这些活动促进海马神经发生的效果最好。
Those activities do seem to prompt the most neurogenesis in the hippocampus.
研究显示神经发生最为活跃的一个区域是海马,一个对学习和长期记忆至关重要的结构。
Studies have shown that one of the most active regions for neurogenesis is the hippocampus, a structure that is vitally important for learning and long-term memory.
在跑轮上面跑可以促进神经发生,同样会加快旧记忆从海马体中清除的速度。
Running on an exercise wheel, which boosts neurogenesis, also sped the rate at which old memories were cleared from the hippocampus.
也许,在他们的海马区存在大量的神经发生。
Perhaps, much neurogenesis has occurred in their hippocampi.
海马体的神经发生可以同时扮演两个角色,除去旧记忆和获得新记忆。
Hippocampal neurogenesis could have both of these roles, in erasing old memories and acquiring new memories.
因此,大量的奔跑及海马中同等大量神经发生会产生焦虑么?
So could high volumes of running and the commensurately large amounts of neurogenesis in the hippocampus produce anxiety?
局灶性脑缺血后亦可增加海马齿状回内神经发生。
Focal ischemia also could raise the neurogenesis in hippocampus dentate gyrus.
而对照组的动物,具有正常的神经发生,最后可以绕过它们的海马,直接从长期储存中找回恐惧记忆。
Control animals, with normal neurogenesis, eventually were able to bypass their hippocampi and retrieve the fear memory directly from long-term storage.
目的观察怀孕对小鼠海马齿状回(DG)和脑室下层(SVZ)的细胞增殖和神经发生的影响。
Objective To observe cell proliferation and neurogenesis in the pregnant mouse dentate gyrus (DG) and the subventricular zone (SVZ).
本实验结果揭示乳酸在短暂性脑缺血后海马迟发性神经元坏死(DND)发生中起着重要作用。
These results suggest that lactate plays an important role in the development of DND in hippocampus following transient forebrain ischemia in gerbils.
目的探讨戊四氮(PTZ)反复点燃对发育鼠海马神经元发生的影响。
Objective To investigate the influence of pentetrazole(PTZ) repeated kindling on hippocampal neurogenesis in developing rats.
大鼠全脑缺血后海马CA 1区锥体神经元发生延迟性死亡。
Pyramidal neurons in the CA1 field of the hippocampus occur delayed neuronal death after transient forebrain ischemia.
这可能与脊髓损伤后海马和皮质区域发生的内质网应激引起海马与皮质区域神经细胞受损有关。
It may be related to the impairment of the hippocampus and cortical areas in the hippocampus and cortex induced by endoplasmic reticulum stress after spinal cord injury.
作为一种有节律的神经活动,神经振荡现象发生在所有的神经系统中,例如大脑皮层、海马、皮层下神经核团以及感觉器官。
As a rhythmic neural activity neural oscillation exists all over the nervous system, in structures as diverse as the cerebral cortex, hippocampus, subcortical nuclei and sense organs.
作为一种有节律的神经活动,神经振荡现象发生在所有的神经系统中,例如大脑皮层、海马、皮层下神经核团以及感觉器官。
As a rhythmic neural activity neural oscillation exists all over the nervous system, in structures as diverse as the cerebral cortex, hippocampus, subcortical nuclei and sense organs.
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