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Literature DB >> 26970616

The Neural Crest Migrating into the Twenty-First Century.

Marianne E Bronner¹, Marcos Simões-Costa².

Abstract

From the initial discovery of the neural crest over 150 years ago to the seminal studies of Le Douarin and colleagues in the latter part of the twentieth century, understanding of the neural crest has moved from the descriptive to the experimental. Now, in the twenty-first century, neural crest research has migrated into the genomic age. Here, we reflect upon the major advances in neural crest biology and the open questions that will continue to make research on this incredible vertebrate cell type an important subject in developmental biology for the century to come.

Entities: Chemical Disease Gene Species

Keywords: Craniofacial skeleton; Embryo; Neural crest; Peripheral nervous system; Vertebrates

Mesh：

Year: 2016 PMID： 26970616 PMCID： PMC5100668 DOI： 10.1016/bs.ctdb.2015.12.003

Source DB: PubMed Journal: Curr Top Dev Biol ISSN： 0070-2153 Impact factor: 4.897

69 in total

1. Enteric nervous system development: analysis of the selective developmental potentialities of vagal and sacral neural crest cells using quail-chick chimeras.

Authors: A J Burns; N M Le Douarin
Journal: Anat Rec Date: 2001-01-01

2. A clonal approach to the problem of neural crest determination.

Authors: A M Cohen; I R Konigsberg
Journal: Dev Biol Date: 1975-10 Impact factor: 3.582

3. Isolation of a stem cell for neurons and glia from the mammalian neural crest.

Authors: D L Stemple; D J Anderson
Journal: Cell Date: 1992-12-11 Impact factor: 41.582

4. CXCR4 controls ventral migration of sympathetic precursor cells.

Authors: Jennifer C Kasemeier-Kulesa; Rebecca McLennan; Morgan H Romine; Paul M Kulesa; Frances Lefcort
Journal: J Neurosci Date: 2010-09-29 Impact factor: 6.167

5. Sonic Hedgehog promotes the development of multipotent neural crest progenitors endowed with both mesenchymal and neural potentials.

Authors: Giordano W Calloni; Corinne Glavieux-Pardanaud; Nicole M Le Douarin; Elisabeth Dupin
Journal: Proc Natl Acad Sci U S A Date: 2007-12-06 Impact factor: 11.205

6. The amphioxus genome illuminates vertebrate origins and cephalochordate biology.

Authors: Linda Z Holland; Ricard Albalat; Kaoru Azumi; Elia Benito-Gutiérrez; Matthew J Blow; Marianne Bronner-Fraser; Frederic Brunet; Thomas Butts; Simona Candiani; Larry J Dishaw; David E K Ferrier; Jordi Garcia-Fernàndez; Jeremy J Gibson-Brown; Carmela Gissi; Adam Godzik; Finn Hallböök; Dan Hirose; Kazuyoshi Hosomichi; Tetsuro Ikuta; Hidetoshi Inoko; Masanori Kasahara; Jun Kasamatsu; Takeshi Kawashima; Ayuko Kimura; Masaaki Kobayashi; Zbynek Kozmik; Kaoru Kubokawa; Vincent Laudet; Gary W Litman; Alice C McHardy; Daniel Meulemans; Masaru Nonaka; Robert P Olinski; Zeev Pancer; Len A Pennacchio; Mario Pestarino; Jonathan P Rast; Isidore Rigoutsos; Marc Robinson-Rechavi; Graeme Roch; Hidetoshi Saiga; Yasunori Sasakura; Masanobu Satake; Yutaka Satou; Michael Schubert; Nancy Sherwood; Takashi Shiina; Naohito Takatori; Javier Tello; Pavel Vopalensky; Shuichi Wada; Anlong Xu; Yuzhen Ye; Keita Yoshida; Fumiko Yoshizaki; Jr-Kai Yu; Qing Zhang; Christian M Zmasek; Pieter J de Jong; Kazutoyo Osoegawa; Nicholas H Putnam; Daniel S Rokhsar; Noriyuki Satoh; Peter W H Holland
Journal: Genome Res Date: 2008-06-18 Impact factor: 9.043

7. [Nuclear labelling by tritiated thymidine of neural crest derivatives in the amphibian Urodele Pleurodeles waltlii Michah].

