review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.1007/BF01871452 |
P953 | full work available at URL | http://link.springer.com/article/10.1007/BF01871452/fulltext.html |
http://link.springer.com/content/pdf/10.1007/BF01871452.pdf | ||
http://link.springer.com/content/pdf/10.1007/BF01871452 | ||
P698 | PubMed publication ID | 6315944 |
P50 | author | Gregg L. Semenza | Q1545025 |
P2093 | author name string | M. Kessler | |
G. Semenza | |||
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Relationship between the Na+/H+ antiporter and Na+/substrate symport in Bacillus alcalophilus | Q35321672 | ||
Transfer of proteins across membranes. II. Reconstitution of functional rough microsomes from heterologous components | Q36204254 | ||
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Involvement of multiple sodium ions in intestinal d-glucose transport | Q36289975 | ||
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Sodium and Sugar Fluxes across the Mucosal Border of Rabbit Ileum | Q36387299 | ||
Demonstration of electrogenic Na+-dependent D-glucose transport in intestinal brush border membranes | Q37431545 | ||
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Coupling in secondary transport Effect of electrical potentials on the kinetics of ion linked co-transport | Q39106754 | ||
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Exchange diffusion, transport, and intracellular level of amino acids in Ehrlich carcinoma cells | Q78478051 | ||
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The gradient hypothesis and other models of carrier-mediated active transport | Q39619859 | ||
The molecular organization of membranes | Q39888451 | ||
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On the mechanism of Na+-dependent glucose transport | Q40120948 | ||
Secretion and membrane localization of proteins in Escherichia coli. | Q40285614 | ||
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Transmembrane disposition of the phlorizin binding protein of intestinal brush borders | Q41556663 | ||
The spontaneous insertion of proteins into and across membranes: the helical hairpin hypothesis | Q41649513 | ||
Asymmetry of the red cell anion exchange system. Different mechanisms of reversible inhibition by N-(4-azido-2-nitrophenyl)-2-aminoethylsulfonate (NAP-taurine) at the inside and outside of the membrane | Q41777946 | ||
Sodium/proton antiport in brush-border-membrane vesicles isolated from rat small intestine and kidney | Q41874027 | ||
Structural requirements for active intestinal transport. The nature of the carrier-sugar bonding at C-2 and the ring oxygen of the sugar | Q41885484 | ||
Evidence for an intestinal Na+:sugar transport coupling stoichiometry of 2.0. | Q42472564 | ||
The interpretation of non-hyperbolic rate curves for two-substrate enzymes. A possible mechanism for phosphofructokinase | Q42588021 | ||
Uphill transport induced by counterflow | Q42945862 | ||
Similarity in effects of Na+ gradients and membrane potentials on D-glucose transport by, and phlorizin binding to, vesicles derived from brush borders of rattit intestinal mucosal cells | Q44092927 | ||
A modified procedure for the rapid preparation of efficiently transporting vesicles from small intestinal brush border membranes. Their use in investigating some properties of d-glucose and choline transport systems | Q44133035 | ||
The basic asymmetry of Na+-dependent glycine transport in Ehrlich cells | Q44250586 | ||
Glucose Transport in Isolated Brush Border Membrane from Rat Small Intestine | Q44317080 | ||
Kinetic analysis of H+/methyl beta-D-thiogalactoside symport in Saccharomyces fragilis. | Q52712594 | ||
Kinetic analysis of a family of cotransport models. | Q52731832 | ||
Kinetic features of cotransport mechanisms under isotope exchange conditions. | Q52747960 | ||
The mechanism of Na+-dependent D-glucose transport. | Q52761318 | ||
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Partial purification of the sugar carrier of intestinal brush border membranes. Enrichment of the phlorizin-binding component by selective extractions | Q64891521 | ||
High-affinity phlorizin binding to brush border membranes from small intestine: Identity with (a part of) the glucose transport system, dependence on the Na+-gradient, partial purification | Q66902695 | ||
The Na+ gradient-dependent transport of D-glucose in renal brush border membranes | Q66958101 | ||
Distribution of sulfhydryl groups in intestinal brush border membranes. Localization of side-chains essential for glucose transport and phlorizin binding | Q66971099 | ||
