1) μ-opioid receptor
μ-阿片受体
1.
Modulating effect of agmatine on desensitization and down-regulation of μ-opioid receptor by activation of I1 imidazoline receptor;
胍丁胺-I1咪唑啉受体对μ-阿片受体脱敏和下调的影响
2.
Modulation of agmatine on internalization of μ-opioid receptor by activation of I1 imidazoline receptor and its molecular mechanism
胍丁胺-I1咪唑啉受体对μ-阿片受体内吞的影响及机制探讨
3.
Objective To investigate the effect ofμ-opioid receptor(MOR)on the process of methamphetamine(METH)-induced behavioral sensitization in mice.
目的探讨μ-阿片受体(μ-opioid receptor,MOR)在小鼠甲基苯丙胺行为敏化中的作用。
2) μ opioid receptor
μ阿片受体
1.
Dependent potency of endomorphin-1 and its regulation of μ opioid receptor;
内吗啡肽1的依赖潜力及其对μ阿片受体的调节
2.
Objective:To investigate the effects of agmatine by activation I1 imidazoline receptor on DAMGO-induced down-regulation and internalization of μ opioid receptor(MOR).
目的:观察胍丁胺通过激活I1咪唑啉受体(I1R)对阿片预处理引起的μ阿片受体(MOR)下调的影响及可能的分子基础。
3.
Objective To investigate the synaptic connections between endomorphin-immunoreactive(ir) terminals and μ opioid receptor-ir neurons in the superficial layers(laminae Ⅰ and Ⅱ) of the rat spinal dorsal horn.
目的观察大鼠脊髓背角内吗啡肽阳性终末与μ阿片受体阳性神经元的突触联系。
3) μ opioid receptor
阿片μ受体
1.
Synapses between ENK immunoreactive terminals and GABAergic neurons bearing μ opioid receptor in the rostral portion of nucleus tractus solitarious in rat;
大鼠延髓孤束核吻侧段内脑啡肽免疫阳性轴突末梢与含阿片μ受体的γ-氨基丁酸能神经元之间的突触联系
2.
To observe the connections between leucine enkephalin (L ENK) , β endorphin (β END) or dynorphin (Dyn) immunoreactive terminals and glutamate decarboxylase (GAD)/μ opioid receptor (MOR) co existed neurons within the midbrain central gray (CG) in the rat, immunofluorescence histochemical triple staining technique was used.
本研究用免疫组织化学三重反应 ,在激光共聚焦扫描显微镜下观察了中脑中央灰质内的谷氨酸脱羧酶和阿片μ受体共存神经元与亮氨酸 -脑啡肽、β-内啡肽和强啡肽阳性终末的联系。
3.
The ultrastructural localization of μ opioid receptor (MOR) in the superficial layers of the cat spinal cord was investigated by electron microscopy.
用免疫电镜技术观察了阿片μ受体(MOR)在猫脊髓背角浅层内的超微定位分布。
4) μ-opioid receptor
阿片μ受体
1.
Effect of glucocorticoid on μ-opioid receptor in morphine dependent rats;
糖皮质激素对吗啡依赖大鼠脑区阿片μ受体的影响
2.
In the present study, the immunofluorescence and double- immunofluoresence histochemical techniques were usedto examine the distribution of μ-opioid receptor(MOR) and co-localization of MOR-like irnmunoreactivity (LI) with sub-stance P (SP)-, calcitonin gene-related peptide(CGRP)-, and somatostatin(SOM)- LI in the ganglion cells of the trigeminaland dorsal root ganglia in the rat.
本研究应用免疫荧光及免疫荧光双重染色技术,观察了大鼠三叉神经节和背根神经节内阿片μ受体免疫反应阳性神经元的分布及其与SP、CGRP和SOM阳性神经元之间是否存在共存关系。
5) μ-opioid receptor
μ阿片受体
1.
The modeling of three-dimensional structure of humanμ-opioid receptor and the study of molecular docking of fentanyl analogs
μ阿片受体三维结构模建与芬太尼类似物分子对接研究(英文)
6) human μ opioid receptor cDNA
μ型阿片受体cDNA
补充资料:阿片受体
分子式:
CAS号:
性质:为介导阿片类镇痛药及内源性阿片肽作用的受体。药理学实验已证明至少存在着μ、K、δ三种阿片受体,属于G蛋白偶联受体;并认为每种阿片受体仍具有多个亚型。目前已知μ、K、δ受体均可介导镇痛。
CAS号:
性质:为介导阿片类镇痛药及内源性阿片肽作用的受体。药理学实验已证明至少存在着μ、K、δ三种阿片受体,属于G蛋白偶联受体;并认为每种阿片受体仍具有多个亚型。目前已知μ、K、δ受体均可介导镇痛。
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