| scholarly article | Q13442814 |
| P50 | author | Bernd Fritzsch | Q30519140 |
| P2093 | author name string | Kirk W Beisel | |
| Laura A Hansen | |||
| P2860 | cites work | Notch signalling pathway mediates hair cell development in mammalian cochlea | Q22009040 |
| Mammalian cochlear supporting cells can divide and trans-differentiate into hair cells | Q22251095 | ||
| Core transcriptional regulatory circuitry in human embryonic stem cells | Q24322016 | ||
| Essential role of retinoblastoma protein in mammalian hair cell development and hearing | Q24545148 | ||
| Brn3c null mutant mice show long-term, incomplete retention of some afferent inner ear innervation | Q24798672 | ||
| The Notch ligand JAG1 is required for sensory progenitor development in the mammalian inner ear | Q25256767 | ||
| Integration of Smad and forkhead pathways in the control of neuroepithelial and glioblastoma cell proliferation | Q28117650 | ||
| Fringe is a glycosyltransferase that modifies Notch | Q28143123 | ||
| Autoregulation of neurogenesis by GDF11 | Q28204949 | ||
| Characterization of epidermal neural crest stem cell (EPI-NCSC) grafts in the lesioned spinal cord | Q28235566 | ||
| The conserved WRPW motif of Hes6 mediates proteasomal degradation | Q28250967 | ||
| Smad transcription factors | Q28284775 | ||
| Inhibitors of differentiation and DNA binding (Ids) regulate Math1 and hair cell formation during the development of the organ of Corti | Q28506556 | ||
| FGF/FGFR-2(IIIb) signaling is essential for inner ear morphogenesis | Q28506828 | ||
| Identification of cis-element regulating expression of the mouse Fgf10 gene during inner ear development | Q28506880 | ||
| Characterization of three novel members of the zebrafish Pax2/5/8 family: dependency of Pax5 and Pax8 expression on the Pax2.1 (noi) function | Q47073232 | ||
| Phylogenetic profiling of protein interaction networks in eukaryotic transcription factors reveals focal proteins being ancestral to hubs | Q47285873 | ||
| Neuroscience. No more cortical neurons for you. | Q48444319 | ||
| p27(Kip1) deficiency causes organ of Corti pathology and hearing loss | Q48630140 | ||
| Mash1 and Ngn1 control distinct steps of determination and differentiation in the olfactory sensory neuron lineage. | Q48638602 | ||
| Skeletal overgrowth and deafness in mice lacking fibroblast growth factor receptor 3. | Q49042849 | ||
| Generation of inner ear cell types from embryonic stem cells | Q50463285 | ||
| Pluripotent stem cells from the adult mouse inner ear. | Q50482567 | ||
| A morphogenetic wave of p27Kip1 transcription directs cell cycle exit during organ of Corti development | Q52014319 | ||
| Expression of mouse Foxi class genes in early craniofacial development | Q52087464 | ||
| Expression of BMP signalling pathway members in the developing zebrafish inner ear and lateral line | Q52129042 | ||
| Hes6 acts in a positive feedback loop with the neurogenins to promote neuronal differentiation | Q52165453 | ||
| Functional conservation of atonal and Math1 in the CNS and PNS. | Q52171174 | ||
| Dynamics of placodal lineage development revealed by targeted transgene expression | Q52175628 | ||
| Development of the Mouse Inner Ear and Origin of Its Sensory Organs | Q52188228 | ||
| Disrupted development of the cerebral hemispheres in transgenic mice expressing the mammalian Groucho homologue transducin-like-enhancer of split 1 in postmitotic neurons | Q52538980 | ||
| Clonal analysis of the relationships between mechanosensory cells and the neurons that innervate them in the chicken ear | Q57375185 | ||
| A mutation in the Lunatic fringe gene suppresses the effects of a Jagged2 mutation on inner hair cell development in the cochlea | Q73849637 | ||
| Pluripotent neural crest stem cells in the adult hair follicle | Q80560251 | ||
| Neural induction in Xenopus requires early FGF signalling in addition to BMP inhibition | Q81123229 | ||
| Wnt signals mediate a fate decision between otic placode and epidermis | Q82444199 | ||
| Atoh1 null mice show directed afferent fiber growth to undifferentiated ear sensory epithelia followed by incomplete fiber retention | Q28508345 | ||
