scholarly article | Q13442814 |
P50 | author | Guoqiang Wan | Q63070009 |
P2093 | author name string | Gabriel Corfas | |
Jennifer S Stone | |||
P2860 | cites work | Supporting sensory transduction: cochlear fluid homeostasis and the endocochlear potential | Q36542382 |
Regulation of cell fate in the sensory epithelia of the inner ear. | Q36629867 | ||
Notch signalling pathway mediates hair cell development in mammalian cochlea | Q22009040 | ||
Mammalian cochlear supporting cells can divide and trans-differentiate into hair cells | Q22251095 | ||
Tricellulin is a tight-junction protein necessary for hearing | Q24337885 | ||
Structure, expression, and functional analysis of a Na(+)-dependent glutamate/aspartate transporter from rat brain | Q24563212 | ||
Gene disruption of p27(Kip1) allows cell proliferation in the postnatal and adult organ of corti | Q24648170 | ||
Expression of Delta1 and Serrate1 (Jagged1) in the mouse inner ear | Q28143721 | ||
Math1 gene transfer generates new cochlear hair cells in mature guinea pigs in vivo | Q28178896 | ||
Hey2 regulation by FGF provides a Notch-independent mechanism for maintaining pillar cell fate in the organ of Corti | Q28507372 | ||
Loss of Fgfr3 leads to excess hair cell development in the mouse organ of Corti | Q28508562 | ||
The role of Math1 in inner ear development: Uncoupling the establishment of the sensory primordium from hair cell fate determination | Q28510708 | ||
Otoancorin, an inner ear protein restricted to the interface between the apical surface of sensory epithelia and their overlying acellular gels, is defective in autosomal recessive deafness DFNB22. | Q28512415 | ||
Math1: an essential gene for the generation of inner ear hair cells | Q28513764 | ||
Hes1 is a negative regulator of inner ear hair cell differentiation | Q28571952 | ||
Thrombospondins are astrocyte-secreted proteins that promote CNS synaptogenesis | Q28574686 | ||
Discrete cellular and subcellular localization of glutamine synthetase and the glutamate transporter GLAST in the rat vestibular end organ | Q28583043 | ||
p27(Kip1) links cell proliferation to morphogenesis in the developing organ of Corti | Q28585281 | ||
Sox2 is required for sensory organ development in the mammalian inner ear | Q28585583 | ||
Smaller inner ear sensory epithelia in Neurog 1 null mice are related to earlier hair cell cycle exit | Q28585974 | ||
Hey2 functions in parallel with Hes1 and Hes5 for mammalian auditory sensory organ development | Q28587058 | ||
Math1 regulates development of the sensory epithelium in the mammalian cochlea | Q28588010 | ||
A mouse model for human deafness DFNB22 reveals that hearing impairment is due to a loss of inner hair cell stimulation. | Q28590148 | ||
Targeted disruption of otog results in deafness and severe imbalance | Q28592378 | ||
Hes1 and Hes5 activities are required for the normal development of the hair cells in the mammalian inner ear | Q28592816 | ||
Identification of Vangl2 and Scrb1 as planar polarity genes in mammals | Q28593071 | ||
The role of Frizzled3 and Frizzled6 in neural tube closure and in the planar polarity of inner-ear sensory hair cells | Q28593180 | ||
Non-syndromic vestibular disorder with otoconial agenesis in tilted/mergulhador mice caused by mutations in otopetrin 1 | Q28593287 | ||
Fibroblast growth factor signaling regulates pillar cell development in the organ of corti | Q28594385 | ||
The human deafness-associated connexin 30 T5M mutation causes mild hearing loss and reduces biochemical coupling among cochlear non-sensory cells in knock-in mice | Q28748215 | ||
Dual embryonic origin of the mammalian otic vesicle forming the inner ear. | Q29395212 | ||
Over half the hair cells in the mouse utricle first appear after birth, with significant numbers originating from early postnatal mitotic production in peripheral and striolar growth zones | Q30416938 | ||
Atoh1 expression and function during auditory hair cell regeneration in post-hatch chickens | Q30418494 | ||
