Gilbert Ling American scientist
Ling, Gilbert N., 1919-
Ling, Gilbert Ning, 1919-....
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Ling, Gilbert N.
Ling, Gilbert N. 1919-2019
VIAF ID: 21056713 (Personal)
Permalink: http://viaf.org/viaf/21056713
Preferred Forms
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Gilbert Ling
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American scientist
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Ling, Gilbert N.
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100 1 _ ‡a Ling, Gilbert N.
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100 1 _ ‡a Ling, Gilbert N. ‡d (1919- ).
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100 1 _
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Ling, Gilbert N.
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1919-2019
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100 1 _ ‡a Ling, Gilbert N., ‡d 1919-
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100 1 _
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Ling, Gilbert N.,
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1919-
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100 1 _
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Ling, Gilbert Ning
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1919-...
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100 1 _ ‡a Ling, Gilbert Ning, ‡d 1919-
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100 1 _
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Ling, Gilbert Ning,
‡d
1919-....
4xx's: Alternate Name Forms (12)
Works
| Title | Sources |
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| Evidence that Na+ in a sulfonate ion exchange resin exists in an adsorbed state. Its significance for the interpretation of NMR data in resins and cells |
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| Experimental verification of an expected relation between time of incubation and magnitude of the fast and slow fractions of the sodium efflux from amphibian eggs |
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| Explaining on request a correlation between membrane Na,K-ATPase and K+ content in erythrocytes and other findings in the preceding paper |
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| The extracellular space of voluntary muscle tissues |
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| The functions of polarized water and membrane lipids: a rebuttal |
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| History of the membrane (pump) theory of the living cell from its beginning in mid-19th century to its disproof 45 years ago--though still taught worldwide today as established truth |
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| How does ouabain control the levels of cell K+ and Na+? by interference with a Na pump or by allosteric control of K+-Na+ adsorption on cytoplasmic protein sites? |
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| How does reduced external K+ concentration affect the rate of Na+ efflux? Evidence against the K-Na coupled pump but in support of the association-induction hypothesis |
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| How much water is made "non-free" by 36% native hemoglobin? |
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| In response to an open invitation for comments on AAAS project 2061's Benchmark books on science. Part 1: documentation of serious errors in cell biology |
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| In search of the physical basis of life, c1984: |
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| Indifference of the resting potential of frog muscle cells to external Mg++ in the face of high Mg++ permeability |
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| Is the Cell Membrane a Universal Rate-Limiting Barrier to the Movement of Water between the Living Cell and Its Surrounding Medium? |
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| K+ localization in muscle cells by autoradiography, and identification of K+ adsorbing sites in living muscle cells with uranium binding sites in electron micrographs of fixed cell preparations |
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| Low paramagnetic-ion content in cancer cells: its significance in cancer detection by magnetic resonance imaging |
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| Maintenance of low sodium and high potassium levels in resting muscle cells |
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| The majority of potassium ions in muscle cells is adsorbed on beta- and gamma-carboxyl groups of myosin: potassium-ion-adsorbing carboxyl groups on myosin heads engage in cross-bridge formation during contraction |
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| Measurements of Potassium Ion Activity in the Cytoplasm of Living Cells |
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| The mechanism for the exclusion of sugars from the water in a model of the liveing cell: the ion-exchange resin: pore size or water structure? |
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| The mechanism of cellular resting potential according to the association-induction hypothesis and the perfused squid axon: correcting a misrepresentation |
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| The membrane theory and other views for solute permeability, distribution, and transport in living cells |
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| Metabolic Cooperative Control of Electrolyte Levels by Adenosine Triphosphate in the Frog Muscle |
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| Mg++ and K+ distribution in frog muscle and egg: A disproof of the donnan theory of membrane equilibrium applied to the living cells |
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| Na+ and K+ levels in living cells: do they depend on the rate of outward transport of Na+? |
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| Nano-protoplasm: the ultimate unit of life. |
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| The new cell physiology: an outline, presented against its full historical background, beginning from the beginning. |
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| A new model for the living cell: a summary of the theory and recent experimental evidence in its support. |
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| A new theory of the water contents of living cells in solutions containing different concentrations of permeant solutes |