| Eya1 and Six1 are essential for early steps of sensory neurogenesis in mammalian cranial placodes | Q28508554 | ||
| Progressive hearing loss in mice lacking the cyclin-dependent kinase inhibitor Ink4d | Q28508628 | ||
| Notch ligands with contrasting functions: Jagged1 and Delta1 in the mouse inner ear | Q28510001 | ||
| The retinoblastoma gene pathway regulates the postmitotic state of hair cells of the mouse inner ear. | Q28510277 | ||
| Pax2 contributes to inner ear patterning and optic nerve trajectory | Q28511597 | ||
| Foxg1 is required for specification of ventral telencephalon and region-specific regulation of dorsal telencephalic precursor proliferation and apoptosis | Q28511665 | ||
| GATA-3: an unexpected regulator of cell lineage determination in skin | Q28512924 | ||
| Math1: an essential gene for the generation of inner ear hair cells | Q28513764 | ||
| Identification of neurogenin, a vertebrate neuronal determination gene | Q28564456 | ||
| p27(Kip1) links cell proliferation to morphogenesis in the developing organ of Corti | Q28585281 | ||
| Transcription factor GATA-3 alters pathway selection of olivocochlear neurons and affects morphogenesis of the ear | Q28585452 | ||
| Sox2 is required for sensory organ development in the mammalian inner ear | Q28585583 | ||
| Fgf3 and Fgf10 are required for mouse otic placode induction | Q28585848 | ||
| Smaller inner ear sensory epithelia in Neurog 1 null mice are related to earlier hair cell cycle exit | Q28585974 | ||
| Foxg1 is required for morphogenesis and histogenesis of the mammalian inner ear | Q28589083 | ||
| The miRNA-processing enzyme dicer is essential for the morphogenesis and maintenance of hair follicles | Q28589170 | ||
| Antagonistic effects of Grg6 and Groucho/TLE on the transcription repression activity of brain factor 1/FoxG1 and cortical neuron differentiation | Q28590799 | ||
| Wnt-dependent regulation of inner ear morphogenesis is balanced by the opposing and supporting roles of Shh. | Q28591489 | ||
| Hes1 and Hes5 activities are required for the normal development of the hair cells in the mammalian inner ear | Q28592816 | ||
| Suppression of neural fate and control of inner ear morphogenesis by Tbx1 | Q28593065 | ||
| Fgf8 expression defines a morphogenetic center required for olfactory neurogenesis and nasal cavity development in the mouse | Q28593114 | ||
| Specification of the mammalian cochlea is dependent on Sonic hedgehog | Q28593205 | ||
| FGF8 initiates inner ear induction in chick and mouse | Q28593974 | ||
| NeuroD-null mice are deaf due to a severe loss of the inner ear sensory neurons during development | Q28594435 | ||
| Essential role of BETA2/NeuroD1 in development of the vestibular and auditory systems | Q29026493 | ||
| neurogenin1 is essential for the determination of neuronal precursors for proximal cranial sensory ganglia | Q29615041 | ||
| Increasing p16INK4a expression decreases forebrain progenitors and neurogenesis during ageing | Q29615155 | ||
| Proneural genes and the specification of neural cell types | Q29616807 | ||
| Spiral ganglion neurons are protected from degeneration by GDNF gene therapy. | Q30473538 | ||
| Neurogenin 1 null mutant ears develop fewer, morphologically normal hair cells in smaller sensory epithelia devoid of innervation | Q30473551 | ||
| Groucho-Dependent and -Independent Repression Activities of Runt Domain Proteins | Q36572515 | ||
| Lhx2 maintains stem cell character in hair follicles | Q36688765 | ||
| Expression of Math1 and HES5 in the cochleae of wildtype and Jag2 mutant mice | Q36824504 | ||
| Spatial shaping of cochlear innervation by temporally regulated neurotrophin expression | Q37260484 | ||
| Expression and function of FGF10 in mammalian inner ear development | Q37524712 | ||
| Molecular profiling reveals synaptic release machinery in Merkel cells. | Q37569634 | ||
| Transcription profiling of inner ears from Pou4f3(ddl/ddl) identifies Gfi1 as a target of the Pou4f3 deafness gene | Q38338927 | ||