On the efficiency of energy conversion in sodium-driven D-glucose transport across small intestinal brush border membrane vesicles: an estimation | Q66980412 | ||
Thermodynamics, the structure of integral membrane proteins, and transport | Q67045000 | ||
A simple apparatus for performing short-time (1--2 seconds) uptake measurements in small volumes; its application to D-glucose transport studies in brush border vesicles from rabbit jejunum and ileum | Q67338932 | ||
Energy-dependence of phlorizin binding to isolated renal microvillus membranes. Evidence concerning the mechanism of coupling between the electrochemical Na+ gradient the sugar transport | Q67356895 | ||
Purification of the human intestinal brush border membrane | Q68671095 | ||
Further evidence for the multiplicity of carriers for free glucalogues in hamster small intestine | Q69812980 | ||
Potential-dependent D-glucose uptake by renal brush border membrane vesicles in the absence of sodium | Q70302386 | ||
Interaction of the sugar carrier of intestinal brush-border membranes with HgCl2 | Q70532128 | ||
Further studies of proximal tubular brush border membrane D-glucose transport heterogeneity | Q70640377 | ||
Interaction of phlorizin and sodium with the renal brush-border membrane D-glucose transporter: stoichiometry and order of binding | Q70660898 | ||
Stoichiometric studies of the renal outer cortical brush border membrane D-glucose transporter | Q70678761 | ||
Phlorizin as a probe of the small-intestinal Na+,D-glucose cotransporter. A model | Q70679535 | ||
Na+-dependent, potential-sensitive l-ascorbate transport across brush border membrane vesicles from kidney cortex | Q70936207 | ||
Small-intestinal Na+/D-glucose cotransport. Inactivation of sugar transport and phlorizin binding by thiol-group and amino-group reagents | Q71228058 | ||
The small-intestinal sodium, D-glucose cotransporter is inserted in the brush border membrane asymmetrically | Q72001042 | ||
Na+ gradient-coupled porters of EScherichia coli share a common subunit | Q72521566 | ||
The functional arrangement of the anion channel of red blood cells | Q72885432 | ||
Heterogeneity of sodium-dependent D-glucose transport sites along the proximal tubule: evidence from vesicle studies | Q72925253 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | biophysics | Q7100 |
physiology | Q521 | ||
cell biology | Q7141 | ||
P1104 | number of pages | 30 | |
P304 | page(s) | 27-56 | |
P577 | publication date | 1983-01-01 | |
P1433 | published in | Journal of Membrane Biology | Q6295550 |
P1476 | title | The small-intestinal Na+,d-glucose cotransporter: An asymmetric gated channel (or pore) responsive to ΔΨ | |
P478 | volume | 76 |
Q52671272 | A new method for determination of relative ion permeabilities in isolated cells. |
Q28306205 | Adaptation of intestinal nutrient transport in health and disease. Part I |
Q70724850 | Allosterism and Na(+)-D-glucose cotransport kinetics in rabbit jejunal vesicles: compatibility with mixed positive and negative cooperativities in a homo- dimeric or tetrameric structure and experimental evidence for only one transport protein invol |
Q43822264 | Amino acid transport by intestinal brush border vesicles of a marine fish, Boops salpa |
Q38159655 | Comments and experiments on the kinetics of Na+ gradient-coupled glucose transport as found in rabbit jejunal brush-border membrane vesicles |
Q52525143 | Computer analysis reveals changes in renal Na+-glucose cotransporter in diabetic rats. |
Q39499492 | Cotransport systems for inorganic sulfate and phosphate in small intestine and renal proximal tubule |
Q52650650 | Current-voltage relations of sodium-coupled sugar transport across the apical membrane of Necturus small intestine. |
Q69037034 | D(-)3-hydroxybutyrate cotransport with Na in rat renal brush border membrane vesicles |
Q71337937 | Demonstration of sodium-dependent, electrogenic substrate transport in rat small intestinal brush border membrane vesicles by a cyanine dye |
Q30990921 | Early intermediates in the transport cycle of the neuronal excitatory amino acid carrier EAAC1 |
Q67957632 | Effects of pH, potential, chloride and furosemide on passive Na+ and K+ effluxes from human red blood cells |
Q43689174 | Electrogenic properties of the cloned Na+/glucose cotransporter: I. Voltage-clamp studies |
Q46023336 | Electrogenic properties of the cloned Na+/glucose cotransporter: II. A transport model under nonrapid equilibrium conditions. |
