目的:胚胎干细胞可塑性强,但只能从胚胎中提取,来源受限使研究阻力加大。
OBJECTIVE: Embryonic stem cells (ESCs) have a strong plasticity, but only can extract from embryos. Limited sources intensify research resistance.
然而,最初的兴奋过后,这种关于成体干细胞可塑性的问题依旧存在争议,而且用于治疗的前景目前还是比较模糊。
However, after a first phase of excitement, the issue of somatic SC plasticity remains controversial and the therapeutic perspectives are still elusive.
牙髓干细胞的可塑性是将其应用于临床的基础。下面就牙髓干细胞的可塑性和影响可塑性的因素以及牙髓干细胞可塑性的应用和前景作一综述。
Plasticity is the base for clinical application of dental pulp stem cell. This paper was the review of plasticity, influencing factor, application and prospect of dental pulp stem cell.
畸形细胞缺乏可塑性,会阻塞毛细血管,阻碍血液流动。
The misshapen cells lack plasticity and can block small blood vessels, impairing blood flow.
研究团队观察到,发生SHANK3突变的神经细胞之间的沟通受损,他们还发现脑细胞和突触(神经细胞之间的接触点)的功能和结构的可塑性发生了变化。
The research team observed impaired communication between nerve cells in the mice with the SHANK3 mutation.
通过电子显微镜可明确地观察到当白细胞通过内皮细胞之间狭窄、蜿蜒的通道时,显示出难以置信的可塑性。
Electron microscopy has elegantly shown the incredible plasticity of the relatively bulky white cells as they crawl through the narrow, serpentine pathways between endothelial cells.
从分子机制上阐明蛋白质-蛋白质相互作用是了解细胞动力学和可塑性的基础。
Molecular elucidation of protein-protein interaction is essential for understanding the cellular dynamics and plasticity.
有关哺乳类动物学习和记忆的主题,包括神经可塑性的细胞机制、电生理和行为。
Topics in mammalian learning and memory including cellular mechanisms of neural plasticity, electrophysiology, and behavior.
最近的证据显示基因和早期生活应激事件与抑郁症的发生存在密切关系,最终与神经可塑性的细胞分子机制汇聚。
Recent evidence shows that genes and early life stress are associated with depression, and the mechanisms are converged on those of neural plasticity.
已有广泛的研究表明突触可塑性如长时程增强和长时程抑制可以作为学习和记忆机制的细胞模型。
Extensive studies indicated that synaptic plasticity, such as long-term potentiation or long-term depression, is the cellular basis for learning and memory.
研究人员指出,酒精并不是通过杀死神经元细胞导致失忆发生的。实际上,是这些产生的甾体物质影响了突触可塑性,造成了LTP和记忆形成方面的损害。
The scientists point out that alcohol isn't causing blackouts by killing neurons. Instead, the steroids interfere with synaptic plasticity to impair LTP and memory formation.
非遗传性癌症细胞的可塑性和治疗引起肿瘤复发的干性:“什么不杀我,使我。
Non-genetic cancer cell plasticity and therapy-induced stemness in tumour relapse: 'What does not kill me strengthens me'.
这些特性与它们发育中的可塑性共同作用使人们对用间充质干细胞来替换受损组织的潜在能力产生了极大的兴趣。
These properties in combination with their developmental plasticity have generated tremendous interest in the potential use of mesenchymal stem cells to replace damaged tissues.
脊髓损伤可激活自体室管膜细胞的原位增殖及迁移,后者具有一定的可塑性,参与伤后脊髓的结构修复。
The spinal cord injury stimulates the proliferation of ependymal cells in sim, the ependymal cells participates in the rehabilitation of spinal cord injury and represent neural plasticity.
提示神经细胞黏附分子和胶质细胞源性神经营养因子可能参与了脑缺血损伤后脑的可塑性变化过程且与功能恢复有关。
It is indicated that NCAM and GDNF may be involved in the changing process of cerebral plasticity after cerebral ischemia injury, also associated with the functional recovery.
这些干细胞还有一定的可塑性,即能够根据给定组织的微环境发生特化,Altaner说道。
These stem cells also have some plasticity, which means they can be converted by the micro environment of a given tissue into specialized cells, says.
巨噬细胞是免疫系统中重要的效应细胞,其表型和功能具有极强的可塑性。
Macrophages have long been considered to be important immune effector cells, with great plasticity in their phenotype and function.
目的探讨骨髓干细胞的可塑性及其产生的机制、应用前景。
Objective To investigate plasticity of marrow derived stem cells, possible mechanisms and application.
在中枢神经系统,CREB调节着神经细胞生长发育,参与神经细胞突触可塑性、长时程记忆的形成过程。
In central nerve system, CREB participates in promoting neuron growth, the processes of plasticity and long term memory.
过去大量的研究集中在学习后海马神经元和突触的分子、细胞的可塑性变化。
Previous studies have intensively demonstrated the molecular and cellular modifications induced in hippocampal neurons and synapses after the implementation of task-learning.
当开始了解这些突触改变的细胞生物学机制的时候,也应该考虑这种突触可塑性在完整大脑中的功能意义。
Yet, while we are beginning to understand the cellular mechanisms underlying synaptic changes, it is important to consider the functional implications of synaptic plasticity in the intact brain.
本发明涉及能够刺激神经元细胞分化、神经细胞存活、以及与记忆和学 习有关的神经元可塑性的肽序列。
The present invention relates to peptide sequences capable of stimulating neuronal cell differentiation, neural cell survival and neuronal plasticity associated with memory and learning.
对影响认知的中枢胆碱能神经元的神经营养支持作用、抑制细胞凋亡、调节突触可塑性等可能是它们发挥保护作用的主要机制。
Neurotrophic factors can sustain the function of central cholinergic neurons as well as inhibit the neuronal apoptosis. They can also modulate the synaptic plasticity.
本课程探讨神经元传导,可激发细胞膜上之离子通道,神经突触传导与神经突触可塑性的分子以及细胞机制。
Surveys the molecular and cellular mechanisms of neuronal communication. Coversion channels in excitable membrane, synaptic transmission, and synaptic plasticity.
结果虽然骨髓干细胞的可塑性还未被最终证实 ,但是已有越来越多的证据表明这种现象可能存在 ,而且提出四种可能的机制。
Results Although stem cells plasticity has not been proven, there is more and more evidence to show that the stem cells may have the plasticity and at least four different mechanisms are explained.
神经干细胞的这种可塑性特点可用于脑外伤后神经功能缺失的修复与重建的治疗。
The plastic properties of NSCs are suggested to be used in the therapeutic strategies of compensating and reconstructing neural …
神经干细胞的这种可塑性特点可用于脑外伤后神经功能缺失的修复与重建的治疗。
The plastic properties of NSCs are suggested to be used in the therapeutic strategies of compensating and reconstructing neural …
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