1) odor/gas
气味/气体
2) human odor
人体气味
1.
Experimental study on non-contact human odor detection;
非接触式人体气味检测实验研究
2.
GC-MS method to identify human odor;
气-质联用鉴别人体气味
3.
Human odor samples from different regions(including axillary region,hand region and foot region) were analyzed by SPME-GC/MS,and these human odor samples were identified by comparing the difference in the relative peak area ratios of common compounds and uncommon compounds in samples.
运用SPME-GC/MS法对同一个体腋窝部、手部和足部的人体气味样品进行了采样分析,通过比较3个部位人体气味样品色谱图中共有成分相对峰面积比和非共有成分,结合使用相似度法对3个部位的人体气味进行了比较分析,三者具有较高的相似度,但仍存在一些细微的差别。
3) Odorous gas
异味气体
4) human body odor
人体气味
1.
The progress of identification human body odor by police dog;
警犬鉴别人体气味操作方法研究进展
2.
The human body odor was identified with five differential German shepherd which got through examinations by using the method of"Matching - Non - Matching".
选用5头已通过警犬鉴别考试的德国牧羊犬,根据"配对-非配对"方法鉴别人体气味。
5) Odorant receptors
气味受体
1.
This paper summarized the odorant binding protein, chemosensory proteins, odorant receptors, odor degrading enzymes and sensory neuron membrane proteins of insects,.
作者针对近年来研究较多的气味结合蛋白、化学感受蛋白、气味受体、气味降解酶以及感觉神经元膜蛋白等,就其生化特性、表达部位、分子结构、生理功能等进行了综述。
2.
The insect odorant receptors,as other odorant receptors from nematoid to human,have long been perceived to be G-protein-coupled receptors(GPCR).
昆虫的气味受体长久以来被认为是一种G蛋白偶联受体,遵循从线虫到人类的通用模式。
6) odorant receptor
气味受体
1.
The odorant receptors of the olfactory cell can detect the odorant molecules,then the spicific G-protein is activated and changes the odorant message into action potential via a series of information processing steps of the olfactory system.
嗅细胞的气味受体捕捉气体分子,激活特异性的G蛋白,把气味信号转换成动作电位,沿嗅觉传导通路传输到嗅皮层,最后大脑完成对气味信号的整理和识别作用,形成对气味的感受。
补充资料:精液气味
精液气味
生理名。精液气味难于确切描述,一般认 为有一种特殊的腥味,有人描写为稻豆味或核桃花味。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条