Publication | Closed Access
Gene structure and chromosome mapping of the human small-conductance calcium-activated potassium channel SK1 gene (KCNN1)
22
Citations
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References
1999
Year
Chromosome MappingRadiation Hybrid MappingGeneticsMolecular GeneticsNeurotransmissionCellular PhysiologySocial SciencesHyperpolarization (Biology)Gene StructureIntercellular CommunicationCalcium-activated Potassium ChannelsMolecular NeuroscienceMolecular PhysiologyIon ChannelsNervous SystemCell BiologyChannelopathiesNeurophysiologyPhysiologyElectrophysiologyMolecular NeurobiologyMedicine
Small-conductance, calcium-activated potassium channels contribute to the afterhyperpolarization in central neurons and other cell types. Because these channels regulate neuronal excitability, defects in their genes could cause excitability disorders. The human cDNA encoding one such channel, SK1 (KCNN1), was recently cloned. Here we describe the gene structure of KCNN1 and its localization by radiation hybrid mapping to chromosome 19p13.1.
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