This is an example of pluripotency.
这是多能干细胞的一个例子。
Identification of totipotency and pluripotency.
全能性和多能性鉴定。
Whether this striking absence of pluripotency is universal is still unknown.
多能性的这种明显缺失是否是普遍的尚未可知。
That pluripotency, as it is called, makes them of great scientific interest.
就是这种被称作“细胞多能性”的现象得到了科学界的广泛关注。
It is a hot spot for studying the molecular mechanisms of its developmental pluripotency.
其全能性分子机制的研究是多年来的研究热点。
Embryonic stem cells have the potential to be any type of cells, a characteristic known as pluripotency.
胚胎干细胞有变成任意类型细胞的潜能,这种特性叫多潜能。
It was identified as a key player in pluripotency in 2003, but until now its exact biological role remained unclear.
它于03年被确定为维持干细胞多能性的一个关键分子,但是至今它确切的生物功能还不清楚。
Embryonic stem cells are also pluripotent, as are cells that have been genetically reprogrammed through a process called induced pluripotency.
胚胎干细胞也有多能性,通过一种被称为诱导多能性的方法而被基因重组的细胞同样具有多能性。
Our research shows that this unique protein flips the last switch in a multi-step process that gives cells the very powerful property of pluripotency.
我们的研究显示该独特的蛋白质扳动了多步骤过程中的最后开关,使细胞具有非常强大的多向分化潜能的特征。
According to sanchez Alvarado, those earlier experiments labeled cells with dyes that may have bled into other cells, creating the illusion of pluripotency.
根据桑切兹·阿尔瓦拉多的说法,那些早期实验用染剂来标记细胞,那些染剂可能流进其他细胞,造成了多能性的错觉。
Advances in the fields of stem cell therapies, induced pluripotency and regenerative medicine have provided new hope for the treatment of complications.
在诱导多能性和再生医学,干细胞疗法领域的进展,有并发症的治疗提供了新的希望。
Understanding cell cycle regulation in ESCs will provide insight into the underlying mechanism regarding the regulation of ESC self-renewal and pluripotency.
胚胎干细胞细胞周期调控的研究对于研究胚胎干细胞的自我复制和多潜能性,都具有重要指导意义。
It appears to be the conductor in charge of an orchestra of genes and proteins that must all play at the right time and in perfect harmony to create pluripotency.
其似乎是一系列基因和蛋白质的指挥者,这些基因和蛋白质必须在正确的时间和位置(正如音符出现在乐曲中的节奏)以创造出多向潜能能力。
As proof of pluripotency, the researchers coaxed the drill and rhino iPS cells into making the three different kinds of simple tissues that produce all the other tissues in the body.
作为多能的证明,研究人员把鬼狒和犀牛的iPS细胞诱导去制造三种不同的简单组织,这些简单组织可以生长出身体上的所有其他组织。
We demonstrate that Ronin binds directly to HCF-1, a key transcriptional regulator. Our findings identify Ronin as an essential factor underlying embryogenesis and es cell pluripotency.
我们证明磺胺吡啶直接与关键转录调控因子hcf - 1相结合,同时我们证实了磺胺吡啶是一个与胚胎发育与ES细胞全能性潜在相关的的必要因子。
We demonstrate that Ronin binds directly to HCF-1, a key transcriptional regulator. Our findings identify Ronin as an essential factor underlying embryogenesis and es cell pluripotency.
我们证明磺胺吡啶直接与关键转录调控因子hcf - 1相结合,同时我们证实了磺胺吡啶是一个与胚胎发育与ES细胞全能性潜在相关的的必要因子。
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