| scholarly article | Q13442814 |
| P50 | author | Patrik Ernfors | Q19975955 |
| Ueli Suter | Q28606521 | ||
| Jorge B. Aquino | Q42325384 | ||
| Nicolas Fritz | Q46959182 | ||
| Isabel Liste | Q55979074 | ||
| Thomas Müller | Q56994022 | ||
| Igor Adameyko | Q59550245 | ||
| Carmen Birchmeier-Kohler | Q128317532 | ||
| P2093 | author name string | Makoto Mochii | |
| Dmitry Usoskin | |||
| Jorge A Pereira | |||
| Piotr Topilko | |||
| Francois Lallemend | |||
| Anna Beljajeva | |||
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Schwann cell | Q465621 |
| P304 | page(s) | 366-379 | |
| P577 | publication date | 2009-10-01 | |
| P1433 | published in | Cell | Q655814 |
| P1476 | title | Schwann cell precursors from nerve innervation are a cellular origin of melanocytes in skin. | |
| P478 | volume | 139 |
| Q50189545 | A case of blue naevus of the mucocutaneous junction of the lower eyelid margin associated with acquired bilateral naevus of Ota-like macule |
| Q21563372 | A complex genomic rearrangement involving the endothelin 3 locus causes dermal hyperpigmentation in the chicken |
| Q35191052 | A dimerized HMX1 inhibits EPHA6/epha4b in mouse and zebrafish retinas |
| Q30437500 | A dynamic code of dorsal neural tube genes regulates the segregation between neurogenic and melanogenic neural crest cells |
| Q33916600 | A nervous origin for fish stripes |
| Q41556263 | A reporter mouse model for in vivo tracing and in vitro molecular studies of melanocytic lineage cells and their diseases. |
| Q57030893 | A systems biology approach uncovers the core gene regulatory network governing iridophore fate choice from the neural crest |
| Q37968544 | Adult craniofacial stem cells: sources and relation to the neural crest. |
| Q30392784 | Analysis of gelsolin expression pattern in developing chicken embryo reveals high GSN expression level in tissues of neural crest origin |
| Q41716551 | Ancient evolutionary origin of vertebrate enteric neurons from trunk-derived neural crest |
| Q53113764 | Any route for melanoblasts to colonize the skin! |
| Q30524404 | Autonomic neurocristopathy-associated mutations in PHOX2B dysregulate Sox10 expression |
| Q39089890 | BMP4 is required for the initial expression of MITF in melanocyte precursor differentiation from embryonic stem cells. |
| Q45131093 | BRAF V600E and KRAS G12S mutations in peripheral nerve sheath tumours |
| Q52603669 | Biochemical aspects of mammalian melanocytes and the emerging role of melanocyte stem cells in dermatological therapies. |
| Q36201582 | Boundary Caps Give Rise to Neurogenic Stem Cells and Terminal Glia in the Skin |
| Q64095091 | CD34 defines melanocyte stem cell subpopulations with distinct regenerative properties |
| Q90218759 | Cancer Stem Cells in Pheochromocytoma and Paraganglioma |
| Q36796375 | Cancer stem cells and tumor transdifferentiation: implications for novel therapeutic strategies |
| Q90232531 | Case Reports of Pembrolizumab-induced Acute Inflammatory Demyelinating Polyneuropathy |
| Q38083887 | Cellular and molecular mechanisms controlling the migration of melanocytes and melanoma cells |
| Q37704656 | Cellular origin and developmental mechanisms during the formation of skin melanocytes |
| Q47684418 | Changes in gene expression and cell shape characterise stages of epibranchial placode-derived neuron maturation in the chick |
| Q48495736 | Chlorpyrifos exposure affects fgf8, sox9, and bmp4 expression required for cranial neural crest morphogenesis and chondrogenesis in Xenopus laevis embryos |
| Q45216055 | Clinical and dermoscopic characteristics of new naevi in adults: results from a cohort study. |
| Q47839473 | Clinical repigmentation patterns in paediatric vitiligo |
| Q36521086 | Constitutive gray hair in mice induced by melanocyte-specific deletion of c-Myc |
| Q42726870 | Convergent genesis of an adult neural crest-like dermal stem cell from distinct developmental origins. |
