The adenosine receptors in your brain are now blocked preventing drowsiness.
你大脑中的腺苷受体受阻,从而阻止了你的睡意。
Thus, adenosine receptors may become new pharmacological targets in cerebral ischemia.
腺苷受体可能成为脑缺血时药物作用的新靶点。
This is then picked up by adenosine receptors on nearby nerves, which react by damping down pain.
然后,细胞附近神经上的腺甙受体收集这种物质,并通过减轻疼痛作出反应。
"Utilizing adenosine receptors seems to be a more generalized gateway across the barrier," she added.
她补充说:“利用腺苷受体看来是越过血脑屏障的更通用方式。”
Half of the mice lacked a gene that is needed to make adenosine receptors, which are dotted along major nerves.
半数的小鼠缺乏一种制造腺苷酸受体的基因,这种受体沿着(动物的)主要神经分布。
It has been shown that adenosine exerts its actions to the kidney via high affinity to the adenosine receptors.
腺苷通过其受体介导对肾脏功能发挥显著的生理作用。
Mice which lacked adenosine receptors did not benefit from acupuncture treatment, which further supports the study's findings.
缺乏腺甙受体的老鼠没有从针炙疗法中受益,这进一步证明了本研究的结论。
Nedergaard believes that most of these points are along major nerve tracks, and as such are parts of the body that have plenty of adenosine receptors.
内德戈德相信大部分这种“特殊位置”都沿着主要的神经节点分布,这也正是人体包含丰富腺苷酸受体的部分。
Nedergaard believes that most of these acupuncture points are along major nerve tracks, and as such are parts of the body that have plenty of adenosine receptors.
Nedergaard相信这些针炙点中的大多数处于主要神经脉络上,因而它们是身体上具有充分腺甙受体的部分。
This study was designed to test the hypothesis that blockade of central nervous system (CNS) adenosine receptors may explain the beneficial effect of caffeine on fatigue.
此研究的目的是验证下述假设:咖啡因对解除疲劳的正面作用是通过阻断中枢神经系统(CNS)的腺苷受体实现的。
For the first time, the researchers discovered that when adenosine receptors are activated on cells that comprise the blood-brain barrier, a gateway into the blood-brain barrier can be established.
当腺苷受体在构成血脑屏障的细胞上被激活后即建立了穿越血脑屏障的通道。这发现在医学史上尚属首次。
Like many other agents that affect neuron firing, adenosine must first bind to specific receptors on neuronal membranes.
像许多其他影响神经元放电的物质一样,腺苷必须首先与神经元膜上的特定受体结合。
Objective This experiment was expected to test whether adenosine A1 receptors exerted a significant effect on the discharge activities of biphasic expiratory neurons and inspiratory neurons.
目的探讨腺苷A1受体对双相呼气神经元和吸气神经元电活动的影响。
The contradictory roles of adenosine A2a receptors: protection or aggravation?
腺苷A2a受体的矛盾作用:保护还是加重损伤?。
In order for adenosine to lock up the fat cells, nerve cells and muscle cells, it must first combine with its specific receptors on them.
为了使腺苷锁住脂肪细胞、神经细胞和肌肉细胞,腺苷必须首先让其与一种特殊的受体结合在一起。
In order for adenosine to lock up the fat cells, nerve cells and muscle cells, it must first combine with its specific receptors on them.
为了使腺苷锁住脂肪细胞、神经细胞和肌肉细胞,腺苷必须首先让其与一种特殊的受体结合在一起。
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