PTK7 regulates myosin II activity to orient planar polarity in the mammalian auditory epithelium | Q30418906 | ||
Variations in shape-sensitive restriction points mirror differences in the regeneration capacities of avian and mammalian ears | Q30430743 | ||
Epigenetic influences on sensory regeneration: histone deacetylases regulate supporting cell proliferation in the avian utricle | Q30432406 | ||
Supporting cells eliminate dying sensory hair cells to maintain epithelial integrity in the avian inner ear. | Q30433076 | ||
Cisplatin ototoxicity blocks sensory regeneration in the avian inner ear | Q30434857 | ||
Differential distribution of stem cells in the auditory and vestibular organs of the inner ear. | Q30440778 | ||
Proliferative responses to growth factors decline rapidly during postnatal maturation of mammalian hair cell epithelia | Q30443396 | ||
Shape change controls supporting cell proliferation in lesioned mammalian balance epithelium | Q30443443 | ||
Fgf signaling regulates development and transdifferentiation of hair cells and supporting cells in the basilar papilla | Q30452881 | ||
Inner hair cells are not required for survival of spiral ganglion neurons in the adult cochlea | Q30453628 | ||
Regenerated hair cells can originate from supporting cell progeny: evidence from phototoxicity and laser ablation experiments in the lateral line system | Q30456826 | ||
EGFR signaling is required for regenerative proliferation in the cochlea: conservation in birds and mammals | Q30457709 | ||
Apoptosis in acquired and genetic hearing impairment: the programmed death of the hair cell | Q30461482 | ||
MYC gene delivery to adult mouse utricles stimulates proliferation of postmitotic supporting cells in vitro | Q30461978 | ||
Vezatin, an integral membrane protein of adherens junctions, is required for the sound resilience of cochlear hair cells | Q30463528 | ||
Replacement of hair cells after laser microbeam irradiation in cultured organs of corti from embryonic and neonatal mice. | Q30464878 | ||
TAK1 expression in the cochlea: a specific marker for adult supporting cells | Q30465209 | ||
Inhibition of Notch activity promotes nonmitotic regeneration of hair cells in the adult mouse utricles | Q30468270 | ||
An RT-PCR analysis of mRNA for growth factor receptors in damaged and control sensory epithelia of rat utricles | Q30469058 | ||
Mature mice lacking Rbl2/p130 gene have supernumerary inner ear hair cells and supporting cells. | Q30472107 | ||
Position-dependent patterning of spontaneous action potentials in immature cochlear inner hair cells | Q30472648 | ||
ErbB expression: the mouse inner ear and maturation of the mitogenic response to heregulin | Q30473444 | ||
Effects of DAPT and Atoh1 overexpression on hair cell production and hair bundle orientation in cultured Organ of Corti from neonatal rats | Q30473592 | ||
CD44 is a marker for the outer pillar cells in the early postnatal mouse inner ear. | Q30474323 | ||
A disorganized innervation of the inner ear persists in the absence of ErbB2. | Q30475830 | ||
Nonneuronal cells regulate synapse formation in the vestibular sensory epithelium via erbB-dependent BDNF expression | Q30476197 | ||
Gap junctional hemichannel-mediated ATP release and hearing controls in the inner ear | Q30476549 | ||
Cell-specific inducible gene recombination in postnatal inner ear supporting cells and glia | Q30476683 | ||
Hesr1 and Hesr2 may act as early effectors of Notch signaling in the developing cochlea | Q30481816 | ||
Notch regulation of progenitor cell behavior in quiescent and regenerating auditory epithelium of mature birds. | Q30483576 | ||
ATP release through connexin hemichannels and gap junction transfer of second messengers propagate Ca2+ signals across the inner ear | Q30484892 | ||
Integration of a retrograde signal during synapse formation by glia-secreted TGF-β ligand | Q36709333 | ||
Expression of Math1 and HES5 in the cochleae of wildtype and Jag2 mutant mice | Q36824504 | ||
The development of the reticular lamina in the hamster: an examination of transitory features and their functional roles | Q36877305 | ||
