axones transmission
轴突传导
axones and synapses
轴突和突触
study of axones
轴突研究
axones regeneration
轴突再生
damage to axones
轴突损伤
axones communication
轴突通讯
axones length variation
轴突长度变异
axones and neurons
轴突和神经元
axones transmit signals between neurons.
轴突在神经元之间传递信号。
the length of axones can affect nerve signal speed.
轴突的长度可以影响神经信号的速度。
damage to axones can lead to neurological disorders.
轴突的损伤可能导致神经系统疾病。
axones are essential for communication in the nervous system.
轴突对神经系统中的交流至关重要。
researchers study axones to understand brain function.
研究人员研究轴突以了解大脑功能。
myelinated axones increase the speed of signal transmission.
有髓鞘的轴突可以提高信号传输的速度。
axones can regenerate after injury in some cases.
在某些情况下,轴突在受伤后可以再生。
different types of axones serve various functions.
不同类型的轴突具有不同的功能。
axones connect sensory receptors to the brain.
轴突将感官受体连接到大脑。
understanding axones is crucial for neuroscience.
理解轴突对神经科学至关重要。
axones transmission
轴突传导
axones and synapses
轴突和突触
study of axones
轴突研究
axones regeneration
轴突再生
damage to axones
轴突损伤
axones communication
轴突通讯
axones length variation
轴突长度变异
axones and neurons
轴突和神经元
axones transmit signals between neurons.
轴突在神经元之间传递信号。
the length of axones can affect nerve signal speed.
轴突的长度可以影响神经信号的速度。
damage to axones can lead to neurological disorders.
轴突的损伤可能导致神经系统疾病。
axones are essential for communication in the nervous system.
轴突对神经系统中的交流至关重要。
researchers study axones to understand brain function.
研究人员研究轴突以了解大脑功能。
myelinated axones increase the speed of signal transmission.
有髓鞘的轴突可以提高信号传输的速度。
axones can regenerate after injury in some cases.
在某些情况下,轴突在受伤后可以再生。
different types of axones serve various functions.
不同类型的轴突具有不同的功能。
axones connect sensory receptors to the brain.
轴突将感官受体连接到大脑。
understanding axones is crucial for neuroscience.
理解轴突对神经科学至关重要。
探索常用高频词汇