| Expression of mouse fibroblast growth factor and fibroblast growth factor receptor genes during early inner ear development | Q38451515 | ||
| Regeneration of human auditory nerve. In vitro/in video demonstration of neural progenitor cells in adult human and guinea pig spiral ganglion | Q40430449 | ||
| Two contrasting roles for Notch activity in chick inner ear development: specification of prosensory patches and lateral inhibition of hair-cell differentiation. | Q40456713 | ||
| TGF-beta control of rat thyroid follicular cells differentiation | Q40634896 | ||
| Spiel-ohne-grenzen/pou2 mediates regional competence to respond to Fgf8 during zebrafish early neural development. | Q40657976 | ||
| Physical and Functional Interaction between GATA-3 and Smad3 Allows TGF-β Regulation of GATA Target Genes | Q40757292 | ||
| Phosphorylation inhibits the DNA-binding activity of MyoD homodimers but not MyoD-E12 heterodimers | Q41514162 | ||
| BMPs inhibit neurogenesis by a mechanism involving degradation of a transcription factor | Q41646190 | ||
| MicroRNA gene expression in the mouse inner ear. | Q46189877 | ||
| A bHLH transcriptional network regulating the specification of retinal ganglion cells | Q46633565 | ||
| Molecular signals regulating proliferation of stem and progenitor cells in mouse olfactory epithelium | Q46660110 | ||
| Progenitor cells of the olfactory receptor neuron lineage | Q46695680 | ||
| Sonic hedgehog promotes mouse inner ear progenitor cell proliferation and hair cell generation in vitro | Q46890781 | ||
| Influence of supporting cells on neuronal degeneration after hair cell loss | Q30492612 | ||
| Clinical application of neurotrophic factors: the potential for primary auditory neuron protection | Q30499419 | ||
| Towards a molecular understanding of Drosophila hearing | Q30500469 | ||
| Inhibition of neurogenesis at the zebrafish midbrain-hindbrain boundary by the combined and dose-dependent activity of a new hairy/E(spl) gene pair | Q30978210 | ||
| Crossinhibitory activities of Ngn1 and Math1 allow specification of distinct dorsal interneurons | Q31001528 | ||
| Basic helix-loop-helix gene Hes6 delineates the sensory hair cell lineage in the inner ear. | Q33607542 | ||
| A genetic programme for neuronal connectivity | Q33899449 | ||
| Developmental evolutionary biology of the vertebrate ear: conserving mechanoelectric transduction and developmental pathways in diverging morphologies | Q34105118 | ||
| Proneural and proneuroendocrine transcription factor expression in cutaneous mechanoreceptor (Merkel) cells and Merkel cell carcinoma | Q34147557 | ||
| Expression of Islet1 marks the sensory and neuronal lineages in the mammalian inner ear | Q34154079 | ||
| Neural crest origin of mammalian Merkel cells. | Q34184663 | ||
| Convergent evolution of gene networks by single-gene duplications in higher eukaryotes | Q34299183 | ||
| Auditory hair cell replacement and hearing improvement by Atoh1 gene therapy in deaf mammals | Q34394494 | ||
| Evolution and development of the vertebrate ear. | Q34397952 | ||
| Visualization of embryonic neural stem cells using Hes promoters in transgenic mice. | Q34458175 | ||
| Revisiting cell fate specification in the inner ear. | Q34542008 | ||
| Development and evolution of inner ear sensory epithelia and their innervation. | Q34968700 | ||
| Early steps in the formation of neural tissue in ascidian embryos. | Q35026080 | ||
| The basic helix-loop-helix protein family: comparative genomics and phylogenetic analysis | Q35032269 | ||
| Molecular conservation and novelties in vertebrate ear development | Q35607378 | ||
| Neurotrophins in the ear: their roles in sensory neuron survival and fiber guidance | Q35618353 | ||
| Stem cells as therapy for hearing loss | Q35830658 | ||
| Drug delivery to the inner ear using gene therapy. | Q35912971 | ||
| Identification and molecular regulation of neural stem cells in the olfactory epithelium. | Q36144872 | ||
| Roles of bHLH genes in neural stem cell differentiation | Q36144904 | ||
| Strategies to preserve or regenerate spiral ganglion neurons. | Q36256519 | ||