Non-sensory cells in the deafened organ of Corti: approaches for repair | Q36950155 | ||
Brain-derived neurotrophic factor and neurotrophin 3 mRNAs in the peripheral target fields of developing inner ear ganglia. | Q37257997 | ||
Role of glial cells in the formation and maintenance of synapses | Q37636837 | ||
Planar cell polarity: keeping hairs straight is not so simple | Q37698284 | ||
Sensory regeneration in the vertebrate inner ear: differences at the levels of cells and species | Q37757414 | ||
Planar cell polarity in the inner ear. | Q38058904 | ||
Transcription factors that control inner ear development and their potential for transdifferentiation and reprogramming. | Q38060458 | ||
Immune cytokines and dexamethasone influence sensory regeneration in the avian vestibular periphery | Q38459138 | ||
Ultrastructure and immunohistochemical identification of the extracellular matrix of the chinchilla cochlea | Q39498707 | ||
Nectins establish a checkerboard-like cellular pattern in the auditory epithelium | Q39498953 | ||
S100 is preferentially distributed in myelin-forming Schwann cells | Q41190193 | ||
Response of the flat cochlear epithelium to forced expression of Atoh1. | Q41272077 | ||
Developmental morphology of the mouse inner ear. A scanning electron microscopic observation | Q41402294 | ||
Eya1-Six1 interaction is sufficient to induce hair cell fate in the cochlea by activating Atoh1 expression in cooperation with Sox2. | Q41485484 | ||
Overexpression of Math1 induces robust production of extra hair cells in postnatal rat inner ears | Q41736617 | ||
Dynamic expression of Lgr5, a Wnt target gene, in the developing and mature mouse cochlea | Q41820010 | ||
Fine structure of the ordinary lateral line organ. II. The lateral line canal organ of spotted shark, Mustelus manazo | Q42444106 | ||
Direct transdifferentiation gives rise to the earliest new hair cells in regenerating avian auditory epithelium | Q42467678 | ||
All functional aquaporin-4 isoforms are expressed in the rat cochlea and contribute to the formation of orthogonal arrays of particles | Q42489136 | ||
Cell division in the gerbil cochlea after acoustic trauma. | Q42498101 | ||
Lack of brain-derived neurotrophic factor hampers inner hair cell synapse physiology, but protects against noise-induced hearing loss. | Q42508462 | ||
Inner ear defects and hearing loss in mice lacking the collagen receptor DDR1. | Q42521637 | ||
Prox1 expression in rod precursors and Müller cells. | Q43246846 | ||
The presynaptic function of mouse cochlear inner hair cells during development of hearing. | Q43653395 | ||
The role of macrophages in the disposal of degeneration products within the organ of corti after acoustic overstimulation | Q43655715 | ||
Transforming growth factor-alpha-induced cellular changes in organotypic cultures of juvenile, amikacin-treated rat organ of corti. | Q43831609 | ||
FGFR3 expression during development and regeneration of the chick inner ear sensory epithelia. | Q43849600 | ||
Robust generation of new hair cells in the mature mammalian inner ear by adenoviral expression of Hath1. | Q44042846 | ||
Basic fibroblast growth factor inhibits cell proliferation in cultured avian inner ear sensory epithelia | Q44874030 | ||
Progression of hair cell ejection and molecular markers of apoptosis in the avian cochlea following gentamicin treatment | Q44920105 | ||
Atoh1 expression defines activated progenitors and differentiating hair cells during avian hair cell regeneration | Q44924680 | ||
Impaired permeability to Ins(1,4,5)P3 in a mutant connexin underlies recessive hereditary deafness | Q45183609 | ||
Organization of cell junctions and cytoskeleton in the reticular lamina in normal and ototoxically damaged organ of Corti | Q46230453 | ||
Pharmacological inhibition of Notch signaling in the mature guinea pig cochlea | Q46244953 | ||
Expression of candidate markers for stem/progenitor cells in the inner ears of developing and adult GFAP and nestin promoter-GFP transgenic mice | Q46273133 | ||
