Establishing the pre-placodal region and breaking it into placodes with distinct identities.
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Modulation of Wnt Signaling Enhances Inner Ear Organoid Development in 3D CultureTranscriptional regulation of cranial sensory placode developmentXenopus Nkx6.3 is a neural plate border specifier required for neural crest developmentUsing Xenopus to discover new genes involved in branchiootorenal spectrum disordersThe role of foxi family transcription factors in the development of the ear and jaw.Tfap2a promotes specification and maturation of neurons in the inner ear through modulation of Bmp, Fgf and notch signaling.Fishing for jaws in early vertebrate evolution: a new hypothesis of mandibular confinement.Genetic regulation of murine pituitary development.Zic1 controls placode progenitor formation non-cell autonomously by regulating retinoic acid production and transportHard to swallow: Developmental biological insights into pediatric dysphagia.Dissecting the pre-placodal transcriptome to reveal presumptive direct targets of Six1 and Eya1 in cranial placodes.Vertebrate neurogenic placode development: historical highlights that have shaped our current understanding.Early embryonic specification of vertebrate cranial placodes.Early steps in inner ear development: induction and morphogenesis of the otic placode.Pax2/Pax8-defined subdomains and the occurrence of apoptosis in the posterior placodal area of mice.The molecular basis of craniofacial placode developmentAnnexin A6 controls neuronal membrane dynamics throughout chick cranial sensory gangliogenesis.Should I stay or should I go? Cadherin function and regulation in the neural crest.The Multiple Roles of FGF Signaling in the Developing Spinal Cord.Microarray identification of novel genes downstream of Six1, a critical factor in cranial placode, somite, and kidney developmentPioneer neurog1 expressing cells ingress into the otic epithelium and instruct neuronal specification.Foxi3 is necessary for the induction of the chick otic placode in response to FGF signalingDifferential expression pattern of Annexin A6 in chick neural crest and placode cells during cranial gangliogenesis.Dynamic transcriptional signature and cell fate analysis reveals plasticity of individual neural plate border cells.A cellular and molecular mosaic establishes growth and differentiation states for cranial sensory neurons.Adenohypophysis placodal precursors exhibit distinctive features within the rostral preplacodal ectoderm.An Eya1-Notch axis specifies bipotential epibranchial differentiation in mammalian craniofacial morphogenesis.Spatiotemporal expression pattern of Connexin 43 during early chick embryogenesis.Signaling and Gene Regulatory Networks in Mammalian Lens Development.Generating retinoic acid gradients by local degradation during craniofacial development: One cell's cue is another cell's poison.Histone deacetylase 1 and 2 are essential for murine neural crest proliferation, pharyngeal arch development, and craniofacial morphogenesis.Pa2G4 is a novel Six1 co-factor that is required for neural crest and otic development.Xhe2 is a member of the astacin family of metalloproteases that promotes Xenopus hatching.Precise temporal regulation of alternative splicing during neural development.
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P2860
Establishing the pre-placodal region and breaking it into placodes with distinct identities.
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article científic
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article scientifique
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articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
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artigo científico
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artikel ilmiah
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artikull shkencor
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artículo científico
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name
Establishing the pre-placodal ...... odes with distinct identities.
@en
type
label
Establishing the pre-placodal ...... odes with distinct identities.
@en
prefLabel
Establishing the pre-placodal ...... odes with distinct identities.
@en
P2860
P1476
Establishing the pre-placodal ...... odes with distinct identities.
@en
P2093
Jean-Pierre Saint-Jeannet
P2860
P356
10.1016/J.YDBIO.2014.02.011
P407
P577
2014-02-24T00:00:00Z