Q68967362 | Electrogenic properties of the sodium-alanine cotransporter in pancreatic acinar cells: I. Tight-seal whole-cell recordings |
Q52653519 | Electrogenic properties of the sodium-alanine cotransporter in pancreatic acinar cells: II. Comparison with transport models. |
Q41919198 | Electrogenicity of phosphate transport by renal brush-border membranes |
Q28609241 | Forging the link between structure and function of electrogenic cotransporters: the renal type IIa Na+/Pi cotransporter as a case study |
Q64963684 | Growth factor effects on membrane transport: uptake studies using cell cultures and isolated membrane vesicles. |
Q67895549 | Heterogeneity in the effects of membrane potentials on pantothenate and glucose uptakes by rabbit renal apical membranes |
Q68418914 | Intracellular sodium in proximal tubules of diabetic rats. Role of glucose |
Q43828189 | Involvement of active transport systems in the mobilization of cadmium by dithiocarbamates in vivo |
Q44895716 | Irreversible inhibition of renal Na(+)-Pi cotransporter by alpha-bromophosphonoacetic acid |
Q35578120 | Ischemia induces surface membrane dysfunction. Mechanism of altered Na+-dependent glucose transport |
Q52671259 | Kinetic analysis of mechanism of intestinal Na+-dependent sugar transport. |
Q71397931 | Kinetics of sodium D-glucose cotransport in bovine intestinal brush border vesicles |
Q68308612 | Kinetics of the Na+/alanine cotransporter in pancreatic acinar cells |
Q34400658 | Kinetics of the reverse mode of the Na+/glucose cotransporter |
Q52531187 | Kinetics of volume-sensitive K transport in human erythrocytes: evidence for asymmetry. |
Q68260461 | Lysine excretion by Corynebacterium glutamicum. 2. Energetics and mechanism of the transport system |
Q38351490 | Measurements of amino acid transport in internally dialyzed giant axons |
Q37910741 | Membrane potentials and the mechanism of intestinal Na(+)-dependent sugar transport |
Q52655453 | Microscopic description of voltage effects on ion-driven cotransport systems. |
Q41641622 | Na+ binding to the Na(+)-glucose cotransporter is potential dependent |
Q69495101 | Phlorizin binding to isolated enterocytes: membrane potential and sodium dependence |
Q36438697 | Properties of the mutant Ser-460-Cys implicate this site in a functionally important region of the type IIa Na(+)/P(i) cotransporter protein |
Q43142319 | Reassessment of models of facilitated transport and cotransport |
Q40224836 | Reduction of an eight-state mechanism of cotransport to a six-state model using a new computer program |
Q38139847 | Robert F. Pitts memorial lecture. Electrophysiology of Triturus nephron: cable properties and electrogenic transport systems |
Q38159657 | Sodium cotransport systems and the membrane potential difference |
Q33907767 | Sodium leak pathway and substrate binding order in the Na+-glucose cotransporter |
Q42976429 | Sodium-alanine cotransport in renal proximal tubule cells investigated by whole-cell current recording |
Q69051914 | Stimulation of intestinal Na+/D-glucose cotransport by monoclonal antibodies |
Q69715358 | The electrogenic, Na+-dependent I- transport system in plasma membrane vesicles from thyroid glands |
Q52679044 | The mechanistic nature of the membrane potential dependence of sodium-sugar cotransport in small intestine. |
Q34017583 | The molecular mechanism and potential dependence of the Na+/glucose cotransporter |
Q39840394 | The potential dependence of the intestinal Na+-dependent sugar transporter |
Q38159665 | The small-intestinal sodium-glucose cotransporter(s). |
Q24536008 | Thermodynamic determination of the Na+: glucose coupling ratio for the human SGLT1 cotransporter |
Q34062895 | Transepithelial glucose transport and Na+/K+ homeostasis in enterocytes: an integrative model |
Q41196197 | Two substrate sites in the renal Na(+)-D-glucose cotransporter studied by model analysis of phlorizin binding and D-glucose transport measurements |
Q41018421 | Uptake of fatty acids by jejunal mucosal cells is mediated by a fatty acid binding membrane protein |
Q34168657 | Voltage and cosubstrate dependence of the Na-HCO3 cotransporter kinetics in renal proximal tubule cells |
Q48896854 | Voltage and substrate dependence of the inverse transport mode of the rabbit Na(+)/glucose cotransporter (SGLT1). |
Q57138945 | Voltage dependence of sodium-calcium exchange: predictions from kinetic models |
Q50800852 | Voltage-clamp studies of the Na+/glucose cotransporter cloned from rabbit small intestine. |
Q69398450 | Zinc inhibition of glucose uptake in brush border membrane vesicles from pig small intestine |