Correction of Deafness in shaker-2 Mice by an Unconventional Myosin in a BAC Transgene
FJ Probst, RA Fridell, Y Raphael, TL Saunders, A Wang… - Science, 1998 - science.org
Science, 1998•science.org
The shaker-2 mouse mutation, the homolog of human DFNB3, causes deafness and circling
behavior. A bacterial artificial chromosome (BAC) transgene from the shaker-2 critical region
corrected the vestibular defects, deafness, and inner ear morphology of shaker-2 mice. An
unconventional myosin gene, Myo15, was discovered by DNA sequencing of this BAC.
Shaker-2 mice were found to have an amino acid substitution at a highly conserved position
within the motor domain of this myosin. Auditory hair cells of shaker-2 mice have very short …
behavior. A bacterial artificial chromosome (BAC) transgene from the shaker-2 critical region
corrected the vestibular defects, deafness, and inner ear morphology of shaker-2 mice. An
unconventional myosin gene, Myo15, was discovered by DNA sequencing of this BAC.
Shaker-2 mice were found to have an amino acid substitution at a highly conserved position
within the motor domain of this myosin. Auditory hair cells of shaker-2 mice have very short …
The shaker-2 mouse mutation, the homolog of humanDFNB3, causes deafness and circling behavior. A bacterial artificial chromosome (BAC) transgene from the shaker-2critical region corrected the vestibular defects, deafness, and inner ear morphology of shaker-2 mice. An unconventional myosin gene, Myo15, was discovered by DNA sequencing of this BAC.Shaker-2 mice were found to have an amino acid substitution at a highly conserved position within the motor domain of this myosin. Auditory hair cells of shaker-2 mice have very short stereocilia and a long actin-containing protrusion extending from their basal end. This histopathology suggests that Myo15 is necessary for actin organization in the hair cells of the cochlea.
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