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| NMR relaxation of water protons under the influence of proteins and other linear polymers |
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| Nuclear magnetic resonance relaxation and water contents in normal mouse and rat tissues and in cancer cells |
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| On the large error introduced in the estimate of the density of membrane pores from permeability measurements when diffusion in "unstirred layer" within the cells is disregarded. |
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| Oxidative phosphorylation and mitochondrial physiology: a critical review of chemiosmotic theory, and reinterpretation by the association-induction hypothesis |
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| Partial preservation of the ability of accumulating alkali-metal ions in 2 mm muscle cell segments with both ends open |
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| Peer review and the progress of scientific research |
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| The physical state of water in living cells and its physiological significance |
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| A physical theory of the living state, 1962 |
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| Potassium accumulation frog muscle: the association-induction hypothesis versus the membrane theory |
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| Potassium ion: is the bulk of intracellular K+ adsorbed? |
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| Predictions of polarized multilayer theory of solute distribution confirmed from a study of the equilibrium distribution in frog muscle of twenty-one nonelectrolytes including five cryoprotectants |
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| Quantitative relationships between the concentration of proteins and the concentration of K+ and Na+ in red cell ghosts. |
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| A quantitative theory of solute distribution in cell water according to molecular size. |
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| Red blood cell ghosts: hollow membranes or solid bodies? |
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| A revolution in the physiology of the living cell |
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| The role of inductive effect in the determination of protein structure |
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| The role of multilayer polarization of cell water in the swelling and shrinkage of living cells |
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| A simple rapid method for the quantitative separation of the extracellular fluid in frog muslces |
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| Simultaneous efflux of K+ and Na+ from frog sartorius muscle freed of extracellular fluids: evidence for rapidly exchanging Na+ from the cells |
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| Structured water or pumps? |
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| Studies on insulin action. V. Structural requirements of primers for subsequent accumulation of D-glucose at 0 degrees C in insulinized frog muscles |
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| Studies on ion distribution in living cells. II. Cooperative interaction between intracellular potassium and sodium ions |
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| Studies on the Ionic Permeability of Muscle Cells and their Models |
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| A study of selective adsorption of Na+ and other alkali-metal ions on isolated proteins: a test of the salt-linkage hypothesis |
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| Synchronous control of metabolic activity by K+ transiently and reversibly liberated from adsorption sites during muscle contraction: an extension of association-induction theory |
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| Synergistic activation of beta-galactosidase by Na and Cs |
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| Thallium and cesium in muscle cells compete for the adsorption sites normally occupied by K+ |
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| Theory of active transport across frog skin and other bifacial cell systems: a subsidiary of the association-induction hypothesis |
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| A theory of cell swelling in high concentrations of Kc1 and other chloride salts |
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| Truth in basic biomedical science will set future mankind free |
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| An ultra simple model of protoplasm to test the theory of its long-range coherence and control so far tested (and affirmed) mostly on intact cell(s). |
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| An unanswered 2003 letter appealing on behalf of all mankind to Nobel Laureate Roderick McKinnon to use his newfound fame and visibility to begin restoring honesty and integrity to basic biomedical science by rebutting or correcting suspected plagia |
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| Underestimation of Na permeability in muscle cells: implications for the theory of cell potential and for energy requirement of the Na pump |
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| An updated and further developed theory and evidence for the close-contact, one-on-one association of nearly all cell K+ with beta- and gamma-carboxyl groups of intracellular proteins. |
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| Warming-induced hyperpolarization of cardiac muscle cells and snail neurones: interpretation based on temperature transition of cooperatively linked surface anionic sites between K+ and Na+ adsorbing states |
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| What befalls the proteins and water in a living cell when the cell dies? |
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| What Component of the Living Cell Is Responsible for Its Semipermeable Properties? Polarized Water or Lipids? |
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| What determines the normal water content of a living cell? |
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| What is life answered in terms of properties and activities of auto-cooperative assemblies of molecules, atoms, ions and electrons called nano-protoplasm |
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