CNTF和LIF等在神经干细胞的分化中也有重要作用。
CNTF and LIF are critical for differentiation of neural stem cells.
但是关于雌激素在神经干细胞移植术、视神经损伤疾病中作用的报道还很少。
However, it is rarely reported about the role of estrogen in neural stem cells transplantation and optic nerve disease.
结论:在神经干细胞分化为神经元过程中GAP - 43基因参与引导突起的生长并发挥重要作用。
Conclusion: GAP-43 plays an important role in the growth of prominence during the early period of differentiation of NSC into mature neurons.
让他兴奋不已的是,提取出的组织很旺盛的生长,并且最终在培养环境中的很多细胞都发现有神经干细胞特有蛋白质的存在。
To his delight, the extracted tissue thrived and grew, and many of the cells in the resulting culture did indeed contain proteins known to be characteristic of neural stem cells.
STEM 123检测在移植入小鼠脑中后从人神经干细胞分化的人GFAP +星形胶质细胞。
STEM123 detects human GFAP + astrocytes differentiated from human neural stem cells after transplantation into a mouse brain.
STEM 123在体外检测从人神经干细胞分化的人GFAP +星形胶质细胞。
STEM123 detects human GFAP + astrocytes differentiated from human neural stem cells in vitro.
STEM 121检测移植的人神经干细胞在小鼠脑的海马中的迁移和分化。
STEM121 detects migration and differentiation of transplanted human neural stem cells in the hippocampus of a mouse brain.
结论:应用神经干细胞移植在动物实验和临床中取得了一定正性效果,但仍存在问题,有待进一步解决。
CONCLUSION: Neural stem cell transplantation has obtained positive effects in animal experiment and clinic, but there still are some problems, which need to be solved further.
目的研究原代培养的脊髓神经干细胞在小鼠视网膜的整合和分化情况。
Objective to study the integration and differentiation of spinal neural stem cells after transplantation into mice retina.
然后在水迷宫训练后的第1、7、14天,应用免疫组化染色检测齿状回神经干细胞的增殖及存活情况。
The proliferation and survival of neural stem cells were detected with immunohistochemical staining at 1 7 and 14 days after training.
方法从胚胎大鼠的大脑皮质、海马、纹状体等组织分离神经干细胞,用无血清培养技术在体外进行培养、扩增、传代和诱导分化。
The advantage of serum free and clone culturing technology was performed to isolate, culture, passage and induce neural stem cells from embryonic rat cortex, hippocampus and striatum.
目的了解骨形态发生蛋白-2(BMP-2)在大鼠脑的不同发育阶段,嘴侧神经干细胞迁移流中的表达模式。
Objective To study the expressional pattern of bone morphogenetic protein-2 ( BMP-2) in rostral neural stem cells migratory stream at different time in developing rat brain.
在加州大学欧文分校进行的这项试验中,研究人员将多能人神经干细胞中移植到经放射治疗的大鼠的脑部。
For the UCI study, multipotent human neural stem cells were transplanted into the brains of rats that had undergone radiation treatment.
目的:研究骨髓源性神经干细胞在体外培养及诱导分化条件下能否分泌去甲肾上腺素(NE)。
Objective: To study whether the neural stem cells derived from bone marrow stromal cells (BMSCs) could excrete neural biological activity material-noradrenaline (ne) in vitro.
我们一直在讨论如何进入临床试验的神经干细胞。
We have been discussing how to get neural stem cells into clinical trial.
这些结果,他说,将有助于科学家理解神经干细胞需要迅速分化的所有基因的途径,无论在大脑还是培养基。
The results, he says, would contribute to scientists' understanding of the full pathway of genes needed to prompt differentiation of neural stem cells both in the brain and in the culture dish.
目的研究人胚胎海马神经干细胞体外长期培养的条件和其在自主分化条件下的分化能力和分化特点。
Objective To study the conditions of in vitro culture and the features of differentiation of neural stem cells from human embryonic hippocampus.
但是研究人员发现这些神经干细胞中一个代谢基因——CPT1a的表达水平很低,在人类当中这种清况会导致低血糖。
However, the neural stem cells expressed a lower level of a metabolic gene called CPT 1a, a condition that causes hypoglycemia in humans.
科学家们的研究聚焦于出生后的神经干细胞位于侧脑室或腔的内层,在一个被称为室下区域(SVZ)的地方。
The scientists focused their study on postnatal neural stem cells that lie next to the lining of the brain's lateral ventricles, or cavity, in a region known as the subventricular zone (SVZ).
结论:神经干细胞在中枢神经系统疾病、基因治疗、相关的诱导分化、心肌损伤以及治愈膝关节半月板损伤等方面具有广阔应用前景。
CONCLUSION: Neural stem cells are extensively applied in central nervous system disease, gene therapy, related induced differentiation, myocardial damage, and knee meniscus injury.
结果胚鼠室管膜源性神经干细胞在相应培养条件下呈现出神经干细胞快速增殖,形成由多细胞组成的细胞球(神经球);
Results The NSCs derived from the fetal rat ependyma were observed to rapidly proliferate to form some cellular spheres or neural spheres consisting of NSCs.
神经干细胞现在可以在试管慢慢的发育成为运动神经元。
Neural stem cells can now be coaxed to develop into motor neurons in a test tube.
应用免疫细胞化学技术研究BDNF、GDNF蛋白在体外培养正常神经干细胞和缺氧损伤神经干细胞中的表达以及脑溢安的影响。
Using immunocytochemistry to study the expression of BDNF and GDNF in normal NSC and NSC that had been damaged by hypoxia.
在神经性失调的频谱中神经干细胞或更多限制性原始细胞的移植可以对外伤或疾病造成的细胞损失进行修复补充,并且可以恢复功能。
Transplantation of neural stem cells or more restricted progenitors to replace cells lost to injury or disease may facilitate functional recovery in a spectrum of neurological disorders.
取包被组二次传代后的神经球滴在包被有多聚赖氨酸的盖玻片上观察神经干细胞生长情况。
Neurospheres of coated group after the 2nd passage were cultured in polylysine-coated slides so as to observe the growth characteristics of NSCs.
取包被组二次传代后的神经球滴在包被有多聚赖氨酸的盖玻片上观察神经干细胞生长情况。
Neurospheres of coated group after the 2nd passage were cultured in polylysine-coated slides so as to observe the growth characteristics of NSCs.
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