神经管
生物
斑马鱼
后脑
神经形成
收敛扩展
神经板
神经发育
形态发生
细胞生物学
体细胞发生
钙粘蛋白
神经褶
神经科学
FGF8型
地板
神经上皮细胞
解剖
遗传学
胚胎发生
原肠化
胚胎干细胞
胚胎
体节
基因
成纤维细胞生长因子
细胞
受体
作者
Zsolt Lele,Anja Folchert,Miguel L. Concha,Gerd-Jörg Rauch,Robert Geisler,Frédéric Rosa,Steve Wilson,Matthias Hammerschmidt,Laure Bally‐Cuif
出处
期刊:Development
[The Company of Biologists]
日期:2002-07-15
卷期号:129 (14): 3281-3294
被引量:227
标识
DOI:10.1242/dev.129.14.3281
摘要
N-cadherin (Ncad) is a classical cadherin that is implicated in several aspects of vertebrate embryonic development, including somitogenesis, heart morphogenesis, neural tube formation and establishment of left-right asymmetry. However, genetic in vivo analyses of its role during neural development have been rather limited. We report the isolation and characterization of the zebrafish parachute (pac) mutations. By mapping and candidate gene analysis, we demonstrate that pac corresponds to a zebrafish n-cadherin (ncad) homolog. Three mutant alleles were sequenced and each is likely to encode a non-functional Ncad protein. All result in a similar neural tube phenotype that is most prominent in the midbrain, hindbrain and the posterior spinal cord. Neuroectodermal cell adhesion is altered, and convergent cell movements during neurulation are severely compromised. In addition, many neurons become progressively displaced along the dorsoventral and the anteroposterior axes. At the cellular level, loss of Ncad affects β-catenin stabilization/localization and causes mispositioned and increased mitoses in the dorsal midbrain and hindbrain, a phenotype later correlated with enhanced apoptosis and the appearance of ectopic neurons in these areas. Our results thus highlight novel and crucial in vivo roles for Ncad in the control of cell convergence, maintenance of neuronal positioning and dorsal cell proliferation during vertebrate neural tube development.
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