目的 :研究大鼠脑内白细胞介素 1I型受体 m RNA表达神经元的分布。材料和方法 :以 35S标记的 IL- 1Rt Ic DNA作为探针 ,采用原位杂交技术检测大鼠脑内 IL- 1Rt I m RNA表达神经元分布广泛而又不均匀。根据表达IL- 1Rt I m RNA神经元的...目的 :研究大鼠脑内白细胞介素 1I型受体 m RNA表达神经元的分布。材料和方法 :以 35S标记的 IL- 1Rt Ic DNA作为探针 ,采用原位杂交技术检测大鼠脑内 IL- 1Rt I m RNA表达神经元分布广泛而又不均匀。根据表达IL- 1Rt I m RNA神经元的密度变化 ,大鼠脑可分为四种密度区 :非常高、高、中等、低密度区。结论 :提示脑内白细胞介素 1通过其展开更多
The visceral traction reaction is a trouble problem that has yet to be solved, in surgical operations by acupuncture anaesthesia. However, authors reported that the stomach traction reaction could be inhibited by an a...The visceral traction reaction is a trouble problem that has yet to be solved, in surgical operations by acupuncture anaesthesia. However, authors reported that the stomach traction reaction could be inhibited by an additional acupuncture at Zusanli point. In recent years, it is reported that the transmission pathways of展开更多
文摘目的 :研究大鼠脑内白细胞介素 1I型受体 m RNA表达神经元的分布。材料和方法 :以 35S标记的 IL- 1Rt Ic DNA作为探针 ,采用原位杂交技术检测大鼠脑内 IL- 1Rt I m RNA表达神经元分布广泛而又不均匀。根据表达IL- 1Rt I m RNA神经元的密度变化 ,大鼠脑可分为四种密度区 :非常高、高、中等、低密度区。结论 :提示脑内白细胞介素 1通过其
文摘The visceral traction reaction is a trouble problem that has yet to be solved, in surgical operations by acupuncture anaesthesia. However, authors reported that the stomach traction reaction could be inhibited by an additional acupuncture at Zusanli point. In recent years, it is reported that the transmission pathways of