Hair cell recovery in the vestibular sensory epithelia of mature guinea pigs | Q46544464 | ||
Vestibular hair cell regeneration and restoration of balance function induced by math1 gene transfer | Q46713382 | ||
Notch signaling regulates the extent of hair cell regeneration in the zebrafish lateral line. | Q46729652 | ||
The fate of outer hair cells after acoustic or ototoxic insults | Q46763690 | ||
The origin of spontaneous activity in the developing auditory system. | Q46922216 | ||
Differential expression of bone morphogenetic proteins in the developing vestibular and auditory sensory organs. | Q48059028 | ||
In vitro electrophysiological study of spontaneous activity in neonatal mouse vestibular ganglion neurons during development | Q48379570 | ||
Notch-Hes1 pathway contributes to the cochlear prosensory formation potentially through the transcriptional down-regulation of p27Kip1. | Q48523482 | ||
Immunocytochemical localization of a high-affinity glutamate-aspartate transporter, GLAST, in the rat and guinea-pig cochlea | Q48577992 | ||
Specialized membrane domains for water transport in glial cells: high-resolution immunogold cytochemistry of aquaporin-4 in rat brain. | Q48823528 | ||
Sox2 and JAGGED1 expression in normal and drug-damaged adult mouse inner ear. | Q30490970 | ||
Influence of supporting cells on neuronal degeneration after hair cell loss | Q30492612 | ||
Developmental regulation of spontaneous activity in the Mammalian cochlea | Q30492955 | ||
Expression of Prox1 during mouse cochlear development | Q30492966 | ||
Differential expression of unconventional myosins in apoptotic and regenerating chick hair cells confirms two regeneration mechanisms. | Q30494211 | ||
Analysis of connexin subunits required for the survival of vestibular hair cells | Q30496805 | ||
Induction of cell proliferation in mammalian inner-ear sensory epithelia by transforming growth factor alpha and epidermal growth factor | Q30530875 | ||
Targeted ablation of connexin26 in the inner ear epithelial gap junction network causes hearing impairment and cell death | Q30578611 | ||
Expression of p75NTR and its associated protein NADE in the rat cochlea | Q30656023 | ||
A claudin-9-based ion permeability barrier is essential for hearing. | Q33495556 | ||
Gipc1 has a dual role in Vangl2 trafficking and hair bundle integrity in the inner ear. | Q33793330 | ||
Mutations in the gene encoding tight junction claudin-14 cause autosomal recessive deafness DFNB29. | Q33932144 | ||
Molecular mechanisms of recovery from vestibular damage in mammals: recent advances | Q33935238 | ||
Claudin 14 knockout mice, a model for autosomal recessive deafness DFNB29, are deaf due to cochlear hair cell degeneration | Q33967701 | ||
Notch signaling in the development of the inner ear: lessons from Drosophila | Q34069543 | ||
Restrictions in cell cycle progression of adult vestibular supporting cells in response to ectopic cyclin D1 expression | Q34071932 | ||
Gap junction-mediated intercellular biochemical coupling in cochlear supporting cells is required for normal cochlear functions | Q34084948 | ||
Deafness and renal tubular acidosis in mice lacking the K-Cl co-transporter Kcc4. | Q34125574 | ||
The auditory hair cell ribbon synapse: from assembly to function | Q34282892 | ||
Regulation of cellular calcium in vestibular supporting cells by otopetrin 1 | Q34430287 | ||
Roles of fibroblast growth factors in the inner ear. | Q34577340 | ||
Missense mutations in Otopetrin 1 affect subcellular localization and inhibition of purinergic signaling in vestibular supporting cells | Q34612758 | ||
Planar cell polarity in the inner ear: how do hair cells acquire their oriented structure? | Q34968724 | ||
Hair cell regeneration: winging our way towards a sound future. | Q35069014 | ||
Control of excitatory CNS synaptogenesis by astrocyte-secreted proteins Hevin and SPARC | Q35164836 | ||
The role of connexins in human disease. | Q35201418 | ||
Cell adhesion molecules during inner ear and hair cell development, including notch and its ligands | Q35607422 | ||
