基因组学、生物信息学和许多其他新学科揭示的生命奥秘越多,我们目前所了解的不足于胜任这一工作就变得越明显。
The more that genomics, bioinformatics and many other newer disciplines reveal about life, the more obvious it becomes that our present understanding is not up to the job.
用生物信息学、分子遗传学和基因组学等手段,研究小鼠基因组功能及发育分子机理。
Using bioinformatics, molecular genetics, genomics and other approaches to study mouse functional genomics and mechanism of developmental biology.
用功能基因组学、分子流行病学和生物信息学等手段,研究非小细胞肺癌的转移机理、脑胶质瘤的发生机理。
Using functional genomics, molecular epidemiology, bioinformatics and other approaches to study the metastasis mechanism of NSCLC, and carcinogenesis of glioma.
在药物基因组学,临床生物信息学由生物信息学工具和药物靶点的鉴定、临床验证相关的蛋白质组学等多方面研究组成。
In pharmacogenomics, clinical bioinformatics includes elaborate studies of bioinformatics tools and various facets of proteomics related to drug target identification and clinical validation.
在药物基因组学,临床生物信息学由生物信息学工具和药物靶点的鉴定、临床验证相关的蛋白质组学等多方面研究组成。
In pharmacogenomics, clinical bioinformatics includes elaborate studies of bioinformatics tools and various facets of proteomics related to drug target identification and clinical validation.
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