Properties and regulation of gap junctional hemichannels in the plasma membranes of cultured cells. H Li, TF Liu, A Lazrak, C Peracchia, GS Goldberg, PD Lampe, ... The Journal of cell biology 134 (4), 1019-1030, 1996 | 389 | 1996 |
Low resistance junctions in crayfish. Structural changes with functional uncoupling. C Peracchia, AF Dulhunty The Journal of cell biology 70 (2), 419-439, 1976 | 375* | 1976 |
Chemical gating of gap junction channels: roles of calcium, pH and calmodulin C Peracchia Biochimica et Biophysica Acta (BBA)-Biomembranes 1662 (1-2), 61-80, 2004 | 317 | 2004 |
Structural correlates of gap junction permeation C Peracchia International review of cytology 66, 81-146, 1980 | 300 | 1980 |
Gap junctions. Structural changes after uncoupling procedures. C Peracchia The Journal of cell biology 72 (3), 628-641, 1977 | 248 | 1977 |
Fixation by means of glutaraldehyde-hydrogen peroxide reaction products C Peracchia, BS Mittler The Journal of Cell Biology 53 (1), 234, 1972 | 228 | 1972 |
Calcium effects on gap junction structure and cell coupling C Peracchia Nature 271 (5646), 669-671, 1978 | 191 | 1978 |
Low resistance junctions in crayfish: I. Two arrays of globules in junctional membranes C Peracchia The Journal of Cell Biology 57 (1), 54-65, 1973 | 156 | 1973 |
Gap junction dynamics: reversible effects of divalent cations. C Peracchia, LL Peracchia The Journal of cell biology 87 (3), 708-718, 1980 | 155 | 1980 |
Gap junction gating sensitivity to physiological internal calcium regardless of pH in Novikoff hepatoma cells A Lazrak, C Peracchia Biophysical journal 65 (5), 2002-2012, 1993 | 153 | 1993 |
Two distinct gating mechanisms in gap junction channels: CO2-sensitive and voltage-sensitive FF Bukauskas, C Peracchia Biophysical journal 72 (5), 2137-2142, 1997 | 147 | 1997 |
Calmodulin directly gates gap junction channels C Peracchia, A Sotkis, XG Wang, LL Peracchia, A Persechini Journal of Biological Chemistry 275 (34), 26220-26224, 2000 | 141 | 2000 |
Lens cell-to-cell channel protein: I. Self-assembly into liposomes and permeability regulation by calmodulin SJ Girsch, C Peracchia The Journal of membrane biology 83, 217-225, 1985 | 130 | 1985 |
Gap junction dynamics: reversible effects of hydrogen ions. C Peracchia, LL Peracchia The Journal of cell biology 87 (3), 719-727, 1980 | 117 | 1980 |
Inhibition of calmodulin expression prevents low-pH-induced gap junction uncoupling inXenopus oocytes C Peracchia, X Wang, L Li, LL Peracchia Pflügers Archiv 431, 379-387, 1996 | 114 | 1996 |
Is calmodulin involved in the regulation of gap junction permeability? C Peracchia, G Bernardini, LL Peracchia Pflügers Archiv 399, 152-154, 1983 | 97 | 1983 |
Excitable membrane ultrastructure: I. Freeze fracture of crayfish axons C Peracchia The Journal of Cell Biology 61 (1), 107-122, 1974 | 87 | 1974 |
The paranodal axo-glial junction in the central nervous system studied with thin sections and freeze-fracture B Schnapp, C Peracchia, E Mugnaini Neuroscience 1 (3), 181-190, 1976 | 85 | 1976 |
Increase in gap junction resistance with acidification in crayfish septate axons is closely related to changes in intracellular calcium but not hydrogen ion concentration C Peracchia The Journal of membrane biology 113, 75-92, 1990 | 81 | 1990 |
Chimeric evidence for a role of the connexin cytoplasmic loop in gap junction channel gating X Wang, L Li, LL Peracchia, C Peracchia Pflügers Archiv 431, 844-852, 1996 | 72 | 1996 |