Authors: P Chibon
Journal: J Embryol Exp Morphol Date: 1967-12

8. Molecular distinction and angiogenic interaction between embryonic arteries and veins revealed by ephrin-B2 and its receptor Eph-B4.

Authors: H U Wang; Z F Chen; D J Anderson
Journal: Cell Date: 1998-05-29 Impact factor: 41.582

9. Migrating neural crest cells in the trunk of the avian embryo are multipotent.

Authors: S E Fraser; M Bronner-Fraser
Journal: Development Date: 1991-08 Impact factor: 6.868

Review 10. Sorting out Sox10 functions in neural crest development.

Authors: Robert N Kelsh
Journal: Bioessays Date: 2006-08 Impact factor: 4.345

42 in total

Review 1. Enteric nervous system development: A crest cell's journey from neural tube to colon.

Authors: Nandor Nagy; Allan M Goldstein
Journal: Semin Cell Dev Biol Date: 2017-01-10 Impact factor: 7.727

2. Cadherin-6B proteolytic N-terminal fragments promote chick cranial neural crest cell delamination by regulating extracellular matrix degradation.

Authors: Andrew T Schiffmacher; Ashrifia Adomako-Ankomah; Vivien Xie; Lisa A Taneyhill
Journal: Dev Biol Date: 2018-06-27 Impact factor: 3.582

3. The Spatiotemporal Pattern and Intensity of p53 Activation Dictates Phenotypic Diversity in p53-Driven Developmental Syndromes.

Authors: Margot E Bowen; Jacob McClendon; Hannah K Long; Aryo Sorayya; Jeanine L Van Nostrand; Joanna Wysocka; Laura D Attardi
Journal: Dev Cell Date: 2019-06-06 Impact factor: 12.270

The Neural Crest Migrating into the Twenty-First Century.

1. Enteric nervous system development: analysis of the selective developmental potentialities of vagal and sacral neural crest cells using quail-chick chimeras.

2. A clonal approach to the problem of neural crest determination.

3. Isolation of a stem cell for neurons and glia from the mammalian neural crest.

4. CXCR4 controls ventral migration of sympathetic precursor cells.

5. Sonic Hedgehog promotes the development of multipotent neural crest progenitors endowed with both mesenchymal and neural potentials.

6. The amphioxus genome illuminates vertebrate origins and cephalochordate biology.

7. [Nuclear labelling by tritiated thymidine of neural crest derivatives in the amphibian Urodele Pleurodeles waltlii Michah].

8. Molecular distinction and angiogenic interaction between embryonic arteries and veins revealed by ephrin-B2 and its receptor Eph-B4.

9. Migrating neural crest cells in the trunk of the avian embryo are multipotent.

Review 10. Sorting out Sox10 functions in neural crest development.

Review 1. Enteric nervous system development: A crest cell's journey from neural tube to colon.

2. Cadherin-6B proteolytic N-terminal fragments promote chick cranial neural crest cell delamination by regulating extracellular matrix degradation.

3. The Spatiotemporal Pattern and Intensity of p53 Activation Dictates Phenotypic Diversity in p53-Driven Developmental Syndromes.

4. Culturing and Manipulation of O9-1 Neural Crest Cells.

5. Developmental HSC Microenvironments: Lessons from Zebrafish.

Review 6. The heart of the neural crest: cardiac neural crest cells in development and regeneration.

7. Xenopus ADAM19 regulates Wnt signaling and neural crest specification by stabilizing ADAM13.

8. A dumbbell spinal mass derived from ectopic thyroid.

9. Cadherin-7 mediates proper neural crest cell-placodal neuron interactions during trigeminal ganglion assembly.

10. Preventing Ethanol-Induced Brain and Eye Morphology Defects Using Optogenetics.