine max. |
| Q33881791 | Molecular mechanisms of phosphate and sulphate transport in plants |
| Q83237949 | Multiple Site Uptake of Individual Cations by Roots as Affected by Hydrogen Ion |
| Q83257306 | Nitrate Uptake into Barley (Hordeum vulgare) Plants : A New Approach Using ClO(3) as an Analog for NO(3) |
| Q83237201 | Passive Permeation and Active Transport of Ions in Plant Roots |
| Q35625632 | Phosphate transport and homeostasis in Arabidopsis |
| Q40047608 | Phosphorus Metabolism in Plants |
| Q83239689 | Phosphorylation by Barley Root Mitochondria & Phosphate Absorption by Barley Roots |
| Q36942413 | Physicochemical characterization of airborne particulate matter at a mainline underground railway station. |
| Q83244239 | Potassium Fluxes during Potassium Absorption by Intact Barley Plants of Increasing Potassium Content |
| Q74781723 | Potassium Fluxes in Chlamydomonas reinhardtii (I.Kinetics and Electrical Potentials) |
| Q41984460 | Potassium accumulation and sodium efflux by Porphyra perforata tissues in lithium and magnesium sea water |
| Q46258115 | Potassium and sodium absorption kinetics in roots of two tomato species : lycopersicon esculentum and lycopersicon cheesmanii |
| Q46107662 | Potassium transport in corn roots : I. Resolution of kinetics into a saturable and linear component |
| Q33848770 | Potassium transport in fungi and plants |
| Q47922440 | Potassium-dependent changes in the expression of membrane-associated proteins in barley roots : I. Correlations with k(rb) influx and root k concentration |
| Q36373288 | Potassium-dependent sodium extrusion by cells of Porphyra perforata, a red marine alga |
| Q34228063 | Preferential accumulation of cesium 137 in the mammalian organism, in comparison with potassium accumulation. I. Accumulation of potassium, rubidium and cesium in the perfused guinea pig heart |
| Q83238825 | Products of Orthophosphate Absorption by Barley Roots |
| Q72138041 | Pump and K+ inward rectifiers in the plasmalemma of wheat root protoplasts |
| Q37361924 | Putting the N in dinoflagellates |
| Q34392960 | RESOLUTION OF DUAL MECHANISMS OF POTASSIUM ABSORPTION BY BARLEY ROOTS. |
| Q58006123 | Rapid Up-Regulation ofHKT1, a High-Affinity Potassium Transporter Gene, in Roots of Barley and Wheat following Withdrawal of Potassium |
| Q47944816 | Regulation of sulfate uptake by excised barley roots in the presence of selenate |
| Q83241883 | Relationship of Cell Sap pH to Organic Acid Change During Ion Uptake |
| Q58951093 | Relationships between the Chloride and Iodide Uptake of Wheat Seedlings |
| Q46426308 | Relative Uptake and Translocation of Potassium and Cesium in Barley |
| Q46017863 | Role of Calcium in Absorption of Monovalent Cations. |
| Q83259564 | Root absorption and transport behavior of technetium in soybean |
| Q59021910 | Rubidium as a Tracer for Potassium in the Marine Algae Ulva lactuca L. and Chaetomorpha darwinii (Hooker) Kuetzing |
| Q83250855 | Selectivity of alkali cation influx across the plasma membrane of oat roots: cation specificity of the plasma membrane ATPase |
| Q83256711 | Simultaneous consideration of tissue and substrate potassium concentration in k uptake kinetics: a model |
| Q44870620 | Simultaneous influx of ammonium and potassium into maize roots: kinetics and interactions |
| Q83241364 | Sites of accumulation in excised Phloem and vascular tissues |
| Q46113441 | Some Observations on Absorption of Cesium by Excised Barley Roots |
| Q87584668 | Spatial and temporal patterns of root activity in a species-rich alluvial grassland |
| Q39617171 | Spatiotemporal variation of nitrate uptake kinetics within the maize (Zea mays L.) root system is associated with greater nitrate uptake and interactions with architectural phenes. |
| Q34356392 | Studies on the Ionic Permeability of Muscle Cells and their Models |
| Q87232625 | Studies on the sub-cellular location of particulate nitrate and nitrite reductase, glutamic dehydrogenase and other enzymes in barley roots |
| Q83256283 | Sucrose uptake by developing soybean cotyledons |
| Q36426404 | THE GENERATION OF LATENT-ION-TRANSPORT CAPACITY |
| Q37617181 | THE SITES OF ORTHOPHOSPHATE UPTAKE BY BARLEY ROOTS. |
| Q89581560 | Targeting root ion uptake kinetics to increase plant productivity and nutrient use efficiency |
| Q56069075 | The Dilution Effect in Plant Nutrition Studies |
| Q83237696 | The Effect of Calcium on Potassium Accumulation in Corn and Soybean Roots |
| Q44632614 | The Effect of pH and Temperature on the Absorption Of Potassium and Bromide by Barley Roots |
| Q83237730 | The Influence of Boron on Starch Phosphorylase and its Significance in Translocation of Sugars in Plants |
| Q83236996 | The Relation of External Rubidium Concentration to Amounts and Rates of Uptake by Excised Potato Tuber Tissue |
| Q26770652 | The Role of Ethylene in Plant Responses to K(+) Deficiency |
| Q46220083 | The Role of pH in the Permeability of Chlorella to 2,4-D. |
| Q26738314 | The Thermodynamic Flow-Force Interpretation of Root Nutrient Uptake Kinetics: A Powerful Formalism for Agronomic and Phytoplanktonic Models |
| Q42954904 | The accumulation of iodide by Fucus ceranoides |
| Q46365593 | The essential role of calcium in selective cation transport by plant cells |
| Q54012731 | The influence of salinity on the kinetics of NH inf4sup+ uptake in Spartina alterniflora. |
| Q39928231 | The physical state of solutes and water in living cells according to the association-induction hypothesis |
| Q24569767 | The physiological behavior of rubidium and cesium in relation to that of potassium |
| Q87216633 | The uptake of simple phenols by barley roots |
| Q34255918 | Theoretical analysis of the significance of whether or not enzymes or transport systems in structured media follow Michaelis-Menten kinetics |
| Q83236834 | Translocation of Radioactive Isotopes from Various Regions of Roots of Barley Seedlings |
| Q83250051 | Uptake and Metabolism of d-Glucose by Neocosmospora vasinfecta E. F. Smith |
| Q86814538 | Uptake of bromacil by isolated barley roots |
| Q37391114 | Uptake of rubidium and phosphate ions by polysaccharide-producing bacteria. |
| Q87247891 | Water dependent and water independent fluxes of potassium in exuding root systems of Ricinus communis |
| Q34742476 | When Michaelis and Menten met Holling: towards a mechanistic theory of plant nutrient foraging behaviour |
| Q52439580 | [Active and inactive phosphate uptake in leaf cells of Elodea densa at high external phosphate concentrations]. |
| Q74296389 | [Biological and chemical ways of the accumulation of trace elements] |
| Q87184603 | [The pH-dependence of the uptake of H2PO 4 (-), SO 4 (=), Na (+) and K (+) by Ankistrodesmus braunii and their ionic interactions] |
Search more.