| Q88409832 | Cre-driver lines used for genetic fate mapping of neural crest cells in the mouse: An overview |
| Q42052758 | Crestospheres: Long-Term Maintenance of Multipotent, Premigratory Neural Crest Stem Cells |
| Q36414907 | Cross-sectional analysis of the dermoscopic patterns and structures of melanocytic naevi on the back and legs of adolescents |
| Q99413730 | Development of the Autonomic Nervous System: Clinical Implications |
| Q38817031 | Development of the intrinsic and extrinsic innervation of the gut. |
| Q37257392 | Development of the stria vascularis and potassium regulation in the human fetal cochlea: Insights into hereditary sensorineural hearing loss |
| Q44718557 | Differential effects of neurofibromin gene dosage on melanocyte development |
| Q36505859 | Does melanoma begin in a melanocyte stem cell? |
| Q39217770 | EWS/ATF1 expression induces sarcomas from neural crest-derived cells in mice |
| Q35087321 | Embryonic Chicken Transplantation is a Promising Model for Studying the Invasive Behavior of Melanoma Cells |
| Q34485253 | Epithelial-mesenchymal-transition-like and TGFβ pathways associated with autochthonous inflammatory melanoma development in mice |
| Q37153794 | Evidence for a Notch1-mediated transition during olfactory ensheathing cell development |
| Q96228357 | Evolution of the sheep coat: the impact of domestication on its structure and development |
| Q28596140 | Evolution of vertebrates as viewed from the crest |
| Q35963419 | Expression of oncogenic BRAFV600E in melanocytes induces Schwannian differentiation in vivo |
| Q90295895 | FGF2 Stimulates the Growth and Improves the Melanocytic Commitment of Trunk Neural Crest Cells |
| Q47381225 | FOX and ETS family transcription factors regulate the pigment cell lineage in planarians |
| Q39312161 | Focus on cutaneous and uveal melanoma specificities. |
| Q27028183 | From classical to current: analyzing peripheral nervous system and spinal cord lineage and fate |
| Q50426412 | From proliferation to target innervation: signaling molecules that direct sympathetic nervous system development |
| Q36391571 | GNAQ and GNA11 mutations in melanocytomas of the central nervous system |
| Q37839240 | Generation of melanocytes from neural crest cells. |
| Q34652658 | Genetic interactions between neurofibromin and endothelin receptor B in mice |
| Q39329577 | Genetically engineered mouse models of melanoma |
| Q88325840 | Germ layers, the neural crest and emergent organization in development and evolution |
| Q50611567 | Glial origin of mesenchymal stem cells in a tooth model system. |
| Q37747202 | Glial versus melanocyte cell fate choice: Schwann cell precursors as a cellular origin of melanocytes |
| Q40367768 | Gnaq and Gna11 in the Endothelin Signaling Pathway and Melanoma. |
| Q35951629 | Heterotopic ossification has some nerve |
| Q64076768 | Hijacking of Embryonic Programs by Neural Crest-Derived Neuroblastoma: From Physiological Migration to Metastatic Dissemination |
| Q50202206 | Histopathologic and mutational analysis of a case of blue nevus-like melanoma |
| Q30452284 | Hmx1 is required for the normal development of somatosensory neurons in the geniculate ganglion |
| Q38192727 | How, and from which cell sources, do nevi really develop? |
| Q42089525 | Human epidermal neural crest stem cells as a source of Schwann cells |
| Q37091618 | Identification of HMX1 target genes: a predictive promoter model approach |
| Q38838204 | Immunohistochemical Analysis of GDNF and Its Cognate Receptor GFRα-1 Protein Expression in Vitiliginous Skin Lesions |
| Q42871161 | Immunohistochemical and ultrastructural features of congenital melanocytic naevus cells support a stem-cell phenotype |
| Q33839336 | In vitro dedifferentiation of melanocytes from adult epidermis |
| Q88737610 | Injury and stress responses of adult neural crest-derived cells |
| Q49751679 | Injury-activated glial cells promote wound healing of the adult skin in mice |