| Notch signalling in vertebrate neural development | Q36374960 | ||
| A tale of two signals: Wnt and Hedgehog in dentate neurogenesis | Q36376746 | ||
| Transcriptional co-repressors of Runx2. | Q36379041 | ||
| Role of miRNA and miRNA processing factors in development and disease | Q36539251 | ||
| P433 | issue | 12 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 1181-1193 | |
| P577 | publication date | 2006-12-01 | |
| P13046 | publication type of scholarly work | review article | Q7318358 |
| P1433 | published in | BioEssays | Q4914614 |
| P1476 | title | The molecular basis of neurosensory cell formation in ear development: a blueprint for hair cell and sensory neuron regeneration? | |
| P478 | volume | 28 |
| Q54601000 | A comparison of in vitro treatments for directing stem cells toward a sensory neural fate |
| Q34141795 | A novel Atoh1 "self-terminating" mouse model reveals the necessity of proper Atoh1 level and duration for hair cell differentiation and viability |
| Q38706405 | Advances in nano-based inner ear delivery systems for the treatment of sensorineural hearing loss |
| Q30541094 | An in vitro model of developmental synaptogenesis using cocultures of human neural progenitors and cochlear explants |
| Q34447088 | Artificial induction of Sox21 regulates sensory cell formation in the embryonic chicken inner ear |
| Q80235066 | Auditory neurons make stereotyped wiring decisions before maturation of their targets |
| Q26853178 | Beyond generalized hair cells: molecular cues for hair cell types |
| Q64257528 | Bone morphogenetic proteins and inner ear development |
| Q37065180 | Branchio-oto-renal syndrome (BOR): novel mutations in the EYA1 gene, and a review of the mutational genetics of BOR. |
| Q28505263 | Canal cristae growth and fiber extension to the outer hair cells of the mouse ear require Prox1 activity |
| Q47073675 | Cell lineage analysis reveals three different progenitor pools for neurosensory elements in the otic vesicle. |
| Q30459149 | Challenges for stem cells to functionally repair the damaged auditory nerve |
| Q30500202 | Conditional deletion of N-Myc disrupts neurosensory and non-sensory development of the ear. |
| Q30398554 | Connecting the ear to the brain: Molecular mechanisms of auditory circuit assembly |
| Q34685536 | Continued expression of GATA3 is necessary for cochlear neurosensory development |
| Q30443527 | Correct timing of proliferation and differentiation is necessary for normal inner ear development and auditory hair cell viability |
| Q50352545 | Deterioration of the Medial Olivocochlear Efferent System Accelerates Age-Related Hearing Loss in Pax2-Isl1 Transgenic Mice. |
| Q42575915 | Differential and overlapping expression pattern of SOX2 and SOX9 in inner ear development |
| Q46751165 | Differentiation of inner ear stem cells to functional sensory neurons |
| Q28744483 | Dissecting the molecular basis of organ of Corti development: Where are we now? |
| Q30365215 | Distribution of neurosensory progenitor pools during inner ear morphogenesis unveiled by cell lineage reconstruction |
| Q28659326 | Evolution of vertebrate mechanosensory hair cells and inner ears: toward identifying stimuli that select mutation driven altered morphologies. |
| Q28754792 | Evolutionary insights into the unique electromotility motor of mammalian outer hair cells. |
| Q30394636 | Evolving gene regulatory networks into cellular networks guiding adaptive behavior: an outline how single cells could have evolved into a centralized neurosensory system |
| Q37294806 | Eya1 gene dosage critically affects the development of sensory epithelia in the mammalian inner ear. |
| Q43507552 | Fgf10 expression patterns in the developing chick inner ear |
| Q92658231 | GSK3 regulates hair cell fate in the developing mammalian cochlea |
| Q47864535 | Gene, cell, and organ multiplication drives inner ear evolution |
| Q27341203 | Genomic analysis of the function of the transcription factor gata3 during development of the mammalian inner ear |
