EGL-36 Shaw Channels Regulate C. elegans Egg-Laying Muscle Activity
نویسندگان
چکیده
The C. elegans egl-36 gene encodes a Shaw-type potassium channel that regulates egg-laying behavior. Gain of function [egl-36(gf)] and dominant negative [egl-36(dn)] mutations in egl-36 cause reciprocal defects in egg laying. An egl-36::gfp reporter is expressed in the egg-laying muscles and in a few other tissues. Expression of an egl-36(gf) cDNA in the egg-laying muscles causes behavioral defects similar to those observed in egl-36(gf) mutants. Gain of function EGL-36 subunits form channels that are active at more negative potentials than wild-type channels. The egl-36(gf) alleles correspond to missense mutations in an amino terminal subunit assembly domain (E138K) and in the S6 transmembrane domain (P435S), neither of which were previously implicated in the voltage dependence of channel activation. Altogether, these results suggest that EGL-36 channels regulate the excitability of the egg-laying muscles.
منابع مشابه
Behavioral Defects in C. elegans egl-36 Mutants Result from Potassium Channels Shifted in Voltage-Dependence of Activation
Mutations in the C. elegans egl-36 gene result in defective excitation of egg-laying and enteric muscles. Dominant gain-of-function alleles inhibit enteric and egg-laying muscle contraction, whereas a putative null mutation has no observed phenotype. egl-36 encodes a Shaw-type (Kv3) voltage-dependent potassium channel subunit. In Xenopus oocytes, wild-type egl-36 expresses noninactivating chann...
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ورودعنوان ژورنال:
- Neuron
دوره 19 شماره
صفحات -
تاریخ انتشار 1997