耶鲁大学的研究人员发现,在赫布规则的指导下,自发的细胞活动在发育过程中驱动了早期的大脑线路。 Yale researchers discover spontaneous cellular activity drives early brain wiring during development, guided by Hebb's rule.
耶鲁大学的研究人员发现,自发的细胞活动在发育过程中的早期大脑线路中起着关键作用。 Yale researchers find spontaneous cellular activity plays a key role in early brain wiring during development. 他们专注于小鼠视网膜神经节细胞,发现当细胞一起发射时,在赫布规则的指导下,会发生“连接在一起”。 Focusing on mouse retinal ganglion cells, they discovered when cells fire together, "wiring together" occurs, guided by Hebb's rule. 这项研究提供了对大脑发育的见解,可能解释了学习的基础,并将继续探索与连接神经元相关的轴突分支模式。 This study provides insight into brain development, potentially explaining the basis of learning, and will continue to explore axon branching patterns in relation to connected neurons.