Cloning of a pH-sensitive K+ channel possessing two transmembrane segments
- 1 February 1994
- journal article
- letter
- Published by Springer Nature in Nature
- Vol. 367 (6464) , 642-645
- https://doi.org/10.1038/367642a0
Abstract
THE mammalian renal collecting ducts are responsible for secreting potassium ions into the urine and are a major regulatory site for potassium homeostasis1, in which a voltage-independent pH-sensitive K+ channel in the apical membrane plays a central role2,3. Here we describe a complementary DNA encoding a novel K+ channel from rabbit renal cortical collecting tubule cells (RACTK1). RACTK1 has the functional characteristics of the apical K+-permeable channel and consists of 284 amino acids, putatively with two transmembrane segments. The sequence of RACTK1, however, shows no homology to known voltage-dependent or -independent K+ channels, and has a different K+-driving path and regulatory sites. The study of this protein should provide insight into K+ homeostasis and diseases of K+ metabolism.Keywords
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