Lichtinghagen, R., Stocker, M., Wittka, R., Boheim, G., Stuhmer, W., Ferrus, A., Pongs, O. (1990). Molecular basis of altered excitability in Shaker mutants of Drosophila melanogaster.  EMBO J. 9: 4399--4407.

FBrf0051669

Research paper

Mutations in the Shaker (Sh) locus of Drosophila melanogaster have differing effects on action potential duration and repolarization in neurons as well as on A-type K+ channels (IA) in muscle. The molecular basis of three exemplary Sh alleles (ShKS133, ShE62 and Sh5) has been identified. They are point mutations in the Sh transcription unit expressing aberrant voltage-gated A-type K+ channels. Replicas of each mutation have been introduced by in vitro mutagenesis into Sh cDNA. The expression of in vitro transcribed mutant Sh cRNA in Xenopus laevis oocytes reproduced the specific phenotypic traits of each Sh allele. The lack of IA in ShKS133 is due to a missense mutation within a sequence motif occurring in all hitherto characterized voltage-gated K+ channel forming proteins. The reduction of IA in ShE62 is due to a mutation in an AG acceptor site. The intervening sequence between exons 19 and 20 is not spliced in ShE62 RNA. As a consequence, ShE62 flies do not contain the full complement of Sh K+ forming proteins. Finally, the Sh5 mutation leads to an altered voltage dependence of K+ channel activation and inactivation as well as to an accelerated rate of recovery from inactivation. This is due to a missense mutation altering the amino acid sequence of the proposed transmembrane segment S5 of the Sh K+ channels. Segment S5 is located adjacently to the presumed voltage sensor of voltage-gated ion channels. The results explain the altered properties of excitable cells in Sh mutants and provide a general model for the possible role of A-type K+ channels in modulating action potential profiles.

PMC552231 (PMC) (EuropePMC)