选择性适应试验表明,蓖麻蚕雄蛾触角的毛形感器中存在两种不同类型的嗅觉感受细胞。
It was demonstrated that there were two types of olfactory receptor cell in one sensillum trichodeum by the selective adaptation.
尤其具有挑战性的是头部损伤,无论轻微还是严重,能够扰乱位于大脑外面的身体嗅觉感受器—嗅球神经细胞功能。
Especially challenging are those that result from head injuries, whether minor or severe, that disrupt the function of the body's smell receptors - olfactory nerve cells that lie outside the brain.
在哺乳动物身上,位于鼻部的神经细胞运用特殊的气味感受器探测气味,并将信息传输给嗅球——嗅觉的整合中枢。
In mammals, neurons located in the nose detect scents using special odor receptors, and shuttle the information to the olfactory bulb, which is the integration center for smell.
自1991年在动物中发现嗅觉受体基因以来,关于昆虫感受化学信息的周缘神经系统的分子和细胞机制方面的进展十分迅速。
Since the olfactory receptor genes identified in 1991, great achievements have been obtained on the molecular and cellular olfaction mechanism of insect.
嗅觉神经芯片是在电子鼻和细胞传感器研究的基础上,在芯片表面培养嗅觉感受神经元所构成的一种神经芯片。
Olfactory neuro-chip is one of neuro-chips, which based on the electronic nose and cell-based biosensor research, trying to culture olfactory receptor neurons on the surface of chips.
透射电镜观察表明,棉铃虫触角上起嗅觉作用的毛形感器和锥形感器均由表皮壁、鞘细胞、感受器淋巴液和感觉神经细胞树突等结构组成。
Sensillum trichodeum and sensillum basiconicum, the main chemical odor receptors on antennae of Helicoverpa armigera, consist of cuticular wall, sheath cells, sensillum lymph and dendrites.
透射电镜观察表明,棉铃虫触角上起嗅觉作用的毛形感器和锥形感器均由表皮壁、鞘细胞、感受器淋巴液和感觉神经细胞树突等结构组成。
Sensillum trichodeum and sensillum basiconicum, the main chemical odor receptors on antennae of Helicoverpa armigera, consist of cuticular wall, sheath cells, sensillum lymph and dendrites.
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