Add to ORKGThe hair cells of the inner ear are polarized epithelial cells with a specialized structure at the apical surface, the mechanosensitive hair bundle. Mechanotransduction occurs within the hair bundle, whereas synaptic transmission takes place at the basolateral membrane. The molecular basis of the development and maintenance of the apical and basal compartments in sensory hair cells is poorly understood. Here we describe auditory/vestibular mutants isolated from forward genetic screens in zebrafish with lesions in the adaptor protein 1 beta subunit 1 (ap1b1) gene. Ap1b1 is a subunit of the adaptor complex AP-1, which has been implicated in the targeting of basolateral membrane proteins. In ap1b1 mutants we observed that although the overall ...
Hair cells (HCs) of the zebrafish inner ear act as sensory receptors for both auditory and vestibula...
AbstractUnconventional myosins have been associated with hearing loss in humans, mice, and zebrafish...
Mechanosensory hair cells (HCs), key components for hearing and balancing in the auditory and vestib...
The hair cells of the inner ear are polarized epithelial cells with a specialized structure at the a...
The hair cells of the inner ear are polarized epithelial cells with a specialized structure at the a...
The hair cells of the inner ear are polarized epithelial cells with a specialized structure at the a...
The vacuolar-type H+-ATPase (V-ATPase) is a multi-subunit proton pump that regulates cellular pH. V-...
AbstractWe have investigated the role of Na,K-ATPase genes in zebrafish ear development. Six Na,K-AT...
L−type Ca2+ channels (LTCCs) drive the bulk of voltage−gated Ca2+ entry in vertebrate in...
To faithfully encode mechanosensory information, auditory/vestibular hair cells utilize graded synap...
L-type Ca2+ channels (LTCCs) drive the bulk of voltage-gated Ca2+ entry in vertebrate inner ear hair...
AbstractThe molecular basis of sensory hair cell mechanotransduction is largely unknown. In order to...
Zebrafish is an excellent model for exploring the development of the inner ear. Its inner ear has si...
AbstractStudies of inherited deafness disorders in mice and humans are providing new insights into t...
Hearing relies on the ability of the inner ear to convert sound waves into electrical signals. The m...
Hair cells (HCs) of the zebrafish inner ear act as sensory receptors for both auditory and vestibula...
AbstractUnconventional myosins have been associated with hearing loss in humans, mice, and zebrafish...
Mechanosensory hair cells (HCs), key components for hearing and balancing in the auditory and vestib...
The hair cells of the inner ear are polarized epithelial cells with a specialized structure at the a...
The hair cells of the inner ear are polarized epithelial cells with a specialized structure at the a...
The hair cells of the inner ear are polarized epithelial cells with a specialized structure at the a...
The vacuolar-type H+-ATPase (V-ATPase) is a multi-subunit proton pump that regulates cellular pH. V-...
AbstractWe have investigated the role of Na,K-ATPase genes in zebrafish ear development. Six Na,K-AT...
L−type Ca2+ channels (LTCCs) drive the bulk of voltage−gated Ca2+ entry in vertebrate in...
To faithfully encode mechanosensory information, auditory/vestibular hair cells utilize graded synap...
L-type Ca2+ channels (LTCCs) drive the bulk of voltage-gated Ca2+ entry in vertebrate inner ear hair...
AbstractThe molecular basis of sensory hair cell mechanotransduction is largely unknown. In order to...
Zebrafish is an excellent model for exploring the development of the inner ear. Its inner ear has si...
AbstractStudies of inherited deafness disorders in mice and humans are providing new insights into t...
Hearing relies on the ability of the inner ear to convert sound waves into electrical signals. The m...
Hair cells (HCs) of the zebrafish inner ear act as sensory receptors for both auditory and vestibula...
AbstractUnconventional myosins have been associated with hearing loss in humans, mice, and zebrafish...
Mechanosensory hair cells (HCs), key components for hearing and balancing in the auditory and vestib...