APA
Lörinczi, Eva & Napp, Joanna & Contreras Jurado, Silvia Constanza & Pardo, Luis A. & Stühmer, Walter .The voltage dependence of hEag currents is not determined solely by membrane-spanning domains.
ISO 690
Lörinczi, Eva & Napp, Joanna & Contreras Jurado, Silvia Constanza & Pardo, Luis A. & Stühmer, Walter. The voltage dependence of hEag currents is not determined solely by membrane-spanning domains.
https://hdl.handle.net/20.500.12080/26190
Resumen:
The ether-a`-go-go potassium channels hEag1
and hEag2 are highly homologous. Even though both
possess identical voltage-sensing domain S4, the channels
act differently in response to voltage. Therefore we asked
whether transmembrane domains other than the voltage
sensor could contribute to the voltage-dependent behaviour
of these potassium channels. For this chimaeras were cre ated, in which each single transmembrane domain of hEag1
was replaced by the corresponding segment of hEag2. The
voltage-dependent properties of the chimaeras were ana lysed after expression in Xenopus laevis oocytes using the
two-electrode voltage-clamp method. By this we found,
that only the mutations in transmembrane domains S5 and
S6 are able to change the voltage sensitivity of hEag1 by
shifting the half-activation potential (V50) to values inter mediate between the two wild types. Moreover, the
presence of Mg2+ has strong effects on the voltage sensi tivity of hEag2 shifting V50 by more than 50 mV to more
positive values. Interestingly, despite the identical binding
site Mg2+ showed only little effects on hEag1 or the
chimaeras. Altogether, our data suggest that not only
transmembrane spanning regions, but also non-membrane
spanning regions are responsible for differences in the
behaviour of the hEag1 and hEag2 potassium channels.