| 1. | Beale ' s ganglion cells
比尔神经节细胞双极细胞 |
| 2. | Bipolar cells are responsible of transmitting light signals from photoreceptors to ganglion cells in vertebrate retinas
摘要:脊椎动物视网膜的双极细胞主要是将感光细胞的讯息传递至神经节细胞。 |
| 3. | By eye opening at p10 - 11 , both normal and dark reared rabbits have possessed adult - like bipolar cells
兔子出生后约10 - 11天开眼时,不论是正常环境饲养或是全暗环境饲养下的双极细胞皆已经接近成熟的细胞了。 |
| 4. | Most importantly , we found that light deprivation causes a delay rather than a permanent arrest of the bipolar cell maturation
更重要的是,我们发现兔子出生后若无光照会延迟双极细胞的发育,但不会使其成熟过程完全终止。 |
| 5. | Here we have used dye injection and gene gun labeling to identify and follow their differentiation in both normal and dark reared rabbits
本篇研究主要是用微量注射和基因枪标定技术,观察在全暗饲养下和正常光照饲养下兔子双极细胞的分化情形有何不同。 |
| 6. | Our results show that immature bipolar cells can be found as early as p1 - 3 , and most characteristic bipolar cells can be identified in p4 - 6 of the rabbit retina
我的结果发现,兔子出生后1 - 3天就能发现尚未发育完全的双极细胞,约至4 - 6天大部分双极细胞的特徵皆已具备。 |
| 7. | Their maturation process is not only important for establishing normal visual functions , but may also underlie the dendritic remodeling of ganglion cells during development
双极细胞的成熟不仅对建立正常的视觉功能很重要,而且可能对神经节细胞的树突在发育期间有修饰的作用。 |
| 8. | It has been shown that light deprivation affects synaptic connections of ganglion cells in the mammalian retina , but little is known about impacts of visual deprivation on bipolar cell development
目前已经有人证实,初生时期失去光照会影响哺乳动物神经节细胞的突触连结,但是却很少有对双极细胞影响的相关研究。 |
| 9. | Regenerated nerve fibers were organized into fascicles of various sizes that were clearly delimited by perineurial - like shells made by long and thin cytoplasmic processes of perineurial - like bipolar cells and by densely packed collagen fibrils
再生神经纤维呈大小不等的束状分布,神经束膜样的双极细胞的长而薄的胞突和紧密折叠的胶原纤维将这些神经纤维束清晰定界。 |
| 10. | The results suggest that visual experience has a facilitating effect on morphological differentiation of bipolar cells , and early mature bipolar cells could provide light dependent signals to guide synaptic connections of ganglion cells in the inner retina
本篇结果证明了视觉经验可促进双极细胞的形态发育,并可进而推论早期成熟的双极细胞提供了光传入视网膜的讯号,再进一步去影响内层视网膜中神经节细胞在发育过程中的突触连结。 |
