前言:目的:观察桂枝汤有效部位A对酵母致热大鼠下丘脑组织蛋白质组的影响。
Objective: To observe the differential expressed protein spots in hypothalamus in yeast-induced febrile rats and the febrile rats treated with Fr.
本方法已应用在服用中药的大鼠下丘脑组织及血液的测定中,数据显示,本法能满足测定要求。
This method was applied to determining the monoamines in hypothalamus tissues of rats upon taking traditional Chinese medicine, and satisfactory results were achieved.
方法:建立伤害性疼痛动物模型,通过化学荧光法,测定大鼠下丘脑组织中5-HT、5-HTAA、NE含量,观察虎斑游蛇不同浓度醇提物对其含量的影响。
Methods: Establishing ache models, observe on the content of 5-HT, 5-HTAA, NE in hypothalamus of rats by chemical methods to study effect of extraction of natrix tigrina lateralis by alcohol to which.
方法取5个月龄水囊引产胚胎的下丘脑和垂体组织进行培养,并收集其条件培养基。
Methods the hypothalamic and pituitary tissues from freshly aborted 5-month human fetuses were taken for cellular culture and the condition medium was collected.
FTO基因广泛地分布于生物界,并在动物多种组织中表达,其中在下丘脑中表达量最高。
FTO gene widely exists in the various animals, and is expressed in different tissues of animals with the highest level of expression in the hypothalamus.
发现ASIP基因在禽类皮肤组织(毛囊和皮肤)和中枢神经系统(下丘脑)及其他非皮肤中均有表达。
The results showed that ASIP gene expressed in the skin (hair follicle and skin), central nervous system (hypothalamus) and other non-skin tissues of avian.
垂体下丘脑作为神经内分泌组织具有一定的特殊性,而PET作为功能影像方法在垂体下丘脑疾病中的应用具有重要意义。
As neuroendocrine tissues, the hypothalamus and pituitary gland have their unique features, and PET can be valuable in evaluating hypothalamic-pituitary diseases lesions.
FTO基因在下丘脑中的作用主要是调节食欲和能量代谢,而在其他组织中的作用还有待深入研究。
The major role of FTO gene is to regulate appetite and energy metabolism in the hypothalamus, however, its role in other tissues remains unclear.
FTO基因在下丘脑中的作用主要是调节食欲和能量代谢,而在其他组织中的作用还有待深入研究。
The major role of FTO gene is to regulate appetite and energy metabolism in the hypothalamus, however, its role in other tissues remains unclear.
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