Cold stress alters Mytilus edulis pedal ganglia expression of mu opiate receptor transcripts determined by real-time RT-PCR and morphine levels.

Cadet P; Zhu W; Mantione KJ; Baggerman G; Stefano GB

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Cold stress alters Mytilus edulis pedal ganglia expression of mu opiate receptor transcripts determined by real-time RT-PCR and morphine levels.

机译：冷应激会改变由实时RT-PCR和吗啡水平决定的鸦片受体转录物的Mytilus edulis踏板神经节表达。

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Previous pharmacological, biochemical and molecular evidence prove that mu-subtype opiate receptors and opiate alkaloids, i.e. morphine, are present in the ganglionic nervous system of the mollusk Mytilus edulis (bivalve). We now present molecular evidence on the effect of rapid temperature changes on mu opiate receptor expression and morphine levels. Using primers, a labeled Taq-Man probe derived from the human neuronal mu1 opiate receptor, and real-time RT-PCR to measure the expression of mu transcripts from Mytilus pedal ganglia, we observe, in animals placed in cold water from room temperature, an enhanced morphine and morphine 6 glucuronide level in addition to a decrease in mu opiate receptor gene expression. This study provides further evidence that mu-type opiate receptors and morphine are expressed in mollusk ganglia and appear to be involved in physiological processes responding to thermal stress.

机译：先前的药理，生化和分子证据证明，在软体动物Mytilus edulis（双壳类）的神经节神经系统中存在μ亚型的鸦片受体和鸦片生物碱，即吗啡。现在，我们提供分子温度快速变化对阿片受体表达和吗啡水平影响的分子证据。我们观察到，在室温下置于冷水中的动物中，使用引物，源自人神经元mu1阿片受体的标记Taq-Man探针和实时RT-PCR测量Mytilus踏板神经节的mu转录物的表达，除了减少阿片受体基因表达外，还增强了吗啡和吗啡6葡萄糖醛酸水平。这项研究提供了进一步的证据，表明mu型鸦片受体和吗啡在软体动物神经节中表达，并似乎参与了响应热应激的生理过程。

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《Brain research. Molecular brain research 》 |2002年第1期| 共8页
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Cadet P; Zhu W; Mantione KJ; Baggerman G; Stefano GB;
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正文语种 eng
中图分类内科学 ;
关键词
Receptors; Opioid; Morphine; Reverse Transcriptase Polymerase Chain Reaction; 受体; 阿片样; 吗啡; 逆转录聚合酶链反应;

机译：Receptors;Opioid;Morphine;Reverse Transcriptase Polymerase Chain Reaction;受体;阿片样;吗啡;逆转录聚合酶链反应;

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1. Cold stress alters Mytilus edulis pedal ganglia expression of mu opiate receptor transcripts determined by real-time RT-PCR and morphine levels. [J] . Cadet P, Zhu W, Mantione KJ, Brain research. Molecular brain research . 2002 ,第1期

机译：冷应激会改变由实时RT-PCR和吗啡水平决定的鸦片受体转录物的Mytilus edulis踏板神经节表达。
2. Exposure to opiates in female adolescents alters mu opiate receptor expression and increases the rewarding effects of morphine in future offspring [J] . Vassoler Fair M., Wright Siobhan J., Byrnes Elizabeth M. Neuropharmacology . 2016 ,第Null期

机译：暴露于雌性青少年的阿片类药物会改变阿片受体的表达，并增加吗啡对后代的奖励作用
3. Real-time RT-PCR measurement of the modulation of Mu opiate receptor expression by nitric oxide in human mononuclear cells. [J] . P Cadet, K Mantione, T V Bilfinger, Medical science monitor : . 2001 ,第2期

机译：实时RT-PCR测量一氧化氮在人单核细胞中对阿片类鸦片受体表达的调节。
4. Expression analysis of the cold-responsive transcripts CLT-a and CLT-b from Poncirus trifoliata by RT-PCR and real-time PCR. [D] . Robbins, Adriana L. 2004

机译：利用逆转录-聚合酶链反应和实时荧光定量PCR分析三叶草的冷应答转录本CLT-a和CLT-b的表达。
5. Exposure to Opiates in Female Adolescents Alters Mu Opiate Receptor Expression and Increases the Rewarding Effects of Morphine in Future Offspring [O] . Fair M. Vassoler, Siobhan J. Wright, Elizabeth M. Byrnes -1

机译：在女性青少年中暴露于阿片类药物会改变Mu阿片受体的表达并增加吗啡在未来后代中的奖励作用
6. LPS and IL-1α increase endogenous morphine production in mollusk Mytilus edulis pedal ganglia [O] . W. Zhu, P. Cadet, G. B. Stefano 2008

机译：LPS和IL-1α增加了MOLLUSK MYTILUS Edulis Pedlia的内源性吗啡生产

Cold stress alters Mytilus edulis pedal ganglia expression of mu opiate receptor transcripts determined by real-time RT-PCR and morphine levels.

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