unc-1: A stomatin homologue controls sensitivity to volatile anesthetics in Caenorhabditis elegans
S Rajaram, MM Sedensky… - Proceedings of the …, 1998 - National Acad Sciences
S Rajaram, MM Sedensky, PG Morgan
Proceedings of the National Academy of Sciences, 1998•National Acad SciencesTo identify sites of action of volatile anesthetics, we are studying genes in a functional
pathway that controls sensitivity to volatile anesthetics in the nematode Caenorhabditis
elegans. The unc-1 gene occupies a central position in this pathway. Different alleles of unc-
1 have unique effects on sensitivity to the different volatile anesthetics. UNC-1 shows
extensive homology to human stomatin, an integral membrane protein thought to regulate
an associated ion channel. We postulate that UNC-1 has a direct effect on anesthetic …
pathway that controls sensitivity to volatile anesthetics in the nematode Caenorhabditis
elegans. The unc-1 gene occupies a central position in this pathway. Different alleles of unc-
1 have unique effects on sensitivity to the different volatile anesthetics. UNC-1 shows
extensive homology to human stomatin, an integral membrane protein thought to regulate
an associated ion channel. We postulate that UNC-1 has a direct effect on anesthetic …
To identify sites of action of volatile anesthetics, we are studying genes in a functional pathway that controls sensitivity to volatile anesthetics in the nematode Caenorhabditis elegans. The unc-1 gene occupies a central position in this pathway. Different alleles of unc-1 have unique effects on sensitivity to the different volatile anesthetics. UNC-1 shows extensive homology to human stomatin, an integral membrane protein thought to regulate an associated ion channel. We postulate that UNC-1 has a direct effect on anesthetic sensitivity in C. elegans and may represent a molecular target for volatile anesthetics.
National Acad Sciences