而弄清楚这些分子的结构有助于科学家们去研究那些由畸形蛋白质引起的疾病,并找出更好的药物靶点。
Figuring out such structures could help scientists learn more about diseases caused by malformed proteins and identify better drug targets.
好的蛋白结构分辨率对于对于很多应用都是非常重要的,包括但不限于虚拟筛选药物靶点与对接程序和蛋白质设计。
Better resolution is important for a number of applications, including but not limited to virtual screening of drug targets with docking procedures and protein design.
但是不管时间有多长,任何药物的结构改变都会改变他们对靶点的作用能力。
Any alteration of a drug's structure, however, will change its ability to interact with its target, regardless of the length of time involved.
它们在研究基因表达、基因识别、寻找药物靶点和探讨蛋白质结构与功能上都有着广泛的应用。
Meanwhile, they are widely applied to gene expression, gene identification, searching for drug targets and studying structure and function of proteins.
目前在分子或细胞特性的基础上预测药物的靶点,例如,研究化学结构或对细胞株活性的相似性。
Targets for drugs have so far been predicted on the basis of molecular or cellular features, for example, by exploiting similarity in chemical structure or in activity across cell lines.
目前在分子或细胞特性的基础上预测药物的靶点,例如,研究化学结构或对细胞株活性的相似性。
Targets for drugs have so far been predicted on the basis of molecular or cellular features, for example, by exploiting similarity in chemical structure or in activity across cell lines.
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