Add to ORKGIntegration between cell signals and bHLH transcription factors plays a prominent role during the development of hair cells of the inner ear. Hair cells are the sensory receptors of the inner ear, responsible for the mechano-transduction of sound waves into electrical signals. They derive from multipotent progenitors that reside in the otic placode. Progenitor commitment is the result of cell signaling from the surrounding tissues that result in the restricted expression of SoxB1 transcription factors, Sox2 and Sox3. In turn, they induce the expression of Neurog1 and Atoh1, two bHLH factors that specify neuronal and hair cell fates, respectively. Neuronal and hair cell development, however, do not occur simultaneously. Hair cell development...
Mechanosensory hair cells are central for our senses of hearing and balance. They are located in th...
The development, maturation, and viability of inner ear neurosensory cells depend on the spatiotempo...
Mechanosensory hair cells of the vertebrate cochlea offer an excellent developmental system to study...
Integration between cell signals and bHLH transcription factors plays a prominent role during the de...
The vertebrate inner ear is the organ responsible for the senses of balance, acceleration and auditi...
The vertebrate inner ear is derived from the otic placode and undergoes a complicated series of morp...
Sox2 is a high-mobility transcription factor that is one of the earliest markers of developing inner...
The transcription factors of the SoxE family, including Sox8, Sox9 and Sox10 play important roles in...
The vertebrate inner ear is a structurally complex sensory organ responsible for detecting sound and...
© 2015. Published by The Company of Biologists Ltd.Mechanosensory hair cells (HCs) are the primary r...
AbstractIn mammals, hair cells may be damaged or lost due to genetic mutation, infectious disease, c...
The mammalian cochlea is comprised of three main components; mechanosensory hair cells, non-sensory ...
The inner ear houses the cochlea which contains hair cells responsible for the transduction of sound...
Thesis: Ph. D., Harvard-MIT Program in Health Sciences and Technology, 2014.Cataloged from PDF versi...
At least five bHLH genes regulate cell fate determination and differentiation of sensory neurons, ha...
Mechanosensory hair cells are central for our senses of hearing and balance. They are located in th...
The development, maturation, and viability of inner ear neurosensory cells depend on the spatiotempo...
Mechanosensory hair cells of the vertebrate cochlea offer an excellent developmental system to study...
Integration between cell signals and bHLH transcription factors plays a prominent role during the de...
The vertebrate inner ear is the organ responsible for the senses of balance, acceleration and auditi...
The vertebrate inner ear is derived from the otic placode and undergoes a complicated series of morp...
Sox2 is a high-mobility transcription factor that is one of the earliest markers of developing inner...
The transcription factors of the SoxE family, including Sox8, Sox9 and Sox10 play important roles in...
The vertebrate inner ear is a structurally complex sensory organ responsible for detecting sound and...
© 2015. Published by The Company of Biologists Ltd.Mechanosensory hair cells (HCs) are the primary r...
AbstractIn mammals, hair cells may be damaged or lost due to genetic mutation, infectious disease, c...
The mammalian cochlea is comprised of three main components; mechanosensory hair cells, non-sensory ...
The inner ear houses the cochlea which contains hair cells responsible for the transduction of sound...
Thesis: Ph. D., Harvard-MIT Program in Health Sciences and Technology, 2014.Cataloged from PDF versi...
At least five bHLH genes regulate cell fate determination and differentiation of sensory neurons, ha...
Mechanosensory hair cells are central for our senses of hearing and balance. They are located in th...
The development, maturation, and viability of inner ear neurosensory cells depend on the spatiotempo...
Mechanosensory hair cells of the vertebrate cochlea offer an excellent developmental system to study...