An amino acid substitution in the pore region of a glutamate-gated chloride channel enables the coupling of ligand binding to channel gating.

Many of the subunits of ligand-gated ion channels respond poorly, if at all, when expressed as homomeric channels in Xenopus oocytes. This lack of a ligand response has been thought to result from poor surface expression, poor assembly, or lack of an agonist binding domain. The Caenorhabditis elegans glutamate-gated chloride channel subunit GluClbeta responds to glutamate as a homomeric channel while the GluClalpha subunit is insensitive. A chimera between GluClalpha and GluClbeta was used to suggest that major determinants for glutamate binding are present on the GluClalpha N terminus. Amino acid substitutions in the presumed pore of GluClalpha conferred direct glutamate gating indicating that GluClalpha is deficient in coupling of ligand binding to channel gating. Heteromeric channels of GluClalpha+beta may differ from the prototypic muscle nicotinic acetylcholine receptor in that they have the potential to bind ligand to all of the subunits forming the channel.