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Molecular cloning and characterization of LKv1, a novel voltage-gated potassium channel in leech
Journal of neurobiology
  • Jamie L. Weiss
  • Jay Yang
  • Chunfa Jie
  • Diana L. Walker
  • Shawn Ahmed
  • Yunxia Zhu
  • Yueqiao Huang, Philadelphia College of Osteopathic Medicine
  • Kristen M. Johansen
  • Jørgen Johansen
Document Type
Publication Date
We have cloned a novel voltage-gated K channel, LKv1, in two species of leech. The properties of LKv1 expressed in transiently transfected HEK293 cells is that of a delayed rectifier current. LKv1 may be a major modulator of excitability in leech neurons, since antibody localization studies show that LKv1 is expressed in the soma and axons of all neurons in both the central and peripheral nervous systems. Comparison of the biophysical and pharmacological properties of LKv1 with native voltage-gated conductances in leech neurons suggests that LKv1 may correspond to the previously characterized delayed rectifier current, I(K). Phylogenetic analysis of LKv1 shows that it is related to the Shaker subfamily of voltage-gated K channels although it occupies a separate branch from that of the monophyletic Shaker clade composed of the flatworm, Aplysia, Drosophila, and mammalian Shaker homologs as well as from that of two recently identified Shaker-related K channels in jellyfish. Thus, this analysis indicates that this group of voltage-gated K channels contains several evolutionarily divergent lineages.

This article was published in Journal of neurobiology, Volume 38, Issue 2, Pages 287-299.

The published version is available at<287::AID-NEU10>3.0.CO;2-U.

Copyright © 1999 Wiley.

Citation Information
Jamie L. Weiss, Jay Yang, Chunfa Jie, Diana L. Walker, et al.. "Molecular cloning and characterization of LKv1, a novel voltage-gated potassium channel in leech" Journal of neurobiology Vol. 38 Iss. 2 (1999) p. 287 - 299
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