丙型肝炎病毒(hepatitis C virus,HCV)是引起慢性肝炎的主要病原体之一,主要通过血源传播,严重危害人类的健康,寻找有效的抗病毒药物具有重要意义。随着HCV复制过程中一些重要蛋白以及这些蛋白与相关配体或抑制剂的精确三维结构的解析,...丙型肝炎病毒(hepatitis C virus,HCV)是引起慢性肝炎的主要病原体之一,主要通过血源传播,严重危害人类的健康,寻找有效的抗病毒药物具有重要意义。随着HCV复制过程中一些重要蛋白以及这些蛋白与相关配体或抑制剂的精确三维结构的解析,对这些蛋白的三维结构进行设计和筛选,成为目前开发治疗HCV感染药物的重要手段。NS5B RNA聚合酶是HCV复制过程中的关键酶,是研究抗HCV病毒药物的一个重要靶点。本文以NS5B的晶体结构为基础,用晶体浸泡的方法进行NS5B蛋白的抑制剂筛选,得到了小分子抑制剂与NS5B蛋白的精确三维结构,从原子水平上阐释了抑制剂对HCV NS5B蛋白的抑制机理。展开更多
在Through changing soaking temperature and soaking time, austenite grain growth behavior of X80 pipeline steel under different heating conditions was studied. Relationships of average grain size to soaking temperature...在Through changing soaking temperature and soaking time, austenite grain growth behavior of X80 pipeline steel under different heating conditions was studied. Relationships of average grain size to soaking temperature and time were obtained respectively. The results show that the prior austenite grains grow with the increase of soaking temperature and time. When soaking temperature is lower than 1 180 ℃, austenite grain size and growth rate are small; when it higher than 1 200 ℃, austenite grains grow rapidly and abnormal grain growth appears. For soaking at 1 180 ℃, austenite grain growth rate is initially high and then decreases when soaking time exceeds 1 h.展开更多
文摘丙型肝炎病毒(hepatitis C virus,HCV)是引起慢性肝炎的主要病原体之一,主要通过血源传播,严重危害人类的健康,寻找有效的抗病毒药物具有重要意义。随着HCV复制过程中一些重要蛋白以及这些蛋白与相关配体或抑制剂的精确三维结构的解析,对这些蛋白的三维结构进行设计和筛选,成为目前开发治疗HCV感染药物的重要手段。NS5B RNA聚合酶是HCV复制过程中的关键酶,是研究抗HCV病毒药物的一个重要靶点。本文以NS5B的晶体结构为基础,用晶体浸泡的方法进行NS5B蛋白的抑制剂筛选,得到了小分子抑制剂与NS5B蛋白的精确三维结构,从原子水平上阐释了抑制剂对HCV NS5B蛋白的抑制机理。
基金Item Sponsored by National Key Technology Research and Development Program of China (2006BAE03A15)Natural Science Foundation of Yunnan Province of China (2006E0017Q)
文摘在Through changing soaking temperature and soaking time, austenite grain growth behavior of X80 pipeline steel under different heating conditions was studied. Relationships of average grain size to soaking temperature and time were obtained respectively. The results show that the prior austenite grains grow with the increase of soaking temperature and time. When soaking temperature is lower than 1 180 ℃, austenite grain size and growth rate are small; when it higher than 1 200 ℃, austenite grains grow rapidly and abnormal grain growth appears. For soaking at 1 180 ℃, austenite grain growth rate is initially high and then decreases when soaking time exceeds 1 h.
