摘要
在斑马鱼原肠胚期,细胞通过重排形成3个胚层:内胚层,中胚层和外胚层。细胞重排的过程包含了3种极为保守的运动形式,即外包运动、内卷运动和集中延伸运动。其中,脊索前板祖细胞的前部延伸对于中内胚层祖细胞的定位以及最终分化形成胚层尤为重要。脊索前板祖细胞也是目前研究体内细胞运动机制的良好模型。原肠胚期细胞运动受诸多信号通路调控,如Wnt/PCP信号通路,但细胞行为的分子机制尚不明确。目前细胞粘附和细胞骨架重排是研究斑马鱼原肠胚期细胞运动的热点之一。此外,胚胎外组织(卵黄合胞体层)对于原肠胚细胞运动的影响也受到了更多的关注。文章主要探讨了在斑马鱼原肠胚期细胞运动过程中控制细胞行为的关键因素以及一些尚未理清的问题,并为将来在细胞水平上构建完整的原肠运动调控分子的图谱提供参考。
During zebrafish gastrulation, large cellular rearrangements create the formation of the three germ layers, ectoderm, mesoderm, and endoderm. This process includes three types of conserved morphogenetic movement: epiboly, involution, and convergent extension. Specially, the anterior movement of prechordal plate progenitors is essential for the location and differentiation of mesendoderm progenitors, and the pechordal plate progenitors'coherent migration is thought to be a good model to study the mechanism of cell movement in vivo. Gastrulation migration is known to be controlled by many signaling pathways such as Writ/planar cell polaritysignaling; however, the underlying molecular mechanism for cel- lular behavior remains unknown. At present, it is generally agree that cell adhesion and cytoskeletal rearrangement are critical factors during zebrafish gastrulation cell migration. In addition, the role of extraembryonic tissue (yolk syncytial layer) during gastrulmion is concerned increasingly. Here, we described the essential factors for controlling cellular behav- iors and highlighted the major issues and questions that requirefurther investigation during zebrafishgastrular cell migration in order to provide a complete map containing all the factors for regulating gastrulation cell migration and their interactions on a cellular level.
出处
《遗传》
CAS
CSCD
北大核心
2013年第4期441-448,共8页
Hereditas(Beijing)
基金
国家自然科学基金项目(编号:31171384)资助
关键词
3胚层
外包运动
内卷运动
集中延伸运动
前部延伸迁移
细胞粘附
细胞骨架重排
three germ layers
epiboly
internalization
convergence and extension
anterior movement
cell adhe- sion
cytoskeletal rearrangement
