Mutations in myosin VI (Myo6) cause deafness and vestibular dysfunction in Snell's waltzer mice. Mutations in two other unconventional myosins cause deafness in both humans and mice, making myosin VI an attractive candidate for human deafness. In this report, we refined the map position of human myosin VI (MYO6) by radiation hybrid mapping and characterized the genomic structure of myosin VI. Human myosin VI is composed of 32 coding exons, spanning a genomic region of approximately 70 kb. Exon 30, containing a putative CKII site, was found to be alternatively spliced and appears only in fetal and adult human brain. D6S280 and D6S284 flank the myosin VI gene and were used to screen hearing impaired sib pairs for concordance with the polymorphic markers. No disease-associated mutations were identified in twenty-five families screened for myosin VI mutations by SSCP analysis. Three coding single nucleotide polymorphisms (cSNPs) were identified in myosin VI that did not alter the amino acid sequence. Myosin VI mutations may be rare in the human deaf population or alternatively, may be found in a population not yet examined. The determination of the MYO6 genomic structure will enable screening of individuals with non-syndromic deafness, Usher's syndrome, or retinopathies associated with human chromosome 6q for mutations in this unconventional myosin.
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