| Q98781870 | Insights into olfactory ensheathing cell development from a laser-microdissection and transcriptome-profiling approach |
| Q42065851 | Interplay between Foxd3 and Mitf regulates cell fate plasticity in the zebrafish neural crest |
| Q47591326 | Intracranial melanotic schwannomas: a rare variant with unusual adherent features |
| Q45869828 | Is heterotopic ossification getting nervous?: The role of the peripheral nervous system in heterotopic ossification |
| Q37957567 | Key discoveries in melanocyte development |
| Q29871431 | Large Intragenic Deletion in DSTYK Underlies Autosomal-Recessive Complicated Spastic Paraparesis, SPG23. |
| Q38118370 | Links between Schwann cells and melanocytes in development and disease. |
| Q41593851 | Loss of strumpellin in the melanocytic lineage impairs the WASH Complex but does not affect coat colour |
| Q26830438 | Malignant melanoma with neural differentiation: an exceptional case report and brief review of the pertinent literature |
| Q27008330 | Melanocyte stem cells as potential therapeutics in skin disorders |
| Q28658506 | Melanocytes and their diseases |
| Q92969193 | Melanoma Progression Inhibits Pluripotency and Differentiation of Melanoma-Derived iPSCs Produces Cells with Neural-like Mixed Dysplastic Phenotype |
| Q38007231 | Melanoma molecular classes and prognosis in the postgenomic era. |
| Q38395222 | Mesenchymal Stem/Stromal Cells in Liver Fibrosis: Recent Findings, Old/New Caveats and Future Perspectives |
| Q50554165 | Microphthalmia-associated transcription factor/T-box factor-2 axis acts through Cyclin D1 to regulate melanocyte proliferation. |
| Q100732918 | Migration and fate of vestibular melanocytes during development of the human inner ear |
| Q38036931 | Modeling melanoblast development. |
| Q42153574 | Modeling neural crest induction, melanocyte specification, and disease-related pigmentation defects in hESCs and patient-specific iPSCs |
| Q28082003 | Molecular control of the neural crest and peripheral nervous system development |
| Q38364430 | Molecular signaling mechanisms of axon-glia communication in the peripheral nervous system |
| Q38828126 | Multiple roles of NF1 in the melanocyte lineage |
| Q48164666 | Multipotent peripheral glial cells generate neuroendocrine cells of the adrenal medulla. |
| Q24625723 | Mutations in GNA11 in uveal melanoma |
| Q43183045 | Nerves transport stem-like cells generating parasympathetic neurons |
| Q30843116 | Neural Crest Cells Contribute an Astrocyte-like Glial Population to the Spleen. |
| Q58196162 | Neural Crest: Origin, Migration and Differentiation |
| Q58795378 | Neural crest Notch/Rbpj signaling regulates olfactory gliogenesis and neuronal migration |
| Q37068483 | Neural crest and Schwann cell progenitor-derived melanocytes are two spatially segregated populations similarly regulated by Foxd3 |
| Q38050164 | Neural crest and somitic mesoderm as paradigms to investigate cell fate decisions during development |
| Q39539932 | Neural crest cells retain their capability for multipotential differentiation even after lineage-restricted stages. |
| Q48167275 | Neural crest emigration: From start to stop |
| Q37994474 | Neural crest progenitors and stem cells: from early development to adulthood. |
| Q82552559 | Neural crest regionalisation for enteric nervous system formation: implications for Hirschsprung's disease and stem cell therapy |
| Q35732888 | Neural crest stem cells: discovery, properties and potential for therapy |
| Q45121723 | Neural crest-derived cells sustain their multipotency even after entry into their target tissues. |
| Q37137259 | NeuroD1 regulation of migration accompanies the differential sensitivity of neuroendocrine carcinomas to TrkB inhibition |
| Q53042410 | Neurodevelopment. Parasympathetic ganglia derive from Schwann cell precursors. |
| Q53042417 | Neurodevelopment. Parasympathetic neurons originate from nerve-associated peripheral glial progenitors. |
