神经递质传递中的每一步都可作为药物的潜在作用点。
Each step involved in neurohumoral transmission represents a potential point of drug attack.
另一种联系可能会涉及到大脑温度的变化和神经递质(传递神经冲动的物质)的释放。
Other links may involve changes in brain temperature and the release of neurotransmitters (substances that transmit nerve impulses.)
它显然是通过抑制神经递质的释放来做到这一点的。神经递质是一种将神经冲动从一个神经元传递到另一个神经元的化学物质。
It apparently does this by inhibiting the release of neurotransmitters, chemicals that carry nerve impulses from one neuron to the next.
但它也可以增加神经递质的表达,从而改变感觉神经在长期上传递疼痛信息的方式。
But it can also increase the expression of neurotransmitters and this can change how sensory nerves transmit pain messages for the long-term.
基因影响行为的一个途径就是通过神经递质,这类化学物质可以在神经细胞之间传递信息。
One way genes affect behaviour is through the agency of neurotransmitters, the chemicals that carry messages between nerve cells.
神经递质是一类分子,他们能在神经细胞之间携带并传递信息。
These are molecules that carry information from one nerve cell to another.
物质被认为是传递痛信息的重要神经递质或调质。
Substance P(SP)has been considered as an importment mediator for Pain signaling.
目的了解依托咪酯是否通过抑制突触前神经递质释放而影响中枢突触传递的。
Purpose to identify whether etomidate could depress KCl-induced neurotransmitters release from nerve terminals, which underlie central synaptic transmission inhabitation.
第一,川楝素以先易化后抑制的双相作用干扰神经递质释放,阻遏神经肌肉接头和中枢神经突触的突触传递。
The first is that by interfering with neurotransmitter release by causing an initial facilitation, TSN eventually blocks synaptic transmission at both the neuromuscular junction and central synapses.
诸如乙酰胆碱这样的神经递质是一种由神经细胞释放的化学物质,用于向其他神经细胞传递信息。
Neurotransmitters such as acetylcholine are chemicals released from nerve cells that transmit messages to other nerve cells.
大脑中神经元突触间的信号传递是由许多神经递质受体介导的。
Neurotransmitter receptors mediate signal transduction at the postsynaptic membrane of synaptic connections between neurons in the nervous system.
信息传递的神经途径有赖于神经递质。
The information trans- mission in neural system depends on neurotransmitters.
信息传递的神经途径有赖于神经递质。
The information transmission in neural system depends on neurotransmitters.
和其他神经递质一样,多巴胺在大脑神经细胞间移动传递特定信息。
Dopamine, like other neurotransmitters, moves between nerve cells in the brain to convey certain "messages."
神经元不断的和邻近的神经细胞通过化学产物进行信息的传递,但是这个信息传递的量是通过合成包裹神经递质的生产线来控制的。
Neurons are constantly engaged in chemical conversations with their neighbors, but the volume of this chatter can put a real strain on the production lines that package neurotransmitters.
神经元不断的和邻近的神经细胞通过化学产物进行信息的传递,但是这个信息传递的量是通过合成包裹神经递质的生产线来控制的。
Neurons are constantly engaged in chemical conversations with their neighbors, but the volume of this chatter can put a real strain on the production lines that package neurotransmitters.
应用推荐