Age-dependent in vivo conversion of mouse cochlear pillar and Deiters' cells to immature hair cells by Atoh1 ectopic expression | Q35986490 | ||
Astrocyte glypicans 4 and 6 promote formation of excitatory synapses via GluA1 AMPA receptors | Q36058143 | ||
Wnt-responsive Lgr5-expressing stem cells are hair cell progenitors in the cochlea | Q36160283 | ||
A myelin proteolipid protein-LacZ fusion protein is developmentally regulated and targeted to the myelin membrane in transgenic mice | Q36233433 | ||
Atoh1 directs the formation of sensory mosaics and induces cell proliferation in the postnatal mammalian cochlea in vivo | Q36336938 | ||
Fibroblast growth factor receptor 3 regulates microtubule formation and cell surface mechanical properties in the developing organ of Corti | Q36480557 | ||
The growth of cochlear fibers and the formation of their synaptic endings in the avian inner ear: a study with the electron microscope | Q36493938 | ||
Immunolocalization of the calcium binding S100A1, S100A5 and S100A6 proteins in the dog cochlea during postnatal development | Q48952789 | ||
Expression of the Sox10 gene during mouse inner ear development | Q49159530 | ||
Expression and function of Sox21 during mouse cochlea development. | Q50435198 | ||
Vestibular dysfunction of patients with mutations of Connexin 26. | Q50471916 | ||
Survival of adult spiral ganglion neurons requires erbB receptor signaling in the inner ear. | Q50477414 | ||
New hair cells arise from supporting cell conversion in the acoustically damaged chick inner ear. | Q50515888 | ||
Hair cell regeneration after acoustic trauma in adult Coturnix quail. | Q50563874 | ||
Regeneration of sensory hair cells after acoustic trauma. | Q50563884 | ||
The glutamate-aspartate transporter GLAST mediates glutamate uptake at inner hair cell afferent synapses in the mammalian cochlea. | Q50727558 | ||
Delta-like 1 and lateral inhibition during hair cell formation in the chicken inner ear: evidence against cis-inhibition. | Q50784299 | ||
Spatiotemporal expression of otogelin in the developing and adult mouse inner ear. | Q51063688 | ||
Fgf8 induces pillar cell fate and regulates cellular patterning in the mammalian cochlea. | Q51980744 | ||
A morphogenetic wave of p27Kip1 transcription directs cell cycle exit during organ of Corti development. | Q52014319 | ||
Planar polarity of hair cells in the chick inner ear is correlated with polarized distribution of c-flamingo-1 protein. | Q52052470 | ||
Increase in efficiency and reduction in Ca2+ dependence of exocytosis during development of mouse inner hair cells. | Q52061934 | ||
Glial fibrillary acidic protein expression and promoter activity in the inner ear of developing and adult mice. | Q52126259 | ||
Developmental and cellular expression pattern of epithelial sodium channel alpha, beta and gamma subunits in the inner ear of the rat. | Q52140661 | ||
Cell production in the chicken cochlea. | Q52247024 | ||
Cell cycle regulation in the inner ear sensory epithelia: role of cyclin D1 and cyclin-dependent kinase inhibitors. | Q54713440 | ||
Postnatal development of type I and type II hair cells in the mouse utricle: acquisition of voltage-gated conductances and differentiated morphology | Q61782294 | ||
Intercellular junctions in the reticular lamina of the organ of Corti | Q67867077 | ||
Synchronization of hair cell regeneration in the chick cochlea following noise damage | Q67926321 | ||
The avian inner ear. Continuous production of hair cells in vestibular sensory organs, but not in the auditory papilla | Q67993031 | ||
The embryonic and postnatal development of the inner ear of the mouse | Q68637919 | ||
Ultrastructural evidence for hair cell regeneration in the mammalian inner ear | Q70619029 | ||
Post-translational modifications of tubulin suggest that dynamic microtubules are present in sensory cells and stable microtubules are present in supporting cells of the mammalian cochlea | Q71119581 | ||