| Q38855220 | Neuronal Differentiation in Schwann Cell Lineage Underlies Postnatal Neurogenesis in the Enteric Nervous System. |
| Q30425983 | Neuropilins define distinct populations of neural crest cells |
| Q48678040 | Neuroscience. Following the same nerve track toward different cell fates |
| Q97543602 | New insights into the neurofibroma tumor cells of origin |
| Q38154019 | Non-canonical functions of the peripheral nerve. |
| Q38170560 | Notch signaling in melanoma: interacting pathways and stromal influences that enhance Notch targeting |
| Q46073094 | Ocular-side lateralization of adult-type chromatophore precursors: development of pigment asymmetry in metamorphosing flounder larvae |
| Q47073159 | On the embryonic origin of adult melanophores: the role of ErbB and Kit signalling in establishing melanophore stem cells in zebrafish |
| Q38053419 | Origin and regenerative potential of vertebrate mechanoreceptor-associated stem cells |
| Q26825328 | Origins of adult pigmentation: diversity in pigment stem cell lineages and implications for pattern evolution |
| Q50496520 | Pax3( GFP ) , a new reporter for the melanocyte lineage, highlights novel aspects of PAX3 expression in the skin. |
| Q34041321 | Pharmacodynamic Characterization of the Efficacy Signals Due to Selective BRAF Inhibition with PLX4032 in Malignant Melanoma |
| Q50496240 | Pigment Cell Progenitors in Zebrafish Remain Multipotent through Metamorphosis. |
| Q36972205 | Pigment pattern formation in the guppy, Poecilia reticulata, involves the Kita and Csf1ra receptor tyrosine kinases |
| Q38583968 | Pigmented Lesions of the Nervous System and the Neural Crest: Lessons From Embryology |
| Q44734638 | Plasticity of melanoma in vivo: murine lesions resulting from Trp53, but not Cdk4 or Arf deregulation, display neural transdifferentiation. |
| Q46411584 | Plexiform melanocytic schwannoma: a mimic of melanoma |
| Q27341771 | Post-embryonic nerve-associated precursors to adult pigment cells: genetic requirements and dynamics of morphogenesis and differentiation |
| Q30524855 | Postembryonic neuronal addition in zebrafish dorsal root ganglia is regulated by Notch signaling. |
| Q39859715 | Progenitors of the protochordate ocellus as an evolutionary origin of the neural crest |
| Q92680291 | Pulp stem cells derived from human permanent and deciduous teeth: Biological characteristics and therapeutic applications |
| Q27335853 | Reconciling diverse mammalian pigmentation patterns with a fundamental mathematical model |
| Q36187220 | Reconstitution of the central and peripheral nervous system during salamander tail regeneration |
| Q38793388 | Repigmentation in vitiligo: position paper of the Vitiligo Global Issues Consensus Conference |
| Q33923821 | SWI/SNF chromatin remodeling enzymes in melanocyte differentiation and melanoma |
| Q61809098 | Schwann Cell Precursors Generate the Majority of Chromaffin Cells in Zuckerkandl Organ and Some Sympathetic Neurons in Paraganglia |
| Q33794697 | Schwann Cell Precursors from Human Pluripotent Stem Cells as a Potential Therapeutic Target for Myelin Repair |
| Q64118485 | Schwann Cell Precursors; Multipotent Glial Cells in Embryonic Nerves |
| Q92873210 | Schwann cell plasticity-roles in tissue homeostasis, regeneration, and disease |
| Q49897356 | Schwann cell precursor: a neural crest cell in disguise? |
| Q46416676 | Schwann cell precursors as a source for adrenal gland chromaffin cells |
| Q91721480 | Schwann cell precursors contribute to skeletal formation during embryonic development in mice and zebrafish |
| Q47847078 | Schwann cell precursors in health and disease |
| Q39523572 | Sensory nerve induced inflammation contributes to heterotopic ossification |
| Q98623548 | Single cell RNA sequencing identifies early diversity of sensory neurons forming via bi-potential intermediates |
| Q26862340 | Skin melanocytes: biology and development |
| Q41856096 | Skin, fascias, and scars: symptoms and systemic connections |
| Q34005547 | Sox proteins in melanocyte development and melanoma |
