Monitoring membrane excitability in Drosophila expressing modified shaker constructs.
نویسندگان
چکیده
The Drosophila neuromuscular junction (NMJ) ranks as one of the preeminent model systems for studying synaptic development, function, and plasticity. This protocol describes the use of the two-electrode voltage clamp (TEVC) to examine potassium (K(+)) currents mediated by voltage-gated ion channels, and gives several genetic and pharmacological methods that are used to study the currents. Drosophila larval muscle fibers possess three major K(+) currents. One of these, a fast voltage-activating and inactivating I(A) current, is mediated by the Shaker channel. The Shaker channel is characterized by its sensitivity to the drug 4-aminopyridine (4-AP). Two useful transgenic tools for altering membrane excitability have been developed by making specific modifications of the Shaker channel; their use is described here.
منابع مشابه
Targeted Attenuation of Electrical Activity in Drosophila Using a Genetically Modified K+ Channel
We describe here a general technique for the graded inhibition of cellular excitability in vivo. Inhibition is accomplished by expressing a genetically modified Shaker K(+) channel (termed the EKO channel) in targeted cells. Unlike native K(+) channels, the EKO channel strongly shunts depolarizing current: activating at potentials near E(K) and not inactivating. Selective targeting of the chann...
متن کاملDissection of synaptic excitability phenotypes by using a dominant-negative Shaker K+ channel subunit.
During nervous system development, synapses undergo morphological change as a function of electrical activity. In Drosophila, enhanced activity results in the expansion of larval neuromuscular junctions. We have examined whether these structural changes involve the pre- or postsynaptic partner by selectively enhancing electrical excitability with a Shaker dominant-negative (SDN) potassium chann...
متن کاملDistinct frequency-dependent regulation of nerve terminal excitability and synaptic transmission by IA and IK potassium channels revealed by Drosophila Shaker and Shab mutations.
Regulation of synaptic efficacy by nerve terminal excitability has not been extensively studied. We performed genetic and pharmacological dissections for presynaptic actions of K+ channels in Drosophila neuromuscular transmission by using electrophysiological and optical imaging techniques. Current understanding of the roles of the Shab IK channel and its mammalian Kv2 counterparts is relativel...
متن کاملAdenovirus-mediated expression of a voltage-gated potassium channel in vitro (rat cardiac myocytes) and in vivo (rat liver). A novel strategy for modifying excitability.
Excitability is governed primarily by the complement of ion channels in the cell membrane that shape the contour of the action potential. To modify excitability by gene transfer, we created a recombinant adenovirus designed to overexpress a Drosophila Shaker potassium channel (AdShK). In vitro, a variety of mammalian cell types infected with AdShK demonstrated robust expression of the exogenous...
متن کاملShaker and Shal mediate transient calcium-independent potassium current in a Drosophila flight motoneuron.
Ionic currents underlie the firing patterns, excitability, and synaptic integration of neurons. Despite complete sequence information in multiple species, our knowledge about ion channel function in central neurons remains incomplete. This study analyzes the potassium currents of an identified Drosophila flight motoneuron, MN5, in situ. MN5 exhibits four different potassium currents, two fast-a...
متن کاملذخیره در منابع من
با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید
عنوان ژورنال:
- Cold Spring Harbor protocols
دوره 2012 2 شماره
صفحات -
تاریخ انتشار 2012