TY - JOUR
T1 - Structure of gap junction intercellular channels
AU - Yeager, Mark
AU - Nicholson, Bruce J.
N1 - Funding Information:
The writing of this review was supported by grants from the National lnstitutcs of Hcahh (MY and BJN), a Grant-in-Aid from the American Heart Association, National Center (MY) and the Gustavus and I.nuisc Pfeiffcr Research Foundation (MY). BJN is an Established Investigator of the American Hcart Association and a recipient of a Max Planck Prize with Klaus Vv'illcckc. MY is an Establishcd Investigator of the American Heart Association and Bristol-Myers Squibb.
PY - 1996/4
Y1 - 1996/4
N2 - Gap junctions are formed by a multigene family of polytopic membrane channel proteins, connexins, that have four hydrophobic transmembrane domains and their N and C termini located on the cytoplasmic membrane face. The C-terminal tail plays important roles in channel regulation by pH and phosphorylation. Conserved cysteine residues stabilize the conformation of the extracellular loops that mediate the 'docking' between connexons in the intercellular channel. Over the past year, electron cryocrystallography of two-dimensional crystals of a truncated recombinant α1 (C x 43) has revealed that the transmembrane boundary of the intercellular channel is lined with a helices. Furthermore, a ring of a helices resides at the interface with the membrane lipids. A three-dimensional analysis based on images recorded from tilted crystals should reveal the location and secondary structure of additional transmembrane domains, as well as provide important structural details about the interactions between connexins within a hemi-channel and connexon-connexon interactions in the extracellular gap.
AB - Gap junctions are formed by a multigene family of polytopic membrane channel proteins, connexins, that have four hydrophobic transmembrane domains and their N and C termini located on the cytoplasmic membrane face. The C-terminal tail plays important roles in channel regulation by pH and phosphorylation. Conserved cysteine residues stabilize the conformation of the extracellular loops that mediate the 'docking' between connexons in the intercellular channel. Over the past year, electron cryocrystallography of two-dimensional crystals of a truncated recombinant α1 (C x 43) has revealed that the transmembrane boundary of the intercellular channel is lined with a helices. Furthermore, a ring of a helices resides at the interface with the membrane lipids. A three-dimensional analysis based on images recorded from tilted crystals should reveal the location and secondary structure of additional transmembrane domains, as well as provide important structural details about the interactions between connexins within a hemi-channel and connexon-connexon interactions in the extracellular gap.
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U2 - 10.1016/S0959-440X(96)80073-X
DO - 10.1016/S0959-440X(96)80073-X
M3 - Article
C2 - 8728651
AN - SCOPUS:0029932193
SN - 0959-440X
VL - 6
SP - 183
EP - 192
JO - Current Opinion in Structural Biology
JF - Current Opinion in Structural Biology
IS - 2
ER -