Literature DB >> 19750523

Neural induction and factors that stabilize a neural fate.

Crystal D Rogers1, Sally A Moody, Elena S Casey.   

Abstract

The neural ectoderm of vertebrates forms when the bone morphogenetic protein (BMP) signaling pathway is suppressed. Herein, we review the molecules that directly antagonize extracellular BMP and the signaling pathways that further contribute to reduce BMP activity in the neural ectoderm. Downstream of neural induction, a large number of "neural fate stabilizing" (NFS) transcription factors are expressed in the presumptive neural ectoderm, developing neural tube and ultimately in neural stem cells. Herein, we review what is known about their activities during normal development to maintain a neural fate and regulate neural differentiation. Further elucidation of how the NFS genes interact to regulate neural specification and differentiation should ultimately prove useful for regulating the expansion and differentiation of neural stem and progenitor cells.

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Year:  2009        PMID: 19750523      PMCID: PMC2756055          DOI: 10.1002/bdrc.20157

Source DB:  PubMed          Journal:  Birth Defects Res C Embryo Today        ISSN: 1542-975X


  173 in total

Review 1.  The acquisition of neural fate in the chick.

Authors:  Lars Wittler; Michael Kessel
Journal:  Mech Dev       Date:  2004-09       Impact factor: 1.882

2.  Neural induction requires BMP inhibition only as a late step, and involves signals other than FGF and Wnt antagonists.

Authors:  Claudia Linker; Claudio D Stern
Journal:  Development       Date:  2004-11       Impact factor: 6.868

3.  Ectopic expression of the proto-oncogene int-1 in Xenopus embryos leads to duplication of the embryonic axis.

Authors:  A P McMahon; R T Moon
Journal:  Cell       Date:  1989-09-22       Impact factor: 41.582

4.  Development of neural inducing capacity in dissociated Xenopus embryos.

Authors:  S M Sato; T D Sargent
Journal:  Dev Biol       Date:  1989-07       Impact factor: 3.582

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Journal:  Acta Biotheor       Date:  1967       Impact factor: 1.774

Review 6.  Human FOX gene family (Review).

Authors:  Masuko Katoh; Masaru Katoh
Journal:  Int J Oncol       Date:  2004-11       Impact factor: 5.650

Review 7.  Dorsal-ventral patterning and neural induction in Xenopus embryos.

Authors:  Edward M De Robertis; Hiroki Kuroda
Journal:  Annu Rev Cell Dev Biol       Date:  2004       Impact factor: 13.827

8.  A gene from the human sex-determining region encodes a protein with homology to a conserved DNA-binding motif.

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Journal:  Nature       Date:  1990-07-19       Impact factor: 49.962

Review 9.  Cortical rotation of the Xenopus egg: consequences for the anteroposterior pattern of embryonic dorsal development.

Authors:  J Gerhart; M Danilchik; T Doniach; S Roberts; B Rowning; R Stewart
Journal:  Development       Date:  1989       Impact factor: 6.868

10.  Sox2 deficiency causes neurodegeneration and impaired neurogenesis in the adult mouse brain.

Authors:  Anna L M Ferri; Maurizio Cavallaro; Daniela Braida; Antonello Di Cristofano; Annalisa Canta; Annamaria Vezzani; Sergio Ottolenghi; Pier Paolo Pandolfi; Mariaelvina Sala; Silvia DeBiasi; Silvia K Nicolis
Journal:  Development       Date:  2004-07-07       Impact factor: 6.868
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  30 in total

1.  On becoming neural: what the embryo can tell us about differentiating neural stem cells.

Authors:  Sally A Moody; Steven L Klein; Beverley A Karpinski; Thomas M Maynard; Anthony-Samuel Lamantia
Journal:  Am J Stem Cells       Date:  2013-06-30

2.  Gtpbp2 is required for BMP signaling and mesoderm patterning in Xenopus embryos.

Authors:  Arif Kirmizitas; William Q Gillis; Haitao Zhu; Gerald H Thomsen
Journal:  Dev Biol       Date:  2014-05-20       Impact factor: 3.582

3.  Specific domains of FoxD4/5 activate and repress neural transcription factor genes to control the progression of immature neural ectoderm to differentiating neural plate.

Authors:  Karen M Neilson; Steven L Klein; Pallavi Mhaske; Kathy Mood; Ira O Daar; Sally A Moody
Journal:  Dev Biol       Date:  2012-03-10       Impact factor: 3.582

4.  Sox21 regulates the progression of neuronal differentiation in a dose-dependent manner.

Authors:  Niteace Whittington; Doreen Cunningham; Thien-Kim Le; David De Maria; Elena M Silva
Journal:  Dev Biol       Date:  2014-11-20       Impact factor: 3.582

Review 5.  Setting appropriate boundaries: fate, patterning and competence at the neural plate border.

Authors:  Andrew K Groves; Carole LaBonne
Journal:  Dev Biol       Date:  2013-12-07       Impact factor: 3.582

Review 6.  Specifying neural crest cells: From chromatin to morphogens and factors in between.

Authors:  Crystal D Rogers; Shuyi Nie
Journal:  Wiley Interdiscip Rev Dev Biol       Date:  2018-05-03       Impact factor: 5.814

7.  Organogenesis relies on SoxC transcription factors for the survival of neural and mesenchymal progenitors.

Authors:  Pallavi Bhattaram; Alfredo Penzo-Méndez; Elisabeth Sock; Clemencia Colmenares; Kotaro J Kaneko; Alex Vassilev; Melvin L Depamphilis; Michael Wegner; Véronique Lefebvre
Journal:  Nat Commun       Date:  2010-04-12       Impact factor: 14.919

8.  Pax2 and Pax8 cooperate in mouse inner ear morphogenesis and innervation.

Authors:  Maxime Bouchard; Dominique de Caprona; Meinrad Busslinger; Pinxian Xu; Bernd Fritzsch
Journal:  BMC Dev Biol       Date:  2010-08-20       Impact factor: 1.978

Review 9.  Establishing the pre-placodal region and breaking it into placodes with distinct identities.

Authors:  Jean-Pierre Saint-Jeannet; Sally A Moody
Journal:  Dev Biol       Date:  2014-02-24       Impact factor: 3.582

10.  Neural transcription factors bias cleavage stage blastomeres to give rise to neural ectoderm.

Authors:  Shailly Gaur; Max Mandelbaum; Mona Herold; Himani Datta Majumdar; Karen M Neilson; Thomas M Maynard; Kathy Mood; Ira O Daar; Sally A Moody
Journal:  Genesis       Date:  2016-05-03       Impact factor: 2.487
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