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. 1991 May 1;88(9):3932-6.
doi: 10.1073/pnas.88.9.3932.

Alternative splicing contributes to K+ channel diversity in the mammalian central nervous system

C J Luneau  1 J B WilliamsJ MarshallE S LevitanC OlivaJ S SmithJ AntanavageK FolanderR B SteinR Swanson, et al.
Affiliations

Alternative splicing contributes to K+ channel diversity in the mammalian central nervous system

C J Luneau et al. Proc Natl Acad Sci U S A. .

Abstract

In an attempt to define the molecular basis of the functional diversity of K+ channels, we have isolated overlapping rat brain cDNAs that encoded a neuronal delayed rectifier K+ channel, K,4, that is structurally related to the Drosophila Shaw protein. Unlike previously characterized mammalian K+ channel genes, which each contain a single protein-coding exon, K,4 arises from alternative exon usage at a locus that also encodes another mammalian Shaw homolog, NGK2. Thus, the enormous diversity of K+ channels in mammals can be generated not just through gene duplication and divergence but also through alternative splicing of RNA.

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References

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