cellular memory
英 [ˈseljələ(r) ˈmeməri]
美 [ˈseljələr ˈmeməri]
网络 细胞记忆
双语例句
- It is an awakening of a very deep cellular memory that must come to the surface.
它细胞里非常深的记忆觉醒因此一定要浮到表面上来。 - 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。 - 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。 - Fractal Cellular Neural Networks for Associative Memory
分形细胞神经网络用于联想记忆 - This paper introduces an interconnection network of cellular vector computer of vertical and horizontal processing with virtual common memory. In regard to this network a principle of automatic vector-displacement is presented, and a sufficient and necessary condition of conflict free vector-displacement is given.
本文介绍虚共存细胞结构纵横加工向量机的一种互连网络,在此网络上建立了向量自动位移原理,给出了向量位移无冲突的充分必要条件。 - Status and characterization of long term humoral and cellular immune memory are the keys to answer whether or not the booster vaccination after basic hepatitis B immunization is necessary.
乙型肝炎(乙肝)疫苗免疫后,体液和细胞免疫回忆应答的状况和特点,是确定是否需要加强免疫及免疫方案的关键。 - Hippocampus is an important brain region, which plays a key role in learning and memory processes. Long-term potentiation ( LTP) is a cellular model of synaptic plasticity, which may be representative of learning and memory processes in mammalian brain.
海马是大脑学习记忆的关键部位,而长时程增强效应(Long-termpotentiation,LTP)是哺乳动物海马学习和记忆过程的细胞模型。 - Studies on the cellular and molecular mechanisms concerning fear conditioning approve that amygdala plays an important role in emotional learning and memory function;
导致恐惧条件反射的细胞及分子机制研究证实杏仁体具有情绪学习与记忆机能; - Synaptic plasticity is the cellular and molecular basis of learning and memory. Therefore, discussing the related substance of synaptic plasticity and its changes after cerebral ischemia are very important in revealing molecular mechanism of learning and memory.
突触可塑性是学习和记忆的细胞分子学基础,探讨突触可塑性相关物质及其在脑缺血后的变化对于揭示学习和记忆的分子机制有非常重要的意义。 - It effects every basic cellular process, including metabolism, growth, differentiation, division, motility, and muscle contraction, immunity, learning and memory.
这个过程能够影响细胞的生长、分化、代谢、分裂、迁移,乃至生物体的肌肉收缩、免疫、学习和记忆。 - DNA vaccine as one of the most potential new vaccine strategies, could not only induce cellular and humoral responses efficiently, but also induce long-time immune memory.
DNA疫苗作为最有发展潜力的新型疫苗策略之一,可以有效的诱导细胞免疫反应及体液免疫反应,同时可以诱导长期免疫记忆。 - Hippocampal activity-dependent or experience-dependent synaptic plasticity, including Long-term potentiation ( LTP) and Long-term depression ( LTD), is believed to be the cellular and molecular mechanism which underlies hippocampus-dependent learning and memory.
海马突触可塑性,主要是指活动或经验依赖的长时程增强(Long-termpotentiation,LTP)和长时程抑制(Long-termdepression,LTD),被认为是海马依赖的学习与记忆的细胞分子基础。 - Hippocampus is an important brain region which plays a key role in learning and memory. Long-term potentiation ( LTP) in hippocampus is an activity-dependent synaptic plasticity that is believed to form the cellular basis for learning and memory.
海马是与学习记忆功能密切相关的一个重要脑区,海马神经元活性依赖的突触可塑性被认为是学习和记忆功能的细胞与分子基础。 - Actin dynamics and Rap activity are both regulated by synaptic activity and involved in synaptic plasticity. Understanding the mechanisms that control the actin cytoskeleton of dendritic spines may help to reveal the cellular basis of the synaptic plasticity that underlies learning and memory.
Rap活性和肌动蛋白动力学受到突触活化调节而且与突触可塑性有关,了解调节树突棘肌动蛋白骨架的重塑必然有助于揭示奠定学习记忆基础的突触可塑性的分子机制。 - Associative learning paradigms are widely used in studying the molecular and cellular basis of learning and memory.
恐惧性联合学习是当前研究学习记忆分子、细胞机制的典型范式之一。 - The combination of Cellular Automata algorithm is simple, saving memory and particularly suitable for large-scale computer simulation.
由于元胞自动机具有算法简单、节约内存、特别适合于大规模的计算机仿真,而多智能体在设计方法和结构划分等方面的优越性使之在交通仿真研究中被广泛使用。 - CaM can bind to and regulate a variety of different target proteins, thereby affecting many different cellular functions, such as inflammation, metabolism, apoptosis, muscle contraction, intracellular movement, short-term and long-term memory, nerve growth and immune response.
钙调蛋白可以结合并调节多种靶蛋白,从而影响不同细胞的功能,如炎症、代谢、凋亡、肌肉收缩、细胞内运动、短期和长期记忆、神经生长和免疫反应等。