刺激可以驱使颞叶和海马回的活性,这些是脑部记忆回路的主要部分。
Stimulation was shown to drive the activity in the temporal lobe and hippocampus, key components of the brain's memory circuit.
神经科学家们长期以来都认为大脑的间歇性的记忆回路与对过去的事件和状况的回忆有着密切的联系。
Neuroscientists have long believed that the brain's so-called episodic memory circuits are largely involved in remembering past events or occurrences.
基于之前的研究,很多研究者认为新神经元可以稳固记忆回路,或者是在其他未知方面作为形成新记忆所必须的部分。
On the basis of previous studies, many researchers think new neurons stabilize memory circuits or are somehow otherwise necessary to form new memories.
按照科学家的说法,人脑的记忆回路不仅仅是用来思考过去的,更是一种对未来进行想象,预期和准备的充满活力的机制。
According to scientists, the brain's memory circuits are not merely for reflecting on the past but are also vital mechanisms for imagining, anticipating, and preparing for the future.
正如研究者们所料,年老猴子大脑中的记忆回路不像年轻的猴子那样能长时间保持活跃,尽管它们也和年轻的猴子一样在2.5秒钟这样短的时间之内也能保持清晰的记忆。
As expected, the memory circuit in the brains of older monkeys didn't sustain activity as well as in younger monkeys, even though they still performed accurately at this short time scale.
每当人们提到同样的记忆,相关的片段和回路就会变得更强。
Each time people bring up the same memory, those related fragments and circuits become stronger.
海马是脑回路中涉及空间定位和记忆的关键大脑区域,也因此成为研究如何解码这些功能的焦点。
The hippocampus is a key brain region in circuits involved in spatial navigation and memory, and thus has been the focus of research to decode these functions.
怀着能够理解恐惧记忆形成过程的分子基础的希望,这个研究小组进一步检测了暴露在响亮声音之前和之后,杏仁核神经回路中的蛋白质。
In hopes of understanding the molecular underpinnings of fear memory formation, the team further examined the proteins in the nerve cells of the amygdala before and after exposure to the loud tone.
它们引起了细胞内的生物化学变化,并最终改变了大脑回路中对愉快的经历和记忆的反应方式。
They trigger intracellular biochemical events that eventually modify brain circuits that mediate the experience and memory of pleasure.
坎德尔发现了学习和记忆时建立的神经回路,并研究了回路中细胞的分子变化。
Kandel worked out the neural circuitry that was established during learning and memory, and examined what molecular changes occurred in the cells of that circuit.
当一个记忆提示进来,大脑就会从神经回路中搜索相关片段,并将这些片段如拼图玩具一般组装起来。
When a memory cue comes in, the brain searches its circuits for related fragments and assembles them like a jigsaw puzzle.
然而,至于运动学习如何影响个体突触的神经回路以及对大脑的记忆能维持多长时间都是未知的。
However, how motor learning affects neuronal circuitry at the level of individual synapses and how long-lasting memory is structurally encoded in the intact brain remain unknown.
在后一种情况下,隐含的反馈回路包含在记忆元件的内部。
In the latter case the implied feedback loops will be contained within the memory elements themselves.
阅读障碍儿童工作记忆的问题部分归因于语音回路的效能,也归因于一般存贮系统。
Deficient working memory of children with RD is partly attributable to efficiencies in the articulatory loop, as well as a general storage system.
工作记忆的语音回路是认知心理学和认知神经心理学的研究热点。
The Phonological loop of working memory is a research focus of current cognitive psychology and cognitive neuropsychology.
本文回顾了最新的工作记忆模型及其脑功能定位,语音回路的结构、功能及其脑区分布。
This paper looks back the newest model and functional anatomy of working memory, the structure, function and neuroanatomical substrates of phonological loop.
由于工作记忆在言语理解中有重要作用,所以负责加工语音信息的语音回路可能也和阅读理解有密切关系。
Because working memory plays an important role in reading comprehension, phonological loop, which processes phonological information, is likely to have close relation with reading comprehension.
在过去的几年里,我总有一种坐立不安的感觉,觉得好像有什么人或什么东西一直在鼓捣我的大脑,将我的神经回路重新布了一下局,然后重新安排了我的记忆。
Over the past few years I've had an uncomfortable sense that someone, or something, has been tinkering with my brain, remapping the neural circuitry, reprogramming the memory.
油压回路采用比例式电磁阀(全比例)控制,电控采用微电脑控制射出、关模,行程采用数位尺控制,能记忆46组模具资料。
Hydraulic circuit controlled by proportional valve. The clamping and injection stroke are controlled by potentiometer. Microprocessor can save up to 46 sets of mould date.
油压回路采用比例式电磁阀(全比例)控制,电控采用微电脑控制射出、关模,行程采用数位尺控制,能记忆46组模具资料。
Hydraulic circuit controlled by proportional valve. The clamping and injection stroke are controlled by potentiometer. Microprocessor can save up to 46 sets of mould date.
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