| Q35097530 | HMGA2, the architectural transcription factor high mobility group, is expressed in the developing and mature mouse cochlea |
| Q47662143 | Hearing crosstalk: the molecular conversation orchestrating inner ear dorsoventral patterning |
| Q61961306 | Hedgehog Signaling Governs the Development of Otic Sensory Epithelium and Its Associated Innervation in Zebrafish |
| Q30452284 | Hmx1 is required for the normal development of somatosensory neurons in the geniculate ganglion |
| Q51901190 | Id gene regulation and function in the prosensory domains of the chicken inner ear: a link between Bmp signaling and Atoh1. |
| Q28647777 | Inner ear development: building a spiral ganglion and an organ of Corti out of unspecified ectoderm |
| Q36372589 | Insm1 promotes neurogenic proliferation in delaminated otic progenitors |
| Q51890350 | Jagged 1 regulates the restriction of Sox2 expression in the developing chicken inner ear: a mechanism for sensory organ specification |
| Q37124994 | Lmx1a is required for segregation of sensory epithelia and normal ear histogenesis and morphogenesis |
| Q30475885 | Localized cell and drug delivery for auditory prostheses. |
| Q37783809 | Making senses development of vertebrate cranial placodes |
| Q28659308 | Molecular evolution of the vertebrate mechanosensory cell and ear |
| Q43884710 | NK homeobox genes with choanocyte-specific expression in homoscleromorph sponges. |
| Q33641529 | Neurod1 suppresses hair cell differentiation in ear ganglia and regulates hair cell subtype development in the cochlea |
| Q27342916 | Neurog1 can partially substitute for Atoh1 function in hair cell differentiation and maintenance during organ of Corti development |
| Q30444617 | Notch inhibition induces cochlear hair cell regeneration and recovery of hearing after acoustic trauma |
| Q35053199 | Opportunities and limits of the one gene approach: the ability of Atoh1 to differentiate and maintain hair cells depends on the molecular context |
| Q28512751 | Pax2 and Pax8 cooperate in mouse inner ear morphogenesis and innervation |
| Q30490921 | Regenerating cochlear hair cells: quo vadis stem cell |
| Q30467210 | Regeneration of Hair Cells: Making Sense of All the Noise |
| Q30479290 | Regeneration of the mammalian inner ear sensory epithelium |
| Q30481991 | Residual microRNA expression dictates the extent of inner ear development in conditional Dicer knockout mice |
| Q30439054 | Sensational placodes: neurogenesis in the otic and olfactory systems |
| Q30359208 | Signaling and Transcription Factors during Inner Ear Development: The Generation of Hair Cells and Otic Neurons. |
| Q50448503 | Smad5 haploinsufficiency leads to hair cell and hearing loss |
| Q30491016 | Stem cells and molecular strategies to restore hearing |
| Q36355188 | TFE2 and GATA3 enhance induction of POU4F3 and myosin VIIa positive cells in nonsensory cochlear epithelium by ATOH1 |
| Q47141139 | Tbx1 and Jag1 act in concert to modulate the fate of neurosensory cells of the mouse otic vesicle |
| Q30474131 | The ATP-dependent chromatin remodeling enzyme CHD7 regulates pro-neural gene expression and neurogenesis in the inner ear. |
| Q44121463 | The Repression of Atoh1 by Neurogenin1 during Inner Ear Development |
| Q30446170 | The influence of glycogen synthase kinase 3 in limiting cell addition in the mammalian ear. |
| Q28742834 | The molecular basis of making spiral ganglion neurons and connecting them to hair cells of the organ of Corti |
| Q36950087 | The molecular biology of ear development - "Twenty years are nothing" |
| Q30440464 | The myc road to hearing restoration |
| Q37760085 | The role of bHLH genes in ear development and evolution: revisiting a 10-year-old hypothesis |
| Q88541625 | Understanding Molecular Evolution and Development of the Organ of Corti Can Provide Clues for Hearing Restoration |
| Q30451361 | Understanding the evolution and development of neurosensory transcription factors of the ear to enhance therapeutic translation |
| Q90337685 | Using Sox2 to alleviate the hallmarks of age-related hearing loss |
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