Biophysical basis of glomerular permselectivity William M. DeenCharles R. BridgesBarry M. Brenner Topical Review Pages: 1 - 10
Conduction and selectivity in potassium channels Ramon LatorreChristopher Miller Topical Review Pages: 11 - 30
Changes of ultraviolet sensitivity of voltage-clamped sodium channels during their potential-induced conductance cycle D. HofJ. M. Fox Articles Pages: 31 - 37
Sulfhydryl reagents affect Na+ uptake into toad bladder membrane vesicles Edward F. LaBelleDouglas C. Eaton Articles Pages: 39 - 45
Isolation and partial characterization of platelet α-granule membranes John Van der MeulenWendy FuruyaSergio Grinstein Articles Pages: 47 - 59
Multioccupancy models for single filing ionic channels: Theoretical behavior of a four-site channel with three barriers separating the sites John SandblomGeorge EisenmanJarl Hägglund Articles Pages: 61 - 78
Effect of deuterium oxide on junctional membrane channel permeability Peter R. Brink Articles Pages: 79 - 87
Effects of Na-coupled alanine transport on intracellular K activities and the K conductance of the basolateral membranes ofNecturus small intestine Etienne GrassetPamela Gunter-SmithStanley G. Schultz Articles Pages: 89 - 94
Optical measurements of ΔpH and Δψ in corn root membrne vesicles: Kinetic analysis of Cl− effects on a proton-translocating ATPase Alan B. BennettRoger M. Spanswick Articles Pages: 95 - 107
Regulation of excitation-secretion coupling by thyrotropin-releasing hormone (TRH): Evidence for TRH receptor-ion channel coupling in cultured pituitary cells Gregory J. KaczorowskiRichard L. VandlenJohn P. Reuben Articles Pages: 109 - 118
Effect of 3-phenylindole on lipophilic ion and carrier-mediated ion transport across bilayer lipid membranes Barbara A. SinhaPavel Smejtek Articles Pages: 119 - 130
Inhibition of electrogenic transport associated with the action potential inChara J. R. SmithMary J. Beilby Articles Pages: 131 - 140
The mechanism of anion transport across human red blood cell membranes as revealed with a fluorescent substrate: I. Kinetic properties of NBD-taurine transfer in symmetric conditions O. EidelmanZ. I. Cabantchik Articles Pages: 141 - 148
The mechanism of anion transport across human red blood cell membranes as revealed with a fluorescent substrate: II. Kinetic properties of NBD-taurine transfer in asymmetric conditions O. EidelmanZ. I. Cabantchik Articles Pages: 149 - 161