Add to ORKGStereocilia, the modified microvilli projecting from the apical surfaces of the sensory hair cells of the inner ear, are essential to the mechanoelectrical transduction process underlying hearing and balance. The actin-filled stereocilia on each hair cell are tethered together by fibrous links to form a highly patterned hair bundle. Although many structural components of hair bundles have been identified, little is known about the signaling mechanisms that regulate their development, morphology, and maintenance. Here, we describe two naturally occurring, allelic mutations that result in hearing and balance deficits in mice, named roundabout (rda) and roundabout-2J (rda2J). Positional cloning identified both as mutations of the mouse ELMO do...
Mammalian cochlear hair cells are specialized for the dynamic coding of sound. The transduction of s...
Mouse deafness mutations provide valuable models of human hearing disorders and entry points into mo...
The mammalian inner ear is a complex structure that requires specific events for proper formation to...
Stereocilia, the modified microvilli projecting from the apical surfaces of the sensory hair cells o...
Sensory hair cells require control of physical properties of their apical plasma membranes for norma...
<div><p>Exome sequencing coupled with homozygosity mapping was used to identify a transition mutatio...
<p>(A–B) GFP-ELMOD3 localizes on actin structures (elongated microvilli due to co-expression of espi...
Stereocilia are specialized actin-filled, finger-like processes arrayed in rows of graded heights to...
Mechanotransduction in the mammalian auditory system depends on mechanosensitive channels in the hai...
Mutations in GPSM2 cause Chudley-McCullough syndrome (CMCS), an autosomal recessive neurological dis...
Human MYO7A mutations can cause a variety of conditions involving the inner ear. These include domin...
Human MYO7A mutations can cause a variety of conditions involving the inner ear. These include domin...
Hearing-impaired mouse mutants not only are good models for human hereditary deafness, but also are ...
The mammalian auditory sense organ is subdivided into three principle compartments, the outer-, midd...
Sound transduction occurs in the hair bundle, the apical compartment of sensory hair cells in the in...
Mammalian cochlear hair cells are specialized for the dynamic coding of sound. The transduction of s...
Mouse deafness mutations provide valuable models of human hearing disorders and entry points into mo...
The mammalian inner ear is a complex structure that requires specific events for proper formation to...
Stereocilia, the modified microvilli projecting from the apical surfaces of the sensory hair cells o...
Sensory hair cells require control of physical properties of their apical plasma membranes for norma...
<div><p>Exome sequencing coupled with homozygosity mapping was used to identify a transition mutatio...
<p>(A–B) GFP-ELMOD3 localizes on actin structures (elongated microvilli due to co-expression of espi...
Stereocilia are specialized actin-filled, finger-like processes arrayed in rows of graded heights to...
Mechanotransduction in the mammalian auditory system depends on mechanosensitive channels in the hai...
Mutations in GPSM2 cause Chudley-McCullough syndrome (CMCS), an autosomal recessive neurological dis...
Human MYO7A mutations can cause a variety of conditions involving the inner ear. These include domin...
Human MYO7A mutations can cause a variety of conditions involving the inner ear. These include domin...
Hearing-impaired mouse mutants not only are good models for human hereditary deafness, but also are ...
The mammalian auditory sense organ is subdivided into three principle compartments, the outer-, midd...
Sound transduction occurs in the hair bundle, the apical compartment of sensory hair cells in the in...
Mammalian cochlear hair cells are specialized for the dynamic coding of sound. The transduction of s...
Mouse deafness mutations provide valuable models of human hearing disorders and entry points into mo...
The mammalian inner ear is a complex structure that requires specific events for proper formation to...