| Q30434442 | Sox2 and Mitf cross-regulatory interactions consolidate progenitor and melanocyte lineages in the cranial neural crest. |
| Q41902686 | Sox2-mediated regulation of adult neural crest precursors and skin repair |
| Q35957140 | Specification of neural crest into sensory neuron and melanocyte lineages |
| Q47909269 | Sporadic melanotic schwannoma with overlapping features of melanocytoma bearing a GNA11 mutation in an adolescent girl. |
| Q41775566 | Spotlight on the Schwann cells during the regeneration |
| Q34268740 | Stromal fibroblasts in digestive cancer |
| Q38187201 | Sun-induced freckling: ephelides and solar lentigines |
| Q38315610 | Sympathoadrenal neural crest cells: the known, unknown and forgotten? |
| Q42205608 | TERT promoter mutations and BRAF mutations are rare in sporadic, and TERT promoter mutations are absent in NF1-related malignant peripheral nerve sheath tumors |
| Q48916202 | TUBB3: neuronal marker or melanocyte mimic? |
| Q35983889 | Temporal Analysis of Gene Expression in the Murine Schwann Cell Lineage and the Acutely Injured Postnatal Nerve. |
| Q90502344 | The "beginnings" of the neural crest |
| Q38771179 | The Developmental Genetics of Vertebrate Color Pattern Formation: Lessons from Zebrafish |
| Q37010334 | The EJC component Magoh regulates proliferation and expansion of neural crest-derived melanocytes |
| Q36251438 | The Lin28/let-7 axis is critical for myelination in the peripheral nervous system |
| Q36211801 | The Mitochondrial m-AAA Protease Prevents Demyelination and Hair Greying. |
| Q26765905 | The Nervous System Orchestrates and Integrates Craniofacial Development: A Review |
| Q42372118 | The Neural Crest Migrating into the Twenty-First Century |
| Q48172190 | The cell biology of human hair follicle pigmentation. |
| Q41096492 | The coexistence of peripheral nerve sheath tumors and vitiligo: more than coincidence? |
| Q88501809 | The convergence theory for vitiligo: A reappraisal |
| Q52585644 | The convergent roles of CD271/p75 in neural crest-derived melanoma plasticity. |
| Q37777692 | The dorsal neural tube: a dynamic setting for cell fate decisions |
| Q53100707 | The effects of IGF1 on the melanogenesis in alpaca melanocytes in vitro. |
| Q36959274 | The etiology and molecular genetics of human pigmentation disorders |
| Q92751197 | The gene regulatory basis of genetic compensation during neural crest induction |
| Q52610051 | The issue of the multipotency of the neural crest cells. |
| Q26853648 | The melanocyte lineage in development and disease |
| Q36092451 | The melanomas: a synthesis of epidemiological, clinical, histopathological, genetic, and biological aspects, supporting distinct subtypes, causal pathways, and cells of origin |
| Q38249021 | The neural crest, a multifaceted structure of the vertebrates |
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| Q48302604 | The patterns of birthmarks suggest a novel population of melanocyte precursors arising around the time of gastrulation. |
| Q58563377 | The regulation of the homeostasis and regeneration of peripheral nerve is distinct from the CNS and independent of a stem cell population |
| Q38249008 | The stemness of neural crest cells and their derivatives. |
| Q34671097 | The transcription factor Hmx1 and growth factor receptor activities control sympathetic neurons diversification |
| Q83232134 | Thyroid hormone regulates distinct paths to maturation in pigment cell lineages |
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| Q34745511 | Transcriptional dissection of human limbal niche compartments by massive parallel sequencing |
| Q39488857 | Transcriptomic analysis of mouse embryonic skin cells reveals previously unreported genes expressed in melanoblasts |
| Q36861460 | Transient brown adipocyte-like cells derive from peripheral nerve progenitors in response to bone morphogenetic protein 2. |
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