Molecular cloning, characterization, and genomic localization of a human potassium channel gene

Abstract

Potassium (K+) channels are critical for a variety of cell functions, including modulation of action potentials, determination of resting membrane potential, and development of memory and learning. In addition to their role in regulating myocyte excitability, cardiac K+ channels control heart rate and coronary vascular tone and are implicated in the development of arrhythmias. We report here the cloning and sequencing of a K+ channel gene, KCNA1, derived from a human cardiac cDNA library and the chromosomal localization of the corresponding genomic clone. Oligonucleotides based on a delayed rectifier K+ channel gene were used in PCR reactions with human genomic DNA to amplify the S4–S6 regions of several different K+ channel genes. These sequences were used to isolate clones from a human cardiac cDNA library. We sequenced one of these clones, HCK1. HCK1 contains putative S2–S6 domains and shares ∼70% sequence homology with previously isolated Shaker homologues. HCK1 was used to screen human cosmid libraries and a genomic clone was isolated. By sequencing the genomic clones, a putative S1 domain and translation initiation sequences were identified. Genomic mapping using human-rodent somatic cell panels and in situ hybridization with human metaphase chromosomes have localized KCNA1 to the distal short arm of human chromosome 12. This work is an important step in the study of human cardiac K+ channel structure and function and will be of use in the study of human inherited disease.