Identification of the timing of S phase and the patterns of cell proliferation during hair cell regeneration in the chick cochlea | Q72001365 | ||
Development of the inner ear of the mouse: a radioautographic study of terminal mitoses | Q72334432 | ||
Mammalian vestibular hair cell regeneration | Q72485240 | ||
Analysis of temporal and spatial patterns of rat vestibular hair cell differentiation by tritiated thymidine radioautography | Q72530276 | ||
Hair and supporting-cell differentiation during the development of the avian inner ear | Q72645925 | ||
Expression of Glial Fibrillary Acidic Protein in Immature Oligodendroglia | Q72721299 | ||
Induction of cell proliferation in avian inner ear sensory epithelia by insulin-like growth factor-I and insulin | Q73216109 | ||
Pattern formation in the basilar papilla: evidence for cell rearrangement | Q73542533 | ||
Dynamic patterns of neurotrophin 3 expression in the postnatal mouse inner ear | Q79502596 | ||
Reciprocal regulation of presynaptic and postsynaptic proteins in bipolar spiral ganglion neurons by neurotrophins | Q80235036 | ||
Multiple roles of Notch signaling in cochlear development | Q80390441 | ||
Transforming growth factor-activated kinase 1 induced in spinal astrocytes contributes to mechanical hypersensitivity after nerve injury | Q80755004 | ||
P433 | issue | 5 | |
P304 | page(s) | 448-459 | |
P577 | publication date | 2013-03-29 | |
P1433 | published in | Seminars in Cell & Developmental Biology | Q14330411 |
P1476 | title | Inner ear supporting cells: rethinking the silent majority | |
P478 | volume | 24 |
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Q90864973 | Atoh1 and other related key regulators in the development of auditory sensory epithelium in the mammalian inner ear: function and interplay |
Q52576145 | Bioinformatic Integration of Molecular Networks and Major Pathways Involved in Mice Cochlear and Vestibular Supporting Cells. |
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Q48470105 | Concomitant differentiation of a population of mouse embryonic stem cells into neuron-like cells and schwann cell-like cells in a slow-flow microfluidic device |
Q44259602 | Congenital hearing loss. |
Q33910490 | DNA damage signaling regulates age-dependent proliferative capacity of quiescent inner ear supporting cells |
Q39013579 | Development and regeneration of vestibular hair cells in mammals |
Q40080564 | Emerging Gene Therapies for Genetic Hearing Loss |
Q37671298 | Exploiting decellularized cochleae as scaffolds for inner ear tissue engineering |
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Q30439081 | Genetic rescue of Muenke syndrome model hearing loss reveals prolonged FGF-dependent plasticity in cochlear supporting cell fates |
Q36258549 | Hair Cell Loss, Spiral Ganglion Degeneration, and Progressive Sensorineural Hearing Loss in Mice with Targeted Deletion of Slc44a2/Ctl2. |
Q37633894 | Indispensable role of Mdm2/p53 interaction during the embryonic and postnatal inner ear development. |
Q38353200 | Molecular basis of hair cell loss |
Q47944720 | Molecular insights into the normal operation, regulation, and multisystemic roles of K+-Cl- cotransporter 3 (KCC3). |
Q37138326 | Neuroglobin immunoreactivity in the human cochlea. |
Q88048223 | Neuronal cell adhesion molecule (NrCAM) is expressed by sensory cells in the cochlea and is necessary for proper cochlear innervation and sensory domain patterning during development |
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Q30361282 | Supporting cells remove and replace sensory receptor hair cells in a balance organ of adult mice. |
Q52324462 | Synaptically silent sensory hair cells in zebrafish are recruited after damage. |
Q30415215 | Thrombospondins 1 and 2 are important for afferent synapse formation and function in the inner ear. |
Q36584028 | Thyroid hormone is required for pruning, functioning and long-term maintenance of afferent inner hair cell synapses |
Q30362381 | Transient auditory nerve demyelination as a new mechanism for hidden hearing loss. |
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