生物信息学与毒理基因组学研究的结合为环境与健康研究开辟了新的方法。
The combination of bioinformatics and toxicogenomics may develop a new method for the study of environment and health.
同时,若进一步集成神经信息学相关学科及科研环境,将对基础神经信息学有重大的意义。
Moreover, if integrate the relative subjects and scientific research environment of neuroinformatics, it should be great significance for research of neuroinformatics.
同时,以浙江大学多学科综合科研环境为背景,进一步架构了一个无缝的资源共享的神经信息学集成环境。
Moreover, design a seamless and resource Shared integrated environment of neuroinformatics, based on the multi-subjects and integrated scientific research environment of Zhejiang University.
在各种生态环境中筛选微生物新种,监测微生物群落结构,并结合生物信息学进行微生物元基因组研究。
Classification of novel isolates, analysis of microbial population, and study of metagenomics with the support of bioinformatics from variant environments.
这里,我们讨论了基于电子学习环境开发和发布一个生物信息学教育系统的重要性。
Here, we discuss its importance in developing and delivering an educational system in Bioinformatics based one-learning environment.
我们以斑马鱼为模式动物,利用发育遗传学、生物信息学和分子化学的方法研究心脏和血管的分化形成以及环境对心血管发育的影响。
We are studying heart and blood vessel in zebrafish embryos, an experimental system that affords a powerful combination of genetic analyses with molecular, embryological and chemical approach.
我们以斑马鱼为模式动物,利用发育遗传学、生物信息学和分子化学的方法研究心脏和血管的分化形成以及环境对心血管发育的影响。
We are studying heart and blood vessel in zebrafish embryos, an experimental system that affords a powerful combination of genetic analyses with molecular, embryological and chemical approach.
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