All of these changes of cellular memory and Intent can be transformed in such a manner.
对细胞记忆和意图这些变化都可以用这种方式转变。
Others may experience this energy as needing to sleep deeply as the body is releasing denser cellular memory.
其他人也许会把此能量的体验作为深度睡眠的需求,因为身体正在释放更为稠密的细胞记忆。
And there is some evidence that iPS cells aren't exactly like embryonic stem cells in their gene expression, retaining a subtle cellular memory of the tissue they came from.
已有一些证据证实诱导多能干细胞在基因表达方面,并不与胚胎干细胞完全相同,它仍保留有其来源组织的一些细胞记忆。
These compounds reduce overall cellular damage and prevent the hardening of the arteries that can lead to heart disease, stroke, even memory loss.
这些混合物能全面减少细胞的损伤和预防导致心脏病的动脉硬化,中风,甚至记忆力衰退。
Ultimately, these experiments will make it possible to study emotion, perception, learning, memory, and other cognitive processes on both a cellular and a molecular level.
最终,这些实验将可以在细胞水平和分子水平研究情绪,感知,学习,记忆和其他认知过程。
The interactions between the cellular chemicals are like the constantly changing states of processing and memory chips.
细胞的化学反应就像处理器和内存中不断变化的状态。
For example, non-volatile semiconductor memory is used in cellular telephones, digital cameras, personal digital assistants, mobile computing devices, non-mobile computing devices and other devices.
举例来说,非易失性半导体存储器用于蜂窝式电话、数码相机、个人数字助理、移动计算装置、非移动计算装置以及其它装置中。
Immunological memory is an important characteristic of adaptive immune response and elucidation of its cellular basis is critical for vaccine exploration and disease prevention.
免疫记忆是适应性免疫应答的重要特征,其细胞学基础的阐明是疫苗开发和疾病预防的关键。
Topics in mammalian learning and memory including cellular mechanisms of neural plasticity, electrophysiology, and behavior.
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。
A similar study from researchers at Children's Hospital Boston, published simultaneously in the journal Nature, also finds that cellular "memory" affects the differentiation potential of iPSCs.
同时,波士顿儿童医院的科研人员也做了相似的研究,研究结果已在《自然》杂志上发表。他们认为,细胞的记忆确实影响诱导多能干细胞的分化能力。
Extensive studies indicated that synaptic plasticity, such as long-term potentiation or long-term depression, is the cellular basis for learning and memory.
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。
These changes in the brain - and the related process of neural reorganization known as long-term potentiation - are believed to be the cellular basis for memory making.
这些在大脑的变化和神经元重组的相关进程如长时程增强效应被认为是制造记忆的细胞学基础。
These changes in the brain - and the related process of neural reorganization known as long-term potentiation - are believed to be the cellular basis for memory making.
这些在大脑的变化和神经元重组的相关进程如长时程增强效应被认为是制造记忆的细胞学基础。
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