scholarly article | Q13442814 |
P2093 | author name string | Hongwei Dou | |
Daniel Choo | |||
Zhengshi Lin | |||
John Greinwald | |||
Alisa Reece | |||
Jaye Ward | |||
P2860 | cites work | The mouse segmentation gene kr encodes a novel basic domain-leucine zipper transcription factor | Q24311473 |
A set of Hox proteins interact with the Maf oncoprotein to inhibit its DNA binding, transactivation, and transforming activities | Q28141535 | ||
The int-2 proto-oncogene is responsible for induction of the inner ear | Q28235407 | ||
Lack of pendrin expression leads to deafness and expansion of the endolymphatic compartment in inner ears of Foxi1 null mutant mice | Q28505685 | ||
Expression pattern of the mouse ortholog of the Pendred's syndrome gene (Pds) suggests a key role for pendrin in the inner ear | Q28510251 | ||
Transcription factor GATA-3 alters pathway selection of olivocochlear neurons and affects morphogenesis of the ear | Q28585452 | ||
Fgf3 and Fgf10 are required for mouse otic placode induction | Q28585848 | ||
Gbx2 is required for the morphogenesis of the mouse inner ear: a downstream candidate of hindbrain signaling | Q28592042 | ||
Identification of synergistic signals initiating inner ear development. | Q33927542 | ||
Mouse FGF15 is the ortholog of human and chick FGF19, but is not uniquely required for otic induction. | Q34312959 | ||
Identification of hair cell progenitors and intermitotic migration of their nuclei in the normal and regenerating avian inner ear. | Q36673597 | ||
Newborn hearing screening: the great omission | Q40873884 | ||
A role for Gbx2 in repression of Otx2 and positioning the mid/hindbrain organizer | Q48110711 | ||
Changing requirements for Gbx2 in development of the cerebellum and maintenance of the mid/hindbrain organizer | Q48474469 | ||
Differential expression of Otx2, Gbx2, Pax2, and Fgf8 in the developing vestibular and auditory sensory organs | Q48646938 | ||
A fate map of chick otic cup closure reveals lineage boundaries in the dorsal otocyst. | Q50493881 | ||
Year 2000 position statement: principles and guidelines for early hearing detection and intervention programs. Joint Committee on Infant Hearing, American Academy of Audiology, American Academy of Pediatrics, American Speech-Language-Hearing Associa | Q50494334 | ||
Pax2, Otx2, Gbx2 and Fgf8 expression in early otic vesicle development. | Q52166644 | ||
Tyrosinase-related protein 2 promoter targets transgene expression to ocular and neural crest-derived tissues. | Q52172737 | ||
Development of the mouse inner ear and origin of its sensory organs. | Q52188228 | ||
Development and cell kinetics of the kreisler (kr-kr) mouse. | Q52935659 | ||
The differential sensitivities of inner ear structures to retinoic acid during development. | Q54112899 | ||
S-phase Cells in the Guinea Pig Endolymphatic Sac | Q58270221 | ||
Descriptive and experimental analysis of the epithelial remodellings that control semicircular canal formation in the developing mouse inner ear | Q70495138 | ||
Hair cell regeneration in the chick inner ear following acoustic trauma: ultrastructural and immunohistochemical studies | Q71729478 | ||
Apoptosis during inner ear development in human and mouse embryos: an analysis by computer-assisted three-dimensional reconstruction | Q77965211 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | V-maf musculoaponeurotic fibrosarcoma oncogene family, protein B (avian) | Q21495952 |
P304 | page(s) | 308–317 | |
P577 | publication date | 2006-01-15 | |
P1433 | published in | Developmental Biology | Q3025402 |
P1476 | title | Molecular mechanisms underlying inner ear patterning defects in kreisler mutants | |
P478 | volume | 289 |
Q30445944 | A Gata3-Mafb transcriptional network directs post-synaptic differentiation in synapses specialized for hearing |
Q21283806 | A symphony of inner ear developmental control genes |
Q91612466 | Age-related transcriptome changes in Sox2+ supporting cells in the mouse cochlea |
Q48968884 | Analysis of mouse kreisler mutants reveals new roles of hindbrain-derived signals in the establishment of the otic neurogenic domain |
Q38800939 | Classification and diagnosis of ear malformations |
Q62937938 | Defects in vestibular sensory epithelia and innervation in mice with loss ofChd7 function: Implications for human CHARGE syndrome |
Q85896843 | Development of the innervation of the human inner ear |
Q28593442 | Dlx5 and Dlx6 homeobox genes are required for specification of the mammalian vestibular apparatus |
Q33963081 | Ephrin-B2 governs morphogenesis of endolymphatic sac and duct epithelia in the mouse inner ear. |
Q47094771 | Fgf3 and Fgf16 expression patterns define spatial and temporal domains in the developing chick inner ear. |
Q38440251 | Fgf3 is required for dorsal patterning and morphogenesis of the inner ear epithelium |
Q36105113 | Lmx1a maintains proper neurogenic, sensory, and non-sensory domains in the mammalian inner ear. |
Q51894515 | Meis gene expression patterns in the developing chicken inner ear. |
Q35818901 | Mice lacking Wnt2b are viable and display a postnatal olfactory bulb phenotype |
Q26865155 | Molecular mechanisms of inner ear development |
Q30369088 | Neurosensory Differentiation and Innervation Patterning in the Human Fetal Vestibular End Organs between the Gestational Weeks 8-12. |
Q30394275 | OTX2 regulates the expression of TAp63 leading to macular and cochlear neuroepithelium development. |
Q33308257 | Predicting protein function with hierarchical phylogenetic profiles: the Gene3D Phylo-Tuner method applied to eukaryotic genomes |
Q55283496 | Reciprocal Negative Regulation Between Lmx1a and Lmo4 Is Required for Inner Ear Formation. |
Q30467210 | Regeneration of Hair Cells: Making Sense of All the Noise |
Q37212144 | Retinoic acid and the transcription factor MafB act together and differentially to regulate aggrecan and matrix metalloproteinase gene expression in neonatal chondrocytes |
Q47073589 | Role of the hindbrain in patterning the otic vesicle: a study of the zebrafish vhnf1 mutant. |
Q28741138 | Shaping sound in space: the regulation of inner ear patterning |
Q30579029 | Sp8 regulates inner ear development |
Q28509508 | Tbx1 regulates population, proliferation and cell fate determination of otic epithelial cells |
Q33289335 | The role of the hindbrain in patterning of the otocyst |
Q30467805 | The sound of silence: mouse models for hearing loss |
Q27027305 | Where hearing starts: the development of the mammalian cochlea |
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