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CHD3 regulates BMP signalling response during cranial neural crest cell specification
Mitchell ZH +8 more
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Endothelial regulatory circuits control cranial neural crest migration and plasticity
Hu Z +5 more
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Mammalian neural crest and neural crest derivatives
Annals of Anatomy - Anatomischer Anzeiger, 1993In the mammalian embryonic trunk, neural crest cells emigrate from the closed neural tube in a cranio-caudal sequences and appear to have similar migration pathways and derivatives to those of avian embryos. In the cranial region, however, there are mammalian-specific features, which are related to the mammalian-specific pattern of cranial neurulation.
G, Morriss-Kay, E, Ruberte, Y, Fukiishi
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Seminars in Cell & Developmental Biology, 2005
Neural crest cells (NCCs) contribute to many organs and tissues during embryonic development. Amongst these, the cardiovascular system represents a fascinating example. In this review, recent advances in our understanding of the developmental biology and molecular genetics regulating cardiac NCC maturation will be summarized.
Jason Z, Stoller, Jonathan A, Epstein
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Neural crest cells (NCCs) contribute to many organs and tissues during embryonic development. Amongst these, the cardiovascular system represents a fascinating example. In this review, recent advances in our understanding of the developmental biology and molecular genetics regulating cardiac NCC maturation will be summarized.
Jason Z, Stoller, Jonathan A, Epstein
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Development, 2013
The neural crest (NC) is a highly migratory multipotent cell population that forms at the interface between the neuroepithelium and the prospective epidermis of a developing embryo. Following extensive migration throughout the embryo, NC cells eventually settle to differentiate into multiple cell types, ranging from neurons and glial cells of the ...
Roberto, Mayor, Eric, Theveneau
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The neural crest (NC) is a highly migratory multipotent cell population that forms at the interface between the neuroepithelium and the prospective epidermis of a developing embryo. Following extensive migration throughout the embryo, NC cells eventually settle to differentiate into multiple cell types, ranging from neurons and glial cells of the ...
Roberto, Mayor, Eric, Theveneau
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Cold Spring Harbor Perspectives in Biology, 2020
Cardiac neural crest (CNC) cells are pluripotent cells derived from the dorsal neural tube that migrate and contribute to the remodeling of pharyngeal arch arteries and septation of the cardiac outflow tract (OFT). Numerous molecular cascades regulate the induction, specification, delamination, and migration of the CNC.
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Cardiac neural crest (CNC) cells are pluripotent cells derived from the dorsal neural tube that migrate and contribute to the remodeling of pharyngeal arch arteries and septation of the cardiac outflow tract (OFT). Numerous molecular cascades regulate the induction, specification, delamination, and migration of the CNC.
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European Journal of Pediatrics, 1991
It is known that some cases of neural crest tumours are hereditary. We report the clinical and cytogenetic findings in a three-generation, extended family, four members of which developed single or multiple neural crest tumours (ganglioneuroma, ganglioneuroblastoma or neuroblastoma).
C M, Robertson +2 more
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It is known that some cases of neural crest tumours are hereditary. We report the clinical and cytogenetic findings in a three-generation, extended family, four members of which developed single or multiple neural crest tumours (ganglioneuroma, ganglioneuroblastoma or neuroblastoma).
C M, Robertson +2 more
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2007
Stem cells are defined by their ability to both self-renew and give rise to multiple lineages in vivo and/or in vitro. As discussed in other chapters in this volume, the embryonic neural crest is a multipotent tissue that gives rise to a plethora of differentiated cell types in the adult organism and is unique to vertebrate embryos.
Lu, Teng, Patricia A, Labosky
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Stem cells are defined by their ability to both self-renew and give rise to multiple lineages in vivo and/or in vitro. As discussed in other chapters in this volume, the embryonic neural crest is a multipotent tissue that gives rise to a plethora of differentiated cell types in the adult organism and is unique to vertebrate embryos.
Lu, Teng, Patricia A, Labosky
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2007
The formation of the neural crest has been traditionally considered a classic example of secondary induction, where signals form one tissue elicit a response in a competent responding tissue. Interactions of the neural plate with paraxial mesoderm or nonneural ectoderm can generate neural crest. Several signaling pathways converge at the border between
Basch, MartÃn L. +1 more
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The formation of the neural crest has been traditionally considered a classic example of secondary induction, where signals form one tissue elicit a response in a competent responding tissue. Interactions of the neural plate with paraxial mesoderm or nonneural ectoderm can generate neural crest. Several signaling pathways converge at the border between
Basch, MartÃn L. +1 more
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Extended Multipotency of Neural Crest Cells and Neural Crest-Derived Cells
2015Neural crest cells (NCC) are migratory multipotent cells that give rise to diverse derivatives. They generate various cell types during embryonic development, including neurons and glial cells of the peripheral sensory and autonomic ganglia, Schwann cells, melanocytes, endocrine cells, smooth muscle, and skeletal and connective tissue cells of the ...
Tsutomu, Motohashi, Takahiro, Kunisada
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