Channel Structure, Assembly, and Degradation:
Gap Junction Structure: New Structures and New Insights, G. Sosinsky.
Degradation of Gap Junctions and Connnexins, J.G. Laing and E.C. Beyer.
Channel Forms, Permeability, and Conductance:
Homotypic, Heterotypic, and Heteromeric Gap Junction Channels, P.R. Brink, V. Valiunas, and G.J. Christ.
Heteromultimeric Gap Junction Channels and Cardiac Disease, S. Elenes and A.P. Moreno.
Ion Permeation through Connexin Gap Junction Channels: Effects on Conductance and Selectivity, R.D. Veenstra.
Phosphorylation of Connexins: Consequences for Permeability, Conductance, and Kinetics of Gap Junction Channels, H.J. Jongsma, H.V.M. van Rijen, B.R. Kwak, and M. Chanson.
Intercellular Calcium Wave Communication via Gap Junction-Dependent and -Independent Mechanisms, E. Scemes, S.O. Suadicani, and D.C. Spray.
Membrane Potential Dependence of Gap Junctions in Vertebrates, L.C. Barrio, A. Revilla, J.M. Goméz-Hernandez, M. de Miguel, and G. González..
A Reexamination of Calcium Effects on Gap Junctions in Heart Myocytes, B. Delage and J. Délèze.
Distinct Behaviors of Chemical- and Voltage-Sensitive Gates of Gap Junction Channel, F.F. Bukauskas and C. Peracchia.
A Molecular Model for the Chemical Regulation of Connexin43 Channels: The "Ball-and-Chain" Hypothesis, M. Delmar, K. Stergiopoulos, Nobuo Homma, G. Calero, G. Morley, J.F. Ek-Vitorin, and S.M. Taffet.
Mechanistic Differences between Chemical and Electrical Gating of Gap Junctions, I.M. Skerrett, J.F. Smith, and B.J. Nicholson.
Behavior of Chemical- and Sl